NW96-EN

Solenoid valves manifold 6 Series 3000 - STAND ALONE - Version 3100 (10mm) - Self feeding Overalldimensionsand technical informationareprovidedsolely for informativepurposesandmaybemodifiedwithoutnotice AIR DISTRIBUTION Solenoid-Spring / Solenoid-Differential - Version 3100 (10mm) Coding: 3115. 52.00.F.C F FUNCTION 36 = Solenoid-Differential 39 = Solenoid-Spring C CONNECTIONS 02 = H 90° SPEED-UP connector 24VDC 82 = M8 SPEED-UP connector 24VDC Operational characteristics “Operating time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001” Coding example Fluid Flow rate at 6 bar with ∆p=1(Nl/min) Response time according to ISO 12238, activation time (ms) Response time according to ISO 12238, deactivation time (ms) Working pressure (bar) Temperature °C Weight (g) 3115.52.00.39. C Solenoid-Spring Filtered air. No lubrication needed, if applied it shall be continuous 160 10 20 2,5 ... 7 -5 ... +50 49 3115.52.00.36. C Solenoid-Differential 15 SHORT FUNCTION CODE “A” (39) SHORT FUNCTION CODE “B” (36) L14 = Manual over ride - side 14 Solenoid-Solenoid - Version 3100 (10mm) Coding: 3115. 52.00.35.C C CONNECTION 02 = H 90° SPEED-UP connector 24VDC 82 = M8 SPEED-UP connector 24VDC Operational characteristics “Operating time of pneumatic directional control valves or moving parts, logic devices were measured in accordance to ISO 12238:2001” Coding example Fluid Flow rate at 6 bar with ∆p=1(Nl/min) Response time according to ISO 12238, activation time (ms) Response time according to ISO 12238, deactivation time (ms) Working pressure (bar) Temperature °C Weight (g) 3115.52.00.35. C Solenoid-Solenoid Filtered air. No lubrication needed, if applied it shall be continuous 160 10 20 2,5 ... 7 -5 ... +50 59 SHORT FUNCTION CODE “C” L12 = Manual over ride - side 12 L14 = Manual over ride - side 14 L14 4 = +24 VDC 3 = GND M8 74.7 27 22.5 14.5 Ø3.2 10.2 M5 M5 31.5 M8x1 - 6g 4 2 M5 3 5 M5 9.8 C = 82 C = 02 1 = N.C. 1 M5 87.4 27 22.5 Ø3.2 10.2 M5 31.5 14.5 4 = +24 VDC 3 = GND M8 M8x1 - 6g 3 M5 M5 5 M5 L14 M5 4 2 L12 9.8 C = 02 C = 82 1 1 = N.C.

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