One-touch Fittings L2 L2 M2 M2 Release button dimensions X X Y Applicable tubing O.D.: 4, 6 Male Run Tee: KQ2Y-G (Gasket seal) Connection thread M Model H (Width across flats) 2 x Applicable tubing Effective area [mm2] Min. port size Release button dimensions D2 L1 L2 L3 A M Applicable tubing O.D.
CHEMI-CON 16 4 16. 16.2 (1) (2) 16.3 16.4 (LE-S5-LE-S6-LE-S7-LE-S8-)3000[r/min] 16 5 16. 16.5 IP65 (1) 2) 1) 3) 1) 2) 3) 4) 1) 2) 1) 4) 2) (2) M2 0.1Nm : M2 : 0.1Nm M2 0.1Nm : M2 : 0.2Nm M2 0.2Nm : M2 : 0.2Nm (3) (O)(O) (O) 16 6 1 (). 2 2 . 4 3 721-2105/026-000(WAGO) . 4 4 . 5 4.1 . 5 4.1.1 . 5 4.1.2 . 5 4.1.3 . 5 4.2 . 6 5 () . 6 6 () . 7 7 PLCA () . 9 7.1 . 9 7.1.1
In the case of liquid: $P Q = 1.9 x 106 Av .(9) G Q : Flow rate [L/min] Av : Flow coefficient [m2] $P : Pressure differential [MPa] G : Specific gravity [water = 1] In the case of saturated steam: Q = 8.3 x 106 Av $P (P2 + 0.1) .(10) Q : Flow rate [kg/h] Av : Flow coefficient [m2] $P : Pressure differential [MPa] P1 : Upstream pressure [MPa]: $P = P1 P2 P2 : Downstream pressure [MPa] 31
Y g: Gravitational acceleration, a: Average speed 24 Series MY1W Maximum Allowable Moment/Maximum Load Weight Maximum allowable moment Maximum load weight (kg) m1 Maximum allowable moment (Nm) M1 Bore size (mm) Model M2 M3 m2 m3 Select the moment from within the range of operating limits shown in the graphs.
CY1H15 CY1HT32 CY1HT25 CY1H25 64 56 (Nm) 50 40 30 50 40 30 20 28 26 M1 M2 M3 M2 M3 M1 Model Model 20 CY1H20 CY1H15 16 Moment (Nm) Moment (Nm) CY1H10 CY1H25 1.5 2.5 1.5 28 26 28 13 10 10 CY1H15 CY1HT25 10 16 10 56 85 56 2 2.5 3 4 5 2 3 4 5 CY1H20 CY1HT32 13 16 13 64 96 64 CY1H10 CY1H10 1.5 1 M3 1 0.5 0.5 70 100 300 500 1000 70 100 300 500 1000 Piston speed (mm/s) Piston speed (mm/s) M1 M2
(mm) Model H Bracket mounting dimensions Q Weight (g) 1(P) R 2(A) 2(A) R 3(R)* L1 L2 L3 L4 L5 L6 M1 M2 Bracket assembly no.
(inch) Note) Weight (g) 3-Applicable tubing M1 M2 D L1 L2 P Q Model KJU01-00 KJU03-00 KJU07-00 1 8 28.5 27.9 12.9 12.9 7.6 12.7 12.7 2.6 3 5 8.4 9.3 12 19 18.3 22.7 8.4 9.3 12 5.8 6.3 5 32 1 4 13.6 Note) D: Max. diameter 13.8 32.3 K M H Different Diameter. Union Y: KJU D Applicable tubing O.D.
CHEMI-CON 13 4 13. 13.2 (1) (2) 13.3 13.4 (LE-S5-LE-S6-LE-S7-LE-S8-)3000[r/min] 13 5 13. 13.5 IP65 (1) 2) 1) 3) 1) 2) 3) 4) 1) 2) 1) 4) 2) (2) M2 0.1Nm : M2 : 0.1Nm M2 0.2Nm : M2 : 0.2Nm M2 0.2Nm : M2 : 0.2Nm (3) (O)(O) (O) 13 6 1 . 2 1.1 . 2 1.2 . 3 2 . 4 3 (WAGO) . 4 4 AC . 5 5 . 6 6 . 7 6.1 . 7 6.1.1 . 7 6.1.2 . 7 6.1.3 . 7 6.2 . 8 7 () . 8 8 EC . 9 8.1 EC
x 0.4 x 13 2 2 2 2 2 2 2 4 4 M2 x 0.4 x 23 M2 x 0.4 x 48 M2 x 0.4 x 53 M2.5 x 0.45 x 41 M2.5 x 0.45 x 17 M2.5 x 0.45 x 21 M2.5 x 0.45 x 66 M2.5 x 0.45 x 70 w Common and port exhaust style for nozzle size 18, 20 Individual exhaust style for nozzle size 18, 20 For vacuum switch and adapter A For nozzle size 10, 13, 15 For nozzle size 18, 20 For nozzle size 10, 13, 15 For nozzle size 18, 20
In the case of liquids: DP Q = 1.9 x 106Av (9) G Q : Flow rate [L/min] Av : Flow coefficient [m2] DP : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av DP(P2 + 0.1) (10) Q : Flow rate [kg/h] Av : Flow coefficient [m2] DP : Pressure difference [MPa] P1 : Upstream pressure [MPa]: DP = P1 P2 P2 : Downstream pressure [MPa] 11
No.0.8 L1 L3 L2 L3 (L4) No.0.8 H 2 H 2 H 2 L1 M1 M1 M1 D Pad side Pad side Pad side ZP2V-A01ZP2V-AN1ZP2V-AG1ZP2V-A5ZP2V-A8Vacuum generator side D Vacuum generator side M2 M2 L3 L2 H 1 Vacuum generator side L2 L3 3 H 1 M2 H 1 (L4) (L4) No.0.8 No.0.8 (L4) No.0.8 H 2 H 2 L1 L1 L1 H 2 M1 M1 M1 Pad side Pad side Pad side ZP2V-B01ZP2V-BN1ZP2V-BG1ZP2V-B5ZP2V-B61 The place at the vacuum generator
Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3
Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3
Body A 1 Brass Electroless nickel plated Body B 2 Brass Electroless nickel plated Valve 3 Aluminum O-ring 4 HNBR Spring 5 Stainless steel Pad side Element 6 BC ZP2V-AZP2V-BGasket 7 NBR + Stainless steel 63 Series ZP2V Vacuum Saving Valve Dimensions Vacuum generator side Vacuum generator side M2 M2 H1 H1 Vacuum generator side L2 L1 L3 L2 M2 H1 L2 L33 (L4) (L4) No.0.8 No.0.8 L1 L3 L2 L3
(Nm) ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) Pitch moment M1/M1e 10 20 40 Roll moment M2 1.2 2.4 4.8 Yaw moment M3/M3e 3.0 6.0 12 MI W S 40 Model 20 30 YES 20 5 4 3 10 ML2B25 ML2B32 ML2B40 CEP1 If speed or load changes, stopping time may vary and positioning accuracy may be compromised.
(Nm) ML2B/M1 (Pitch moment) ML2B/M2 (Roll moment) ML2B/M3 (Yaw moment) Pitch moment M1/M1e 10 20 40 Roll moment M2 1.2 2.4 4.8 Yaw moment M3/M3e 3.0 6.0 12 MI W S 40 Model 20 30 YES 20 5 4 3 10 ML2B25 ML2B32 ML2B40 CEP1 If speed or load changes, stopping time may vary and positioning accuracy may be compromised.
Pitch moment Roll moment NO NO M1 = W1 x L1 M2 = W3 x L3 L1 L3 YES The product is operatable at 14.5 mT or less magnetic field ? Is there any influence from magnetic fields ? (Refer to Caution on Handling on pages 706 and 707.) M1 M2 YES W1 NO W3 NO M1 = W4 x L3 M2 = W1 x L2 Do not use it since it will result in a miscount. L3 L2 YES Is water, oil, burr or dust present?
In the case of liquid: P Q = 1.9 x 106Av (9) G Q : Flow rate [l/min] Av : Flow coefficient [m2] P : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av P(P2 + 0.1) (10) Q : Flow rate [m3/s] Av : Flow coefficient [m2] P : Pressure difference [Pa] P1 : Relative density [MPa]: P = P1 P2 P2 : Relative density [MPa] Front matter 4
In the case of liquid: P Q = 1.9 x 106Av (9) G Q : Flow rate [l/min] Av : Flow coefficient [m2] P : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 8.3 x 106Av P(P2 + 0.1) (10) Q : Flow rate [m3/s] Av : Flow coefficient [m2] P : Pressure difference [Pa] P1 : Relative density [MPa]: P = P1 P2 P2 : Relative density [MPa] Front matter 4
Replacement pilot valve for the JSY3000/5000 b-side pilot valve 2 Pilot valve mounting screw (M2 x 16.5) Tightening torque: 0.15 Nm B tight flat head screw (M1.7) Tightening torque: 0.12 Nm 2 Pilot valve mounting screw (M2 x 25) Tightening torque: 0.15 Nm Loosen B tight flat head screw to remove the pilot cover in the direction indicated by the arrow q.