CN2890744Y - Double-linkage double-temperature balance type water cooling and heating device - Google Patents

Double-linkage double-temperature balance type water cooling and heating device Download PDF

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CN2890744Y
CN2890744Y CN 200620031392 CN200620031392U CN2890744Y CN 2890744 Y CN2890744 Y CN 2890744Y CN 200620031392 CN200620031392 CN 200620031392 CN 200620031392 U CN200620031392 U CN 200620031392U CN 2890744 Y CN2890744 Y CN 2890744Y
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mouthful
heat exchanger
tube connector
valve
way
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孙应真
乌新平
朱万钦
孙诚
张立
卫红勤
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孙应真
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Abstract

The utility model discloses a double-linkage double-temperature balance type water cooling and heating device, which is characterized in that a four-way electromagnetic reversing valve (6), an unloading valve (12), a check valve (37), a three-way electromagnetic reversing valve (17), a heat exchanger (18), capillaries (7), (8), (9), check valves (11), (10), three-way electromagnetic reversing valves (28), (31), a check valve (38), a four-way electromagnetic reversing valve (32), an unloading valve (29), a capillary (26), a check valve (27), a three-way electromagnetic reversing valve (23), a check valve (22), capillaries (20), (21) and a three-way electromagnetic reversing valve (19) are arranged successively between four-way electromagnetic reversing valves (4), (34) of two compressors (2), (33) and heat exchangers (5), (24), and a hot water tank (1) is connected with air conditioner valves (13), (14), (15), (16) respectively. The utility model has heat and cool storing and buffering functions, compact structure, simple control, safe operation and high energy efficiency ratio, is capable of cooling and heating air conditioner and providing domestic hot water, and can be operated singly, in parallel or in series.

Description

Balance type cold water heating device of double-temperature and dual cross-linked
Technical field
The utility model relates to a kind of HVAC hot and cold water device, and specifically a kind of Balance type cold water heating device of double-temperature and dual cross-linked belongs to field of domestic appliances manufacture technology.
Background technology
At present, it is a lot of to utilize the air-conditioning work principle to produce domestic hot-water's innovation and creation, as invention and created name be: energy-conservation cold-heat air-conditioning, water-heating device of the four seasons, the patent No. is that 01263270.8 Chinese patent has been announced energy-conservation cold-heat air-conditioning, water-heating device of a kind of four seasons, its design feature is to have increased water cooling heat exchanger and three-way solenoid valve on the off-premises station of existing air-conditioner, the flow controller of the triangle throttling net that adopts double capillary and four check valves or form by three main restricting elements, improved former control system, can make this device carry out 6 kinds of endless form easily.This device has the following disadvantages: water cooling heat exchanger A may produce the liquid hammer fault in the winter time and damage compressor, the water cooling heat exchanger B higher waste heat of temperature of utilizing not yet in effect, system complex, easily build-up of pressure is uneven and produce flash steam, cause the whole system performance to be destroyed, Energy Efficiency Ratio is too low when environment temperature is low, control operation complexity, manufacturing cost height.
The utility model content
Task of the present utility model provides a kind of function that both can realize central air-conditioning, and domestic hot-water's a tractor serves several purposes cold and hot water supply apparatus can be provided again.
For finishing above-mentioned task, technical solution of the present utility model is as follows:
A kind of Balance type cold water heating device of double-temperature and dual cross-linked that the utility model provides, mainly be made of compressor, four-way electromagnetic reversing valve, heat exchanger, boiler, check valve, unloader, three-way solenoid valve, air control valve, capillary, pump, tube connector, its connected mode is: the exhaust outlet of compressor 2 R of tube connector and heat exchanger 3 1Mouth connects, the R of heat exchanger 3 2The mouth a of tube connector and four-way electromagnetic reversing valve 4 1Mouth connects, a of four-way electromagnetic reversing valve 4 2Mouthful be divided into two-way by threeway with tube connector, the one tunnel with the E of three-way solenoid valve 31 1Mouth connects, the K of another road and heat exchanger 5 1Mouth connects, a of four-way electromagnetic reversing valve 4 3Mouthful be divided into two-way by three general tube connectors, the one tunnel is connected with the air entry of compressor 2, and another road is connected with check valve 37 1 ends, the other end usefulness tube connector of check valve 37 and the b of four-way electromagnetic reversing valve 6 3Mouth connects, a of four-way electromagnetic reversing valve 4 4The mouth b of tube connector and four-way electromagnetic reversing valve 6 1Mouth connects, the b of four-way electromagnetic reversing valve 6 2The mouth J of tube connector and three-way solenoid valve 17 1Mouth connects, the b of four-way electromagnetic reversing valve 6 4Mouth is divided into two-way with tube connector by threeway, and one the tunnel through the RS of air control valve 13 with boiler 1 1Mouth connects, and another road is connected with an end of unloader 12, the other end of unloader 12 K of tube connector and heat exchanger 5 3Mouth connects, the RS of boiler 1 2Mouth is connected with an end of check valve 10 through air control valve 14 with tube connector, and the other end of check valve 10 is connected with an end of capillary 9, and the other end of capillary 9 is by the K of three general tube connectors and heat exchanger 5 2Mouth connects, the J of three-way solenoid valve 17 2The mouth Z of tube connector and heat exchanger 18 2Mouth connects, the J of three-way solenoid valve 17 3The mouth S of tube connector and heat exchanger 24 4Mouth connects, the Z of heat exchanger 18 1The S of mouth and heat exchanger 24 2Mouth converges the back with tube connector by threeway and is connected with an end of check valve 11 and an end of capillary 8, the other end of the other end of check valve 11 and capillary 8 is connected with an end of capillary 7 simultaneously, the other end of capillary 7 is divided into two-way by three general tube connectors, the one tunnel with the K of heat exchanger 5 2Mouth connects, the F of another road and three-way solenoid valve 28 1Mouth connects; The exhaust port of compressor 33 r of tube connector and heat exchanger 35 1Mouth connects, the r of heat exchanger 35 2The mouth c of tube connector and four-way electromagnetic reversing valve 34 1Mouth connects, the c of four-way electromagnetic reversing valve 34 2The mouth d of tube connector and four-way electromagnetic reversing valve 32 1Mouth connects, the c of four-way electromagnetic reversing valve 34 3Mouthful be divided into two-way with tube connector by threeway, the one tunnel is connected with the air entry of compressor 33, and another road is connected with an end of check valve 38, the other end usefulness tube connector of check valve 38 and the d of four-way electromagnetic reversing valve 32 3Mouth connects, the c of four-way electromagnetic reversing valve 34 4Mouthful be divided into two-way by threeway with tube connector, the one tunnel with the E of three-way solenoid valve 31 2Mouth connects, the I of another road and three-way solenoid valve 23 1Mouth connects, the d of four-way electromagnetic reversing valve 32 2Mouthful with tube connector by threeway respectively with the I of three-way solenoid valve 23 2The S of mouth and heat exchanger 24 1Mouth connects, the I of three-way solenoid valve 23 3The mouth Z of tube connector and heat exchanger 18 3Mouth connects, the Z of heat exchanger 18 4The mouth G of tube connector and three-way solenoid valve 19 3Mouth connects, the S of heat exchanger 24 3Mouthful with tube connector by threeway respectively with check valve 22 with being connected of capillary 21, the other end of the other end of check valve 22 and capillary 21 simultaneously and being connected of capillary 20, the other end of capillary 20 is with the G of tube connector and three-way solenoid valve 19 2Mouth connects, the G of three-way solenoid valve 19 1The mouth F of tube connector and three-way solenoid valve 28 3Mouth connects, the F of three-way solenoid valve 28 2Mouth is by the K of three general tube connectors and heat exchanger 5 5Mouth connects, the d of four-way electromagnetic reversing valve 32 4Mouthful be divided into two-way with tube connector by threeway, the one tunnel is connected with an end of unloader 29, and the RS of air control valve 15 and boiler 1 is passed through on another road 3Mouth connects, the RS of boiler 1 4By being connected of air control valve 16 and check valve 27, the other end of check valve 27 is connected with capillary 26 mouthful with tube connector, and the other end of capillary 26 is with the K of tube connector by threeway and heat exchanger 5 5Mouth connects, the K of heat exchanger 5 4The mouth E of tube connector and three-way solenoid valve 31 3Mouth connects, the other end of unloader 29 K of tube connector and heat exchanger 5 6Mouth connects, the circulating water outlet of boiler 1 R of tube connector and heat exchanger 3 3Mouth connects, the R of heat exchanger 3 4The mouth r of tube connector and heat exchanger 35 4Mouth connects, the r of heat exchanger 35 3Mouth is connected with pump 36 1 ends with tube connector, and the other end of pump 36 is connected with the circulating water intake of boiler 1 with tube connector; The delivery port of heat exchanger 24 connects indoor pipe network import, and indoor pipe network outlet connects pump 25 imports, and pump 25 outlets connect the water return outlet of heat exchanger 24.Fan 30 is set on the heat exchanger 5.
Advantage of the present utility model: both can hot water heating, the cold water air-conditioning, can provide the domestic hot-water again; Both can heat, freezed or heat water separately, and can heat simultaneously again, freeze or heat water; Both can be used as common pump type heat cold/hot water air-conditioner group and used, again can series operation, guarantee high temperature environment refrigerating and low temperature environment heat supply; Have accumulation of heat, cold-storage and buffering function.Control is convenient, compact conformation, and energy-saving effect is remarkable.
Description of drawings:
Fig. 1 is a structural representation of the present utility model.
The specific embodiment
Example 1, a kind of Balance type cold water heating device of double-temperature and dual cross-linked are made of compressor, four-way electromagnetic reversing valve, heat exchanger, domestic hot-water's case, check valve, unloader, three-way solenoid valve, air control valve, capillary, fan, tube connector.Its connected mode is: the exhaust outlet of compressor 2 R of tube connector and heat exchanger 3 1Mouth connects, the R of heat exchanger 3 2The mouth a of tube connector and four-way electromagnetic reversing valve 4 1Mouth connects, a of four-way electromagnetic reversing valve 4 2Mouthful be divided into two-way by threeway with tube connector, the one tunnel with the E of three-way solenoid valve 31 1Mouth connects, the K of another road and heat exchanger 5 1Mouth connects; The a of four-way electromagnetic reversing valve 4 3Mouthful be divided into two-way by three general tube connectors, the one tunnel is connected the b of another road and four-way electromagnetic reversing valve 6 with the air entry of compressor 2 3Mouth connects, a of four-way electromagnetic reversing valve 4 4The mouth b of tube connector and four-way electromagnetic reversing valve 6 1Mouth connects, the b of four-way electromagnetic reversing valve 6 2The mouth J of tube connector and three-way solenoid valve 17 1Mouth connects, the b of four-way electromagnetic reversing valve 6 4Mouth is divided into two-way with tube connector by threeway, and one the tunnel through the RS of air control valve 13 with boiler 1 1Mouth connects, and another road is connected with the import of unloader 12, the outlet of unloader 12 K of tube connector and heat exchanger 5 3Mouth connects, the RS of boiler 1 2Mouth is connected with the import of check valve 10 through air control valve 14 with tube connector, and the outlet of check valve 10 is connected with the import of capillary 9, and the outlet of capillary 9 is by the K of three general tube connectors and heat exchanger 5 2Mouth connects, the J of three-way solenoid valve 17 2The mouth Z of tube connector and heat exchanger 18 2Mouth connects, the J of three-way solenoid valve 17 3The mouth S of tube connector and heat exchanger 24 4Mouth connects, the Z of heat exchanger 18 1The S of mouth and heat exchanger 24 1Mouth converges the back with tube connector by threeway and is connected with the outlet of check valve 11 and the import of capillary 8, the outlet of the import of check valve 11 and capillary 8 is connected with the outlet of capillary 7 simultaneously, the import of capillary 7 is divided into two-way by three general tube connectors, the one tunnel with the K of heat exchanger 5 2Mouth connects, the F of another road and three-way solenoid valve 28 1Mouth connects.The exhaust port of compressor 33 r of tube connector and heat exchanger 35 1Mouth connects, the r of heat exchanger 35 2The mouth c of tube connector and four-way electromagnetic reversing valve 34 1Mouth connects, the c of four-way electromagnetic reversing valve 34 2The mouth d of tube connector and four-way electromagnetic reversing valve 32 1Mouth connects, the c of four-way electromagnetic reversing valve 34 3Mouthful be divided into two-way with tube connector by threeway, the one tunnel is connected with the air entry of compressor 33, and another road is connected with the import of check valve 38, the outlet usefulness tube connector of check valve 38 and the d of four-way electromagnetic reversing valve 32 3Mouth connects, the c of four-way electromagnetic reversing valve 34 4Mouthful be divided into two-way by threeway with tube connector, the one tunnel with the E of three-way solenoid valve 31 2Mouth connects, the I of another road and three-way solenoid valve 23 1Mouth connects, the d of four-way electromagnetic reversing valve 32 2Mouthful with tube connector by threeway respectively with the I of three-way solenoid valve 23 2The S of mouth and heat exchanger 24 1Mouth connects, the I of three-way solenoid valve 23 3The mouth Z of tube connector and heat exchanger 18 3Mouth connects, the Z of heat exchanger 18 4The mouth G of tube connector and three-way solenoid valve 19 3Mouth connects, the S of heat exchanger 24 3Mouth is connected with the outlet of check valve 22 and the import of capillary 21 respectively by threeway with tube connector, and the outlet of the import of check valve 22 and capillary 21 is connected with the outlet of capillary 20 simultaneously, the import of capillary 20 G of tube connector and three-way solenoid valve 19 2Mouth connects, the G of three-way solenoid valve 19 1The mouth F of tube connector and three-way solenoid valve 28 3Mouth connects, the F of three-way solenoid valve 28 2Mouth is by the K of three general tube connectors and heat exchanger 5 5Mouth connects, the d of four-way electromagnetic reversing valve 32 4Mouthful be divided into two-way with tube connector by threeway, the one tunnel is connected with the import of unloader 29, and the RS of air control valve 15 and boiler 1 is passed through on another road 3Mouth connects, the RS of boiler 1 4Mouthful be connected with the import of check valve 27 by air control valve 16 with tube connector, the outlet of check valve 27 is connected with the import of capillary 26, and the outlet of capillary 26 is with the K of tube connector by threeway and heat exchanger 5 5Mouth connects, the K of heat exchanger 5 4The mouth E of tube connector and three-way solenoid valve 31 3Mouth connects, the outlet of unloader 29 K of tube connector and heat exchanger 5 6Mouth connects.The circulating water outlet of boiler 1 R of tube connector and heat exchanger 3 3Mouth connects, the R of heat exchanger 3 4The mouth r of tube connector and heat exchanger 35 4Mouth connects, the r of heat exchanger 35 3Mouth is connected with the outlet of pump 36 with tube connector, and the import of pump 36 is connected with the circulating water intake of boiler 1 with tube connector; The delivery port of heat exchanger 24 connects indoor pipe network import, and indoor pipe network outlet connects pump 25 imports, and pump 25 outlets connect the water return outlet of heat exchanger 24.Fan 30 is installed on the heat exchanger 5
Its course of work is as follows:
One, cooling operation mode:
1, parallel running mode: the HTHP working media that compressor 2 is discharged after entering heat exchanger 3 and emitting high-order condensation heat, enters a of four way solenoid valve 4 1Mouthful, by a 2Mouth comes out, enter heat exchanger 5 and be condensed into subcooled liquid, entering capillary 7 step-down throttlings again is low pressure, low temperature liquid, through check valve 11, enter heat exchanger 24 evaporation heat absorptions and become low-pressure superheated steam, through three-way solenoid valve 17, four-way electromagnetic reversing valve 6, four-way electromagnetic reversing valve 4, by a of four-way electromagnetic reversing valve 4 3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 33 is discharged after entering heat exchanger 35 and emitting high-order condensation heat, enters the c of four way solenoid valve 34 1Mouthful, by c 4Mouth comes out to enter heat exchanger 5 through three-way solenoid valve 31 and is condensed into subcooled liquid, again through three-way solenoid valve 28, three-way solenoid valve 19, entering capillary 20 step-down throttlings is low pressure, low temperature liquid, through check valve 22, enter heat exchanger 24 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 32, four-way electromagnetic reversing valve 34, by the c of four-way electromagnetic reversing valve 34 3Mouth returns compressor 33 and compresses again, enters next thermodynamic cycle.
2, series operation mode: the HTHP working media that compressor 2 is discharged after entering heat exchanger 3 and emitting high-order condensation heat, enters a of four way solenoid valve 4 1Mouthful, by a 2Mouth comes out, divide two-way to enter heat exchanger 5 and be condensed into subcooled liquid, entering capillary 7 step-down throttlings after converging again is low pressure, low temperature liquid, through check valve 11, enter heat exchanger 18 evaporation heat absorptions and become low-pressure superheated steam, through three-way solenoid valve 17, four-way electromagnetic reversing valve 6, four-way electromagnetic reversing valve 4, by a of four-way electromagnetic reversing valve 4 3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 33 is discharged after entering heat exchanger 35 and emitting high-order condensation heat, enters the c of four way solenoid valve 34 1Mouthful, by c 4Mouth comes out to enter heat exchanger 18 through three-way solenoid valve 23 and is condensed into subcooled liquid, entering capillary 20 step-down throttlings through three-way solenoid valve 19 is low pressure, low temperature liquid, enter heat exchanger 24 evaporation heat absorptions through check valve 22 and become low-pressure superheated steam, through four-way electromagnetic reversing valve 32, four-way electromagnetic reversing valve 34, by the c of four-way electromagnetic reversing valve 34 3Mouth returns compressor 33 and compresses again, enters next thermodynamic cycle.
Two, heating operation mode:
1, parallel running mode: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 4 through heat exchanger 3 1Mouthful, by a 4Mouth comes out, and enters four-way and changes the b of electromagnetism to valve 6 1Mouthful, by b 2Mouthful come out, entering heat exchanger 24 condensation heat releases through three-way solenoid valve 17 is subcooled liquid, is low pressure, low temperature liquid through capillary 8,7 step-down throttlings, enter heat exchanger 5 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 4 by a 3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 33 is discharged enters the c of four way solenoid valve 34 through heat exchanger 35 1Mouthful, by c 2Mouth comes out, and enters the d of four-way electromagnetic reversing valve 32 1Mouthful, by d 2Mouth comes out, enter heat exchanger 24 heat releases and be condensed into subcooled liquid, be low pressure, low temperature liquid through capillary 21.20 step-down throttlings again, enter heat exchanger 5 evaporation heat absorptions through three-way solenoid valve 19, three-way solenoid valve 28 and become low-pressure superheated steam, through three-way solenoid valve 31, four-way electromagnetic reversing valve 34, by the c of four-way electromagnetic reversing valve 34 3Mouth returns compressor 33 and compresses again, enters next thermodynamic cycle.
2, series operation mode: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 4 through heat exchanger 3 1Mouthful, by a 4Mouth comes out, and enters four-way and changes the b of electromagnetism to valve 6 1Mouthful, by b 2Mouthful come out, entering heat exchanger 18 condensation heat releases through three-way solenoid valve 17 is subcooled liquid, and entering capillary 8,7 step-down throttlings again is low pressure, low temperature liquid, enter heat exchanger 5 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 4 by a 3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 33 is discharged enters the c of four way solenoid valve 34 through heat exchanger 35 1Mouthful, by c 2Mouth comes out, and enters the d of four-way electromagnetic reversing valve 32 1Mouthful, by d 2Mouth comes out, enter heat exchanger 24 heat releases and be condensed into subcooled liquid, be low pressure, low temperature liquid through capillary 21,20 step-down throttlings again, enter heat exchanger 18 evaporation heat absorptions through three-way solenoid valve 19 and become low-pressure superheated steam, through three-way solenoid valve 23, four-way electromagnetic reversing valve 34, by the c of four-way electromagnetic reversing valve 34 3Mouth returns compressor 33 and compresses again, enters next thermodynamic cycle.
Three, heat the water running mode:
1, single system heats the water running mode: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 4 through heat exchanger 3 1Mouthful, by a 4Mouth comes out, and enters the b of four-way electromagnetic reversing valve 6 1Mouthful, by b 4It is subcooled liquid that mouth comes out to enter the 1 condensation heat release of domestic hot-water's case through air control valve 13, entering capillary 9 step-down throttlings through air control valve 14, check valve 10 again is low pressure, low temperature liquid, enter heat exchanger 5 evaporation heat absorptions and become low-pressure superheated steam, enter a of four-way electromagnetic reversing valve 4 2Mouthful, by a of four-way electromagnetic reversing valve 4 3Mouth comes out, and returns compressor 2 and compresses again, enters next thermodynamic cycle.
System can separate refrigeration or heating operation under the compressor 33.
2, dual system heats the water running mode simultaneously: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 4 through heat exchanger 3 1Mouthful, by a 4Mouth comes out, and enters four-way and changes the b of electromagnetism to valve 6 1Mouthful, by b 4It is subcooled liquid that mouth comes out to enter the 1 condensation heat release of domestic hot-water's case through air control valve 13, entering capillary 9 step-down throttlings through air control valve 14, check valve 10 again is low pressure, low temperature liquid, enter heat exchanger 5 evaporation heat absorptions and become low-pressure superheated steam, through a of four-way electromagnetic reversing valve 4 2Mouthful, by a of four-way electromagnetic reversing valve 4 3Mouth comes out, and returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 33 is discharged enters the c of four way solenoid valve 34 through heat exchanger 35 1Mouthful, by c 2Mouth comes out, and enters the d of four-way electromagnetic reversing valve 32 1Mouthful, by d 4Mouth comes out, enter 1 heat release of domestic hot-water's case through air control valve 15 and be condensed into subcooled liquid, entering capillary 26 step-down throttlings through air control valve 16, check valve 27 again is low pressure, low temperature liquid, enter heat exchanger 5 evaporation heat absorptions and become low-pressure superheated steam, through three-way solenoid valve 31, four-way electromagnetic reversing valve 34, by the c of four-way electromagnetic reversing valve 34 3Mouth returns compressor 33 and compresses again, enters next thermodynamic cycle.

Claims (1)

1, a kind of Balance type cold water heating device of double-temperature and dual cross-linked, comprise compressor, four-way electromagnetic reversing valve, heat exchanger, boiler, check valve, unloader, three-way solenoid valve, air control valve, capillary, pump, tube connector, it is characterized in that: the exhaust outlet of compressor (the 2) (R of tube connector and heat exchanger (3) 1) mouthful connection, (the R of heat exchanger (3) 2) mouthful (a with tube connector and four-way electromagnetic reversing valve (4) 1) mouthful connection, (a of four-way electromagnetic reversing valve (4) 2) mouthful be divided into two-way by threeway with tube connector, the one tunnel with the (E of three-way solenoid valve (31) 1) mouthful connection, (the K of another road and heat exchanger (5) 1) mouthful connection, (a of four-way electromagnetic reversing valve (4) 3) mouthful be divided into two-way by three general tube connectors, the one tunnel is connected with the air entry of compressor (2), and another road is connected with check valve (37) one ends, the other end usefulness tube connector of check valve (37) and (b of four-way electromagnetic reversing valve (6) 3) mouthful connection, (a of four-way electromagnetic reversing valve (4) 4) mouthful (b with tube connector and four-way electromagnetic reversing valve (6) 1) mouthful connection, (the b of four-way electromagnetic reversing valve (6) 2) mouthful (J with tube connector and three-way solenoid valve (17) 1) mouthful connection, (the b of four-way electromagnetic reversing valve (6) 4) mouthful be divided into two-way by threeway with tube connector, the one tunnel through the (RS of air control valve (13) with boiler (1) 1) mouthful connection, another road is connected with an end of unloader (12), the other end of unloader (the 12) (K of tube connector and heat exchanger (5) 3) mouthful connection, (the RS of boiler (1) 2) mouthful be connected with an end of check valve (10) through air control valve (14) with tube connector, the other end of check valve (10) is connected with an end of capillary (9), and the other end of capillary (9) passes through (K of three general tube connectors and heat exchanger (5) 2) mouthful connection, (the J of three-way solenoid valve (17) 2) mouthful (Z with tube connector and heat exchanger (18) 2) mouthful connection, (the J of three-way solenoid valve (17) 3) mouthful (S with tube connector and heat exchanger (24) 4) mouthful connection, (the Z of heat exchanger (18) 1) mouthful and the (S of heat exchanger (24) 2) mouthful with tube connector by threeway converge the back be connected with an end of check valve (11) and an end of capillary (8), the other end of the other end of check valve (11) and capillary (8) is connected with an end of capillary (7) simultaneously, the other end of capillary (7) is divided into two-way by three general tube connectors, the one tunnel with the (K of heat exchanger (5) 2) mouthful connection, (the F of another road and three-way solenoid valve (28) 1) mouthful connection; The exhaust port of compressor (the 33) (r of tube connector and heat exchanger (35) 1) mouthful connection, (the r of heat exchanger (35) 2) mouthful (c with tube connector and four-way electromagnetic reversing valve (34) 1) mouthful connection, (the c of four-way electromagnetic reversing valve (34) 2) mouthful (d with tube connector and four-way electromagnetic reversing valve (32) 1) mouthful connection, (the c of four-way electromagnetic reversing valve (34) 3) mouthful be divided into two-way by threeway with tube connector, the one tunnel is connected with the air entry of compressor (33), and another road is connected with an end of check valve (38), the other end usefulness tube connector of check valve (38) and (d of four-way electromagnetic reversing valve (32) 3) mouthful connection, (the c of four-way electromagnetic reversing valve (34) 4) mouthful be divided into two-way by threeway with tube connector, the one tunnel with the (E of three-way solenoid valve (31) 2) mouthful connection, (the I of another road and three-way solenoid valve (23) 1) mouthful connection, (the d of four-way electromagnetic reversing valve (32) 2) mouthful with tube connector by threeway respectively with the (I of three-way solenoid valve (23) 2) mouthful and the (S of heat exchanger (24) 1) mouthful connection, (the I of three-way solenoid valve (23) 3) mouthful (Z with tube connector and heat exchanger (18) 3) mouthful connection, (the Z of heat exchanger (18) 4) mouthful (G with tube connector and three-way solenoid valve (19) 3) mouthful connection, (the S of heat exchanger (24) 3) mouthful with tube connector by threeway respectively with check valve (22) with being connected of capillary (21), the other end while of the other end of check valve (22) and capillary (21) and being connected of capillary (20), the other end of capillary (the 20) (G of tube connector and three-way solenoid valve (19) 2) mouthful connection, (the G of three-way solenoid valve (19) 1) mouthful (F with tube connector and three-way solenoid valve (28) 3) mouthful connection, (the F of three-way solenoid valve (28) 2) mouthful K by three general tube connectors and heat exchanger (5) 5) mouthful connection, (the d of four-way electromagnetic reversing valve (32) 4) mouthful be divided into two-way by threeway with tube connector, the one tunnel is connected with an end of unloader (29), and (the RS of air control valve (15) and boiler (1) is passed through on another road 3) mouthful connection, (the RS of boiler (1) 4) mouthful with tube connector by being connected of air control valve (16) and check valve (27), the other end of check valve (27) is connected with capillary (26), the other end of capillary (26) is with (the K of tube connector by threeway and heat exchanger (5) 5) mouthful connection, (the K of heat exchanger (5) 4) mouthful (E with tube connector and three-way solenoid valve (31) 3) mouthful connection, the other end of unloader (the 29) (K of tube connector and heat exchanger (5) 6) mouthful connection, the circulating water outlet of boiler (the 1) (R of tube connector and heat exchanger (3) 3) mouthful connection, (the R of heat exchanger (3) 4) mouthful (r with tube connector and heat exchanger (35) 4) mouthful connection, (the r of heat exchanger (35) 3) mouthful be connected with pump (36) one ends with a tube connector, the other end usefulness tube connector of pump (36) is connected with the circulating water intake of boiler (1); The delivery port of heat exchanger (24) connects indoor pipe network import, and indoor pipe network outlet connects pump (25) import, and pump (25) outlet connects the water return outlet of heat exchanger (24); Fan (30) is set on the heat exchanger (5).
CN 200620031392 2006-03-31 2006-03-31 Double-linkage double-temperature balance type water cooling and heating device Expired - Fee Related CN2890744Y (en)

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Application Number Priority Date Filing Date Title
CN 200620031392 CN2890744Y (en) 2006-03-31 2006-03-31 Double-linkage double-temperature balance type water cooling and heating device

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CN2890744Y true CN2890744Y (en) 2007-04-18

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CN101949617A (en) * 2010-09-21 2011-01-19 东南大学 High-efficiency air source heat pump device and method for preparing water and air simultaneously
CN102563969A (en) * 2012-02-10 2012-07-11 山东美琳达再生能源开发有限公司 Double-system heat pump device capable of realizing circular heating and heating method
CN106871479A (en) * 2017-04-14 2017-06-20 江苏天舒电器股份有限公司 A kind of cold recovery formula varying capacity air source heat pump system
CN107062670A (en) * 2017-04-14 2017-08-18 江苏天舒电器股份有限公司 A kind of binary channels variable capacity heat exchanger
WO2018188269A1 (en) * 2017-04-14 2018-10-18 江苏天舒电器股份有限公司 Cold energy recovery-type variable-capacity air-source heat pump system
CN110373844A (en) * 2019-06-28 2019-10-25 南京航空航天大学 Printing and dyeing mill's rapid steamer complementary energy recovery system and control method
WO2022007739A1 (en) * 2020-07-06 2022-01-13 约克广州空调冷冻设备有限公司 Heat pump system

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101949617A (en) * 2010-09-21 2011-01-19 东南大学 High-efficiency air source heat pump device and method for preparing water and air simultaneously
CN101949617B (en) * 2010-09-21 2012-11-28 东南大学 High-efficiency air source heat pump device and method for preparing water and air simultaneously
CN102563969A (en) * 2012-02-10 2012-07-11 山东美琳达再生能源开发有限公司 Double-system heat pump device capable of realizing circular heating and heating method
CN106871479A (en) * 2017-04-14 2017-06-20 江苏天舒电器股份有限公司 A kind of cold recovery formula varying capacity air source heat pump system
CN107062670A (en) * 2017-04-14 2017-08-18 江苏天舒电器股份有限公司 A kind of binary channels variable capacity heat exchanger
WO2018188269A1 (en) * 2017-04-14 2018-10-18 江苏天舒电器股份有限公司 Cold energy recovery-type variable-capacity air-source heat pump system
CN106871479B (en) * 2017-04-14 2020-01-10 江苏天舒电器有限公司 Cold volume recovery type variable-capacity air source heat pump system
CN107062670B (en) * 2017-04-14 2022-06-14 江苏天舒电器股份有限公司 Double-channel variable-capacity heat exchanger
CN110373844A (en) * 2019-06-28 2019-10-25 南京航空航天大学 Printing and dyeing mill's rapid steamer complementary energy recovery system and control method
CN110373844B (en) * 2019-06-28 2021-04-20 南京航空航天大学 Complementary energy recovery system of steaming machine in printing and dyeing mill and control method
WO2022007739A1 (en) * 2020-07-06 2022-01-13 约克广州空调冷冻设备有限公司 Heat pump system
EP4177542A4 (en) * 2020-07-06 2024-04-03 York Guangzhou Air Conditioning and Refrigeration Co., Ltd. Heat pump system

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