The utility model content
Task of the present utility model is: a kind of Energy Efficiency Ratio height is provided, both can heating, and can provide domestic hot-water's air can hot water apparatus again.
For finishing above-mentioned task, technical solution of the present utility model is as follows:
A kind of Dual coupling water heating device using air energy that the utility model provides, mainly be made of compressor, four-way electromagnetic reversing valve, heat exchanger, boiler, unloader, three-way solenoid valve, air control valve, capillary, fan, tube connector, its connected mode is: the exhaust outlet of compressor 2 a of tube connector and four-way electromagnetic reversing valve 3
1Mouth connects, a of four-way electromagnetic reversing valve 3
2Mouthful with tube connector by three reduction of fractions to a common denominator two-way, the one tunnel with the c of three-way solenoid valve 5
1Mouth connects, the K of another road and heat exchanger 4
1Mouth connects, a of four-way electromagnetic reversing valve 3
3Mouth is connected a of four-way electromagnetic reversing valve 3 with tube connector with the air entry of compressor 2
4Mouthful be divided into two-way through threeway with tube connector, the one tunnel with the e of three-way solenoid valve 14
1Mouth connects, and another road is connected with an end of unloader 13, the other end of unloader 13 K of tube connector and heat exchanger 4
3Mouth connects, the e of three-way solenoid valve 14
2Mouth uses tube connector through the RS of air control valve 15 with boiler 1
1Mouth connects, the e of three-way solenoid valve 14
3The mouth Z of tube connector and heat exchanger 21
2Mouth connects, the Z of heat exchanger 21
1Mouth is divided into two-way with tube connector by threeway, and one the tunnel through the RS of air control valve 16 with boiler 1
2Mouthful connect, another road is connected with capillary 12 1 ends, and capillary 12 other ends pass through threeway with tube connector and are divided into two-way, and one the tunnel and the K of heat exchanger 4
2Mouth connects, the d of another road and three-way solenoid valve 9
1Mouth connects; The exhaust outlet of compressor 7 b of tube connector and four-way electromagnetic reversing valve 6
1Mouth connects, the b of four-way electromagnetic reversing valve 6
2Mouthful with tube connector by three reduction of fractions to a common denominator two-way, the one tunnel with the c of three-way solenoid valve 5
2Mouth connects, the Z of another road and heat exchanger 21
4Mouth connects, the b of four-way electromagnetic reversing valve 6
3Mouth is connected the b of four-way electromagnetic reversing valve 6 with tube connector with the air entry of compressor 7
4By three reduction of fractions to a common denominator two-way, the one tunnel through the RS of air control valve 17 with boiler 1 with tube connector for mouth
3Mouth connects, and another road is connected with an end of unloader 10, the other end of unloader 10 K of tube connector and heat exchanger 4
6Mouth connects, the Z of heat exchanger 21
3Mouth is connected with an end of capillary 20 with tube connector, the other end of capillary 20 f of tube connector and three-way solenoid valve 19
3Mouth connects, the f of three-way solenoid valve 19
1Mouth passes through the RS of air control valve 18 and boiler 1 with tube connector
4Mouth connects, the f of three-way solenoid valve 19
2Mouth is connected with an end of capillary 11 with tube connector, the other end of capillary 11 d of tube connector and three-way solenoid valve 9
3Mouth connects, the d of three-way solenoid valve 9
2The mouth k of tube connector and heat exchanger 4
5Mouth connects, the k of heat exchanger 4
4The mouth c of tube connector and three-way solenoid valve 5
3Mouth connects, and fan 8 is set on the heat exchanger 4.
Advantage of the present utility model: both can be used as the thermal energy generating device of heating, can be used as domestic hot-water's feeding mechanism dual-use again, had accumulation of heat and buffering function, compact conformation, easy to operate, the Energy Efficiency Ratio height.
The specific embodiment
A kind of Dual coupling water heating device using air energy, be made of compressor, four-way electromagnetic reversing valve, heat exchanger, boiler, unloader, three-way solenoid valve, air control valve, capillary, tube connector, its connected mode is: the exhaust outlet of compressor 2 a of tube connector and four-way electromagnetic reversing valve 3
1Mouth connects, a of four-way electromagnetic reversing valve 3
2Mouthful with tube connector by three reduction of fractions to a common denominator two-way, the one tunnel with the c of three-way solenoid valve 5
1Mouth connects, the K of another road and heat exchanger 4
1Mouth connects, a of four-way electromagnetic reversing valve 3
3Mouth is connected a of four-way electromagnetic reversing valve 3 with tube connector with the air entry of compressor 2
4Mouthful be divided into two-way through threeway with tube connector, the one tunnel with the e of three-way solenoid valve 14
1Mouth connects, and another road is connected with an end of unloader 13, the other end of unloader 13 K of tube connector and heat exchanger 4
3Mouth connects, the e of three-way solenoid valve 14
2Mouth uses tube connector through the RS of air control valve 15 with boiler 1
1Mouth connects, the e of three-way solenoid valve 14
3The mouth Z of tube connector and heat exchanger 21
2Mouth connects, the Z of heat exchanger 21
1Mouth is divided into two-way with tube connector by threeway, and one the tunnel through the RS of air control valve 16 with boiler 1
2Mouthful connect, another road is connected with capillary 12 1 ends, and capillary 12 other ends pass through threeway with tube connector and are divided into two-way, and one the tunnel and the K of heat exchanger 4
2Mouth connects, the d of another road and three-way solenoid valve 9
1Mouth connects; The exhaust outlet of compressor 7 b of tube connector and four-way electromagnetic reversing valve 6
1Mouth connects, the b of four-way electromagnetic reversing valve 6
2Mouthful with tube connector by three reduction of fractions to a common denominator two-way, the one tunnel with the c of three-way solenoid valve 5
2Mouth connects, the Z of another road and heat exchanger 21
4Mouth connects, the b of four-way electromagnetic reversing valve 6
3Mouth is connected the b of four-way electromagnetic reversing valve 6 with tube connector with the air entry of compressor 7
4By three reduction of fractions to a common denominator two-way, the one tunnel through the RS of air control valve 17 with boiler 1 with tube connector for mouth
3Mouth connects, and another road is connected with an end of unloader 10, the other end of unloader 10 K of tube connector and heat exchanger 4
6Mouth connects, the Z of heat exchanger 21
3Mouth is connected with an end of capillary 20 with tube connector, the other end of capillary 20 f of tube connector and three-way solenoid valve 19
3Mouth connects, the f of three-way solenoid valve 19
1Mouth passes through the RS of air control valve 18 and boiler 1 with tube connector
4Mouth connects, the f of three-way solenoid valve 19
2Mouth is connected with an end of capillary 11 with tube connector, the other end of capillary 11 d of tube connector and three-way solenoid valve 9
3Mouth connects, the d of three-way solenoid valve 9
2The mouth k of tube connector and heat exchanger 4
5Mouth connects, the k of heat exchanger 4
4The mouth c of tube connector and three-way solenoid valve 5
3Mouth connects.Fan 8 is installed on the heat exchanger 4.
Its course of work is as follows:
One, heat the water running mode:
1, parallel running mode: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 3
1Mouthful, by a
4Mouth comes out, through three-way solenoid valve 14, air control valve 15, enter boiler 1 and be condensed into subcooled liquid, again through air control valve 16, entering capillary 12 step-down throttlings is low pressure, low temperature liquid, enter heat exchanger 4 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 3, by a of four-way electromagnetic reversing valve 3
3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 7 is discharged enters the b of four way solenoid valve 6
1Mouthful, by b
4Mouth comes out through air control valve 17, enter boiler 1 and be condensed into subcooled liquid, again through air control valve 18, three-way solenoid valve 19, entering capillary 11 step-down throttlings is low pressure, low temperature liquid, through three-way solenoid valve 9, enter heat exchanger 4 evaporation heat absorptions and become low-pressure superheated steam, through three-way solenoid valve 5, four-way electromagnetic reversing valve 6, by the b of four-way electromagnetic reversing valve 6
3Mouth returns compressor 7 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 3
1Mouthful, by a of four way solenoid valve 3
4Mouth comes out, through three-way solenoid valve 14, enter heat exchanger 21 and be condensed into subcooled liquid, be low pressure, low temperature liquid through capillary 12 step-down throttlings again, divide two-way to enter heat exchanger 4 evaporation heat absorptions and become low-pressure superheated steam, after two-way converges, again through four-way electromagnetic reversing valve 3, by a of four-way electromagnetic reversing valve 3
3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 7 is discharged is through the b of four way solenoid valve 6
1Mouthful, by b
4Mouth comes out, enter boiler 1 through air control valve 17 and be condensed into subcooled liquid, again through air control valve 18, three-way solenoid valve 19, entering capillary 20 step-down throttlings is low pressure, low temperature liquid, enter heat exchanger 21 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 6, by the b of four-way electromagnetic reversing valve 6
3Mouth returns compressor 7 and compresses again, enters next thermodynamic cycle.
Two, Defrost operation mode:
1, parallel running mode: the HTHP working media that compressor 2 is discharged enters a of four way solenoid valve 3
1Mouthful, by a
2Mouth comes out, enter heat exchanger 4 and be condensed into subcooled liquid, through capillary 12 step-down throttlings is low pressure, low temperature liquid, enter boiler 1 evaporation heat absorption through air control valve 16 and become low-pressure superheated steam, again through air control valve 15, three-way solenoid valve 14, four-way electromagnetic reversing valve 3, by a of four-way electromagnetic reversing valve 3
3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 7 is discharged enters the b of four way solenoid valve 6
1Mouthful, by b
2Mouth comes out, enter heat exchanger 4 through three-way solenoid valve 5 and be condensed into subcooled liquid, through three-way solenoid valve 9, entering capillary 11 step-down throttlings is low pressure, low temperature liquid, flow through three-way solenoid valve 19, air control valve 18, enter boiler 1 evaporation heat absorption and become low-pressure superheated steam, through air control valve 17, four-way electromagnetic reversing valve 6, by the b of four-way electromagnetic reversing valve 6
3Mouth returns compressor 7 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 3
1Mouthful, by a
4Mouth comes out, enter heat exchanger 21 through three-way solenoid valve 14 and be condensed into subcooled liquid, be low pressure, low temperature liquid through capillary 12 step-down throttlings again, divide two-way to enter heat exchanger 4 evaporation heat absorptions and become low-pressure superheated steam, after two-way converges, again through four-way electromagnetic reversing valve 3, by a of four-way electromagnetic reversing valve 3
3Mouth returns compressor 2 and compresses again, enters next thermodynamic cycle.
The HTHP working media that compressor 7 is discharged enters the b of four way solenoid valve 6
1Mouthful, by b
4Mouth comes out, enter boiler 1 through air control valve 17 and be condensed into subcooled liquid, again through air control valve 18, three-way solenoid valve 19, entering capillary 20 step-down throttlings is low pressure, low temperature liquid, enter heat exchanger 21 evaporation heat absorptions and become low-pressure superheated steam, through four-way electromagnetic reversing valve 6, by the b of four-way electromagnetic reversing valve 6
3Mouth returns compressor 7 and compresses again, enters next thermodynamic cycle.