MG Table 1 How to calculate the kinetic energy of load Bore size (mm) Allowable kinetic energy (J) 12 0.043 16 0.075 M+m 2 u=1.4ua u Ek= 2 20 0.11 25 0.18 Ek : Kinetic energy (J) M : Weight of driven object m : Weight of cylinder moving part (kg) u : Max. speed (m/s) ua: Average speed (m/s) 32 0.29 40 0.52 50 0.91 63 1.54 80 2.71 100 4.54 Note) Select a cylinder so that "Ek" does not exceed
Maximum piston speed: 1000 mm/s It can be used at 50 to 1000 mm/s provided that it is within the allowable kinetic energy range.
Forward ON ON OFF Backward Locked stop OFF OFF OFF Regulator with check valve 0.5 s or more Unlocked ON OFF OFF 0 to 0.5 s 3 port normally closed Forward ON ON OFF Pressure center Backward ON OFF ON Locked stop OFF OFF OFF SOL.A SOL.C SOL.B 0.5 s or more Unlocked ON OFF OFF 0 to 0.5 s Backward ON OFF ON 2) [Vertical] [Load in the direction of rod extension] [Load in the direction of rod retraction
moment (Pitch, Yaw) Max. allowable kinetic moment (Pitch, Yaw, Roll) Collision speed Symbol An (n=1 to 6) E Ea Emax Ln (n=1 to 3) M (Mp, My, Mr) Ma (Map, May, Mar) Me (Mep, Mey) Mea (Meap, Meay) Mmax (Mpmax, Mymax, Mrmax) V Definition Average speed Static load Allowable static load Unit mm/s kg kg kg kg Unit mm J J J mm Nm Nm Nm Nm Nm mm/s Load equivalent to collision Max. allowable static
CEP1 CE1 Over 50 stroke CE2 ML2B C J G5-S 50 stroke or less CV MVGQ CC RB J DKit no.
CJ1 2 to 20 in/s (50 to 500 mm/s) 2 to 20 in/s (50 to 500 mm/s) Piston speed (50 to 500 mm/s) CJP Cushion Air cushion standard Basic style, Foot style, Rod side flange style, Head side flange style, Clevis style, Side tapped style, Center trunnion style, Head side trunnion style, Side lug style, Rod side trunnion style Basic style, Foot style, Clevis style, Rod side flange style, Head side
CJ1 2 to 20 in/s (50 to 500 mm/s) 2 to 20 in/s (50 to 500 mm/s) Piston speed (50 to 500 mm/s) CJP Cushion Air cushion standard Basic style, Foot style, Rod side flange style, Head side flange style, Clevis style, Side tapped style, Center trunnion style, Head side trunnion style, Side lug style, Rod side trunnion style Basic style, Foot style, Clevis style, Rod side flange style, Head side
-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
(without keys on the long shaft) J Double round shaft K Shaft end form 11-8-12 to 11-8-24 Pattern Rotation range -X6 Shaft, parallel key stainless spec. 11-8-1 2 Compact Rotary Actuator Rack & Pinion Style Series CRQ2 Size: 10, 15, 20, 30, 40 How to Order Without auto switch With auto switch CRQ2B S 20 90 CDRQ2B S 20 90 F9BW S Shaft type Built-in magnet Courtesy of Steven Engineering, Inc
), (4) Rc 1/8 (NPT 1/8) Pilot port A B SMC A B SMC LVQ S-S Dimensions (N.O. valve, double acting valve) 2 1 (mm) A B C D E F G H J K L M N P Q R W Model LVQ2 S-S07 LVQ3 S-S11 LVQ4 S-S13 LVQ5 S-S19 LVQ6 S-S25 2 1 25.5 46 31.5 58 33.6 81 12 92 21.8 37 5 7 15 31.3 21 25.3 64 2 1 23.5 47 29.5 59 45.4 99 16.5 112 32 50 6 7 20 37.2 25 31.2 82 2 1 23.5 47 29.5 59 45.4 104.5 22 126 37.5 55.5 6 7
, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com With auto switch: CDS1B With rod boot Width across flats KA ~ = ~ = ~ = S + Stroke ZZ + Stroke ZZ1 + l + Stroke Stroke range Type Bore size (mm) B C A AL K KA M D MM E EA F FA G J N P S (mm) 125 140 160 180 200 250 300 1/2 Up to 1000 M14 x 1.5 M30 x 1.5 50 47 15 145 31 115 27 36 90 59
Cushion valve G 2 x Rc P W V Port G E Width across flats KA TX D E B C H1 AL MM MB MA N 2 x 4 x J N TY B C Width across flats B1 A H K F TT ZZ + Stroke S + Stroke With rod boot d e 10.2 10.2 f h l [mm] Bore size [mm] A AL B B1 C D E F G H H1 J K KA MA MB MM N P S TT TX TY V W ZZ 32 22 19.5 46 17 32.5 12 30 13 13 47 6 M6 x 1 6 10 16 4 M10 x 1.25 27 1/8 84 17 48 49 4 6.5 135 40 30 27 52 22
<-III o ~ \ ~ r c-~~ ~ d" -, Rod end without L --' thread r~ \ A~OSW'tCh MM 8 NN LZ --' l S (Across H at) .. s .I w J 2051 3Gst 1561 I (mm) ,5 st lost ~ 1551 sst l. l0S" 20" 1.30>1. P .
Maximum piston speed: 500 mm/s It can be used at 50 to 500 mm/s provided that it is within the allowable kinetic energy range.
) (CF flange) A B K S M J H G A (mm) Model A 123 170 183 217 256 B 48 66 79 100 117 C 1 2 2 3 3 D 40 55 75 87 114 Fn 95 110 Fd 70 114 Fc 26 41 52 70 83 G 41 63 68 72 98 H J K P.C.D L1 6 x 6.6 8 x 8.4 L2 XMD-25 XMD-40 XMD-50 XMD-63 XMD-80 50 65 70 88 90 16 20 20 20 20 7.5 15 17.5 19.5 26.5 P.C.D 58.7 P.C.D 92.1 C D XYD/In-line type XLA G Fd XL C XLQ (K flange) XM XY XM XY J K H B
.-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 DStopper cylinder with built-in shock absorber -X 20Data 10-9-1 2 Heavy Duty Stopper Cylinder Series RSH/RS1H The roller lever direction can be changed in 90 steps. 3 20, 32
.-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 Ideal for separating and feeding individual parts from vibratory feeders, magazines, and hoppers.
1 Escapements Series MIW/MIS 8, 12, 20, 25, 32 RE A B REC CX CY MQQ M 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 Ideal for separating and feeding individual parts from vibratory feeders, magazines, and hoppers.