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Summary of Contents for Parker 412LXR Series
- Page 1 Daedal Manual No. 100-5322-01 Rev. 1 412LXR Series Product Manual Effective: February 12, 2002 Supersedes: Electromechanical Positioning Systems Automation...
- Page 2 Since Parker Hannifin Corporation, Daedal Division constantly strives to improve all of its products, we reserve the right to change this product manual and equipment mentioned therein at any time without notice.
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Page 3: Table Of Contents
...................................6 EPAIR NFORMATION ..............................6 ARNINGS AND RECAUTIONS ..........................7 PECIFICATION ONDITIONS AND ONVERSIONS ...................................8 SSEMBLY IAGRAMS CHAPTER 2 - 412LXR SERIES TABLE SPECIFICATIONS ......................9 ..............................9 RDER UMBER OMENCLATURE ................................10 IMENSIONAL RAWINGS 412LXR S ..............................16 ERIES ECHNICAL Force/Speed Charts ....................................16 Clean Room Preparation..................................16 ..............................17... -
Page 4: Revision Notes
412LXR Series Product Manual Revision Notes Revision Notes... -
Page 5: Chapter 1 - Introduction
412LXR Series Product Manual Chapter 1 - Introduction Chapter 1 - Introduction Product Description 412LXR Positioner The 412LXR is a slotless, brushless linear servo motor/square rail bearing positioner housed within a high strength, aluminum body with magnetically retained protective seals. The positioner is powered by three rails of high energy rare earth magnets. -
Page 6: Return Information
412LXR Series Product Manual Chapter 1 - Introduction Return Information Returns All returns must reference a “ R eturn M aterial A uthorization”, (RMA) , number. Please call your local authorized distributor or Daedal Customer Service Department at 800-245-6903 to obtain a “RMA”... -
Page 7: Specification Conditions And Conversions
412LXR Series Product Manual Chapter 1 - Introduction Specification Conditions and Conversions Specifications are Temperature Dependent Catalog specifications are obtained and measured at 20 Degrees C. Specifications at any other temperature may deviate from catalog specifications. Minimum to maximum continuous operating temperature range (with NO guarantee of any specification except motion) of a standard unit before failure is 5 - 40 Degrees C. -
Page 8: Assembly Diagrams
412LXR Series Product Manual Chapter 1 - Introduction Assembly Diagrams 300.0 [11.81] 100.0 [3.94] 250.0 [9.84] Ctr'd 30.0 [1.18] Ø6.8 [Ø0.27] 120.0 [4.72] Ctr'd 260.0 [10.24] 285.0 [11.22] 100.0 [3.94] 266.0 [10.47] Ctr'd 404.0 [15.91] T-Slot for M2.5 Sq. Nut 64.8 [2.55]... -
Page 9: Chapter 2 - 412Lxr Series Table Specifications
412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Chapter 2 - 412LXR Series Table Specifications Order Number Nomenclature... -
Page 10: Dimensional Drawings
412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Dimensional Drawings... - Page 11 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications General Table Specifications Specifications Motor Model 12 Pole Rated Load 900 kg Maximum Acceleration 5 Gs Maximum Velocity Resolution: 0.1 um 0.3 m/sec 0.5 um 1.5 m/sec 1.0 um 3.0 m/sec...
- Page 12 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications 412LXR Series Technical Data The useful life of a linear table at full catalog specifications is dependent on the forces acting upon it. These forces include both static components resulting from payload weight, and dynamic components due to acceleration/deceleration of the load. In multi-axes applications, the primary positioner at the bottom of the stack usually establishes the load limits for the combined axes.
- Page 13 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications 412LXR Bearing Life VS. Load (Side) Side Bearing Load Chart 100000 The “Side Bearing Load” 412LXR chart is to be used in conjunction with the corresponding formulas on the following pages to...
- Page 14 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications...
- Page 15 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Table A – Linear Motion Guide Bearing Life/Load Computation Positioner Loads Compute Evaluate Life On Side & tension Ps > Pt Pe = (0.5 x Pt) + Ps Side load chart Side &...
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Page 16: 412Lxr Series Technical Data
412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications 412LXR Series Technical Data Force/Speed Charts The chart on this page illustrates the characteristics of the 412LXR linear motor. The force/speed chart shows the characteristics of the motor with either a 170 VDC or 340 VDC bus voltage. -
Page 17: Electrical Specifications
412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Electrical Specifications Parameter 12 Pole Units Continuous Force Continuous Current Amps Peak 1,4,8 Continuous Current Amps DC Peak Force 1000 Peak Current 19.0 Amps Peak 4,6,8 Peak Current 16.4... - Page 18 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Gemini Drive Specifications Description Specification Drive Input Power Voltage 96-265 VAC Phase 1Ø Frequency 50/60 Hz 24V Keep Alive (Optional) 24 VDC +/- 20% Drive Output Power Bus Voltage...
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Page 19: Cabling And Wiring Diagrams
412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Cabling and Wiring Diagrams Connector Pin Out and Extension Cable Wire Color Codes Motor Wires Limit/Home 6 Pin Connector 5 Pin Connector Phase A +5 to +24 VDC Phase B... - Page 20 412LXR Series Product Manual Chapter 2 - 412LXR Series Table Specifications Motor Connections Function Cable Wire 412LXR Circular Connector Color Male Phase A Black / White #1 Phase B Black / White #2 Phase C Black / White #3 Ground...
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Page 21: Chapter 3 - How To Use The 412Lxr
412LXR Series Product Manual Chapter 3 - How to Use the 412LXR Chapter 3 - How to Use the 412LXR Mounting Surface Requirements Proper mounting of the 412LXR is essential to optimize product performance. All specifications are based on the following conditions: •... -
Page 22: Side And Inverted Mounting Concerns
412LXR Series Product Manual Chapter 3 - How to Use the 412LXR Side and Inverted Mounting Concerns Side Mounting • Cable transport modules are NOT to be used on side mounted positioners with travels greater than 600 mm due to cable drag. -
Page 23: Setting Home Sensor
412LXR Series Product Manual Chapter 3 - How to Use the 412LXR Setting Home Sensor The 412LXR is equipped with a “home” position reference sensor. This is located on the same PCB as the limit sensors and the target is located between the limit targets. This sensor is typically used in conjunction with the encoder “Z”... -
Page 24: Cabling
412LXR Series Product Manual Chapter 3 - How to Use the 412LXR Cabling The 412LXR is available with two (2) types of cabling: • Cable Transport Module • This is a complete cable management system including high flex ribbon cable (life rating of 20 million cycles), cable carriers, and connector system. -
Page 25: Chapter 4 - Performance
Bearing loading due to high acceleration may reduce bearing life to an unacceptable application limit. This is not usually a limiting factor unless loading is significantly cantilevered causing high moment loads during accelerations. (Chapter 2, 412LXR Series Technical Data to determine bearing load life for your application) •... -
Page 26: Speed Limits
Encoder Accuracy and Slope Correction Encoder Accuracy The 412LXR Series makes use of an optical linear tape encoder for positional feedback. This device consists of a readhead , which is connected to the carriage, and a steel tape scale , which is mounted inside the base of the 412LXR. - Page 27 Below is a sample program showing how to correct for slope error using variables. This example program will work with the 6K as well as the 6000 Series Parker, Compumotor Controllers. Step 2 through 3 of this program should be made a subroutine. This subroutine can then be executed for each distance.
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Page 28: Thermal Effects On Accuracy
412LXR Series Product Manual Chapter 4 - Performance • Step #3: We subtract the error from the original distance (880 – 0.0748) = 879.9252 mm. • Step #4: Here we simply assign the new calculated distance as our current command distance. -
Page 29: Thermal Effects On Repeatability
412LXR Series Product Manual Chapter 4 - Performance Temperature Effect on Accuracy Travel (mm) 5 degrees C 10 degrees C 15 degrees C 20 degrees C 25 degrees C 30 degrees C Thermal Effects on Repeatability Repeatability will not be effected as long as the temperature remains constant. However the repeatability will be effected as the temperature changes from one level to another. -
Page 30: Compensating For Thermal Effects
412LXR Series Product Manual Chapter 4 - Performance Compensating for Thermal Effects How much you will have to compensate for the above thermal effects depend on the application requirements for accuracy. If your accuracy requirements are high, you either need to control base temperature or program a thermal compensation factor into your motion program. -
Page 31: Chapter 5 - Connecting The Gemini Amplifier
412LXR Series Product Manual Chapter 5 - Connecting the Gemini Amplifier Chapter 5 - Connecting the Gemini Amplifier... - Page 32 412LXR Series Product Manual Chapter 5 - Connecting the Gemini Amplifier Gemini Adapter Cable • Use this cable to connect the Encoder and Hall Effect signals from an electrical panel strip to the Gemini’s 26 pin Motor Feedback connector. Function...
- Page 33 412LXR Series Product Manual Chapter 5 - Connecting the Gemini Amplifier External +24 VDC Supply VM25 Module +5 to +24VDC Limit/Home (Red) LXR Limit/Home Cable P/N 006-1742-0X VM25 Pin Outs** Function Wire Color* 6K Axis Number Pin # +5 to +24VDC...
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Page 34: Chapter 6 - Maintenance And Lubrication
412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication Chapter 6 - Maintenance and Lubrication Internal Access Procedure The following procedure outlines the steps required to access the interior of the positioner. • Remove carriage end caps by removing eight (8) M6 Socket Head Cap Screws (4pc/carriage side). - Page 35 412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication • Remove the four (4) strip seal clamps by removing eight (8) M3 Socket Head Cap Screws (2pc/clamp). • Carefully pull the strip seal through the carriage. • Caution: The strip seal ends are VERY SHARP.
- Page 36 412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication • Remove the M3 Button Head Cap Screws that attach the side covers to the base. • Slide the side cover off the base. • The base mounting holes can now be accessed.
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Page 37: Square Rail Bearing Lubrication
412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication Square Rail Bearing Lubrication See Section on Internal Access for procedure to access interior of positioner. Materials Required: Daedal Grease type #1, Isopropyl Alcohol, Clean Cloth, Small Brush • Lubrication Type: Daedal grease type #1, model number G1. - Page 38 412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication • Remove one (1) M3 Socket Head Cap Screw from the side of the carriage connector. • Pull the carriage connector off, taking care to pull straight off to avoid bending the connectors.
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Page 39: Limit And Home Sensor Module Adjustment
412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication Limit and Home Sensor Module Adjustment Materials Required: Small flathead screwdriver. • See switch location table below. Switch #1 Switch #3 See Detail Z Switch #2 Shown in ’Zero’ Position... - Page 40 412LXR Series Product Manual Chapter 6 - Maintenance and Lubrication • Remove one (1) M3 Button Head Screw from the side of the carriage connector. • Pull the carriage connector off, taking care to pull straight off to avoid bending the connectors.
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Page 41: Appendix A - Understanding Linear Motors
Construction: Designed by the Compumotor and Daedal Divisions of Parker Hannifin, the motor takes its operating principle from Parker’s slotless rotary motors which have grown popular over the past few years. The magnetic rail is simply a flat iron plate with magnets bonded to it. The forcer is unique. It begins with a coil and a “backiron”... -
Page 42: Advantages/Disadvantages Of Slotless Linear Motors
412LXR Series Product Manual Appendix A – Understanding Linear Motors Backiron Aluminum Cap / Mounting Plate Coil Assembly (Houses Backiron and Thermal Sensors built Coil Assembly) into Coil Assembly Hall Effect Sensors mounted to Housing Rare Earth Magnets Iron Plate “Single Row”... -
Page 43: Appendix B - Internal Protection
412LXR Series Product Manual Appendix B – Internal Protection Appendix B - Internal Protection The 412LXR is protected from its environment via a magnetically retained protective seal. Daedal has conducted testing to determine the degree to which the positioner is protected by using a British standard called an Ingress Protection Rating (IP Rating). - Page 44 412LXR Series Product Manual Appendix B – Internal Protection Product Rating All standard configurations will pass IP30 specifications with the following exception: • The cable carrier is not covered by the specification. All standard configurations, (less cable carrier), can be configured to pass IP30 specifications by utilizing the “IP ship kit”...
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Page 45: Index
412LXR Series Product Manual Index Index Peak Maximum, 10 Order Number Nomenclature, 8 Acceleration Force/Speed Charts, 15 Overhang, 20 Limits, 24 Maximum, 10 Gemini Pinning, 8 Accuracy, 27 Adapter Cable, 31 Product Rating, 43 Straightline, 10 Amplifier, 30 Thermal Effects, 27...
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