CN101858627A - Solar energy secondary heat-source tower heat pump integrated device - Google Patents

Solar energy secondary heat-source tower heat pump integrated device Download PDF

Info

Publication number
CN101858627A
CN101858627A CN 201010227055 CN201010227055A CN101858627A CN 101858627 A CN101858627 A CN 101858627A CN 201010227055 CN201010227055 CN 201010227055 CN 201010227055 A CN201010227055 A CN 201010227055A CN 101858627 A CN101858627 A CN 101858627A
Authority
CN
China
Prior art keywords
pipeline
heat
air
inlet
valve
Prior art date
Application number
CN 201010227055
Other languages
Chinese (zh)
Other versions
CN101858627B (en
Inventor
刘秋克
Original Assignee
刘秋克
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 刘秋克 filed Critical 刘秋克
Priority to CN2010102270558A priority Critical patent/CN101858627B/en
Publication of CN101858627A publication Critical patent/CN101858627A/en
Application granted granted Critical
Publication of CN101858627B publication Critical patent/CN101858627B/en

Links

Abstract

The invention discloses a solar energy secondary heat-source tower heat pump integrated device. The integrated device consists of a close-type working medium cold- and heat-source tower, a heat pump reverse Carnot cycle system, and a humid heat-source condensation water separator. The device is particularly suitable for household air conditioners under high-temperature and high-humidity environment in summer and under low-temperature and high-humidity environment in winter; and the device is a high-efficiency negative pressure evaporation water chiller in summer and is an effective frost-less air-source heat pump in winter so as to realize energy supply for heat transmission of small temperature difference from air, and triple cogeneration of hot air-conditioning, cold air-conditioning and hot water without boilers, electric auxiliary terminals or carbon emission, of the household air conditioners.

Description

A kind of solar energy secondary heat-source tower heat pump integrated device

Technical field

The present invention relates to a kind of solar energy secondary heat-source tower heat pump integrated device, especially relate to a kind of solar energy secondary heat-source tower heat pump integrated device that is applicable to the family formula regional air conditioner that summer " hot and humid " and winter use under " low temperature and high relative humidity " climatic environment.

Background technology

At southern china located in subtropical zone monsoon climatic region, north cold air was gone down south with warm moist air and was converged winter, made southern wide geographic area become warm and cold air face-off district, and " low temperature and high relative humidity " becomes the specific weather conditions in areas to the south, the Chinese Yangtze river basin.Just because of this special climate condition, contained unlimited inferior source of students low temperature potential energy in the humid air by conversion of solar energy.Calorific potential content height under the humid air state, because what the conventional air source heat pump air-conditioner prolonged usefulness is the big different transfer of heat technology of air conditioner industry, meet the low temperature and high relative humidity weather, evaporating temperature is low, cause too early frosting, can't normally move heat supply, need directly to adopt the electrical heating heat supply, the energy consumption height becomes insoluble technical barrier decades, damp and hotly in the air can become the harmful regenerative resource of air source heat pump.

At present, developed a kind of device that utilizes the direct aeration circulation of big temperature difference open type cooling tower+salting liquid+reverse osmosis membrane to absorb low level heat source in the air abroad, desired circulating solution concentration height, the concentrated concentration that has surpassed two times of reverse osmosis membrane technologies, causing salting liquid to absorb the airborne moisture that condenses can't utilize reverse osmosis membrane that the water effective in the solution is separated, the exhaust emission environment, and solution losses is big.Utilize salting liquid aeration circulation to absorb low level heat source in the air, another fatal problem is, the salting liquid dissolved oxygen increases, and is serious to equipment corrosion, and the open type cooling tower mist phenomenon of wafing is very serious, and this salt fog also has heavy corrosion to the steel construction of surrounding environment.

Summary of the invention

The object of the present invention is to provide a kind of efficient height, energy consumption is low, and the life-span is long, compact conformation, the solar energy secondary heat-source tower heat pump integrated device that has wide range of applications.

Technical scheme of the present invention is: it is by enclosed working medium Cooling and Heat Source tower, and contrary Carnot cycle system of heat pump and damp and hot source condensate water separator are formed;

Described enclosed working medium Cooling and Heat Source tower comprises casing negative pressure cavity air intake grid, Cooling and Heat Source heat exchanger, variable air rate EGR, rhombus steam fog separator; Described casing negative pressure cavity air intake grid is positioned on the outer enclosed structure of casing, the Cooling and Heat Source heat exchanger is positioned at casing enclosed structure middle and upper part, the upper end communicates with the variable air rate EGR, the lower end communicates with casing negative pressure cavity air intake grid, spray thrower assembly, drip tray device, the variable air rate EGR is positioned at casing enclosed structure top, the top communicates with rhombus steam fog separator, the lower end communicates with the Cooling and Heat Source heat exchanger, rhombus steam fog separator is positioned at the outer enclosed structure top of casing, its top communicates with atmosphere, and the lower end communicates with the variable air rate EGR;

The contrary Carnot cycle system of described heat pump comprises heat pump compressor, hot-water heater, dielectric heater, four-way change-over valve, air-conditioning heater, separate cooler, heat expansion valve, coil evaporator, described heat pump compressor exhaust outlet links to each other with hot-water heater working medium air inlet by pipeline, hot-water heater working medium gas outlet links to each other with dielectric heater working medium air inlet by pipeline, dielectric heater working medium gas outlet links to each other with the four-way change-over valve air inlet by pipeline, the four-way change-over valve gas outlet links to each other with air-conditioning heater working medium air inlet by pipeline, the pipeline of air-conditioning heater working medium liquid outlet by the check valve I is installed with separate the cooler inlet and be connected, separate the cooler liquid outlet by filter is installed, the pipeline of check valve II with heat the expansion valve inlet and be connected, heating the expansion valve liquid outlet is connected with the coil evaporator inlet with separating tube by pipeline, the coil evaporator venthole is connected with the four-way change-over valve air intake by the pipeline that the check valve III is installed, the four-way change-over valve venthole by pipeline with separate the cooler air intake and be connected, separate the cooler venthole and be connected with heat pump compressor suction steam ports by pipeline.

Damp and hot source condensate water separator is by high-pressure circulation pump, constitute with the contrary Carnot cycle system of described heat pump shared dielectric heater, more medium filter, polymeric membrane separator tube, negative temperature sprayer, condensate water separator disk, medium baffle-box; Described high-pressure circulation pump liquid outlet is connected with dielectric heater medium inlet by pipeline, dielectric heater medium liquid outlet is connected with the more medium filter inlet by the pipeline that the valve I is installed, the more medium filter liquid outlet is connected with polymeric membrane separator tube inlet by the pipeline that the valve II is installed, polymeric membrane separator tube liquid outlet is by being equipped with the valve III, the magnetic valve III, the pipeline of check valve IV is connected with the negative temperature sprayer, polymeric membrane separator tube delivery port is connected with the unit discharge outlet by pipeline, negative temperature sprayer lower end communicates with the condensate water separator disk, condensate water separator disk liquid outlet is connected with medium baffle-box inlet by the pipeline that the magnetic valve II is installed, with on the condensate water discharge road that the delivery port of condensate water separator disk links to each other the magnetic valve I is installed, medium baffle-box liquid outlet is connected with the high-pressure circulation pump inlet by pipeline.

The present invention utilizes little different transfer of heat low heat heat pump, the anti-frosting solution of macromolecule to combine with membrane separation technique, constitutes the solar energy secondary heat-source tower heat pump household air conditioning.Can realize that in monsoon climate zone, subtropical zone the family do not have boiler with air-conditioning and do not have cold-heat air-conditioning, water-heating three alliances that the auxilliary terminal of electricity does not have row's carbon.

The present invention's operation energy consumption in household air conditioning is low, carbon reduction, summer water spraying and sprinkling evaporation cooling refrigeration Energy Efficiency Ratio height, be that Frostless air-source heat pump heating performance coefficient height need not auxiliary thermal source winter, and service life of equipment is long, and is highly integrated, compact conformation, adopt the anti-frosting solution of polymeric membrane separator tube separation regeneration, recycling, environmentally safe; Utilize the little different transfer of heat of heat source tower heat pump to want the energy, the carbon reduction technological expansion is used in the air-conditioning to the family, replace conventional art conventional air source heat pump+auxilliary hot household air conditioning of electricity, applied range to air.

Description of drawings

Fig. 1 is the structural representation of one embodiment of the invention.

The specific embodiment

The invention will be further described below in conjunction with accompanying drawing.

With reference to Fig. 1, present embodiment comprises enclosed working medium Cooling and Heat Source tower, the contrary Carnot cycle system of heat pump and damp and hot source condensate water separator composition.

Big hollow arrow is represented air-flow direction among the figure, and little filled arrows represents that refrigeration working medium circulates direction, and little hollow arrow is represented the medium circulation flow direction; Dotted line is represented the gaseous material flow line, the pipeline liquid flow line that solid line is represented.

Described enclosed working medium Cooling and Heat Source tower comprises casing negative pressure cavity air intake grid 1-1, Cooling and Heat Source heat exchanger 1-2, variable air rate EGR 1-3, rhombus steam fog separator 1-4; Described casing negative pressure cavity air intake grid 1-1 is positioned on the outer enclosed structure of casing, 1-2 communicates with the Cooling and Heat Source heat exchanger, Cooling and Heat Source heat exchanger 1-2 is positioned at casing enclosed structure middle and upper part, upper end and variable air rate EGR 1-3 UNICOM, lower end and casing negative pressure cavity air intake grid, the spray thrower assembly, the drip tray device communicates, variable air rate EGR 1-3 is positioned at casing enclosed structure top, the top communicates with rhombus steam fog separator 1-4, the lower end communicates with Cooling and Heat Source heat exchanger 1-2, rhombus steam fog separator 1-4 is positioned at the outer enclosed structure top of casing, its top communicates with atmosphere, and the lower end communicates with variable air rate EGR 1-3;

The contrary Carnot cycle system of described heat pump comprises heat pump compressor 2-1, hot-water heater 2-2, dielectric heater 2-3, four-way change-over valve 2-4, air-conditioning heater 2-5, separate cooler 2-6, heat expansion valve 2-7, coil evaporator 2-8, described heat pump compressor 2-1 exhaust outlet links to each other with hot-water heater 2-2 working medium air inlet by pipeline, hot-water heater 2-2 working medium gas outlet links to each other with dielectric heater 2-3 working medium air inlet by pipeline, dielectric heater 2-3 working medium gas outlet links to each other with four-way change-over valve 2-4 air inlet by pipeline, four-way change-over valve 2-4 gas outlet links to each other with air-conditioning heater 2-5 working medium air inlet by pipeline, the pipeline that air-conditioning heater 2-5 working medium liquid outlet is logical to be equipped with the check valve I with separate cooler 2-6 inlet and be connected, separate cooler 2-6 liquid outlet by filter is installed, the pipeline of check valve II with heat expansion valve 2-7 inlet and be connected, heating expansion valve 2-7 liquid outlet is connected with coil evaporator 2-8 inlet with separating tube by pipeline, coil evaporator 2-8 venthole is connected with four-way change-over valve 2-4 air intake by the pipeline that the check valve III is installed, four-way change-over valve 2-4 venthole by pipeline with separate cooler 2-6 air intake and be connected, separate cooler 2-6 venthole and be connected with heat pump compressor 2-1 suction steam ports by pipeline.

Damp and hot source condensate water separator is by high-pressure circulation pump 3-1, constitute with shared dielectric heater 2-3, more medium filter 3-2, polymeric membrane separator tube 3-3, negative temperature sprayer 3-4, condensate water separator disk 3-5, the medium baffle-box 3-6 of the contrary Carnot cycle system of described heat pump; Described high-pressure circulation pump 3-1 liquid outlet is connected with dielectric heater 2-3 medium inlet by pipeline, dielectric heater 2-3 medium liquid outlet is connected with more medium filter 3-2 inlet by the pipeline that the valve I is installed, more medium filter 3-2 liquid outlet is connected with polymeric membrane separator tube 3-3 inlet by the pipeline that the valve II is installed, polymeric membrane separator tube 3-3 liquid outlet is by being equipped with the valve III, the magnetic valve III, the pipeline of check valve IV is connected with negative temperature sprayer 3-4, polymeric membrane separator tube 3-3 delivery port is connected with the unit discharge outlet by pipeline, negative temperature sprayer 3-4 lower end communicates with the condensate water separator disk, condensate water separator disk 3-5 liquid outlet is connected with medium baffle-box 3-6 inlet by the pipeline that magnetic valve II 3-5.2 is installed, with on the condensate water discharge road that the delivery port of condensate water separator disk 3-5 links to each other magnetic valve I 3-5.1 is installed, medium baffle-box 3-6 liquid outlet is connected with high-pressure circulation pump 3-1 inlet by pipeline.

Operation principle:

Enclosed working medium Cooling and Heat Source tower operation principle: the low potential temperature air in solar energy secondary source can enter Cooling and Heat Source heat exchanger 1-2 through casing negative pressure cavity air intake grid 1-1, Cooling and Heat Source heat exchanger 1-2 fin will hang down the potential temperature air can pass to the decline of coil evaporator 2-8 air themperature, promote to be pressed into rhombus steam fog separator 1-4 through variable air rate EGR 1-3 and separate mist vapour and enter atmosphere and carry out heat exchange, enter the heat exchange that casing negative pressure cavity air intake grid 1-1 constitutes air low temperature position heat energy and coil evaporator 2-8 after air themperature raises again and circulate.

The contrary Carnot cycle system works principle of heat pump: the low pressure refrigerant vapor from coil evaporator 2-8 is sucked by heat pump compressor 2-1, enter hot-water heater 2-2 through heat pump work done lifting for cold-producing medium high pressure superheater gas, emit part sensible heat energy by circulatory mediator interface I 2-A and circulatory mediator interface II 2-B to hot water cyclesystem, slightly being cooled to hot high pressure gas enters dielectric heater 2-3 and emits part sensible heat energy to the medium circulation system, be cooled to the high pressure saturated gas and enter air-conditioning heater 2-5 through four-way change-over valve 2-4, discharge whole calorific potentials by circulatory mediator interface III 2-C and circulatory mediator interface IV 2-D to the air-conditioning heat supply circulatory system and be condensed into the high-pressure refrigerant saturated liquid, enter separation cooler 2-6 and be cooled to the high-pressure refrigerant subcooled liquid, through filter, the check valve II enters and heats expansion valve 2-7 throttling step-down is two fluids of low pressure refrigerant vapour-liquid, entering coil evaporator 2-8 absorption can carburation by evaporation be the low pressure refrigerant moist steam from the low potential temperature air that Cooling and Heat Source heat exchanger 1-2 fin conducts heat, through check valve, four-way change-over valve 2-4, separate cooler 2-6 and isolate drop, low pressure refrigerant vapor sucks the work done lifting by heat pump compressor and finishes the contrary Carnot cycle of heat pump.

Damp and hot source condensate water separator operation principle: when ambient air temperature is higher than more than 1 ℃, condensate water separator disk 3-5, magnetic valve I 3-5.1 open automatically, Cooling and Heat Source heat exchanger 1-2 has absorbed from the isolated moisture that condenses of airborne low potential temperature calorific potential, naturally fall into condensate water separator disk 3-5,3-5.1 discharges automatically by the magnetic valve I; When ambient air temperature is lower than below 1 ℃, condensate water separator disk 3-5, magnetic valve I 3-5.1 closes automatically, magnetic valve II 3-5.2 opens automatically, Cooling and Heat Source heat exchanger 1-2 has absorbed the frost prevention medium of isolating condense moisture and interrupted injection from airborne low potential temperature calorific potential and has been mixed into dilute solution, naturally fall into condensate water separator disk 3-5, enter medium baffle-box 3-6 by magnetic valve II 3-5.2, the negative temperature dilute solution sucks pressure-raising by high-pressure circulation pump 3-1 and enters more medium filter 3-2 impurity screening after dielectric heater 2-3 heating, dilute solution after the heating enters the moisture that condenses of isolating allow compliance with emission standards behind the polymeric membrane separator tube 3-3, discharge through the 3-3.1 delivery port, isolated concentrated solution is through the magnetic valve III, the check valve IV enters negative temperature sprayer 3-4 to Cooling and Heat Source heat exchanger 1-2 intermittent spraying frost-proof solution, finishes solution frost prevention process.

Claims (1)

1. a solar energy secondary heat-source tower heat pump integrated device is characterized in that, is made up of enclosed working medium Cooling and Heat Source tower, the contrary Carnot cycle system of heat pump and damp and hot source condensate water separator;
Described enclosed working medium Cooling and Heat Source tower comprises casing negative pressure cavity air intake grid, Cooling and Heat Source heat exchanger, variable air rate EGR, rhombus steam fog separator; Described casing negative pressure cavity air intake grid is positioned on the outer enclosed structure of casing, the Cooling and Heat Source heat exchanger is positioned at casing enclosed structure middle and upper part, the upper end communicates with the variable air rate EGR, the lower end communicates with casing negative pressure cavity air intake grid, spray thrower assembly, drip tray device, the variable air rate EGR is positioned at casing enclosed structure top, the top communicates with rhombus steam fog separator, the lower end communicates with the Cooling and Heat Source heat exchanger, rhombus steam fog separator is positioned at the outer enclosed structure top of casing, its top communicates with atmosphere, and the lower end communicates with the variable air rate EGR;
The contrary Carnot cycle system of described heat pump comprises heat pump compressor, hot-water heater, dielectric heater, four-way change-over valve, air-conditioning heater, separate cooler, heat expansion valve, coil evaporator, described heat pump compressor exhaust outlet links to each other with hot-water heater working medium air inlet by pipeline, hot-water heater working medium gas outlet links to each other with dielectric heater working medium air inlet by pipeline, dielectric heater working medium gas outlet links to each other with the four-way change-over valve air inlet by pipeline, the four-way change-over valve gas outlet links to each other with air-conditioning heater working medium air inlet by pipeline, the pipeline of air-conditioning heater working medium liquid outlet by the check valve I is installed with separate the cooler inlet and be connected, separate the cooler liquid outlet by filter is installed, the pipeline of check valve II with heat the expansion valve inlet and be connected, heating the expansion valve liquid outlet is connected with the coil evaporator inlet with separating tube by pipeline, the coil evaporator venthole is connected with the four-way change-over valve air intake by the pipeline that the check valve III is installed, the four-way change-over valve venthole by pipeline with separate the cooler air intake and be connected, separate the cooler venthole and be connected with heat pump compressor suction steam ports by pipeline;
Damp and hot source condensate water separator is by high-pressure circulation pump, constitute with the contrary Carnot cycle system of described heat pump shared dielectric heater, more medium filter, polymeric membrane separator tube, negative temperature sprayer, condensate water separator disk, medium baffle-box; Described high-pressure circulation pump liquid outlet is connected with dielectric heater medium inlet by pipeline, dielectric heater medium liquid outlet is connected with the more medium filter inlet by the pipeline that the valve I is installed, the more medium filter liquid outlet is connected with polymeric membrane separator tube inlet by the pipeline that the valve II is installed, polymeric membrane separator tube liquid outlet is by being equipped with the valve III, the magnetic valve III, the pipeline of check valve IV is connected with the negative temperature sprayer, polymeric membrane separator tube delivery port is connected with the unit discharge outlet by pipeline, negative temperature sprayer lower end communicates with the condensate water separator disk, condensate water separator disk liquid outlet is connected with medium baffle-box inlet by the pipeline that the magnetic valve II is installed, with on the condensate water discharge road that the delivery port of condensate water separator disk links to each other the magnetic valve I is installed, medium baffle-box liquid outlet is connected with the high-pressure circulation pump inlet by pipeline.
CN2010102270558A 2010-07-15 2010-07-15 Solar energy secondary heat-source tower heat pump integrated device CN101858627B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010102270558A CN101858627B (en) 2010-07-15 2010-07-15 Solar energy secondary heat-source tower heat pump integrated device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010102270558A CN101858627B (en) 2010-07-15 2010-07-15 Solar energy secondary heat-source tower heat pump integrated device

Publications (2)

Publication Number Publication Date
CN101858627A true CN101858627A (en) 2010-10-13
CN101858627B CN101858627B (en) 2012-06-27

Family

ID=42944679

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010102270558A CN101858627B (en) 2010-07-15 2010-07-15 Solar energy secondary heat-source tower heat pump integrated device

Country Status (1)

Country Link
CN (1) CN101858627B (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102003838A (en) * 2010-11-16 2011-04-06 刘秋克 Solar-powered primary source heat source tower heat pump complete device
CN104713266A (en) * 2015-03-25 2015-06-17 湖南大学 Heat pump type cold and heat source unit capable of achieving frost-free and evaporative cooling
CN105928255A (en) * 2016-06-15 2016-09-07 湖南中辐空调净化设备有限公司 Refrigeration, heating and hot water combined supply unit adopting air source heat pumps

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001099447A (en) * 1999-09-30 2001-04-13 Mayekawa Mfg Co Ltd Air cooled air conditioner equipped with leaked ammonia removal equipment
US20050056042A1 (en) * 2003-09-12 2005-03-17 Davis Energy Group, Inc. Hydronic rooftop cooling systems
US20090166902A1 (en) * 2007-12-27 2009-07-02 Hoosan Co., Ltd. Counter flow type of cooling tower generating low grade of noise
CN101672552A (en) * 2009-10-12 2010-03-17 湖南秋克热源塔热泵科技工程有限公司 Tower heating pump complete device with solar energy secondary heat source
CN201497262U (en) * 2009-09-29 2010-06-02 湖南秋克热源塔热泵科技工程有限公司 Frost protection solution and condensed water separation apparatus
CN201740144U (en) * 2010-07-15 2011-02-09 刘秋克 Heating pump integration device of solar energy secondary heat source heat source tower

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001099447A (en) * 1999-09-30 2001-04-13 Mayekawa Mfg Co Ltd Air cooled air conditioner equipped with leaked ammonia removal equipment
US20050056042A1 (en) * 2003-09-12 2005-03-17 Davis Energy Group, Inc. Hydronic rooftop cooling systems
US20090166902A1 (en) * 2007-12-27 2009-07-02 Hoosan Co., Ltd. Counter flow type of cooling tower generating low grade of noise
CN201497262U (en) * 2009-09-29 2010-06-02 湖南秋克热源塔热泵科技工程有限公司 Frost protection solution and condensed water separation apparatus
CN101672552A (en) * 2009-10-12 2010-03-17 湖南秋克热源塔热泵科技工程有限公司 Tower heating pump complete device with solar energy secondary heat source
CN201740144U (en) * 2010-07-15 2011-02-09 刘秋克 Heating pump integration device of solar energy secondary heat source heat source tower

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102003838A (en) * 2010-11-16 2011-04-06 刘秋克 Solar-powered primary source heat source tower heat pump complete device
CN104713266A (en) * 2015-03-25 2015-06-17 湖南大学 Heat pump type cold and heat source unit capable of achieving frost-free and evaporative cooling
CN105928255A (en) * 2016-06-15 2016-09-07 湖南中辐空调净化设备有限公司 Refrigeration, heating and hot water combined supply unit adopting air source heat pumps

Also Published As

Publication number Publication date
CN101858627B (en) 2012-06-27

Similar Documents

Publication Publication Date Title
CN1235007C (en) Unit solar energy heat pump air conditioner and hot water system
CN100580342C (en) Heat source tower heat pump
CN100422663C (en) Multiple heat source multifunction solar energy heat pump
CN101963412B (en) Solar energy and electric energy combined heat pump system and cooling and heating method
CN102213471B (en) Method for heat humidity independent treatment of air by segmental utilization of condensation heat
CN103090485A (en) Air conditioning system for restaurant
CN201852342U (en) Wet curtain evaporative cooling air-cooled condensing unit
CN104329759A (en) Temperature control dehumidification system and temperature control dehumidification method for fresh air of radiation air conditioner
CN101240949B (en) Cascade energy usable variable capacity family energy resource system
CN201885478U (en) Low temperature type air source heat pump unit
CN101701737B (en) Heat-pump-driven solution dehumidifying air-conditioning device
CN203116203U (en) Air cooling air-conditioning system provided with condenser cooling supercooling device
CN101281001B (en) Closed type heat source tower
CN103900289B (en) The system and method for solid dehumidifying prevention air source hot pump water heater frosting
CN105841272B (en) A kind of humiture independence control air conditioner system of Driven by Solar Energy
WO2011044801A1 (en) Complete set of heat source tower heat pump using solar energy secondary source
CN201733563U (en) Air-conditioner system suitable for cabinets
CN101603715B (en) Ground source heat pump air-conditioning system and air processing method thereof
CN202002391U (en) Water heater unit with spray liquid enthalpy-increasing heat pump
CN201497390U (en) Solar secondary biogenous cold-heat source tower
CN101240925B (en) Solar energy absorption type liquid dehumidifying air-conditioning system
CN101403541B (en) Heat pump air conditioning system
CN103994598A (en) Heat pump system used for pure electric vehicle
CN102901167B (en) Heat source tower heat pump device for achieving comprehensive utilization of solar energy
CN101571330B (en) Multifunctional frost-free solar-assisted heat pump system

Legal Events

Date Code Title Description
PB01 Publication
C06 Publication
SE01 Entry into force of request for substantive examination
C10 Entry into substantive examination
GR01 Patent grant
C14 Grant of patent or utility model
COR Change of bibliographic data

Free format text: CORRECT: ADDRESS; FROM: 410004 CHANGSHA, HUNAN PROVINCE TO: 417500 LOUDI, HUNAN PROVINCE

C41 Transfer of patent application or patent right or utility model
TR01 Transfer of patent right

Effective date of registration: 20130301

Address after: Six Xinmin village, 417500 section, Sha Tong Bay Subdistrict Office, Lengshuijiang, Hunan, Loudi

Patentee after: Hunan Dong you energy saving building engineering equipment Co., Ltd.

Address before: 410004 Hunan province Changsha Yuhua District of Shaoshan City Road Huayin Park District 21 building 1410 room

Patentee before: Liu Qiuke

ASS Succession or assignment of patent right

Owner name: HUNAN DONGYOU ENERGY SAVING CONSTRUCTION ENGINEERI

Free format text: FORMER OWNER: LIU QIUKE

Effective date: 20130301

COR Change of bibliographic data

Free format text: CORRECT: ADDRESS; FROM: 417500 LOUDI, HUNAN PROVINCE TO: 410004 CHANGSHA, HUNAN PROVINCE

TR01 Transfer of patent right

Effective date of registration: 20130411

Address after: 2017, 410004, Red Star building, No. two, 517 East Xiang Road, Yuhua District, Hunan, Changsha

Patentee after: Changsha Dong you Engineering Equipment Co., Ltd.

Address before: Six Xinmin village, 417500 section, Sha Tong Bay Subdistrict Office, Lengshuijiang, Hunan, Loudi

Patentee before: Hunan Dong you energy saving building engineering equipment Co., Ltd.

C41 Transfer of patent application or patent right or utility model
ASS Succession or assignment of patent right

Owner name: CHANGSHA DONGYOU ENGINEERING EQUIPMENT CO., LTD.

Free format text: FORMER OWNER: HUNAN DONGYOU ENERGY SAVING CONSTRUCTION ENGINEERING EQUIPMENT CO., LTD.

Effective date: 20130411