CN201273649Y - Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy - Google Patents

Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy Download PDF

Info

Publication number
CN201273649Y
CN201273649Y CN 200820185508 CN200820185508U CN201273649Y CN 201273649 Y CN201273649 Y CN 201273649Y CN 200820185508 CN200820185508 CN 200820185508 CN 200820185508 U CN200820185508 U CN 200820185508U CN 201273649 Y CN201273649 Y CN 201273649Y
Authority
CN
China
Prior art keywords
heat
solar energy
tube
cold
unit
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
Application number
CN 200820185508
Other languages
Chinese (zh)
Inventor
倪绍科
Original Assignee
倪绍科
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 倪绍科 filed Critical 倪绍科
Priority to CN 200820185508 priority Critical patent/CN201273649Y/en
Application granted granted Critical
Publication of CN201273649Y publication Critical patent/CN201273649Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/40Geothermal heat-pumps
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/10Geothermal energy

Abstract

The utility model discloses a machine group which utilizes the solar energy and geothermal energy to supply cooling, warmness and heat, comprising a solar energy heat collector, a heat storage water tank (7), a twin-well alternated pumping device, a detachable double-tube heat exchanger (9), an air conditioning medium container (8) and an air conditioning end device (14); the solar energy heat collector is connected with the heat storage water tank (7) by a pipeline and a valve, and the heat storage water tank (7) is connected with the detachable double-tube heat exchanger (9) through a circulating pump; the detachable double-tube heat exchanger (9) is connected with the air conditioning medium container (8) and the twin-well alternated pumping device through the circulating pump; and the air conditioning medium container (8) is connected with the air conditioning end device (14) through the circulating pump. The utility model has the advantages of simple structure, high lightening utilization rate of the solar energy, high rate of heat exchange for underground water and low initial investment cost particularly.

Description

Adopt solar energy, can carry out the unit of cold, warm, hot three alliances
Technical field
The utility model relates to the unit that utilizes regenerative resource, especially relate to a kind of utilize solar energy, can carry out the unit of cold, warm, hot three alliances.
Background technology
At present, have a variety of forms utilize solar energy, can carry out the unit of cold, warm, hot three alliances to building such as room, office building, market.For example: utility model ZL99248535.5 ground energy, solar cold, hot water unit; ZL99253771.1 solar energy, underground heat hot and cold water unit; ZL0020136.4 solar energy, can, hot water or cold water's unit or the like.But these units run into very big difficulty in actual applying, and its main cause is: the initial outlay cost is too high; Operating cost is not low; Particularly to the collection utilization rate of sunlight, lower to phreatic rate of heat exchange.
Summary of the invention
The purpose of this utility model is: provide a kind of adopt solar energy, can carry out the unit of cold, warm, hot three alliances, it is simple in structure, solar energy light collecting utilization rate height, the totle drilling cost of underground water rate of heat exchange height, especially initial outlay is low.
Technical solution of the present utility model is: this unit comprises that solar thermal collector, heat storage water tank, twin-well rotate pumping and filling device, removable double-tube heat exchanger, air-conditioning medium container and air conditioner end equipment, solar thermal collector connects heat storage water tank by pipeline, valve, heat storage water tank connects removable double-tube heat exchanger by circulating pump, removable double-tube heat exchanger connects the air-conditioning medium container by circulating pump and twin-well is taken out tank arrangement by turns, and the air-conditioning medium container connects air conditioner end equipment by circulating pump.
The solar energy that utilizes of the present utility model, ground can carry out cold, warm, in the unit of heat three alliances, solar thermal collector is made up of the tracing collection type that need not multifuctional solar stove and the zero-clearance damage concentrator of utility model ZL01202954.8, the Photospot solar stove comprises tubulose furnace wall tubes and glass-vacuum tube, one group of horizontal glass-vacuum tube is installed on the longitudinal tubular furnace wall tubes by the reducing cross connecting tube, the endotherm section of L type super heat-conductive pipe inserts in the glass-vacuum tube, and the evaporator section of L type super heat-conductive pipe inserts in the furnace wall tubes through positioning seat, sealing ring, compressing mother is tightly connected; It is W type Reflector Panel that zero-clearance decreases concentrator, angle (23 ° 27 ') between summer solstice or winter solstice tracks plane and earth equatorial plane is a parameter to the reflecting surface of W type Reflector Panel according to the selected glass-vacuum tube diameter and the sun, is formed relatively by two parabola cylinders; In the W type groove of zero-clearance damage concentrator, glass-vacuum tube is installed.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, described glass-vacuum tube can be selected in the market any of several different-diameters that industrialization produces, different length.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, zero-clearance is decreased the influence of the Reflector Panel of concentrator in order to reduce dust storm, rainwater and environmental factor etc., select for use a kind of light transmittance and shock resistance all to be better than the macromolecule resin FRP material of any glass as cover plate, cover plate is installed on the W type Reflector Panel, is provided with gripper shoe at the bottom of concentrator.
Of the present utility model utilize solar energy, can carry out on the pipeline of solar thermal collector, boiled water tank being installed in the unit of cold, warm, hot three alliances.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, heat winter, heat for preventing that many days cloudy weather for several days running from influencing, electrothermal tube is installed in bottom in the internal heat type tubulose furnace wall tubes of " need not tracing collection type multifunctional solar stove ", on the pipeline of boiled water tank and heat storage box gas heater is installed.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, it is that " twin-well take out by turns irritate transducing head " of ZL200620072791.X comprises two wells and immersible pump that twin-well is rotated pumping and filling device, and desander is installed on pipeline.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, removable double-tube heat exchanger is the removable double-tube heat exchanger of number of patent application 200820034900.8 ".
Of the present utility model utilize solar energy, can carry out the unit of cold, warm, hot three alliances, during refrigeration, the water that aspirates well by immersible pump by turns send removable double-tube heat exchanger through desander, medium in the air-conditioning medium container also send removable double-tube heat exchanger, and medium send air conditioner end equipment to the environment cooling after the energy exchange; During heating, with the removable double-tube heat exchanger of the hot water warp let-off in the heat storage water tank, the another circulating pump is with the medium of the air-conditioning medium container also removable double-tube heat exchanger of the warp let-off by circulating pump, and the medium after the energy exchange is delivered to air conditioner end equipment and heated to environment; When using hot water, put into the bathtub bathing with the good water temperature of the valve regulated that is connected running water pipe or wash one's hands by shower nozzle shower and hand washing sink by opening the valve that connects heat storage water tank.
The utlity model has following advantage:
1. the tracing collection type that the need not solar furnace that adopts in the utility model, its zero-clearance decrease concentrator thermal efficiency height, and the optically focused temperature can reach 150 ~ 200 ℃.
2. solar furnace adopts L type super heat-conductive pipe, does not leak water in glass evacuated, need not scale removal, can keep high efficiency for a long time.
3. " the removable double-tube heat exchanger " that adopts in the utility model is simple in structure, be convenient to cleaning, easy for installation, be adapted at the use of water source refrigeration and heating air-conditioning system, this heat exchanger adopts countercurrent flow, realizes high exchange efficiency under the situation that heat source water and medium have a narrow range of temperature.
4. inside and outside the interior pipe of removable double-tube heat exchanger the spiral stream guidance spring is installed, makes the spiral turbulent motion of mobile generation of heat source water and heat transferring medium liquid, prolong stroke and time that fluid passes through in heat exchanger tube, further improve heat exchange efficiency.
5. under the effect of booster pump, the distance between two wells can widen " twin-well is taken out by turns and irritated transducing head " of adopting in the utility model as much as possible, enlarges the exchange scope, fully improves the heat exchange efficiency between water and the soil layer.
6. twin-well is taken out by turns to irritate in the transducing head and is provided with the insulative voltage-stablizer, and water flows in the circulatory system of sealing, contact with air, keeps underground water not contaminated, and guaranteeing that twin-well is taken out the air-conditioning system of filling by turns can be efficient, energy-conservation, move steadily in the long term.
7. refrigeration of the present utility model does not adopt compressor, and the use freon that can damage the ozone layer does not have the energy consumption of compressor yet.
8. coal-burning boiler or boilers heated electrically are not adopted in heating of the present utility model, can be to airborne release CO 2, save electricity consumption.
Description of drawings
Fig. 1 is three alliance set structure schematic diagrames of the present utility model.
Fig. 2 is the solar thermal collector front schematic view of Fig. 1.
Fig. 3 is that the zero-clearance of the solar thermal collector of Fig. 2 decreases the concentrator schematic diagram.
Fig. 4 is the L type super heat-conductive pipe schematic diagram of the solar thermal collector of Fig. 2.
Among the figure: 1, Photospot solar stove; 2, magnetic valve; 3, zero-clearance decreases concentrator; 4, electrothermal tube; 5, boiled water tank; 6, gas heater; 7, heat storage water tank; 8, air-conditioning medium container; 9, removable double-tube heat exchanger; 10, desander; 11, shower nozzle; 12, tap; 13, hand washing sink; 14, air conditioner end equipment; 15-30, valve; 31-32, well; 33-34, immersible pump; 35-36, circulating pump; 37, distribution box; 38-39, temperature probe; 2-1, vacuum tube tailstock; 2-2, glass-vacuum tube; 2-3, L type super heat-conductive pipe; 2-4, reducing cross connecting tube; 2-5, furnace wall tubes; 2-6, water inlet; 2-7, delivery port; 2-8, clamp nut; The 2-9 sealing ring; 2-10, heat pipe positioning seat; 2-11, magnetic valve; 3-1, FRP cover plate; 3-2, gripper shoe; 3-3W type Reflector Panel.
Specific implementation method
Of the present utility model utilize solar energy, to carry out the embodiment that the unit of cold, warm, hot three alliances encyclopaedizes in conjunction with the accompanying drawings as follows:
Shown in Fig. 1-4, this unit comprises that solar thermal collector, heat storage water tank 7, twin-well rotate pumping and filling device, removable double-tube heat exchanger 9, air-conditioning medium container 8 and air conditioner end equipment 14, solar thermal collector connects heat storage water tank 7 by pipeline, valve, heat storage water tank 7 connects removable double-tube heat exchanger 9 by circulating pump, removable double-tube heat exchanger 9 connects air-conditioning medium container 8 by circulating pump and twin-well is taken out tank arrangement by turns, and air-conditioning medium container 8 connects air conditioner end equipment 14 by circulating pump.
The solar energy that utilizes of the present utility model, ground can carry out cold, warm, in the unit of heat three alliances, solar thermal collector is by forming for the tracing collection type that the need not multifuctional solar stove 1 of utility model ZL01202954.8 and zero-clearance decrease concentrator 3, Photospot solar stove 1 comprises tubulose furnace wall tubes 2-5 and glass-vacuum tube 2-2, one group of horizontal glass-vacuum tube 2-2 is installed on the longitudinal tubular furnace wall tubes 2-5 by reducing cross connecting tube 2-4, the endotherm section of L type super heat-conductive pipe 2-3 inserts in the glass-vacuum tube 2-2, and the evaporator section of L type super heat-conductive pipe 2-3 inserts in the furnace wall tubes 2-5 through positioning seat 2-10, sealing ring 2-9, clamp nut 2-8 is tightly connected; It is W type Reflector Panel 3-3 that zero-clearance decreases concentrator 3, angle (23 ° 27 ') between summer solstice or winter solstice tracks plane and earth equatorial plane is a parameter to the reflecting surface of W type Reflector Panel according to the selected glass-vacuum tube diameter and the sun, is formed relatively by two parabola cylinders; In zero-clearance decreases the groove of W type Reflector Panel 3-3 of concentrator 3, glass-vacuum tube 2-2 is installed.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, described glass-vacuum tube 2-2 can select in the market any of several different-diameters that industrialization produces, different length.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, zero-clearance is decreased the influence of the reflecting plate of concentrator in order to reduce dust storm, rainwater and environmental factor etc., select for use a kind of light transmittance and shock resistance all to be better than the macromolecule resin FRP material of any glass as cover plate 3-1, cover plate 3-1 is installed on the W type Reflector Panel 3-3, in the bottom of the W of concentrator type Reflector Panel 3-3 gripper shoe 3-2 is installed.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, boiled water tank 5 is installed on the pipeline of solar thermal collector
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, heat winter, heat for preventing that many days cloudy weather for several days running from influencing, electrothermal tube 4 is installed in the bottom of the internal heat type tubulose furnace wall tubes 2-5 of " need not tracing collection type multifunctional solar stove "; Gas heater 6 is installed on the pipeline of boiled water tank 5 and heat storage water tank 7.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, it is that " twin-well take out by turns irritate transducing head " of ZL200620072791.X comprises two well 31-32 and immersible pump 33-34 that twin-well is rotated pumping and filling device, and desander 10 is installed on pipeline.
Of the present utility model utilize solar energy, can carry out in the unit of cold, warm, hot three alliances, removable double-tube heat exchanger 9 is the removable double-tube heat exchanger of number of patent application 200820034900.8 ".
Of the present utility model utilize solar energy, can carry out the unit of cold, warm, hot three alliances, during refrigeration, the water that aspirates well 31-32 by immersible pump 33-34 by turns send removable double-tube heat exchanger 9 through desander 10, medium in the air-conditioning medium container 8 also send removable double-tube heat exchanger 9, and medium send air conditioner end equipment 14 to the environment cooling after the energy exchange; During heating, by circulating pump 36 with the removable double-tube heat exchanger 9 of the hot water warp let-off in the heat storage water tank 7, another circulating pump 35 is with the medium of the air-conditioning medium container 8 also removable double-tube heat exchanger 9 of the warp let-off, and the medium after the energy exchange is delivered to air conditioner end equipment 14 and heated to environment; When using hot water, put into the bathtub bathing with the good water temperature of the valve regulated that is connected running water pipe or wash one's hands by shower nozzle 11 shower and hand washing sink 13 by opening the valve that connects heat storage water tank 7.
1. the program of freezing summer: start immersible pump 33, from underground water well 31, extract the valve 28 of underground cold water out by opening, after desander 10 desanding, enter in the double-tube heat exchanger 9, in the air-conditioning medium warp let-off double-tube heat exchanger 9 that circulating pump 35 is released, carry out transducing from air-conditioning medium container 8; Phreatic energy is given after the air-conditioning medium, just recharges in the water table of underground water well 31 by the valve of having opened 29 under the power drive of immersible pump 33; Simultaneously, air-conditioning medium is through obtaining in double-tube heat exchanger 9 after the cold energy that underground water gives also under the power drive of circulating pump 35, and the air conditioner end equipment 14 of flowing through is got back in the media Containers again after the environment cooling; Underground water from the underground air-conditioning medium that carries low-temperature receiver and lost cold energy respectively under the power of immersible pump 33 and circulating pump 35, in double-tube heat exchanger 9, carry out reverse-flow energy exchange, under the temperature control that is provided with, carry out the cyclic process that goes round and begins again of refrigeration in summer at any time like this.
2. heat supply in winter process: under the driving of circulating pump 36, the higher heat source water of temperature from heat storage water tank 7 released send in the double-tube heat exchanger 9 by the valve of opening 21, circulating pump 35 drives extracts air-conditioning medium in the air-conditioning medium container out, carries out countercurrent heat exchange in double-tube heat exchanger 9; After high temperature heat source water is given air-conditioning medium to heat energy, still under the power drive of circulating pump 35, get back in the heat storage water tank through the valve of having opened 26; Simultaneously, air-conditioning medium is through obtaining in double-tube heat exchanger 9 after the heat that heat source water gives, still under the driving of circulating pump 35, the air conditioner end equipment 14 of flowing through is got back in the media Containers after the environment space heating, under the temperature control that is provided with, carry out the cyclic process that goes round and begins again of heat supply in winter at any time like this.
3. hot-water supply program: described hot water is divided into drinking water and daily hot water: a. boiling water program all is set to 100 ℃ of technical indicators with temperature controller first, second and opens running water valve 15, all the other valve closings; When solar furnace water temperature to 100 ℃, temperature probe simultaneously passes to temperature controller first, second to signal magnetic valve 2 and magnetic valve 2-11 is opened, and allows the boiling water of solar furnace enter boiled water tank 5 by magnetic valve 2 and water pipe and magnetic valve 2-11 under tap water pressure promotes; When the stove water temperature drops to below 100 ℃, temperature probe passes to temperature controller first, second to signal equally, and magnetic valve 2,2-11 be contract fully then; When by the time the stove water temperature is again to 100 ℃, then repeat with cocycle till the water level of boiled water tank reaches designing requirement; B. hot water program, this program is fairly simple, as long as with control valve 22 and valve 23 or control valve 24 and valve 25, the water temperature of shower nozzle 11 or tap 12 has been transferred to suitable temperature just; If run into continuous many days wet weather, then enable the electrothermal tube 4 or the gas heater 6 that are located at tube furnace tube wall bottom, can realize heating and use hot water.

Claims (8)

1. utilize solar energy, ground can carry out cold, warm, the unit of heat three alliances, it is characterized in that: this unit comprises solar thermal collector, heat storage water tank (7), twin-well is rotated pumping and filling device, removable double-tube heat exchanger (9), air-conditioning medium container (8) and air conditioner end equipment (14), solar thermal collector passes through pipeline, valve connects heat storage water tank (7), heat storage water tank (7) connects removable double-tube heat exchanger (9) by circulating pump, removable double-tube heat exchanger (9) connects air-conditioning medium container (8) by circulating pump and twin-well is taken out tank arrangement by turns, and air-conditioning medium container (8) connects air conditioner end equipment (14) by circulating pump.
2. the solar energy that utilizes according to claim 1, ground can carry out cold, warm, the unit of heat three alliances, it is characterized in that: solar thermal collector is by forming for the tracing collection type that the need not multifuctional solar stove (1) of utility model ZL01202954.8 and zero-clearance decrease concentrator (3), Photospot solar stove (1) comprises tubulose furnace wall tubes (2-5) and glass-vacuum tube (2-2), one group of horizontal glass-vacuum tube (2-2) is installed on the longitudinal tubular furnace wall tubes (2-5) by reducing cross connecting tube (2-4), the endotherm section of L type super heat-conductive pipe (2-3) inserts in the glass-vacuum tube (2-2), and the evaporator section of L type super heat-conductive pipe (2-3) inserts in the furnace wall tubes (2-5) through positioning seat (2-10), sealing ring (2-9), clamp nut (2-8) is tightly connected; It is W type Reflector Panel (3-3) that zero-clearance decreases concentrator (3), angle (23 ° 27 ') between summer solstice or winter solstice tracks plane and earth equatorial plane is a parameter to the reflecting surface of W type Reflector Panel according to the selected glass-vacuum tube diameter and the sun, is formed relatively by two parabola cylinders; In zero-clearance decreases the groove of W type Reflector Panel (3-3) of concentrator (3), glass-vacuum tube (2-2) is installed.
3. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: described glass-vacuum tube (2-2) can be selected in the market any of several different-diameters that industrialization produces, different length.
4. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: zero-clearance is decreased the influence of the reflecting plate of concentrator in order to reduce dust storm, rainwater and environmental factor etc., select for use a kind of light transmittance and shock resistance all to be better than the macromolecule resin FRP material of any glass as cover plate (3-1), cover plate (3-1) is installed on the W type Reflector Panel (3-3), in the bottom of the W of concentrator type Reflector Panel (3-3) gripper shoe (3-2) is installed.
5. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: boiled water tank (5) is installed on the pipeline of solar thermal collector
6. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: heat winter, heat for preventing that many days cloudy weather for several days running from influencing, electrothermal tube (4) is installed in the bottom of the internal heat type tubulose furnace wall tubes (2-5) of " need not tracing collection type multifunctional solar stove "; On the pipeline of boiled water tank (5) and heat storage water tank (7), gas heater (6) is installed.
7. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: it is that " twin-well take out by turns irritate transducing head " of ZL200620072791.X comprises two wells (31-32) and immersible pump (33-34) that twin-well is rotated pumping and filling device, and desander (10) is installed on pipeline.
8. according to claim 1 utilize solar energy, can carry out the unit of cold, warm, hot three alliances, it is characterized in that: removable double-tube heat exchanger (9) is the removable double-tube heat exchanger of number of patent application 200820034900.8 ".
CN 200820185508 2008-09-08 2008-09-08 Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy Expired - Fee Related CN201273649Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200820185508 CN201273649Y (en) 2008-09-08 2008-09-08 Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200820185508 CN201273649Y (en) 2008-09-08 2008-09-08 Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy

Publications (1)

Publication Number Publication Date
CN201273649Y true CN201273649Y (en) 2009-07-15

Family

ID=40883996

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200820185508 Expired - Fee Related CN201273649Y (en) 2008-09-08 2008-09-08 Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy

Country Status (1)

Country Link
CN (1) CN201273649Y (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104393587A (en) * 2014-11-19 2015-03-04 张洪亮 Combined cooling, heating and power energy station utilizing renewable energy sources
CN109654581A (en) * 2018-04-09 2019-04-19 胡宇昊 A kind of Combined heating system of the cross-season heat-storage based on artesian aquifer

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104393587A (en) * 2014-11-19 2015-03-04 张洪亮 Combined cooling, heating and power energy station utilizing renewable energy sources
CN109654581A (en) * 2018-04-09 2019-04-19 胡宇昊 A kind of Combined heating system of the cross-season heat-storage based on artesian aquifer
CN109654581B (en) * 2018-04-09 2020-05-05 胡宇昊 Season-crossing heat storage composite heating system based on confined aquifer

Similar Documents

Publication Publication Date Title
CN204043049U (en) A kind of heat accumulating type solar energy earth source heat pump coupled system
CN102679624B (en) Solar energy and heat source tower heat pump combined triple supply air-conditioning system
CN206514380U (en) One kind utilizes solar energy, air energy, soil source heat pump coupling heating system
CN208473133U (en) A kind of build utilizes system with renewable energy integrated synthesis
CN101226016B (en) Solar-ground energy dual-heat-source composite heat pump device
CN104132415B (en) Solar heat pump and earth source heat pump combined air conditioning system and control method
CN202869028U (en) Power driving and separation heat pipe split type panel solar water heater
CN103307803B (en) Cold and hot water supply device by compositely utilizing energy
CN206517365U (en) One kind realizes cooling heating and power generation system using solar energy, air energy, geothermal energy and air conditioner afterheat
CN104595967A (en) Heating device of solar water heater with discrete-type heat pipes
CN106685338B (en) It is a kind of to realize cooling heating and power generation system using solar energy, air energy, geothermal energy and air conditioner afterheat
CN106440397A (en) Seasonal underground compound heat storage system
CN2869694Y (en) Water-tank special for solar air conditioner
CN203454431U (en) Household wall-hung flat plate solar thermal pump water heater
CN105716329B (en) Direct expanding solar heating pump system
CN201273649Y (en) Machine unit for coldness, warmness, heat combined supply adopting solar energy and earth energy
CN101251318A (en) Heat-exchanging apparatus of water well earth source air conditioner
CN200972280Y (en) Solar heat collector
CN201954786U (en) Phase-change heat-storage type solar heating system
CN204513775U (en) A kind of dual-energy water heater with side dress water replanishing device
CN105937814A (en) Building passive cooling and solar hot water comprehensive utilization device
CN209147317U (en) A kind of earth's surface heat energy water air-conditioning
CN203964366U (en) A kind of phase-change heat-storage Teat pump boiler
CN209181062U (en) A kind of agricultural facility confession heating system
CN103629769B (en) Solar energy central air conditioning system integrating device and heat-exchange method

Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20090715

Termination date: 20100908

C17 Cessation of patent right