CN1837707A - Heat-pump hot water supply apparatus - Google Patents
Heat-pump hot water supply apparatus Download PDFInfo
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- CN1837707A CN1837707A CNA2006100659122A CN200610065912A CN1837707A CN 1837707 A CN1837707 A CN 1837707A CN A2006100659122 A CNA2006100659122 A CN A2006100659122A CN 200610065912 A CN200610065912 A CN 200610065912A CN 1837707 A CN1837707 A CN 1837707A
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- Prior art keywords
- water
- hot
- temperature
- heat exchanger
- defrosting
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/20—Arrangement or mounting of control or safety devices
- F24H9/2007—Arrangement or mounting of control or safety devices for water heaters
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/54—Water heaters for bathtubs or pools; Water heaters for reheating the water in bathtubs or pools
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H4/00—Fluid heaters characterised by the use of heat pumps
- F24H4/02—Water heaters
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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
- F25B47/00—Arrangements for preventing or removing deposits or corrosion, not provided for in another subclass
- F25B47/02—Defrosting cycles
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/12—Hot water central heating systems using heat pumps
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
The invention relates to a heat pump water heater, which can supply hot water from hot water storage pot, and heat water at the same time, to avoid prolonging the time of circling hot water caused by the air heat exchanger is frosted, wherein it comprises: detecting the temperature of air heat exchanger; setting defrost initial temperature and the needed defrost temperature lower than the initial temperature; when it is between said two temperature, defrosting after circling the hot water, then stops; when it is under the needed defrost temperature, alarming and defrosting first, then circling hot water.
Description
Technical field
The present invention relates to Teat pump boiler and under low temperature condition, during frosting, improve the convenience that uses.
Background technology
Original Teat pump boiler is generally the hot water mode of storing, that is: identical with the electrical heat hydrophone, be equipped with the big capacity hot-water storage jar of 300L~500L, use the electric power of low-cost night dip electricity price to carry out the heat pump running at night, with being stored in the hot-water storage jar after the water heating, use the hot water of above-mentioned storage by day.
In recent years, a kind of technical scheme of instant heating type heat pump water heater has been proposed, it is by being arranged on when beginning running from the hot-water storage jar hot-water supply loop of hot-water storage jar hot-water supply with directly supply with direct hot-water supply loop by the hot water of heat pump running heating, when using hot water by the first-class water of the fire hose is terminal, at any time carry out the heat pump running, heated hot water is directly supplied to the water end.
A kind of such instant heating type heat pump water heater is disclosed in TOHKEMY 2003-240339 communique (patent documentation 1).
Hot water in the hot-water storage jar is the hot water that uses when the running beginning, and after hot-water supply stopped, if the hot water temperature in the hot-water storage jar reduces, the then running that heat pump cycle is carried out shut down after the hot water in the hot-water storage jar reaches predetermined temperature.
In patent documentation 1 disclosed Teat pump boiler, when supplying long-time heat pump running such as bathing water's (hot water injection) in the winter time under the low temperature condition, though also relevant with external air temperature, can frosting on the whole surface of air heat exchanger.In this case, if behind stop supplies hot water, carry out the storage hot water running in the hot-water storage jar of hot water supplementary heating in the hot-water storage jar, because the frosting of air heat exchanger is in the low state of heating efficiency, so the running of the storage hot water of hot-water storage jar needs long time.And, when the hot water in not having sufficient supplementary heating hot-water storage jar just begins subsequently hot-water supply, just might bring fault to hot-water supply.
That is to say that under the state of the air heat exchanger frosting of passing through the extraneous air thermal-arrest, when carrying out the storage hot water running of hot-water storage jar, then frosting further seriously forms the state of freezing.Can further reduce the performance of air heat exchanger like that,, heating efficiency is significantly reduced even the heat pump running is carried out in the supplementary heating in from the supply bathing water to the hot-water storage jar continuously.
Such as, winter external air temperature when low temperature, finish the supply bathing water after, when using spray at short notice, air heat exchanger will be in the frosting state, and the low situation of hot water temperature of the not enough or supply of hot water amount takes place easily.
Summary of the invention
The object of the present invention is to provide a kind of Teat pump boiler, it can be with frosting and to the influence that heating efficiency reduces be controlled at Min., to improve the convenience of using.
For addressing the above problem, Teat pump boiler of the present invention detects the temperature of air heat exchanger, preestablishes expression and begins temperature and the essential defrosting temperature lower than defrosting beginning temperature because of frosting needs the defrosting of the state of defrosting running.The temperature that must defrost makes and refers to that frosting has the accumulation of certain degree, does not turn round then heating efficiency will be in the temperature of obvious reduction state if preferentially do not defrost.
Teat pump boiler of the present invention is the Teat pump boiler with the hot-water storage jar that is set with these defrosting beginning temperature, essential defrosting temperature, the frosting state of air heat exchanger when differentiating winter low temperature by temperature is controlled by the running that is suitable for the frosting state and to be reached above-mentioned purpose.
The Teat pump boiler of the present invention's first scheme, have: heat pump refrigerating agent loop, water-refrigerant heat exchanger, the decompressor that heat exchange is carried out with the water and the cold-producing medium of compressor, supply successively by refrigerant tubing in this heat pump refrigerating agent loop, the air heat exchanger that carries out the heat exchange of air and cold-producing medium are formed by connecting; Hot-water supply loop, this hot-water supply loop by above-mentioned water-refrigerant heat exchanger, be used to store by hot-water storage jar, water mixing valve, the flow control valve of the warmed-up hot water of water-refrigerant heat exchanger and the water pipe that connects above-mentioned parts and form; Control device, the defrosting that this control device preestablishes above-mentioned air heat exchanger begins temperature and the essential defrosting temperature lower than this defrosting beginning temperature, when the temperature of above-mentioned air heat exchanger when above-mentioned defrosting begins in the scope of temperature and above-mentioned essential defrosting temperature, after the hot-water supply running stops, finishing the defrosting of after the hot water hold-up tank is stored hot water, carrying out above-mentioned air heat exchanger; When the temperature of above-mentioned air heat exchanger is hanged down than essential defrosting temperature, after the hot-water supply running stops, after the defrosting of finishing above-mentioned air heat exchanger, store hot water to the hot water hold-up tank.
Like this, differentiate the frosting state of air heat exchanger, except the defrosting of common frosting state begins temperature, set the essential defrosting temperature of the running that needs at once to defrost, according to the temperature change of air heat exchanger control defrosting by temperature.Concrete, change the defrosting control device of running time started by being provided with, the user can consider how to do, the running that just can be suitable for the frosting state is controlled, the ease of use in the time of can improving low temperature in the winter time.
The Teat pump boiler of alternative plan of the present invention is on the basis of first scheme, and above-mentioned hot-water supply loop has and will directly be supplied to the direct hot-water supply loop of water end by the warmed-up hot water of water-refrigerant heat exchanger and from the hot-water storage jar hot-water supply loop of hot-water storage jar to the terminal hot-water supply of water.By hot-water storage jar hot-water supply, add heat lag in the time of can remedying the heat pump entry into service, can by make the hot-water storage jar significantly miniaturization realize the integrated of hot-water storage unit and heat pump unit, can improve the effect of the instant heating type heat pump water heater of first scheme more significantly.
The Teat pump boiler of third party's case of the present invention is on the basis of first scheme, because the above-mentioned temperature that must defrost is a plurality of temperature of setting accordingly with external air temperature, usually also low more because of low more its absolute humidity of external air temperature, the frosting degree of air heat exchanger also can reduce, so, be set at and the corresponding lower temperature of external air temperature by the temperature that must defrost, can be suitable for the running control of frosting degree, can preferentially not carry out non-emergent defrosting running, can provide and use the necessary control device of convenient defrosting.
The Teat pump boiler of the cubic case of the present invention is on the basis of first scheme, because the necessary control device of above-mentioned defrosting is when reaching essential defrosting temperature, flicker by literal demonstration or literal is warned, the user can understand the state that need preferentially defrost and turn round because frosting degree is many that is in by vision, even the hot-water supply amount reduces, also needn't worry for this reason, can take to postpone a little simultaneously countermeasures such as use hot water.
The Teat pump boiler of the present invention's the 5th scheme is on the basis of first scheme, because the necessary control device of above-mentioned defrosting is when reaching essential defrosting temperature, warn by sound, the user can understand the state that need preferentially defrost and turn round because frosting degree is many that is in by sound, even do not see the demonstration of kitchen remote controller etc., also can judge easily, can eliminate uneasiness sense, and can take to postpone a little and use countermeasure such as hot water the minimizing of hot-water supply amount.
According to the present invention, can eliminate user's uneasiness sense, the ease of use in the time that winter low temperature can being improved.
Description of drawings
Fig. 1 is the schematic diagram of an embodiment of general configuration of heat pump refrigerating agent loop, hot-water supply loop, operation controller and the parts of expression Teat pump boiler of the present invention.
Fig. 2 is the flow chart of an embodiment of expression installation of Teat pump boiler of the present invention and the pipeline affirmation action when connecting.
Fig. 3 is the flow chart of an embodiment of the action of expression Teat pump boiler of the present invention when the hot-water storage jar is stored the hot water running.
The flow chart of an embodiment of the action when Fig. 4 is the use hot water of expression Teat pump boiler of the present invention.
Fig. 5 is external air temperature and the temperature of air heat exchanger and the temperature profile of a defrosting beginning temperature and an embodiment of the setting value of essential defrosting temperature of expression Teat pump boiler of the present invention.
Fig. 6 is the flow chart of an embodiment of the action when injecting hot water in the automatic bath that turns round of expression bath.
Fig. 7 is the automatically flow chart of an embodiment of the action during the bath insulation of running of expression bath.
The specific embodiment
Below, adopt accompanying drawing that embodiments of the invention are described.
The Teat pump boiler of one embodiment of the present of invention shown in Figure 1 has heat pump refrigerating agent loop 30, hot-water supply loop 40 and operation controller 50.
Respectively there are two endless form of two in heat pump refrigerating agent loop 30 for each parts, be connected with compressor 1a, 1b respectively in turn, be configured in refrigerant side heat-transfer pipe 2a, 2b, decompressor 3a, 3b, air heat exchanger 4a, 4b on water-refrigerant heat exchanger 2 by refrigerant tubing, be sealed with cold-producing medium in this refrigerant loop 30.
Compressor 1a, 1b can carry out volume controlled, turn round with big capacity when carrying out a large amount of hot-water supplies.Here, compressor 1a, 1b are undertaken from low speed (such as 700 rev/mins) to the revolution control of (such as 7000 rev/mins) at a high speed by the combination control of PWM control, Control of Voltage (such as PAM control) and these control modes.
Water-refrigerant heat exchanger 2 has refrigerant side heat-transfer pipe 2a, 2b and feeding cold water side heat-transfer pipe 2c, 2d, carries out heat exchange between refrigerant side heat-transfer pipe 2a, 2b and feeding cold water side heat-transfer pipe 2c, the 2d.
Decompressor 3a, 3b generally use electric expansion valve, will reduce pressure through the middle temperature high-pressure refrigerant that water-refrigerant heat exchanger 2 is sent here, deliver to air heat exchanger 4a, 4b as evaporable low pressure refrigerant.In addition, decompressor 3a, 3b also have by the amount of restriction that changes refrigerant passage regulate the function of the circulating mass of refrigerant in the heat pump circuit and make amount of restriction be minimum, a large amount of middle temperature cold-producing mediums is delivered to the effect that air heat exchanger 4a, 4b dissolve the defroster of frosting.
Air heat exchanger 4a, 4b are arranged on the outer surface part of main body, carry out the heat exchange of extraneous air and cold-producing medium by the ventilation of blower fan (not shown), have the effect of air-refrigerant heat exchanger.
Hot-water supply loop 40 has and is used to carry out the water-flow circuit that direct hot-water supply, hot-water storage jar are stored hot water, hot-water storage jar hot-water supply, bath injected hot water, water for bathing supplementary heating.
Directly the hot-water supply loop has feeding cold water pipe and hot-water supply pipe.The feeding cold water pipe is connected with feeding cold water side heat-transfer pipe 2c, the 2d of feeding cold water pipe joint 5, water-refrigerant heat exchanger 2, and feeding cold water pipe joint 5 is connected with the feed pipe as the water source of device outside such as running water pipe.Feeding cold water side heat-transfer pipe 2c, the 2d of hot-water supply Guan Yushui-refrigerant heat exchanger 2, kitchen hot water discharge pipe's joint 15 connect, and this kitchen hot water discharge pipe's joint 15 is discharged terminal kitchen faucet 16 by an outside hot water of pipeline and device and is connected.
The water-supply quantity sensor 7, feed-check valve 10, the water heat exchanger water sensor 11 that are disposed with pressure-reducing valve 6 midway, the water yield of the water supplied with is measured of this feeding cold water pipe.
The hot-water supply pipe be disposed with midway mixing from the hot-water supply mixing valve 12 of the hot water of hot-water storage jar 8, the water mixing valve 13 that is connected with the branch branching pipe of feeding cold water pipe, regulate the flow control valve 14 of the flow of the hot water of discharging and cold water.
Pressure-reducing valve 6 will be controlled to be certain hydraulic pressure of the suitable use of about 170kPa such as the high hydraulic pressure in various degree by the 200~500kPa that supplies with as the running water pipe at water source.Feed-check valve 10 control water only flow anti-backflow to a direction.
Kitchen hot water discharge pipe's joint 15 can also be to hot-water supplies such as water for bathing tap 26 and showers 27 except being connected to kitchen faucet 16.
The hot-water storage jar is stored hot-water return and by water pipe hot-water storage jar 8, water heater internal circulation pump 9, water heat exchanger water sensor 11, feeding cold water side heat-transfer pipe 2c, 2d, hot-water supply mixing valve 12, hot-water storage jar 8 is connected in sequence.
Hot-water storage jar hot-water supply loop is in the branch midway separately of above-mentioned feeding cold water pipe and hot-water supply pipe and be provided with, hot-water storage jar 8 is connected with the feeding cold water pipe by the front and back of water pipe at check-valves 10, is connected with the hot-water supply pipe at hot-water supply mixing valve 12 places by water pipe.This loop mainly is that the hydraulic pressure that passes through the water supplied with will remain in hot-water supply in the hot-water storage jar 8 to the hot-water supply pipe.
To bath inject hot-water return above-mentioned feeding cold water pipe and to the pipeline of feeding cold water side heat-transfer pipe 2c, 2d be shared with direct hot-water supply loop.And the place ahead of the flow control valve 14 of hot-water supply pipe is that bath is injected hot water pipeline, enter with hot water/discharge pipe joint 20 is connected.Bathing water's injection valve 17 of opening in the time of will injecting hot water in bath 22 successively by water pipe, the flowing to switch 18, water for bathing circulating pump 19, hot water and enter of the flow direction/discharge pipe joint 20 that detects water are connected to bath are injected hot water pipeline.And hot water enters/discharge pipe joint 20 and discharge bathing water's pipe joint 24 and be connected with bath 22 by water for bathing circulation adapter 21.
And, when bath is injected hot water, by above-mentioned bath is injected the direct hot-water supply of hot-water return in, the hot water amount in hot-water storage jar 8 is not less than in the scope of minimum necessary amount, also carries out hot-water storage jar hot-water supply from hot-water storage jar 8 to bath 22.Here so-called minimum necessary amount is meant that bath is injected hot water finishes hot water reservation amount in the hot-water storage jar that keeps for shower afterwards.
Water for bathing supplementary heating loop by water pipe bath 22, water for bathing circulation adapter 21, hot water are entered/discharge pipe joint 20, water for bathing circulating pump 19, flow to switch 18, water for bathing heat-transfer pipe 23b, discharge bathing water's pipe joint 24, water for bathing circulation adapter 21, bath 22 be connected in sequence.
And, during the water for bathing supplementary heating, in the water circulation of carrying out bath water by above-mentioned water for bathing supplementary heating loop, carry out the running of heat pump running and water heater internal circulation pump 9, make the hot water that heats by water-refrigerant heat exchanger 2 pass through hot-water switch valve 25 and be circulated to the hot water heat-transfer pipe 23a that is arranged on the water for bathing usefulness heat exchanger 23, the water for bathing supplementary heating is carried out in heat exchange between hot water heat-transfer pipe 23a and water for bathing heat-transfer pipe 23b.
Operation controller 50 carries out the running in heat pump refrigerating agent loop 30 and stops and compressor 1a at the setting operation by kitchen remote controller 51 and bath remote controller 52, when the revolution of 1b is controlled, by control decompressor 3a, the adjusting of the cold-producing medium amount of restriction of 3b, water heater internal circulation pump 9, the running of water for bathing circulating pump 19 and stopping and hot-water supply mixing valve 12, water mixing valve 13, flow control valve 14, bathing water's injection valve 17, hot-water switch valve 25 carries out the hot-water storage jar and stores the hot water running, directly hot-water supply running, the running of hot-water storage jar hot-water supply, bath is injected the hot water running, water for bathing supplementary heating running and defrosting running.
The revolution of operation controller 50 control compressor 1a, 1b turn round with high revolution in order to accelerate the heat temperature raising time when running has just begun, and the revolution with suitable hot-water supply temperature and flow when stablize turns round.
Operation controller 50 has and carries out the hot-water storage jar at every turn and store the hot water rotating device, after stopping using hot water at the water end, finish and shut down after the hot-water storage jar is stored the hot water running, control and often be in the state of storing the hot water that predetermined temperature is arranged of protecting in the hot-water storage jar.
And it is not all to carry out that hot-water storage jar behind the stop supplies hot water is stored the hot water running at every turn, can judge whether to carry out the hot-water storage jar based on the temperature of the thermistor 8a~8d of hot-water storage jar and store the hot water running.
Operation controller 50 has the essential control device of defrosting, it is used for often detecting the temperature of external air temperature and air heat exchanger 4a, 4b, set and show that the defrosting that is in the frosting state begins temperature, reaches the essential defrosting temperature that shows the running that must defrost immediately, reaching starting when following of essential defrosting temperature, carrying out that literal at the remote controller displays picture shows, flicker shows or by the caution of sound and the running control that preferentially defrosts.
That is to say, when hot-water supply running stops, being higher than under the situation of defrosting beginning temperature, finish the running that do not defrost behind the hot-water supply, and store and shut down after hot water turns round carrying out the hot-water storage jar in the temperature of air heat exchanger; When the temperature of air heat exchanger is in the scope of defrosting beginning temperature and essential defrosting temperature, finish hot-water supply after, carry out the hot-water storage jar and store the running that defrosts after the hot water running, shut down then; Temperature at air heat exchanger is lower than under the situation of essential defrosting temperature, when carrying out literal demonstration or flicker demonstration or passing through the caution of sound, finish the running that defrosts earlier behind the hot-water supply, carry out then shutting down after the hot-water storage jar is stored the hot water running.
And, in the time of in the scope of defrosting beginning temperature and essential defrosting temperature, finish hot-water supply after, can after the hot-water storage jar is stored the hot water of scheduled volume, defrost, after defrosting, carry out the hot-water storage of remainder in the hot-water storage jar again.Like this, consider behind the stop supplies hot water situation of hot-water supply once more, can finish the hot-water storage jar of scheduled volume in the short period of time and store hot water and defrosting.
Have again, in Teat pump boiler, also be provided with: the feeding cold water thermistor 7a that detects the feeding cold water temperature, detect the discharge hot water temperature's of water-refrigerant heat exchanger 2 water-to-water heat exchanger thermistor 2e, detect the storage hot water temperature of hot-water storage jar 8 and the hot-water storage jar thermistor 8a of hot-water storage amount, 8b, 8c, 8d, detect the hot water directly supplied with by heat pump and from the mixing temperature thermistor 12a of the mixing temperature of the hot-water storage jar hot water of hot-water storage jar supply, detect the hot-water supply thermistor 14a of hot-water supply temperature, detect the water for bathing thermistor 18a and the detection air heat exchanger 4a of the temperature of bath water, the air heat exchanger thermistor 4c of the temperature of 4b, 4d, detect the air thermistor (not shown) of external air temperature and detect compressor 1a, the pressure sensor 1c of the outlet pressure of 1b, the level sensor 22a of the water level in 1d and the detection bath 22, each detection signal inputs to operation controller 50.Operation controller 50 is according to each equipment of these signal controlling.
Hot and cold water switch's valve 25 is arranged on water-refrigerant heat exchanger 2 and water for bathing with between the heat exchanger 23, closes water loop when being used for except that the water for bathing supplementary heating, with prevent heat from water-refrigerant heat exchanger 2 to 23 leakages of water for bathing usefulness heat exchanger.
Feed-check valve 10 control water only flow to a direction, prevent adverse current.The heat hydraulic pressure of overflow valve 28 in hot-water storage jar 8 reaches the above time starting of predetermined pressure, plays the pressure protect of water loop parts.
Below, with reference to heat pump circuit 30 and the hot-water supply loop 40 of Fig. 1, the running action to this Teat pump boiler is illustrated according to the flow chart of Fig. 2~Fig. 7.
An embodiment of the flow chart of necessity operation when Fig. 2 is the expression installation.
Teat pump boiler is handled upside down and is installed to the place of the desired setting of user from manufacturing site location, feeding cold water pipe joint 5 is connected with waterings such as running water pipes, kitchen hot water discharge pipe's joint 15 is connected with kitchen faucet 16, water for bathing tap 26, shower 27, hot water enters/and discharge pipe joint 20 is connected with water for bathing circulation adapter 21, water for bathing tap 26 and shower 27, and discharge bathing water pipe joint 24 is connected (step 60) with water for bathing circulation adapter 21.Then, be evacuation of air, open kitchen faucet 16 or overflow valve 28 (step 61).When opening the total valve (step 62) of watering, begin to supplying water in the water heater from watering, water, flow in hot-water storage jar 8 and water-refrigerant heat exchanger 2 and each water pipe (step 63) after decompression and being adjusted to certain pressure by pressure-reducing valve 6.Overflow from tap 16,26 or overflow valve 28 by water confirm to be in water-filled state (step 64) in the water heater after, close tap 16,26 or overflow valve 28, finish supply water in the water heater (step 65).
Teat pump boiler when mounted, each equipment is set to following original state, that is: hot-water supply mixing valve 12, water mixing valve 13 are in the state of bidirectional open, and flow control valve 14, hot-water switch valve 25 are in the state of opening, and bathing water's injection valve 17 is in closed condition.
Then, turn on the power switch (step 66), carry out water filling running (step 67) in the bath.
When water filling is turned round in the bath, open 17 pairs of bath water fillings of bathing water's injection valve, overflow (step 68) until water.Automatically calculate the capacity (step 69) of bath by level sensor 22a and water-supply quantity sensor 7, carry out the setting (step 70) of bath capacity, and the control of the hot water amount when being applied to set later bath and bath being injected hot water and water for bathing supplementary heating in the running automatically.Therefore, the water filling running only need be carried out once when Teat pump boiler is set in the above-mentioned bath.
Fig. 3 is an embodiment of the flow chart of the hot-water storage jar of the water in the expression heat hot water hold-up tank action of storing the hot water running.
When sending the indication (step 71) of carrying out the running of hot-water storage jar storage hot water by the control of operation controller 50,8a~8d carries out the judgement (step 72) of hot-water storage temperature and hot-water storage amount by hot-water storage jar thermistor, if in regulation with interior then maintain the original state and do not carry out turning round; If the hot water of storing is used, reduce to below the regulation, then begin the hot-water storage jar and store hot water running (step 73).
When carrying out hot-water storage jar storage hot water running (step 73), compressor 1a, 1b entry into service, the cold-producing medium of the gaseous state in compressor 1a, the 1b is compressed heating, becomes the cold-producing medium of HTHP, and is delivered to water-refrigerant heat exchanger 2.Like this, in water-refrigerant heat exchanger 2, the high temperature refrigerant in flow through refrigerant side heat-transfer pipe 2a, the 2b carries out heat exchange with the interior cold water of feeding cold water side heat-transfer pipe 2c, 2d of flowing through, the cold-producing medium heat release, and cold water is heated.Cold-producing medium after the heat release expands in air heat exchanger 4a, 4b then and evaporates and formation gas shape by decompressor 3a, 3b decompression, turns back to compressor 1a, 1b once more.This heat pump running by continuous is heated through the cold water in water-refrigerant heat exchanger 2.
In above-mentioned heat pump running, when the revolution that improves compressor 1a, 1b, when increasing the cold-producing medium amount of restriction of decompressor 3a, 3b, though heating efficiency increases; But mechanical loss and thermal losses all increase, and running efficiency reduces.On the contrary, by the revolution that reduces compressor 1a, 1b, the cold-producing medium amount of restriction that reduces decompressor 3a, 3b, though heating efficiency reduces, mechanical loss and thermal losses reduce, and relative running efficiency increases.That is to say,, heat for a long time with low temperature and can improve the efficiency of heating surface in adding in the heat run of heat pump.
Such as, carry out the storage hot water running of hot-water storage jar compared with the high temperature that is heated to more than 60 ℃, the serviceability temperature that is heated to 42 ℃ comes the direct hot-water supply running of hot-water supply to can be described as high efficiency running.
Store in the hot water running (step 73) at the hot-water storage jar, in above-mentioned heat pump running, the hot-water supply mixing valve 12 that the hot-water storage jar is stored in the hot-water return is opened hot-water storage jar 8 sides from water-refrigerant heat exchanger 2 sides, and with water mixing valve 13 side closures (step 73a), and hot-water switch valve 25 cuts out (step 73b).And then, 9 entrys into service of water heater internal circulation pump, water is from the outlet pass of hot-water storage jar 8 bottoms, to water heater internal circulation pump 9, water-to-water heat exchanger water sensor 11, water-refrigerant heat exchanger 2, hot-water supply mixing valve 12,8 circulations of hot-water storage jar.Like this, begun to store by the hot water of the water-refrigerant heat exchanger 2 heating top from hot-water storage jar 8, hot-water storage jar 8 integral body reach judges when storing the high-temperature-hot-water state that hot-water storage finishes (step 76), and (step 77) shuts down.
The temperature of the hot water that judgement is discharged from water-refrigerant heat exchanger 2 whether suitable hot water discharge temperature judges that (step 74) undertaken by water-to-water heat exchanger thermistor 2e.When the discharge hot water temperature is in setting, then proceeds the hot-water storage jar and store hot water running (step 75); In the time of beyond setting, discharge hot water temperature's adjusting (step 74a) by the revolution of the revolution of control compressor 1a, 1b, the cold-producing medium amount of restriction of regulating decompressor 3a, 3b, control water heater internal circulation pump 9.
The judgement of hot-water storage temperature and storage capacity is undertaken by hot-water storage jar thermistor 8a~8d.If hot-water storage jar thermistor 8a~8d all reaches in the set point of temperature, then be judged as hot-water storage and finish, shut down, the hot-water storage jar is stored hot water and is finished (step 77).
Fig. 4 is an embodiment of the flow chart of the action of expression when opening kitchen faucet 16 and using hot water.When opening kitchen faucet 16 and bringing into use hot water (step 80), operation controller 50 carries out direct hot-water supply running (step 81) by the hot-water supply loop of feeding cold water pipe joint 5, pressure-reducing valve 6, water-supply quantity sensor 7, feed-check valve 10, water-to-water heat exchanger water sensor 11, water-refrigerant heat exchanger 2, hot-water supply mixing valve 12, water mixing valve 13, flow control valve 14, kitchen hot water discharge pipe's joint 15, kitchen faucet 16 in the running in starting compressor 1a, 1b, beginning heat pump refrigerating agent loop 30.Simultaneously, carry out hot-water storage jar hot-water supply running (step 82) by the hot-water supply loop of feeding cold water pipe joint 5, pressure-reducing valve 6, water-supply quantity sensor 7, hot-water storage jar 8, hot-water supply mixing valve 12, water mixing valve 13, flow control valve 14, kitchen hot water discharge pipe's joint 15, kitchen faucet 16.
Herein, heat pump refrigerating agent loop 30 will be delivered to refrigerant side heat-transfer pipe 2a, the 2b of water-refrigerant heat exchanger 2 by the high temperature refrigerant that compressor 1a, 1b have compressed, and the water heating that will flow into from feeding cold water side heat-transfer pipe 2c, 2d is to going out from hot-water supply mixing valve 12 effluents.But, when beginning running the cold-producing medium of delivering to water-refrigerant heat exchanger 2 high pressure that do not reach a high temperature fully, its temperature is low, and because the temperature of whole water-refrigerant heat exchanger 2 is low, adds the heating efficiency deficiency of hot water.As time goes on, the cold-producing medium high pressure that reaches a high temperature, correspondingly, the heat dissipation capacity that produces by cold-producing medium increases, and the heating efficiency of water is strengthened.
In addition, because the heating efficiency of heat pump running needs the time of a few minutes up to the stable state that reaches a high temperature, thereby, running beginning back is in the scheduled time of the stable state that reaches a high temperature, operation controller 50 with than usually high revolution to the control of turning round of the revolution of compressor, can shorten the water heating like this, the starting time of hot-water supply running, in the scheduled time after the running beginning, carry out simultaneously after the hot-water storage jar hot-water supply running (step 82) of hot-water storage jar hot-water supply, operation controller 50 startings, stop hot-water storage jar hot-water supply running (step 84b), switch to and only carry out direct hot-water supply running, continue hot-water supply running (step 85).
Concrete, reach target temperature for making mixing temperature thermistor 12a, the aperture of mixing valve 12 is regulated.That is,, then append by hot-water storage jar hot-water supply if directly the temperature of hot-water supply does not reach desired value; If directly the temperature of hot-water supply reaches desired value,, and only carry out direct hot-water supply then not from hot-water storage jar hot-water supply.
During this period, carry out the judgement (step 83) of hot-water supply temperature and flow,, then regulate temperature, flow (step 84a) if outside prescribed limit by hot-water supply thermistor 14a, water-supply quantity sensor 7; If in prescribed limit, then further carry out the judgement (step 84) of direct hot-water supply temperature.
When the judgement (step 84) of carrying out direct hot-water supply temperature, heating-up temperature in water-refrigerant heat exchanger 2 is insufficient, the temperature of direct hot-water supply does not reach under the state of set point of temperature, then proceed the temperature flow of heat pump running and regulate (step 84a), carry out hot-water storage jar hot-water supply running (step 82) simultaneously.If bringing up to, the heating-up temperature of water-refrigerant heat exchanger 2 reaches the hot-water supply temperature, when directly the hot-water supply temperature reaches in the prescribed limit, then stop hot-water storage jar hot-water supply running (step 84b), only continue hot-water supply (step 85) by direct hot-water supply running (step 81).
Therefore, the effect of hot-water storage jar 8 is, do not reach miscellaneous function in hot-water supply temperature (being generally 40~42 ℃) starting time before fully in the heating efficiency of heat pump running, the output pressure of ability, the particularly compressor in heat pump refrigerating agent loop 30 is big more, can shorten the starting time more, can reduce hot-water storage jar 8.
In order to satisfy when bath is injected hot water, many places such as kitchen hot-water supply are used simultaneously the requirement of hot water, even when the running beginning, use hot-water storage jar hot-water supply simultaneously, as the hot-water supply ability that adds after thermally-stabilised, though wish about the 20kw more than 4 times about the big general till now employed 5kw of the capacity of compressor, but this not only needs the compressor of development of new, also needs to develop simultaneously each novel features in heat pump refrigerating agent loop 30, and this is very difficult.Therefore, in an embodiment of the present invention, as double-circulating heat pump mode 30a, the 30b of the compressor that has used about 2 times on two original compressors, the prior art of both having applied in a flexible way has been guaranteed the reliability of actual use again.Just enough the single circulating heat pump mode is applicable to the present invention too if the capacity of compressor uses 1, and its effect is constant.
Subsequently, when closing tap, when using hot water to finish (step 86), when only carrying out direct hot-water supply running, then stopping direct hot-water supply running if be in that hot-water storage jar hot-water supply stops; After hot water uses, be in when carrying out running of hot-water storage jar hot-water supply and direct hot-water supply running simultaneously, then stop direct hot-water supply running and hot-water storage jar hot-water supply and turn round both.(step 87)
And then operation controller 50 stops the heat pump running by the temperature that air heat exchanger thermistor 4c, 4d detected and judged air heat exchanger 4a, 4b after finishing following running.
At first, when stop supplies hot water turns round (step 87), when the temperature of air heat exchanger 4a, 4b more than defrosting beginning temperature, the running that then do not defrost after the running of stop supplies hot water is stored hot water shut down after (step 89a) (step 90) that turn round finishing the hot-water storage jar.
Secondly, when the temperature of air heat exchanger 4a, 4b is defrosting between beginning temperature and the essential defrosting temperature, then after the running of stop supplies hot water, finish hot-water storage jar storage hot water running (step 89b), and then the running back (step 89c) of defrosting shuts down.(step 90)
In addition, when the temperature of air heat exchanger 4a, 4b when essential defrosting temperature is following, then must control device show or flicker shows or means such as sound come needs defrosting to warn (step 89d) with the literal on the remote controller guidance panel by defrosting, after the running of stop supplies hot water, running (step 89e) defrosts, after carrying out hot-water storage jar storage hot water running (step 89f) again, (step 90) shuts down.
Above-mentioned hot-water storage jar is stored the hot water running and is detected by hot-water storage jar thermistor 8a~8d and store the hot water temperature, store the hot water amount, stops the hot-water storage jar after in reaching setting to store the hot water running.
But, by hot-water storage jar thermistor 8a~8d the detection of the storage hot water conditions of hot-water storage jar is all being carried out all the time, even after water heating, hot-water supply running for the use of the utmost point in the short time stop, hot water temperature in hot-water storage jar 8, hot water amount are all when predetermined value is above, also be judged as and finished storage hot water, no longer carry out the hot-water storage jar and store hot water running (step 88).
As mentioned above, after operation controller 50 owing to have in all runnings is finished as the running of purpose, must before storage hot water is finished, carry out the hot-water storage jar and store each hot-water storage jar storage hot water function of motion of hot water running (step 88), therefore, always store to have in the hot-water storage jar 8 and be higher than hot water scheduled volume, predetermined temperature, the hot water temperature in the time of can eliminating the running beginning low or use in the hot-water supply worry of interrupting.
Fig. 5 is that expression is used for illustrating that by described external air temperature and air heat exchanger temperature above-mentioned defrosting begins the temperature profile that temperature, above-mentioned must defrost temperature and defrosting are finished temperature.The longitudinal axis is represented the air heat exchanger temperature, and transverse axis is represented external air temperature, and according to temperature order from high to low, line chart A represents to defrost and finishes temperature, and line chart B represents defrosting beginning temperature, and line chart C represents essential defrosting temperature.
Such as, be 5 ℃ for the external air temperature in winter, carry out in the kitchen under the situation of wash dishes, even hot water is long more also with regard to about 5 minutes~10 minutes service time, frosting degree is fewer, the E point between line chart BC.Cleaning tableware one end, after the running of stop supplies hot water, carrying out the hot-water storage jar and store the running that defrosts after hot water turns round, shutting down then.
But, with above-mentioned similarity condition under when carrying out that bath injected the hot water running, hot-water supply approximately needs 30 minutes the duration of runs, frosting degree increases, and can hinder the ventilation of air heat exchanger, and heating efficiency is reduced.And when ventilation was subjected to hindering, the heat exchange amount of air and cold-producing medium reduced, and the temperature of air heat exchanger reduces more, is low to moderate the F point lower than line chart C.
When with the temperature of air heat exchanger the situation during at the E point carry out the hot-water storage jar in the same manner earlier when storing the hot water running need long time because the heating efficiency deficiency makes the hot-water storage jar store the hot water running.When using shower or tap under the state of hot-water storage jar storage hot water amount deficiency, problems such as hot-water supply quantity not sufficient or hot-water supply temperature are low take place easily.
Therefore, the essential control device of defrosting is set, when being in line chart C when following, showing defrosts turns round and must preferentially and circulate a notice of the user, simultaneously, and after finishing to the running of bath injection hot water, the running that defrosts is earlier carried out the hot-water storage jar again and is stored the hot water running, shuts down then.
Because the defrosting running is to make the cold-producing medium amount of restriction of decompressor 3a, 3b for minimum in Fig. 1, high temperature refrigerant is delivered among air heat exchanger 4a, the 4b with original state, heat by cold-producing medium dissolves frost, thereby, temperature is finished in the defrosting that reaches line chart A at short notice, after this just promptly carry out the hot-water storage jar and store the hot water running, store hot water thereby can finish the hot-water storage jar as soon as possible.
When temperature reached below 0 ℃, because the absolute humidity of extraneous air is extremely low, frosting degree reduced, and therefore, the temperature that must defrost that the defrosting of line chart B is begun temperature and line chart C is set lowlyer.Defrosting shown in the line chart A is finished temperature in contrast, because external air temperature is low more, the time that the heating defrosting needs is long more, thus when external air temperature below 0 ℃ the time, the temperature of setting is high slightly.
When the defrosting that is higher than line chart B when the temperature of air heat exchanger begins temperature, be in the state of frosting hardly, running needn't defrost.
Line chart A, the B of Fig. 5, C are examples, constitute and capacity etc. can be different according to the parts of heat pump circuit, even the temperature of line chart, bending etc. have nothing in common with each other, employing the present invention also can obtain same effect.
Fig. 6 is an embodiment of the flow chart of the action when injecting hot water in the automatic bath that turns round of expression bath.Press the bath automatic button, make its state (step 91) that is in ON, when reaching the moment of setting, begin bath is injected hot water running (step 92), open bathing water's injection valve 17, supply bathing water's (step 93).
Supply bathing water (step 93) carries out direct hot-water supply running and the running of hot-water storage jar hot-water supply in the same manner simultaneously with use hot water illustrated in fig. 4.That is to say, in a few minutes that just begin the heat pump running, carry out direct hot-water supply running and the running of hot-water storage jar hot-water supply simultaneously, when direct hot-water supply temperature reaches stable state, stop the running of hot-water storage jar hot-water supply, only carry out direct hot-water supply running.
In supply bathing water running, detect supply bathing water temperature by bath thermistor 18a, judge hot-water supply temperature (step 94).If outside prescribed limit, then carry out adjustment (step 94a); If in prescribed limit, then continue supply bathing water's (step 95).
And then, by the water level in the level sensor 22a detection bath, judge bath is injected hot water amount's (step 96).
When judgement is injected hot water amount's (step 96) to bath, if when ormal weight is following, continue to inject hot water (step 95), when reaching ormal weight, hungry stopping to be injected hot water and heat pump running to bath.(step 97)
When running stops (step 97) to bath injection hot water, identical with above-mentioned Fig. 4, carry out the temperature of air heat exchanger and judge (step 98), according to the judgement that whether is defrosting beginning temperature and essential defrosting temperature, carry out that essential defrosting shows, the hot-water storage jar is stored the hot water running and the defrosting running (behind the step 99a~99f), shuts down.(step 100)
Fig. 7 is the embodiment of expression by the flow chart of the action of bath automatic running carrying out water for bathing supplementary heating.Press the bath automatic button, make its state (step 101) that is in ON,, begin above-mentioned illustrated in fig. 6 bath injection hot water running (step 102) when reaching setting during the moment, after this stop bath is injected hot water running (step 103) beginning bath insulation running (step 104).
Bath is injected after hot water running (step 103) stops, detecting the hot water temperature, when the hot water temperature judges in carrying out bath (step 105),, then continue the bath insulation if in setting by bath thermistor 18a; If when setting is following, then carry out water for bathing supplementary heating running (step 106).In addition, detect the interior hot water amount of bath in interval (such as per 10 minutes) to schedule,,, then continue the bath insulation as if in setting carrying out that bath is injected hot water amount's judgement (step 107) by level sensor 22a; If when setting is following, then in bath, add hot water (step 108).
And then behind the setting-up time that turns round automatically through bath, bath insulation running stops (step 109), and bath running automatically stops (step 110).
As above explaining, the inconvenience that the instant heating type heat pump that the present invention has a hot-water storage jar for elimination produces because of frosting during low temperature in the winter time, improve the hot-water storage jar and store the hot water running, increase energy-saving effect, improve ease of use etc. and have significant effect.
When frosting degree much is in must preferentially defrost operating condition the time, can inform the user by remote controller displays or by sound, even the minimizing of hot water supply occurring also can worry, simultaneously, when causing the running of hot-water storage jar storage hot water to be broken down because of frosting, after hot-water supply stops, store the hot water running owing to after finishing the defrosting running, carry out the hot-water storage jar, therefore, can defrost expeditiously, the hot-water storage jar is stored hot water, the ease of use in the time of can improving winter low temperature significantly.
Claims (6)
1. Teat pump boiler, it has:
Heat pump refrigerating agent loop, water-refrigerant heat exchanger, the decompressor that heat exchange is carried out with the water and the cold-producing medium of compressor, supply successively by refrigerant tubing in this heat pump refrigerating agent loop, the air heat exchanger that carries out the heat exchange of air and cold-producing medium are formed by connecting;
Hot-water supply loop, this hot-water supply loop by above-mentioned water-refrigerant heat exchanger, be used to store by hot-water storage jar, water mixing valve, the flow control valve of the warmed-up hot water of water-refrigerant heat exchanger and the water pipe that connects above-mentioned parts and form;
Control device, the defrosting that this control device preestablishes above-mentioned air heat exchanger begins temperature and the essential defrosting temperature lower than this defrosting beginning temperature, when the temperature of above-mentioned air heat exchanger when above-mentioned defrosting begins in the scope of temperature and above-mentioned essential defrosting temperature, after the hot-water supply running stops, finishing the defrosting of after the hot water hold-up tank is stored hot water, carrying out above-mentioned air heat exchanger; When the temperature of above-mentioned air heat exchanger is hanged down than essential defrosting temperature, after the hot-water supply running stops, after the defrosting of finishing above-mentioned air heat exchanger, store hot water to the hot water hold-up tank.
2. the Teat pump boiler of putting down in writing according to claim 1, it is characterized in that above-mentioned hot-water supply loop has and will directly be supplied to the direct hot-water supply loop of water end by the warmed-up hot water of water-refrigerant heat exchanger and from the hot-water storage jar hot-water supply loop of hot-water storage jar to the terminal hot-water supply of water.
3. the Teat pump boiler of putting down in writing according to claim 1 is characterized in that, the above-mentioned temperature that must defrost is a plurality of temperature of setting accordingly with external air temperature.
4. the Teat pump boiler of putting down in writing according to claim 1 is characterized in that, the necessary control device of above-mentioned defrosting shows or the flicker of literal is warned by literal when reaching essential defrosting temperature.
5. the Teat pump boiler of putting down in writing according to claim 1 is characterized in that, the necessary control device of above-mentioned defrosting is warned by sound when reaching essential defrosting temperature.
6. Teat pump boiler, it has:
Heat pump refrigerating agent loop, this heat pump refrigerating agent loop is formed by connecting compressor, the water-refrigerant heat exchanger of carrying out the heat exchange of water and cold-producing medium, decompressor, the air heat exchanger that carries out the heat exchange of air and cold-producing medium successively by refrigerant tubing;
Hot-water supply loop, this hot-water supply loop by above-mentioned water-refrigerant heat exchanger, be used to store by the hot-water storage jar of the warmed-up hot water of water-refrigerant heat exchanger, the water pipe that makes water heater internal circulation pump, water mixing valve, the flow control valve of hot water in the water heater and cold water circulation and be connected above-mentioned parts and form;
The defrosting that control device, this control device preestablish above-mentioned air heat exchanger begins temperature and the essential defrosting temperature lower than this defrosting beginning temperature, according to the time started of the temperature change defrosting running of above-mentioned air heat exchanger.
Applications Claiming Priority (2)
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JP2005085183A JP4215735B2 (en) | 2005-03-24 | 2005-03-24 | Heat pump water heater |
JP2005085183 | 2005-03-24 |
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CN1837707A true CN1837707A (en) | 2006-09-27 |
CN100443822C CN100443822C (en) | 2008-12-17 |
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CNB2006100659122A Expired - Fee Related CN100443822C (en) | 2005-03-24 | 2006-03-23 | Heat-pump hot water supply apparatus |
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JP (1) | JP4215735B2 (en) |
KR (1) | KR100685341B1 (en) |
CN (1) | CN100443822C (en) |
Cited By (4)
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CN102721173A (en) * | 2012-06-14 | 2012-10-10 | 华南理工大学 | Adjustable instant water heater for heat pump |
CN102721172A (en) * | 2012-06-14 | 2012-10-10 | 华南理工大学 | Compressor variable capacity regulated instant heat pump water heater |
CN107525334A (en) * | 2016-06-15 | 2017-12-29 | 三电控股株式会社 | The control device of showcase |
CN113237227A (en) * | 2021-03-30 | 2021-08-10 | 浙江中广电器股份有限公司 | Heat pump water heater and defrosting operation control method thereof |
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JP4958460B2 (en) | 2006-03-29 | 2012-06-20 | 日立アプライアンス株式会社 | Heat pump water heater |
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KR101058843B1 (en) | 2009-03-18 | 2011-08-23 | 고세진 | Defrost heat pump cycle |
JP5675266B2 (en) * | 2010-10-20 | 2015-02-25 | 東邦瓦斯株式会社 | Heating system |
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Family Cites Families (9)
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JP3703995B2 (en) * | 1999-06-01 | 2005-10-05 | 松下電器産業株式会社 | Heat pump water heater |
CN2413236Y (en) * | 2000-01-11 | 2001-01-03 | 汪洋 | Single-system air conditioner with heat pump water heater |
JP3904822B2 (en) * | 2000-10-03 | 2007-04-11 | ホシザキ電機株式会社 | Defrost control device for cooling storage |
JP3743375B2 (en) * | 2002-02-12 | 2006-02-08 | 松下電器産業株式会社 | Heat pump water heater |
JP3742356B2 (en) * | 2002-03-20 | 2006-02-01 | 株式会社日立製作所 | Heat pump water heater |
JP2004093020A (en) * | 2002-08-30 | 2004-03-25 | Chofu Seisakusho Co Ltd | Defrosting operation control method for heat pump air conditioner |
JP3915636B2 (en) * | 2002-09-06 | 2007-05-16 | ダイキン工業株式会社 | Water heater |
JP3909311B2 (en) * | 2003-06-24 | 2007-04-25 | 日立アプライアンス株式会社 | Heat pump water heater |
CN2679563Y (en) * | 2004-03-09 | 2005-02-16 | 刘卫东 | Water heater of heat pump air conditioner |
-
2005
- 2005-03-24 JP JP2005085183A patent/JP4215735B2/en not_active Expired - Fee Related
-
2006
- 2006-03-23 CN CNB2006100659122A patent/CN100443822C/en not_active Expired - Fee Related
- 2006-03-23 KR KR1020060026448A patent/KR100685341B1/en not_active IP Right Cessation
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102721173A (en) * | 2012-06-14 | 2012-10-10 | 华南理工大学 | Adjustable instant water heater for heat pump |
CN102721172A (en) * | 2012-06-14 | 2012-10-10 | 华南理工大学 | Compressor variable capacity regulated instant heat pump water heater |
CN107525334A (en) * | 2016-06-15 | 2017-12-29 | 三电控股株式会社 | The control device of showcase |
CN113237227A (en) * | 2021-03-30 | 2021-08-10 | 浙江中广电器股份有限公司 | Heat pump water heater and defrosting operation control method thereof |
Also Published As
Publication number | Publication date |
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JP4215735B2 (en) | 2009-01-28 |
KR100685341B1 (en) | 2007-02-22 |
CN100443822C (en) | 2008-12-17 |
KR20060103169A (en) | 2006-09-28 |
JP2006266591A (en) | 2006-10-05 |
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