CN205208993U - Solar energy water source dehumidification air conditioning hot water three way unit - Google Patents
Solar energy water source dehumidification air conditioning hot water three way unit Download PDFInfo
- Publication number
- CN205208993U CN205208993U CN201520855167.6U CN201520855167U CN205208993U CN 205208993 U CN205208993 U CN 205208993U CN 201520855167 U CN201520855167 U CN 201520855167U CN 205208993 U CN205208993 U CN 205208993U
- Authority
- CN
- China
- Prior art keywords
- water
- valve
- solar energy
- water source
- check valve
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- 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
Landscapes
- Other Air-Conditioning Systems (AREA)
Abstract
The utility model relates to a solar energy water source dehumidification air conditioning hot water three way unit, the compressor, the water source evaporimeter is connected to four -way reversing valve, four -way reversing valve connects water -cooled condenser, water -cooled condenser connects third check valve and fourth check valve, water -cooled condenser even has indoor finned heat exchanger, even there is the heat dissipation calandria near indoor finned heat exchanger, even there is the fan in the heat dissipation calandria outside, the reservoir export is connected to the choke valve import through drier -filter, even there is the water intaking water pump water source import one side of water source evaporimeter and removes the miscellaneous equipment, water source department is linked to water source export one side of water source evaporimeter, the water -cooled condenser cooling water is intake side by freezing water water pump and is connected holding water box, the water -cooled condenser cooling water goes out the water side and connects holding water box return water mouth, holding water box hot water exit linkage is to the bathroom, the export of solar energy collection pipe hot water divides two the tunnel, a sweetgum fruit pipe is connected to the bathroom, another sweetgum fruit pipe is connected to the heat dissipation calandria. The beneficial effects of the utility model are that: can realize dehumidification, heat supply water, three functions of air condition.
Description
Technical field
The utility model relates to dehumidifying, air-conditioning and hot water field, relates to solar energy water source dehumidification air conditioner hot water three-purpose unit in particular.
Background technology
Earth surface shallow-layer water source (generally within 1000 meters), as the river on underground water, earth's surface, lake and ocean, absorbs the suitable emittance that the sun enters the earth, and the temperature at water source is general all very stable.Water source heat pump units available water temperature winter is 12 ~ 22 DEG C, water temperature is higher than ambient air temperature, so the evaporating temperature of heat pump cycle improves, Energy Efficiency Ratio also improves, and summer, water temperature was 18 ~ 35 DEG C, water temperature is lower than ambient air temperature, so the condensation temperature of refrigeration reduces, make cooling effect be better than air-cooled and cool tower, thus improve unit operation efficiency.Take surface water as Cooling and Heat Source, release heat to it or absorb heat, not consuming water resource, can not pollute it; Eliminate the facility such as boiler room and attached coal yard, oil storage room, cooling tower, machine room area is significantly smaller than conventional air conditioning system, saves space, is also conducive to the attractive in appearance of building.Eliminate the boiler room systems such as fire coal, combustion gas, fuel oil during water source heat pump units heat supply, without combustion process, avoid the pollutions such as smoke evacuation, blowdown; Eliminate cooling tower during cooling, avoid the noise of cooling tower, mould contamination and water consumption.So water source heat pump units is run without any pollution, without burning, without smoke evacuation, do not produce waste residue, waste water, waste gas and flue dust, can not urban heat land effect be produced, very friendly to environment, be desirable Green Product.
Utilize solar energy to produce domestic hot-water to be used widely, but when the cloudy day or illumination more weak can affect the result of use of solar energy.
At present, seldom there is technical scheme water source and solar energy to be carried out comprehensive utilization and be used for dehumidifying, supplying hot water and air conditioning.
Summary of the invention
The purpose of this utility model is the shortcoming for such scheme, provides a kind of solar energy water source dehumidification air conditioner hot water three-purpose unit.
The technical solution of the utility model is: a kind of solar energy water source dehumidification air conditioner hot water three-purpose unit, comprise compressor, four-way change-over valve, it is characterized in that: the outlet of described compressor is connected to the A end of four-way change-over valve, water source evaporimeter connects the B end of four-way change-over valve, the D end of four-way change-over valve connects water-cooled condenser, water-cooled condenser connects the 3rd check valve and the 4th check valve, water-cooled condenser and the 3rd check valve, by the first magnetic valve on pipeline between 4th check valve, second magnetic valve and the 3rd magnetic valve are connected with indoor finned heat exchanger, heat radiation comb is connected with near indoor finned heat exchanger, blower fan is connected with outside heat radiation comb, reservoir import connects the first check valve and the 3rd check valve, choke valve outlet connection second check valve and the 4th check valve, reservoir outlet is connected to choke valve import by device for drying and filtering, first check valve and the second check valve are connected to water source evaporimeter, the import side, water source of water source evaporimeter is connected with water intaking water pump and impurity removing equipment, water source place is linked in the outlet side, water source of water source evaporimeter, water-cooled condenser cooling water influent side connects attemperater by cooling water water pump, water-cooled condenser cooling water water outlet side connects attemperater water return outlet, attemperater hot water outlet is connected to bathroom by the first stop valve, solar energy heat collection pipe hot water outlet divides two-way, water pipe of leading up to is connected to bathroom, water pipe of separately leading up to is connected to heat radiation comb water inlet, heat radiation comb water inlet is provided with the second stop valve.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: the charged auxiliary heating of described solar energy heat collection pipe, solar energy heat collection pipe one end is connected with the second water compensating valve.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: described attemperater shell lays heat-preservation cotton, and attemperater is also connected with the first water compensating valve.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: the C end of described four-way change-over valve is connected to suction port of compressor by gas-liquid separator.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: described heat radiation comb delivery port links solar energy heat collection pipe moisturizing end.
The beneficial effects of the utility model are: can realize dehumidifying, supplying hot water, air conditioning three functions.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
In figure: 1 water intaking water pump 2 impurity removing equipment 3 water source evaporimeter 4 four-way change-over valve 5 gas-liquid separator 6 compressor, 7 water-cooled condenser 8 cooling water water pump 9 attemperater 10a first water compensating valve 10b second water compensating valve 11a first stop valve 11b second stop valve 12 bathroom 13 blower fans 14 dispel the heat comb 15 indoor finned heat exchanger 16a first magnetic valve 16b second magnetic valve 16c the 3rd magnetic valve 17 reservoir 18 device for drying and filtering 19 choke valve 20a first check valve 20b second check valve 20c the 3rd check valve 20d the 4th check valve 21 solar energy heat collection pipe.
Detailed description of the invention
Below in conjunction with accompanying drawing, concrete enforcement of invention is further described:
With reference to figure 1, described in the utility model is a kind of solar energy water source dehumidification air conditioner hot water three-purpose unit, comprise compressor 6, four-way change-over valve 4, it is characterized in that: the outlet of described compressor 6 is connected to the A end of four-way change-over valve 4, water source evaporimeter 3 connects the B end of four-way change-over valve 4, the D end of four-way change-over valve 4 connects water-cooled condenser 7, water-cooled condenser 7 connects the 3rd check valve 20c and the 4th check valve 20d, water-cooled condenser 7 and the 3rd check valve 20c, by the first magnetic valve 16a on pipeline between 4th check valve 20d, second magnetic valve 16b and the 3rd magnetic valve 16c is connected with indoor finned heat exchanger 15, heat radiation comb 14 is connected with near indoor finned heat exchanger 15, blower fan 13 is connected with outside heat radiation comb 14, reservoir 17 import connects the first check valve 20a and the 3rd check valve 20c, choke valve 19 exports connection second check valve 20b and the 4th check valve 20d, reservoir 17 exports and is connected to choke valve 19 import by device for drying and filtering 18, first check valve 20a and the second check valve 20b is connected to water source evaporimeter 3, the import side, water source of water source evaporimeter 3 is connected with water intaking water pump 1 and impurity removing equipment 2, water source place is linked in the outlet side, water source of water source evaporimeter 3, water-cooled condenser 7 cooling water influent side connects attemperater 9 by cooling water water pump 8, water-cooled condenser 7 cooling water water outlet side connects attemperater 9 water return outlet, attemperater 9 hot water outlet is connected to bathroom 12 by the first stop valve 11a, solar energy heat collection pipe 21 hot water outlet divides two-way, water pipe of leading up to is connected to bathroom 12, water pipe of separately leading up to is connected to heat radiation comb 14 water inlet, heat radiation comb 14 water inlet is provided with the second stop valve 11b.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: the described charged auxiliary heating of solar energy heat collection pipe 21, solar energy heat collection pipe 21 one end is connected with the second water compensating valve 10b.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: described attemperater 9 shell lays heat-preservation cotton, and attemperater is also connected with the first water compensating valve 10a.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: the C end of described four-way change-over valve 4 is connected to compressor 6 entrance by gas-liquid separator 5.
Above-mentioned solar energy water source dehumidification air conditioner hot water three-purpose unit, is characterized in that: described heat radiation comb 14 delivery port links solar energy heat collection pipe 21 moisturizing end.
During for dehumidifying and room refrigeration, first magnetic valve 16a and the second magnetic valve 16b is energized and opens, 3rd magnetic valve 16c power-off shuts, cooling water water pump 8 power-off does not operate, water-cooled condenser 7 does not work, and indoor finned heat exchanger 15 is as evaporimeter participation work, and water source evaporimeter 3 transfers condenser to, four-way change-over valve 4 power-off is in refrigerating state, and the first stop valve 11a shuts.During unit operation, the refrigerant gas of low-temp low-pressure is discharged after compressor 6 boil down to high-temperature high-pressure refrigerant gas, (water intaking water pump 1 removes impurities in water from the feeding impurity removing equipment 2 of water source pump water suction source to enter water source evaporimeter 3 condensation by four-way change-over valve 4, enter water source evaporimeter 3 and high-temperature high-pressure refrigerant gas converting heat again, the water source taking cold-producing medium heat out of continues to be discharged into water source place) for after highly pressurised liquid, successively by the first check valve 20a, reservoir 17, device for drying and filtering 18, to become after low pressure refrigerant liquid by the 4th check valve 20d(because the pressure after condensed pressure ratio throttling is large many through choke valve 19 reducing pressure by regulating flow again, so the low pressure refrigerant liquid after throttling is not by the second check valve 20b, can only by the 4th check valve 20d) and the second magnetic valve 16b enter indoor finned heat exchanger 15 and carry out heat exchange with room air, again by the first magnetic valve 16a, water-cooled condenser 7(not with water-cooled condenser 7 heat exchange), four-way change-over valve 4, sucked by compressor 6 after gas-liquid separator 5, room air then sucks through blower fan 13, after indoor finned heat exchanger 15 with low pressure refrigerant heat exchange wherein, temperature reduces and separates out water, be sent by heat radiation comb 14 again, circulation like this, realize dehumidifying, the object of room refrigeration.When after transition season dehumidifying, room temperature reduction amplitude is larger, the second stop valve can be opened, utilize the hot water in solar energy heat collection pipe 21 (when illumination is enough, after water in solar energy heat collection pipe 21 absorbs solar radiant energy, temperature raises, when cloudy day or illumination more weak time, opening solar energy heat collection pipe 21 electric auxiliary heating makes water temperature raise) enter the comb 14 that dispels the heat carry out heating and dehumidification after room air, the water after heat release enters solar energy heat collection pipe 21 again to be continued to recycle.
When heating for room, first magnetic valve 16a and the second magnetic valve 16b is energized and opens, 3rd magnetic valve 16c power-off shuts, cooling water water pump 8 power-off does not operate, water-cooled condenser 7 does not work, and indoor finned heat exchanger 15 is as condenser participation work, and water source evaporimeter 3 transfers evaporimeter to, four-way change-over valve 4 energising is in the state of heating, and the first stop valve 11a, the second stop valve 11b shut.During unit operation, the refrigerant gas of low-temp low-pressure is discharged after compressor 6 boil down to high-temperature high-pressure refrigerant gas, by four-way change-over valve 4, water-cooled condenser 7(not with water-cooled condenser 7 heat exchange), after first magnetic valve 16a, enter after indoor finned heat exchanger 15 is condensed into highly pressurised liquid, successively by the second magnetic valve 16b, 3rd check valve 20c, reservoir 17, device for drying and filtering 18, to become after low pressure refrigerant liquid by the second check valve 20b(because the pressure after condensed pressure ratio throttling is large many through choke valve 19 reducing pressure by regulating flow again, so the low pressure refrigerant liquid after throttling is not by the 4th check valve 20d, second check valve 20b can only be passed through), (water pump 1 of fetching water is sent in impurity removing equipment 2 from the water source pump source that absorbs water and is removed impurities in water with water source heat exchange to enter water source evaporimeter 3 again, enter water source evaporimeter 3 and low pressure refrigerant liquid heat exchange again, water source after heat exchange continues to be discharged into water source place) after sucked by compressor 6, room air then sucks through blower fan 13, after indoor finned heat exchanger 15 with high-temperature high-pressure refrigerant heat exchange wherein, temperature raises, be sent by heat radiation comb 14 again, circulation like this, realize the object that room heats.
During for water heating, first magnetic valve 16a and the second magnetic valve 16b power-off shut, 3rd magnetic valve 16c is energized and opens, cooling water water pump 8 is energized and operates, water-cooled condenser 7 is as condenser participation work, and indoor finned heat exchanger 15 does not participate in work, and water source evaporimeter 3 transfers evaporimeter to, four-way change-over valve 4 energising is in the state of heating, and the second stop valve 11b shuts.During unit operation, the refrigerant gas of low-temp low-pressure is discharged after compressor 6 boil down to high-temperature high-pressure refrigerant gas, water-cooled condenser 7 condensation (by cooling water water pump 8, the cold water in attemperater 9 is sent into water-cooled condenser 7 and carry out heat exchange) is entered for after highly pressurised liquid by four-way change-over valve 4, successively by the 3rd magnetic valve 16c, 3rd check valve 20c, reservoir 17, device for drying and filtering 18, to become after low pressure refrigerant liquid by the second check valve 20b(because the pressure after condensed pressure ratio throttling is large many through choke valve 19 reducing pressure by regulating flow again, so the low pressure refrigerant liquid after throttling is not by the 4th check valve 20d, second check valve 20b can only be passed through), (water pump 1 of fetching water is sent in impurity removing equipment 2 from the water source pump source that absorbs water and is removed impurities in water with water source heat exchange to enter water source evaporimeter 3 again, enter water source evaporimeter 3 and low pressure refrigerant liquid heat exchange again, water source after heat exchange continues to be discharged into water source place) after sucked by compressor 6, circulation like this, after the continuous absorption condensation heat of cold water in attemperater 9, temperature raises, the first stop valve 11a can be opened and hot water is sent into bathroom 12 for user, when illumination is enough, after water in solar energy heat collection pipe 21 absorbs solar radiant energy, temperature raises, and hot water enters bathroom 12 for user, when cloudy or illumination is more weak time, the electric auxiliary heating of unlatching solar energy heat collection pipe 21 makes water temperature raise, and realizes the object of supplying hot water.
When water shortage in attemperater 9 and solar energy heat collection pipe 21, the first water compensating valve 10a can be opened respectively and the second water compensating valve 10b carries out moisturizing.
Claims (5)
1. a solar energy water source dehumidification air conditioner hot water three-purpose unit, comprise compressor, four-way change-over valve, it is characterized in that: the outlet of described compressor is connected to the A end of four-way change-over valve, water source evaporimeter connects the B end of four-way change-over valve, the D end of four-way change-over valve connects water-cooled condenser, water-cooled condenser connects the 3rd check valve and the 4th check valve, water-cooled condenser and the 3rd check valve, by the first magnetic valve on pipeline between 4th check valve, second magnetic valve and the 3rd magnetic valve are connected with indoor finned heat exchanger, heat radiation comb is connected with near indoor finned heat exchanger, blower fan is connected with outside heat radiation comb, reservoir import connects the first check valve and the 3rd check valve, choke valve outlet connection second check valve and the 4th check valve, reservoir outlet is connected to choke valve import by device for drying and filtering, first check valve and the second check valve are connected to water source evaporimeter, the import side, water source of water source evaporimeter is connected with water intaking water pump and impurity removing equipment, water source place is linked in the outlet side, water source of water source evaporimeter, water-cooled condenser cooling water influent side connects attemperater by cooling water water pump, water-cooled condenser cooling water water outlet side connects attemperater water return outlet, attemperater hot water outlet is connected to bathroom by the first stop valve, solar energy heat collection pipe hot water outlet divides two-way, water pipe of leading up to is connected to bathroom, water pipe of separately leading up to is connected to heat radiation comb water inlet, heat radiation comb water inlet is provided with the second stop valve.
2. solar energy water source according to claim 1 dehumidification air conditioner hot water three-purpose unit, is characterized in that: the charged auxiliary heating of described solar energy heat collection pipe, solar energy heat collection pipe one end is connected with the second water compensating valve.
3. solar energy water source according to claim 1 dehumidification air conditioner hot water three-purpose unit, is characterized in that: described attemperater shell lays heat-preservation cotton, and attemperater is also connected with the first water compensating valve.
4. solar energy water source according to claim 1 dehumidification air conditioner hot water three-purpose unit, is characterized in that: the C end of described four-way change-over valve is connected to suction port of compressor by gas-liquid separator.
5. solar energy water source according to claim 1 dehumidification air conditioner hot water three-purpose unit, is characterized in that: described heat radiation comb delivery port links solar energy heat collection pipe moisturizing end.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520855167.6U CN205208993U (en) | 2015-10-29 | 2015-10-29 | Solar energy water source dehumidification air conditioning hot water three way unit |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520855167.6U CN205208993U (en) | 2015-10-29 | 2015-10-29 | Solar energy water source dehumidification air conditioning hot water three way unit |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205208993U true CN205208993U (en) | 2016-05-04 |
Family
ID=55846708
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520855167.6U Expired - Fee Related CN205208993U (en) | 2015-10-29 | 2015-10-29 | Solar energy water source dehumidification air conditioning hot water three way unit |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN205208993U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105241109A (en) * | 2015-10-29 | 2016-01-13 | 泰豪科技股份有限公司 | Solar water source dehumidification, air conditioning and hot water three-purpose unit |
| CN106016771A (en) * | 2016-07-18 | 2016-10-12 | 常州海卡太阳能热泵有限公司 | Solar air source heat pump triple co-generation system and control method thereof |
-
2015
- 2015-10-29 CN CN201520855167.6U patent/CN205208993U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105241109A (en) * | 2015-10-29 | 2016-01-13 | 泰豪科技股份有限公司 | Solar water source dehumidification, air conditioning and hot water three-purpose unit |
| CN106016771A (en) * | 2016-07-18 | 2016-10-12 | 常州海卡太阳能热泵有限公司 | Solar air source heat pump triple co-generation system and control method thereof |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102840636A (en) | Heat energy recovery device | |
| CN201177341Y (en) | Natural energy fresh air ventilating energy-saving air conditioner | |
| CN204329323U (en) | Be suitable for the Teat pump boiler recycling kitchen residual heat | |
| CN106016825A (en) | Solar and air source heat pump dual heat source tri-generation system | |
| CN201327307Y (en) | Open-type multi-source double-effect energy tower | |
| CN102777989B (en) | Heat pump air-conditioning unit system suitable for high-humidity low-temperature environment of underground hydropower station cavern | |
| CN210070102U (en) | Ground pipe laying water source dehumidification humidification fresh air unit | |
| CN105241109A (en) | Solar water source dehumidification, air conditioning and hot water three-purpose unit | |
| CN202066248U (en) | GSHP (Ground Source Heat Pump) type multifunctional integrated machine for swimming pool | |
| CN205208993U (en) | Solar energy water source dehumidification air conditioning hot water three way unit | |
| CN201377865Y (en) | Air conditioner with air-source heat pump | |
| CN202868844U (en) | Modularized radiation heat transfer terminal and waste heat recovery radiation pipe network heat pump system | |
| CN101949616B (en) | Multifunctional heat pump air-conditioning system | |
| CN203980701U (en) | A kind of superposing type air-source heating plant | |
| CN210399311U (en) | Circulating type cold and heat cogeneration system in office building | |
| CN201368588Y (en) | Heat pump water heater for kitchen | |
| CN203336778U (en) | Circulation geothermal central air-conditioning energy-saving system with heat recovery device | |
| CN209246294U (en) | A kind of air conditioner energy-saving system | |
| CN207893845U (en) | A kind of combination heating system of air energy heat pump and solar energy heat collector | |
| CN205747580U (en) | The double thermal source combined supply system of solar energy, air source heat pump | |
| CN207006634U (en) | A kind of heat pump using integrated sewage treating apparatus sewage used heat | |
| CN207247423U (en) | A kind of common fief face centralization integrated heat supply refrigeration system of coal heat | |
| CN206803487U (en) | A kind of kitchen surplus energy utility Multifunctional heat pump system | |
| CN201259350Y (en) | Heating and cooling air conditioner and sanitary hot water integrated modular refrigerating unit | |
| CN201259352Y (en) | Multifunctional heat pump system |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160504 Termination date: 20181029 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |