Vacuum Unit , Description (Pressure Switch for Vacuum) p. 22 Pressure Switch for Vacuum with Energy Saving Function Specifications, Internal Circuit and Wiring Example p. 23 Port Layout Standard Products p. 24 Option -D p. 26 Option -L p. 29 Construction p. 31 Replacement Parts for Single Unit / How to Order p. 32 Exploded View of Manifold p. 33 Dimensions p. 35 Electrical Wiring Specifications
P. 92 EB P EA Type 23SA Stacking type EX510 gateway type Can be used with a serial transmission system. 10-SY920 P. 97 Type 60 10-SY360 10-SY560 10-SY760 Cassette type Individual wiring Size and weight reduced by eliminating the manifold base. P. 104 R + + P Standard Option Made to order (Refer to page Made to Order.)
P. 142 Body material: CAC408 . P. 146 For Heated water/High temperature oil Body material: C37, Stainless steel . P. 148 Body material: CAC408 . P. 153 Replacement Parts . P. 155 Glossary of Terms . P. 156 Solenoid Valve Flow Rate Characteristics . P. 157 Flow Rate Characteristics . P. 162 Specific Product Precautions .
M12 connector pin number 1(P) 1(P) Safety limit switch Made by Rockwell Automation Symbol Pin Numbers (Built-in switch 3N.C.)
P P P P P P P P SY5000 P P P P P P P P SY5000 P P P P C2 C3 C4 C6 C8 CM N1 N3 N7 N9 CM 2 One-touch fitting 1/8" One-touch fitting 3.2 One-touch fitting 5/32" One-touch fitting P P P P P P P P P P P P P P Straight Elbow Straight Elbow 4 One-touch fitting 1/4" One-touch fitting 6 One-touch fitting 5/16" One-touch fitting 8 One-touch fitting Straight port, mixed sizes LN3 LN7 LN9
9 Water-cooled refrigeration . p. 11 Cooling Capacity. p. 13 Pump Capacity. p. 13 Dimensions. . p. 14 Parts Description. p. 14 Recommended External Piping Flow. . p. 16 Cable Specifications. p. 16 Operation Display Panel. . p. 17 Alarm. p. 17 Communication Functions. p. 18 Options. p. 19 Optional Accessories. . p. 20 VCooling Capacity Calculation Required Cooling Capacity Calculation. p.
PP2 QQ LH RR1 SS RR2 SS H NH NC Auto switch magnet holder G G TT UU TT UU P (Port) P (Hexagon socket head taper plug) 2-P (Hexagon socket head taper plug) Cushion needle GB MW A N 2-P (Hexagon socket head taper plug) Z + Stroke 2 x 2-J depth K P (Port) P (Hexagon socket head taper plug) XX (WW) XX (WW) P (Hexagon socket head taper plug) P (Port) VV VV 2-ZZ (Hexagon socket head taper plug
Do not carry a cylinder by the auto switch lead wires. Never carry a cylinder by its lead wires. This may not only cause broken lead wires, but it may cause internal elements of the switch to be damaged by the stress. 3. Mount switches using the proper tightening torque.
(Values at the initial period) 1 (P) 5 (R1) 3 (R2) 1 (P) 5 (R1) 3 (R2) 3 position pressure center (A) 4 (B) 2 1 (P) 5 (R1) 3 (R2) 3-10-7 8 Series VQ7-6 DIN Terminal Type 2 position single : VQ7-6-FG-S single (Reverse pressure): VQ7-6-YZ-S 120.5 120.5 68.5 52 68.5 Mounting hole 2-6.5 50 50 42.5 42.5 25 25 13 (A port) 13 (B port) Manual override (R1, R2) 2-3/8 P R2 R1 A B 14 11 50 62 12 9 62
P.4 to P.7 XLAV (With solenoid valve) Particulate free completely cleaned Bellows Seal 105 to 10-6 10-10 10-11 2 XLC Double acting P.8 to P.11 XLCV (With solenoid valve) Manual Electromagnetic Air operated XLF Single acting (N.C.)
P.5-11 It indicates the flow rate measured by a flowmeter. (12) Circulating fluid flow rate P.5-11 It does not include the flow rate in the bypass circuit. (13) Circulating fluid electrical conductivity It indicates the electrical conductivity. P.5-11 (14) CH1 Independent pump operation CH1 pump operates independently while the button is pressed.
R P R 26.6 22 Approx. 300 (Lead wire length) 48.8[51] L1 2-3.5 (For mounting) L2 3.5 Manual override Manual override (Pitch) P = 10.5 Approx. 300 (Lead wire length) 12.5 5 M5 x 0.8 (P, R port) 2-3.5 (For mounting) 48.8[51] P R 26.6 P R 13 22 (Station n) (Station 1) 11 (Pitch) P = 10.5 12.5 4.5 41.5[48.5] + + + + + (Station 1) (Station n) 26.1 A A 13 10 41.5[48.5] (Pitch) P = 10.5 13.5 M3
Series Body size Details 20 30 40 50 60 AF p. 61 AFM AFD p. 71 AR(K) p. 79 AW(K) p. 98 AL p. 89 2 A Modular F.R.L.
Grease pack part number: GR-S-010 (10 g) CS2 Basic (B) P Bore size Stroke 20 25 20 CM2B P P (Head side pressure port) (Head side pressure port) P P (Rod side pressure port) (Rod side pressure port) Effective thread length FL Width across flats B2 Width across flats B1 H1 H2 32 to 40 P Width across flats KA E (Head side pressure port) I G G NA D Q MM NN AL N N F K H A P QY NA ZZ + Stroke S
Series VQ1000 Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Plug Lead Plug-in Cassette P. 2-4-12 P. 2-4-14 P/J kit Series VQ0 P R SMC P. 2-4-38 P. 2-4-42 P. 2-4-46 P kit Series VQ1000 P. 2-4-38 P. 2-4-42 P. 2-4-46 P kit Series VQ2000 P. 2-4-38 P. 2-4-42 P. 2-4-46
Code D33 SST Sensor Dual Module Code D44 Namur Sensor Dual Module Code I02 P+F NJ2-12GK-SN Code I09 P+F NCB2-12GM35-N0 Code I32 Omron E2E-X2Y1 Code I41 P+F NJ4-12GK-SN Code I45 P+F NJ3-18GK-S1N Code I56 IFC 2002-ARKG/UP Code K05 Omron D2VW-5 Code K06 Omron D2VW-01 Code B06 Omron D2VW-01 (ND9100F/P, ND9200F/P and ND9300F/P only) 2.5 Recycling and disposal WARNING (ND9000, ND7000): During automatic
MY1B P . 8-11-16 MY1M P . 8-11-40 MY1C P . 8-11-56 MY1H P . 8-11-72 MY1CW P . 8-12-14 MY1MW P . 8-12-14 Stroke adjusting unit For applicable symbol, refer to the table below. Note) For MY1H, the parts are packed together when shipped. Stroke Note) Indicates the stroke prior to mounting the stroke adjusting unit.
Av = Q .(8) $P Av : Flow coefficient [m2] Q : Flow rate [m3/s] $P : Pressure differential [Pa] : Fluid density [kg/m3] (3) Formula for flow rate Described by the practical units. Also, the flow-rate characteristics are shown in Graph (2).
T nuts provided by P/A.
The series and their stopping accuracy are as follows: CLJ series (p.3.1-10), CLM2 series (p.3.1-18), CLG1 (p.3.127), CLA series (p.3.1-35), and CL1 series (p.3.1-50). wWhen kinetic energy acts upon the cylinder, such as when effecting an intermediate stop: There are constraints in terms of the allowable kinetic energy that can be applied to the cylinder in a locked state.