Three-way reversing valve For heating and cooling systems Pressurisation & Water Quality Balancing & Control thermostatic Control engineering avantage Three-way reversing valve for the distribution of mass flow in heating and cooling systems.
Technical description HEIMEIER three-way reversing valve for the distribution of mass flow in heating and cooling systems, made of gunmetal, with protection cap. Stainless spindle has double O-ring seal. Outer O-ring can be replaced without draining the system. Models: flat sealing, and flat sealing with T-piece. Connection with threaded, soldering, or welding nipples. Models: conically sealing N 15, G 3/4 male thread. Connection with HEIMEIER compression fittings for plastic, coppe or precision steel pipes. Maximum allowable working pressure 10 bar. Low-pressure steam 110 C (230 F)/0.5 bar. Allowable differential pressure N 15 = 1.20 bar N 20 = 0.75 bar N 25 = 0.50 bar Assembly Three-way reversing valve I II Body made of corrosion-resistant gunmetal Universal connection via screwed, soldered, or welded nipple or compression fittings Model with T-piece for all HEIMEIER thermostatic heads and actuators Stainless spindle with double O-ring seal Outer O-ring can be replaced while under pressure III Function The EMO T (brochure: EMO T) thermal actuator is used for two-step control with auxiliary power. In the model normally open (NO), the straight passage I-II of the three-way reversing valve is open without, and the angled exit I-III is closed without current. In the model normally closed (NC), the straight passage I-II of the three-way reversing valve is closed without, and the angled exit I-III is open without current. Thermostatic heads (brochure: Thermostatic Head K with contact or immersion sensor and/or thermostatic heads) are used for proportional control without auxiliary power. They also operate in intermediate positions. When the temperature rises, the straight passage I-II is closed and the angled exit I-III is opened. The EMO 1, EMO EIB, EMOLON, and/or EMO 3 / EMO 3/230 motorized actuators are used for proportional and/or three-step control with auxiliary power. The effective direction is determined by the controller or the connection (brochure: EMO, EMO EIB, EMOLON). 2
Application istributing function Switching between heat consuming apparatuses such as the heating circuit and heater for potable water or between various heat generating devices such as boilers, heat pumps, or solar energy systems. Output control of heat exchangers via flow rate control, e.g. for air heaters, coolers or other heat exchangers. Volume flow remains steady in the primary circuit. Mixing function Mixing control through installation in the return pipe (external mixing point). Approximately equal volume flow in the secondary circuit. Principle Pay attention to the flow direction, see function. istributing function I II III Sample application Mixing function Mischpunkt III II I 1. Oil/gas boiler 2. Heating circuit 3. Hot water storage 4. Boiler for solid fuels 5. Heat exchanger 6. Air heater 7. Fan-coil device 8. TA STA balancing valve 9. Primary circuit 10. Secondary circuit 11. Mixing point A B C Note The composition of the heat transfer medium should be one which avoids damage or the accumulation of stones in hot water heating systems, in accordance with VI guide line 2035. For industrial and long-distance energy systems, see applicable codes VdTÜV and 1466/AGFW FW 510. Heat transfer media containing mineral oils or lubricants containing mineral oil can have seriously negative effects on the source apparatus and usually lead to the disintegration of EPM seals. When using nitrite-free frost and corrosion resistance solutions with an ethylene glycol base, pay close attention to the details outlined in the manufacturers documentation, particularly details concerning concentration and specific additives. E A = Switching between heat consumers such as heating circuits and hot water storages with e. g. EMO T. B = Switching between heat generating devices such as an oil/gas boiler or boilers for solid fuels with e. g. EMO T. C = Flow rate control for constant blow-out temperature with air heaterswith thermostatic head K with contact sensor. = Switching with fixed-command control of the flow temperature to a secondary circuit of the heat exchanger, such as heaters for potable water, industrial pools, and swimming pool water with thermostatic head K with contact sensor. E = Control of the water circuit from fan-coil devices (air conditioners / forced air convectors) with e. g. EMO T. 3
Articles Three-way reversing valve N Flat sealing 15 4160-02.000 20 4160-03.000 25 4160-04.000 N With T-piece, Flat sealing 15 4162-02.000 N Conically sealing with compression fittings for CU-pipe, ø 15 mm. Male thread G3/4 15 4161-15.000 N Conically sealing. Male thread G3/4 15 4161-02.000 Accessories Flat sealing Connecting nipple for flat sealing three-way reversing valves Threaded nipple N valve Ø pipe 15 (1/2 ) R1/2 4160-02.010 20 (3/4 ) R3/4 4160-03.010 25 (1 ) R1 4160-04.010 Soldering nipple N valve Ø pipe 15 (1/2 ) 15 4160-15.039 15 (1/2 ) 16 4160-16.039 15 (1/2 ) 18 4160-18.039 20 (3/4 ) 22 4160-22.039 25 (1 ) 28 4160-28.039 Welding nipple N valve Ø pipe 15 (1/2 ) 20,8 4160-02.043 20 (3/4 ) 26,3 4160-03.043 25 (1 ) 33,2 4160-04.043 4
Accessories Conically sealing Compression fitting for copper or precision steel pipe. Connection male thread G3/4. Brass nickel-plated. With a pipe wall thickness of 0.8-1 mm insert supporting sleeves. Heed pipe manufacturer s technical advice. Support sleeve for copper or precision steel pipe with a 1 mm wall thickness. Brass nickelplated. Ø Pipe 12 3831-12.351 15 3831-15.351 16 3831-16.351 18 3831-18.351 L Ø Pipe 25,0 12 1300-12.170 26,0 15 1300-15.170 26,3 16 1300-16.170 26,8 18 1300-18.170 Compression fitting for copper or precision steel pipes. Soft sealed. Brass nickel plated. Male thread connection G 3/4. Ø Pipe 15 1313-15.351 16 1313-16.351 18 1313-18.351 Compression fitting for plastic pipes. Brass, nickel plated. Male thread connection G 3/4. Ø Pipe 14x2 1311-14.351 16x2 1311-16.351 17x2 1311-17.351 18x2 1311-18.351 20x2 1311-20.351 5
Technical data iagram Three-way reversing valve with actuator 50 N 25 (æ 5,12) N 20 (æ 3,48) N 15 (æ 2,47) N 15 (æ 2,25) 500 5000 30 20 300 200 3000 2000 10 100 1000 5 50 500 3 2 30 20 300 200 1 10 100 0,5 5 50 0,3 3 30 p [kpa] 0,2 2 0,1 1 50 100 200 300 500 1000 2000 3000 5000 ª p [mbar] 20 10 p [mm WS] Three-way reversing valve with Thermostatic head K *) Three-way reversing valve with immersion/contact sensor kv-value [m 3 /h] P-band [K] 2,0 4,0 6,0 8,0 Kvs [m 3 /h] N 15 0,60 1,20 1,71 2,10 2,47 N 15 with T-piece 0,57 1,11 1,58 2,00 2,25 N 20 0,70 1,50 2,39 3,10 3,48 N 25 1,08 2,28 3,48 4,62 5,12 *) The kv values correspond to the flow in the direction of passage I-II at the given system deviations. With the models without T-piece the kvs-values corresponds to the flow in the direction I-II with a completely opened valve and in the direction I-III with a closed valve. With the models with T-piece the kv/kvs-values corresponds to the flow in the direction I-II. Sample calculation Goal: Pressure loss Δp V Given: Solution: Three-way reversing valve N 25 with thermal actuator Heat flow º = 21000 W Temperature adjustment Δt = 20 K (70/50 C) Mass flow ª = º / (c Δt) = 21000 / (1,163 20) = 903 kg/h Pressure loss from diagram Δp V = 31 mbar c v = k v 0,86 k v = c v 0,86 6
imensions flat sealing flat sealing, with T-piece conically sealing SW SW L1 H L2 H L4 H L L3 L N L L1 L2 L3 L4 H SW 15 G3/4 62 25,5 50 58 23,5 26,0 30 20 G1 71 35,5 31,0 37 25 G1 1/4 84 42,0 33,5 47 L l R1/2 27,5 13,2 R3/4 30,5 14,5 R1 33 16,8 L l 15 18 12 16 19 13 18 20 14 22 23 17 28 27 20 L d 20,8 35 17 26,3 40 22 33,2 45 28 7
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