Linear Motor. Professional Direct Drive System Supplier

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Professional Direct Drive System Supplier inear Motor EMOTIO MEI, TD. dress: 4339 usiness Park Drive, D3D4, Temecula, 959 Tel: 1951846118 x: 1951 955538 Email: inquiry@emotionsupply.com

yclone DD motors SU Series Part umbers Example Part umber: SU1 yclone Synchronous inear Motor (SM) Technology eing a leader in linear motor design and manufacturing, EMotion provides industry with the widest range of linear motors. inear motors eliminate mechanical transmission devices, such as lead screw nut institutions, gear rack agencies, beltdriven structures, etc. The adoption of direct drive technology greatly helps to optimize precision, speed, acceleration, stability and efficiency, while substantially prolonging product life. yclone linear motors adopt direct drive and are available in two different configurations U type and Flattype versions, Utype Synchronous inear motor (SU) and Flattype Synchronous inear motor (SF), which are used in thousands of successful applications worldwide. S U 1 S : 1~ 99 oil specification: M1~M99 ode(motor): Standard series o : 1~9; ~Z;a~z F:Flat; U:Utype;:ylinder S:yclone Synchronous inear motor Utype Ironless Synchronous inear Motor (SU Series) Part umber for Primary Example Part umber: SU3141SH S U 1 4 1 S H SU series linear motors eliminate ripple force and electromagnetic attraction to allow for extremely smooth motion and very tight velocity and position control. These linear motors are ideal for any application that requires low load, high acceleration and high accuracy. They are widely applied in semiconductor, FlatPanel Display (FPD), printing, medical treatment equipment, machine vision inspection equipment, surface mounting for electronic parts, P detection equipment, textile machinery, and in many other industrial automation applications. ooling Mode: water cooling, air cooling; natural cooling Temperatureresist grade: Y//E//F/H/ oil connection: Sseries connection, Pparallel connection, triangle connection version o : ~Z S : 1~99 Primary specification: M1~M99 Features Ironless Design Zero cogging Patented technology ode(primary ): 1 Standard series o : 1~9; ~Z;a~z F: flat; U:Utype;: ylinder S:yclone Synchronous inear motor ompact structure High continuous force and peak force Part umber for Secondary Example Part umber: SU31 S U 3 1 dditional performance Version o: ~Z S : 1~99 ode(secondary) : Standard series o : 1~9; ~Z; F: flat; U:Utype;: ylinder S:yclone Synchronous inear motor /3

SU 1 Series SU 1 series Dimension Drawing: Smooth motion ow inertia, high acceleration Strong overload capacity Zero cogging and no electromagnetic attraction SU 1 Series (oreless, ithout ooling) Through hole for M3 hexagon socket cap screws TED PEFOME Motor Model O SYMO UITS SU111 SU1 ontinuous Force 4 ir gap Motor onstant / 4.58 6.48 Max. ontinuous Power Dissipation 19 38 Power able EETI SPEIFITIO ontinuous urrent Peak urrent ( 1s) 13 Force onstant(5 ±1% ) ack EMF onstant (5 ±1% ) / 1 3.6 6.9 Model o. SU111 SU1 64 18 4 4 114 38 Electrical esistance (5 ±1%).6 5 Electrical inductance ( ±%) pp.84 1.68 Max oil Temperature Insulation lass MEHI SPEIFITIO Electromagnetic ttraction k.19.31 SU1111SH SU11SH SU4 SU4 4/5

SU Series SU series Dimension Drawing: Smooth motion ow inertia, high acceleration Strong overload capacity Zero cogging and no electromagnetic attraction Through hole for M3 hexagon socket cap screws SU Series (oreless, ithout ooling) TED PEFOME Model O SYMO UITS SU1 SU SU31 ontinuous Force 36 164 38 586 Motor onstant Max. ontinuous Power Dissipation EETI SPEIFITIO / 6.91 9. 54 1.38 94 Power able Through hole ontinuous urrent.5.5 4 Peak urrent ( 1s) 1 1 Force onstant(5 ±1% ) ack EMF onstant (5 ±1% ) Electrical esistance (5 ±1%) pp / 14 4.9.6 9 9.9 4.46 3 1.3 3. Model o. SU1 SU SU31 68 18 188 4 5 4 114 38 6 Electrical inductance ( ±%) pp 1.86 1.8 3.8 Max oil Temperature Insulation lass MEHI SPEIFITIO Electromagnetic ttraction k.5.35.41 SU11 SH SU1 SH SU131 SH SU1 SU1 SU1 6/

SU 3 Series SU 3 Series Dimension Drawing: Smooth motion ow inertia, high acceleration Strong overload capacity Zero cogging and no electromagnetic attraction Through hole for M4 hexagon socket cap screws SU 3 Series (oreless, ir ooling) TED PEFOME MODE O ontinuous Force(.4MPa ) SYMO a ontinuous Force(ithout cooling) UITS SU311 3 49 SU31 148 98 SU331 1 14 SU341 94 196 onductor for cooling air Power able inding odes 316 61 888 16 Through hole Motor onstant / 6.5 6.6 9.4 8. 11.5 1.1 13.3 1.35 Max ontinuous Power Dissipation EETI SPEIFITIO ontinuous Force(.4MPa ) a ontinuous Force(ithout cooling) 15 1 8 136 3.5.3 44 1 8 85 3.5.3 3 1 8 46 3.5.3 489 1 8 56 3.5.3 Model o. SU311 SU31 SU331 SU341 68 18 188 48 4 5 4 114 8 38 6 38 6 Peak urrent 48 14. 48 14. 48 14. 48 14. Force onstant / 6.1 1. 1.3 4. 18.4 63.1 4.5 84.1 ack EMF onstant.4.3 4.1 14 6.1 1. 8. 8. Electrical esistance (5 )pp.4 5.4.8 11. 1.4 16.8 1.64 11. Electrical inductance ( ±%) pp.6 3..5 6..6 8.8 1. 11.8 Max oil Temperature Insulation lass MEHI SPEIFITIO Electromagnetic ttractions Force k.3.45.68.9 Primary Specification(SU31XXXXSH) 11 11 1 1 31 31 41 41 Secondary Specification SU31 SU31 SU31 SU31 8/9

FlatType inear Synchronous Motor (SF Series) SF Series Part umbers Example Part umber: SF541 SF Series consist of a low profile, lowcost forcer and rareearth magnet track. They are designed for unlimited travel stroke positioning applications with high thrust, high speed and acceleration, with optimal static and dynamic performance. The motors are designed to integrate easily with equipment, providing closed loop servo with a high degree of positioning accuracy and repeatability. S F 5 4 1 Part umber for Primary Example Part umber: SF163FPH S F 1 6 3 F P H S : 1~ 99 oil specification: M1~M99 ode(motor): Standard series o : 1~9; ~Z;a~z F:Flat; U:Utype;:ylinder S: yclone Synchronous inear motor ooling Mode: water cooling, air cooling; natura oolingl Temperatureresist grade: Y//E//F/H/ Features : ompact structure ow cogging ow thermal effect Iron core technology High thrust force oil connection: Sseries connection, Pparallel connection, triangle connection version o : ~ Z S : 1~99 Primary specification: M1~M99 ode(primary ): 1 Standard series o : 1~9; ~Z;a~z F: Flat; U:Utype;: ylinder S: yclone Synchronous inear motor Optional Hall sensor Part umber for Secondary Example Part umber: SF51 S F 5 1 dditional performance Version o: ~Z S : 1~99 ode(secondary) : Standard series o : 1~9; ~Z; F: Flat; U:Utype;: ylinder S: yclone Synchronous inear motor 1/11

SF 1 Series SF 1 Series Dimension Drawing: High thrust High acceleration educed cogging Efficient liquid cooling uiltin overheat protection SMF 1 Series (Iron ore, atural ooling () TED PEFOME Model O SYMO UITS SF13 SF13 ontinuous Force 3 34 46 68 Motor onstant / 3.8 Max. ontinuous Power Dissipation 65 1 EETI SPEIFITIO ontinuous urrent Peak urrent ( 1s) 3. 6.4 3. 6.4 Model o. SF13 191 9 SF13 5 184 Force onstant(5 ±1% ) / 1 1 ack EMF onstant(5 ±1% ) V/m/s 4 36 Electrical esistance (5 ±1%) pp 4. Electrical inductance ( ±%) pp 3 Max oil Temperature MEHI SPEIFITIO 1 1 Electromagnetic ttraction k 1.4 3.1 4.4 SF113SH SF113SH SF9 SF9 1/13

SF 5 Series SF 5 Series Dimension Drawing: High thrust High acceleration educed cogging Efficient liquid cooling uiltin overheat protection Power able Screw SF 5 Series (Iron ore, ater ooling () TED PEFOME able for temperature sensor Φ5 Model O SYMO UITS SF 51 SF 541 ontinuous Force 5 14 5 Motor onstant Max. ontinuous Power Dissipation EETI SPEIFITIO / 3.8 86 43.5 51 Model o. SF51 9 83.4 SF541 4 6.1 ontinuous urrent 1 1 Peak urrent ( 1s) 5 5 Force onstant(5 ±1% ) / 5 14 ack EMF onstant(5 ±1% ) 1.3 34. Electrical esistance (5 ±1%) 1.4.8 Electrical inductance ( ±%) pp 16 3 Max oil Temperature MEHI SPEIFITIO Min. water flow Temperature rise of the cooling water Pressure Drop(Primary in series) min ΔT ΔP /min ar 4.1. 4.5 3.6. ooling jacket(optional) Primary (mover) Secondary (stator) ooling jacket Electromagnetic ttraction Force k.5 8 5 14.5 ooling system for stator (optional) onnector for cooling water Stator Mass Ms Kg/m 3.5 3.5 SF511SH SF5141SH SF51 SF51 14/

SF 6 Series SF 6 Series Dimension Drawing: High thrust High acceleration educed cogging Efficient liquid cooling uiltin overheat protection SF 6 Series (Iron ore, ater ooling ()) TED PEFOME Model O SYMO UITS SF 61 SF 641 SF 661 SF 681 ontinuous Force 13 6 39 4 66 51 8 11 Motor onstant / 4.1 66.6 81.5 95. Max. ontinuous Power Dissipation EETI SPEIFITIO ontinuous urrent(at ) 49 1 958 1436 3 188 4 Model o. SF61 9 83.4 SF641 395 5. SF661 56 41 SF681 9 583.8 Peak urrent ( 1s) 6 53 8 11 Force onstant(5 ±1% ) / 13 13 13 13 ack EMF onstant(5 ±1% ) 34.3 34.3 34.3 34.3 Electrical esistance (5 ±1%).1 1.4.6.56 Electrical inductance ( ±%) pp 8.5 14. 9.5.1 Max oil Temperature onnector for cooling water MEHI SPEIFITIO Min. water flow Temperature rise of the cooling water Pressure Drop(Primary in series) min /min 4.5 4.5 5.5 ΔT 5.1 5.1. ΔP ar.. 1. 6 9 ooling jacket(optional) Primary (mover) Secondary (stator) ooling system for stator (optional) onnector for cooling water Electromagnetic ttraction Force k 4. 9.4 14 18. 9.5 18 5. 35 SMF61 SH SMF6141 PH SMF6161 PH SMF6181 PH SMF61 SMF61 SMF61 SMF61 16/1

SF Series SF Series Dimension Drawing: High thrust High acceleration educed cogging Efficient liquid cooling uiltin overheat protection SF Series (Iron ore, ater ooling ()) TED PEFOME Hole for M1 screw able for temperature controller Φ5 Model O SYMO UITS SF41 SF 61 SF81 ontinuous Force 39 4635 618 Power cableφ1 8 1 145 Motor onstant / 81.8 99.9 116.3 Max. ontinuous Power Dissipation EETI SPEIFITIO ontinuous urrent(at ) 148 5 3 8 4 Model o. SF41 395 5. SF61 56 41 SF81 9 538.8 Peak urrent ( 1s) 53 8 1 Force onstant(5 ±1% ) / 4.5 4.5 4.5 ack EMF onstant(5 ±1% ) 51.5 51.5 51.5 Electrical esistance (5 ±1%) 1. 1.1.85 Electrical inductance ( ±%) pp 1.3 13.6 11 Max oil Temperature MEHI SPEIFITIO onnector for cooling water Min. water flow Temperature rise of the cooling water Pressure Drop(Primary in series) min ΔT ΔP /min ar 5.5 1.5 6.5 3 9 5 ooling jacket(optional) Primary (mover) Secondary (stator) ooling system for stator (optional) onnector for cooling water Electromagnetic ttraction Force k 14 1 8 6 45.5 5 Stator Mass Ms Kg/m 3 SF141 PH 3 SF161 PH 3 SF181 PH Detail SF1 SF1 SF1 18/19

SF 8 Series SF 8 Series Dimension Drawing: High thrust High acceleration educed cogging Efficient liquid cooling uiltin overheat protection Model o. SF841 395 5. SF861 56 41 SF881 56 41 SF 8 Series (Iron ore, ater ooling ()) TED PEFOME Model O SYMO UITS SF841 SF861 SF881 ontinuous Force Motor onstant / 4 1 94.1 618 14 1.3 84 133.1 able for temperature controller Φ5 Power cableφ1 Max. ontinuous Power Dissipation EETI SPEIFITIO 19 83 383 ooling jacket(optional) Primary (mover) ontinuous urrent(at ) Peak urrent ( 1s) 53 3 8 4 Secondary (Stator) Force onstant(5 ±1% ) / 6 6 6 ooling system for stator (optional) ack EMF onstant(5 ±1% ) 68. 68. 68. Electrical esistance (5 ±1%).3 1.6 1. Electrical inductance ( ±%) pp 8 18. 14. Max oil Temperature MEHI SPEIFITIO Detail D Detail Min. water flow min /min 6.5.5 Temperature rise of the cooling water ΔT.5 11 13 Detail E Pressure Drop(Primary in series) ΔP ar.5 4 5.5 Electromagnetic ttraction Force k 19 8 3 Stator Mass Ms Kg/m 34 5 5 66 深圳市大族电机科技有限公司 5 5 Shenzhen Han's Motor S&T o.,td SF8141 PH SF81 SF816 1PH SF81 SF818 1PH SF81 ater pipe connector(g1/8) Detail /1

SF 9 Series SF 961 Dimension Drawing: High thrust Effective travel ( 5 stators) High acceleration educed cogging viation plug ater pipe connector Efficient liquid cooling uiltin overheat protection ater pipe connector ater pipe connector SF 9 Series (Iron ore, ater ooling ()) TED PEFOME Model O SYMO UITS SF961 SF96 ontinuous Force 3 441 6 8 Motor onstant Max. ontinuous Power Dissipation / 9. 1431 9. 1931 Detail EETI SPEIFITIO SF96 Dimension drawing: ontinuous urrent(at ).6 Peak urrent ( 1s) Force onstant(5 ±1% ) / 33 193.3 45 183. viation plug Effective travel ( 5 stators) ack EMF onstant(5 ±1% ) 64.4 61. ater pipe connector Electrical esistance (5 ±1%) Electrical inductance ( ±%) pp Max oil Temperature.8 13.3 1.9 9 ater pipe connector ater pipe connector Φ6 MEHI SPEIFITIO 4 4 Min. water flow min /min 5.5 6.5 Temperature rise of the cooling water ΔT. Pressure Drop(Primary in series) ΔP ar 1. 3 Electromagnetic ttraction Force k 14 6 18 31 Detail SF9161PH SF916PH SF91 SF9 /3

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