Table of Contents 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
www.stevenengineering.com I FOR FURTHER TECHNICAL DETAILS ON THIS PRODUCT, REQUEST CATALOG REFERENCE E210 & N320 1.123 LINEAR ACTUATOR: COMPACT CYLINDER SERIES NCQ2/CQ2 A C C E S S O R I E S ( M M ) S E R I E S N C Q 2 / C Q 2 S I N G L E R O D C L E V I S ( R O D E Y E ) A C C E S S O R I E S ( M M ) S E R I E S N C Q 2 / C Q 2 D O U B L E R O D C L E V I S ( R O D E Y E ) CQ2 SINGLE ROD
Conduit P type Q R S Q R S T Q R Q R 1 2 1/8, 1/4 1/4, 3/8 1/4, 3/8 64.5 67 69.5 69.5 34 45 50 53 52.5 55 57.5 57.5 99.5 102 104.5 104.5 36 47 52 55 68.5 71 73.5 73.5 77 91 96 47.5 50 52.5 52.5 36 47 52 55 23 25.5 28 28 42 53.5 58 61 3 1/2 101.5 23 Series VX2 For Air mm Dimensions/Body Material: Resin Y Y Grommet (with surge voltage suppressor) Grommet W W U U X X U1 U1 X1 X1 z300 Q F D
T I O N A C C E S S O R I E S S E R I E S N C Q 2 / C Q 2 C O I L S C R A P E R X C 3 5 O P T I O N Air XC35 D (N)CQ2 Bore Size 32, 40, 50, 63, 80, 100 Fluid S T R O K E M O U N T I N G B O R E S I Z E Thread Pitch M3 0.5 A C C E S S O R I E S M O U N T I N G K I T S S E R I E S N C Q 2 / C Q 2 A C C E S S O R I E S M O U N T I N G B O L T F O R S E R I E S N C Q 2 / C Q 2 M5 0.8 M6 1 M8
Body material: AIuminum, C37, Stainless steel Body material: Resin q q w w e e r r t t y y IN OUT IN OUT u u Component Parts Component Parts No. Description No.
How to OrderValves (With two mounting screws) SY 3 5 1 0 0 1 q w r e t y u i o !0 !1 Base mounted q Series !
Body material: Aluminum, C37, Stainless steel Body material: Resin q q t t w w y u i y u i e e r r o o IN OUT IN OUT !0 !0 Component Parts Component Parts No.
In the case of liquids: P Q = 53 Kv (9) G Q : Flow rate [L/min] Kv : Flow coefficient [m3/h] DP : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 232 Kv P (P2 + 0.1) (10) Q : Flow rate [kg/h] Kv : Flow coefficient [m3/h] DP : Pressure difference [MPa] P1 : Upstream pressure [MPa]: DP = P1 P2 P2 : Downstream pressure [MPa] 57 Solenoid
3 IN(P1) r OUT(P2) VXB B A OUT(P2) A B VXE IN(P1) C C IN(P1) e e q w VXP q w VXD2A VXD2B VXR !4 i VXH !4 u u !0 VXF A B !1 i VX3 !2 !0 !2 VXA o !1 t !3 o OUT (P2) w IN(P1) !3 B r OUT(P2) A r IN (P1) e C e IN(P1) C q w q VXD2E, 2F, 2G VXD2C, 2D Component Parts Operation
L Approx. 280 Q L M Approx. 300 G1/2 N f N B OUT IN 1 E C F H 2-P Port size D 2 x 8.5 a b e Conduit terminal: T d K J (Q) L A (Q) L DIN terminal: D 32 (44) N N G 1/2 G1/2 Cable 6 to 12 E R (R) (mm) Grommet Conduit DIN terminal Conduit terminal Electrical entry (DC, AC) Port size P Model N A B C D E F H J K L M Q 19.5 19.5 22.5 N 64 70.5 84.5 Q 40 40 43 N 63.5 70 84 Q 58.5 58.5 61.5 R 46.5
Auto switch mounting brackets are not required. w q w e q Note 1) When a compact auto switch is mounted on 3 sides (A, B, and C above) other than the port side of each cylinder series with 32 to 50, auto switch mounting brackets above are required. Order them separately from cylinders.
In the case of liquid: P Q = 53Kv (9) G Q : Flow rate [L/min] Kv : Flow coefficient [m3/h] P : Pressure difference [MPa] G : Relative density [water = 1] In the case of saturated aqueous vapor: Q = 232Kv P(P2 + 0.1) (10) Q : Flow rate [kg/h] Kv : Flow coefficient [m3/h] P : Pressure difference [MPa] P1 : Upstream pressure [MPa]: P = P1 P2 P2 : Downstream pressure [MPa] 230 Solenoid Valve
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] 28 Solenoid Valve
Clip E stop ring Solenoid coil Solenoid coil q Pull out the clip horizontally in direction q. Remove the E stop ring in direction q. q When doing this, do not apply twisting or torsion to the clip. Otherwise, the clip may be deformed. If the clip is deformed by mistake, replace it with a new one.
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] 11 Solenoid
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
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
* O . b 3 z o 1 0 0 6 o u o q ; N q * E 9 . " o . 5 " > 2 4 ' ;l l.:, . . o o o 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 TOTAL ENERGY ( nrbtc) (Tho!ends) Note: Minimum impact velocity tor PM nlodels it 4 itr/*c. 9k**k &"bs*rbers Non-Adjustable Hydraulic Series 49rc.
3 q u @9 #0 #2e y!6#1@8t!2w#3!5 !7 !8 !9 @0 @1 @6 @7 i o 80, 100 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 !1 !0 14B @2@3N@4@5 Locking at rod end Manual release non-locking type: L Material Note Component Parts No. q w e r t y u i o !0 !1 !2 !3 No. !7 !8 !