CJ2 10 0.035 J Allowable kinetic energy MB 0.090 J 16 No freezing MB1 Standard Stroke (N) Spring Force CA2 Made to Order Specifications (For details, refer to page 6-17-1.)
-4 M30.5 0.9 6 LEHZ(J)16(L)K2-6 M40.7 1.4 6 LEHZ(J)20(L)K2-10 M50.8 3.0 8 LEHZ(J)25(L)K2-14 M61 5.0 10 LEHZ32K2-22 M61 5.0 10 LEHZ40K2-30 M81.25 12.0 14 17 - LEHF [Nm] LEHZ(J)10(L)K2-4 M30.5 0.9 LEHZ(J)16(L)K2-6 M30.5 0.9 LEHZ(J)20(L)K2-10 M40.7 1.4 LEHZ(J)25(L)K2-14 M50.8 3.0 LEHZ32K2-22 M50.8 3.0 LEHZ40K2-30 M61 5.0 [Nm] L[mm] LEHZ(J)10(L)K2-4 M40.7 1.4 6 LEHZ(J)16(L)K2-6 M40.7 1.4 6
A Model Model 15 15 181 221 9 9 MY-J 80 MY-J100 MY-J 80 MY-J100 Note) Flat bar or round bar mounting are possible for the support bracket (slanted lines) mounted by the customer. The floating bracket is packaged with (4) hexagon socket head cap screws and (2) parallel pins at the time of shipment.
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com RHC MK(2) RS Q G RS H A RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-5-1 2 Low Friction Cylinder Application Example (Metal Seal Type) Series MQQ Series MQQ Pressure control with fine pressure variations Low breakaway pressure Low
G5-S CV MVGQ CC RB J D-X 20Data 10-5-19 19 Series MQM Dimensions Basic style: MQMLB 6 Mounting nut M12 x 1 Rod end nut 2-M5 x 0.8 15 M4 x 0.7 13 4 11 16 15 8 21 4.5 11 66 + Stroke 27.5 93.5 + Stroke 10, 16, 20, 25 Mounting nut Rod end nut G1 G2 NN 2-P I NA D J N2 N1 A F MM F S + Stroke H ZZ + Stroke Bore size (mm) NN A P D MM F G1 G2 S ZZ I H J N1 N2 NA 10 M12 x 1 15 M5 x 0.8 4 M4 x 0.7
Refer to page 30 for details regarding Series CY1S with shock absorber. 23 Series CY1S Model Selection Method 1 Operating conditions E: Kinetic energy of load (J) W V 2 E = x () 2 1000 Es: Allowable kinetic energy for intermediate stop using an air pressure circuit (J) Ps: Operating pressure limit for intermediate stop using an external stopper, etc.
0 Body Valve side exhaust Refer to the back of page 465 for Maintenance Parts. 457 XLS Series Dimensions XLS/Without control power supply D E D F L J K 2 J K L 270 10 290 10 M J K J 33 25 C B 39 G G1/2 G1/2 C B B C A B C 6 to 9 G1/2 A DIN terminal (D) Terminal (T) Conduit (C) Grommet (G) XLS/With control power supply 41 26 J K 530 10 72 OPERATION V INPUT C B L (mm) Grommet (G) A B C
H J H Conduit terminal DIN terminal Cable 0.24 to 0.47 Q F D D S G1/2 Qp0.08 F 1.34 (1.73) 1.26 R 1.24 0.99 T C K C R E E Sp0.08 A A B1 2 x P 1(IN), 2(OUT) port B1 2 x P 1(IN), 2(OUT) port B B 2 x M5 Thread depth N 2 x M5 Thread depth N K J H G1/2 J H (inch) Grommet Grommet (with surge Dimensions Size Port size voltage suppressor) A B B1 C D E F P H J Q R Q R K N 1 1/8 1/8 1/4 3/8 1/8 1/4
G5-S M thread CV F Note 2) E Note 2) MVGQ CC I thread length J RB 4-G through 2 x 4-H counterbore J R + Clamp stroke Q + 2 x Clamp stroke depth 3 D-X Through-hole/Both Ends Tapped Common (Standard) (mm) 20H J Model K L F E C B A D G Q V P Yh9 Z N I M O R S T U X 0.1 0.2 0.1 0.2 0.1 0.2 0.1 0.2 1 8 1 8 1 4 1 4 0 0.062 0 0.062 0 0.062 0 0.062 MK2B32 MK2B40 MK2B50 MK2B63 54 61 73 86 34 40 50
E-M5 thread depth 10 6 LJ1 LG1 LC1 LX LC6D/LC6C Switches 38 46 76 Motor wire (300mm) Photo micro sensor wire (300mm) 2-M2.5 thread depth 4 3 10 8 J 25 25 27 J x K Stroke + 220 10 Stroke + 127 13 15 (5) 0.5 46.5 3.5 2-M6 thread depth 13 58 52 27 19 [18] 15 Stroke + 127 (39) The dimension inside [ ] shows the location at which the home position switch operates. 58 (52) 28 36: T-slot pitch
thread depth K 2-J, thread depth K DIN terminal: D Conduit terminal: T D S F Q Cable 6 to 12 Q 2 F 34 G1/2 D 25 T C C R R Width across flats H Width across flats H E E S 2 2-P Port size A B 2-P Port size A B M M 2-J, thread depth K 2-J, thread depth K G1/2 Specifications with bracket Orifice 2, 3, 4.5, 6 Orifice 8, 10 7.5 2.3 Bracket Y 29 Mounting hole 2-5.3 Bracket 22 5.5 52 28 W U 67
C2SF-C C4SF-J C4SF-W C4SF-6 AD47-6 AD48-6 C4SF-6J C4SF-6W C4SF-2 AD47-2 AD48-2 C4SF-2J C4LF-8 AD47-8 AD48-8 C4LF-8J C2SF-C Drain AD27-C AD27-C C2SF-J C3SF-J C4SF-J Polycarbonate C2SF-J C3SF-J AF50, AF60 C3SF-W C4SF-W C3SF-W C2SF-CJ C2SF-CJ C3SF-6 C4SF-6 C2SF-6 C1SF-6 AD17-6 C1SF-2 AD17-2 C3SF-6 C2SF-6 C1SF-6 OUT IN C2SF-6C C2SF-6C AD37-6 AD47-6 AD27-6 AD37-6 AD17-6 AD27-6 AD38-6
C2SF-C C4SF-J C4SF-W C4SF-6 AD47-6 AD48-6 C4SF-6J C4SF-6W C4SF-2 AD47-2 AD48-2 C4SF-2J C4LF-8 AD47-8 AD48-8 C4LF-8J C2SF-C Drain AD27-C AD27-C C2SF-J C3SF-J C4SF-J Polycarbonate C2SF-J C3SF-J AF50, AF60 C3SF-W C4SF-W C3SF-W C2SF-CJ C2SF-CJ C3SF-6 C4SF-6 C2SF-6 C1SF-6 AD17-6 C1SF-2 AD17-2 C3SF-6 C2SF-6 C1SF-6 OUT IN C2SF-6C C2SF-6C AD37-6 AD47-6 AD27-6 AD37-6 AD17-6 AD27-6 AD38-6
3 mm or more, I: 6 mm or less J: 4 mm or more, I: 6 mm or less H: M6 or more, X: 22.5 mm or less H: M6 or less 16 16 J :4 mm or more, I: 6 mm or less J: 4 mm or more, I: 6 mm or less XA2 XA17 H: M8 or more, X: 26.5 mm or less H: M8 or less 20 20 J: 5 mm or more, I :11 mm or less J: 5 mm or more, I: 11 mm or less H : M10 or more, X: 33 mm or less H: M10 or less 25 25 J: 6 mm or more, I: 13
L B + Stroke A + Stroke CE1 CE2 Rod end male thread ML2B H1 C J G5-S Auto switch D-A9, F9 CV MVGQ Rod end nut C1 X L1 CC RB Rod End Male Thread (mm) Bore size (mm) C1 X H1 L1 J 32 20.5 23.5 28.5 M14 x 1.5 D40 20.5 23.5 28.5 M14 x 1.5 50 26 28.5 33.5 M18 x 1.5 -X (mm) Without auto switch With auto switch A B A B 20U Z Bore size (mm) Stroke range (mm) C D E F H I J K L M N O P Q S 5 to 50 40
x 1.5 M26 x 1.5 27 30 31 37 40 1/4 3/8 3/8 1/2 1/2 84 90 98 116 126 146 159 170 204 215 RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-4-17
J 0.04 J 0.09 J 0.27J 0.4 J Allowable kinetic energy Air cushion/Double rod CS1 Air cushion 0.17 J 0.19 J 0.4 J 0.66 J 0.97 J C76 Non-rotating accuracy 1 30' 1 30' 1 1 0 42' 0 42' Non-rotating 0/+1.4 0/+1 Stroke tolerance (mm) C85 Maximum ambient temperature of rod boots only.
Use the collision speed when calculating dynamic moment. 12 28 41 MXP16 26 Symbol Unit Definition Definition Symbol Symbol Unit mm An (n = 1 to 3) V Collision speed mm/s Correction values of moment center position distance J E Va Average speed Kinetic energy mm/s J Emax W Load weight Allowable kinetic energy kg mm Ln (n = 1 to 3) Wa Allowable load weight Overhang kg Nm M (Mp, My, Mr) We
0.025[J] 0.048[J] 0.081[J] 0.240[J] 0.320[J] 0.560[J] With internal shock absorber 0.039[J] 0.116[J] 0.116[J] 0.294[J] 1.100[J] 1.600[J] 2.900[J] Allowable Kinetic Energy (J) With external shock absorber (For low energy) 0.161[J] 0.574[J] 0.805[J] 1.310[J] With external shock absorber (For high energy) 0.231[J] 1.060[J] 1.210[J] 1.820[J] With adjustment bolt 0 to 190 Note2) With internal
A tree stop of a rotating mass without cushioning or overloading risks breaking the pinion or vane, The allowable energy published by the manutacturer musl be caretully respected. a J=m.r 6 J = m . V c J = m . r l 2 + 1 2 2 T I v I + I I ri J' r 2 4 d = m . ,#,*, a J = m . I a 'ilE' d !-::-!. mb= n, t r a+b l l ta2+c2 i a ' Ti+l 2 . ^ 2 12 ho'oo#" ' 1 J = n y r = m " . * * ' o .