Model EVR solenoid valve

  • Product Description

  • Product Model

  • Technical Parameters

  • Product Description:

    ·Model EVR solenoid valve is a direct-operated or servo-operated valve, which is applicable to one direction flow.

    ·Model EVR solenoid valve is used on the liquid, air suction or not vapor piping of a freezer, cold store and air conditioning unit.

    ·The valve seat of Model EVR solenoid valve is well sealed with perfect sealing performance.

    ·Model EVR solenoid valves with various voltage solenoids are available.

    ·Both packed and separated Model EVR solenoid valves are available and it means the valve body could be supplied separately from the solenoid.

  • Product Model:

    Model Connection Type △P(bar) Max.Operating Pressure Kv(㎥/h)
    Flare Welded Min. MOPO LiquidMOP
    EVR3-2 1/4 SAE 1/4 ODF 0.0 31 45 0.16
    EVR3-3 3/8 SAE 3/8 ODF 0.0 0.27
    EVR6-3 3/8 SAE 3/8 ODF 0.05 0.8
    EVR6-4 1/2 SAE 1/2 ODF 0.8
    EVR10-4 1/2 SAE 1/2 ODF 1.9
    EVR10-5 5/8 SAE 5/8 ODF 1.9
    EVR15-5 5/8 SAE 5/8 ODF 0.2 2.6
    EVR15-6 3/4 SAE 3/4 ODF 2.6
    EVR15-7 —— 7/8 ODF 2.6
    EVR20-7 —— 7/8 ODF 5.0
    EVR25-9 —— 10

    1) Kv: The flow rate (m³/h) of water of density 1t/ passing through the solenoid valve under the pressure differential of 100 KPa.

    2) The MOPD of gaseous medium is about 1 bar higher than that of liquid.

    Model Nominal Refrigerating Capacity kW
    Liquid Air Suction Hot Vapor
    R22\R407C R134a R404A\R507 R22\R407C R134a R404A\R507 R22\R407C R134a R404A\R507
    EVR3 5.40 5.00 3.80 —— —— —— 2.0 2.00 2.00
    EVR6 16.10 14.80 11.20 1.80 1.30 1.6 7.4 5.90 6.00
    EVR10 38.20 35.30 26.70 4.30 3.10 3.90 17.50 13.90 14.30
    EVR15 52.30 48.30 36.50 5.90 4.20 5.30 24.00 19.00 19.60
    EVR20 101.0 92.80 70.30 11.40 8.10 10.20 46.20 36.60 37.70
    EVR25 201.0 186.0 141.0 22.80 16.30 20.40 92.30 73.20 75.30

    The working condition the nominal refrigerating capacity of liquid and air suction is as follows:


    Evaporation Temperature: te = -10℃;

    Liquid Temperature before Valve: t1 = +25℃;

    Pressure Drop after Solenoid Valve: △P = 15KPa


    The working condition the nominal refrigerating capacity of hot vapor is as follows:

    Condensation Temperature: tc = +40℃;

    Pressure Drop after Solenoid Valve: △P = 80KPa;

    Hot Vapor Temperature: th = +65℃;

            Liquid Refrigerant Overcooding: △t = 4K

  • Technical Parameters:

    Applicable Refrigerants: HCFC or HFC(Customer apecified)
    Applicable Medium Temperature: -30℃~+105℃
    Application Ambient Temperature of Solenoid -40℃~+65℃
    Standard Voltage of Solenoid AC 380V.AC 220V/50Hz(Customer design is available)
    Allowable Voltage Fluctuation for Solenoid +10%~15%
    Connection of Solenoid Standard 3-wire insert connector


    1、solenoid(10W); 2、return spring; 3、iron core component(modified PTFE seal)(imported stainless magnet steel); 4、O-ring(CR); 5、valve bonnet; 6、sealing(CR); 7、valve core(movable)(modified PTFE compound diaphragm); 8、baffle; 9、valve body; 10、cap; 11、fixing screws(4); 12、label; 13、copper tube; 14、steel washer

    Model EVR solenoid valve is designed in accordance with following two operating principles:

    1. Direct-operated Solenoid Valve

        Model EVR 3 is a direct-operated solenoid valve. When the iron core component (3) moves upward by the magnetic force of the solenoid, the solenoid valve will open directly, that is, the solenoid valve could be operated under zero pressure differential.

       The sealing valve core (modified PTFE) is directly, mounted on the iron core component

       The inlet pressure is applied onto the iron core from the upper side. Therefore, the joint action of the inlet pressure, spring force and self-gravity of the iron core component will close the valve when the solenoid is not energized.

    2. Servo-operated Solenoid Valve

       Model EVR 10/15/20 are servo-operated solenoid valves with movable valve core (7). The guide valve core diaphragm (modified PTFE compound diaphragm) are mounted on the valve core.

       The main valve port and guide valve port closed when the solenoid is not energized. The joint action of the self-gravity of the iron core component, spring force and the pressure differential between inlet and outlet will close valve.

       When the solenoid is energized, the iron core component (3) moves upward to open the guide valve on the diaphragm. The moment the pressure on the diaphragm is decreased and the space above the diaphragm is communicated with the outlet of the valve. The pressure differential between the inlet and outlet moves the diaphragm upward and open. Therefore it needs a minimum pressure differential to open the valve and maintain the opening.

       When the power is cut off, the guide valve on the diaphragm is closed and the balance hole on the diaphragm will the pressure rise as the same as the inlet pressure. Consequently the diaphragm will move downward to close the main valve port.