The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils
PROCESS VALVE, 2 PORT PROCESS VALVE, J11, 700 lb
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants
CL Description q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !8 !9 @0 @1 @2 @3 @4 @5 No. Description q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !8 !
: 10 or more The mean q Non-unidirectional airflow: at least two locations NL = A x 64/(10M) 0.5 q Number of sampling locations: 2 to 9 95% UCL of the mean and the mean of the averages w Number of sampling locations: 1, or 10 or more The mean Derive it from the area of the cleanroom or clean air controlled space.
: 10 or more The mean q Non-unidirectional airflow: at least two locations NL = A x 64/(10M) 0.5 q Number of sampling locations: 2 to 9 95% UCL of the mean and the mean of the averages w Number of sampling locations: 1, or 10 or more The mean Derive it from the area of the cleanroom or clean air controlled space.
: 10 or more The mean q Non-unidirectional airflow: at least two locations NL = A x 64/(10M) 0.5 q Number of sampling locations: 2 to 9 95% UCL of the mean and the mean of the averages w Number of sampling locations: 1, or 10 or more The mean Derive it from the area of the cleanroom or clean air controlled space.
SYJA 2(A) 2(A) Standard VZA (P)1 3(R) (P)1 3(R) i VFA 2(A) 2(A) 2(A) 3(R) VFRA o For vacuum (P)1 3(R) (P)1 3(R) VPA4 SYJA X VZA 1(P) VTA For vacuum u y t r e w q VGA VPA VPA VPA3 i 2(A) 3(R) o X Component Parts No.
3 o q q o !0 !1 !0 !1 !2 w !2 w !3 !4 !5 With reducer Tube extensions e t y r i u q o !1 !0 !2 w Component parts No.
Construction VHS20/30 VHS40/40-06/50 y i u w w t t r q IN OUT OUT IN q e o EXH. EXH. VM Component Parts No.
Drain outlet Evaporation thermometer Drain separator Volume control valve Capillary tube Compressor for refrigeration Pressure switch Condenser Fan motor Circuit for air, refrigerant 6 8 Series IDU E Dimensions IDU3E to 6E B E D A Q Illuminated switch Evaporation thermometer Ventilation air outlet Compressed air inlet F G Port size Compressed air outlet C Ventilation direction Ventilation
0 u #0 $2 #6 t #8 q y $0 $1 20 r !1 e @2 #7 #3 #1 !2 32 w 50, 63, 80 @3 Double acting (DL, DM) !3 !5 #6 o @5 i @1 @4 @6 !0 @7 @9 !6 t i !7 q !8 #8 $1 Single acting (TL, TM) Double acting built-in spring (BL, BM) $0 y r !1 #7 e #4 #7 !
5 u q y e t !2 w i A CJ1 CJP CJ2 A Cylinder tube sectional view A-A !0 o CM2 CG1 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 Component Parts MB No. q w e r t y u i o !0 !1 No.
Calculation: (Example 1) MUB40-15S(T) Basic weight 0.62 kg RQ (Example 2) MUC50-5S(T) Basic weight 1.06 Additional weight (Mounting bracket) 0.40 1.06 + 0.40 = 1.46 kg MU Construction DSpring return -X B 20Data B section MU25 Spring extend B A A section MU25 Component Parts No. q w e r t y u i o !0 !1 !2 !3 !4 !5 !6 !7 !