AC Servo Motor Driver (Network card type ) P A = K T (10.1) A: Heat dissipation area [m2] P: Loss generated in the cabinet [W] T: Difference between internal and ambient temperatures [C] K: Heat dissipation coefficient [5 to 6] 10 3 10. CHARACTERISTICS When calculating the heat dissipation area with equation 10.1, assume that P is the sum of all losses generated in the cabinet.
t t t B1 H1 Dd9 Applicable bore size (mm) L L Dd9 d l l d m t Applicable bore size (mm) Part no.
MM Air release e D E BB FY Width across flats G Air release NA T FT NB l C 10 f SS + Q + l + Stroke S + Stroke K F MA B SS + Stroke A FX ZZ + Stroke ZZ + Q + l + Stroke FZ (mm) With rod boot Bore size (mm) Stroke range (mm) l J B BB C F GA GB NA NB P R S T FD FT FX FY FZ SS e f Q 32 M10 x 1.25 58 62 38 16 32 15 37 31 3/8 39 141 11 11 11 88 40 109 182 52 21.5 15 25 to 1400 1/3.5 stroke 40
t t t B1 H1 (mm) (mm) (mm) Dd9 Applicable bore size (mm) L L Dd9 d l l d m t Snap ring Snap ring t m Part No.
t t t B1 H1 (mm) (mm) (mm) Dd9 Applicable bore size (mm) L L Dd9 d l l d m t Snap ring Snap ring t m Part No.
D D t D t t c e c c e e u u s u s s d i d i d i g g g o o o n n n r r r P P P A A A 1 1 9 9 9 9 9 9 w w 9 w 9 9 m I m I n n 9 9 9 u d u d a a a r u r u o s o F s tr F i e tr i e 9 9 9 D r r D r r r e e e e v v s 1 d d s 1 1 d o o i i n g n g n n n n a a H H n P n P g g r r o o i i s s d d e e u u D D c c t t d A d A r r w w a a 12-11-1 2 Courtesy of Steven Engineering, Inc.-230 Ryan Way,
22.5 M5 x 0.8 Finger opening port 3 MHZ 29 15 16 10 22 8 31 MHF 18 51.5 MHL 6 40 78 Angle adjustment bolt MHR 2 x 5.5 through MHK 2 x 9.5 depth of counter bore 3 11 MHS 2 MHC 10 0 -0.062 47h9 long groove depth 4 +0.03 0 3 x 4H9 M5 x 0.8 M5 x 0.8 Port A Port B MHT (one each on three sides) MHY 4 x M5 x 0.8 depth 8 MHW -X MRHQ N J I E A D P A A M N MA 8 C M S R R E O P T 22 8 P A R I R Y 12
P A = K T (10.1) A: Heat dissipation area [m2] P: Loss generated in the cabinet [W] T: Difference between internal and ambient temperatures [C] K: Heat dissipation coefficient [5 to 6] 10 3 10. CHARACTERISTICS When calculating the heat dissipation area with equation 10.1, assume that P is the sum of all losses generated in the cabinet.
W (44) (Y) Z (X) (V) T R T 25 IN port 2 x 3/8 l=280 l=300 : Thread type Plug provided on U side at shipping. 2.5 (N) E A (U) S Q D G C C B L1 L2 L3 16 D side U side Stations 1 2 3 4 5 n 21 5.5 16 OUT port n x 1/4 H H P = J (Pitch) 2 n x 1/8 : Thread type L Dimension (mm) n (stations) Model Dimensions 2 3 4 5 6 7 8 9 10 L1 70 105 140 175 210 245 280 315 350 VV2CL2 L2 82 117 152 187 222 257
PE 12 E Bracket Main port R T J D 1 2 3 I O M C N P: For mounting 4 locations B H G A Drawing indicates conduit terminal type.
E (H1) (H2) 2 x P B C SMC A B E L J B 2 x P 2 x F K Body material: PFA N G A D L K 4 x M Non-locking type Locking type 60 (H1) (H2) C A B SMC E J B 2 x P (mm) Dimensions A B C D E F H1 G H2 J K L M N P Model Body material LVH20m LVH30m LVH40m LVH20m LVH30m LVH40m LVH20m LVH30m LVH40m M5 x 0.8 30 33 54.5 10 10 75 76.5 22 22 27 Rc 1/8, 1/4, NPT 1/8, 1/4 (SUS) Stainless steel 36 47 81 13
C U O S L H o t (L) A M B C P (H) OUT IN Q N N D R (J) OUT (K) F E S G 9 (IDG3, 5 only) (Maintenance space 100 mm or more) With float With drain guide Port size A B C D E type auto-drain F G H J K L M N P Q R S Model T U IDG3V3, 3HV3, 5V3, 5HV3 IDG10V3, 10HV3 IDG20V3, 20HV3 1/4, 3/8 284 202 41.5 10 119 144 174 97 5.5 12 73 173 180 237 262 93 30 24 5.5 29 67 3.2 192 1/8, 1/4 254 55 14 208
C3SF-J C4SF-J SMC C3SF-W C4SF-W K P C U O S L H o t C2SF-CJ C1SF-6 C2SF-6 C3SF-6 C4SF-6 A C2SF-6C The numbers are the same as the "Construction" of the Best Pneumatics No.5 Series AW.
C3SF-J C4SF-J SMC C3SF-W C4SF-W K P C U O S L H o t C2SF-CJ C1SF-6 C2SF-6 C3SF-6 C4SF-6 A C2SF-6C The numbers are the same as the "Construction" of the Best Pneumatics No.5 Series AW.
, Barrel nipple 25A, Accessories Anchor bracket 2pcs.
Basic, Foot, Rod flange, Head flange, Clevis (Used for changing the port location by 90) Mounting Male rod end Female rod end 0.2 J 0.29 J 0.46 J 0.84 J 1.4 J 2.38 J 4.13 J 6.93 J Allowable kinetic energy Symbol Specification 0.11 J 0.18 J 0.29 J 0.52 J 0.91 J 1.54 J 2.71 J 4.54 J -XA Change of rod end shape Operate the cylinder within the allowable kinetic energy.
Rc1/8 XLAV M5: Port 1(P), 3(R) Rc1/8: Port 1(P), M5: Port 3(R) Weight [kg] XLA 0.28 0.47 1.1 1.7 3.1 5.1 XLAV 0.33 0.52 1.2 1.8 3.2 5.2 *1 Conductance is the value for the elbow with the same dimensions.
(a) LECSC2-T Always remove the wiring from across P-D and fit the regenerative option across P-C. The G3 and G4 terminals act as a thermal sensor. G3-G4 is disconnected when the regenerative option overheats abnormally. Always remove the lead from across P-D. Servo amplifier Regenerative option Driver Controller P P C C G3 D (Note 2) (Note1) G4 5m (16.4 ft) max.
ZP3P-20PTSF ZP3P-25PTSF ZP3P-35PTSF ZP3P-50PTSF p. 2 q Pad unit With Buffer p.6 e Buffer assembly Pad diameter Part no. 20 25 35 50 Dimensions ZPB2(J/K)10-B5 V V ZPB2(J/K)20-B5 V V ZPB3(J/K)10-B01 V V ZPB3(J/K)20-B01 V V p. 12 e Buffer assembly w T female thread adapter Pad diameter Part no. 20 25 35 50 Dimensions ZP3PA-T1-B5 V V ZP3PA-T2-B8 V V w T female thread adapter p. 11
12 M5 x 40 11 NX M5 x 0.8 9 63 50 5 49.7 69.8 61.4 M4 x 12 M5 x 40 9 NW M5 x 0.8 9 70 50 5 47.5 69.8 61.4 M4 x 12 M5 x 40 9 NV M4 x 0.7 8 63 50 5 49.7 69.8 61.4 M4 x 12 M5 x 40 9 NU M5 x 0.8 9 70 50 5 47.5 69.8 61.4 M4 x 12 M5 x 40 11 NT M5 x 0.8 9 70 50 5 46 69.8 61.4 M3 x 12 M5 x 40 12 NM2 M4 x 0.7 8 50 36* 4.5* 40.1 69.8 61.4 M4 x 12 M5 x 25 10 LZ 32 LC3F2 NZ M5 x 0.8 9 70