1PH813/1PH816 main motors ___________________ Introduction Fundamental safety 1 ___________________ instructions SIMOTICS Drive technology 1PH813/1PH816 main motors Operating Instructions 2 ___________________ Description 3 ___________________ Preparations for use 4 ___________________ Mechanical mounting 5 ___________________ Connection 6 ___________________ Commissioning 7 ___________________ Operation 8 ___________________ Maintenance 9 ___________________ Spare parts Decommissioning and 10 ___________________ disposal A ___________________ Appendix 01/2015 610.48006.40c Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger. DANGER indicates that death or severe personal injury will result if proper precautions are not taken. WARNING indicates that death or severe personal injury may result if proper precautions are not taken. CAUTION indicates that minor personal injury can result if proper precautions are not taken. NOTICE indicates that property damage can result if proper precautions are not taken. If more than one degree of danger is present, the warning notice representing the highest degree of danger will be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage. Qualified Personnel The product/system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation, in particular its warning notices and safety instructions. Qualified personnel are those who, based on their training and experience, are capable of identifying risks and avoiding potential hazards when working with these products/systems. Proper use of Siemens products Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems. The permissible ambient conditions must be complied with. The information in the relevant documentation must be observed. Trademarks All names identified by (R) are registered trademarks of Siemens AG. The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner. Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions. Siemens AG Division Digital Factory Postfach 48 48 90026 NURNBERG GERMANY Order number: 610.48006.40c 06/2015 Subject to change Copyright (c) Siemens AG 2010 - 2015. All rights reserved Introduction These operating instructions describe the motor and explain how to handle the motor from the delivery to the disposal stage. Before you start using the motor, you must read these operating instructions. to ensure safe, problem-free operation and to maximize the service life. These operating instructions complement the relevant SIEMENS Configuration Manual. Siemens strives continually to improve the quality of information provided in these operating instructions. If you find any mistakes or would like to offer suggestions about how this document could be improved, contact the Siemens Service Center. Always follow the safety instructions and notices in these operating instructions. The warning notice system is explained on the rear of the inside front. Text features In addition to the notes that you must observe for your own personal safety as well as to avoid material damage, in these operating instructions you will find the following text features: Operating instructions Operating instructions with the specified sequence are designated using the following symbols: The arrow indicates the start of the operating instructions. The individual handling steps are numbered. 1. Execute the operating instructions in the specified sequence. The square indicates the end of the operating instruction. Operating instructions without a specified sequence are identified using a bullet point: Execute the operating instructions. Enumerations Enumerations are identified by a bullet point without any additional symbols. - Enumerations at the second level are hyphenated. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 5 Introduction Notes Notes are shown as follows: Note A Note is an important item of information about the product, handling of the product or the relevant section of the document. Notes provide you with help or further suggestions/ideas. Target group These operating instructions are intended for electricians, fitters, service technicians and warehouse personnel. Training The following link provides information on SITRAIN - training from Siemens for products, systems and automation engineering solutions: http://siemens.com/sitrain Technical Support Country-specific telephone numbers for technical support are provided on the Internet under Contact: https://support.industry.siemens.com Recommended additional documents System components Manufacturer's manuals Motor * Configuration Manual Encoder system * User Manual * Operating Instructions Brake * Operating Instructions Sensor module * Manual Drive system * Commissioning Manual * List Manual * Function Manual 1PH813/1PH816 main motors 6 Operating Instructions, 01/2015, 610.48006.40c Introduction More information Information on the following topics is available under the link: Ordering documentation/overview of documentation Additional links to download documents Using documentation online (find and search in manuals/information) http://www.siemens.com/motioncontrol/docu Please send any questions about the technical documentation (e.g. suggestions for improvement, corrections) to the following e-mail address: docu.motioncontrol@siemens.com Current manuals and operating instructions for motors / direct drives are available on the Internet under the following link: http://www.siemens.com/motioncontrol/docu Any manuals or operating instructions that you may have in printed or electronic file form could be of an older product version. My Support The following link provides information on how to create your own individual documentation based on Siemens content, and adapt it for your own machine documentation: http://support.industry.siemens.com Note If you want to use this function, you must first register. Later, you can log on with your login data. Websites of third parties This publication contains hyperlinks to websites of third parties. Siemens does not take any responsibility for the contents of these websites or adopt any of these websites or their contents as their own, because Siemens does not control the information on these websites and is also not responsible for the contents and information provided there. Use of these websites is at the risk of the person doing so. Internet address for products http://www.siemens.com/motioncontrol EC Declaration of Conformity The EC Declaration of Conformity for the Low Voltage Directive can be found in the Appendix. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 7 Introduction 1PH813/1PH816 main motors 8 Operating Instructions, 01/2015, 610.48006.40c Table of contents Introduction ............................................................................................................................................. 5 1 2 3 4 Fundamental safety instructions ............................................................................................................ 13 1.1 General safety instructions .....................................................................................................13 1.2 Handling electrostatic sensitive devices (ESD) ......................................................................17 1.3 Industrial security ....................................................................................................................18 1.4 Residual risks during the operation of electric motors ............................................................19 Description ............................................................................................................................................ 21 2.1 Use for the intended purpose .................................................................................................21 2.2 2.2.1 2.2.2 2.2.3 2.2.4 2.2.5 Technical characteristics and ambient conditions ..................................................................22 Regulations .............................................................................................................................22 Technical characteristics.........................................................................................................22 Ambient conditions ..................................................................................................................23 Degree of protection ...............................................................................................................23 Noise emission ........................................................................................................................24 2.3 Rating plate data (type plate) ..................................................................................................25 2.4 2.4.1 2.4.2 2.4.3 2.4.3.1 2.4.3.2 Design .....................................................................................................................................27 Types of construction ..............................................................................................................27 Cooling ....................................................................................................................................28 Holding brake (option).............................................................................................................32 Properties ................................................................................................................................32 Mounted holding brake for SH 132 and SH 160 .....................................................................36 Preparations for use .............................................................................................................................. 37 3.1 Shipment and packaging ........................................................................................................37 3.2 3.2.1 3.2.2 Transportation and storage .....................................................................................................37 Transport .................................................................................................................................38 Storage ...................................................................................................................................40 Mechanical mounting ............................................................................................................................ 43 4.1 Installation ...............................................................................................................................43 4.2 Fixing.......................................................................................................................................44 4.3 Attaching the output elements ................................................................................................45 4.4 Vibration stressing ..................................................................................................................47 4.5 4.5.1 4.5.2 Rotor-supported rotating unions for 1PH8 hollow shaft motors ..............................................48 Introduction .............................................................................................................................48 Mounting .................................................................................................................................50 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 9 Table of contents 5 6 7 8 Connection ........................................................................................................................................... 59 5.1 Mechanical connection of water cooling system.................................................................... 59 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 5.2.6 5.2.7 5.2.8 5.2.9 5.2.10 5.2.11 5.2.12 5.2.13 5.2.14 Electrical connection .............................................................................................................. 60 Cable routing .......................................................................................................................... 61 Circuit diagram ....................................................................................................................... 62 Terminal box .......................................................................................................................... 63 Power connector (for 1PH813 only) ....................................................................................... 66 Electrical connection data ...................................................................................................... 66 Motors with DRIVE-CLiQ interface ........................................................................................ 68 Motors without DRIVE-CLiQ interface ................................................................................... 69 Connecting an HTL incremental encoder .............................................................................. 70 Connecting the temperature sensor ...................................................................................... 72 Connecting a grounding conductor in the terminal box ......................................................... 72 Connecting the external fan ................................................................................................... 73 Connecting-up a converter ..................................................................................................... 76 Connecting a holding brake (option) ...................................................................................... 76 Sealing air connection (option Q12)....................................................................................... 76 Commissioning ..................................................................................................................................... 79 6.1 Safety instructions for commissioning ................................................................................... 79 6.2 Checklists for commissioning................................................................................................. 82 6.3 Checking the insulation resistance ........................................................................................ 85 6.4 Switching-on and switching-off .............................................................................................. 87 6.5 Cooling ................................................................................................................................... 88 Operation .............................................................................................................................................. 89 7.1 Faults ..................................................................................................................................... 90 7.2 Non-operational periods ......................................................................................................... 93 Maintenance ......................................................................................................................................... 95 8.1 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.1.7 Inspection and maintenance .................................................................................................. 96 General inspection guidelines ................................................................................................ 96 Maintenance and inspection intervals .................................................................................... 96 Initial inspection...................................................................................................................... 97 General inspection ................................................................................................................. 98 Bearing replacement intervals ............................................................................................... 99 Cleaning the motor and fan (external fan) ........................................................................... 101 Replacing an encoder .......................................................................................................... 103 8.2 8.2.1 8.2.2 8.2.3 8.2.4 8.2.5 8.2.6 Corrective maintenance ....................................................................................................... 103 Removing/installing the motor.............................................................................................. 105 Removing/installing the speed encoder ............................................................................... 106 Removing/installing the toothed-wheel encoder .................................................................. 109 Replacing the DRIVE-CLiQ interface (encoder module) ..................................................... 112 Tightening torque for screwed connections ......................................................................... 113 Removing/mounting a holding brake (option) ...................................................................... 113 1PH813/1PH816 main motors 10 Operating Instructions, 01/2015, 610.48006.40c Table of contents 9 Spare parts ......................................................................................................................................... 115 10 Decommissioning and disposal ........................................................................................................... 119 A 10.1 Decommissioning..................................................................................................................119 10.2 Disposal ................................................................................................................................120 Appendix............................................................................................................................................. 123 A.1 Declaration of conformity ......................................................................................................123 A.2 Note regarding a holding brake ............................................................................................124 A.3 Holding brake operating instructions ....................................................................................125 Index................................................................................................................................................... 155 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 11 Table of contents 1PH813/1PH816 main motors 12 Operating Instructions, 01/2015, 610.48006.40c Fundamental safety instructions 1.1 1 General safety instructions DANGER Danger to life due to live parts and other energy sources Death or serious injury can result when live parts are touched. * Only work on electrical devices when you are qualified for this job. * Always observe the country-specific safety rules. Generally, six steps apply when establishing safety: 1. Prepare for shutdown and notify all those who will be affected by the procedure. 2. Disconnect the machine from the supply. - Switch off the machine. - Wait until the discharge time specified on the warning labels has elapsed. - Check that it really is in a no-voltage condition, from phase conductor to phase conductor and phase conductor to protective conductor. - Check whether the existing auxiliary supply circuits are de-energized. - Ensure that the motors cannot move. 3. Identify all other dangerous energy sources, e.g. compressed air, hydraulic systems, or water. 4. Isolate or neutralize all hazardous energy sources by closing switches, grounding or short-circuiting or closing valves, for example. 5. Secure the energy sources against switching on again. 6. Ensure that the correct machine is completely interlocked. After you have completed the work, restore the operational readiness in the inverse sequence. WARNING Danger to life through a hazardous voltage when connecting an unsuitable power supply Touching live components can result in death or severe injury. * Only use power supplies that provide SELV (Safety Extra Low Voltage) or PELV(Protective Extra Low Voltage) output voltages for all connections and terminals of the electronics modules. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 13 Fundamental safety instructions 1.1 General safety instructions WARNING Danger to life when live parts are touched on damaged motors/devices Improper handling of motors/devices can damage them. For damaged motors/devices, hazardous voltages can be present at the enclosure or at exposed components. * Ensure compliance with the limit values specified in the technical data during transport, storage and operation. * Do not use any damaged motors/devices. WARNING Danger to life through electric shock due to unconnected cable shields Hazardous touch voltages can occur through capacitive cross-coupling due to unconnected cable shields. * As a minimum, connect cable shields and the conductors of power cables that are not used (e.g. brake cores) at one end at the grounded housing potential. WARNING Danger to life due to electric shock when not grounded For missing or incorrectly implemented protective conductor connection for devices with protection class I, high voltages can be present at open, exposed parts, which when touched, can result in death or severe injury. * Ground the device in compliance with the applicable regulations. WARNING Danger to life due to electric shock when opening plug connections in operation When opening plug connections in operation, arcs can result in severe injury or death. * Only open plug connections when the equipment is in a no-voltage state, unless it has been explicitly stated that they can be opened in operation. 1PH813/1PH816 main motors 14 Operating Instructions, 01/2015, 610.48006.40c Fundamental safety instructions 1.1 General safety instructions WARNING Danger to life through unexpected movement of machines when using mobile wireless devices or mobile phones Using mobile wireless devices or mobile phones with a transmit power > 1 W closer than approx. 2 m to the components may cause the devices to malfunction, influence the functional safety of machines therefore putting people at risk or causing material damage. * Switch the wireless devices or mobile phones off in the immediate vicinity of the components. WARNING Danger of an accident occurring due to missing or illegible warning labels Missing or illegible warning labels can result in accidents involving death or serious injury. * Check that the warning labels are complete based on the documentation. * Attach any missing warning labels to the components, in the national language if necessary. * Replace illegible warning labels. WARNING Danger to life when safety functions are inactive Safety functions that are inactive or that have not been adjusted accordingly can cause operational faults on machines that could lead to serious injury or death. * Observe the information in the appropriate product documentation before commissioning. * Carry out a safety inspection for functions relevant to safety on the entire system, including all safety-related components. * Ensure that the safety functions used in your drives and automation tasks are adjusted and activated through appropriate parameterizing. * Perform a function test. * Only put your plant into live operation once you have guaranteed that the functions relevant to safety are running correctly. Note Important safety notices for Safety Integrated functions If you want to use Safety Integrated functions, you must observe the safety notices in the Safety Integrated manuals. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 15 Fundamental safety instructions 1.1 General safety instructions WARNING Danger to life from electromagnetic fields Electromagnetic fields (EMF) are generated by the operation of electrical power equipment such as transformers, converters or motors. People with pacemakers or implants are at a special risk in the immediate vicinity of these devices/systems. * Ensure that the persons involved are the necessary distance away (minimum 2 m). WARNING Danger to life from permanent magnet fields Even when switched off, electric motors with permanent magnets represent a potential risk for persons with heart pacemakers or implants if they are close to converters/motors. * If you are such a person (with heart pacemaker or implant) then keep a minimum distance of 2 m. * When transporting or storing permanent magnet motors always use the original packing materials with the warning labels attached. * Clearly mark the storage locations with the appropriate warning labels. * IATA regulations must be observed when transported by air. WARNING Injury caused by moving parts or those that are flung out Touching moving motor parts or drive output elements and loose motor parts that are flung out (e.g. feather keys) in operation can result in severe injury or death. * Remove any loose parts or secure them so that they cannot be flung out. * Do not touch any moving parts. * Safeguard all moving parts using the appropriate safety guards. WARNING Danger to life due to fire if overheating occurs because of insufficient cooling Inadequate cooling can cause overheating resulting in death or severe injury as a result of smoke and fire. This can also result in increased failures and reduced service lives of motors. * Comply with the specified coolant requirements for the motor. 1PH813/1PH816 main motors 16 Operating Instructions, 01/2015, 610.48006.40c Fundamental safety instructions 1.2 Handling electrostatic sensitive devices (ESD) WARNING Danger to life due to fire as a result of overheating caused by incorrect operation When incorrectly operated and in the case of a fault, the motor can overheat resulting in fire and smoke. This can result in severe injury or death. Further, excessively high temperatures destroy motor components and result in increased failures as well as shorter service lives of motors. * Operate the motor according to the relevant specifications. * Only operate the motors in conjunction with effective temperature monitoring. * Immediately switch off the motor if excessively high temperatures occur. CAUTION Risk of injury due to touching hot surfaces In operation, the motor can reach high temperatures, which can cause burns if touched. * Mount the motor so that it is not accessible in operation. When maintenance is required * allow the motor to cool down before starting any work. * Use the appropriate personnel protection equipment, e.g. gloves. 1.2 Handling electrostatic sensitive devices (ESD) Electrostatic sensitive devices (ESD) are individual components, integrated circuits, modules or devices that may be damaged by either electric fields or electrostatic discharge. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 17 Fundamental safety instructions 1.3 Industrial security NOTICE Damage through electric fields or electrostatic discharge Electric fields or electrostatic discharge can cause malfunctions through damaged individual components, integrated circuits, modules or devices. * Only pack, store, transport and send electronic components, modules or devices in their original packaging or in other suitable materials, e.g conductive foam rubber of aluminum foil. * Only touch components, modules and devices when you are grounded by one of the following methods: - Wearing an ESD wrist strap - Wearing ESD shoes or ESD grounding straps in ESD areas with conductive flooring * Only place electronic components, modules or devices on conductive surfaces (table with ESD surface, conductive ESD foam, ESD packaging, ESD transport container). 1.3 Industrial security Note Industrial security Siemens provides products and solutions with industrial security functions that support the secure operation of plants, solutions, machines, equipment and/or networks. They are important components in a holistic industrial security concept. With this in mind, Siemens' products and solutions undergo continuous development. Siemens recommends strongly that you regularly check for product updates. For the secure operation of Siemens products and solutions, it is necessary to take suitable preventive action (e.g. cell protection concept) and integrate each component into a holistic, state-of-the-art industrial security concept. Third-party products that may be in use should also be considered. For more information about industrial security, visit this address (http://www.siemens.com/industrialsecurity). To stay informed about product updates as they occur, sign up for a product-specific newsletter. For more information, visit this address (http://support.automation.siemens.com). 1PH813/1PH816 main motors 18 Operating Instructions, 01/2015, 610.48006.40c Fundamental safety instructions 1.4 Residual risks during the operation of electric motors WARNING Danger as a result of unsafe operating states resulting from software manipulation Software manipulation (e.g. by viruses, Trojan horses, malware, worms) can cause unsafe operating states to develop in your installation which can result in death, severe injuries and/or material damage. * Keep the software up to date. You will find relevant information and newsletters at this address (http://support.automation.siemens.com). * Incorporate the automation and drive components into a holistic, state-of-the-art industrial security concept for the installation or machine. You will find further information at this address (http://www.siemens.com/industrialsecurity). * Make sure that you include all installed products into the holistic industrial security concept. 1.4 Residual risks during the operation of electric motors The motors may be operated only when all protective equipment is used. Motors may be handled only by qualified and instructed qualified personnel that knows and observes all safety instructions for the motors that are explained in the associated technical user documentation. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 19 Fundamental safety instructions 1.4 Residual risks during the operation of electric motors When assessing the machine's risk in accordance with the respective local regulations (e.g., EC Machinery Directive), the machine manufacturer must take into account the following residual risks emanating from the control and drive components of a drive system: 1. Unintentional movements of driven machine components during commissioning, operation, maintenance, and repairs caused by, for example, - Hardware and/or software errors in the sensors, control system, actuators, and cables and connections - Response times of the control system and of the drive - Operation and/or environmental conditions outside the specification - Condensation/conductive contamination - Errors during the assembly, installation, programming and parameterization - Use of wireless devices/mobile phones in the immediate vicinity of the control system - External influences/damage 2. In case of failure, unusually high temperatures inside and outside the motor, including open fire as well as the emission of light, noise, particles, gases, etc. can result, for example in - Component failure - Software errors in converter operation - Operation and/or environmental conditions outside the specification - External influences/damage 3. Hazardous shock voltages caused by, for example, - Component failure - Influence during electrostatic charging - Induction of voltages in moving motors - Operation and/or environmental conditions outside the specification - Condensation/conductive contamination - External influences/damage 4. Electrical, magnetic and electromagnetic fields generated in operation that can pose a risk to people with a pacemaker, implants or metal replacement joints, etc., if they are too close 5. Release of noxious substances and emissions in the case of improper operation and/or improper disposal of components 1PH813/1PH816 main motors 20 Operating Instructions, 01/2015, 610.48006.40c 2 Description 2.1 Use for the intended purpose WARNING Danger to life and material damage when incorrectly used If you do not use the motors or their components correctly, there is a risk of death, severe injury and/or material damage. * Only use the motors for industrial or commercial plants and systems. * If, in an exceptional case, you do not use the motors in industrial or commercial plants and systems, ensure that increased requirements are complied with (e.g. regarding touch protection). * Do not use the motors in hazardous areas (where there is a risk of explosion), if the motors have not been expressly released and authorized for these types of applications. Carefully observe any special supplementary notes that may be attached. * Only use the motors and their components for the applications specified by Siemens. * Protect the motors against dirt and contact with aggressive substances. * Ensure that the site conditions comply with the rating plate data and the conditions specified in this documentation. When necessary, take into account deviations regarding approvals or country-specific regulations. * If you have any questions regarding the intended use, please contact your local Siemens office. * If you wish to use special versions and design variants whose specifications vary from the motors described in this document, then first contact your local Siemens office. The motors are designed for use in covered areas under normal climatic conditions, such as those found in production areas. The 1PH813 and 1PH816 three-phase induction and synchronous motors are used as industrial drives for machine tools and production machines. They are designed for use in a wide range of drive engineering applications. The variable-speed three-phase motors are supplied by a frequency converter and are characterized by their high power density, ruggedness, long lifetime, and overall reliability. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 21 Description 2.2 Technical characteristics and ambient conditions 2.2 Technical characteristics and ambient conditions 2.2.1 Regulations The motors comply with the following regulations acc. to IEC / EN 60034: Table 2- 1 Regulations that have been applied Feature Standard Rated and operation characteristics IEC / EN 60034-1 Degree of protection 1) IEC / EN 60034-5 Cooling IEC / EN 60034-6 Type of construction (1) IEC / EN 60034-7 Terminal markings IEC / EN 60034-8 Noise emission IEC / EN 60034-9 Temperature monitoring IEC / EN 60034-11 Vibration severity grades IEC / EN 60034-14 1) The degree of protection and type of construction of the motor are stamped on its rating plate. The three-phase motors comply with the relevant sections of EN 60034 and EN 60204-1. Three-phase motors comply with Low-Voltage Directive 2006/95/EC. Standard motors comply with the UL regulations. "UR" is stamped on the rating plate of these motors. Low-voltage motors are components designed for installation in machines in accordance with the Machinery Directive. They must not be commissioned until it has been verified that the end product complies with this directive (also take into account EN 60204-1). Note Complying with regulations Make sure that your end product is in compliance with all of the applicable legislation! The applicable national, local, and system-specific regulations and requirements must be taken into account. 2.2.2 Technical characteristics The most important technical characteristics of the motors can be found on the rating plate (type plate): You will find detailed overviews of the technical characteristics of the motors in the Configuration Manual "SIMOTICS M-1PH8 Main Motors for SINAMICS S120" or in catalogs PM 21N and NC 61. 1PH813/1PH816 main motors 22 Operating Instructions, 01/2015, 610.48006.40c Description 2.2 Technical characteristics and ambient conditions 2.2.3 Ambient conditions The following temperature ranges apply to motors with forced ventilation. Permissible temperature range during operation: T = -15 C to +40 C Under conditions other than those specified above (ambient temperature > 40 C or installation altitude > 1000 m above sea level), the permissible torque/power must be determined from the following table. Ambient temperatures and installation altitudes are rounded off to 5 C and 500 m respectively. Table 2- 2 Power derating as a function of the installation altitude and ambient temperature Installation altitude above sea level [m] Ambient temperature in C 30 ... 40 45 50 55 1000 1.00 0.96 0.92 0.87 1500 0.97 0.93 0.89 0.84 2000 0.94 0.90 0.86 0.82 2500 0.90 0.86 0.83 0.78 3000 0.86 0.82 0.79 0.75 3500 0.82 0.79 0.75 0.71 4000 0.77 0.74 0.71 0.67 Note Unsuitable installation locations The motors are not suitable for operation * in salt-laden or corrosive atmospheres * outdoors 2.2.4 Degree of protection The motors with forced ventilation (1PH813 or 1PH816) have degree of protection IP55. The water-cooled motors (1PH813 or 1PH816) have degree of protection IP65. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 23 Description 2.2 Technical characteristics and ambient conditions 2.2.5 Noise emission When operated in the speed range from 0 to 5000 rpm, 1PH813 and 1PH816 motors can reach the following measuring-surface sound-pressure level LpA in accordance with DIN EN ISO 1680: Table 2- 3 Measuring-surface sound-pressure level for 1PH813 Cooling method Measuring-surface sound-pressure level LpA (1 m) at rated load and 4 kHz rated pulse frequency Forced ventilation1) 70 dB(A) + 3 dB tolerance Water-cooled 68 dB(A) + 3 dB tolerance 1) External fan operation 50 Hz Table 2- 4 Measuring-surface sound-pressure level for 1PH816 Cooling method Measuring-surface sound-pressure level LpA (1 m) at rated load and 4 kHz rated pulse frequency Forced ventilation1) 73 dB (A) + 3 dB tolerance Water-cooled 69 dB (A) + 3 dB tolerance 1) External fan operation 50 Hz The motors are certified for a wide range of installation and operating conditions. These conditions such as rigid or vibration-isolated foundation design influence noise emission, sometimes significantly. 1PH813/1PH816 main motors 24 Operating Instructions, 01/2015, 610.48006.40c Description 2.3 Rating plate data (type plate) 2.3 Rating plate data (type plate) The rating plate (type plate) shows the technical specifications for the supplied motor. *) Some fields may also be empty (options, customer data) Figure 2-1 Schematic layout of rating plate 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 25 Description 2.3 Rating plate data (type plate) Table 2- 5 Elements on the rating plate No. Description No. Description L010 Article No. L210 Rated power PN (3) L012 Consecutive number L220 cos (3) L020 Factory serial number L230 Rated frequency fN (3) L025 UL mark L240 Rated speed nN (3) L030 Type of construction L250 Operating mode (3) L040 Degree of protection L257 Rated voltage UN (4) L042 Temperature class L258 Connection method (4) L045 Balancing code L260 Rated current IN (4) L048 Operating mode L261 Rated power PN (4) L049 For synchronous motors: induced voltage at rated speed VIN L263 cos (4) For induction motors: cos L265 Rated frequency fN (4) L050 Rated voltage UN (1) L266 Rated speed nN (4) L051 Connection method (1) L267 Operating mode (4) L060 Rated current IN (1) L270 Maximum current Imax L070 Rated power PN (1) L275 Maximum torque Mmax L080 cos (1) L280 Maximum speed nmax L090 Rated frequency fN (1) L285 Temperature sensor L100 Rated speed nN (1) L290 Tachometer/resolver L110 Operating mode (1) L295 Cooling method L120 Rated voltage UN (2) L296 Throughput l/min (m3/s) L121 Connection method (2) L297 System pressure L130 Rated current IN (2) L298 Maximum coolant temperature L140 Rated power PN (2) L315 Options (I) L150 cos (2) L320 Options (II) L160 Rated frequency fN (2) L325 Optional customer information L170 Rated speed nN (2) L330 Anti-condensation heating L180 Operating mode (2) L335 Weight L190 Rated voltage UN (3) L191 Connection method (3) L200 Rated current IN (3) 1PH813/1PH816 main motors 26 Operating Instructions, 01/2015, 610.48006.40c Description 2.4 Design 2.4 Design 2.4.1 Types of construction The motor can have the following types of construction: Table 2- 6 Types of construction Motor Types of construction 1PH813 IM B3 (IM V5, IM V6, IM B6, IM B7, IM B8) IM B5 (IM V1, IM V3) IM B35 (IM V15, IM V35) 1PH816 IM B3 (IM V5, IM V6, IM B6, IM B7, IM B8) IM B5 (IM V1, IM V3) IM B35 (IM V15, IM V35) Figure 2-2 Types of construction Two lifting eyebolts, which can be screwed onto the motor in accordance with its type of construction, are supplied with the motor for transportation purposes. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 27 Description 2.4 Design 2.4.2 Cooling Forced ventilation This cooling method is realized using a separate ventilation module equipped with a fan (external fan) that operates independently of the motor. NOTICE Risk of overheating if external cooling is inadequate If the external fan fails or the motor is operated for a short time without forced ventilation, this can cause it to overheat. Overheating can cause failures and shorten the service life of devices/systems. * Always operate the motor together with an external fan. WARNING Danger to life caused by fire if ventilation clearances are inadequate Inadequate ventilation/cooling clearances can result in overheating and fire. Overheating can cause failures and shorten the service life of devices/systems. * Ensure compliance with the specified minimum clearance as ventilation/cooling clearance for the particular motor. The motors must be arranged in such a way that the cooling air can flow in and out without obstruction and that the minimum distance (s) between the inlet/outlet air openings and adjacent components is maintained (see "Minimum distance" diagram below). Steps must be taken to ensure that hot discharged air cannot be drawn back into the system. The covers (Pos. 1 in "Minimum distance" diagram below), which were removed to allow the motors to be secured, must be reattached before the system is commissioned. The arrow must point upwards. 1PH813/1PH816 main motors 28 Operating Instructions, 01/2015, 610.48006.40c Description 2.4 Design s A minimum clearance of 60 mm applies to 1PH813. A minimum clearance of 80 mm applies to 1PH816. 1 Cover for NDE mounting foot Figure 2-3 Minimum distance (s) Water cooling The motor can only be operated in a closed cooling-water circuit with a heat-exchanger unit. The motor is connected to the cooling circuit by means of two female threads on the rear of the motor. The operator can decide on the best method of connecting the inlet and outlet. Table 2- 7 Technical data relating to water cooling Cooling water connection G3/8" for 1PH813 Cooling water flow 12 l/min for 1PH813 G1/2" for 1PH816 15 l/min for 1PH816 Max. pressure at inlet Max. 6 bar Pressure loss between inlet and outlet < 0.9 bar for minimum cooling water flow with 1PH813 < 0.2 bar for minimum cooling water flow with 1PH816 Maximum cooling water inlet temperature, without derating 30 C, higher values will result in derating 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 29 Description 2.4 Design Note Cooling water inlet temperature Select the cooling water inlet temperature so that condensation does not form on the surface of the motor. Cooling water temperatures that are lower than the ambient temperature tend to result in increased water condensation. The difference between the cooling water inlet temperature and the ambient temperature depends on the relative air humidity. For instance, 50 % air humidity at an ambient temperature of 40 C corresponds to a temperature difference of 10 K: Tcool > Tambient - temperature difference Further, you must also shutoff the flow of cooling water when the motor is not operational for prolonged periods of time. Only water enriched with appropriate quantities of additives to protect against corrosion and minimize the growth of algae can be used as a coolant. Other coolants (e.g. coolinglubricating medium, water-oil mixtures with 10 % oil and higher) can lead to derating. If there is a risk of frost, preventive measures must be taken during operation, storage, and transportation (anti-freeze, emptying and blowing out with air, etc.). Use and concentration of the anti-freeze according to the manufacturer's data (max. 25 %). Different anti-freeze agents should not be mixed. A filter (100 m) must be installed in the inlet pipe to protect the motor against pollution. Additional protection for the motor must be provided by means of a pressure relief valve installed downstream from the filter. Pipes, valves and fittings can be made out of brass, stainless steel, or plastic. If different materials are used in close proximity to each other, however, the electrochemical series must be taken into account, which is why zinc must not be used in cooling water circuits. If a throttle is needed to restrict the flow, it is best to install it downstream of the motor. It must not be installed directly in front of the inlet because the effects of cavitation may damage the motor. The values specified for the cooling water (refer to the following table) correspond to the requirements of closed cooling circuits. Not all of the specified concentrations will occur in the cooling water at the same time. 1PH813/1PH816 main motors 30 Operating Instructions, 01/2015, 610.48006.40c Description 2.4 Design Table 2- 8 Chemical requirements of the cooling water Content and chemical composition Value pH value 6 ... 9 Chloride ions < 40 ppm Sulfate ions < 50 ppm Nitrate ions < 50 ppm Dissolved solids < 340 ppm Total hardness < 170 ppm Electrical conductivity < 500 S/cm Size of any particles in the coolant < 100 m Tyfocor anti-freeze 20 ... 25 % NALCO 00GE056 inhibitor 0.2 ... 0.25 % Note Storing or transporting the motor The cooling circuit must be emptied when storing the motor, when the motor is out of service for a long period, and when the motor is being transported. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 31 Description 2.4 Design 2.4.3 Holding brake (option) 2.4.3.1 Properties Operation with holding brake on the SINAMICS S The SINAMICS S drive system has various types of brake control. A detailed description of the individual functions and corresponding parameter assignment information can be found in the following manuals: SINAMICS S120 Function Manual (6SL3097-AB00-0P) Section 6.14 SINAMICS S120/S150 List Manual (6SL3097-AP00-0P) Section 2.12 Information on the current carrying capacity for the brake outputs/adapters of the individual SINAMICS power units can be found in the corresponding manuals. Control of the brake via additional switching elements may be required. Make sure the parameter assignments for the brake data in the SINAMICS are correct. This is particularly important for the setting values: Maximum motor speed (reduced value for the "holding brake" option) Release and engaging times of the holding brake Moment of inertia of the holding brake The corresponding setting values are listed for the specific brakes in the "Technical data of the holding brake" table. Functional principle of the holding brake A brake can be mounted at the DE side of 1PH8 motors, shaft heights 132 and 160. These brakes are electromagnetic units for dry-running operation. An electromagnetic field is used to release the brake which is applied using spring force. They function according to the closed-circuit principle, i.e. the spring-applied brake is triggered when the current is interrupted and holds the drive. When power is applied to the brake, it is released and the drive is free to rotate. When the power fails or an emergency stop is issued, the drive is braked from its actual speed down to standstill. Connection of the brakes (must be provided by the customer) Alternating voltage 230 V AC, 50 ... 60 Hz DC voltage of 24 V DC 1PH813/1PH816 main motors 32 Operating Instructions, 01/2015, 610.48006.40c Description 2.4 Design Ambient temperature The brake module is designed for an ambient temperature of -5 C to +40 C. At temperatures below -5 C and longer periods without power being applied to the brake, then it cannot be excluded that the friction disk freezes. In this case, special measures must be applied after first contacting the manufacturer. Note Restricted maximum motor speed for a motor equipped with brake The maximum speed of a motor with brake is limited to the maximum speed of the brake (see nmax, Br speed specified in the characteristic curves). Note Selection and ordering data The selection and ordering data can be found in the Configuration Manual "SIMOTICS M-1PH8 main motors", Chapter "Selection and ordering data". The holding brakes are not UL-approved. Motors with mounted brake therefore do not have the cUR marking! Technical data of the holding brakes Figure 2-4 Technical data of the mounted holding brake (DE) with emergency stop function 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 33 Description 2.4 Design Figure 2-5 Terminology (time) for holding operation Explanation of terminology in the table Holding torque [Nm]: On motors with shaft heights 100 ... 160, the holding torque can be continuously set in the specified value range using an adjusting ring. The dynamic braking torque is approximately 70 % of the set holding torque. Maximum speed nmax [rpm]: Maximum permissible speed. Perm. single switching energy WE [kJ]: Permissible operating energy during an emergency stop, WE = Jtotal. x n2/182.4 x 10-3 (J in kgm2, n in rpm) Lifetime switching energy Wmax [MJ]: Max. possible switching energy of the brake (for emergency stop) until the friction disk has to be replaced, Wmax = WE x z. Number of emergency stops z: The specified number of emergency stops refers to the specified conditions. A conversion can be made for operation under different conditions: Number of emergency stops z = Wmax/WE Coil current [A]: Current to release the brake. Release time [ms]: Separating time until the brake releases (the specified values refer to the maximum braking torque and rated voltage). Engaging time [ms]: Connecting time until the brake engages according to the diagram "Terminology (time) for holding operation". (The values refer to the maximum braking torque and rated voltage.) 1PH813/1PH816 main motors 34 Operating Instructions, 01/2015, 610.48006.40c Description 2.4 Design Use for the intended purpose "Spring-applied single-disk brake modules" are for mounting on induction or synchronous motors and intended for use in commercial or industrial systems. It is prohibited to use the brake in hazardous areas and zones or areas with firedamp. The externally mounted springapplied single-disk brake (electromagnetically released system) is designed as a holding brake. Occasional emergency stop operations are possible. WARNING Danger to life when incorrectly using the holding brake If you incorrectly use the holding brake, e.g. you use it as safety brake, this can lead to severe accidents with personal injury and/or material damage. * Depending on the particular application, observe the corresponding accident prevention regulations. NOTICE Irreversible reduction of the braking effect The braking effect can be irreversibly reduced if you do not observe the permissible number of braking operations per hour and/or the maximum permissible operating energy per hour. Further, this can have a negative impact on the function of the holding brake. * When setting up machines and systems (when using the jog mode), observe the information provided in the Table "Technical data of holding brakes". * The holding brake can be equipped with a manual release to remove the holding torque. NOTICE Inadvertent actuation of the holding brake Material damage can occur if you inadvertently actuate (release) the holding brake. * Secure the holding brake against inadvertent actuation and misuse. The mechanical manual brake release must always be in the center position when not actuated (see the diagram "Spring-applied single-disk brake module"). Only then is the brake completely engaged, and it is ensured that the spring-applied single-disk brake module can provide its full braking effect. * You can remove the manual release lever. Observe the specific system-related regulations, e.g. in the crane construction area relating to whether manual release is permissible. * The rated operating conditions refer to DIN VDE 0580: 1994-10. The degree of protection refers to DIN VDE 0470, part 1. Coordinate possible special measures with the manufacturer if deviations exist. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 35 Description 2.4 Design Note Special measures Ask the manufacturer for support when already designing the plant or system if you find references to special measures and/or it is necessary to contact the manufacturer. See also Note regarding a holding brake (Page 124) 2.4.3.2 Mounted holding brake for SH 132 and SH 160 Mounting the holding brake (option) is described in the Appendix "Holding brake operating instructions". Note Radial and axial forces The specifications for the "standard" bearing version apply for the permissible radial and axial forces. (Refer to the Configuration Manual "SIMOTICS M-1PH8 main motors") See also Note regarding a holding brake (Page 124) Holding brake operating instructions (Page 125) 1PH813/1PH816 main motors 36 Operating Instructions, 01/2015, 610.48006.40c Preparations for use 3.1 3 Shipment and packaging Checking the delivery for completeness The drive systems are assembled on an individual basis. Upon receipt of the delivery, check immediately whether the items delivered are in accordance with the accompanying documents. Siemens will not accept any claims relating to items missing from the delivery and which are submitted at a later date. Report any apparent transport damage to the delivery agent immediately. Report any apparent defects/missing components to the appropriate Siemens office immediately. These safety instructions are part of the scope of supply; keep them in a location where they can be easily accessed. The additional rating plate supplied separately with the consignment should be used for indication of the motor data in the vicinity of the motor. In the case of: motors with terminal boxes, it is inside the terminal box; motors with connectors, it is included with the safety data sheet. 3.2 Transportation and storage WARNING Danger to life when lifting and transporting Improper lifting and transport procedures, unsuitable or damaged lifting gear and load handling equipment can cause death, severe injury and/or material damage. * Only use suitable and intact lifting gear and load handling equipment which comply with the specific national regulations. * Only use lifting gear and load handling equipment which are suitable for the weight of the motor. The weight of the motor appears on the rating plate. * Do not attach any additional loads to lifting gear and load handling equipment. * Only use suitable strap-guiding systems rope guides and spreading devices for lifting and transporting the motor. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 37 Preparations for use 3.2 Transportation and storage WARNING Danger to life as a result of incorrect transport and/or lifting of the motor Incorrectly transporting and/or lifting the motor can lead to severe injuries and/or material damage. For instance, the motor can fall. * Only lift the motor using the lifting eyebolts on the bearing end shields. * Use all of the lifting eyebolts when transporting. * Do not attach a lifting eyebolt to the shaft extension. * Never lift the motor using the Sensor Module or the cooling water pipe system. * Use a crossbeam if you lift and/or transport the motor using the eyebolts provided (according to DIN 580). Note the following: - Completely screw in the eyebolts (lifting eyebolts) and tighten by hand, approx. 8 Nm. Do not overtighten the eyebolts. - Do not remove the pressboard washers and do not use deformed or damaged eyebolts. - Loads that run transverse to the ring plane are not permitted. - If the motor is installed with the shaft extension pointing downwards or upwards, the lifting eyebolts must be changed over as indicated in the following diagrams showing the arrangement of the eyebolts. 3.2.1 Transport Information will be provided in this chapter on how to correctly lift and transport the motors. Figure 3-1 Lifting and transporting the motor with a cross beam (example) 1PH813/1PH816 main motors 38 Operating Instructions, 01/2015, 610.48006.40c Preparations for use 3.2 Transportation and storage Horizontal shaft extension (standard) Shaft extension pointing upwards Shaft extension pointing downwards Figure 3-2 Location of the lifting eyebolts on 1PH813 and 1PH816 Transporting a motor that has already been in operation If you want to transport a motor that has already been in operation, proceed as follows: 1. Allow the motor to cool down. 2. Remove the connections provided by the customer. 3. Empty the motor of any cooling water and purge it carefully with air. 4. Always transport and lift the motor by the lifting eyebolts on the bearing end shields. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 39 Preparations for use 3.2 Transportation and storage 3.2.2 Storage Note Replacing roller bearings * Even if the motor was stored for more than three years under favorable conditions (i.e. in a dry, dust-free room that is not susceptible to vibration), you must replace the bearings. * If the motor was stored under unfavorable conditions, you must replace the bearings after approx. 18 months. NOTICE Seizure damage to bearings If the motors are stored incorrectly, bearing seizure damage can occur (e.g. brinelling) as a result of vibrations. * Observe the instructions for putting into storage. The motors can be stored for up to two years in a dry, dust-free room that is not susceptible to vibration (veff < 0.2 mm/s) without the specified storage time being reduced. Storing indoors Apply a preservation agent (e.g. Tectyl) to bare, external components (e.g. shaft extensions) if this has not already been carried out in the factory. Store the motor in an area that fulfills the following requirements: - Dry, dust-free, frost-free and vibration-free The relative air humidity should be less than 60 % and the temperature should not drop below -15 C in accordance with EN 60034-1. - Well ventilated - Offers protection against extreme weather conditions - The air in the storage area must not contain any harmful gases. Protect the motor against shocks and humidity. Make sure that motor is covered properly. Avoid contact corrosion. You are advised to rotate the shaft extension manually every three months. 1PH813/1PH816 main motors 40 Operating Instructions, 01/2015, 610.48006.40c Preparations for use 3.2 Transportation and storage Protection against humidity If a dry storage area is not available, the following measures must be taken: Wrap the motor in humidity-absorbent material and then wrap it in film so that it is air tight. Include several bags of desiccant in the seal-tight packaging. Check the desiccant and replace as required. Place a humidity meter in the seal-tight packaging to indicate the level of air humidity inside it. Inspect the motor on a regular basis. Long-term storage If you intend to place the motor in storage for longer than six months, you must check its condition every six months. Check the motor for any damage. Carry out any necessary maintenance work. Document all preservation measures taken so that they can be reversed before the machines are recommissioned. Control the climate in the storage room if the conditions for storage cannot be complied with. Rotate the shaft extension by hand. Protecting the cooling-water system When the units are delivered, the stainless steel/cast iron cooling-water pipe system is not filled with cooling water. When you place the motor in storage after use, drain the cooling water ducts and purge them with air so that they are completely empty. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 41 Preparations for use 3.2 Transportation and storage 1PH813/1PH816 main motors 42 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.1 4 Installation NOTICE Thermal damage to temperature-sensitive parts Some parts of the motor enclosure can reach temperatures that exceed 100 C. If temperature-sensitive parts, e.g. electric cables or electronic components are in contact with hot surfaces, they can be damaged. * Ensure that no temperature-sensitive parts are in contact with hot surfaces. NOTICE Damage to the motor caused by incorrect installation Blows and pressure to the shaft extension can damage the motor. * When installing and mounting the motor ensure that the shaft extension is neither subject to any blows nor to any pressure. Note Technical data on the motor enclosure * Observe the technical data on the rating plate (type plate) on the motor enclosure. The following must be taken into account when the motors are installed Observe the type of construction and degree of protection stamped on the rating plate and check that they comply with the conditions at the installation location. Refer to the configuration manual for the permissible radial and axial forces. Check that they match the conditions (temperature, installation altitude) at the installation location. Ensure that the end of the shaft is completely free of any anti-corrosion protection (use a commercially available solvent). Ensure that the flange or mounting foot has even contact with the mounting surface. No stress or strain is permissible. If the motor is installed vertically with the end of the shaft facing up, ensure that no liquid can enter into the upper bearing. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 43 Mechanical mounting 4.2 Fixing Rotate the output elements by hand. If you hear any grinding noise, rectify the cause or contact the manufacturer. Eyebolts that have been screwed in must either be tightened or removed after installation. Air-cooled motors must be installed in such a way that the cooling air can flow in and out without any obstruction and that the minimum distance s is maintained between the air inlet and discharge openings and adjacent components (see "Minimum distance" diagram in "Cooling" section). It is not permissible that the hot air is drawn-in again. Note Covers attached to the motor * You must remount the covers for air-cooled motors, which were removed to allow the motors to be secured, before commissioning. Figure 4-1 4.2 Cover for foot mounting at NDE (example) Fixing To ensure smooth, vibration-free operation, the foundation must be designed in accordance with DIN 4024, the motor must be precisely aligned, and the components to be mounted on the shaft extension must be correctly balanced. Mounting the motor using its motor feet (foot mounting) The contact surfaces of the motor feet must lie on one plane. 1PH motors in type of construction IMB3 or IMB35 (with mounting feet) must be mounted on flat surfaces with a planeness specification of 0.15 mm. If the motor needs to be aligned, locate metal shims below the motor feet in order to prevent the motor from being subject to any strain. The number of shims should be kept as low as possible i.e. stack as few as possible. 1PH813/1PH816 main motors 44 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.3 Attaching the output elements Mounting using the motor flange (flange mounting) Note Flange mounting When the motor is flange-mounted, this creates a system that is capable of oscillation with specific natural mounting frequencies. In operation, this can result in excessive vibration. To counter this, additional support can be provided at the NDE. Ensure that the motor is not subject to excessive tension. Tightening torques for foot/flange mounting Table 4- 1 Tightening torques 1PH813 Retaining type Screw Washer ISO 7092 Tightening torque 10 % [Nm] Foot mounting M10 10 (d2 = 18) 42 Flange mounting M16 16 (d2 = 28) 165 Depending on the installation space, corresponding screws must be used. Use screws of property class 8.8 or higher. Table 4- 2 Tightening torques 1PH816 Retaining type Screw Washer ISO 7092 Tightening torque 10 % [Nm] Foot mounting M12 12 (d2 = 20) 70 Flange mounting M16 16 (d2 = 28) 165 Depending on the installation space, corresponding screws must be used. Use screws of property class 8.8 or higher. Alignment accuracy for coupling output The maximum permissible concentricity deviation of the shafts of the motor and the driven machine is 0.05 mm in the diameter. 4.3 Attaching the output elements Balancing The rotors are balanced dynamically. The motors are equipped with a smooth shaft as standard. For shaft extensions with feather keys, the balancing method at the DE of the shaft is indicated as follows: "H" means half feather key = balancing with a half feather key "F" means fullkey = balancing with a whole feather key 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 45 Mechanical mounting 4.3 Attaching the output elements Attaching the output elements Make sure that the balancing method of the output element is correct! The output elements must be balanced to balance quality grade G2.5 to ISO 1940. Rotary forces that exceed this are not permissible. Note that rotary forces can also occur with coupling output. If the output element is shorter than the feather key with balancing method "H", the section of the feather key that protrudes from the shaft contour and output element must be removed to maintain the balance quality. Fit/remove the output elements only by means of suitable equipment: - Use the threaded hole in the shaft extension (front). - If necessary, heat up the output element. - When removing output elements, use a washer to maintain the centering in the shaft extension. WARNING Danger to life if rotating output elements have no guard Exposed rotating output elements can result in severe injury. * Cover all exposed output elements using an appropriate guard. Figure 4-2 Fitting/removing output elements; A = intermediate washer (for maintaining the centering in the shaft extension) 1PH813/1PH816 main motors 46 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.4 Vibration stressing Motor without output element WARNING Danger to life if feather keys are flung out The feather key in a shaft is only secured during transport to prevent it from falling out. An open feather key sitting in the shaft will be flung out in operation. Death or serious injury can result. * Remove an open feather key sitting in the shaft, or secure it so that it cannot be flung out. * For balancing type "H", shorten the feather key by about half. 4.4 Vibration stressing The on-site mechanical system vibration characteristics depend on factors such as the output elements, mounting situation, alignment, installation, and external vibration and can increase the level of motor vibration. Under certain circumstances, the rotor may have to be balanced completely with the output element. To ensure problem-free operation and a long service life, the vibration values specified to ISO 10816 must not be exceeded at the defined measuring points on the motor. Table 4- 3 Max. permissible radial vibration values1) Vibration frequency Vibration values < 6.3 Hz Vibration displacement s 0.16 mm 6.3 ... 250 Hz Vibration velocity vrms 4.5 mm/s > 250 Hz Vibration acceleration a 10 m/s2 1) Both values must be maintained simultaneously. Table 4- 4 Max. permissible axial vibration values1) Vibration velocity Vibration acceleration vrms = 4.5 mm/s apeak = 2.25 m/s2 1) Both values must be maintained simultaneously. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 47 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Figure 4-3 Max. permissible vibration velocity, taking into account the vibration displacement and vibration acceleration To measure the vibration velocity, the measuring equipment must fulfill the requirements of ISO 2954. The vibration acceleration must be measured as a peak value in the time range in a frequency band of 10 to 2000 Hz. If appreciable vibration excitation in excess of 2000 Hz (e.g. gear teeth meshing frequencies) can be expected, the measurement range must be adapted accordingly. This does not alter the maximum permissible values. 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors 4.5.1 Introduction 1PH8 main motors with a hollow shaft (13th position in the Article No.: "3") are designed as main spindle motors for machine tools and machining centers with internal tool cooling. A rotating union is required for the provision of the coolant in the rotating motor shaft. A rotorsupported rotating union can be mounted on the NDE shaft extension. In addition to coolant, suitable rotating unions can also transfer oil mist (minimum quantity lubrication), cutting oils or even compressed air at standstill. Rotor-supported rotating unions consist of the following components: Rotor with bearing Stator Enclosure with cable connections Floating-ring shaft seal 1PH813/1PH816 main motors 48 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Rotor-supported rotating unions are easy to fit and change. They are screwed into the motor shaft via the thread on the rotor. The advantage of these rotating unions is the leading off of the leakage via the housing and the integrated leakage connection. The rotor-supported rotating unions also do not exert any axial forces on the motor shaft. The axial forces caused by the coolant pressure are absorbed by the bearings of the rotating union. Depending on the type of rotating unions, the sealing rings may be permanently or temporarily in contact. Example of a closed seal: DEUBLIN series 1116 and 1108 Example of an opening seal: DEUBLIN series 902 and 1109 With opening seals, the sealing surfaces are separated when there is no coolant pressure, e.g. during a tool change. In this case, coolant runs out of the supply line and out of the motor shaft through the opened seal. This leakage and also the leakage from the wear of the sealing rings must be led away via the leakage lines. NOTICE Motor failure due to incorrectly mounted leakage line If the leakage line does not lead downward, the leakage can flood the rotating union and the motor. This can result in failure of the rotating union and motor. To ensure the leakage is led away, the leakage line must always lead downward so that nothing can flow back. * When mounting, ensure that the leakage line always leads downward. Hollow shaft version Table 4- 5 Hollow shaft version 1PH813 ... 1PH816 Thread on DE M16 x 1.5-RH Centering on DE 20H7 Thread on NDE M16 x 1.5-LH Centering on NDE 18 +0.007/-0.003 Through-hole 11.5 Key surface NDE SW27 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 49 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors 4.5.2 Mounting NOTICE Leaks in the rotating union If there are leaks in the rotating union and the hoses, the motor may be flooded and fail! * Avoid leaks in the rotating union. Note the following points when mounting the rotating union: Screw the rotating union for the coolant on to the NDE shaft centering of the motor shaft. Screw the thread tightly into the NDE shaft extension so that no coolant can leak. When you mount the rotating union, pay attention to special aspects that differ between air-cooled and water-cooled motors. When installing the rotating union, observe the manufacturer's data. 1PH813/1PH816 main motors 50 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Mounting the rotating union for water-cooled motors Water-cooled motors have a "2" in the 11th position in the Article No. With water-cooled motors, you can mount the rotating union directly on the motor. Use rotating unions with radial or axial connections. Installation steps 1. If necessary, perform complete balancing of the motor using the exterior balancing disks. To do this, remove the sealing cover. Note Sealing cover * Remount the sealing cover after balancing. 2. Attach hoses for the inlet and leakage to the rotating union. Use angle elements if necessary. 3. Screw the rotating union into the NDE motor shaft extension. Tighten the rotating union with the correct tightening torque. For this, use the wrench grip surface on the NDE motor shaft extension to hold the other side. 4. Position the rotating union horizontally in such a way that the leakage connection is at the lowest point. 5. Always connect the hose for leakage sloping downward at least 15. 6. Also connect the hose for the inlet sloping downward. 7. Manually check that the rotor turns easily. 8. Test the mounting under pressure for leaks. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 51 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Sealing cover Balancing disk Rotor-supported rotating union, e.g. DEUBLIN 1109-020-188 Leakage hose Inlet hose Figure 4-4 Rotating union for water-cooled motors 1PH813/1PH816 main motors 52 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Mounting the rotating union in air-cooled motors Air-cooled motors have a "0" or a "1" in the 11th position of the Article No. Air-cooled motors are equipped with an intermediate housing between the motor and the axially mounted fan. The intermediate housing is used to accommodate the rotating union. The intermediate housing is suitable for rotating unions with the following dimensions: Length: up to 120 mm (without rotor connection thread and centering) Diameter: up to 55 mm Due to limitations of space, rotating unions with radial connections are advisable for aircooled motors, e.g. DEUBLIN 1109-020-188. Rotating unions with axial connections are not suitable! Remove the fan with the intermediate housing before mounting the rotating union. Make a burr-free cutout in the intermediate housing for the hoses for the coolant inlet and leakage. Protect the hoses against abrasion. Close the remaining openings between the cutout and the hoses again, so that cooling air cannot escape. If necessary, use a ventilation line in addition to the leakage line. A ventilation line equalizes the negative pressure caused by the fan. Connect a hose to the rotating union via an additional ventilation/leakage connection. Route the hose upward out of the intermediate housing. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 53 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Installation steps 1. Remove the fan and intermediate housing from the motor. 2. If necessary, perform complete balancing of the motor using the exterior balancing disks. To do this, remove the sealing cover. Note Sealing cover * Remount the sealing cover after balancing. 3. Attach hoses for the inlet and leakage to the rotating union. Use angle elements if necessary. Note Rotating union to be used * Use a rotating union with radial connections. 4. Screw the rotating union into the NDE motor shaft extension. Tighten the rotating union with the correct tightening torque. For this, use the wrench grip surface on the NDE motor shaft extension to hold the other side. 5. Position the rotating union horizontally in such a way that the leakage connection is at the lowest point. 6. Always connect the hose for leakage sloping downward at least 15. 7. Also connect the hose for the inlet sloping downward. 8. If necessary, provide a ventilation hose for the leakage chamber. Lead the ventilation hose upward. 9. Manually check that the rotor turns easily. 10.Test the mounting under pressure for leaks. 11.Make a burr-free cutout in the intermediate housing for the inlet and leakage hoses. 12.Push the intermediate housing with the cutout over the hoses. Screw the intermediate housing onto the motor. 13.Screw the fan onto the intermediate housing. 14.Seal the remaining openings between the cutout and the hoses. 1PH813/1PH816 main motors 54 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Sealing cover Balancing disk Intermediate housing Rotor-supported rotating union, e.g. DEUBLIN 1109-020-188 Cutout Cover Leakage hose Inlet hose Fan Figure 4-5 Rotating union for air-cooled motors 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 55 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Mounting information and instructions Do not mount any additional anti-rotation pins. Never screw pipes directly to the rotating union. Always use a hose between the rotating unnion and the fixed piping. To do this, route the hoses in curves and torsion-free. Avoid twisting the hoses. First screw the flexible hoses onto the rotating union. Then screw the rotating union onto the shaft with the specified torque. Avoid stressing due to incorrect hose lengths and unsuitable mounting material. Always keep the rotating union and hoses free of tension. The rotating union must be easy to turn when mounted. Keep rotating unions free of chips and burrs. Position the rotating union horizontally in such a way that the leakage connection is at the lowest point. Always route the leakage hose downward at at least 15 with a large cross-section. If the leakage hose is higher than the leakage connection and the mechanical seal is open, the rotating union and possibly also the motor will be flooded. The motor can fail. Also route the inlet hose downward. This causes the coolant to flow back in the supply line when the mechanical seal is open (e.g. tool change or standstill) and not through the motor shaft and the leakage connection. Filter the coolant so that no particles or chips can reach the mechanical seal and damage it. Note Mounting the rotating union * During assembly, screw the thread absolutely tightly into the NDE shaft extension. Ensure that no coolant can leak. Check the rotating union and hoses regularly for tightness. 1PH813/1PH816 main motors 56 Operating Instructions, 01/2015, 610.48006.40c Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Intermediate housing for air-cooled motors Cutout for hoses (to be made by the customer) Motor side Fan side Figure 4-6 Intermediate housing SH132 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 57 Mechanical mounting 4.5 Rotor-supported rotating unions for 1PH8 hollow shaft motors Cutout for hoses (to be made by the customer) Motor side Fan side Figure 4-7 Intermediate housing SH160 1PH813/1PH816 main motors 58 Operating Instructions, 01/2015, 610.48006.40c Connection 5.1 5 Mechanical connection of water cooling system The inlet and outlet holes for the cooling water supply are located on the NDE in the bearing shield. 1. Make sure that the cooling water fulfills the required cooling water specification, see the chapter titled "Cooling". 2. Make sure that the appropriate volume of cooling water is available, see the rating plate (type plate). 3. Screw the cooling water pipes into the female thread. You can connect the inlet and outlet as required. 4. Ensure that the maximum permissible operating pressure does not exceed 6 bar. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 59 Connection 5.2 Electrical connection 5.2 Electrical connection WARNING Danger to life through electric shock As a result of the permanent magnets in the rotors of 1PH8 synchronous motors, when the motors rotate this induces a voltage. If you use defective cable ports, you could suffer an electric shock. * Do not touch the cable ports. * Connect the motor cable ports correctly, or insulate them properly. WARNING Risk of electric shock if the insulating foil is removed The insulating foil in the terminal box is used to protect against voltage flashover to the cover. * Never remove the insulating foil in the terminal box. NOTICE Destruction of the motor if it is directly connected to the three-phase line supply The motor will be destroyed if it is directly connected to the three-phase line supply. * Only operate the motors with the appropriately configured converters. NOTICE Damage to components that are sensitive to electrostatic discharge The DRIVE-CLiQ interface has direct contact to components that can be damaged/ destroyed by electrostatic discharge (ESDS). Encoder systems and temperature sensors are components that can be destroyed by electrostatic discharge (ESD). Components that are sensitive to electrostatic discharge can be damaged if you touch the connections with your hands or with electrostatically charged tools. * Carefully observe the information in Chapter "Handling electrostatic sensitive devices (ESD)". 1PH813/1PH816 main motors 60 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Note Comply with the protective requirements regarding EMC Systems and machines with converter-fed low-voltage three-phase motors must fulfill the protective requirements of the EMC Directive. The machine manufacturer is responsible for ensuring that installation is carried out properly. The signal and power cables to the motor must be shielded. Apply the EMC installation guideline of the converter manufacturer. For Siemens converters, this is available under document order number 6FC5297-AD30-0P. 5.2.1 Cable routing When selecting the required connecting cables, make sure that you take into account the rated current and plant-specific conditions, such as ambient temperature, routing type, etc. according to IEC / EN 60364-5-52 and IEC / EN 60204-1. Use EMC cable glands for permanently installed cable entries. Use shielded cables whose shields are conductively connected to a large area of the terminal box of the motor using EMC cable glands. Make sure that the cable shields are properly connected. Arrange the exposed connecting cables in the terminal box so that the PE conductor has an excess length and the insulation of the cable conductors cannot be damaged. Only remove insulation from the cable ends so that the insulation reaches up to the cable lug, terminal, or wire end ferrule. Adapt the size of the cable lugs or end sleeves in line with the dimensions of the terminal board connections and the cross-section of the power cable (use parallel connecting cables, if necessary). Make sure that the inside of the terminal box or connector is clean and free of cable cuttings and moisture. Tighten all of the screws for the electrical connections (terminal board connections, with the exception of the terminal strips) to the specified torque: Table 5- 1 Tightening torques Thread M4 M5 M6 M8 M10 Tightening torque [Nm] 0.8 ... 1.2 1.8 ... 2.5 2.7 ... 4 5.5 ... 8 9 ... 13 When connecting or changing internal connection cables, always observe the minimum air clearance of 5.5 mm. Avoid protruding cable ends. Seal unused cable entries and screw in sealing elements so that they are secure and airtight. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 61 Connection 5.2 Electrical connection Check seals and sealing surfaces of the terminal box or connector to ensure that the degree of protection is maintained. Take measures to ensure that connecting cables cannot rotate, are not subject to strain and pushing force and also provide anti-kink protection. It is not permissible to subject the connector to continuous force. The coding slot for the plug-in connections must be aligned when inserted into the socket connector. The union nut must be tightened by hand up to the endstop. Plug in or remove the connector only when the system is de-energized. The insulating film must be present in the terminal box. Current-carrying capacity for power and signal cables The current-carrying capacity of PVC/PUR-insulated copper cables is specified in EN 60204-1. 5.2.2 Circuit diagram The circuit diagram contains information about wiring and connecting the motor winding. The circuit diagram can be found on the lid of the terminal box. Figure 5-1 Circuit diagram NOTICE Cable damage caused by inappropriately changing the cable outlet direction You will damage connecting cables if you inappropriately change the cable outlet direction. * The direction of the cable outlet must not be changed as this invalidates warranty claims. 1PH813/1PH816 main motors 62 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection 5.2.3 Terminal box Assign the terminals in the terminal box as shown in the diagrams "Terminal box: 3-pole" and "Terminal box: 6-pole". Connect the PE conductor. Use cable lugs to DIN 46234. Do not remove the insulation strips. Screw the terminal box cover on again (tightening torque 5 Nm). Terminal screw M6 Grounding screw M6 Insulation strips Figure 5-2 Terminal box gk833 and gk863, 3-pole Terminal screw M6 Grounding screw M6 Insulation strips Figure 5-3 Terminal box gk843 and gk873, 3-pole 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 63 Connection 5.2 Electrical connection Terminal stud M6 Jumper Grounding screw M6 Insulation strips Figure 5-4 Terminal box gk846 (1PH813) and gk876 (1PH816), 6-pole (can be switched between star and delta) Terminal screw M10 Grounding screw M6 Insulation strips Figure 5-5 Terminal box gk874, 3-pole (for synchronous motors only) 1PH813/1PH816 main motors 64 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Terminal screw M6 Grounding screw M6 Insulation strips Figure 5-6 Terminal box gk843 (1PH813), gk873 (1PH816), 3-pole, cable entry DE Note Cable exit direction DE The motor with the cable exit direction DE has a "D" in the 15th position of the Article No. Star/delta connection A star/delta connection is implemented by means of an external contactor circuit or as a fixed configuration in terminal box gk846 (1PH813) and gk876 (1PH816). Standard configuration: star connection via jumpers Figure 5-7 Fixed star/delta connection in the terminal box 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 65 Connection 5.2 Electrical connection 5.2.4 Power connector (for 1PH813 only) Use connector size 3. Assign the connector as shown in the "Power connector" diagram. Connect the protective conductor. Figure 5-8 5.2.5 Table 5- 2 Power connector (view of connector pins) Electrical connection data 1PH8 motors, shaft height 132 Terminal box type Cable entry (power) Cable entry (external signals) Max. external Number of main cable diameter 2) terminals Max. crosssection per terminal Max. current per terminal 3) gk833 1 x M40 x 1.5 1 x M16 x 1.51) 32 mm Phases: 3 x M6 Grounding: 2 x M6 1 x 35 mm2 110 A gk843 1 x M50 x 1.5 1 x M16 x 1.51) 38 mm Phases: 3 x M6 Grounding: 2 x M6 1 x 50 mm2 133 A gk846 1 x M50 x 1.5 1 x M16 x 1.51) 38 mm Phases: 6 x M6 Grounding: 2 x M6 1 x 25 mm2 88 A 1) Thread M16 x 1.5 arranged with 90 to signal connection; thread only for options A12, A25 and encoder version A (without encoder) 2) Depending on design of metric cable gland 3) Current-carrying capacity based on EN 60204-1 and IEC 60364-5-52, routing type E 1PH813/1PH816 main motors 66 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Table 5- 3 1PH8 motors, shaft height 160 Terminal box type Cable entry (power) Cable entry (external signals) Max. external Number of main cable diameter 2) terminals Max. crosssection per terminal Max. current per terminal 3) gk863 1 x M50 x 1.5 1 x M16 x 1.51) 38 mm Phases: 3 x M6 Grounding: 2 x M6 1 x 50 mm2 133 A gk873 1 x M63 x 1.5 1 x M16 x 1.51) 42.6 mm Phases: 3 x M6 Grounding: 2 x M6 1 x 50 mm2 133 A gk876 1 x M63 x 1.5 1 x M16 x 1.51) 42.6 mm Phases: 6 x M6 Grounding: 2 x M6 1 x 25 mm2 88 A gk874 1 x M63 x 1.5 1 x M16 x 1.51) 42.6 mm Phases: 3 x M10 Grounding: 2 x M6 2 x 70 mm2 240 A 1) Thread M16 x 1.5 arranged with 90 to signal connection; thread only for options A12, A25 and encoder version A (without encoder) 2) Depending on design of metric cable gland 3) Current-carrying capacity based on EN 60204-1 and IEC 60364-5-52, routing type E 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 67 Connection 5.2 Electrical connection 5.2.6 Motors with DRIVE-CLiQ interface NOTICE Damage to components that are sensitive to electrostatic discharge The DRIVE-CLiQ interface has direct contact to components that can be damaged/ destroyed by electrostatic discharge (ESDS). Encoder systems and temperature sensors are components that can be destroyed by electrostatic discharge (ESD). Components that are sensitive to electrostatic discharge can be damaged if you touch the connections with your hands or with electrostatically charged tools. * Carefully observe the information in Chapter "Handling electrostatic sensitive devices (ESD)". Motors designed for SINAMICS drive systems are equipped with an internal Sensor Module, which contains an encoder and temperature evaluation system as well as an electronic rating plate. The Sensor Module is mounted instead of the signal connector and is equipped with a 10-pin RJ45plus socket. This is known as a DRIVE-CLiQ interface. The pin assignment is independent of the motor-internal encoder. The Sensor Module can be rotated through approx. 180. The typical torsional torque is between 4 and 8 Nm. The Sensor Module must only be rotated by hand. The use of pipe wrenches, hammers etc. is not permitted. Figure 5-9 Motor with DRIVE-CLiQ interface (example) The signal connection between the motor and Motor Module is established by means of a MOTION-CONNECT DRIVE-CLiQ cable. The MOTION-CONNECT DRIVE-CLiQ cable connector must be inserted far enough so that the catch springs engage. 1PH813/1PH816 main motors 68 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Figure 5-10 5.2.7 Encoder interface with DRIVE-CLiQ Motors without DRIVE-CLiQ interface If a motor is not equipped with a DRIVE-CLiQ interface, the speed encoder and temperature sensor are connected via a signal connector. Motors that are not equipped with DRIVE-CLiQ require a Sensor Module Cabinet-Mounted (SMC) or a Sensor Module External (SME) when operated with SINAMICS S120. The motor is connected to the SMC or the SME via the signal cable. The SMC or SME is connected to the Motor Module via a MOTION-CONNECT DRIVE-CLiQ cable. Figure 5-11 Encoder interface without DRIVE-CLiQ 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 69 Connection 5.2 Electrical connection Figure 5-12 Signal connection (view of connector pins) A suitable socket connector can be used to rotate the angle plug. Make sure that the socket connector is completely secure to avoid damaging the pin contacts. 5.2.8 Connecting an HTL incremental encoder Encoder connection with terminal block using an additional terminal box Induction motors can be equipped with an additional terminal box. This means that you can connect the following HTL incremental encoders for operation with a SINAMICS G via a terminal block: HTL1024 S/R and HTL2048 S/R The additional terminal box is shown in the following diagram. 1PH813/1PH816 main motors 70 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Figure 5-13 Encoder connection via additional terminal box The following circuit diagram is available to connect an HTL incremental encoder: Figure 5-14 Circuit diagram to connect an HTL incremental encoder Note Additionally supplied sensors Connect the following additional sensors in the terminal box according to Chapter "Terminal boxes": * Temperature sensor as a standby or * PTC thermistor circuit for warning and shutdown Note Temperature sensor The type of temperature sensor is to be found on the rating plate. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 71 Connection 5.2 Electrical connection 5.2.9 Connecting the temperature sensor The temperature sensor in the motor winding is connected to the signal connector together with the speed encoder signal. NOTICE Thermal motor damage Windings and bearings can be destroyed if the motor overheats. * Make sure that the temperature sensor is evaluated. 5.2.10 Connecting a grounding conductor in the terminal box The motor grounding conductor cross-section must be in full compliance with the installation regulation, e.g. according to IEC / EN 60204-1. The grounding conductor is connected in the terminal box. Figure 5-15 Connecting the grounding conductor Equipotential bonding The internal equipotential bonding between the grounding terminal in the terminal box enclosure and the motor enclosure is established through the terminal box retaining bolts. The contact locations underneath the bolt heads are bare metal and protected against corrosion. The standard cover fixing screws are sufficient for equipotential bonding between the terminal box cover and terminal box enclosure. 1PH813/1PH816 main motors 72 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection 5.2.11 Connecting the external fan The fan connection is located in the fan terminal box. Table 5- 4 Connection specifications for external fans on 1PH813 Air flow direction Max. current consumption at 400 V / 50 Hz (10 %) [A] 400 V / 60 Hz (10 %) [A] 480 V / 60 Hz (10 %) [A] NDE --> DE 0.13 0.16 0.17 DE --> NDE 0.21 0.19 0.23 Table 5- 5 Connection specifications for external fans on 1PH816 Air flow direction Max. current consumption at 400 V / 50 Hz (10 %) [A] 400 V / 60 Hz (10 %) [A] 480 V / 60 Hz (10 %) [A] NDE --> DE 0.17 0.22 0.22 DE --> NDE 0.26 0.32 0.33 Note the following information regarding connections: Only use cables that comply with the relevant installation regulations regarding voltage, current, insulation material, and load-carrying capacity. Before connecting the device, make sure that the line voltage matches the device voltage. Check whether the data on the fan rating plate matches the connection data. Open the terminal box and route the cables (not supplied) into the terminal box. Connection cables must not be subject to excessive tensile stress. Connect the protective conductor (PE). Connect the other cables to the relevant terminals (refer to the connection diagrams). 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 73 Connection 5.2 Electrical connection NOTICE Fan damage caused by moisture The fan can be damaged, for example if water enters the terminal box along the cables. * Use suitable cables and terminal box cable glands. * Ensure that the terminal box cover is correctly fitted and completely closed. Figure 5-16 Connection of external fan in the terminal box NOTICE Damage to the fan when inappropriately operated The fan can be destroyed if inappropriately operated. * Use blocking protection (stall protection) to protect the fan against inappropriate operation. To do this, use a suitable motor circuit breaker where all poles can be disconnected. Operate the fan using this circuit breaker. * Provide an interlocking circuit that prevents the main motor from being switched on when the fan unit is not operational. Note External ground connection Motors with a power rating of more than 100 kW must be grounded via the additional grounding screw M12 at the mounting flange. A cable lug in accordance with DIN 46234 must be used. 1PH813/1PH816 main motors 74 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Connection of the external fan by means of connector for 1PH813 Note If you order the motor with a power connector, the external fan is connected with a size 1 power connector. 1 Connector size 1 (with full thread) 2 Connector SPEED CONNECT size 1 3 Terminal for the cable shield 4 Pin assignment 5 Circuit diagram 6 Cable shield 7 Conductor designation: U, V, W = power cable, 1.5 mm, each cable separately shielded PE = protective conductor Figure 5-17 3-phase connection of external fan via connector 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 75 Connection 5.2 Electrical connection 5.2.12 Connecting-up a converter Selecting and connecting the cables To connect the motor to a converter, use MOTION-CONNECT cables or shielded connecting cables. Note The cable shielding, made up of as many strands as possible, must have a high electrical conductivity. Braided shields made of copper or aluminum are well suited. Connect the shield at both ends at the motor and at the converter. Keep unshielded cable ends as short as possible. Establish the connection through a larger surface area so that high-frequency currents are suitably discharged. Establish a 360 connection at the converter and at the motor, for instance using EMC cable glands at the cable entries. 5.2.13 Connecting a holding brake (option) Electrically connecting a holding brake (option) is described in the Appendix "Holding brake operating instructions". See also Holding brake operating instructions (Page 125) Note regarding a holding brake (Page 124) 5.2.14 Sealing air connection (option Q12) Cooling lubricants containing oil with creepage, which can also be aggressive, are mainly used for machine tools and transfer machines. For critical applications involving media with extremely high creepage rates, generally degree of protection against water (according to EN 60034-5/IEC 60034-5) is not sufficient. To address these particular applications, 1PH8 main motors can be ordered with sealing air connection by specifying option Q12. Note Improved protection against oils and media that can creep You do not increase the IP degree of protection against water with sealing air. However, you improve the protection against oils and media that can creep. 1PH813/1PH816 main motors 76 Operating Instructions, 01/2015, 610.48006.40c Connection 5.2 Electrical connection Figure 5-18 Sealing air connection (option Q12) Conditioning A: 1PH8 motors without shaft sealing ring (option K18) Min. air intake temperature [C] Ambient temperature Max. air intake temperature [C] 40 Max. residual water content [g/m3] 0.12 Max. residual oil content [g/m3] 0.01 Max. residual dust [mg/m3] 0.1 Min. supply pressure [Pa] 2.5 x 105 Max. supply pressure [Pa] 3 x 105 Particle size for hollow shaft encoders [m] <8 Particle size for optical encoders [m] <3 Volumes *) Volumes [Nm3/ h] [Nm = standard cubic meter] 1 ... 1.5 *) The volume data refers to the specified minimum supply pressure. For higher supply pressures, the flow rate increases corresponding to the motor flow resistance. A permanent flow of sealing air results in an improved level of protection. The sealing air must comply with the specified air quality. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 77 Connection 5.2 Electrical connection Conditioning B: 1PH8 motors with shaft sealing ring (option K18) Min. air intake temperature [C] Ambient temperature Max. air intake temperature [C] 40 Max. residual water content Max. residual oil content [g/m3] 0.12 [g/m3] 0.01 Max. residual dust [mg/m3] 0.1 Min. supply pressure [Pa] 0.05 x 105 Max. supply pressure [Pa] 0.1 x 105 Particle size for hollow shaft encoders [m] <8 Particle size for optical encoders [m] <3 An improved level of protection is achieved by applying a low static pressure, without having a permanent flow of sealing air. The sealing air must comply with the specified air quality. 1PH813/1PH816 main motors 78 Operating Instructions, 01/2015, 610.48006.40c Commissioning 6.1 6 Safety instructions for commissioning WARNING Danger to life as a result of hazardous voltages when connected to inadequately grounded line supplies In the case of a fault, connecting a motor to an inadequately grounded line supply can result in death, severe injury and/or motor damage. * Connect motors, as part of the drive system, to TN and TT line supplies with grounded neutral point or to IT line supplies. * Verify that the SINAMICS devices and motors are compatible with the residual current device according to EN 61800-5-1 before you connect the devices and motors to the line supply using residual current devices (RCDs). * For line supplies with grounded line conductor, e.g. TT line supplies, use an isolating transformer with grounded neutral point (on the secondary side) between the line supply and the drive system, so that the motor insulation is not overstressed. * When connected to IT line supplies, a monitoring device must signal the first fault between an active part and ground. Remove this fault immediately. WARNING Danger to life when the insulation is damaged as a result of the high-voltage test The motor insulation can be damaged when a motor high voltage test is carried out. You can get an electric shock when touching live components. Further, electronic components can be destroyed. The components involved include temperature sensors and encoders, for example. * Do not carry out a high-voltage test on the motor. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 79 Commissioning 6.1 Safety instructions for commissioning WARNING Danger to life as a result of rotating output elements and loose parts that are flung out Rotating output elements and feather keys that are flung out while the motor is operational can result in severe injuries. * Remove any loose feather keys or secure them so that they cannot be flung out. * Do not touch any rotating parts. * Secure output elements using the appropriate safety guards. WARNING Danger to life when the cooling system bursts The motor will overheat if it is operated without cooling. When cooling water enters the hot motor, this immediately and suddenly generates hot steam that escapes under high pressure. This can cause the cooling water system to burst, resulting in death, severe injury and material damage. * Never operate the motor without cooling. * Only commission the cooling water circuit when the motor is in a cool condition. WARNING Danger to life when the forced ventilation draws in hair and articles of clothing There is a danger of being drawn into the machine (by means of hair, ties, loose articles of clothing, etc.) at the air intake. * Remove any ties or similar. * Wear a hat or hair net to prevent hair from being drawn in. * Keep the air intake area free of any loose objects. * Take the appropriate protective measures to prevent hair and articles of clothing from being drawn in. NOTICE Thermal damage to temperature-sensitive parts The motors can have surface temperatures of over +100 C. Temperature-sensitive parts in contact with the motor or attached to the motor can be damaged. Temperature-sensitive parts include cables and electronic components, for example. * Never attach temperature-sensitive parts to the motor. * Ensure that no temperature-sensitive parts are in contact with the motor. 1PH813/1PH816 main motors 80 Operating Instructions, 01/2015, 610.48006.40c Commissioning 6.1 Safety instructions for commissioning NOTICE Thermal motor damage Windings and bearings can be destroyed if the motor overheats. Further, if a synchronous motor overheats, this can demagnetize the permanent magnets. * Only operate the motors in conjunction with effective temperature control! NOTICE Motor damage when the maximum speed is exceeded The maximum speed nmax is the highest permissible operating speed. The maximum speed nmax is stamped on the rating plate (nameplate). The motor can be damaged if operated at inadmissible speeds. * Ensure that the maximum permissible speed is not exceeded. Realize this using a suitable control system or activate the speed monitoring function in the drive. NOTICE Damage or destruction of the holding brake If the holding brake is used as an operating brake, then it will be damaged or destroyed. * Control the holding brake so that it can never be used as an operating brake. * The holding brake microswitch must be connected to the control and evaluated (also refer to the supplementary sheet on the holding brake 4BZFM 100). * It must be completely ruled out that the motor is operated with the holding brake closed. * It is only permissible to control the holding brake when the motor is at a standstill. Note Grease distribution operation for "High Performance" bearing version The manufacturer operates 1PH8 High Performance drives for approximately 15 min. to distribute the grease. After this run-in time, users can operate the motors up to the maximum speed without causing bearing damage. The grease distribution with the optimum formation of a lubricating film in the roller bearing is completed after an operating time of approx. 30 hours. When excess grease is being pressed out of the bearing cage certain noises can occur, which do not necessarily mean potential bearing damage. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 81 Commissioning 6.2 Checklists for commissioning 6.2 Checklists for commissioning Note Checks that are required This list below does not claim to be complete. It may be necessary to perform additional checks and tests in accordance with the situation specific to the particular installation site. Before commissioning the system, check that it is properly installed and connected. Commission the drive system corresponding to the operating instructions of the converter or inverter. Thoroughly familiarize yourself with the safety instructions and observe the checklists below before starting any work. Table 6- 1 Checklist (1) - general checks Check OK Are all of the necessary components of the configured drive line-up available, correctly dimensioned, installed and connected? Are the manufacturer's documentation for the system components (e.g. drive system, encoder, cooling system, brake) and the "SIMOTICS M-1PH8 main motors" Configuration Manual available? If the 1PH8 motor is to be fed from a SINAMICS S120 drive system: Is the following, current SINAMICS documentation available? * SINAMICS S120 Commissioning Manual * Getting Started S120 * S120 Function Manual * S120/150 List Manual If the 1PH8 motor is to be fed from a SINAMICS S120 drive system: Was the Chapter "Checklists for commissioning SINAMICS S" in the SINAMICS S120 Commissioning Manual carefully observed? Is the motor type to be commissioned known? (e.g. 1PH8 _ _ _ - _ _ _ _ _ - _ _ _ _) Are the environmental conditions in the permissible range? 1PH813/1PH816 main motors 82 Operating Instructions, 01/2015, 610.48006.40c Commissioning 6.2 Checklists for commissioning Table 6- 2 Checklist (2) - checks regarding the mechanical system Check OK Have all touch protection measures for moving and live parts been taken? Has the motor been correctly mounted and aligned? Can you rotate the rotor without it touching the stator? Do the operating conditions correspond to the data specified on the rating plate? Are all mounting screws, connecting elements, and electrical connections tight and attached properly? Do the output elements have the correct setting conditions according to type? Examples: * Have the couplings been aligned and balanced? * Has the tension of a belt drive been correctly adjusted? * Have the gear tooth flank and gear tooth tip play as well as radial play been correctly adjusted for geared outputs? Table 6- 3 Checklist (3) - checks regarding the electrical system Check OK Has the motor been connected so that it rotates in the specified direction? Have the minimum insulation resistance values been maintained? Have the grounding and equipotential bonding connections been correctly established? Do the brakes function perfectly? Table 6- 4 Checklist (4) - checks regarding monitoring devices Check OK Has it been ensured that speeds no higher than the maximum speed nmax can be reached (is the drive speed limited)? Have all supplementary motor monitoring devices and equipment been correctly connected - and are they functioning correctly? 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 83 Commissioning 6.2 Checklists for commissioning Table 6- 5 Checklist (5) - checks regarding the cooling system Check OK Water cooling Has the cooling water supply been connected and is it ready for operation? Is the cooling water circulation (flow rate, temperature) in compliance with the specifications? Forced ventilation Have you checked all safety-related and function-relevant details? Examples: * Have you compared the data of the external cooling unit with the supply data? It is not permissible that the external cooling unit is connected if the supply data deviates from the data of the external cooling unit to such an extent that an overload condition would occur. * Is the electrical installation of the external cooling unit, including accessories OK, e.g. has the protective conductor been connected? * Are the mechanical installation and electrical installation of the safety-relevant components OK? These include the installation of a circuit breaker and attaching protective guards. * Are the cable entry glands correctly sealed? * Are the fan air intake and the area around the fan blades free of foreign bodies? * Does the fan have the correct direction of rotation? An arrow is stamped on the fan rating plate. This arrow indicates the correct direction of rotation of the fan. An arrow is also marked on the fan blades. When the fan starts, you can visually check the direction of rotation using the arrows. The fan functions correctly if the direction of rotation matches the direction of the arrow on the fan rating plate. Table 6- 6 Checklist (6) - checks regarding the optional brake Check OK Does the brake open when the operating voltage is connected? Does the brake open and close correctly? Table 6- 7 Checklist (7) - checks regarding roller bearings Check OK Are the roller bearings OK? For motors that were stored, were the storage conditions according to Chapter "Storage" and the bearing change intervals according to Chapter "Bearing change interval" complied with? 1PH813/1PH816 main motors 84 Operating Instructions, 01/2015, 610.48006.40c Commissioning 6.3 Checking the insulation resistance 6.3 Checking the insulation resistance After long storage or shutdown periods, the insulation resistance of the windings must be measured to ground with direct voltage. WARNING Danger to life through electric shock During and immediately after the measurement, the terminals are in some cases at hazardous voltages, which can lead to death when touched. * Only check the insulation resistance if you are appropriately qualified to do this. * Before measuring the insulation resistance, read the manual for the insulation resistance meter you are going to use. * Never touch the terminals when making measurements or immediately after the measurement. * Check the connected supply feeder cables to ensure that the line supply voltage cannot be connected. Always measure the insulation resistance of the winding to the motor enclosure when the winding temperature is between 20 and 30 C. When performing the measurement, wait until the final resistance value is reached (this takes approx. one minute). 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 85 Commissioning 6.3 Checking the insulation resistance Limits The table below specifies the measuring circuit voltage as well as the limit values for the minimum insulation resistance and the critical insulation resistance with a rated motor voltage of UN < 2 kV: Table 6- 8 Stator winding insulation resistance at 25 C Rated voltage UN < 2 kV Measurement voltage 500 V (at least 100 V) Minimum insulation resistance with new, cleaned, or repaired windings 10 M Critical specific insulation resistance after a long operating time 0.5 M/kV Note the following: Dry, new windings have an insulation resistance of between 100 and 2000 M (sometimes higher). If the insulation resistance is close to the minimum value, this could be due to humidity and/or an accumulation of dirt. The insulation resistance of the motor winding can drop during the course of its service life can drop due to ambient and operational influences. The critical insulation resistance for a temperature of 25 C on the winding can be calculated by multiplying the rated voltage (kV) by the specific critical resistance value (0.5 M/kV); Example: Critical resistance for a rated voltage (VN) of 0.6 kV: 0.6 kV x 0.5 M/kV = 0.3 M Note Cleaning and/or drying the windings when reaching critical insulation resistance If the critical insulation resistance is less than or equal to this value, the windings must be dried or, if the fan is removed, cleaned thoroughly and dried. Note that the insulation resistance of dried, clean windings is lower than that of warm windings. The insulation resistance can only be evaluated accurately when measured on a winding that has been cooled down to room temperature (approx. 20 to 30 C). Note Measured value close to critical value If the measured value is close to the critical value, the insulation resistance should be subsequently checked at suitably regular intervals. Values apply for measurement at a winding temperature of 25 C. 1PH813/1PH816 main motors 86 Operating Instructions, 01/2015, 610.48006.40c Commissioning 6.4 Switching-on and switching-off 6.4 Switching-on and switching-off Note EMERGENCY OFF To avoid accidents, inform yourself about the EMERGENCY OFF function before you switch on the system. The motor is switched on and off using the converter. Read about this topic in the converter operating instructions. Before switching on Ensure that the converter is correctly parameterized. Use the appropriate commissioning tools, e.g. "Drive ES" or "STARTER". Switch on the cooling system. Switching on 1. Switch-on the motor at the converter. 2. Observe any uneven running and abnormal noise of the motor. 3. Check the function of the motor cooling system. 4. Check the function of the safety equipment. 5. Check as to whether the motor reaches the required parameters Switching off Switch-off the motor at the converter. The motor has been commissioned. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 87 Commissioning 6.5 Cooling 6.5 Cooling Water cooling The motor must always be connected to the cooling water supply when in operation. WARNING Danger to life when the cooling system bursts The motor will overheat if it is operated without cooling. When cooling water enters the hot motor, this immediately and suddenly generates hot steam that escapes under high pressure. This can cause the cooling water system to burst, resulting in death, severe injury and material damage. * Never operate the motor without cooling. * Only commission the cooling water circuit when the motor is in a cool condition. NOTICE Overheating because there is no cooling water If the cooling water supply fails or the motor is operated for a short time without cooling water, this can cause it to overheat. This can result in material damage or destroy the motor completely. * Never operate the motor without the cooling water supply. Monitor the permissible water inlet temperatures. Forced ventilation Steps must be taken to ensure that the motor is only operated in conjunction with the external fan. NOTICE Risk of overheating if external cooling is inadequate If the external fan fails or the motor is operated for a short time without forced ventilation, this can cause it to overheat. Overheating can cause failures and shorten the service life of devices/systems. * Always operate the motor together with an external fan. 1PH813/1PH816 main motors 88 Operating Instructions, 01/2015, 610.48006.40c 7 Operation Note EMERGENCY OFF To avoid accidents, inform yourself about the EMERGENCY OFF function before you switch on the system. Switching on WARNING Danger to life caused by the machine moving and loose objects Machine movement and loose objects, which can fall or are flung out, can cause severe injury. * Ensure that the machine has been completely installed and all of the setting work completed. * Ensure that nobody is at risk at switch on. * Before switching on, check that there are no loose objects in or on the motor that can fall or can be flung off. The motor is switched on at the converter. Read about this topic in the converter operating instructions. Operation While the motor is operational ensure that the specified parameters are maintained. Make sure that: The current drawn is in the specified range Cooling is ensured - For water cooling: Check the liquid level and coolant circulation - For forced ventilation: Check that the heat can be dissipated unobstructed There are no abnormal motor noises The motor does not overheat If available, the sealing air intake functions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 89 Operation 7.1 Faults NOTICE Motor damage caused by worn bearings Worn bearings cause motor damage. * Always comply with the bearing change intervals depending on the operating state. Switching off The motor is switched off at the converter. Read about this topic in the converter operating instructions. 7.1 Faults WARNING Injuries caused by the drive system as a result of ineffective protective devices Injuries can be caused if protective devices are deactivated while troubleshooting. * Only operate the drive system with functioning protective devices. Note Damage to the machine caused by faults * Correct the cause of the fault as specified in the remedial measures section. * Repair any damage to the machine/motor. Note When faults occur, observe the converter operating instructions. If changes occur with respect to normal operation or faults, determine the cause using the "Possible faults" table. If you have identified the cause, attempt to resolve the fault using the "Key - fault causes and remedial measures" table. In this regard, observe the relevant chapter in the documentation associated with the components of the complete drive system. 1PH813/1PH816 main motors 90 Operating Instructions, 01/2015, 610.48006.40c Operation 7.1 Faults Table 7- 1 Possible faults Fault Cause of fault (see key table) Motor does not start A B Motor starts slowly A Rumbling noise when starting Rumbling noise in operation A E C E C E C E F High temperature rise under no load operation High temperature rise under load High temperature rise of individual winding sections Uneven running Grinding sound, running noise Radial vibration Axial vibration Water is leaking F F D A G H I C G H I E F J K L M N O P O R Q R S 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 91 Operation 7.1 Faults Table 7- 2 No. Key to causes of faults and remedial measures Cause of fault Remedial measures A Overload Reduce load B Interrupted phase in the supply cable/motor winding Check the converter and supply cables/measure the winding resistances and insulation resistances, repair after consultation with manufacturer C Interrupted phase in the feeder cable after switching on Check the converter and supply cables/check the winding resistances. D Converter output voltage too high, frequency too low Check the converter settings, perform automatic motor identification. F Winding short circuit or phase short circuit Measure the winding resistances and insulation resistances, repair after in stator winding consultation with manufacturer G Cooling water not connected or switched off Check cooling water connection, switch on cooling water H Cooling water flow rate too low Increase cooling water flow rate Inlet temperature too high Set correct inlet temperature E Stator winding incorrectly connected Check winding connection I Heat dissipation obstructed by deposits Clean the drive surfaces. Ensure that the cooling air can flow in and out unimpeded Cooling air inlet/outlet is blocked by foreign bodies Remove the blockage. Ensure that the cooling air can flow in and out unimpeded Fan motor does not start Check the function of the fan motor J Insufficient shielding for motor and/or encoder cable Check the shielding and grounding. K Drive controller gain too high Adjust the controller. L Rotating parts are grinding Determine cause and adjust parts concerned Foreign bodies in the motor Send to manufacturer for repair Bearing damage Send to manufacturer for repair M Rotor not balanced Decouple rotor and rebalance. N Rotor out of true, shaft bent Consult the manufacturer O Poor alignment Align machine set, check coupling. P Coupled machine not balanced Rebalance coupled machine. Q Mechanical shocks from coupled machine Inspect coupled machine. R Uneven gearbox operation Repair the gearbox. S Cooling water pipe / water connection defective Locate leaks and seal as necessary, or consult the manufacturer If the fault still cannot be resolved after applying the measures specified above, please contact the manufacturer or the Siemens Service Center. 1PH813/1PH816 main motors 92 Operating Instructions, 01/2015, 610.48006.40c Operation 7.2 Non-operational periods 7.2 Non-operational periods Measures for longer non-operational periods NOTICE Damage due to improper storage The motor can be damaged if it is not stored properly. * If the motor is not operational for longer periods of time, preserve it by using anticorrosion protection and ensure that it remains dry (e.g. appropriate drying agents). * When recommissioning after longer non-operational periods of the motor, perform the checks and measures listed in Chapter, "Commissioning". Disconnect the motor from the cooling water system. Remove any cooling water from the motor. Blow out the cooling ducts with compressed air to dry them. If the motor is not operational for extended periods of time, run it at regular intervals (roughly once a month) or spin the rotor by hand. Before switching on to commission the drive, carefully read the Section "Switching on" in the Chapter "Switching on and switching off". 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 93 Operation 7.2 Non-operational periods 1PH813/1PH816 main motors 94 Operating Instructions, 01/2015, 610.48006.40c 8 Maintenance CAUTION Risk of burns when hot cooling water escapes There is a risk of burns caused by escaping hot cooling water and steam if you open the cooling circuit of a motor that was previously in operation. * Do not open the motor cooling circuit until the motor has cooled down. CAUTION Risk of injury through contact with cleaning agents and solvents Contact with cleaning agents and solvents can cause chemical burns and irritate the skin and mucous membranes. * Carefully observe all of the safety and application notes provided on the packaging of the cleaning agents and solvents. * Ensure that any vapors that are released are drawn out and that the work area is well ventilated. * Use the appropriate personnel protection equipment (e.g. protective eyewear, gloves, respiration filter). CAUTION Injuries caused by blown particles When you clean using compressed air, this can stir up dust, metal chips and cleaning agents, which can cause injury. * When cleaning with compressed air, ensure there is adequate extraction equipment. * Use the appropriate personnel protection equipment, e.g. gloves, protective overall. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 95 Maintenance 8.1 Inspection and maintenance 8.1 Inspection and maintenance 8.1.1 General inspection guidelines The motor is not disassembled for inspection. If you have any questions, please contact the manufacturer, informing them of the machine type and serial number. We recommend that a Siemens Service Center carries out inspection and maintenance work. The contact data is provided in the introduction under "Technical support". 8.1.2 Maintenance and inspection intervals General Inspect and maintain the motor at regular intervals to be able to identify faults at an early stage and remove them. NOTICE Resulting damage to the machine Unusual conditions or faults of the motor, e.g. overload or short circuit can result in consequential damage to the machine. * Immediately inspect the motor if faults or exceptional conditions occur. Cleaning Regularly clean the drive system to ensure that it is adequately cooled. Inspection/maintenance intervals, periods, measures The maintenance intervals depend on the operating conditions. Adapt the maintenance intervals to match the local conditions, such as pollution/dirt, switching frequency, load, etc. Carry out the following measures according to what is specified in the table. 1PH813/1PH816 main motors 96 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.1 Inspection and maintenance Table 8- 1 Operating intervals or periods and measures Operating intervals or periods After 500 operating hours, after 6 months at the latest Measures Initial inspection General inspection Approx. every 8000 operating hours, after 2 years at the latest Approx. every 5000 operating hours, after 2 years at the latest Without radial shaft sealing ring With radial shaft sealing ring Note the recommended bearing replacement intervals (see "Bearing replacement intervals") Replace the bearings Approx. every 5000 operating hours Replace the radial shaft sealing rings Depending on local degree of pollution Clean the fan for forced ventilation cooling systems Maintenance-free, provided that the required cooling water quality is ensured Cooling water system (water cooling) 8.1.3 Initial inspection Carry out a first inspection after installation 500 operating hours, at the latest after 6 months corrective maintenance of the motor. Note Adapt the inspection to the plant-specific conditions. Further tests are also necessary in line with the component documentation or corresponding to the particular system-specific conditions. Test scope While the motor is running, check that the equipment conforms to the stated electrical characteristics. the smooth running characteristics and motor noise during operation have not changed. NOTICE Machine damage when ignoring abnormalities identified during the inspection Abnormalities identified during inspection that are subsequently ignored can result in machine damage. * Analyze and remove any abnormalities identified, taking into consideration Chapters, "Faults" and "Maintenance". * Contact the Siemens Service Center if you require any support. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 97 Maintenance 8.1 Inspection and maintenance 8.1.4 General inspection Note Adapt the inspection to the plant-specific conditions. Further tests are also necessary in line with the component documentation or corresponding to the particular system-specific conditions. Test scope While the motor is running, check that the electrical parameters are maintained. the smooth running characteristics and motor noise during operation have not changed. When the motor is at a standstill, check that the motor foundation has no indentations or cracks. the machine is aligned within the permissible tolerance ranges. all of the mounting bolts/screws for the mechanical and electrical connections are tight. the insulation resistance of windings lies in the permissible tolerance range. any bearing insulation is fitted in accordance with the labeling. cables and insulating parts and components are in a good condition and are not discolored. the permissible radial forces (cantilever forces) of the roller bearings are complied with. Note The permissible radial forces are listed in Catalog NC 62, PM21 and in the Configuration Manual "SIMOTICS M-1PH8 main motors". NOTICE Machine damage when ignoring abnormalities identified during the inspection Abnormalities identified during inspection that are subsequently ignored can result in machine damage. * Analyze and remove any abnormalities identified, taking into consideration Chapters, "Faults" and "Maintenance". * Contact the Siemens Service Center if you require any support. 1PH813/1PH816 main motors 98 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.1 Inspection and maintenance 8.1.5 Bearing replacement intervals The bearings are subject to wear and must be replaced after a defined number of operating hours. The recommended bearing replacement intervals tLW are listed in the following table. Bearing replacement intervals can be extended if the motor is operated under favorable conditions, e.g. low or medium speeds, low radial forces (cantilever forces), vibration load. Note Difficult operating conditions Under difficult operating conditions, the bearing replacement intervals tLW are reduced by up to 50 %. Difficult operating conditions include, for example * continuous operation with nmax * high vibration and surge loads * frequent reversing operation Table 8- 2 Shaft height 132 160 Bearing version, maximum speeds and bearing replacement intervals Bearing version Maximum speed nmax Average operating speed nm [rpm] [rpm] Statistical bearing lifetime L10h [h] Standard with locating bearing 8000 6500 Standard 8000 Performance Recommended bearing replacement interval tLW [h] Permanent lubrication Relubrication 20000 20000 - 4500 20000 20000 - 10000 8500 12000 12000 - High Performance 15000 10000 12000 12000 - Advanced Lifetime 4500 2500 40000 40000 - Increased radial forces 6500 1800 20000 20000 - Standard with locating bearing 6500 5400 20000 20000 - Standard 6500 3500 20000 20000 - Performance 9000 7000 12000 12000 - High Performance 10000 8000 12000 12000 - Advanced Lifetime 4000 2300 40000 40000 - Increased radial forces 5300 1500 16000 16000 - Calculating the average speed 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 99 Maintenance 8.1 Inspection and maintenance Table 8- 3 Recommended bearing replacement intervals at maximum speed Shaft height Bearing version Maximum speed nmax Statistical bearing lifetime L10h Recommended bearing replacement interval [rpm] [h] Permanent lubrication Relubrication - tLW [h] 132 Performance 10000 8000 8000 High Performance 15000 8000 8000 - 160 Performance 9000 8000 8000 - High Performance 10000 8000 8000 - Note 1PH8 motors require special bearings, which can be obtained via the Siemens Service Center. 1PH813/1PH816 main motors 100 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.1 Inspection and maintenance 8.1.6 Cleaning the motor and fan (external fan) Check the degree of pollution of the motor and the external cooling unit at regular intervals. Clean the motor and the external cooling unit if cooling is no longer adequate. Preparing for cleaning WARNING Danger to life as a result of rotating fan blades When carrying out repair and maintenance work on the external cooling unit, rotating fan blades can cause severe injury. * Switch off the external cooling unit. * Disconnect the external cooling unit circuit and lock out the external cooling unit so that it cannot be switched on again. * If at all possible, lock the fan blades so that they cannot rotate. 1. Switch off the motor and external cooling unit. 2. Disconnect both of them from the power supply by disconnecting all phases. 3. Ensure that they both cannot be accidentally switched on again. 4. Once the voltage has been disconnected on all poles, wait for five minutes before touching the device. 5. Allow the motor and external cooling unit to cool down. 6. To clean the fan blades, remove the guard from the cooling unit. The motor remains attached to the guard. 7. If at all possible, lock the fan blades so that they cannot rotate. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 101 Maintenance 8.1 Inspection and maintenance Cleaning WARNING Danger to life due to risk of explosion caused by solvents When using solvents, vapors are released, which can explode if they come into contact with a source of ignition. The explosion can cause death or severe injury. * Remove or extinguish all sources of ignition. * Only use tools where sparking can be completely ruled out. * Ensure good ventilation. CAUTION Risk of injury through contact with cleaning agents and solvents Contact with cleaning agents and solvents can cause chemical burns and irritate the skin and mucous membranes. * Carefully observe all of the safety and application notes provided on the packaging of the cleaning agents and solvents. * Ensure that any vapors that are released are drawn out and that the work area is well ventilated. * Use the appropriate personnel protection equipment (e.g. protective eyewear, gloves, respiration filter). NOTICE Damaged fan blades as a result of excessive force Fan blades can be damaged if subject to excessive force. * Avoid applying excessive force to the fan. Note Use a lint-free cloth or a soft brush to clean the fan blades; ensure that no moisture enters the inside of the motor. Clean the motor and the external cooling unit with commercially available cleaning agents. 1PH813/1PH816 main motors 102 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance After cleaning 1. Allow the motor and external cooling unit to dry. 2. After wet cleaning, check the insulation resistance. 3. If available, remove the rotation locking element of the fan blades. 4. Screw the guard (with fan) back onto the fan unit. To do so, tighten the 6 screws with a torque of 6.5 Nm 1 Nm. 5. Check that you have removed all of the cleaning equipment and cleaning agents. 6. Check that you have reattached all of the parts that were removed for cleaning. 7. Reconnect the power supply. 8. Switch on the motor and external fan unit again. 8.1.7 Replacing an encoder When replacing the motor bearings, we also recommend that you replace the encoder equipped with their own bearings. 8.2 Corrective maintenance WARNING Danger to life from permanent magnet fields The permanent magnets of synchronous motor rotors generate strong magnetic fields and forces of attraction. The permanent magnets represents a danger for people with active medical implants, who come close to the motors. Examples of such implants include: Heart pacemakers, metal implants, insulin pumps. Further, people that have magnetic or electrically conductive implants are at risk. * If you are such a person (with heart pacemaker or implant) then keep a minimum distance of 2 m from an opened motor. * Only the Siemens Service Center should remove the rotor. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 103 Maintenance 8.2 Corrective maintenance NOTICE Data loss due to strong magnetic fields The permanent magnets of synchronous motor rotors generate strong magnetic fields and forces of attraction. If you are located close to the rotor, any magnetic or electronic data storage media as well as electronic devices that you might be carrying could be damaged. * Do not wear or carry any magnetic or electronic data storage media (e.g. credit cards, USB sticks, floppy disks) and no electronic devices (e.g. watches) if you are close to a rotor! NOTICE Damage to components that are sensitive to electrostatic discharge The DRIVE-CLiQ interface has direct contact to components that can be damaged/ destroyed by electrostatic discharge (ESDS). Encoder systems and temperature sensors are components that can be destroyed by electrostatic discharge (ESD). Components that are sensitive to electrostatic discharge can be damaged if you touch the connections with your hands or with electrostatically charged tools. * Carefully observe the information in Chapter "Handling electrostatic sensitive devices (ESD)". The Siemens Service Center Bad Neustadt, Germany should be contacted when carrying out motor repair work. You can replace a defective encoder on site where the motor is installed. Read and follow the notes and descriptions in this documentation. 1PH813/1PH816 main motors 104 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance 8.2.1 Removing/installing the motor Removal When removing the motor, mark the original position of the components with respect to each other (e.g. using a colored pen, scribing iron) to make subsequent installation easier. Removing the encoder, see Chapter "Removing/mounting the encoder". Unscrew the NDE bearing shield screws and carefully remove the NDE bearing shield. Unscrew the bearing cap screws (see "Spare parts", item 1.02). Remove the grease slingers from the shaft shoulder (DE). Remove the rotors from the motor. Use a suitable device to remove the rolling-contact bearings. Mounting Do not reuse rolling-contact bearings that have been removed. Heat up the new rolling-contact bearings evenly to 80 - 100C and attach them. When doing so, make sure that the bearing inner ring lies on the shaft shoulder. The device must not be subject to hard knocks (e.g. do not use a hammer etc.). Insert the motor rotor into the stator. Secure the bearing cap. Insert the NDE bearing (with shaft spring) into the NDE flange (keep the bearing straight) and tighten the screws. Press on the grease slinger (gamma ring housing 9RB... without sealing lip) with a suitable sleeve (dimension x = 0 mm (flush with cover)), see figure "Installing the gamma ring". When disassembling, do not reuse damaged grease slingers. With the bearing type "increased radial forces" (14th position of the Article No. = "F"), the grease slinger must protrude 1 mm over the cover, i.e. dimension x = 1 mm. Figure 8-1 Installing the gamma ring 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 105 Maintenance 8.2 Corrective maintenance Running in the bearings Once you have replaced the bearings, allow the rolling-contact bearings to run in to distribute the grease evenly. When doing so, the motors should be initially run continuously from 0 to approx. 75 % of the maximum speed nmax over a period of 15 minutes. 8.2.2 Removing/installing the speed encoder WARNING Uncontrolled motor motion as a result of incorrect adjustment Incorrect adjustment of the encoder regarding motor EMF can lead to uncontrolled motion which can cause personal injury and/or material damage. * Only change an encoder and adjust it if you are appropriately qualified to do so. Note Removing/installing the encoder * Unscrew the terminal box cover and disconnect the power cables. * Unscrew the external fan unit (if installed) and the encoder cover. 1PH813/1PH816 main motors 106 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance 1 Screw 5 Encoder shaft 2 Connector cover 6 Screws 3 Motor shaft 9.xx See section "Spare parts" 4 Jacking thread Figure 8-2 Motor shaft - encoder shaft connection 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 107 Maintenance 8.2 Corrective maintenance Removal 1. Unscrew the screw (1). 2. Remove the connector cover (2). 3. Remove the connector with signal cable. 4. Unscrew the screws (9.07) for the torque bracket. 5. Unscrew the encoder screw (9.05) (make sure that the motor rotor does not also start to rotate). 6. Removing the encoder from the motor shaft: Screw the threaded pin, e.g. DIN 913 M5 x 15 for protection of the centering bore thread into the motor shaft extension as a disassembly aid and then separate the encoder by inserting an M6 x min. 40 screw. Mounting 1. Screw the torque bracket (9.06) onto the encoder by means of screws (6) and secure in place (e.g. with Loctite 243). Observe the distance between the torque bracket and encoder! (this step does not need to be carried out if the encoder is already mounted). 2. If necessary, remove the threaded pin (used earlier to remove the encoder). 3. Unscrew the screw (1) for the replacement encoder. 4. Remove the connector cover (2) for the replacement encoder. Place the encoder (with torque bracket) (9.06) onto the cone of the motor rotor and screw in the encoder screw (9.05) (tightening torque 5 -1 Nm). Prevent the motor rotor from starting to rotate as well! 5. Secure the torque bracket (9.06) by means of screws (9.07) on the bearing shield (6.01) (note the radial deflection of the encoder). 6. Press on the metal sleeve for the connector cable. 7. Insert the connector with signal cable and place the cable into the guide. 8. Fix the plug cover (2) with the screw (1) and secure in place, e.g. with Loctite 243. Note Re-adjusting the encoder system With synchronous motors, the encoder system has to be realigned! 1PH813/1PH816 main motors 108 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance 8.2.3 Removing/installing the toothed-wheel encoder Note Toothed-wheel encoder The toothed-wheel encoder has the following description without the DRIVE-CLiQ interface: "Incremental encoder sin/cos 1 Vpp 256 S/R without C and D tracks (encoder IN256 S/R)." The marking is: 1PH8-C- The toothed-wheel encoder has the following description with the DRIVE-CLiQ interface: "Incremental encoder 19-bit without commutation position (encoder IN19DQ)." The marking is: 1PH8-S- 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 109 Maintenance 8.2 Corrective maintenance 1 Screws 2 Cover 8 Connector 3 Balancing weight 9 Screws 4 Screws 10 Scanning unit 5 Cover 11 Toothed wheel 6 Screw 12 Motor shaft Figure 8-3 Installing the toothed-wheel encoder 1PH813/1PH816 main motors 110 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance Removal 1. Unscrew the screws (1) and remove the cover (2). 2. Pull out the balancing weight (3). 3. Unscrew the screws (4) and remove the cover (5). 4. Scanning unit: - Unscrew the screw (6). - Remove the connector (8) for the signal cable. - Remove the screws (9) with washers and remove the scanning unit (10). 5. Toothed wheel: - Pull off the toothed wheel (11). Mounting Mount the toothed-wheel encoder in the reverse order to the order in which you removed it, with the following differences: 1. Heat up the toothed wheel (11) (approx. 150 C), push it onto the motor shaft (12) and allow it to cool down. 2. Lock the screws (9) for attaching the scanning unit (10), e.g. with Loctite 243. 3. Observe the mounting dimensions (see Fig. "Installing the toothed-wheel encoder"). 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 111 Maintenance 8.2 Corrective maintenance 8.2.4 Replacing the DRIVE-CLiQ interface (encoder module) WARNING Danger to life when using an incorrect encoder module The DRIVE-CLiQ encoder contains motor and encoder-specific data and an electronic type plate. If you use an incorrect DRIVE-CLiQ encoder, this can result in death, severe injury and severe material damage. * Only use the DRIVE-CLiQ encoder and the electronic type plate for the original motor. * Do not mount the DRIVE-CLiQ encoder onto other motors. * Do not replace a DRIVE-CLiQ encoder by a DRIVE-CLiQ encoder belonging to another motor. * Only appropriately trained Siemens service personnel should replace DRIVE-CLiQ encoders. NOTICE Electrostatic discharge Electronic modules contain components that can be destroyed by electrostatic discharge. These modules can be easily destroyed if they are not handled properly. * To protect your equipment against damage, follow the instructions given in the chapter ESD Guidelines. 1PH813/1PH816 main motors 112 Operating Instructions, 01/2015, 610.48006.40c Maintenance 8.2 Corrective maintenance 8.2.5 Tightening torque for screwed connections For screwed connections with metal contact surfaces (e.g. bearing end shields, active bearing components, or terminal box parts screwed onto the stator housing), the following tightening torques apply (depending on the thread size) with a tolerance of 10 %, property class 8.8 and 8 or higher, to DIN ISO 898. Table 8- 4 Tightening torque for screwed connections Thread diameter M4 M5 M6 M8 M10 M12 M16 3 5 9 24 42 70 165 Tightening torque [Nm] Bolt locking devices Nuts or bolts that are mounted together with locking, resilient and/or force-distributing elements (e.g. safety plates, spring-lock washers, etc.) must be refitted together with identical, fully functional elements. Always renew keyed elements. 8.2.6 Removing/mounting a holding brake (option) Removing/mounting a holding brake (option) is described in the Appendix "Holding brake operating instructions". 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 113 Maintenance 8.2 Corrective maintenance 1PH813/1PH816 main motors 114 Operating Instructions, 01/2015, 610.48006.40c 9 Spare parts Note The diagram provided is merely intended as an example of the different motor versions and does not detail every aspect of the different versions. The spare parts are available from our Service Centers in parts kits and can be ordered by specifying the motor designation. "Spares on Web" provides a quick and uncomplicated way for you to determine the article numbers of standard spare parts and parts kits for motors. Simply enter the the article number (machine type) and serial number at: www.siemens.com/sow 1.00 6.00 7.00 DE bearing assembly, complete 1.01 Bearing cap 1.02 Screw 1.03 USIT washer 1.04 O-ring 1.05 Cover 1.06 Grease slinger 1.07 Roller bearings 1.08 Screw NDE bearing assembly (complete) 6.02 Roller bearings 6.03 Screw 6.04 O-ring 6.05 O-ring bearing 6.06 Distance piece 6.07 Corrugated spring Fan module, complete 7.01 Fan motor 7.02 Screw - Shaft sealing ring (shaft sealing ring, rotor sleeve (not in diagram "Replacement parts (example)") 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 115 Spare parts 9.00 Encoder kit for the individual encoder version - solid shaft 9.01 Encoders 9.04 O-ring 9.05 Screw 9.06 Torque bracket 9.07 Screw - Encoder kit for hollow-shaft encoders (not in diagram "Replacement parts (example)") Measuring wheel O-ring Sensor head - DRIVE-CLiQ interface (not in diagram "Replacement parts (example)") 1PH813/1PH816 main motors 116 Operating Instructions, 01/2015, 610.48006.40c Spare parts Figure 9-1 Spare parts (example) 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 117 Spare parts 1PH813/1PH816 main motors 118 Operating Instructions, 01/2015, 610.48006.40c Decommissioning and disposal 10.1 10 Decommissioning Disassembly of the motor must be carried out and/or supervised by qualified personnel with appropriate expert knowledge. 1. Contact a certified waste disposal organization in your vicinity. Clarify what is expected in terms of the quality of dismantling the motor and provision of the components. 2. You must carefully follow the five safety rules as listed in Chapter, "Fundamental safety instructions". 3. Disconnect all electrical connections. 4. Remove all liquids such as oil, water, ... 5. Remove all cables. 6. Remove the fixing elements from the motor. 7. Transport the motor to a suitable location for disassembly. Also observe the notes provided in Chapter "Maintenance". Dismantle the motor using the general motor-typical procedures. WARNING Danger to life caused by falling machine parts The machine partially comprises heavy individual components. When removing the machine, these components can fall. This can result in death, serious injury or material damage. * Secure the machine components that are being released so that they cannot fall. The motors must be disposed of in accordance with national and local regulations as part of the standard recycling process or they can be returned to the manufacturer. The encoder electronics must be properly disposed of electronic waste. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 119 Decommissioning and disposal 10.2 Disposal 10.2 Disposal Protecting the environment and preserving its resources are corporate goals of the highest priority for us. Our worldwide environmental management system to ISO 14001 ensures compliance with legislation and sets high standards in this regard. Environmentally friendly design, technical safety and health protection are always firm goals even at the product development stage. Recommendations for the environmentally friendly disposal of the machine and its components are given below. Be sure to comply with local disposal regulations. Components Sort the components for recycling according to whether they are: Electronics waste, e.g., sensor electronics Iron to be recycled Aluminum Non-ferrous metal, e.g., motor windings Insulating materials Process materials and chemicals Sort the process materials and chemicals for recycling according to whether they are: Oil Dispose of the spent oil as special waste in accordance with the spent oil ordinance. Grease Solvents Cleaner solvent Paint residues Do not mix solvents, cleaner solvents and paint residues. Insulating materials Electrical insulation materials are mainly used in the stator. Some supplementary components are made of similar materials and must, therefore, be handled in the same manner. The insulating materials in question are used on the following items of equipment: Various insulators which are used in terminals boxes Voltage and current transformers Power lines Instrument wiring Surge arrester Capacitors 1PH813/1PH816 main motors 120 Operating Instructions, 01/2015, 610.48006.40c Decommissioning and disposal 10.2 Disposal Disposing of permanent magnets Permanent magnets must be demagnetized prior to disposal. This helps avoid potential hazards caused by permanent magnets during and after disposal. Permanent magnets are heated to demagnetize them. Permanent magnets can be demagnetized in one of the following ways: Arrange for the entire machine to be subject to thermal treatment by a specialist disposal company. Return the machine to the manufacturer. who can then remove and demagnetize the rotor and/or permanent magnets. Rotors that are still installed and have not been demagnetized must not be transported. Note Removing the rotor The rotor in a machine containing permanent magnets must only be removed by the manufacturer. Contact the Siemens Service Center. 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 121 Decommissioning and disposal 10.2 Disposal 1PH813/1PH816 main motors 122 Operating Instructions, 01/2015, 610.48006.40c Appendix A.1 A Declaration of conformity 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 123 Appendix A.2 Note regarding a holding brake A.2 Note regarding a holding brake Depending on what has been ordered, a holding brake can be mounted on the motor. Note UL certification The holding brakes are not UL-approved. Motors with mounted brake therefore do not have the cUR marking! Notes on operation are provided in the operating instructions provided. Note Maintenance and corrective maintenance Maintenance and corrective maintenance must only be carried out by personnel that have been appropriately authorized by Siemens! See also Properties (Page 32) Holding brake operating instructions (Page 125) 1PH813/1PH816 main motors 124 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 125 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 126 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 127 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 128 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 129 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 130 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 131 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 132 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 133 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 134 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 135 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 136 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 137 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 138 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 139 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 140 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 141 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 142 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 143 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 144 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 145 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 146 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 147 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 148 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 149 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 150 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 151 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 152 Operating Instructions, 01/2015, 610.48006.40c Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 153 Appendix A.3 Holding brake operating instructions 1PH813/1PH816 main motors 154 Operating Instructions, 01/2015, 610.48006.40c Index A I Ambient conditions, 23 Area of application, 21 Inspection and maintenance, 96 B M Bearing replacement intervals, 99 Maintenance intervals, 96 Mounting the motor, 44 C N Circuit diagram, 62 Cleaning, 96 Commissioning, 82 Connecting the temperature sensor, 72 Connection, 59 Corrective maintenance, 104 Noise emission, 24 Non-operational periods of the motor, 93 D Declaration of conformity, 123 Degree of protection, 23 F Faults, 91 Flange mounting, 45 Foot mounting, 44 Forced ventilation, 28 G Gamma ring, 105 H Holding brake (option) Connecting, 76 Mounting, 36, 113 Removal, 113 Holding brakes, 32 Hotline, 6 O Output elements, 46 R Rating plate, 25, 25 Regulations, 22 Removal/installation Motor, 105 Speed encoder, 106 Toothed-wheel encoder, 111 Replacing an encoder, 103 Replacing the DRIVE-CLiQ interface, 112 S Safety instructions Commissioning, 79 Electrical connection, 60 Maintenance, 95 Mounting, 43 Operation, 92 Transportation, 37 Siemens Service Center, 6 Spare parts, 115 Storage, 40 1PH813/1PH816 main motors Operating Instructions, 01/2015, 610.48006.40c 155 Index T Technical Support, 6 Terminal box, 63 Tightening torques Electrical connections, 61 Foot/flange mounting, 45 Screwed union connections, 113 Training, 6 Transportation, 38 Types of construction, 27 U Use for the intended purpose, 21 V Vibration strength, 47 Vibration values, 47 W Water cooling, 29 1PH813/1PH816 main motors 156 Operating Instructions, 01/2015, 610.48006.40c