CN105091151A - Water dispenser capable of utilizing excess energy of air conditioner - Google Patents
Water dispenser capable of utilizing excess energy of air conditioner Download PDFInfo
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- CN105091151A CN105091151A CN201410190425.3A CN201410190425A CN105091151A CN 105091151 A CN105091151 A CN 105091151A CN 201410190425 A CN201410190425 A CN 201410190425A CN 105091151 A CN105091151 A CN 105091151A
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- triple valve
- heat exchanger
- heat
- valve
- water
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0096—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater combined with domestic apparatus
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D31/00—Other cooling or freezing apparatus
- F25D31/005—Combined cooling and heating devices
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
- F24F11/83—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F12/00—Use of energy recovery systems in air conditioning, ventilation or screening
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/30—Arrangement or mounting of heat-exchangers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B13/00—Compression machines, plants or systems, with reversible cycle
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
- F24F11/83—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers
- F24F11/84—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the supply of heat-exchange fluids to heat-exchangers using valves
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Other Air-Conditioning Systems (AREA)
Abstract
The invention discloses a water dispenser capable of utilizing the excess energy of an air conditioner. A compressor and a four-way valve are arranged in an outdoor unit of the air conditioner; an indoor unit cabinet of the air conditioner mainly comprises a shell, a draught fan, an evaporator and a controller; the water dispenser is connected with a water source. According to the water dispenser disclosed by the invention, the condition that hot water comes out from one water faucet of the water dispenser and cold water comes out from the other water faucet of the water dispenser can be realized through heat exchange by a refrigerant, which flows through a first heat exchange pipe and a second heat exchange pipe, of the air conditioner; excess heat or excess cooling capacity generated during working of the air conditioner can be effectively utilized for helping heating or refrigerating water.
Description
Technical field
The present invention relates to a kind of water dispenser that can utilize air conditioner excess energy, belong to the optimisation technique of air conditioner.
Background technology
Water dispenser is an independently equipment normally, is heated or freeze by power supply.The cold produced when the heat produced during air conditioner refrigeration and air conditioner heat, normally be discharged in outdoor air by off-premises station, cause the waste of the energy, if no energy feeds water heating or refrigeration on water dispenser when air conditioner can be worked, just can effective economize energy.
Therefore, the water dispenser of the excess energy produced when searching is a kind of can effectively utilize air conditioner to work is needed.
Summary of the invention
The object of this invention is to provide a kind of water dispenser of the unnecessary energy produced when can effectively utilize air conditioner to work.
Technical scheme of the present invention is: the water dispenser that can utilize air conditioner excess energy, compressor 1 and cross valve 2 is provided with in the off-premises station of air conditioner, the indoor machine cabinet of air conditioner mainly comprises shell, blower fan, evaporimeter 3 and controller, and water dispenser is located on indoor set, and water dispenser is connected with water source 6; Described water dispenser mainly comprises the first Heat Room 4, First Heat Exchanger 41, first heat exchanger tube 42, first tap 43, second Heat Room 5, second heat exchanger 51, second heat exchanger tube 52, second tap 53; Energy-storage liquid is filled in the first Heat Room and the second Heat Room; First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, and one end of the first heat exchanger tube is connected with water source, and the other end is connected with the first tap, and the water at water source is by flowing to the first tap 43 after the first heat exchanger tube 42 heat exchange; Second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, and one end of the second heat exchanger tube is connected with water source, and the other end is connected with the second tap, and the water at water source is by flowing to the second tap 53 after the second heat exchanger tube 52 heat exchange; First tap and the second tap are located at outer shell outer wall; Compressor is connected with cross valve, and a port of cross valve is connected with the 4th triple valve 44 by pipeline, and the Chang Kaiduan of the 4th triple valve is connected with First Heat Exchanger 41, and normal-closed end is connected with condenser 7; The other end of First Heat Exchanger is connected with condenser by pipeline; The other end of condenser is connected with the first triple valve 31, and the Chang Kaiduan of the first triple valve is connected with evaporimeter 3, and the normal-closed end of the first triple valve is connected by the normal-closed end of pipeline with the second triple valve 32; The other end of evaporimeter 3 is connected with the Chang Kaiduan of the second triple valve; Second triple valve is connected with the 6th triple valve 8; The Chang Kaiduan of the 6th triple valve is connected with the second heat exchanger 52, and normal-closed end is connected with the normal-closed end of the 3rd triple valve 54; The other end of the second heat exchanger is connected with the Chang Kaiduan of the 3rd triple valve, and the 3rd triple valve is connected with another port of cross valve; Condenser and choke valve are placed in outdoor.
When water dispenser work and air conditioner refrigeration, refrigerant flows into the 4th triple valve 44 from compressor through a port of cross valve, First Heat Exchanger 41 is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, refrigerant out flows into condenser 7 heat exchange afterwards from the first Heat Room, the first triple valve 31 is entered again through choke valve, enter evaporimeter 3 from the normal beginning to freeze, outwards cold air is blown out by blower fan, the 5th triple valve 8 is flow to again through the Chang Kaiduan of the second triple valve 32, the second heat exchanger 51 heat exchange is entered from the Chang Kaiduan of the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows out the Chang Kaiduan entering the 3rd triple valve 54 from the second Heat Room, compressor is flowed back to through cross valve, the 4th triple valve is flowed to from cross valve again after pressurization, so move in circles.
When water dispenser work and air-conditioning heating, the reverse circulation of refrigerant, the 3rd triple valve 54 is entered through cross valve after compressor flows out, the second heat exchanger heat exchange is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out the Chang Kaiduan entering the 5th triple valve 8 from the second heat exchanger, enter the second triple valve again, enter evaporimeter 3 from the Chang Kaiduan of the second triple valve 32 to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser 7 heat exchange is entered through choke valve, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant flows out the Chang Kaiduan entering the 4th triple valve from the first Heat Room, then compressor is got back to after flowing through cross valve, so move in circles.
Air conditioner does not work and water dispenser needs work time, there are two kinds of operating modes, when one is summer, refrigerant flows into First Heat Exchanger 41 heat exchange from compressor through cross valve and the 4th triple valve, heat is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, then refrigerant flows to condenser 7 heat exchange, the first triple valve 31 is entered again through choke valve, the normal-closed end of the second triple valve is flow to from the normal-closed end of the first triple valve, the second heat exchanger heat exchange is entered after the second triple valve flows into the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows back to compressor from the 3rd triple valve through cross valve again, so move in circles, during winter, the reverse circulation of refrigerant, the 3rd triple valve is entered through cross valve after compressor flows out, the second heat exchanger 51 heat exchange is entered again from the Chang Kaiduan of the 3rd triple valve, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out from the second heat exchanger and enters the 5th triple valve from the Chang Kaiduan of the 5th triple valve, enter the second triple valve 32 again, the normal-closed end of the first triple valve is entered from the normal-closed end of the second triple valve, choke valve is flowed into again from the first triple valve, enter condenser 7 again, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant gets back to compressor after flowing through the 4th triple valve and cross valve, so move in circles.
When water dispenser do not work and air conditioner refrigeration time, refrigerant flows into the 4th triple valve 44 from compressor through a port of cross valve, condenser 7 heat exchange is flowed into from normal-closed end, the first triple valve 31 is entered again through choke valve, enter evaporimeter 3 from the Chang Kaiduan of the first triple valve to freeze, outwards cold air is blown out by blower fan, the 5th triple valve 8 is flow to again through the Chang Kaiduan of the second triple valve 32, the normal-closed end of the 3rd triple valve is flowed into from the normal-closed end of the 5th triple valve, flow back to compressor through the 3rd triple valve and cross valve, so move in circles.
When water dispenser does not work, air conditioner heats, the reverse circulation of refrigerant, refrigerant enters the 3rd triple valve 54 through cross valve after compressor flows out, the normal-closed end of the 5th triple valve is entered from the normal-closed end of the 3rd triple valve, the second triple valve is flow to again from the 5th triple valve, enter evaporimeter 3 from the Chang Kaiduan of the second triple valve 32 to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser 7 heat exchange is entered through choke valve, flow into the normal-closed end of the 4th triple valve again, get back to compressor after then flowing through cross valve, so move in circles.
Described energy-storage liquid selects water or freezing liquid or oil.
Described water source is running water or water tank or bucket.
Condenser and choke valve are placed in off-premises station.
When air conditioner is cabinet air-conditioner, water dispenser is located on indoor set.
Beneficial effect
1, water dispenser flows through the first heat exchanger tube by the refrigerant of air conditioner and the second heat exchanger tube heat exchange realizes a tap
Go out hot water, a tap goes out cold water, the waste heat produced when effectively make use of air conditioner work or cold
Help water heating or refrigeration.
Accompanying drawing explanation
Fig. 1 is fundamental diagram of the present invention;
Fig. 2 is one embodiment of the present of invention.
Detailed description of the invention
As shown in Figure 1, can utilize the water dispenser of air conditioner excess energy, be provided with compressor 1 and cross valve 2 in the off-premises station of air conditioner, the indoor machine cabinet of air conditioner mainly comprises shell, blower fan, evaporimeter 3 and controller, and water dispenser is connected with water source 6.
As shown in Figure 2, when described air conditioner is cabinet air-conditioner, water dispenser is placed on cabinet-type air conditioner, the occupation of land space of water dispenser can be saved, and the connection between water dispenser and the pipeline of air conditioner is also more simple, and cost is relative also lower.
When air conditioner is split-type air conditioner, water dispenser is arranged separately, is connected with the pipeline of air conditioner by pipeline, enables refrigerant flow through First Heat Exchanger in water dispenser and/or the second heat exchanger carries out heat exchange.
Described water dispenser mainly comprises the first Heat Room 4, First Heat Exchanger 41, first heat exchanger tube 42, first tap 43, second Heat Room 5, second heat exchanger 51, second heat exchanger tube 52, second tap 53; Energy-storage liquid is filled in the first Heat Room and the second Heat Room; First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, and one end of the first heat exchanger tube is connected with water source, and the other end is connected with the first tap, and the water at water source is by flowing to the first tap 43 after the first heat exchanger tube 42 heat exchange; Second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, and one end of the second heat exchanger tube is connected with water source, and the other end is connected with the second tap, and the water at water source is by flowing to the second tap 53 after the second heat exchanger tube 52 heat exchange; First tap and the second tap are located at outer shell outer wall; Compressor is connected with cross valve, and a port of cross valve is connected with the 4th triple valve 44 by pipeline, and the Chang Kaiduan of the 4th triple valve is connected with First Heat Exchanger 41, and normal-closed end is connected with condenser 7; The other end of First Heat Exchanger is connected with condenser by pipeline; The other end of condenser is connected with the first triple valve 31, and the Chang Kaiduan of the first triple valve is connected with evaporimeter 3, and the normal-closed end of the first triple valve is connected by the normal-closed end of pipeline with the second triple valve 32; The other end of evaporimeter 3 is connected with the Chang Kaiduan of the second triple valve; Second triple valve is connected with the 6th triple valve 8; The Chang Kaiduan of the 6th triple valve is connected with the second heat exchanger 52, and normal-closed end is connected with the normal-closed end of the 3rd triple valve 54; The other end of the second heat exchanger is connected with the Chang Kaiduan of the 3rd triple valve, and the 3rd triple valve is connected with another port of cross valve; Condenser and choke valve are placed in outdoor.
When water dispenser work and air conditioner refrigeration, refrigerant flows into the 4th triple valve 44 from compressor through a port of cross valve, First Heat Exchanger 41 is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, refrigerant out flows into condenser 7 heat exchange afterwards from the first Heat Room, the first triple valve 31 is entered again through choke valve, enter evaporimeter 3 from the normal beginning to freeze, outwards cold air is blown out by blower fan, the 5th triple valve 8 is flow to again through the Chang Kaiduan of the second triple valve 32, the second heat exchanger 51 heat exchange is entered from the Chang Kaiduan of the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows out the Chang Kaiduan entering the 3rd triple valve 54 from the second Heat Room, compressor is flowed back to through cross valve, the 4th triple valve is flowed to from cross valve again after pressurization, so move in circles.
When water dispenser work and air-conditioning heating, the reverse circulation of refrigerant, the 3rd triple valve 54 is entered through cross valve after compressor flows out, the second heat exchanger heat exchange is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out the Chang Kaiduan entering the 5th triple valve 8 from the second heat exchanger, enter the second triple valve again, enter evaporimeter 3 from the Chang Kaiduan of the second triple valve 32 to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser 7 heat exchange is entered through choke valve, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant flows out the Chang Kaiduan entering the 4th triple valve from the first Heat Room, then compressor is got back to after flowing through cross valve, so move in circles.
Air conditioner does not work and water dispenser needs work time, there are two kinds of operating modes, when one is summer, refrigerant flows into First Heat Exchanger 41 heat exchange from compressor through cross valve and the 4th triple valve, heat is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, then refrigerant flows to condenser 7 heat exchange, the first triple valve 31 is entered again through choke valve, the normal-closed end of the second triple valve is flow to from the normal-closed end of the first triple valve, the second heat exchanger heat exchange is entered after the second triple valve flows into the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows back to compressor from the 3rd triple valve through cross valve again, so move in circles, during winter, the reverse circulation of refrigerant, the 3rd triple valve is entered through cross valve after compressor flows out, the second heat exchanger 51 heat exchange is entered again from the Chang Kaiduan of the 3rd triple valve, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out from the second heat exchanger and enters the 5th triple valve from the Chang Kaiduan of the 5th triple valve, enter the second triple valve 32 again, the normal-closed end of the first triple valve is entered from the normal-closed end of the second triple valve, choke valve is flowed into again from the first triple valve, enter condenser 7 again, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room 4 and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant gets back to compressor after flowing through the 4th triple valve and cross valve, so move in circles.
When water dispenser do not work and air conditioner refrigeration time, refrigerant flows into the 4th triple valve 44 from compressor through a port of cross valve, condenser 7 heat exchange is flowed into from normal-closed end, the first triple valve 31 is entered again through choke valve, enter evaporimeter 3 from the Chang Kaiduan of the first triple valve to freeze, outwards cold air is blown out by blower fan, the 5th triple valve 8 is flow to again through the Chang Kaiduan of the second triple valve 32, the normal-closed end of the 3rd triple valve is flowed into from the normal-closed end of the 5th triple valve, flow back to compressor through the 3rd triple valve and cross valve, so move in circles.
When water dispenser does not work, air conditioner heats, the reverse circulation of refrigerant, refrigerant enters the 3rd triple valve 54 through cross valve after compressor flows out, the normal-closed end of the 5th triple valve is entered from the normal-closed end of the 3rd triple valve, the second triple valve is flow to again from the 5th triple valve, enter evaporimeter 3 from the Chang Kaiduan of the second triple valve 32 to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser 7 heat exchange is entered through choke valve, flow into the normal-closed end of the 4th triple valve again, get back to compressor after then flowing through cross valve, so move in circles.
Described energy-storage liquid selects water or freezing liquid or oil.
Described water source is running water or water tank or bucket.
Condenser and choke valve are placed in off-premises station.
No matter whether air conditioner works, and water dispenser can both normally work; No matter water dispenser is the need of work, and air conditioner can both normally work.
Above-described embodiment is only used to interpretation purposes of the present invention, and is not limitation of the present invention, those skilled in the art, in essential scope of the present invention, makes a variety of changes or substitutes, also should belong to protection category of the present invention.
Claims (10)
1. can utilize the water dispenser of air conditioner excess energy, compressor (1) and cross valve (2) is provided with in the off-premises station of air conditioner, the indoor machine cabinet of air conditioner mainly comprises shell, blower fan, evaporimeter (3) and controller, it is characterized in that: water dispenser is connected with water source (6); Described water dispenser mainly comprises the first Heat Room (4), First Heat Exchanger (41), the first heat exchanger tube (42), the first tap (43), the second Heat Room (5), the second heat exchanger (51), the second heat exchanger tube (52), the second tap (53); Energy-storage liquid is filled in the first Heat Room and the second Heat Room; First Heat Exchanger, the first heat exchanger tube are immersed in the energy-storage liquid of the first Heat Room, one end of first heat exchanger tube is connected with water source, the other end is connected with the first tap, and the water at water source flows to the first tap (43) by after the first heat exchanger tube (42) heat exchange; Second heat exchanger, the second heat exchanger tube are immersed in the energy-storage liquid in the second Heat Room, one end of second heat exchanger tube is connected with water source, the other end is connected with the second tap, and the water at water source flows to the second tap (53) by after the second heat exchanger tube (52) heat exchange; First tap and the second tap are located at outer shell outer wall; Compressor is connected with cross valve, and a port of cross valve is connected with the 4th triple valve (44) by pipeline, and the Chang Kaiduan of the 4th triple valve is connected with First Heat Exchanger (41), and normal-closed end is connected with condenser (7); The other end of First Heat Exchanger is connected with condenser by pipeline; The other end of condenser is connected with the first triple valve (31), and the Chang Kaiduan of the first triple valve is connected with evaporimeter (3), and the normal-closed end of the first triple valve is connected by the normal-closed end of pipeline with the second triple valve (32); The other end of evaporimeter (3) is connected with the Chang Kaiduan of the second triple valve; Second triple valve is connected with the 6th triple valve (8); The Chang Kaiduan of the 6th triple valve is connected with the second heat exchanger (52), and normal-closed end is connected with the normal-closed end of the 3rd triple valve (54); The other end of the second heat exchanger is connected with the Chang Kaiduan of the 3rd triple valve, and the 3rd triple valve is connected with another port of cross valve; Condenser and choke valve are placed in outdoor.
2. the water dispenser that can utilize air conditioner excess energy according to claim 1, it is characterized in that: when water dispenser work and air conditioner refrigeration, refrigerant flows into the 4th triple valve (44) from compressor through a port of cross valve, First Heat Exchanger (41) is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the first Heat Room (4) and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, refrigerant out flows into condenser (7) heat exchange afterwards from the first Heat Room, the first triple valve (31) is entered again through choke valve, evaporimeter (3) refrigeration is entered from the normal beginning, outwards cold air is blown out by blower fan, the 5th triple valve (8) is flow to again through the Chang Kaiduan of the second triple valve (32), the second heat exchanger (51) heat exchange is entered from the Chang Kaiduan of the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows out the Chang Kaiduan entering the 3rd triple valve (54) from the second Heat Room, compressor is flowed back to through cross valve, the 4th triple valve is flowed to from cross valve again after pressurization, so move in circles.
3. the water dispenser that can utilize air conditioner excess energy according to claim 1, it is characterized in that: when water dispenser work and air conditioner heat, the reverse circulation of refrigerant, the 3rd triple valve (54) is entered through cross valve after compressor flows out, the second heat exchanger heat exchange is entered from the normal beginning, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out the Chang Kaiduan entering the 5th triple valve (8) from the second heat exchanger, enter the second triple valve again, enter evaporimeter (3) from the Chang Kaiduan of the second triple valve (32) to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser (7) heat exchange is entered through choke valve, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room (4) and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant flows out the Chang Kaiduan entering the 4th triple valve from the first Heat Room, then compressor is got back to after flowing through cross valve, so move in circles.
4. the water dispenser that can utilize air conditioner excess energy according to claim 1, it is characterized in that: air conditioner does not work and water dispenser needs work time, there are two kinds of operating modes, when one is summer, refrigerant flows into First Heat Exchanger (41) heat exchange from compressor through cross valve and the 4th triple valve, heat is absorbed by the energy-storage liquid in the first Heat Room (4) and conducts to the first heat exchanger tube, water in first heat exchanger tube is heated, then refrigerant flows to condenser (7) heat exchange, the first triple valve (31) is entered again through choke valve, the normal-closed end of the second triple valve is flow to from the normal-closed end of the first triple valve, the second heat exchanger heat exchange is entered after the second triple valve flows into the 5th triple valve, cold is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, water in second heat exchanger tube is turned cold, refrigerant flows back to compressor from the 3rd triple valve through cross valve again, so move in circles, during winter, the reverse circulation of refrigerant, the 3rd triple valve is entered through cross valve after compressor flows out, the second heat exchanger (51) heat exchange is entered again from the Chang Kaiduan of the 3rd triple valve, heat is absorbed by the energy-storage liquid in the second Heat Room and conducts to the second heat exchanger tube, make the water heating in the second heat exchanger tube, refrigerant flows out from the second heat exchanger and enters the 5th triple valve from the Chang Kaiduan of the 5th triple valve, enter the second triple valve (32) again, the normal-closed end of the first triple valve is entered from the normal-closed end of the second triple valve, choke valve is flowed into again from the first triple valve, enter condenser (7) again, flow into First Heat Exchanger heat exchange again, cold is absorbed by the energy-storage liquid in the first Heat Room (4) and conducts to the first heat exchanger tube, make the water in the first heat exchanger tube cooled, refrigerant gets back to compressor after flowing through the 4th triple valve and cross valve, so move in circles.
5. the water dispenser that can utilize air conditioner excess energy according to claim 1, it is characterized in that: when water dispenser do not work and air conditioner refrigeration time, refrigerant flows into the 4th triple valve (44) from compressor through a port of cross valve, condenser (7) heat exchange is flowed into from normal-closed end, the first triple valve (31) is entered again through choke valve, evaporimeter (3) refrigeration is entered from the Chang Kaiduan of the first triple valve, outwards cold air is blown out by blower fan, the 5th triple valve (8) is flow to again through the Chang Kaiduan of the second triple valve (32), the normal-closed end of the 3rd triple valve is flowed into from the normal-closed end of the 5th triple valve, compressor is flowed back to through the 3rd triple valve and cross valve, so move in circles.
6. the water dispenser that can utilize air conditioner excess energy according to claim 1, it is characterized in that: when when water dispenser does not work, air conditioner heats, the reverse circulation of refrigerant, refrigerant enters the 3rd triple valve (54) through cross valve after compressor flows out, the normal-closed end of the 5th triple valve is entered from the normal-closed end of the 3rd triple valve, the second triple valve is flow to again from the 5th triple valve, enter evaporimeter (3) from the Chang Kaiduan of the second triple valve (32) to heat, blower fan blowout hot blast, refrigerant enters from the Chang Kaiduan of the first triple valve again, condenser (7) heat exchange is entered through choke valve, flow into the normal-closed end of the 4th triple valve again, then compressor is got back to after flowing through cross valve, so move in circles.
7. the water dispenser that can utilize air conditioner excess energy according to claim 1, is characterized in that: described energy-storage liquid selects water or freezing liquid or oil.
8. the water dispenser that can utilize air conditioner excess energy according to claim 1, is characterized in that: described water source is running water or water tank or bucket.
9. the water dispenser that can utilize air conditioner excess energy according to claim 1, is characterized in that: condenser and choke valve are placed in off-premises station.
10. the water dispenser that can utilize air conditioner excess energy according to claim 1, is characterized in that: when air conditioner is cabinet air-conditioner, water dispenser is located on indoor set.
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CN201710700823.9A CN107504757A (en) | 2014-05-07 | 2014-05-07 | A kind of energy-saving drinking machine |
CN201410190425.3A CN105091151B (en) | 2014-05-07 | 2014-05-07 | The water dispenser of air conditioner excess energy can be utilized |
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CN201410190425.3A CN105091151B (en) | 2014-05-07 | 2014-05-07 | The water dispenser of air conditioner excess energy can be utilized |
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CN201710700823.9A Division CN107504757A (en) | 2014-05-07 | 2014-05-07 | A kind of energy-saving drinking machine |
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CN105091151B CN105091151B (en) | 2017-10-17 |
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CN201710700823.9A Withdrawn CN107504757A (en) | 2014-05-07 | 2014-05-07 | A kind of energy-saving drinking machine |
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CN201138025Y (en) * | 2007-12-13 | 2008-10-22 | 张茂勇 | Water heating and boiling multifunctional machine of energy saving cyclic type air conditioner with water pump |
CN201322468Y (en) * | 2008-12-19 | 2009-10-07 | 余姚捷丰空调设备有限公司 | Novel multi-functional heat pump air conditioner |
CN201348343Y (en) * | 2008-12-31 | 2009-11-18 | 东莞市捷能热能科技有限公司 | Air source cold and hot water dispenser |
CN202158624U (en) * | 2011-08-06 | 2012-03-07 | Tcl空调器(中山)有限公司 | Multifunctional air conditioner |
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CN107504757A (en) | 2017-12-22 |
CN105091151B (en) | 2017-10-17 |
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Effective date of registration: 20190723 Address after: Haimen Changle Town Changqing Road 226100 Jiangsu city of Nantong province No. 88 Patentee after: Haimen Dade Intellectual Property Services Limited Address before: 528463 Kangle Road, Guangdong Torch Development Zone, Zhongshan Avenue, No. 133 Patentee before: ZHONGSHAN YAXI ENVIRONMENTAL PROTECTION TECHNOLOGY CO., LTD. |