Solenoid valve Types EVR 2 - EVR 40
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1 Data sheet Solenoid valve s EVR 2 - EVR 40 EVR is a direct or servo operated solenoid valve for liquid, suction, and hot gas lines with HCFC and HFC refrigerants. EVR valves are supplied complete or as separate components, i.e. valve body, coil and flanges, if required, can be ordered separately. Features y A complete range of solenoid valves for refrigeration, freezing and air conditioning systems y Normally closed () and normally open (NO) versions available y AC and DC coils are interchangeable on all valve body versions y Use with any fluorinated refrigerant y Designed for media temperatures up to 220 F y Flare connections up to in y Solder connections up to 2 in y Solder versions have extended connections; there is no need to dismantle the valve when soldering Approvals UL listed, file MH 648 Note: These approvals are only recognized when one of the EVR series of solenoid valves found in this leaflet is combined with a GP general purpose coil. DCS (rja) DKRCC.PD.BB0.A9.22
2 Table of contents Technical data...2 Rated capacity [kw]... Ordering...4 Capacity, Liquid...8 Capacity, Suction vapor... 0 Capacity, Hot gas... Identification... 6 Design / Function... 8 Dimensions and weights Spare parts... 2 Technical data Refrigerant R22/R40C, R404A/R0, R4a, R40A, R2. For other refrigerants, please contact. Temperature of medium: F Maximum 26 F during defrosting Maximum working pressure EVR 2 EVR 8: MWP = 6 psig EVR 0: MWP = 00 psig EVR EVR 40: MWP = 460 psig Enclosure of coil ~ NEMA 2 or ~ NEMA 4 Valve type Minimum Opening differential pressure Δp [psi] Maximum (= MOPD) liquid 2) Medium temperature Maximum working pressure MWP C v value ) AC DC [ F] [psig] [gal/min] EVR EVR EVR EVR ) EVR EVR ) EVR ) EVR EVR ) EVR ) EVR / 9 (t F - 2) = t 2 C in = 2.4 mm EVR EVR ) C v value is the water flow in [gal/min] at a pressure drop across valve Δp = psi. ρ = 0 lbs/gal 2) MOPD (Max. Opening Pressure Differential) for media in gas form is approximately 4 psi greater ) EVR (NO): 00 psig 4) EVR (NO): 2 psig 2 DKRCC.PD.BB0.A9.22
3 Rated capacities [TR] R22/R40C R4a R404A/R0 psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw in = 2.4 mm US gal/min = 0.86 m /h Liquid EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR Suction vapour EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR Hot gas EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR ) Rated liquid and suction vapor capacity are based on: Evaporating temperature t e = 40 F Liquid temperature ahead of valve t l = 00 F Pressure drop Δp across valve with liquid Δp = psi with suction vapor Δp = psi (EVR 2, 2, 40 = 2 psi) Rated hot gas capacity is based on: Condensing temperature t c = 00 F Hot gas temperature t h = 40 F Pressure drop across valve Δp = psi DKRCC.PD.BB0.A9.22
4 Ordering EVR solder ODF connections, Normally Closed () - separate valve bodies Connection [in] Port size [in] Manual stem C v value [gal/min] Code nos. valve body excl. coil EVR 2 / 4 / 2 No F00 EVR / 4 No F0 No F EVR 4 / 2 No F0 / 64 No F / 64 Yes F6 EVR 6 / 2 / 64 No F62 / 2 / 64 No F44 / 64 No F / 2 / 6 No. 02F2 EVR 8 / 2 / 6 Yes. 02F48 / 6 No. 02F22 No F2 / 2 No F66 EVR 0 / 2 Yes F88 No F68 Yes F49 9 / 6 No.0 02F EVR 9 / 6 Yes.0 02F2 9 / 6 No.0 02F0 EVR 8 9 / 2 Yes.9 02F004 psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw in = 2.4 mm US gal/min = 0.86 m /h EVR 20 EVR 22 No.8 02F6 Yes.8 02F / 6 No F4 / 6 Yes F / 6 No F46 4 DKRCC.PD.BB0.A9.22
5 Ordering (continued) EVR solder ODF connections, Normally Closed () - separate valve bodies Connection [in] Port size [in] Manual stem C v value [gal/min] Code nos. valve body excl. coil No F89 EVR 2 Yes F90 No F9 Yes F94 No H6 Yes H psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw in = 2.4 mm US gal/min = 0.86 m /h No H8 EVR 2 Yes H9 2 No H80 2 Yes H8 EVR 40 2 Yes H88 EVR solder ODF connections, Normally Open (NO) - separate valve bodies Connection [in] Port size [in] C v value [gal/min] Code nos. valve body excl. coil EVR 6 / F64 EVR 0 / F69 EVR 9 / F4 psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw in = 2.4 mm US gal/min = 0.86 m /h EVR flare connections, Normally Closed () - separate valve bodies Connection [in] Port size [in] Manual stem C v value [gal/min] Code nos. valve body excl. coil EVR / 4 No F806 EVR No F8 EVR 6 / 64 No F80 psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw in = 2.4 mm US gal/min = 0.86 m /h DKRCC.PD.BB0.A9.22
6 BJ and BX coils for EVR valves Approvals Listed with EVR. MH648 Low Voltage Directive (LVD) 2006/9/EC Ordering Coil type Valve type [in] Wire length [cm] Voltage [V] AC Frequency [Hz] Power consumption [Hz] Code no. Junction box NEMA 2 AKV / EVR EVRH BJ024CS / EVRA EVRAT / EVRS EVRST / F400 BJ20CS / EVM EV220B / EV20B F40 BJ240CS EV2B EV22B EV20B F420 BJ20BS F40 BJ208BS AKVH / EVRH F42 BJ240BS F44 Conduit boss NEMA 4 BX024CS / F402 BX024CS AKV / EVR EVRH / F40 BX024CS / EVRA EVRAT / F404 / EVRS EVRST BX20CS / EVM F42 BX20CS EV220B / F4 BX20CS EV20B F44 EV2B BX20CS EV22B F4 BX240CS EV20B F422 BX240CS F42 BX20BS F4 BX208BS AKVH / EVRH F4 BX240BS F4 Technical data Design In accordance with UL 429 Power supply Alternating current (AC) Permissible voltage variation Alternating current (AC): 0 Hz and 60 Hz: -0% +% 0/60 Hz: +/- 0% Power consumption Alternating current (AC): Inrush: 49 VA; Holding: 28 VA. 6 W Insulation of coil wire Class H according to IEC 8 Connection Junction box or Conduit boss Enclosure. IEC 6029 Junction box NEMA 2 ~ IP 2 2 Conduit boss NEMA 4 ~ IP 4 Ambient temperature -40 F 22 F (-40 C 0 C) 6 DKRCC.PD.BB0.A9.22
7 BG coils for EVR valves (continued) Features y For high temperatures class H insulated wire y Encapsulated coils with long life time y Wide range of coils from 2 V 200 V DC with terminal box IP6 ~ NEMA 6 Approvals Low Voltage Directive (LVD) 2006/9/EC Ordering Valve type Voltage [V] DC Power consumption [W] Code no. EVR 2 to () EVR 2 to 40 (/NO) EVR 6 to (NO) EVRC 0 to EVRA to () EVRA 2 to 40 () EVRAT 0 to () EVRS/EVRST to EVM (/NO) EVR 20 to 22 (/NO) EVRC 20 EVRA 20 EVRAT 20 EVRST F F F F F F F F F F F688 Technical data Design In accordance with VDE 080 Power supply Direct current (DC) Permissible voltage variation -0 % Power consumption 20 W Insulation of coil wire Class H according to IEC 8 Connection Terminal box Enclosure. IEC 29 IP 6 NEMA 6 Ambient temperature -40 F 22 F (-40 C 0 C) DKRCC.PD.BB0.A9.22
8 Capacity Liquid Liquid capacity Q 0 [TR] at a pressure drop across valve Δp [psi] R22/R40C EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR EVR R4a EVR EVR EVR EVR EVR Capacities are based on: Liquid temperature t l = 00 F Evaporating temperature t e = 40 F Superheat temperature (t e + 0 F) = 0 F psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR EVR EVR EVR EVR EVR EVR EVR Correction factors When liquid temperature t l ahead of the expansion valve is other than 00 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. Correction factors for liquid temperature t l t l [ F] Factor DKRCC.PD.BB0.A9.22
9 Capacity Liquid (continued) Liquid capacity Q 0 [TR] at a pressure drop across valve Δp [psi] R404A and R0 EVR EVR EVR EVR EVR Capacities are based on: Liquid temperature t l = 00 F Evaporating temperature t e = 40 F Superheat temperature (t e + 0 F) = 0 F psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR EVR EVR EVR EVR EVR EVR EVR Correction factors When liquid temperature tl ahead of the expansion valve is other than 00 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. Correction factors for liquid temperature t l t l [ F] Factor DKRCC.PD.BB0.A9.22 9
10 Capacity Suction vapor psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR 2 EVR EVR 4 EVR 6 EVR 8 EVR 0 EVR EVR 8 EVR 20 EVR 22 EVR 2 EVR 2 EVR 40 Pressure drop across valve Δp [psi] Suction vapor capacity Q 0 [TR] at evaporating temperature t e [ F] R22/R40C Correction factors When liquid temperature t l ahead of the expansion valve is other than 00 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. The table values refer to evaporator capacity and are given as a function of evaporating temperature te and pressure drop Δp across the valve. Capacities are based on liquid temperature t l = 00 F ahead of the expansion valve and superheat t s = F. For each additional 0 F of superheat, the table capacities must be reduced by 2%. Correction factors for liquid temperature t l t l [ F] Factor DKRCC.PD.BB0.A9.22
11 Capacity Suction vapor (continued) psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR 2 EVR EVR 4 EVR 6 EVR 8 EVR 0 EVR EVR 8 EVR 20 EVR 22 EVR 2 EVR 2 EVR 40 Pressure drop across valve Δp [psi] Suction vapor capacity Q 0 [TR] at evaporating temperature t e [ F] R4a Correction factors When liquid temperature t l ahead of the expansion valve is other than 00 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. The table values refer to evaporator capacity and are given as a function of evaporating temperature te and pressure drop Dp across the valve. Capacities are based on liquid temperature t l = 00 F ahead of the expansion valve and superheat t s = F. For each additional 0 F of superheat, the table capacities must be reduced by 2%. Correction factors for liquid temperature t l t l [ F] Factor DKRCC.PD.BB0.A9.22
12 Capacity Suction vapor (continued) psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR 2 EVR EVR 4 EVR 6 EVR 8 EVR 0 EVR EVR 8 EVR 20 EVR 22 EVR 2 EVR 2 EVR 40 Pressure drop across valve Δp [psi] Suction vapor capacity Q 0 [TR] at evaporating temperature t e [ F] R404A and R Correction factors When liquid temperature t l ahead of the expansion valve is other than 00 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. The table values refer to evaporator capacity and are given as a function of evaporating temperature t e and pressure drop Δp across the valve. Capacities are based on liquid temperature t l = 00 F ahead of the expansion valve and superheat t s = F. For each additional 0 F of superheat, the table capacities must be reduced by 2%. Correction factors for liquid temperature t l t l [ F] Factor DKRCC.PD.BB0.A9.22
13 Capacity Hot gas Pressure drop across valve Δp [psi] Hot gas capacity Q h [TR] Evaporating temp. t e = 40 F, hot gas temp. t h =t c +40 F, subcooling Δt u = 0 F R22/R40C R4a R404A/R0 Condensing temp. t c [ F] Condensing temp. t c [ F] Condensing temp. t c [ F] psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR 2 EVR EVR 4 EVR Correction factors The table values refer to hot gas capacity and are given as a function of condensing temperature t c and pressure drop Δp across the valve. Capacities are based on a hot gas temperature superheated 40 F above condensing temperature (t h = t c + 40 F). For each additional 0 F of superheat above 40 F, the table capacities must be reduced by %. When the valve is used in a hot gas defrost circuit. evaporator temperature affects the capacity. When the evaporator temperature differs from 40 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. Correction factors for t h and t e t e [ F] Factor DKRCC.PD.BB0.A9.22
14 Capacity Hot gas (continued) Pressure drop across valve Δp [psi] Hot gas capacity Q h [TR] Evaporating temp. t e = 40 F, hot gas temp. t h = t c +40 F, subcooling Δt u = 0 F R22/R40C R4a R404A/R0 Condensing temp. t c [ F] Condensing temp. t c [ F] Condensing temp. t c [ F] EVR EVR EVR psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR Correction factors The table values refer to hot gas capacity and are given as a function of condensing temperature t c and pressure drop Δp across the valve. Capacities are based on a hot gas temperature superheated 40 F above condensing temperature (t h =t c + 40 F). For each additional 0 F of superheat above 40 F, the table capacities must be reduced by %. When the valve is used in a hot gas defrost circuit. evaporator temperature affects the capacity. When the evaporator temperature differs from 40 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. Correction factors for t h and t e t e [ F] Factor DKRCC.PD.BB0.A9.22
15 Capacity Hot gas (continued) psi = 0.0 bar / 9 (t F - 2) = t 2 C TR =. kw EVR 20 EVR 22 EVR 2 EVR 2 EVR 40 Pressure drop across valve Δp [psi] Hot gas capacity Q h [TR] Evaporating temp. t e = 40 F, hot gas temp. t h =t c + 40 F, subcooling Δt u = 0 F R22/R40C R4a R404A/R0 Condensing temp. t c [ F] Condensing temp. t c [ F] Condensing temp. t c [ F] Correction factors The table values refer to hot gas capacity and are given as a function of condensing temperature t c and pressure drop Δp across the valve. Capacities are based on a hot gas temperature superheated 40 F above condensing temperature (t h = t c +40 F). For each additional 0 F of superheat above 40 F, the table capacities must be reduced by %. When the valve is used in a hot gas defrost circuit. evaporator temperature affects the capacity. When the evaporator temperature differs from 40 F, adjust the table capacities by multiplying them by the appropriate correction factor found in the following table. Correction factors for t h and t e t e [ F] Factor DKRCC.PD.BB0.A9.22
16 Identification MADE IN CHINA GENERAL PURPOSE VALVE R. SWP: 460psig MOPD: 0psi Section of general-purpose valve assembly. Assembly consisting of coil: 08F400,-02,-0,-04,-0, -2,-,-4,-,-20,-22,-2,-0,-,-2,-,-4,-4. UL LISTED, R and body type: EVR MADE IN CHINA SWP: 460psig MOPD: 0psi Section of general-purpose valve assembly. Assembly consisting of coil: 08F400,-02,-0,-04,-0, -2,-,-4,-,-20,-22,-2,-0,-,-2,-,-4,-. UL LISTED, R and body type: EVR Part no: 02F GENERAL PURPOSE VALVE R. Example EVR 8 SWP 08F400 MOPD S and A Valve type and size Safe Working Pressure (MWP) in psig Coil group for the EVR Maximum Operating Pressure in psi Approvals in USA and Canada Essential valve data is given on the label. Valve selection example Note: When selecting the appropriate solenoid valve, it is easier to convert the actual required capacity to that of the rated capacities listed in the tables. Liquid line solenoid valve selection example Refrigerant R4a Condensing temperature t c = 00 F Liquid temperature ahead of valve t l = 90 F Maximum allowable pressure drop across valve Δp = 2 psi Evaporator capacity Q o = 0 TR (required valve capacity) The table capacity should be corrected by the corresponding factor as: Qtable x fliquid = Qo Step : Determine the correction factor for liquid temperature. From the correction factor table found on page 8, a liquid temperature of 90 F corresponds to a factor of.0. Step 2: Correct the required valve capacity. This is done by dividing the evaporator capacity by the liquid correction factor. Q corrected = 0/.0 = 9. TR Step : Select the appropriate capacity table and choose the first valve whose capacity is greater than or equal to Q corrected at the required pressure drop. Using the R4a liquid capacity table found on page 8, the EVR is selected as it has a capacity of 2. TR at a Δp = 2 psi. This is done by utilizing various correction factors in the selection process. The following examples illustrate how this is done. Suction line solenoid valve selection example Refrigerant R4a Liquid temperature ahead of expansion valve t l = 90 F Evaporator temperature t e = 0 F Superheat ahead of valve t s = F Maximum allowable pressure drop across valve Δp = psi Evaporator capacity Q o = 0 TR (required valve capacity) The table capacity should be corrected by the corresponding factor as: Qtable x fliquid x fsuperheat = Qo Step : Determine the correction factor for superheat ahead of the valve by increasing the required valve capacity by 2% for each 0 F of actual superheat above the table rated value of F. In the example. a superheat of F corresponds to a 0 F increase above the table value which is equivalent to a superheat correction factor of Step 2: Determine the correction factor for liquid temperature. From the correction factor table found on page, a liquid temperature of 90 F corresponds to a factor of.0. Step : Correct the required valve capacity. This is done by first multiplying the evaporator capacity by the superheat correction factor and then dividing it by the liquid correction factor. Q corrected = 0/0.98/.0=9. Step 4: Select the appropriate capacity table and choose the first valve whose capacity is greater than or equal to Q corrected at the required evaporating temperature and pressure drop. Using the R4a suction vapor capacity table found on page, the EVR 40 is selected as it has a capacity of 4. TR at t e = 0 F and Δp = psi. 6 DKRCC.PD.BB0.A9.22
17 Valve selection example (continued) Hot gas line solenoid valve selection example With hot gas defrost, pressure in the evaporator quickly rises to a value near that of the condensing pressure and remains there until the defrost cycle has been completed. Therefore. when selecting valves for hot gas applications, sizing is based primarily on the condensing temperature t c and the pressure drop D p across the valve. Example (with heat recovery) Refrigerant: R4a Evaporator temperature: t e = 0 F Condensing temperature: t c = 00 F Hot gas temperature ahead of valve: t h = 80 F Maximum allowable pressure drop across valve: Δp = psi Output of heat recovery condenser: Q h = TR (required valve capacity) The table capacity should be corrected by the correspondig factor as: Qtable x fevaporator x fsuperheat = Qo Step : Determine the correction factor for hot gas temperature (t h = t c + 40 F) by increasing the required valve capacity by % for each 0 F of actual superheat above the table rated superheat value of 40 F. In the example, an actual hot gas temperature of 80 F is 40 F higher than the calculated table value of (t h = t c + 40 F = 40 F). This is equivalent to a hot gas correction factor of Step 2: Determine the correction factor for evaporator temperature. From the correction factor table found on page 9 an evaporator temperature of 0 F corresponds to a factor of.09. Step : Correct the required valve capacity. This is done by first multiplying the heat recovery capacity by the hot gas correction factor and then dividing it by the evaporator correction factor. Q corrected = /0.96/.09=4. Step 4: Select the appropriate capacity table and choose the first valve whose capacity is greater than or equal to Q corrected at the required condensing temperature and pressure drop. Using the R4a hot gas capacity table found on pages 9 and 20, the EVR 2 is selected as it has a capacity of 2.8 TR at t c = 00 F and Δp = psi. DKRCC.PD.BB0.A9.22
18 Design / Function EVR 2 and EVR, EVR 4 EVR 22, F F902.0 EVR 6 EVR, NO Coil 6. Armature 8. Valve plate 20. Earth terminal 29. Pilot orifice 40. Junction box 4. Valve cover 4. Gasket 49. Valve body 4. Spacer ring. Equalizing hole 80. Diaphragm 8. Valve seat 90. Fixing hole F Note: The drawings are only representative. EVR solenoid valves are based on two different design principles:. Direct operation 2. Servo operation : Direct operation EVR 2 and EVR are direct operated. The valves opens to admit full flow when the armature (6) is moved up into the magnetic field of the coil. The valves operates with a minimum differential pressure of 0 psi. The valve plate (8) is fitted directly to the armature (6). Inlet pressure and spring force act to close the valve when the coil is de-energized. 2a: EVR 4 EVR 22 are servo-operated with a floating diaphragm (80). The pilot orifice (29) is located in the center of the diaphragm. The pilot valve plate (8) is fitted directly to the armature (6). When the coil is de-energized, the valve port and pilot orifice are closed and the inlet pressure acts both above and below the diaphragm. The valve port and pilot orifice are kept closed by the armature spring force and the differential pressure between inlet and outlet sides. When current is applied to the coil, the armature is pulled up into the magnetic field and the pilot orifice opens. This relieves pressure above the diaphragm because the space above it becomes connected to the outlet side of the valve. The differential pressure between inlet and outlet presses the diaphragm away from the valve seat (8) and the valve opens to admit full flow. A minimum differential pressure (0. psi for EVR 4 EVR 22) is necessary to open the valve and keep it open. When the coil is de-energized, the pilot orifice closes. Then. via the equalizing port () the pressure above the diaphragm rises to the same value as the inlet pressure, which results in the valve port being closed by the diaphragm. EVR 6 EVR, NO, function in a manner opposite to the valves; they are open when the coil is de-energized. Normally open (NO) EVR valves are available with servo operation only. 8 DKRCC.PD.BB0.A9.22
19 Design / Function (continued) EVR F Coil 6. Armature 8. Pilot valve plate 20. Earth screw 28. Gasket 29. Pilot orifice 0. O-ring. Piston ring 40. Junction box 4. Valve cover 44. O-ring 4. Valve cover gasket 49. Valve body. Protective cap /blanking plug. Manual stem. Equalizing hole 4. Main passage. Pilot passage 6. Return spring 80. Servo piston 8. Main valve seat 84. Main valve plate EVR 2 and EVR F Note: The drawings are only representative. 2b. Servo operation of EVR 2 EVR 40 EVR 2. EVR 2 and EVR 40 are servo-operated piston valves. The valves are closed when the coil is de-energized. In operation. EVR 2 is the same as for EVR 4 EVR 22. but the design is different. The pilot unit is located in the cover and the servo unit is a piston (80) with a cast iron piston ring. For EVR 2 EVR 40, piston (80) and valve plate (84) will close against the valve seat (8) due to the differential pressure between inlet and outlet plus the force from the return spring (6). When the coil is energized, the pilot orifice (29) is opened and pressure on the spring side of the piston is relieved. The pressure differential now opens the valve. The minimum differential required to keep the valve fully open is psi. DKRCC.PD.BB0.A9.22 9
20 H H H H H2 H2 min 29/6 min 29/6 Data sheet Solenoid valve, types EVR 2 EVR 40 Dimensions [in] and weights [lbs] EVR 2 - EVR 8, EVR 6 - EVR 8 NO, Solder connection With junction box EVR 2 - EVR 8, EVR 6 - EVR 8 NO With conduit boss EVR 2 - EVR 8, EVR 6 - EVR 8 NO L L 2F9.0 2F96.0 L L2 B B L L2 B B Coil net weight: lb Note: The drawings are only representative. : in = 2.4 mm EVR 2 EVR EVR EVR 4 EVR 4 EVR 6 /NO EVR 6 /NO EVR 6 EVR 6 EVR 8 EVR 8 EVR 8 Connection Normal size Oversize L L 2 Junction box L Conduit boss H H 2 H H 4 B B Net weight with coil / / 6 / 20 / 6 2 / 6. / / 6 2 / 6 / 20 / 6 2 / / 6 2 / 6 / 20 / 6 2 / / 6 / 6 / 6 2 / 6.4 / / 6 / 6 / 6 2 / / 6 / 6 / 6 2 / / 6 2 / 6 / 6 2 / 6.4 / / 6 / 6 / 6 2 / / 2 / / 6 / 6 / 6 2 / / 6 / 6 / 6 2 / 6.4 / / 6 / 6 / 6 2 / / / 6 / 6 / 6 2 / DKRCC.PD.BB0.A9.22
21 Dimensions [in] and weights [lbs] EVR 0 /NO, Solder connection With junction box EVR 0 /NO With conduit boss EVR 0 /NO Coil net weight: lb Note: The drawings are only representative. : in = 2.4 mm EVR 0 EVR 0 /NO EVR 0 /NO EVR 0 /NO Connection Normal size Oversize L L 2 Junction box L Conduit boss H H 2 H H 4 B B 4 2 / 6 / 2 2 / 6 / 6 / 6 Net weight with coil 2 / / 6.8 / / 6 / 6 2 / / 6 / 2 2 / 6 / 6 2 / 6.8 DKRCC.PD.BB0.A9.22 2
22 Dimensions [in] and weights [lbs] EVR - EVR 22, EVR NO, Solder connection With junction box EVR - EVR 22, /NO With conduit boss EVR - EVR 22, /NO L B L B H H H 2 H 2 L 2 Coil net weight: lb Note: The drawings are only representative. L L 2 B 2F89.0 L B 2F88.0 : in = 2.4 mm EVR /NO EVR /NO EVR EVR 8 EVR 8 EVR 20 EVR 20 EVR 20 EVR 22 EVR 22 Connection Normal size Oversize L L 2 Junction box L Conduit boss H H 2 H H 4 B B Net weight with coil 6 / 2 2 / 4 / 4 2 / 6 2 / / / 6 2 / / 4 / 4 2 / 6 2 / / 4 / 4 2 / 6 2 / / 2 2 / 4 / 4 2 / 6 2 / / / 2 9 / 6 2 / 6 2 / 6.4 / / / 6 2 / / / 2 9 / 6 2 / 6 2 / / / 2 9 / 6 2 / 6 2 / 6.4 / / 2 9 / 6 2 / 6 2 / DKRCC.PD.BB0.A9.22
23 Data sheet Solenoid valve, types EVR 2 EVR 40 Dimensions [in] and weights [lbs] EVR 2 - EVR 40, Solder connection With junction box EVR 2 With conduit boss EVR 2 EVR 2 and EVR 40 EVR 2 and EVR 40 Coil net weight: lb Note: The drawings are only representative. Connection L Normal size Oversize L L 2 Junction box Conduit boss H H 2 H 4 B Net weight with coil EVR 2 0 / 6 2 ½ / 6 2 / 6 ¼ 6.9 EVR 2 / 6 2 ½ / 6 2 / 6 ¼. EVR 2 / / 6 9. EVR 2 / / 6 9. : in = 2.4 mm EVR 40 / / EVR 40 2 / / DKRCC.PD.BB0.A9.22 2
24 min 29/6 2F9.0 L H 2 min 29/6 Data sheet Solenoid valve, types EVR 2 EVR 40 Dimensions [in] and weights [lbs] EVR 2-6, Flare connection With junction box EVR 2 6 With conduit boss EVR 2 6 L 2F94.0 H 2 Coil net weight: lb H H L B B H H L B B Note: The drawings are only representative. Connection Normal size Oversize L Junction box L Conduit boss H H 2 H H 4 B B Net weight with coil EVR 2 / 4 2 / / 6 2 / 6 / 6 / 6 2 / 6. EVR / 4 2 / / 6 2 / 6 / 6 / 6 2 / 6. EVR 2 / / 6 2 / 6 / 6 / 6 2 / 6. EVR 4 2 / / 6 2 / 6 2 / 6.4 EVR 4 / / 6 2 / 6 2 / 6.4 EVR 6 2 / / 6 2 / 6 2 / 6.4 in = 2.4 mm EVR 6 2 / / / 6 / 6 2 / 6.4 EVR 6 / / 6 2 / 6 2 / DKRCC.PD.BB0.A9.22
25 Spare parts Code no. Seal kit Service kit Piston service kit Pilot service kit EVR 2 02F896 02F020 EVR 02F896 02F020 EVR 4 02F86 EVR 6 02F86 02F866 EVR 8 02F86 02F866 EVR 0 02F896 02F08 EVR 02F896 02F08 EVR 8 02F896 02F08 EVR 20 02F089 EVR 22 02F089 EVR 2 02F26 042H06 EVR 2 042H02 042H06 EVR H0 EVR 6 NO 02F86 EVR 0 NO 02F896 EVR NO 02F896 Spare parts, contents Seal kit Service kit Piston service kit Pilot service kit O-ring Gasket Diaphragm assembly Armature assembly Rubber gasket Screws Torx key Snap fastener Nut Piston assembly Plastic block Spring Piston ring Rubber gasket Snap fastener Nut Armature tube assembly Snap fastener Armature Orifice Gaskets Nut DCS (rja) DKRCC.PD.BB0.A9.22 2
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