CA2 Metric sizes Type 04 06 08 10 12 4 6 8 10 12 2 Elbow Control type 0 1 Meter-out Meter-in Port size M5 01 02 03 04 M5 x 0.8 1/8 1/4 3/8 1/2 With One-touch fitting Clean specifications Metal parts material Q G Brass (electoless nickel plated) Stainless steel 304 Needle Valve/Flow Characteristics AS121FP-M5 AS221FP-01 AS221FP-02 08,10 06,08 06 04 04 AS321FP-03 AS421FP-04 12 10 10,12 08 06 15
AXT662-1(1: M5, 2: M3) 1 2 Sub-plate Optional parts Gasket, screw: VQ100-GS-5 Note) 1 set includes: 1 gasket and 2 screws. Purchasing order is available in units of 10 pieces. 4-12-9 10 Series VQ100 How to Order Valves VQ1 1 0 5 L M5 Series VQ Compact 3 port valve Port size Type of actuation Without sub-plate With sub-plate With sub-plate Nil M3 M5 1 N.C. (Normally closed) N.O.
The tightening torque should be 0.1 to 0.2 Nm. 5 to 6 14 e-Rodless Actuator Series E-MY2 Names and Functions of Individual Part Controller detail w t q u End Motor I/O cable Controller Power supply cable Slider i y e r Switch FG terminal Motor side end Description Content/Function q w e r t y u i Stroke learning switch Description Content/Function Switch to move the actuator to intermediate
q e r q e r q e r q e r w w w w 125 Process Gas Equipment / Diaphragm Valve Specific Product Precautions Be sure to read before handling.
01 M5 x 0.8 Rc(PT) 1/8 (port A) VKF332 (with bracket) Body ported (single type) 5 G M5 Body ported (for manifold) 5 G M5 VKF333 5 G 01 VKF334 Base mounted Light/Surge voltage suppressor Valve option Port size For vacuum For low power consumption For vacuum/low power consumption For long loading time 01 Nil V Y Rc(PT) 1/8 (with sub plate) Without sub plate None With surge voltage suppressor
7 q e @0 !0 o @2 @3 !5 u t !8 @1 r @4 w 12 to 40 @7 !1 !7 q !6 !0 @2 @3 o @4 @6 y e r !8 @1 @5 u w Rod cross section for 12, 16, 20, and 25 Rod cross section for 32 and 40 With end lock 12 to 40 y !7 !6 q !0 o @2 @3 @4 @6 e r !8 @5 @1 i @8 !4 !5 !2 @9 !3 w Parts list No. 1 2 3 4 5 No. Description Rod cover Head cover Cylinder tube Piston Spacer for switch type Description Qty.
And How To Order Aoolicable valves N\|z3120-OOO-M5 N\r23220-OOO-M5 N\r23320-OOO-M5 Nllz3{20-ooo-M5 N\1z3520-OOO-U5 Ootions Blank plate ass'y: DXTl92-13-1A EXH Relocation Spacer ass'y: DXr192-21-'1A Applicable valves N\rz3r40-ooo N\rel2'lO-OOO l{ }340-ooo Nv4ttt40-coo N\rz9540-OOO Options Blank plate ass'y: DXTl9213-1A EXH Relocation Spacer ass'y: DXT192-21 -1A SUP Relocation Spacer ass'y:
And How To Order Aoolicable valves N\|z3120-OOO-M5 N\r23220-OOO-M5 N\r23320-OOO-M5 Nllz3{20-ooo-M5 N\1z3520-OOO-U5 Ootions Blank plate ass'y: DXTl92-13-1A EXH Relocation Spacer ass'y: DXr192-21-'1A Applicable valves N\rz3r40-ooo N\rel2'lO-OOO l{ }340-ooo Nv4ttt40-coo N\rz9540-OOO Options Blank plate ass'y: DXTl9213-1A EXH Relocation Spacer ass'y: DXT192-21 -1A SUP Relocation Spacer ass'y:
G RS H A RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-6-9 9 Series RHC Construction: 20 to 40 u q !
Operation description of the soft start-up valve q When the pilot valve q is turned OFF , the pilot air of the spool w is exhausted from the pilot valve q, and the spool w and valve e are returned upward due to the spring. This opens the flow passage to port 3 (R), exhausting the air pressure on the port 2 (A) side.
SY SYJ (L5) Plug assembly (L4) VK 2-4.5Mounting hole 1 2 3 VVQ100-12A(L3) 88 (8.5) L2 VZ 48.7 L1 VT VT (45) (35) 33 25 (5.5) VP 23.5 12.3 VG R11 Manual override 21.5 (Min. bending inner radius) (29.3) VP 104 VQ VQZ Stations 1 2 3 4 5 n Dside Uside VZ 2-M5 X 0.8(E port) VS 2-M5 X 0.8(P port) 42.9 A A 20 (8.5) 1.5 5 n-M5 X 0.8 (A port) 5 (7.5) 15 P=10 38 Equation: L1=10n+32 L2=10n+43
3 AS q AS-FE !1 !1 i !4 y q q KE i !5 i !5 AS-FG AS-FP AS-FM AS321F-02 Meter-out type AS3201F-02 Meter-in type AS3211F-02 AS-D AS-T ASP ASN AQ ASV AK VCHC ASR ASQ Component Parts No.
D 00 Without subplate 1% 0.5% + -0.5% M5 M5 0.007 00 Without subplate B M5 M5 0.28 01 18 0.41 2.5% 1% + -1% Base Mounted Type 00 Without subplate 2 01 18 0.9 02 14 1.4 00 Without subplate 02 14 2.0 3% 1.5% + -1% 4 03 38 3.3 04 12 3.9 A M5 M5 0.28 1 01 18 0.9 02 14 1.4 2.5% 1% + -1% Wiring: The use of three-core screened cable is strongly recommended with the screen earthed at the end away
Description Material Surface treatment ZX t NBR, Silicone rubber, Urethane rubber, Fluororubber, EPR u o Pad 1 ZR r e w Adapter plate 2 Aluminum ZM w Hard chrome plated Piston rod 3 Carbon steel w Spring 4 Stainless steel ZMA Buffer body 5 Aluminum Electroless nickel plated Buffer adapter 6 Brass q q q ZQ Electroless nickel plated Adapter A 7 Brass Electroless nickel plated X type adapter
2 i q !1 !4 y !9 !0 u !2 i q !1 !4 y !9 !0 u !3 !2 i q !1 !4 y !9 Open condition Component Parts Note No.
R E GB GA 4-NN MM D CB CA C K J JA E H A' A 2-P through KA B 4-T counterbore Width across flats L S + Stroke Z + Stroke (mm) Port size Bore size (mm) GA H J JA A B A' C CA CB D E GB 20 25 32 29 32.5 35 19 23 27 16 20 24 12 15 19 26 32 40 42 50 62 20 25 31 22 25 31 9 10 11 27 22.5 25 14 18 22 12 15.5 19.5 8 10 12 M5 x 0.8 M5 x 0.8 Rc 1/8 Bore size (mm) NN T S Z K KA L MM P Q R Standard strokes
Q + Stroke (NA) Cylinder form 12 16 d Bore size (mm) Standard stroke (mm) A B C E G GP H HA HG HN HP HT J JK L LD Slide Ball bushing 12 15, 25 8 4 16 25 7.5 50 34 6 14.5 34 33 18 M5 x 0.8 9.5 68 4.3 8.5 10 16 15, 25 9.5 5 18 29 6.5 65 40 6.5 16 39.5 39 21 M6 x 1 9.5 75 5.2 7.5 12 20 25, 50 11 6.5 25 36 8.5 80 46 9 18 44.1 45 24 M8 x 1.25 10 86 6.9 9.5 16 25 25, 50 11 6.5 25 40 8.5 90 54 9
x 0.7 Depth 4.5 22 29 0 38 40 31 125 66 1/4 23.5 82.5 23 67.5 10.5 M4 x 0.7 Depth 4.5 22 29 0 38 40 31 125 66 1/4 23.5 84.5 27.5 M5 x 0.8 Depth 5 24 28 2 43 48 36 112 100 76 3/8 50.5 27.5 68.5 M5 x 0.8 Depth 5 24 28 2 43 48 36 132 76 3/8 27.5 85.5 16 70.5 3.5 M5 x 0.8 Depth 5 24 28 2 43 48 36 132 76 3/8 27.5 87.5 20.5 M6 x 1 Depth 6 32 42 3 57 52 47 127 98 115 1/2 62.5
Consider q Max. payload, w static moment, e dynamic moment (when stopper collides) when calculating the Max. allowable moment and payload. Evaluate q and w as a (average speed), and e as (collision speed =1.4a). Calculate q (Wmax) from the graph of Max. payload (W1, W2, W3) and calculate w and e (Mmax) from the graph of Max. allowable moment.