CN2890743Y - Double-linkage air energy water heater - Google Patents

Double-linkage air energy water heater Download PDF

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Publication number
CN2890743Y
CN2890743Y CN 200620031391 CN200620031391U CN2890743Y CN 2890743 Y CN2890743 Y CN 2890743Y CN 200620031391 CN200620031391 CN 200620031391 CN 200620031391 U CN200620031391 U CN 200620031391U CN 2890743 Y CN2890743 Y CN 2890743Y
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CN
China
Prior art keywords
tube connector
mouthful
way
heat exchanger
solenoid valve
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200620031391
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Chinese (zh)
Inventor
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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Priority to CN 200620031391 priority Critical patent/CN2890743Y/en
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Publication of CN2890743Y publication Critical patent/CN2890743Y/en
Anticipated expiration legal-status Critical
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/12Hot water central heating systems using heat pumps

Abstract

The utility model discloses a double-linkage air energy water heater belonging to household appliance manufacturing technology field. The structural characteristics are that three-way electromagnetic reversing valves (14), (19), (9), (5), unloading valves (13), (10), a heat exchanger (21) and capillaries (20), (11) are arranged successively between four-way electromagnetic reversing valves (3), (6) of two compressors (2), (7) and a heat exchanger (4), and a hot water tank (1) is connected with air conditioner valves (15), (16), (17), (18) respectively. The utility model has heat storing and buffering functions, compact structure, simple control, convenient operation, and high efficiency energy ratio, can be used both as a heating device for generating heat energy and as a domestic hot water supplier, and can be operated singly, in parallel or in series.

Description

The Dual coupling water heating device using air energy
Technical field
The utility model relates to a kind of air energy hot water apparatus, and specifically a kind of Dual coupling water heating device using air energy belongs to field of domestic appliances manufacture technology.
Background technology
At present, it is a lot of to utilize the heat pump operation principle to produce domestic hot-water's innovation and creation, as invention and created name be: the heat pump type air conditioner hot-water dual-purpose device, the patent No. is: 03259175.6 Chinese patent has been announced a kind of heat pump type air conditioner hot-water dual-purpose device, its structure is: the exhaust outlet of compressor 1 is connected with magnetic valve 2A, 2C by threeway, and the other end of magnetic valve 2C links to each other with magnetic valve 8,2B, indoor finned tube exchanger 5 by four-way; The other end of magnetic valve 2A connects three road devices by four-way, and the first via connects magnetic valve 16, the second tunnel and links to each other with outdoor finned tube exchanger 4 by magnetic valve 7, and Third Road connects the air entry of magnetic valve 2B and compressor by magnetic valve 2D; Wherein the first via is connected magnetic valve 10 with outdoor finned tube exchanger 4, magnetic valve 9, check valve 14 in the second road device by four-way, and the other end of magnetic valve 10 links to each other with indoor finned tube exchanger by throttle capillary tube 6; Water tank 12 is by the cold double-pipe condenser of water pump 17 water receivings.The very low weak point of Energy Efficiency Ratio when this device exists environment temperature to be lower than 0 ℃.
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.
Description of drawings:
Fig. 1 is a structural representation of the present utility model.
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.

Claims (1)

1, a kind of Dual coupling water heating device using air energy, comprise compressor, four-way electromagnetic reversing valve, heat exchanger, boiler, unloader, three-way solenoid valve, air control valve, capillary, tube connector, it is characterized in that: the exhaust outlet of compressor (the 2) (a of tube connector and four-way electromagnetic reversing valve (3) 1) mouthful connection, (a of four-way electromagnetic reversing valve (3) 2) mouthful 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) 1) mouthful connection, (the K of another road and heat exchanger (4) 1) mouthful connection, (a of four-way electromagnetic reversing valve (3) 3) mouthful be connected the (a of four-way electromagnetic reversing valve (3) with the air entry of compressor (2) with a tube connector 4) mouthful be divided into two-way through threeway with tube connector, the one tunnel with the (e of three-way solenoid valve (14) 1) mouthful connection, another road is connected with an end of unloader (13), the other end of unloader (the 13) (K of tube connector and heat exchanger (4) 3) mouthful connection, (the e of three-way solenoid valve (14) 2) mouth (RS of tube connector through air control valve (15) and boiler (1) 1) mouthful connection, (the e of three-way solenoid valve (14) 3) mouthful (Z with tube connector and heat exchanger (21) 2) mouthful connection, (the Z of heat exchanger (21) 1) mouthful be divided into two-way by threeway with tube connector, the one tunnel through the (RS of air control valve (16) with boiler (1) 2) mouthful connect, another road is connected with capillary (12) one ends, and capillary (12) other end passes through threeway with tube connector and is divided into two-way, and one the tunnel and the (K of heat exchanger (4) 2) mouthful connection, (the d of another road and three-way solenoid valve (9) 1) mouthful connection; The exhaust outlet of compressor (the 7) (b of tube connector and four-way electromagnetic reversing valve (6) 1) mouthful connection, (the b of four-way electromagnetic reversing valve (6) 2) mouthful 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) 2) mouthful connection, (the Z of another road and heat exchanger (21) 4) mouthful connection, (the b of four-way electromagnetic reversing valve (6) 3) mouthful be connected the (b of four-way electromagnetic reversing valve (6) with the air entry of compressor (7) with a tube connector 4) by 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 3) mouthful connection, another road is connected with an end of unloader (10), the other end of unloader (the 10) (K of tube connector and heat exchanger (4) 6) mouthful connection, (the Z of heat exchanger (21) 3) mouthful be connected the other end usefulness tube connector of capillary (20) and (f of three-way solenoid valve (19) with a tube connector with an end of capillary (20) 3) mouthful connection, (the f of three-way solenoid valve (19) 1) mouthful with the (RS of tube connector by air control valve (18) and boiler (1) 4) mouthful connection, (the f of three-way solenoid valve (19) 2) mouthful be connected the other end usefulness tube connector of capillary (11) and (d of three-way solenoid valve (9) with a tube connector with an end of capillary (11) 3) mouthful connection, (the d of three-way solenoid valve (9) 2) mouthful (k with tube connector and heat exchanger (4) 5) mouthful connection, (the k of heat exchanger (4) 4) mouthful (c with tube connector and three-way solenoid valve (5) 3) mouthful connection, fan (8) is set on the heat exchanger (4).
CN 200620031391 2006-03-31 2006-03-31 Double-linkage air energy water heater Expired - Fee Related CN2890743Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200620031391 CN2890743Y (en) 2006-03-31 2006-03-31 Double-linkage air energy water heater

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Application Number Priority Date Filing Date Title
CN 200620031391 CN2890743Y (en) 2006-03-31 2006-03-31 Double-linkage air energy water heater

Publications (1)

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CN2890743Y true CN2890743Y (en) 2007-04-18

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102506502A (en) * 2011-10-19 2012-06-20 广东美的暖通设备限公司 Heat-accumulation-type cascade-cycle water heating machine and control method thereof
WO2013026274A1 (en) * 2011-08-25 2013-02-28 Feng Zhengyi Superconducting heat transfer cooling and heating apparatus

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2013026274A1 (en) * 2011-08-25 2013-02-28 Feng Zhengyi Superconducting heat transfer cooling and heating apparatus
CN102506502A (en) * 2011-10-19 2012-06-20 广东美的暖通设备限公司 Heat-accumulation-type cascade-cycle water heating machine and control method thereof

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Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
EE01 Entry into force of recordation of patent licensing contract

Assignee: Dongguan Lad Environmental Science & Technology Co., Ltd.

Assignor: Sun Yingzhen

Contract fulfillment period: 2008.12.8 to 2013.12.7

Contract record no.: 2009440000040

Denomination of utility model: Double-linkage air energy water heater

Granted publication date: 20070418

License type: Exclusive license

Record date: 20081226

LIC Patent licence contract for exploitation submitted for record

Free format text: EXCLUSIVE LICENSE; TIME LIMIT OF IMPLEMENTING CONTACT: 2008.12.8 TO 2013.12.7; CHANGE OF CONTRACT

Name of requester: DONGGUAN LI NDA ENVIRONMENT TECHNOLOGY CO., LTD.

Effective date: 20081226

C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20070418