Overall dimensions and technical information are provided solely for informative purposes and may be modified without notice Solenoid valves manifold ISO 15407-2 Series 2700 EVO 1 Air distribution 1 | 135 ►Solenoid-Spring monitored redundant (V2S) Technical characteristics Fluid Filtered air. No lubrication needed, if applied it shall be continuous Recommended purity class [5:4:4] according to ISO 8573-1:2010 Responce time according to ISO 12238, deactivation time (ms) 70 Responce time according to ISO 12238, activation time (ms) 25 Flow rate from 1 to 2 at 6 bar with Δp=1 (NI/min) 1000 Flow rate from 1 to 4 at 6 bar with Δp=1 (NI/min) 500 Flow rate from 2 to 3 at 6 bar with Δp=1 (NI/min) 500 Flow rate from 4 to 5 at 6 bar with Δp=1 (NI/min) 1000 Flow rate from 2 to 3 at 6 bar with free exhaust (NI/min) 900 Flow rate from 4 to 5 at 6 bar with free exhaust (NI/min) 1700 Temperature °C -10 ... +50 Working pressure (bar) From vacuum to 10 (external feeding version) 2 ... 10 (self feeding version) Minimum pilot pressure (bar) 2 Function 5/2 N.C. Monostable Noise level (dB) 75 -Double monostable with mechanical spring return and proximity sensor -Double redundant channel which guarantees that a pneumatic circuit is safely exhausted in case of failure of one of the valves -Safety component according to annex V of 2006/42/EC directive -Diagnostic system that monitors the state of the valve: Sensor ON: Valve at rest Sensor OFF: Valve activated Coding: 27V2SPST P PILOTING A = Self feeding E = External feeding S SENSOR M8 = M8x1 Proximity Sensor M12 = M12x1 Proximity Sensor T VOLTAGE 02 = 24 V DC 08 = 24 V DC 1 W Weight 1786 g The "Activations time" values, are valid only for the 24 V DC 2,3W versions Note: Overall noise level depends on the final application of the device Note: The noise level indicated on the table is obtained without using silencers 2 1 3 4 5 2 1 3 4 5 2 1 3 4 5 2 1 3 4 5 14 14 54.4 36.7 9.5 M3 0.8 19 19 0.8 136 135.7 46.5 46.5 51.2 11.5 153 33 G1/4” G1/4” 2 M12 M8 38.3 S = M12 3 6 38.3 4 2 51.2 Sensor Out Pin-out Wiring diagram M8 Male 3P type A N.O. M12 Male 3P type A N.O. Pin 1= Brown - Pin 4= Black - Pin 3= Blue Electrical characteristics: Electropilot Electropilot Series 300 Size 15 mm Electrical connection Earth Faston / Series 300 connectors Solenoid coils features 24 V DC 2.3 W 24 V DC 1 W Supply voltage tolerance -5% ... 10% Manual override Integrated Yes Protection degree IP65 (with mounted connector) Note: Refer to the Pneumax general catalogue for detailed information regarding the electropilot Electrical characteristics: Proximity sensor Type Single channel Single channel Thread M8X1 M12X1 Electrical design PNP PNP Output function N.O. N.O. Operating voltage 10 … 30 VDC 10 … 30 VDC Current consumption (mA) < 20 < 20 Isolating class III III Display Switching status 4x90° Yellow LEDs Switching status 4x90° Yellow LEDs Protection degree IP65 (with mounted connector) IP65 (with mounted connector) Note: Manufacturer and model of proximity sensors could be changed at the discretion of Pneumax S.p.A. Safety characteristics Standards compliancies EN ISO 13849-1:2015 EN ISO 13849-2:2012 Performed Safety Function Interruption of supply and discharge of a pneumatic circuit connected to port 4 Sensor feedback Valve at REST ON Valve ACTIVATED OFF MTTFd Sensor Single Channel M8 1088 years Single Channel M12 932 years Performance Level (PL) Up to PL=e Category Up to 4 B10d 630.000 cicli (referred to a single valve) Note B10d: General Procedures for assessing pneumatic component reliability by testing performed in accordance with ISO 19973-1, Pneumatic fluid power - Assessment of component reliability by testing - Part 1: General Procedures. Reliability and lifetime of pneumatic valves assessed in accordance with ISO 19973-2: Pneumatic fluid power – Assessment of component reliability by testing – Part 2: Directional control valves. Activities regarding the identification of the safety function, the estimation of the required reliability level (e.g. estimation of the PLr according to EN ISO 13849-1), the design and the production of the related safety circuit, its verification and validation are responsibilities of the operator who uses the device in its final application. The choice of the category and the satisfaction of its requirements according to EN ISO 13849-1 is in charge of the end-user who integrates the device in its final application while considering the final configuration of the safety circuit. The diagnostic coverage value guaranteed by the sensor must be calculated by the end-user in function of the final configuration of the safety circuit (e.g. in function of the PLC for safety design which controls the solenoid valve and acquires the state of the sensor). The estimation of the diagnostic coverage must satisfy the requirements of EN ISO 13849-1. According to EN ISO 13849-1, T10D value must be calculated by the enduser in function of the annual operation number in which the device will be subjected to; in any case, the device must be substituted every 20 years.
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