New perspectives with anfoss Saginomiya - Way Reversing Valves Reliable season change ST, VHV -way reversing valves Wide application range - complete capacity range - available for all common refrigerants (R07C, R0, R3a, R22) - many different connection diameters and configurations High reliability - unique design - instantaneous changeover at minimum pressure differential - mechanism to prevent incomplete changeover - minimized leakage C approved R R IR TION N IR C ON ITION IN
- way reversing valves selection The way valves are used in reversible applications such as heat pumps or reversible air conditioning units and chillers. The way valve allows an inversion of the refrigeration cycle, changing from cooling mode in summer to heating mode in winter. The cycle inversion is initiated by a small solenoid pilot valve, which pilots the movement of a slider, which changes the direction of the refrigerant. The valve is connected to the discharge and suction pipes. technical data and selection criteria r 07 c Model number ischarge Suction Capacity / kw [condition ]() Capacity / kw [condition 2](2) Δ p: 0, bar Δ p: 0,2 bar Δ p: 0, bar Δ p: 0,2 bar Valve style (3) Code number pcs. ST-00 3.7 5.30 3.8.90 0L20 0L88 5 ST-00.5.2. 5.79 0L3 5 ST-020 9.3 0L207 0L 3 ST-0202 2,95 9.3 0L89 ST-020 9.3 0L5 ST-0205 9.3 0L ST-0208 9.3 C 0L7 ST-0209 9.3 0L8 ST-02 9.3 0L9 ST-030.5 8.73 2.29 8.0.3 0L208 0L9 ST-030 9.20 3/ 8.73 2.29 8.0.3 0L5 ST-00 3/ 5.9 22.0.70 20.70 0L209 0L52 2 2 ST-00 3/ 8.3 25.53.7 23.0 0L93 2 ST-009 22.0 5.9 22.0.70 20.70 0L5 2 ST-03.00 22.0 5.9 22.0.70 20.70 0L55 2 ST-020 22.0 8.3 25.53.7 23.0 0L5 2 ST-072 3/ 22.30 27.03 38.05 2.98 35.7 0L20 0L95 ST-075 28.70 /8 27.03 38.05 2.98 35.7 0L58 ST-0728 22.30 27.03 38.05 2.98 35.7 0L0 Model number ST-5 ST-53 ST-5 ST-20 ST-207 VHV-250 VHV-2505 VHV-250 VHV-300 VHV-3003 VHV-00 VHV-002 VHV-500 VHV-5002 VHV-00 I.. mm 25.70.05 28.50 () ischarge O.. inch /8 /8 /8 /8 / /8 (5) 38.35.20 () (5) 38.35.20.20 () () (5) (5) I.. mm 35.22 35.22 35.20.05 35.20.70 38.0.70 5.5.70 5.0 5.0 7.00 Suction O.. inch /8 /8 / 3/ 2 /8 2 /8 2 Capacity / kw [condition ]() Capacity / kw [condition 2](2) Δ p: 0, bar 30.2 30.2 30.2 38.9 38.9 58.8 58,8 58,8 82.3 82.3.. 8.8 8.8 23.0 Δ p: 0,2 bar 2.39 2.39 2.39 5.8 5.8 8.89 8.89 8.89 5. 5..37.37 209.5 209.5 333.5 () condition : 38 C condensing / 5 C evaporating / 5 C super-heat / 0 C sub-cooling (2) condition 2: 5, C condensing / 7,2 C evaporating / 5 C super-heat / 5 C sub-cooling (3)see valve style overview on page 7 Δ p: 0, bar 27.82 27.82 27.82 35.5 35.5 53.7 53.7 53.7 75.87 75.87 05.90 05.90 37.52 37.52 92.52 Δ p: 0,2 bar 39.7 39.7 39.7 50.08 50.08 75.8 75.8 75.8 0.83 0.83 9.2 9.2 93. 93. 275.72 Valve style (3) () Code number 0L22 0L27 0L28 0L29 0L225 0L75 0L9 0L92 0L7 0L83 0L79 0L8 0L80 0L85 0L8 pcs. () - refers to O.. (5) - refers to I.. ()- VHV-250 does not have a bracket Max working pressure: 5 bar (maximum working pressure for VHV-00 is.7 bar) mbient temperature : -20oC to 55oC NOT R07C and R0: or discharge and suction, I.. describes exact inner diameter of valve connections. O.. relates to the outer diameter of connection pipe in the system. -2-
way reversing valves selection The pilot valve ensures a very reliable changeover from cooling to heating mode; the changeover - happens instantaneously with a minimum pressure differential. The valve design also guarantees a minimum pressure drop and a very low risk of leakage. The ST models offer a wide range of connection dimensions, configurations and capacity for specific applications. The standard VHV models are packed as pc. per box providing increased flexibility. technical data and selection criteria r 0 a Model number ischarge Suction Capacity / kw [condition ]() Capacity / kw [condition 2](2) Δ p: 0, bar Δ p: 0,2 bar Δ p: 0, bar Δ p: 0,2 bar Valve style (3) Code number pcs. ST-00..50. 5.87 0L20 0L88 5 ST-00 5. 7.9.9.93 0L3 5 ST-020 8.8 2.3 7.9.20 0L207 0L 3 ST-0202 8.8 2.3 7.9.20 0L89 ST-020 8.8 2.3 7.9.20 0L5 ST-0205 8.8 2.3 7.9.20 0L ST-0208 8.8 2.3 7.9.20 C 0L7 ST-0209 8.8 2.3 7.9.20 0L8 ST-02 8.8 2.3 7.9.20 0L9 ST-030.5 0.9 5.08 9.3 3.59 0L208 0L9 ST-030 9.2 3/ 0.9 5.08 9.3 3.59 0L5 ST-00 3/ 9.50 27.5 7.58 2.80 0L209 0L52 2 2 ST-00 3/ 22.23 3.35 20.03 28.2 0L93 2 ST-009 22.0 9.50 27.5 7.58 2.80 0L5 2 ST-03.00 22.0 9.50 27.5 7.58 2.80 0L55 2 ST-020 22.0 22.23 3.35 20.03 28.2 0L5 2 ST-072 3/ 22.30 33..7 29.85 2. 0L20 0L95 ST-075 28.70 /8 33..7 29.85 2. 0L58 ST-0728 22.30 33..7 29.85 2. 0L0 Model number I.. mm ischarge O.. inch Suction Capacity / kw [condition ]() Capacity / kw [condition 2](2) Δ p: 0, bar Δ p: 0,2 bar Δ p: 0, bar Δ p: 0,2 bar Valve style (3) Code number pcs. ST-5 /8 3.90 52.05 33.25.90 0L22 ST-53 35.22 3.90 52.05 33.25.90 0L27 ST-5 /8 35.22 3.90 52.05 33.25.90 0L28 ST-20 /8 7.9.55 2.52 59.98 0L29 ST-207 /8 35.20 7.9.55 2.52 59.98 0L225 VHV-250 25.70.05 / 7.30 00.5.2 90.2 () 0L75 VHV-2505 /8 35.20 7.30 00.5.2 90.2 0L9 VHV-250 /8.70 7.30 00.5.2 90.2 0L92 VHV-300.05 / 38.0 00..98 90.7 27.9 0L7 VHV-3003 28.50 () /8 (5).70 00..98 90.7 27.9 0L83 VHV-00 VHV-002 38.35.20 () (5) 5.5.70 3/ 0.5 0.5 98.8 98.8 2. 2. 78.0 78.0 0L79 0L8 VHV-500 38.35 5.0 2 /8 75. 2.98 57.78 225.58 0L80 VHV-5002.20 () (5) 5.0 2 /8 75. 2.98 57.78 225.58 0L85 VHV-00.20 () (5) 7.00 2 293.37 3.77 22.57.9 0L8 () - () please see page 2. standard coils selection Code no. Type Cable length [mm] Rated voltage [V C] [pcs.] Watts 50Hz (0Hz) ll coils are interchangeble and can be used also with VHV valves. 0L2092 0L2038 ST-0500 ST-0503 00 200 2 2 0 00 (5) (5) Standard coils are water-proof (IP7) 0L209 0L20 ST-0J50 ST-0J50 200 200 208 to 20 208 to 20 0 00 0L2093 ST-0J50 00 220 to 20 0 (codification of coils see page 7) 0L2095 0L207 ST-0J52 ST-0J52 2000 2000 220 to 20 220 to 20 0 0-3-
c apacity charts --
c apacity charts -5-
p rinciples of operation construction and operation in cooling and heating cycle. discharge connection 2. connection to evaporator/ condenser 3. suction connection. connection to condenser/ evaporator 5. valve body. slider The valve is composed of three basic components: - pilot valve - main valve body, including valve slider - solenoid coil The -way valve slider is shifted by changes in differential pressure in the valve which is actuated by the pilot solenoid valve. The valve slider is specially designed to prevent incomplete changeover and movement with minimum pressure differential. 5 2 winter conditions When the solenoid coil is energized (ig ), the pilot valve moves to the right, and the high pressure fluid enters into the piston chamber. On the other hand, the fluid is released from the piston chamber, and the piston and the slide valve portion moves to the right. 3 summer conditions When the solenoid coil is de-energized (ig.2), the pilot valve moves to the left, and the high pressure fluid comes into the discharge capillary tube, and enters into the piston chamber. On the other hand, the fluid is released from the piston chamber, and the piston and the slide valve portion moves to the left. ig. HTIN CYCL (Coil energized) ig. 2 COOLIN CYCL (Coil not energized) --
a vailable valve and coil styles valves ST - 00-00 - 020-0202 ST - 0205-0209 - 00-00 - 009-03 - 020-072 - 075-0728 - 20-207 C ST - 0208 ST - 020-02 ST - 030-030 ST - 5-53 - 5 VHV - 250* - 2505-250 - 300-3003 - 00-002 - 500-5002 - 00 * VHV-250 does not have a bracket coils codification I ST II 0 applicable for all valve types 2V C xample: 0V C 20V C ST I 0 II J III 50 IV V VI III H I J 220V C 230V C 220 to 20V C I II III IV V VI valve type coil size electrical rating coil body serial number lead wire / terminal style serial number screw for coil Q IV 208 to 20V C serial number relating to the coil body V serial number relating to the lead wire / terminal style VI 0 with screw without screw -7-
i nstalling and handling precautions or optimum performance of - way reversing valves, observe the following recommendations and guidelines: installation 80o 30o 30o Possible Possible Not possible ig. ig. 2a ig. 2b. The following installation is possible for -way reversing valve: a. b. in horizontal position, the orientation of VHV series 25, 30, 0, 50, 0 should be in the range from 0o to 80o,. or the remaining valve types any orientation from 0o to 30o is possible (ig. ). in vertical position, the valves can be installed in any orientation as long as the coil stem position is up (ig. 2a). 2. efore installing, thoroughly clean the inner part of pipes to prevent dust or dirt particles from entering the valve. Use 80 to 00 mesh strainer at the valve inlet, if dust or dirt particles inside the pipes may flow into the valve. 3. o not heat up the body to a temparature higher than 20oC when soldering the joints. Soldering must be carried out with the coil removed.. o not suspend the valve by the lead wire of the solenoid coil or handle it violently. 5. o not wrap up the solenoid coil with thermal insulation. This could cause the coil to overheat and burn out. for mounting of the solenoid coil. Make sure the supply voltage conforms with the voltage marked on the coil enclosure (or label). 2. When mounting the solenoid coil, the enclosure fixing bolt must be tightened firmly. 3. When wiring the solenoid coil, leave enough slack to ensure that no stresses are applied to the supply wires and coil connection.. When removing the solenoid coil from the body, be sure to cut out the supply power. When you keep the coil energizing itself for an unnecessary time, the coil might burn out. Please always refer to the engineering drawings available from anfoss Saginomiya technical support. anfoss Saginomiya Sp. z o.o. can accept no responsibility for possible errors in catalogues, brochures and other printed material. anfoss Saginomiya Sp. z o.o. reserves the right to alter its products without notice. This also applies to products already on order, provided that such alteration can be made without subsequential changes being necessary in specifications already agreed. ll trademarks in this material are property of the respective companies. anfoss Saginomiya and the anfoss Saginomiya logotype are trademarks of anfoss Saginomiya Sp. z o.o. ll rights reserved. PLRC.P.Z0..02-8-