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PTENT PENDING Precision Positioning Table Gentle to The Earth CT-57182 June 2011 Overseas Dept.OKU)

Precision Positioning Table Light table made of high-strength aluminum alloy ssures high-precision positioning with precision-ground ball screws Built-in C-Lube for long-term maintenance-free service Excellent cost performance TE60 Line up of six models 60 mm wide, 33 mm high, and 150 to 600 mm long TE86 Line up of seven models 86 mm wide, mm high, and 340 to 940 mm long TE50 Line up of four models 50 mm wide, 26 mm high, and 150 to 0 mm long 1 2

Precision Positioning Table TE Precision Positioning Table TE is a light-weight compact positioning table featuring that its main components are made of high-strength aluminum alloy and the slide table is placed inside a U-shaped bed. Its driving mechanism adopts a precision-ground ball screw to assure high reliability high-precision positioning. C-Lube lubrication part built in the linear motion rolling guide and the ball screw enables long-term maintenance-free operation. This can reduce your time-consuming for lubrication. You can freely select ball screw leads, motor types, sensor installation, and other specifications so that you can build up optimum positioning tables fit for your need. Precision Positioning Table TE is fit for various types of equipment for machining, assembling, inspecting, and transferring parts ranging from equipment that requires high positioning accuracy to general transferring equipment. End bracket tructure of Precision Positioning Table TE bracket attachment Ball screw Features of Comparison in sectional heights and weights with TU Comparison in weights agaist TU Model and size TE50 TU50 TE60 TU60 TE86 TU86 Precision Positioning Table TE Light-Weight, Low-Cross ection, and Compact troke length mm 60 60 0 0 0 250 Overall length mm 218 226 269 298 523 498 Light-weight and compact positioning table using high-strength aluminum alloy for its main components. Low cross-section (26 mm high for TE50, 33 mm high for TE60 and mm high for TE86) due to optimum designing of linear guides and ball screws. No sensor rail for mounting sensors, which contributes to space saving. Mass kg 0.52 1.8 1.0 3.3 3.7.9 Between Between Mass/0mm kg 0.24 0.80 0.37 1.11 0.71 2.19 Notes: ( 1 ) This value indicates the entire weight of a single standard table. The mass of the motor is not included. ( 1 ) Precision Positioning Tables TE and TU TE50 TU50 TE60 TU60 TE86 TU86 26 50 33 50 50 60 60 86 86 60 70 Precision Positioning Tables TE and TU % lighter weight 33% lighter weight 32% lighter weight Table High positioning accuracy Higher precision positioning by one rank due to a combination of motion rolling guide technology and precision-ground ball screws. unique linear Bed Maintenance free Long-term maintenance free operation due to unique C-Lube lubrication part built in the linear motion rolling guide and the ball screw. This can reduce labor time for lubrication and increase the reliability of the equipment. mazing low prices Excellent cost performance thanks to adoption of less components and improvement in parts shapes. 3 4

Identifi cation NumberCharacteristics 5 1 Type 2 ize Example of identification number 1 Type 2 ize 3 hape of slide table TE 50 F 0 / Y047 8 C 3 3 hape of slide table 4 Bed length TE : Precision positioning table TE 60 : Bed width 60mm 86 : Bed width 86mm : tandard table F : Flange type standard table 4 Bed length elect applicable bed length in Table 1 Table 1Bed length and stroke length Type and size Bed width Bed lengthstroke length TE50 50 150 60 2001 250160 02 TE60 60 150 50 2000 0200 4000 500400 600500 TE86 86 340200 4400 540400 640500 740600 840700 940800 5 With or without motor No symbol : Without motor : With motor When the motor is prepared by customer, specify without motor no symbol. 6 type elect motor shown in Table 2 When without motor no symbolis selected in item 5, the motor attachment and coupling applicable to the specified motor will be mounted. elect No symbol when you need neither the motor attachment nor the coupling. 7 Ball screw lead 8 Cover specifi cation 9 ensor specifi cation 5 With or without motor 6 type 7 Ball screw lead 8 Cover specification 9 ensor specification 4: 4mmpplicable to TE50 5: 5mmpplicable to TE60 8: 8mmpplicable to TE50 : mmpplicable to TE60 and 86 20 : 20mmpplicable to TE86 0 : Without cover C : With bridge coverpplicable to TEF 0 : Without sensor 2 : Two sensorslimit sensors 3 : Three sensorslimit and pre-origin sensors 4 : Four sensorslimit, pre-origin and origin sensors 5 : Two sensorslimit sensorsare appended to the product. 6 : Three sensorslimit and pre-origin sensorsare appended to the product. 7 : Four sensorslimit, pre-origin, and origin sensorsare appended to the product. When 2, 3, or 4 sensors are selected, they are mounted on the sensor mounting groove along the side of the bed and two shielding plates are mounted on the slide table. Table 2 type Model TE50 TE60 TE86 Table 3ccuracy type C servo motor tepper motor C servo motor tepper motor C servo motor tepper motor With or without brake code Model number Remark Y047 GMJV-5321 Yaskawa Electric Without brake P021 MME5Z1 Panasonic J011 HF-KP053 Mitsubishi Electric Y049 GMJV-532C Yaskawa Electric With brake P026 MME5Z1B Panasonic J016 HF-KP053B Mitsubishi Electric Without brake V005 PK545W With brake V006 PK545WM Oriental motor Y048 GMJV-01321 Yaskawa Electric Without brake P022 MME0121 Panasonic J012 HF-KP13 Mitsubishi Electric Y050 GMJV-0132C Yaskawa Electric With brake P027 MME0121B Panasonic J017 HF-KP13B Mitsubishi Electric Without brake V009 PK566E With brake V0 PK566EM Oriental motor Y059 GMJV-02321 Yaskawa Electric Without brake P023 MME0221 Panasonic J013 HF-KP23 Mitsubishi Electric Y060 GMJV-0232C Yaskawa Electric With brake P028 MME0221B Panasonic J018 HF-KP23B Mitsubishi Electric Without brake V011 PK569E With brake V012 PK569EM Oriental motor Model Bed length troke length Repeatability Positioning accuracy Parallelism in table operation B Backlash 150 60 TE50 200 1 250 160 0.002 0.020 0.008 0.003 0 2 150 50 200 0 0.008 0 200 0.020 TE60 0.002 0.003 400 0 500 400 600 500 0.025 0.0 340 200 0.008 0.020 440 0 0.0 540 400 0.025 TE86 640 500 0.002 0.003 0.012 740 600 0.0 840 700 0.014 940 800 0.035 0.016 Remark : The precision standard is evaluated according to the inspection standards. 6

Characteristics Table 4Maximum speed Model type Bed length mm speed r/min 4mm Maximum speedmm/s 5mm 8mm mm 20mm 150 C servo motor 200 250 00 200 400 TE50 0 150 tepper motor 200 250 0 1800 120 240 150 C servo motor 200 0 400 500 00 250 500 TE60 600 150 tepper motor 200 0 400 500 600 1800 150 0 340 C servo motor 440 540 640 740 00 2700 500 450 00 900 840 20 350 700 TE86 940 1680 280 560 340 440 540 tepper motor 640 740 840 940 1800 1680 0 280 600 560 Remark : The values of the maximum speed are applicable when the standard motor is used. The actual maximum operation speed must be determined by examining the operating pattern considering the motor used, load conditions, etc. Table 5Maximum loading mass cceleration/ Maximum loading masskg Model deceleration G 4mm 5mm 8mm mm 20mm TE50 22 22 TE60 0.5 TE86 40 Remarks 1 : Values are those set when the standard motor is used. 2 : The maximum load mass is for a motor speed of 00rpm. Table 6Load rating of Linear motion rolling guide Model Basic dynamic load rating C N Basic static load rating C 0 N tatic rated momentnm T 0 T X T Y TE50 8490 12500 211 99.5 99.5 TE60 12400 170 354 151 151 TE86 26800 35900 11 472 472 Table 7pecifications of ball screw Model Type of ball screw mm TE50 Ground screw 8 TE60 Ground screw TE86 Ground screw 12 T 0 T X T Y haft dia. mm Basic dynamic load rating C N Basic static load rating C 0 N 4 2290 3575 8 1450 2155 5 27 44 1720 2745 3820 6480 20 20 3920 7 8

Characteristics ensor specifi cation Table 8Moment of inertia of sectional area Moment of inertia of sectional areamm 4 Barycentric point Model e 1 X 1 Y mm TE50 1.3 4 1.2 5 6.4 TE60 4.7 4 3.2 5 8.8 TE86 2.0 5 1.3 6 13.0 Table 9Table inertia and starting torque Model TE50 TE60 TE86 Bed length mm e Y axis Table inertiaj T 5 kgm 2 tandard table Flange type standard table 4mm 5mm 8mm mm 20mm 4mm 5mm 8mm mm 20mm 150 0.057 0.071 0.060 0.084 200 0.069 0.083 0.072 0.096 250 0.085 0.099 0.088 0.112 0 0.097 0.111 0.0 0.124 150 0.13 0.17 0.14 0.20 200 0.19 0.23 0.20 0.26 0 0.26 0. 0.27 0.33 400 0.33 0.36 0.34 0.40 500 0.40 0.44 0.41 0.47 600 0.47 0.51 0.48 0.54 340 0.73 1.19 0.81 1.50 440 0.88 1.35 0.95 1.64 540 1.03 1.50 1.11 1.80 640 1.18 1.64 1.25 1.95 740 1.33 1.79 1.41 2. 840 1.48 1.94 1.56 2.25 940 1.63 2. 1.71 2.40 X axis tarting torque T 0 Nm 0.03 0.03 0.05 Table pecifications of sensors Item Type ensor Power supply voltage Current consumption Output Output operation Operation indicator Circuit diagram Limit, pre-origin Proximity sensor PM [Yamatake Co., Ltd.] DC1224V% m or less Origin Open corrector, NPN transistor Maximum current: m or lessresister pplied voltage DC26.4V or less Residual voltage1v or less at m When approaching : OFF LEDOrange OFF when senses Table 11pecifications of connectors Pin ignal name No. 1 Origin 2 Pre-origin 3 CW Limit 4 CCW Limit 5 Power input 6 GND Main circuit When approaching : ON LEDOrange ON when senses Part number of ensor-side connector Cap housing 172160-1 Connector 170365-1 170366-1 Note 1 : Prepare the opposite-side connector by customer. Remarks 1 : The connector is manufactured by Tyco Electronics Japan G.K. 2: bove table shows connector specifi cation in case of sensor specifi cation 4. VCC OUT GND Part number of Opposite side connector 1 Plug housing 172168-1 Connector 170363-1or 170364-1 9

ensor specifi cation ystem confi guration Table 12Timing chart of ensors Optimum electric equipment systems are available to Precision Positioning Table TE according to the types of motors. n example of system configuration is shown below. For ordering, use model number in Table 13. C servo motor CW CCW Teaching box TEM5-TB programmable controller CTN480G Precision Positioning Table TE Driver OFF D troke length2 Model Ball screw lead B C D E TE50 4 2 33 8 6 6 5 TE60 5 3 44 7 20 9.5 9 TE86 7 50 20 12 20 11 B C E ON Origin OFF OFF Pre-origin CCW limit CW limit Mechanical stopper Note 1 : The power cable shall be prepared at customer side. 2 : DC24V power supply shall be prepared at customer side. Fig.1ystem configuration of the table with C servo motor Table 13Electric devices for the motor of Yaskawa Electric Corporation Name Model number Precision Positioning Table TE TE50 TE60 TE86 without code Y047 Y048 Y059 brake cord with brake 1 2 DC24V power supply JZP-CM01--E JZP-CM21--E JZP-CM02--E JZP-CM22--E code Y049 Y050 Y060 cord Power cord 1 Power cord 1 JZP-CM11--E JZP-CM31--E JZP-CM12--E JZP-CM32--E Driver GDV-R7001 GDV-R9001 GDV-1R601 JZP-CP01--E Encoder cord JZP-CP21--E Note 1 : In case of with brake type, the power supply unit for brake release shall be prepared at customer side. Remarks 1 : The cords inhave high bending resistance. 2 : The length of motor cord or encoder cord shall be selected in the end of model number, from 3m, 5m, m, and 20m. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : JZP-CM01-03-E Table 14Electric devices for the motor of Yaskawa Electric and Programmable controller CTN480G Name Model number code Y047, Y048, Y049, Y050, Y059, Y060 Programmable controller CTN480G Teaching box TEM5-TB TEM7-LD Pulse limit cord TEM8-LD Remarks 1 : The cords inhave high bending resistance. 2 : The length of pulse limit cord can be specifi ed by increments of 1m up to 20m maximum at the end of model number. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : TEM7-LD03 3 : The length of pulse limit cord is 1.5m. 11 12

ystem confi guration Table 15Electric devices of the table with Panasonic C servo motor Name Model number Precision Positioning Table TE TE50 TE60 TE86 without brake with brake 1 code P021 P022 P023 cord MFMC00NJD code P026 P027 P028 cord MFMC00NJD Brake cord 2 MFMCB00PJT Driver MDHT1505 MDHT1507 Encoder cord MFEC00MJD Note 1 : In case of with brake type, the power supply unit for brake release shall be prepared at customer side. 2 : brake cord shall be prepared at customer side. Remarks 1 : The cords inhave high bending resistance. 2 : The length of motor cord or encoder cord shall be selected in the end of model number, from 3m, 5m, m, and 20m. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : MFMC00NJD Table 16Electric devices for the motor of Panasonic and Programmable controller CTN480G Name Model number code P021, P022, P023, P026, P027, P028 Programmable controller CTN480G Teaching box TEM5-TB TEV2-LD Pulse limit cord TEV3-LD Remarks 1 : The cords inhave high bending resistance. 2 : The length of pulse limit cord can be specifi ed by increments of 1m up to 20m maximum at the end of model number. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : TEV2-LD03 3 : The length of pulse limit cord is 1.5m. Table 17 Electric devices of the table with Mitsubishi Electric C servo motor Name Model number Precision Positioning Table TE TE50 TE60 TE86 without brake with brake 1 code J011 J012 J013 MR-PW1CBLM-1-L MR-PW1CBLM-1-H cord J016 J017 J018 code MR-PW1CBLM-1-L MR-PW1CBLM-1-H cord 2 MR-BK1CBLM-1-L MR-BK1CBLM-1-H Driver MR-J3- MR-J3-20 MR-J3ENCBLM-1-L Encoder cord MR-J3ENCBLM-1-H Note 1 : In case of with brake type, the power supply unit for brake release shall be prepared at customer side. 2 : brake cord shall be prepared at customer side. Remarks 1 : The cords inhave high bending resistance. 2 : The length of motor cord or encoder cord shall be selected in the end of model number, from 3m, 5m, m, and 20m. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 2m : MR-PW1CBL2M-1-L Table 18 Electric devices for the motor of Mitsubishi Electric Corporation and Programmable controller CTN480G Name Model number code J011, J012, J013, J016, J017, J018 Programmable controller CTN480G Teaching box TEM5-TB TEV4-LD Pulse limit cord TEV5-LD Remarks 1 : The cords inhave high bending resistance. 2 : The length of pulse limit cord can be specifi ed by increments of 1m up to 20m maximum at the end of model number. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : TEV4-LD03 3 : The length of pulse limit cord is 1.5m. 13 14

ystem confi guration pecifi cations of motor and driver tepper motor C servo motor and driver by Yaskawa Electric Corp. (RoH compatible) Teaching box TEM5-TB programmable controller CTN480G Precision Positioning Table TE Driver D W P P Note 1 : Power cable shall be prepared at customer side. 2 : DC24V Power supply shall be prepared at customer side. Fig.2ystem configuration of the table with stepper motor Table 19Electric devices of the table with Oriental stepper motor Name Model number Precision Positioning Table TE TE50 TE60 TE86 code V005 V009 V011 without TE20R8-M cord brake TE20R9-N Driver RKD507- RKD514L- code V006 V0 V012 with brake 1 2 DC24V power supply Power cord 1 Power cord 1 cord TE201-MB TE202-NB Driver RKD507M- RKD514LM- Note 1 : In case of with brake type, the power supply unit for brake release shall be prepared at customer side. 2 : brake cord shall be prepared at customer side. Remarks 1 : The cords inhave high bending resistance. 2 : The length of motor cord can be specifi ed by in the end of supplemental code. electing length is up to m in increments of 1m. The length under m is also selected by two digits. Example of 3m : TE20R8-M03 Table 20Electric devices for the motor of Oriental Corporation and Programmable controller CTN480G Name Model number code V005, V006, V009, V0, V011, V012 Programmable controller CTN480G Teaching box TEM5-TB TE3-LD Pulse limit cord TE4-LD Remarks 1 : The cords inhave high bending resistance. 2 : The length of pulse limit cord can be specifi ed by increments of 1m up to 20m maximum at the end of model number. Code is specifi ed by two digits even if length of cord is less than m. Example for case of 3m : TE3-LD03 3 : The length of pulse limit cord is 1.5m. pecifications of motor code Model Power voltage V Rated voltage W Rated torque N m Maximum momentary torque N m Rated number of revolution r/min inertiaj M 4 kgm 2 Encoder type Y047 GMJV-5321 50 0.159 0.557 0.0414 0.3 Y048 GMJV-01321 0 0.318 1.1 0.0665 0.4 Y049 GMJV-532C 50 0.159 0.557 0.0561 20 bit bsolute 0.6 200 00 or incremental Y050 GMJV-0132C 0 0.318 1.1 0.0812 48576pulse/rev 0.7 Y059 GMJV-02321 200 0.637 2.2 0.259 0.9 Y060 GMJV-0232C 200 0.637 2.2 0.323 1.5 Dimension of motor code WL M LR LE d D P M Y047 40 69 25 2.5 8 4.3 Y048 40 82.5 25 2.5 8 4.3 Y049 40114 25 2.5 8 4.3 Y050 40127.5 25 2.5 8 4.3 Y059 60 80 3 14 50 70 5.5 Y060 60120 3 14 50 70 5.5 pecifications of driver Item LM Driver type LE LR d GDV-R7001 GDV-R9001 GDV-1R601 pplicable motor code Y047, Y049 Y048, Y050 Y059, Y060 Power supply voltage 200V 200V 200V Rated output of applicable motor 50W 0W 200W Feedback erial encoder Command input pulse election one from symbol with pulse line, CCW or CW with pulse line, two phase pulse with 90-degree difference Type of command input pulse Line driver or Open collector Maximum input pulses Line driver4mpps Open collector200kpps Main circuit power supply voltage Triphase C2002V 15% 50/60Hz Control circuit supply voltage ingle phase C2002V 15% 50/60Hz Continuous output currentrms 0.66 0.91 1.6 Maximum output currentrms 2.1 2.9 5.8 mbient temperature in operation 055 mbient temperature in storage 2085 mbient humidityuse and storage Less than 90% RHNo condensation Masskg 0.9 0.9 0.9 2-M 4-M Y059, Y060 Mass kg 15 16

pecifi cations of motor and driver C servo motor and driver by Panasonic Corp. (RoH compatible) C servo motor and driver by Mitsubishi Electric Corp. (RoH compatible) D W D W P P pecifications of motor Maximum Rated Power Rated Rated momentary number of inertiaj Model voltage voltage torque M code torque revolution 4 kgm Encoder type Mass 2 kg V W N m N m r/min P021 MME5Z1 50 0.16 0.48 0.025 0.31 P022 MME0121 0 0.32 0.95 0.051 0. P023 MME0221 200 0.64 1.91 0.140 17 bit bsolute 0.78 200 00 or incremental P026 MME5Z1B 50 0.16 0.48 0.027 1372pulse/rev 0.51 P027 MME0121B 0 0.32 0.95 0.054 0.66 P028 MME0221B 200 0.64 1.91 0.160 1.20 Dimension of motor code WL M LR LE d D P M P021 38 72 25 3 8 45 3.4 P022 38 92 25 3 8 45 3.4 P023 60 79.5 3 11 50 70 4.5 P026 382 25 3 8 45 3.4 P027 38122 25 3 8 45 3.4 P028 60116 3 11 50 70 4.5 pecifications of driver LM Driver type Item MDHT1505 MDHT1507 pplicable motor code P021, P022, P026, P027 P023, P028 Power supply voltage 200V 200V Rated output of applicable motor 50W, 0W 200W Feedback erial encoder Command input pulse election one from symbol with pulse line, CCW or CW with pulse line,two phase pulse with 90-degree difference Type of command input pulse Line driver or Open collector Maximum input pulses Line driver4mpps Open collector500kpps Main circuit power supply voltage ingle phase C200240V 15% 50/60Hz Control circuit supply voltage ingle phase C200240V 15% 50/60Hz Rated output current 1.1 1.6 Maximum output current 4.7 6.9 mbient temperature in operation 055No freezing mbient temperature in storage 2065No freezing mbient humidityuse and storage Less than 90% RHNo condensation Masskg 0.8 0.8 LE LR d 4-M P pecifications of motor code Model Power voltage V Rated voltage W Rated torque N m Maximum momentary torque N m Rated number of revolution r/min inertiaj M 4 kgm 2 Encoder type J011 HF-KP053 50 0.16 0.48 0.052 0.35 J012 HF-KP13 0 0.32 0.95 0.088 0.56 J013 HF-KP23 200 0.64 1.90 0.240 18 bit bsolute 0.94 200 00 or incremental J016 HF-KP053B 50 0.16 0.48 0.054 262144pulse/rev 0.65 J017 HF-KP13B 0 0.32 0.95 0.090 0.86 J018 HF-KP23B 200 0.64 1.90 0.3 1.60 Dimension of motor code WL M LR LE d D P M J011 40 66.4 25 2.5 8 4.5 J012 40 82.4 25 2.5 8 4.5 J013 60 76.6 3 14 50 70 5.8 J016 407.5 25 2.5 8 4.5 J017 40123.5 25 2.5 8 4.5 J018 60116.1 3 14 50 70 5.8 pecifications of driver LM LE LR d Driver type Item MR-J3- MR-J3-20 pplicable motor code J011, J012, J016, J017 J013, J018 Power supply voltage 200V Rated output of applicable motor 50W, 0W 200W Feedback erial encoder Command input pulse election one from symbol with pulse line, CCW or CW with pulse line, two phase pulse with 90-degree difference Type of command input pulse Line driver or Open collector Maximum input pulses Line driver1mpps Open collector200kpps Main circuit power supply voltage Three phase C2002V 15% 50/60Hz or ingle phase C2002V 15% 50/60Hz Control circuit supply voltage ingle phase C2002V 15% 50/60Hz Rated output current 0.8 1.4 Maximum output current 2.4 4.2 mbient temperature in operation 055No freezing mbient temperature in storage 2065No freezing mbient humidityuse and storage Less than 90% RHNo condensation Masskg 0.8 0.8 2-M 4-M J013J018 Mass kg 17 18

pecifi cations of motor and driver Precautions on use tepper motor and driver by Oriental Co., Ltd. (RoH compatible) pecifications of motor Maximum holding Current inertiaj Model tep angle M Mass code torquen m -phase 5 kgm 2 kg V005 PK545W 0.24 0.75 0.68 0.4 V006 PK545WM 0.24 0.75 0.83 0.52 V009 PK566E 0.83 1.4 2.8 0.8 0.72 V0 PK566EM 0.83 1.4 4.4 1.1 V011 PK569E 1.66 1.4 5.6 1.3 V012 PK569EM 1.66 1.4 7.2 1.6 Dimension of motor WLM LR LE d D B M code V005 42 47 M3 depth 20 2 5 22 31 V006 42 77 4.5 V009 60 59.5 V0 60 99.5 24 1.5 8 36 50 4.5 V011 60 89 V012 60129 LM LE LR pecifications of driver Driver type Item RKD507- RKD507M- RKD514L- RKD514LM- pplicable motor code V005 V006 V009, V011 V0, V012 Exitation type Micro step Command input pulse election one from CW/CCW signal, Pulse/Rotational direction signal Type of command input pulse Photo coupler input, input resistance 220, Input current 20m Main circuit power supply voltage ingle phase 0115V15 ingle phase 0115V15 50/60Hz1.0 50/60Hz4.5 mbient temperature in operation 050No freezing mbient humidity in operation Less than 85% RHNo condensation Masskg 0.4 0.85 d D W 4-M B Precision Positioning Table TE is a precision device. Giving an excessive load or shock to it will lower the accuracy and damage its components. Take extreme care when handling it. Make sure that there is no dust or harmful projection on the mating table mounting surface. The flatness of the mounting base for Precision Positioning Table TE will affect the positioning accuracy. It must be less than m. Grease is applied to Linear Motion Rolling Guides and ball screws incorporated in Precision Positioning Table TE. Do not admit dust or foreign matters into Precision Positioning Table. If foreign matters enter it, remove them and polluted grease completely, and then apply clean grease again. Lubrication of Precision Positioning Table TE varies depending on the operating conditions. Generally, relubricate grease every 6 months. In the case of use involving long-distance reciprocating motion at all times, remove the old grease every 3 months, and then apply clean grease again. Precision Positioning Table TE is worked, assembled, and adjusted with high accuracy. Do not disassemble or modify this product. The appearance, specifications and other details of the products are subject to change without prior for improvement. Duration and scope of warranty The period of warranty for the precision positioning table and related electrical devices is set at one year after delivery. If a failure occurs while the product is correctly being used and the failure is clearly attributable to its manufacture, the product will be repaired at no cost within the warranty period. warranty here means the guarantee of the precision positioning table itself as a single unit. It shall be a fare-paying service if field service is required. When the trouble is not obviously judged by our product deficiency as a result of our investigation, the customer shall be responsible for the repair cost. econdary damage that occurs on the product breakdown or use is out of our warranty. When disposing of the products, treat them as ordinary industrial waste. 19 20

R Precision Positioning Table TE TE50 R Precision Positioning Table TE TE50F L 9 LM 2 L 9 LM 2 4-M3 depth 6 8 4-M4 depth 6 4-M4 depth 8 23.5 55 2 65 /2 50 /2 23 80 C B C L1 58 32.9 25 12.5 25 50 21 2n-4.5 8 counterbore, depth 4 26 ection - Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B C n kg 150 218 60 80 35 2 0.52 200 268 1 160 20 3 0.62 250 318 160 160 45 3 0.72 0 368 2 240 4 0.82 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. Remark : When C servo motor is selected, motor attachment protrudes 3.5mm from mounting surface of bed. When stepper motor is selected, motor attachment protrudes 4.5mm from mounting surface of bed. 68 With sensors 24.8 16 6 5 4-M3 depth 6 26 0.5 35 40 Mounting dimensions without motor attachment 16.5 35.5 16.5 39.7 35.5 37.8 2 65 4-M3 depth 6 Both sides /2 50 /2 23 80 C B C 62 55 47 12.5 25 50 21 2n-4.5 8 counterbore, depth 4 L1 58 40 ection - 8 68 With sensors Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B C n kg 150 218 60 80 35 2 0.65 200 268 1 160 20 3 0.75 250 318 160 160 45 3 0.85 0 368 2 240 4 0.94 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. Remark : When C servo motor is selected, motor attachment protrudes 3.5mm from mounting surface of bed. When stepper motor is selected, motor attachment protrudes 4.5mm from mounting surface of bed. 23.8 16 6 5 26 4-M3 depth 6 0.5 35 16.5 Mounting dimensions without motor attachment 40 35.5 16.5 21 22

R Precision Positioning Table TE TE60 R Precision Positioning Table TE TE60F L 4-M3 depth 6 8 4-M5 depth 7.5 9C servo motor 8tepper motor L 4-M3 depth 6 8 4-M5 depth back side 9C servo motor 8tepper motor 32 68 3.1 76 /2 54 /2 0 2n-5.5 9.5 counterbore, depth 5.4 C B C Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B C n kg 150 219 50 0 25 2 0.9 200 269 0 0 50 2 1.0 0 369 200 200 50 3 1.3 400 9 0 0 50 4 1.6 500 569 400 400 50 5 1.9 600 669 500 500 50 6 2.2 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. Remark : When motor code V009 or V0 is selected, motor attachment protrudes 9mm from the mounting surface of bed. 24 11 L1 58 40.6 60 15 33 ection- 78 With sensors 31.6 16 6 5 4-M3 through 26 LM 2 0.5 43 21 43.5 Mounting dimensions without motor attachment 21 43.5 3.1 0 76 /2 54 /2 24 C B C 11 L1 58 86 74 64 60 15 48 ection - 78 With sensors 2n-5.5 9.5 counterbore, depth 5.4 Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B C n kg 150 219 50 0 25 2 1.1 200 269 0 0 50 2 1.2 0 369 200 200 50 3 1.5 400 9 0 0 50 4 1.9 500 569 400 400 50 5 2.2 600 669 500 500 50 6 2.5 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. Remark : When motor code V009 or V0 is selected, motor attachment protrudes 9mm from the mounting surface of bed. 33 16 6 5 LM 2 4-M3 through 26 0.5 43 21 43.5 Mounting dimensions without motor attachment 21 23 24

R Precision Positioning Table TE TE86 R Precision Positioning Table TE TE86F L 11 4-M3 depth 6 8 4-M6 depth 9 LM 2 4-M5 depth 8 L 11 4-M6 depth 12 LM 2 45 4.5 20 0 Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B n kg 340 423 200 200 3 3.1 440 523 0 0 4 3.7 540 623 400 400 5 4.2 640 723 500 500 6 4.7 740 823 600 600 7 5.2 840 923 700 700 8 5.7 940 23 800 800 9 6.3 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. 9 70 B 70 61.2 86 /2 81 /2 13 L1 70 42.5 93.6 ection - 2n-6.6 11 counterbore, depth 6.5 3.6 With sensors 44.3 15 17 8 8 37 4-M4 depth 8 1 60 20 67 50 Mounting dimensions without motor attachment 31 61 31 66 61 4.5 20 Bed length Overall length troke length Bed mounting hole Mass 1 Ref. L 1 L B n kg 340 423 200 200 3 3.7 440 523 0 0 4 4.3 540 623 400 400 5 4.9 640 723 500 500 6 5.5 740 823 600 600 7 6.1 840 923 700 700 8 6.7 940 23 800 800 9 7.2 Note 1 : The mass of the motor is not included. 2 : ee pecifi cations of and Driver. /2 81 /2 0 70 B 70 112 0 88 86 4-M3 depth 6 back side 42.5 68 3.6 13 L1 70 ection - With sensors 15 2n-6.6 11 counterbore, depth 6.5 17 8 8 37 4-M4 depth 8 20 1 60 31 67 50 Mounting dimensions without motor attachment 61 31 25 26

Maintenance free for 20,000km or 5 years Maintenance Free & Interchangeable C-Lube Linear Way C-Lube Linear Roller Way The Capillary system that has developed is a new method of lubrication. The Lube-body is formed by sintering fine resin powder to act as reservoir and the open pores are impregnated with a large amount of lubrication oil. The capillary action deposits the appropriate amount of lubrication on the rolling elements to protect the raceways for long periods. C-Lube teel Ball teel Ball Capillary ction Oil Film urface Tension C-Lube Maintenance Free Efficiency of lubrication is maintained for a long term allowing to reduce the cost of lubrication management and control. Ecology s C-Lube technology minimizes the amount of lubricant required that contributes to the global environment protection. Compact Unlike attached-on external lubrication parts, there is no increase in carriage length. No loss of available stroke length when replacing standard units. Miniature type ML series Compact ME series U-shaped track rail MUL series Interchangeable series is available. C-Lube slide units can be supplied by themselves not with rails, and can be matched, replaced and added freely to the interchangeable track rail. This feature is useful in machine design, facilitating standardization of product specification and quick changes of specification. Linear Roller Way MX series High load capacity MH series Gentle to The Earth mooth Light and smooth running is achieved by the improvement of internal design. C-Lube is designed not to have direct contact with the track rail allowing very smooth operation. 27 28

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