MHK2 4 Component Parts Material Material Note Note No. q w e No. i o !0 !1 !2 !3 !4 !
(Values at the initial period) VG VP JIS Symbol (A) 2 S070 VQ Construction 1 (P) 3 (R) VKF q t o r e VQZ y VZ y VS VFN i w 1(P)2(A)3(R) P R Description Component Parts No. q w e r t y u Note Material Aluminum die-casted Aluminum die-casted Aluminum Resin Stainless steel Steel Solenoid coil assembly Sub-plate Body Spool/Sleeve Manual override Return spring Bracket assembly Gasket assembly
F C (35.4[900]) J M N P L K H 4x0..5 (0.4[9~11mm] [4x13] [IDFB22E-11*(L=2800)] Unitinch [mm] A B C D E F G H J K L M N P 30.5 23.6 IDFB22E 1 [775] [600] 3.3 11.4 24.5 5.3 15.9 27.5 3.7 1.8 1 0.5 12.4 13.4 [290] [623] [134] [405] [698] [93] [46] [25] [13] [314] [85] [340] 26.8 33.7 IDFB37E 1/2 [855] [680] R IDFB55E/75E Q A B H G E D F C (0.4 (39.4[1000]) J L K M N P 4x0..5 [4x13] (
Material Bronze Note Clear coated q Description Cover assembly Body Aluminum alloy Brass Platinum silver painted PTFE, EPR, FKM w e Plate assembly Valve element Piston assembly Return spring Second plate assembly r Brass, PTFE t Aluminum alloy y Piano wire u Aluminum alloy Body option S is made of stainless steel. 17-4-42
Regulator IR1200-A/2200-A/3200-A Series How to Order 0 2 0 IR 1 01 BG r t y u e w q A ARJ Option/Semi-standard: Select one each for a to e. Option/Semi-standard symbol: When more than one specication is required, indicate in alphanumeric order.
4 o i q !3 e r !2 !1 u t w y CHK CHN CHM CHM CHS CH2 o !
B) In the state of A), attach the upper hard stop and adjust the shim q so that there is a space of about 0 mm between the upper hard stop and the hard stop. During this step, theoretically, there is no clamping force applied to the hard stop. C) In order to generate a clamping force from the state described in step B), insert an additional shim.
OUT 12.6 3.26 2.00 0.74 5.78 4.52 4 2 IN 1.47 1.1-4 Air Cylinder/Single Acting (Spring Return) Series CJ1 Construction CJ1B2-lSU4 CJ1B4-lSU4 CJ1 CJP Component Parts (Impossible to disassemble) CJ2 Description Material Brass Brass Stainless steel Stainless steel wire NBR Brass Steel Note Electroless nickel plated Electroless nickel plated No. q w e r t y u Rod cover Cylinder tube Piston rod
Air Cylinder/Low Friction Series CS1lQ Non-lube/125, 140, 160 How to Order Standard L Q 160 300 JR CS1 160 A53 L Q 300 JR CDS1 With auto switch Number of auto switches 2 1 3 n S 3 n With auto switch Mounting Basic Foot Front flange Rear flange Single clevis Double clevis Center clevis B L F G C D T Auto switch Low friction Without auto switch * Select the applicable auto switch from the
e (EB) 3 (EA) 5 (P) 1 t 2 position double JIS Symbol 2 position double (A) (B) 4 2 q w y u r (P) 1 (EB) 3 (EA) 5 t 3 Position Closed center / Exhaust center / Pressure center JIS Symbol 3 position closed center (A) (B) 4 2 q w y u r 3 position exhaust center 3 position pressure center (EB) 3 (EA) 5 (P) 1 t (This figure shows a closed center type.)
(C ) Temp. conditions Power source 1.0 High temp. water (X, E, N, P) 60 40 5 0.82 0.20 0.20 Water (Std.) Oil (D. N) Steam (S,Q) Oil (Std.) VX3235-00 VX3335-00 3 1.1 0.25 0.27 AC DC 60 40 1 99 60 120 183 Maximun VX3245-00 40 1.6 0.20 0.38 4 20 VX3345-00 Minimum AC, DC Ambient temperature (C ) 40 10 Operating fluid temp.
Q=226S P(P2+0.1013) Sonic flow : P1+0.10131.89(P2+0.1013) Q=113S(P1+0.1013) Q : Flow rate [ /min(ANR)] S : Effective area (mm2) P : Pressure differential (P1-P2) [MPa] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] When the air temperature is different, multiply the flow rate calculated with the above formula by the following coefficient for compensation. -20 1.08 -10 0 10 30
SX90/090 Series CAT.ES70-59A Low Profile 2/3-Port Solenoid Valve SX90/090 Series How to Order SX9 1 5 G 2-port valve q SX090 5 G 3-port valve w e r q Type of actuation w Power-saving circuit e Rated voltage r Electrical entry 1 Normally closed 2 Universal Nil Without power-saving circuit Y1 With power-saving circuit 5 24 VDC 6 12 VDC G Grommet (Lead wire length: 300 mm) Specifications Model
Description TBR-1,2,3,4 TBR-A167 q Side plate PP TBR-1 TBR-A188 TBR-2 TBR-A168 w Branch pipe ABS TBR-3 TBR-A169 TBR-4 TBR-A170 TBR-1 TBR-A183 TBR-2 TBR-A184 e Fixing rod ABS TBR-3 TBR-A185 TBR-4 TBR-A186 TBR-1,2,3,4 TBR-A187 r Fixing plate PP 534
Therefore, supply pressure regulated by a built-in regulator e passes through the air supply solenoid valve q and is applied to the pilot chamber r. The pressure in the pilot chamber r increases and operates on the upper surface of the diaphragm t. As a result, the air supply valve y linked to the diaphragm t opens, and a portion of the supply pressure becomes output pressure.
adsorption (sec) QL: Leakage volume during workpiece adsorption L/min (ANR) Note 1) Q = + QL T1 T2 = 3 x T1 Max. suction flow rate Qmax = (2 to 3) x Q L/min (ANR)
CQSX/CQ2X/CM2X 10 to 16 10 to 32 12 to 25 32 to 100 20 to 40 RE A B Air Cylinder Series CJ2X Page Minimum operating piston speed (mm/s) Bore size (mm) Minimum operating pressure (MPa) REC 10, 16 0.06 1 CX 10-3-6 CY MQQ M Free Mount Cylinder Series CUX Bore size (mm) Minimum operating pressure (MPa) Minimum operating piston speed (mm/s) RHC 10, 16 0.06 1 MK(2) 10-3-8 20, 25, 32 0.05 0.5 RS Q
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Free Mount Cylinder Series CUX Minimum operating piston speed (mm/s) Bore size (mm) Minimum operating pressure (MPa) RHC 10, 16 0.06 1 MK(2) 10-3-8 20, 25, 32 0.05 0.5 RS Q G RS H A Minimum operating piston speed (mm/s) Bore size (mm) Minimum operating