CN206875631U - One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation - Google Patents
One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation Download PDFInfo
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- CN206875631U CN206875631U CN201720374209.3U CN201720374209U CN206875631U CN 206875631 U CN206875631 U CN 206875631U CN 201720374209 U CN201720374209 U CN 201720374209U CN 206875631 U CN206875631 U CN 206875631U
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- flow pipe
- pipe
- water
- return pipe
- motor regulated
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/27—Relating to heating, ventilation or air conditioning [HVAC] technologies
- Y02A30/272—Solar heating or cooling
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/20—Solar thermal
Abstract
This application discloses one kind based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, including the first liquid level sensor, storage tank, solar water heater, first motor regulated valve, first return pipe, second return pipe, 3rd return pipe, capillary network, flow pipe, temperature sensor, second motor regulated valve, second liquid level sensor, electric heater unit, attemperater, 3rd motor regulated valve, 4th motor regulated valve, 5th motor regulated valve, first flow pipe, small pump, well, water circulating pump, second flow pipe, 3rd flow pipe, with water interface, first connecting leg and the second connecting leg;Rural subscribers of this air-conditioning mainly for the northern area of China, it is intended to solve problem of environmental pollution, save space, save the energy, reduce operating cost, and the requirement that multiple rooms are freezed and heated can be met simultaneously.
Description
Technical field
The utility model belongs to field of air conditioning, is related to a kind of water air-conditioning system suitable for the northern area of China, especially relates to
And it is a kind of using multiple-energy-source and with the water air-conditioning system of architecture-integral.
Background technology
Currently, as the fast development of society and the continuous improvement of living standard, people have increasingly to quality of life
High requirement.In order to solve the problems, such as sweltering heat summer, cold winter, residential households can all select to install air-conditioning.But most of families
Be used in front yard with the air-conditioning that " freon " is refrigerant, the corresponding outdoor unit of each indoor set, interconnection it is cold
Matchmaker's pipe be exposed to outside, and the installation of outdoor unit influences the aesthetic property of building, while it is big energy consumption to be present, environmental pollution, consumes
Electricity is high, it is less economical the problems such as.For rural area, common people are less economical because air-conditioning power consumption is big, especially winter, empty
The power consumption of tune increased dramatically, and be closed under normal circumstances, air-conditioning is turned into a kind of ornament in rural households.For
Some northern regional rural areas, water resource relative abundance, almost every family can all have a well, suit measures to local conditions, can be made
For low-temperature receiver, summer utilizes low temperature well water, enters through pipeline in the air conditioner in room, and heat exchange occurs, sucks the heat in air
Amount, realizes refrigeration, and backwater is eventually returned to well, avoids the waste at water source.Winter, family used heating stove, and the water of heating is made
For thermal source, it is sent to by feed pipe in the air conditioner of interior, room air is heated.But rural households use heating
The fuel of stove is mainly coal and crop material, and the flue gas of discharge will pollute to environment, and have discontinuity in time
.At present, water air-conditioning is cabinet air conditioner used by rural area, and floor space is larger, can not meet to freeze to multiple rooms
With the demand of heat supply.
The content of the invention
Purpose of utility model:
The utility model is mainly for summer split-type air conditioner power consumption is big, winter coal-fired pollutes and the common people to air
Each room can not concentrate the problem of carrying out refrigeration and heating, propose one kind based on architecture-integral and the agricultural changes in temperature of multi-energy complementation
Radiation air-conditioner, rural subscribers of this air-conditioning mainly for the northern area of China, it is intended to solve problem of environmental pollution, it is empty to save building
Between, save the energy, reduce operating cost, and the requirement that multiple rooms are freezed and heated can be met simultaneously.
Technical scheme:
One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, it is characterised in that:Including the first liquid
Level sensor, storage tank, solar water heater, the first motor regulated valve, the first return pipe, the second return pipe, the 3rd backwater
Pipe, capillary network, flow pipe, temperature sensor, the second motor regulated valve, the second liquid level sensor, electric heater unit, insulation
Water tank, the 3rd motor regulated valve, the 4th motor regulated valve, the 5th motor regulated valve, the first flow pipe, small pump, water
Well, water circulating pump, the second flow pipe, the 3rd flow pipe, with water interface, the first connecting leg and the second connecting leg;
Small pump is placed in well, and small pump connects one end of the first flow pipe, the other end connection of the first flow pipe
One end of 3rd flow pipe, the other end of the 3rd flow pipe are connected with attemperater, and temperature sensor, the are provided with attemperater
Two liquid level sensors and electric heater unit, small pump connect one end of the first flow pipe, the other end connection the of the first flow pipe
One end of two flow pipes, the other end of the second flow pipe are connected with storage tank;Liquid level sensor, solar heat are provided with storage tank
Hydrophone is connected with storage tank by the first connecting leg, and solar water heater is connected with attemperater by the second connecting leg, the second connecting leg
The second motor regulated valve is provided with, is additionally provided with solar water heater with water interface, the both ends connection attemperater of flow pipe
And capillary network, water circulating pump is additionally provided with flow pipe, the first flow pipe is provided with small pump, and the second flow pipe and the 3rd send water
The 5th motor regulated valve and the 3rd motor regulated valve are respectively equipped with pipe, the first return pipe connects capillary network, and first
Return pipe connects with the second return pipe, the 3rd return pipe one end, the 3rd return pipe other end connection well, on the 3rd return pipe
Provided with the 4th motor regulated valve, second return pipe other end connection storage tank, the first electric adjustable is provided with the second return pipe
Save valve;
The side of the capillary network is provided with water inlet, and water inlet is connected with flow pipe, and opposite side is provided with delivery port, water outlet
Mouth is connected with the first return pipe.
Also include temperature sensor, the first controller, second controller, the 3rd controller, temperature sensor and circulation
Water pump connects, the first controller connection hydrocyclone and small pump, second controller connection electric heater unit, the 3rd controller
Connect water circulating pump.
First flow pipe is additionally provided with hydrocyclone.
The water inlet end of the capillary network is provided with filter.
Brief description of the drawings
Fig. 1 is the structural representation of this air-conditioning;
Fig. 2 is the robot control system(RCS) schematic diagram of this air-conditioning;
Fig. 3 is the structural representation of capillary network.
It is described to be labeled as:1. the first liquid level sensor, 2. storage tanks, 3. solar water heaters, 4. first electric control valves
Door, 5. first return pipes, 6. second return pipes, 7. the 3rd return pipes, 8. capillary networks, 9. flow pipes, 10. TEMPs
Device, 11. second motor regulated valves, 12. second liquid level sensors, 13. electric heater units, 14. attemperaters, 15. the 3rd electricity
Water is sent in dynamic control valve, 16. the 4th motor regulated valves, 17. the 5th motor regulated valves, 18. hydrocyclones, 19. first
Pipe, 20. small pumps, 21. wells, 22. filters, 23. water inlets, 24. delivery ports, 25. water circulating pumps, 26. second flow pipes,
27. water interface, 29. temperature sensors, 30. first controllers, 31. second controllers, 32. the 3rd are used in the 3rd flow pipe, 28.
Controller, 33. first connecting legs, 34. second connecting legs.
Embodiment
The structural representation of air-conditioning as shown in Figure 1, small pump 20 are placed in well 21;Water is sent in the connection of small pump 20 first
One end of pipe 19, the other end of the first flow pipe 19 connect one end of the 3rd flow pipe 27, the other end of the 3rd flow pipe 27 with
Attemperater 14 is connected;Temperature sensor 10, the second liquid level sensor 12 and electric heater unit 13 are provided with attemperater 14;Mend
One end of the first flow pipe 19 of connection of water pump 20, one end of the other end the second flow pipe 26 of connection of the first flow pipe 19, second
The other end of flow pipe 26 is connected with storage tank 2;Liquid level sensor 1 is provided with storage tank 2;Solar water heater 3 and storage tank 2
Connected by the first connecting leg 33, solar water heater 3 is connected with attemperater 14 by the second connecting leg 34;Set on second connecting leg 34
There is the second motor regulated valve 11;It is additionally provided with solar water heater 3 with water interface 28;The both ends connection insulation water of flow pipe 9
Case 14 and capillary network 8, are additionally provided with water circulating pump 25 on flow pipe 9;First flow pipe 19 is provided with small pump 20 and eddy flow removes
Sand device 18;The 5th motor regulated valve 17 and the 3rd electric control valve are respectively equipped with second flow pipe 26 and the 3rd flow pipe 27
Door 15;First return pipe 5 connects capillary network 8, and the first return pipe 5 connects with the second return pipe 6, the one end of the 3rd return pipe 7;
The other end of 3rd return pipe 7 connects well 21, and the 4th motor regulated valve 16 is provided with the 3rd return pipe 7;Second return pipe 6
The other end connects storage tank 2, and the first motor regulated valve 4 is provided with the second return pipe 6;The water inlet end of capillary network 8 is provided with
Filter 22.
The robot control system(RCS) schematic diagram of air-conditioning as shown in Figure 2, temperature sensor 10 is provided with attemperater 14, the second liquid level passes
Sensor 12, electric heater unit 13;In the winter time, when temperature sensor 10, which monitors water temperature, reaches design temperature, electric heater unit 13
Work is automatically stopped, during less than design temperature, is automatically turned on;The first level sensing being provided with storage tank 2 and attemperater 14
Device 1, the second liquid level sensor 12, control the start and stop of small pump 20;Interior is connected provided with temperature sensor 29 with water circulating pump 25,
When indoor temperature reaches setting value, water circulating pump 25 is closed automatically, and room temperature rise, water circulating pump 25 automatically turns on.First control
Device 30 processed connects hydrocyclone 18 and small pump 20, the start and stop to hydrocyclone 18 and small pump 20 are controlled;Second
Controller 31 connects electric heater unit 13, the 3rd controller 32 connection water circulating pump 25, respectively to electric heater unit 13 and circulation
The start and stop of water pump 25 are controlled.
The structural representation of capillary network as shown in Figure 3, the side of capillary network 8 are provided with water inlet 23, water inlet 23 and
Flow pipe 9 is connected, and opposite side is provided with delivery port 24, and delivery port 24 is connected with the first return pipe 5.Summer capillary network 8 by with
Flow pipe 9 is connected, and the higher cold water of temperature in attemperater 14 is transported into capillary network 8, capillary network 8 is soft to room
Between radiate cold, room is freezed;Winter capillary network 8, will be relatively low in attemperater 14 by being connected with flow pipe 9
The delivery of temperature is soft to room radiations heat energy to capillary network 8, and heat supply is carried out to room.Capillary network 8 uses
PP-R can thermoplastic, can large area lay and be embedded in wall, cooling and heating can be realized, and can realizes building one
Body, save space.
Utility model works mode is:
During summer, the first motor regulated valve 4 and the second motor regulated valve 11 are in closure state, open the 3rd electric adjustable
The motor regulated valve 16 of valve 15 and the 4th is saved, the suction of low temperature well water is come up, flows through hydrocyclone 18 and remove by small pump 20
Sand grains in water, then it is stored in through the first flow pipe 19, the 3rd flow pipe 27 in attemperater 14, the second liquid level sensor 12
Water level in attemperater 14 is monitored, when water level is too low or too high, the second liquid level sensor 12 is defeated by deviation signal
The first controller 30 is given, controller 30 carries out computing to deviation signal and exported with being converted into Regulate signal after conversion to small pump
20 and hydrocyclone 18, the start and stop to small pump 20 and hydrocyclone 18 be controlled.Then water circulating pump 25 is passed through
Pressurization, it will enter after filtration that the cold water being stored in attemperater 14 passes through flow pipe 9 and filter 22 from water inlet 23
Enter into capillary network 8.The backwater of capillary network 8 is flowed out by water return outlet 36 to be returned to through the first return pipe 5 and the 3rd return pipe 7
In well 21.Indoor temperature transmitter 29 is monitored to indoor temperature, when indoor temperature is less than design temperature, TEMP
Deviation signal is passed to controller 32 by device 29, and controller 32 carries out computing to deviation signal with being converted into Regulate signal after conversion
Export to water circulating pump 25, water circulating pump 25 is stopped.
During winter, the first motor regulated valve 4 and the second motor regulated valve 11 are in opening, close the 3rd electric adjustable
Save the motor regulated valve 16 of valve 15 and the 4th.Small pump 20 comes up the suction of low temperature well water, flows through hydrocyclone 18, removes
Sand grains in water, storage tank 2 is then stored into by the first flow pipe 19, the second flow pipe 26, the first liquid level sensor 1 is to storage
Water level in water tank 2 is monitored, and when water level is too low or too high, output signal is passed to the 5th by the first liquid level sensor 1
Motor regulated valve 17, the keying of the 5th motor regulated valve 17 is controlled, while the first liquid level sensor 1 transmits deviation signal
To controller 30, controller 30 carries out computing to deviation signal and exported with being converted into Regulate signal after conversion to small pump 20 and rotation
Desander 18 is flowed, the start and stop to small pump 20 and hydrocyclone 18 are controlled.Cold water in storage tank 2 is through the first connecting leg 33
Flow in solar water heater 3, solar water heater 3 heats to cold water, and the water part after heating is by using water interface
28 live for people is used, and a part is transported in attemperater 14 through the second connecting leg 34, and temperature sensor 10 is to attemperater
The temperature of reclaimed water is monitored, and when water temperature is below or above design temperature, deviation signal is passed to control by temperature sensor 10
Device 31 processed, controller 31 carry out computing to deviation signal and exported with being converted into Regulate signal after conversion to electric heater unit 13, control
The start and stop of electric heater unit processed, then by the pressurization of water circulating pump 25, by the hot water being stored in attemperater 14 by sending
Entered after the filtration of water pipe 9 and filter 22 from water delivery nozzle 35 in capillary network 8.The backwater of capillary network 8 is by returning
The mouth of a river 36 is flowed out returns to storage tank 2 through the first return pipe 5, the second return pipe 6.Indoor temperature transmitter 29 is carried out to indoor temperature
Monitoring, when indoor temperature is higher than design temperature, deviation signal is passed to controller 32 by temperature sensor 29, and controller 32 is right
Deviation signal carries out computing and exported with being converted into Regulate signal after conversion to water circulating pump 25, water circulating pump 25 is stopped.
Claims (4)
1. one kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, it is characterised in that:Including the first liquid level
Sensor, storage tank, solar water heater, the first motor regulated valve, the first return pipe, the second return pipe, the 3rd return pipe,
Capillary network, flow pipe, temperature sensor, the second motor regulated valve, the second liquid level sensor, electric heater unit, insulation water
Case, the 3rd motor regulated valve, the 4th motor regulated valve, the 5th motor regulated valve, the first flow pipe, small pump, well,
Water circulating pump, the second flow pipe, the 3rd flow pipe, with water interface, the first connecting leg and the second connecting leg;
Small pump is placed in well, and small pump connects one end of the first flow pipe, the other end connection the 3rd of the first flow pipe
One end of flow pipe, the other end of the 3rd flow pipe are connected with attemperater, and temperature sensor, the second liquid are provided with attemperater
Level sensor and electric heater unit, the first flow pipe and the 3rd flow pipe are also connected with one end of the second flow pipe simultaneously, and second
The other end of flow pipe is connected with storage tank;It is provided with liquid level sensor in storage tank, solar water heater and storage tank pass through the
One connecting leg is connected, and solar water heater is connected with attemperater by the second connecting leg, and the second connecting leg is provided with the second motorized adjustment
Valve, it is additionally provided with solar water heater with water interface, the both ends connection attemperater and capillary network of flow pipe, in flow pipe
On be additionally provided with water circulating pump, the first flow pipe is provided with small pump, be respectively equipped with the second flow pipe and the 3rd flow pipe the 5th electricity
Dynamic control valve and the 3rd motor regulated valve, the first return pipe connection capillary network, and the first return pipe and the second return pipe,
3rd return pipe one end connects, and the 3rd return pipe other end connection well, the 4th electric control valve is provided with the 3rd return pipe
Door, second return pipe other end connection storage tank, is provided with the first motor regulated valve on the second return pipe;
The side of the capillary network is provided with water inlet, and water inlet is connected with flow pipe, and opposite side is provided with delivery port, delivery port with
First return pipe is connected.
2. according to claim 1 based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, it is characterised in that:
Also including temperature sensor, the first controller, second controller, the 3rd controller, temperature sensor is connected with water circulating pump,
First controller connects hydrocyclone and small pump, second controller connection electric heater unit, the connection circulation of the 3rd controller
Water pump.
3. according to claim 1 based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, it is characterised in that:
First flow pipe is additionally provided with hydrocyclone.
4. according to claim 1 based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation, it is characterised in that:
The water inlet end of the capillary network is provided with filter.
Priority Applications (1)
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CN201720374209.3U CN206875631U (en) | 2017-04-11 | 2017-04-11 | One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation |
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CN201720374209.3U CN206875631U (en) | 2017-04-11 | 2017-04-11 | One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation |
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CN201720374209.3U Expired - Fee Related CN206875631U (en) | 2017-04-11 | 2017-04-11 | One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109429791A (en) * | 2018-11-06 | 2019-03-08 | 沈阳工业大学 | A kind of interaction self-con-tained unit of multiple-energy-source circulation and vertical greening based on green building |
-
2017
- 2017-04-11 CN CN201720374209.3U patent/CN206875631U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109429791A (en) * | 2018-11-06 | 2019-03-08 | 沈阳工业大学 | A kind of interaction self-con-tained unit of multiple-energy-source circulation and vertical greening based on green building |
CN109429791B (en) * | 2018-11-06 | 2024-03-15 | 沈阳工业大学 | Multi-energy circulation and vertical greening interaction automatic control device based on green building |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180112 Termination date: 20200411 |