CN107084461B - A kind of room temperature adjusting room based on rotating heat conducting - Google Patents
A kind of room temperature adjusting room based on rotating heat conducting Download PDFInfo
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- CN107084461B CN107084461B CN201710356547.9A CN201710356547A CN107084461B CN 107084461 B CN107084461 B CN 107084461B CN 201710356547 A CN201710356547 A CN 201710356547A CN 107084461 B CN107084461 B CN 107084461B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0007—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
- F24F5/001—Compression cycle type
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H1/00—Buildings or groups of buildings for dwelling or office purposes; General layout, e.g. modular co-ordination or staggered storeys
- E04H1/12—Small buildings or other erections for limited occupation, erected in the open air or arranged in buildings, e.g. kiosks, waiting shelters for bus stops or for filling stations, roofs for railway platforms, watchmen's huts or dressing cubicles
- E04H1/125—Small buildings, arranged in other buildings
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D15/00—Other domestic- or space-heating systems
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0046—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F6/00—Air-humidification, e.g. cooling by humidification
- F24F6/12—Air-humidification, e.g. cooling by humidification by forming water dispersions in the air
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/54—Free-cooling systems
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- Engineering & Computer Science (AREA)
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- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Architecture (AREA)
- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Sustainable Energy (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Dispersion Chemistry (AREA)
- Sorption Type Refrigeration Machines (AREA)
- Other Air-Conditioning Systems (AREA)
Abstract
The invention belongs to room temperatures to adjust room technical field, more particularly to a kind of room temperature based on rotating heat conducting adjusts room, it includes refrigeration mechanism, heating mechanism, temperature adjustment room, electronic valve, and wherein refrigeration mechanism and heating mechanism are separately mounted to the upper end in temperature adjustment room and refrigeration mechanism and heating mechanism are connect by electronic valve with temperature adjustment room;Room temperature adjusts room in the present invention can make temperature adjustment room be connected to refrigeration mechanism at summer by controlling electronic valve;Achieve the effect that cooling;Room temperature adjusts room in winter, makes temperature adjustment room and heating mechanism connection by controlling electronic valve;Achieve the effect that warming.The four rolling being mounted on rotor plate in the present invention reduces rotor plate suffered frictional force during rotation;So that rotor plate be able to maintain in rotation process it is smooth;The first spring being mounted between pushing block slot and pushing block ensure that cam and pushing block can be constantly in contact condition;The variation in water pressure in the mutual flow effect motor shell of the water phase of cam two sides is prevented, water flow is caused to have some setbacks.
Description
Technical field
Room technical field is adjusted the invention belongs to room temperature more particularly to a kind of room temperature based on rotating heat conducting adjusts room.
Background technique
Indoor temperature control room is mostly to install individual heating mechanism and refrigeration mechanism at present;And in heating or process of refrigerastion
Temperature leak is larger;General in process of refrigerastion is often air conditioner refrigerating, and air-conditioning needs a large amount of electricity during air conditioner refrigerating
To maintain;The effect for thus needing that more economy is spent to can be only achieved refrigeration;So designing one kind can be provided using nature
Source and it can achieve the effect that heating and refrigeration are necessary simultaneously.
The present invention design a kind of room temperature based on rotating heat conducting adjust room solve the problems, such as it is as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of room temperature adjusting room based on rotating heat conducting, it
It adopts the following technical solutions to realize.
A kind of room temperature adjusting room based on rotating heat conducting, it is characterised in that: it includes refrigeration mechanism, heating mechanism, temperature adjustment
Room, electronic valve, wherein refrigeration mechanism and heating mechanism are separately mounted to the upper end in temperature adjustment room and refrigeration mechanism and heating mechanism lead to
Electronic valve is crossed to connect with temperature adjustment room.
Above-mentioned refrigeration mechanism includes Stirling engine, compressor, reflective dish, thermoconverter, efferent duct, input pipe, temperature
Adjuster, connecting tube, output water pipe, input water pipe are spent, wherein reflective dish and Stirling engine form solar power system;
Compressor is mounted on the upside of Stirling engine, and compressor rotation shaft is connected with Stirling engine shaft;Thermoregulator includes
Evaporator, expansion valve, condenser, thermoregulator are mounted on the upper end in temperature adjustment room;Condenser and compression in thermoregulator
Pass through two connecting tube connections between machine;Expansion valve is connect by two connecting tubes with condenser, and evaporator passes through two connections
Pipe is connect with expansion valve, and thermoconverter is mounted on the upper end in temperature adjustment room;Working medium in evaporator is input to heat by input pipe and turns
In parallel operation, working medium is being input in compressor from thermoconverter by efferent duct, input water pipe is mounted on output water pipe
On thermoconverter, the water that thermoconverter is passed through the working medium in evaporator with input water pipe carries out heat exchange.
Above-mentioned heating mechanism includes water-supply-pipe, input pipe, efferent duct, water pipe switching valve, solar water heater, wherein the sun
Energy water heater is mounted on the upper end in temperature adjustment room;Water pipe switching valve is mounted on the upper end in temperature adjustment room;Water pipe switching valve and solar heat
Pass through two water-supply-pipe connections between hydrophone.
Above-mentioned solar water heater includes push plate, guide block, guide groove, insulation barrel, adjuster support, absorbing pipe, absorbing heat supports,
Wherein adjuster support is mounted on the upper end in temperature adjustment room;Guide groove there are two being symmetrically installed on the inside of insulation barrel;On the periphery of push plate
Guide block there are two being symmetrically installed;Push plate passes through the inside for being fitted to insulation barrel of two guide blocks and two guide grooves;Insulation barrel
It is mounted on the upside of adjuster support;Heat absorption support is mounted on the upside in temperature adjustment room;It is equipped between heat absorption support and insulation barrel
Multiple absorbing pipes, two water-supply-pipes are located at insulation barrel two sides.
Above-mentioned temperature adjustment room include floor, asbestos board, top plate, wallboard, electronic valve, insulating layer, decorative panel, return water delivery pipe,
Water inlet delivery pipe, water inlet input pipe, return water efferent duct, second spring, wherein four wallboards are separately mounted to the upside on floor, and
It is mutually perpendicular between two neighboring wallboard in four wallboards;The structure respectively installed on four wallboard medial surfaces is complete between each other
It is exactly the same, and for wherein any one wallboard, an asbestos board identical with wallboard size is installed on wallboard medial surface;Ten
A conversion equipment passes through the inside that three second springs being distributed up and down are mounted on asbestos board, and the lower end of ten conversion equipments
It is respectively positioned on the upside on floor;Decorative panel is mounted on the inside of conversion equipment;Return water delivery pipe and water inlet delivery pipe are installed in four
A wallboard upper end, and it is located at the upside of conversion equipment;Insulating layer is mounted on return water delivery pipe and water inlet delivery pipe periphery;
Water inlet input pipe is mounted on the upside into water delivery pipe and communicates inside intake input pipe and water inlet delivery pipe;Return water efferent duct peace
It is communicated inside the upside of return water delivery pipe and return water efferent duct and return water delivery pipe;It intakes outside input pipe and return water efferent duct
Insulating layer is mounted on disc;Mounting of roof plate is in the upside of four wallboards;Water inlet input pipe and return water efferent duct are pierced by top
Plate;Electronic valve is mounted on the upside of top plate;Electronic valve is connect with water inlet input pipe and return water efferent duct.
Above-mentioned thermoconverter is connect by input water pipe, output water pipe with electronic valve;Water pipe switching valve by input water pipe,
Output water pipe is connect with electronic valve.
Above-mentioned conversion equipment includes thermoregulative mechanism, drinking-water pipe, water inlet pipe, conversion equipment shell, wherein three thermoregulative mechanisms are extremely
It is above lower to be uniformly mounted in conversion equipment shell;Drinking-water pipe and water inlet pipe are separately mounted to the upper end of conversion equipment;Drinking-water pipe with
The connection of return water delivery pipe;Water inlet pipe is connect with water inlet delivery pipe.
Above-mentioned thermoregulative mechanism includes water storage shell apopore, thermoregulative mechanism shell, ultrasonic transmitter, connection water inlet pipe, connection
Outlet pipe, motor shell, rotor plate, water storage shell, shaft, the first spring, water pump, humidification hole, idler wheel, inlet channel, water outlet, water blocking
Plate, inlet opening, cam, pushing block, pushing block slot, motor apopore, wherein thermoregulative mechanism shell is mounted on shell wall inside conversion equipment shell
On;Water pump is mounted on the lower end on the inside of thermoregulative mechanism shell;Water pump is connect by connecting outlet pipe with drinking-water pipe;One end of motor shell
It is mounted on thermoregulative mechanism shell inner wall;The other end of motor shell is provided with motor apopore;Pass through connection water inlet pipe inside motor
It is connect with water inlet pipe;Pushing block slot is provided on the inside of motor shell;One end of shaft is mounted on the circular hole of motor shell wall surface by bearing
In;Cam is mounted in shaft, and cam is located in motor shell;The top surface of cam is engaged with motor shell inner headed face;Pushing block
It is mounted in pushing block slot;It is connected between pushing block and pushing block slot by the first spring, pushing block top and cam convex surface cooperate;Water storage shell
It is mounted in the shaft for stretching out motor shell;Inlet opening is provided on the end face of water storage shell, inlet opening is connect with motor apopore;It stretches out
One end of the shaft of motor shell is provided with an inlet channel and two water outlets;Inlet channel is communicated with water storage shell inner cavity;Rotor plate peace
Mounted in shaft one end;Side on rotor plate far from shaft is uniformly equipped with four rolling;Symmetrically pacify at the inside both ends of rotor plate
There are two water fenders for dress;Water fender has straight section and curved segment, and straight section is equipped with the rotor plate inner wall of idler wheel side close to rotor plate;
Curved segment is located at rotor plate middle position, between two symmetrical curved segments, the rotor plate inner wall that straight section is adjacent to form temperature adjustment
Channel, the temperature adjustment channel between two curved segments are communicated with inlet channel;Close to the wall of shaft one end on two water fenders and rotor plate
Two symmetrical spaces composed by face pass through two water outlets respectively and thermoregulative mechanism shell phase is logical;Thermoregulative mechanism shell lower end surface
One ultrasonic transmitter is installed, is provided with humidification hole on indoor wall surface in thermoregulative mechanism shell lower end surface.
There is circular hole corresponding with humidification hole on above-mentioned decorative panel.
As the further improvement of this technology, when summer, make the input connecting with thermoconverter by controlling electronic valve
Water pipe, output water pipe are connect with return water efferent duct and water inlet input pipe respectively;When winter, made and water pipe by controlling electronic valve
Input water pipe, the output water pipe of switching valve connection are connect with return water efferent duct and water inlet input pipe respectively.
As the further improvement of this technology, pressed from both sides between absorber plate and top plate at 45 degree on above-mentioned solar water heater
Angle;Reflective dish on Stirling engine and between top plate at 45 degree of angles.
As the further improvement of this technology, above-mentioned connecting tube, efferent duct, input water pipe, exports water pipe, is defeated input pipe
Water pipe, return water delivery pipe, water inlet delivery pipe, water inlet input pipe, return water efferent duct, water inlet pipe and drinking-water pipe periphery on pacify
Equipped with insulating layer.
As the further improvement of this technology, the direction of the reflective dish on above-mentioned Stirling engine is installed on it
Shaft control under can be always towards the direction of the sun;What the direction of the absorber plate on water heater was installed on it turns
It can be always towards the direction of the sun under the control of axis.
Room technology is adjusted relative to traditional room temperature, room temperature adjusting room can be by controlling electronics at summer in the present invention
Valve is connected to temperature adjustment room with refrigeration mechanism;Achieve the effect that cooling;Room temperature adjusts room in winter, is made by controlling electronic valve
Obtain temperature adjustment room and heating mechanism connection;Achieve the effect that warming.
The second spring being mounted between asbestos board and conversion equipment in the present invention plays the role of sound insulation to indoor sound,
It prevents from passing to the external world.
The four rolling being mounted on rotor plate in the present invention reduces rotor plate suffered frictional force during rotation;
So that rotor plate be able to maintain in rotation process it is smooth;It is mounted on two on the inside of rotor plate water fenders and plays isolation inlet channel
It prevents from entering rotation so that the water into water and outflow rotor plate in rotor plate will not be mixed with the function of water outlet
The temperature leak of water in plate;The first spring being mounted between pushing block slot and pushing block ensure that cam can be located always with pushing block
In contact condition;The variation in water pressure in the mutual flow effect motor shell of the water phase of cam two sides is prevented, water flow is caused to have some setbacks;This
It is connected between water inlet pipe and motor shell by connecting water inlet pipe in invention;Motor shell and water storage shell phase are logical;On water storage shell and shaft
Inlet channel communicate and inlet channel is constantly in water storage shell in shaft rotary course;In inlet channel and rotor plate in shaft
Side communicates;When water successively passes through water inlet pipe and connection water inlet pipe flows on the inside of motor shell;In the gravity and water flow impact pressure of water
Under the action of promote cam to rotate;In the course of rotation when water flows to the position that motor shell leads to water storage shell phase;Motor shell
Interior water can flow into water storage shell along motor apopore;And the water in water storage shell is flowed into rotor plate by inlet channel;At this time
Rotor plate, which is located in one end of downside, can constantly inject water;By the transmitting of rotor plate upper roller by water temperature while injecting water
It is transmitted on conversion shell;And then the transmitting by converting shell is cooled down and is kept warm to interior;Cam rotates meeting in the process
Drive shaft rotation;Shaft rotation drives rotor plate rotation;Rotor plate injects the water meeting in rotor plate during rotation simultaneously
It flows into and is now placed in space composed by the side on water fender and rotor plate on the downside of rotor plate close to shaft one end;And position
Water fender cooperates with space composed by the side on rotor plate close to shaft one end and water outlet on the downside of rotor plate;So working as
Water fender is higher than position with the water level in space composed by the side on rotor plate close to shaft one end in rotor plate rotation process
When water outlet;Water fender can lead to the water in space composed by the side on rotor plate close to shaft one end on the downside of rotor plate
Cross the lower end that water outlet flows into thermoregulative mechanism shell;Then the water of thermoregulative mechanism shell lower end is extracted into back by drinking-water pipe by water pump
In water delivery pipe;Due to cam under the action of the impact force of water can continuous rotation, in rotation the lower end of original rotor plate by
Upper end is gradually turned to, the upper end of rotor plate is gradually rotated to lower end, 180 degree of rotor plate rotation;Material is thus formed one
Water circulation, and then can be to indoor lasting heating or cooling by the continuous circulation of water flow.
Reflective dish has the function of absorbing sunlight in the present invention;Started by absorbing stronger sun optical drive Stirling
Machine movement;Compressor rotation shaft is connected with Stirling engine shaft;Stirling engine drives compressor rotation shaft rotation;Temperature tune
Section device includes evaporator, expansion valve, condenser, is connected between the condenser and compressor in thermoregulator by two connecting tubes
It connects;Expansion valve is connect by two connecting tubes with condenser, and evaporator is connect by two connecting tubes with expansion valve, thermoconverter
It is mounted on the upper end in temperature adjustment room;Working medium in evaporator is input in thermoconverter by input pipe, is passing through efferent duct for work
Matter is input in compressor from thermoconverter;Input water pipe and output water pipe are mounted on thermoconverter;Thermoconverter is to steaming
The water that working medium and input water pipe in hair device are passed through carries out heat exchange.
Solar water heater is connect with water pipe switching valve by water-supply-pipe in the present invention;Between water pipe switching valve and electronic valve
It is connected by output water pipe with input water pipe;When the hot water in solar water heater is defeated by one of them in two water-supply-pipes
Can control the hot water flowed by adjusting water pipe switching valve when flowing into water pipe switching valve in water pipe always can be by defeated
Outlet pipe flows into electronic valve;And the cold water for flowing into water pipe switching valve through input water pipe can be flowed into too by another water-supply-pipe
In positive energy water heater;Push plate can keep apart the cold water in insulation barrel with hot water in the present invention, and effect is to prevent from being located at pushing away
The hot water or cold water of plate two sides mixes and causes hot water that cannot smoothly flow into temperature adjustment room.
When room temperature adjusts room work, when summer, control electronic valve communicates temperature adjustment room with refrigeration mechanism;Reflective dish absorbs
The movement of sun optical drive Stirling engine;Stirling engine drives compressor rotation shaft rotation;Driven compressor temperature is adjusted
Working medium in device is flowed between thermoregulator, input pipe, thermoconverter and efferent duct;Thermoconverter and electronic valve it
Between by output water pipe with input water pipe be connected;The water that thermoconverter is passed through the working medium in evaporator with input water pipe carries out heat
Exchange;Cold water in thermoconverter flows into electronic valve through output water pipe;And then cold water is sent into temperature adjustment room and reaches cooling effect
Fruit;The cold water in temperature adjustment room is changing to warm water and is located at the downside in temperature adjustment room after the completion of cooling;Warm water on the downside of temperature adjustment room is in water
It can be drawn into electronic valve under the action of pump;It is pumped into the warm water in electronic valve to flow into thermoconverter by input water pipe, flow into
Water in thermoconverter becomes cold water by carrying out the water that heat exchange flows into thermoconverter with the working medium in evaporator.Winter
It when, under the irradiation of solar glare by absorbing pipe by the inside of insulation barrel water heat;Electronic valve is adjusted to heat mechanism
When being communicated with temperature adjustment room;Hot water under the action of water gravity in insulation barrel can flow into water pipe switching valve;In water pipe switching valve
Hot water by export water pipe be flowed into electronic valve;Hot water in electronic valve flows into temperature adjustment room, and then exchanges hot house heating;
The hot water in temperature adjustment room is changing to cold water and is located at the downside in temperature adjustment room after the completion of heating;Cold water on the downside of temperature adjustment room is in water pump
It can be drawn into electronic valve under effect;The cold water being pumped into electronic valve flows into water pipe switching valve by input water pipe;Flow into water pipe
The cold water of switching valve is flowed into the insulation barrel in solar water heater by water-supply-pipe, right under the irradiation of strong light by absorbing pipe
The cold water of inflow is heated.Ultrasonic transmitter can humidify interior by humidifying hole simultaneously.
Detailed description of the invention
Fig. 1 is global facility appearance diagram.
Fig. 2 is refrigeration mechanism structural schematic diagram.
Fig. 3 is heating mechanism structural schematic diagram.
Fig. 4 is heat insulation layer structure schematic diagram.
Fig. 5 is humidification pore size distribution schematic diagram.
Fig. 6 is decorative board structure schematic diagram.
Fig. 7 is return water pipe structure schematic diagram.
Fig. 8 is thermoregulative mechanism structural schematic diagram.
Fig. 9 is drinking-water pipe scheme of installation.
Figure 10 is heat-preservation cylinder structural schematic diagram.
Figure 11 is rotor plate structural schematic diagram.
Figure 12 is rotor plate schematic diagram of internal structure.
Figure 13 is inlet channel structural schematic diagram.
Figure 14 is second spring scheme of installation.
Figure 15 is conversion device structure schematic diagram.
Figure 16 is water inlet pipe and drinking-water pipe water (flow) direction schematic illustration.
Figure 17 is heat-preservation cylinder operation principle schematic diagram.
Figure 18 is heating mechanism operation principle schematic diagram.
Figure 19 is refrigeration mechanism operation principle schematic diagram.
Figure 20 is rotor plate operation principle schematic diagram.
Figure 21 is pivot structure schematic diagram.
Figure 22 is water storage shell structure schematic diagram.
Figure 23 is motor shell structural schematic diagram.
Figure 24 is cam scheme of installation.
Figure label title: 1, floor;2, asbestos board;3, top plate;4, Stirling engine;5, sun can water heater;6, electric
Sub- valve;7, compressor;8, insulation barrel;9, adjuster supports;10, wallboard;11, water-supply-pipe;12, absorbing pipe;13, heat absorption support;
14, water pipe is exported;15, reflective dish;16, water pipe switching valve;17, water pipe is inputted;18, insulating layer;19, decorative panel;20, return water is defeated
Send pipe;21, water inlet delivery pipe;22, hole is humidified;23, water inlet input pipe;24, return water efferent duct;25, water inlet pipe;26, drinking-water pipe;
27, conversion equipment;28, thermoregulative mechanism shell;29, motor shell;30, rotor plate;31, thermoconverter;32, efferent duct;33, water storage
Shell;34, shaft;35, connecting tube;36, water pump;37, idler wheel;38, input pipe;39, thermoregulator;40, push plate;41, guide block;
42, guide groove;43, water fender;44, inlet channel;45, water outlet;46, inlet opening;47, cam;48, pushing block;49, pushing block slot;50,
Ultrasonic transmitter;51, the first spring;52, thermoregulative mechanism;53, motor apopore;54, conversion equipment shell;55, connection water inlet
Pipe;56, outlet pipe is connected;57, second spring.
Specific embodiment
As shown in Figure 1, it includes refrigeration mechanism, heating mechanism, temperature adjustment room, electronic valve 6, wherein refrigeration mechanism and heating machine
Structure is separately mounted to the upper end in temperature adjustment room and refrigeration mechanism and heating mechanism are connect by electronic valve 6 with temperature adjustment room.
As shown in Fig. 2, above-mentioned refrigeration mechanism include Stirling engine 4, it is compressor 7, reflective dish, thermoconverter 31, defeated
Outlet pipe 32, input pipe 38, thermoregulator 39, connecting tube 35, output water pipe 14, input water pipe 17, wherein reflective dish and Si Te
Woods engine 4 forms solar power system;As shown in Fig. 2, compressor 7 is mounted on 4 upside of Stirling engine, compressor 7
Shaft is connected with 4 shaft of Stirling engine;Thermoregulator 39 includes evaporator, expansion valve, condenser, as shown in Figure 1, warm
Degree adjuster 39 is mounted on the upper end in temperature adjustment room;As shown in Fig. 2, passing through two between condenser and compressor in thermoregulator
The connection of root connecting tube;Expansion valve is connect by two connecting tubes with condenser, and evaporator is connected by two connecting tubes and expansion valve
It connects, thermoconverter is mounted on the upper end in temperature adjustment room;Working medium in evaporator is input in thermoconverter by input pipe, is being passed through
Working medium is input in compressor by efferent duct from thermoconverter, and input water pipe 17 and output water pipe 14 are mounted on thermoconverter 31
On, the water that thermoconverter 31 is passed through the working medium in evaporator with input water pipe 17 carries out heat exchange.
As shown in figure 3, above-mentioned heating mechanism includes water-supply-pipe 11, input pipe 38, efferent duct 32, water pipe switching valve 16, too
Positive energy water heater 5, wherein as shown in Figure 1, solar water heater 5 is mounted on the upper end in temperature adjustment room;Water pipe switching valve 16 is mounted on
The upper end in temperature adjustment room;As shown in figure 3, being connected between water pipe switching valve 16 and solar water heater 5 by two water-supply-pipes 11.
As shown in Fig. 3,13, above-mentioned solar water heater 5 includes push plate 40, guide block 41, guide groove 42, insulation barrel 8, adjuster
Support 9, absorbing pipe 12, heat absorption support 13, wherein as shown in Figure 1, adjuster support 9 is mounted on the upper end in temperature adjustment room;Such as Figure 13
It is shown, it is symmetrically installed on the inside of insulation barrel 8 there are two guide groove 42;Guide block 41 there are two being symmetrically installed on the periphery of push plate 40;It pushes away
Plate 40 passes through the inside for being fitted to insulation barrel 8 of two guide blocks 41 and two guide grooves 42;As shown in figure 3, insulation barrel 8 is installed
In the upside of adjuster support 9;Heat absorption support 13 is mounted on the upside in temperature adjustment room;It is installed between heat absorption support 13 and insulation barrel 8
There are multiple absorbing pipes 12, two water-supply-pipes 11 are located at 8 two sides of insulation barrel.
As shown in Fig. 4,5,7,14, above-mentioned temperature adjustment room includes floor 1, asbestos board 2, top plate 3, wallboard 10, electronic valve 6, protects
Warm layer 18, decorative panel 19, return water delivery pipe 20, water inlet delivery pipe 21, water inlet input pipe 23, return water efferent duct 24, second spring
57, wherein as shown in Figure 1, four wallboards 10 are separately mounted to the upside on floor 1, and two neighboring wallboard 10 in four wallboards 10
Between be mutually perpendicular to;The structure respectively installed on four wallboard medial surfaces is identical between each other, and for wherein any
One wallboard, as shown in figure 4, being equipped with an asbestos board 2 identical with 10 size of wallboard on 10 medial surface of wallboard;Such as Figure 14 institute
Show, ten conversion equipments 27 are mounted on the inside of asbestos board 2, and ten conversions by three second springs 57 being distributed up and down
The lower end of device 27 is respectively positioned on the upside on floor 1;As shown in fig. 6, decorative panel 19 is mounted on the inside of conversion equipment 27;Such as Fig. 5
Shown, return water delivery pipe 20 and water inlet delivery pipe 21 are installed in four 10 upper ends of wallboard, and are located at the upside of conversion equipment 27;
Insulating layer 18 is mounted on return water delivery pipe 20 and water inlet 21 periphery of delivery pipe;As shown in fig. 7, water inlet input pipe 23 is installed
It is communicated inside the upside of water inlet delivery pipe 21 and water inlet input pipe 23 and water inlet delivery pipe 21;Return water efferent duct 24 is mounted on back
It is communicated inside the upside of water delivery pipe 20 and return water efferent duct 24 and return water delivery pipe 20;Water inlet input pipe 23 and return water efferent duct
Insulating layer 18 is mounted on 24 peripheries;Top plate 3 is mounted on the upside of four wallboards 10;Water inlet input pipe 23 and return water output
Pipe 24 is pierced by top plate 3;As shown in Figure 1, electronic valve 6 is mounted on the upside of top plate 3;Electronic valve 6 and water inlet input pipe 23 and time
Water delivery pipe 24 connects.
As shown in Figure 2,3, above-mentioned thermoconverter 31 is connect by input water pipe 17, output water pipe 14 with electronic valve 6;Water pipe
Switching valve 16 is connect by input water pipe 17, output water pipe 14 with electronic valve 6.
As shown in figure 15, above-mentioned conversion equipment 27 includes thermoregulative mechanism 52, drinking-water pipe 26, water inlet pipe 25, conversion equipment shell
54, wherein three thermoregulative mechanisms 52 are uniformly mounted in conversion equipment shell 54 from top to down;Drinking-water pipe 26 and water inlet pipe 25 are distinguished
It is mounted on the upper end of conversion equipment 27;Drinking-water pipe 26 is connect with return water delivery pipe 20;Water inlet pipe 25 is connect with water inlet delivery pipe 21.
As shown in figure 8, above-mentioned thermoregulative mechanism 52 includes 33 apopore of water storage shell, thermoregulative mechanism shell 28, ultrasonic transmitter
50, water inlet pipe 55, connection outlet pipe 56, motor shell 29, rotor plate 30, water storage shell 33, shaft 34, water pump 36, humidification hole are connected
22, idler wheel 37, inlet channel 44, water outlet 45, water fender 43, inlet opening 46, cam 47, pushing block 48,48 slot of pushing block, motor water outlet
Hole 53, wherein as shown in figure 8, thermoregulative mechanism shell 28 is mounted on 54 inside shell wall of conversion equipment shell;As shown in figure 9, water pump 36
It is mounted on the lower end of 28 inside of thermoregulative mechanism shell;Water pump 36 is connect by connecting outlet pipe 56 with drinking-water pipe 26;Such as Fig. 8,23 institutes
Show, one end of motor shell 29 is mounted on 28 inner wall of thermoregulative mechanism shell;The other end of motor shell 29 is provided with motor apopore 53;
It is connect by connecting water inlet pipe 55 with water inlet pipe 25 inside motor;The inside of motor shell 29 is provided with 48 slot of pushing block;The one of shaft 34
End is mounted in the circular hole of 29 wall surface of motor shell by bearing;As shown in figure 24, cam 47 is mounted in shaft 34, and cam 47
In motor shell 29;The top surface of cam 47 is engaged with 29 inner headed face of motor shell;Pushing block 48 is mounted in 48 slot of pushing block;It pushes away
It is connected between 48 slot of block 48 and pushing block by the first spring 51,48 top of pushing block and 47 convex surface of cam cooperate;As shown in figure 22, it stores up
Water hull 33 is mounted in the shaft 34 for stretching out motor shell 29;Inlet opening 46, inlet opening 46 and horse are provided on the end face of water storage shell 33
It is connected up to apopore 53;As shown in Figure 13,21, the one end for stretching out the shaft 34 of motor shell 29 is provided with an inlet channel 44 and two
Water outlet 45;Inlet channel 44 is communicated with 33 inner cavity of water storage shell;Rotor plate 30 is mounted on 34 one end of shaft;As shown in figure 11, it rotates
Side on plate 30 far from shaft 34 is uniformly equipped with four rolling 37;The inside both ends of rotor plate 30 are kept off there are two being symmetrically installed
Water plate 43;As shown in figure 12, water fender 43 has straight section and curved segment, and straight section is equipped with turning for 37 side of idler wheel close to rotor plate 30
30 inner wall of movable plate;Curved segment is located at 30 middle position of rotor plate, between two symmetrical curved segments, the rotor plate that straight section is adjacent to
30 inner walls form temperature adjustment channel, and the temperature adjustment channel between two curved segments is communicated with inlet channel 44;Two water fenders 43 and rotor plate
Two symmetrical spaces composed by wall surface on 30 close to 34 one end of shaft pass through two water outlets 45 and tempering machine respectively
Structure shell 28 communicates;As shown in figure 8,28 lower end surface of thermoregulative mechanism shell is equipped with a ultrasonic transmitter 50, in thermoregulative mechanism shell
28 lower end surfaces are provided with humidification hole 22 on indoor wall surface.
There is circular hole corresponding with humidification hole 22 on decorative panel 19.
When summer, by controlling electronic valve 6 the input water pipe 17 connecting with thermoconverter 31, output water pipe 14 are distinguished
It is connect with return water efferent duct 24 and water inlet input pipe 23;When winter, to connect with water pipe switching valve 16 by controlling electronic valve 6
Input water pipe 17, output water pipe 14 respectively with return water efferent duct 24 and water inlet input pipe 23 connect.
At 45 degree of angles between absorber plate and top plate 3 on above-mentioned solar water heater 5;It is anti-on Stirling engine
At 45 degree of angles between optical disc 15 and top plate 3.
As shown in figure 4, above-mentioned connecting tube 35, input pipe 38, efferent duct 32, input water pipe 17, output water pipe 14, water-supply-pipe
11, return water delivery pipe 20, water inlet delivery pipe 21, water inlet input pipe 23, return water efferent duct 24, water inlet pipe 25 and drinking-water pipe 26 is outer
Insulating layer 18 is mounted on disc.
It can begin under the control for the shaft that the direction of reflective dish 15 on above-mentioned Stirling engine is installed on it
All morning is to the direction of the sun;It can court always under the control for the shaft that the direction of absorber plate on water heater is installed on it
To the direction of the sun.
In summary:
Room temperature adjusts room in the present invention can make temperature adjustment room and refrigeration mechanism connect at summer by controlling electronic valve 6
It is logical;Achieve the effect that cooling;Room temperature adjusts room in winter, makes temperature adjustment room and heating mechanism connection by controlling electronic valve 6;
Achieve the effect that warming.
The second spring 57 being mounted between asbestos board 2 and conversion equipment 27 in the present invention has the function of noise abatement.
It is suffered during rotation that the four rolling 37 being mounted on rotor plate 30 in the present invention reduces rotor plate 30
Frictional force;So that rotor plate 30 be able to maintain in rotation process it is smooth;Two water fenders 43 for being mounted on 30 inside of rotor plate rise
The function of isolation inlet channel 44 and water outlet 45 is arrived, so that the water into water and outflow rotor plate 30 in rotor plate 30 will not
It is mixed, prevents the temperature leak of the water entered in rotor plate 30;The first bullet being mounted between 48 slot of pushing block and pushing block 48
Spring 51 ensure that cam 47 and pushing block 48 can be constantly in contact condition;Prevent the mutual flow effect of water phase of 47 two sides of cam
Hydraulic pressure in motor shell 29 causes water flow to have some setbacks;Pass through connection water inlet pipe 55 in the present invention between water inlet pipe 25 and motor shell 29
It is connected;Motor shell 29 is communicated with water storage shell 33;Water storage shell 33 is communicated with the inlet channel 44 in shaft 34 and inlet channel 44 is in shaft
It is constantly in 34 rotary courses in water storage shell 33;It is communicated on the inside of inlet channel 44 and rotor plate 30 in shaft 34;When water passes through
When successively flowing into 29 inside of motor shell by water inlet pipe 25 and connection water inlet pipe 55;In the effect of the gravity and water flow impact pressure of water
Under promote cam 47 rotate;In the course of rotation when water flows to the position that motor shell 29 is communicated with water storage shell 33;Motor shell
Water in 29 can flow into water storage shell 33 along motor apopore 53;And the water in water storage shell 33 flows into rotation by inlet channel 44
In plate 30;Rotor plate 30, which is located in one end of downside, at this time can constantly inject water;By on rotor plate 30 while injecting water
Water temperature is transmitted on conversion shell by the transmitting of idler wheel 37;And then the transmitting by converting shell is cooled down and is kept warm to interior;?
Rotation of cam 47 will drive the rotation of shaft 34 during this;The rotation of shaft 34 drives rotor plate 30 to rotate;As shown in figure 20, simultaneously
The water that rotor plate 30 injects in rotor plate 30 during rotation can flow into be now placed in the water fender 43 of the downside of rotor plate 30 with
In space composed by side on rotor plate 30 close to 34 one end of shaft;And it is located at 30 downside water fender 43 of rotor plate and rotation
Space composed by side on plate 30 close to 34 one end of shaft and water outlet 45 cooperate;So when in 30 rotation process of rotor plate
Water level in space composed by side on water fender 43 and rotor plate 30 close to 34 one end of shaft, which is higher than, is located at water outlet 45
When;30 downside water fender 43 of rotor plate can lead to the water in space composed by the side on rotor plate 30 close to 34 one end of shaft
Cross the lower end that water outlet 45 flows into thermoregulative mechanism shell 28;Then the water of 28 lower end of thermoregulative mechanism shell is passed through by water pump 36 and is drawn water
Pipe 26 is extracted into return water delivery pipe 20;It is original in rotation since cam 47 understands continuous rotation under the action of the impact force of water
One end positioned at 30 downside of rotor plate is gradually rotated to upside, and one end positioned at 30 upside of rotor plate is gradually rotated to downside;This
Sample is formed a water circulation, and then can be to indoor lasting heating or cooling by the continuous circulation of water flow.
Reflective dish has the function of absorbing sunlight in the present invention;Started by absorbing stronger sun optical drive Stirling
Machine 4 moves;7 shaft of compressor is connected with 4 shaft of Stirling engine;Stirling engine 4 drives the rotation of 7 shaft of compressor;
Thermoregulator 39 includes evaporator, expansion valve, condenser, passes through two between the condenser and compressor in thermoregulator
Connecting tube connection;Expansion valve is connect by two connecting tubes with condenser, and evaporator is connect by two connecting tubes with expansion valve,
Thermoconverter is mounted on the upper end in temperature adjustment room;Working medium in evaporator is input in thermoconverter by input pipe, by defeated
Working medium is input in compressor by outlet pipe from thermoconverter, and input water pipe 17 and output water pipe 14 are mounted on thermoconverter 31
On;The water that thermoconverter 31 is passed through the working medium in evaporator with input water pipe 17 carries out heat exchange.
Solar water heater 5 is connect with water pipe switching valve 16 by water-supply-pipe 11 in the present invention;Water pipe switching valve 16 and electricity
It is connected between sub- valve 6 by output water pipe 14 and input water pipe 17;As shown in Figure 10, when the hot water in solar water heater 5 is logical
Crossing in one of water-supply-pipe 11 in two water-supply-pipes 11 can by adjusting water pipe switching valve 16 when flowing into water pipe switching valve 16
It can be flowed into electronic valve 6 by output water pipe 14 with controlling the hot water flowed into always;And water is flowed into through input water pipe 17
The cold water of pipe switching valve 16 can be flowed into solar water heater 5 by another water-supply-pipe 11;Push plate 40 can be in the present invention
Cold water in insulation barrel 8 is kept apart with hot water, effect is to prevent the hot water or cold water mixing positioned at 40 two sides of push plate and make
It cannot smoothly be flowed into temperature adjustment room at hot water.
Specific embodiment: when room temperature adjusts room work, when summer, as shown in figure 19, control electronic valve 6 makes temperature adjustment room
It is communicated with refrigeration mechanism;Reflective dish absorbs sun optical drive Stirling engine 4 and moves;Stirling engine 4 drives compressor 7
Shaft rotation;Working medium in 7 driving temperature adjuster 39 of compressor is in thermoregulator 39, input pipe 38,31 and of thermoconverter
It is flowed between efferent duct 32;It is connected by output water pipe 14 with input water pipe 17 between thermoconverter 31 and electronic valve 6;Heat
The water that converter 31 is passed through the working medium in evaporator with input water pipe 17 carries out heat exchange;Cold water in thermoconverter 31 is through defeated
Outlet pipe 14 flows into electronic valve 6;And then cold water is sent into temperature adjustment room and reaches cooling effect;Temperature adjustment room is cold after the completion of cooling
Water is changing to hot water and is located at the downside in temperature adjustment room;Hot water on the downside of temperature adjustment room can be drawn into electronics under the action of water pump 36
In valve 6;It is pumped into the hot water in electronic valve 6 to flow into thermoconverter 31 by input water pipe 17, flows into the water in thermoconverter 31
Become cold water by carrying out the water that heat exchange flows into thermoconverter 31 with the working medium in evaporator.When winter, such as Figure 18
It is shown, the water of 8 inside of insulation barrel is heated by absorbing pipe 12 under the irradiation of solar glare;Electronic valve 6 is adjusted to heat
When mechanism is communicated with temperature adjustment room;Hot water under the action of water gravity in insulation barrel 8 can flow into water pipe switching valve 16;Water pipe is cut
The hot water changed in valve 16 is flowed into electronic valve 6 by exporting water pipe 14;Hot water in electronic valve 6 flows into temperature adjustment room, in turn
Exchange hot house heating;The hot water in temperature adjustment room is changing to cold water and is located at the downside in temperature adjustment room after the completion of heating;On the downside of temperature adjustment room
Cold water can be drawn into electronic valve 6 under the action of water pump 36;The cold water being pumped into electronic valve 6 is flowed by input water pipe 17
Water pipe switching valve 16;The cold water for flowing into water pipe switching valve 16 passes through the insulation barrel 8 in the inflow solar water heater 5 of water-supply-pipe 11
It is interior, the cold water of inflow is heated under the irradiation of strong light by absorbing pipe 12.Ultrasonic transmitter 50 passes through simultaneously
Humidification hole 22 can humidify interior.
Claims (5)
1. a kind of room temperature based on rotating heat conducting adjusts room, it is characterised in that: it include refrigeration mechanism, heating mechanism, temperature adjustment room,
Electronic valve, wherein refrigeration mechanism and heating mechanism are separately mounted to the upper end in temperature adjustment room and refrigeration mechanism and heating mechanism pass through electricity
Sub- valve is connect with temperature adjustment room;
Above-mentioned refrigeration mechanism includes Stirling engine, compressor, reflective dish, thermoconverter, efferent duct, input pipe, temperature tune
Device, connecting tube, output water pipe, input water pipe are saved, wherein reflective dish and Stirling engine form solar power system;Compression
Machine is mounted on the upside of Stirling engine, and compressor rotation shaft is connected with Stirling engine shaft;Thermoregulator includes evaporation
Device, expansion valve, condenser, thermoregulator are mounted on the upper end in temperature adjustment room;Condenser in thermoregulator and compressor it
Between pass through the connection of two connecting tubes;Expansion valve connect by two connecting tubes with condenser, evaporator pass through two connecting tubes and
Expansion valve connection, thermoconverter are mounted on the upper end in temperature adjustment room;Working medium in evaporator is input to thermoconverter by input pipe
In, working medium is being input in compressor from thermoconverter by efferent duct, input water pipe and output water pipe are mounted on heat and turn
On parallel operation, the water that thermoconverter is passed through the working medium in evaporator with input water pipe carries out heat exchange;
Above-mentioned heating mechanism includes water-supply-pipe, input pipe, efferent duct, water pipe switching valve, solar water heater, wherein solar heat
Hydrophone is mounted on the upper end in temperature adjustment room;Water pipe switching valve is mounted on the upper end in temperature adjustment room;Water pipe switching valve and solar water heater
Between pass through the connection of two water-supply-pipes;
Above-mentioned solar water heater includes push plate, guide block, guide groove, insulation barrel, adjuster support, absorbing pipe, absorbing heat supports, wherein
Adjuster supports the upper end for being mounted on temperature adjustment room;Guide groove there are two being symmetrically installed on the inside of insulation barrel;It is symmetrical on the periphery of push plate
There are two guide blocks for installation;Push plate passes through the inside for being fitted to insulation barrel of two guide blocks and two guide grooves;Insulation barrel installation
In the upside of adjuster support;Heat absorption support is mounted on the upside in temperature adjustment room;It is equipped between heat absorption support and insulation barrel multiple
Absorbing pipe, two water-supply-pipes are located at insulation barrel two sides;
Above-mentioned temperature adjustment room includes floor, asbestos board, top plate, wallboard, electronic valve, insulating layer, decorative panel, return water delivery pipe, water inlet
Delivery pipe, water inlet input pipe, return water efferent duct, second spring, wherein four wallboards are separately mounted to the upside on floor, and four
It is mutually perpendicular between two neighboring wallboard in wallboard;The structure respectively installed on four wallboard medial surfaces complete phase between each other
Together, and for wherein any one wallboard, an asbestos board identical with wallboard size is installed on wallboard medial surface;Ten turn
Changing device passes through the inside that three second springs being distributed up and down are mounted on asbestos board, and the equal position in lower end of ten conversion equipments
In the upside on floor;Decorative panel is mounted on the inside of conversion equipment;Return water delivery pipe and water inlet delivery pipe are installed in four walls
Plate upper end, and it is located at the upside of conversion equipment;Insulating layer is mounted on return water delivery pipe and water inlet delivery pipe periphery;Water inlet
Input pipe is mounted on the upside into water delivery pipe and communicates inside intake input pipe and water inlet delivery pipe;Return water efferent duct is mounted on
It is communicated inside the upside of return water delivery pipe and return water efferent duct and return water delivery pipe;Water inlet input pipe and return water efferent duct periphery
On be mounted on insulating layer;Mounting of roof plate is in the upside of four wallboards;Water inlet input pipe and return water efferent duct are pierced by top plate;Electricity
Sub- valve is mounted on the upside of top plate;Electronic valve is connect with water inlet input pipe and return water efferent duct;
Above-mentioned thermoconverter is connect by input water pipe, output water pipe with electronic valve;Water pipe switching valve passes through input water pipe, output
Water pipe is connect with electronic valve;
Above-mentioned conversion equipment includes thermoregulative mechanism, drinking-water pipe, water inlet pipe, conversion equipment shell, wherein three thermoregulative mechanisms it is supreme and
It is uniformly mounted in conversion equipment shell down;Drinking-water pipe and water inlet pipe are separately mounted to the upper end of conversion equipment;Drinking-water pipe and return water
Delivery pipe connection;Water inlet pipe is connect with water inlet delivery pipe;
Above-mentioned thermoregulative mechanism includes water storage shell apopore, thermoregulative mechanism shell, ultrasonic transmitter, connection water inlet pipe, connection water outlet
Pipe, motor shell, rotor plate, water storage shell, shaft, water pump, the first spring, humidification hole, idler wheel, inlet channel, water outlet, water fender,
Inlet opening, cam, pushing block, pushing block slot, motor apopore, wherein thermoregulative mechanism shell is mounted on inside conversion equipment shell on shell wall;
Water pump is mounted on the lower end on the inside of thermoregulative mechanism shell;Water pump is connect by connecting outlet pipe with drinking-water pipe;Pacify one end of motor shell
On thermoregulative mechanism shell inner wall;The other end of motor shell is provided with motor apopore;Inside motor by connection water inlet pipe with
Water inlet pipe connection;Pushing block slot is provided on the inside of motor shell;One end of shaft is mounted in the circular hole of motor shell wall surface by bearing;
Cam is mounted in shaft, and cam is located in motor shell;The top surface of cam is engaged with motor shell inner headed face;Pushing block installation
In pushing block slot;It is connected between pushing block and pushing block slot by the first spring, pushing block top and cam convex surface cooperate;The installation of water storage shell
In the shaft for stretching out motor shell;Inlet opening is provided on the end face of water storage shell, inlet opening is connect with motor apopore;Stretch out motor
One end of the shaft of shell is provided with an inlet channel and two water outlets;Inlet channel is communicated with water storage shell inner cavity;Rotor plate is mounted on
Shaft one end;Side on rotor plate far from shaft is uniformly equipped with four rolling;The inside both ends of rotor plate are symmetrically installed with
Two water fenders;Water fender has straight section and curved segment, and straight section is equipped with the rotor plate inner wall of idler wheel side close to rotor plate;Curved segment
Positioned at rotor plate middle position, between two symmetrical curved segments, rotor plate inner wall that straight section is adjacent to form temperature adjustment channel,
Temperature adjustment channel between two curved segments is communicated with inlet channel;Close to the wall surface institute group of shaft one end on two water fenders and rotor plate
At to pass through two water outlets and thermoregulative mechanism shell phase respectively logical in two symmetrical spaces;Thermoregulative mechanism shell lower end surface is equipped with
One ultrasonic transmitter is provided with humidification hole in thermoregulative mechanism shell lower end surface on indoor wall surface;
There is circular hole corresponding with humidification hole on above-mentioned decorative panel.
2. a kind of room temperature based on rotating heat conducting according to claim 1 adjusts room, it is characterised in that: when summer, pass through
Control electronic valve connects the input water pipe connecting with thermoconverter, output water pipe with return water efferent duct and water inlet input pipe respectively
It connects;When winter, by controlling electronic valve the input water pipe connecting with water pipe switching valve, output water pipe are exported respectively with return water
Pipe is connected with water inlet input pipe.
3. a kind of room temperature based on rotating heat conducting according to claim 1 adjusts room, it is characterised in that: above-mentioned solar heat
At 45 degree of angles between absorber plate and top plate on hydrophone;Reflective dish on Stirling engine and between top plate at 45
Spend angle.
4. a kind of room temperature based on rotating heat conducting according to claim 1 adjusts room, it is characterised in that: above-mentioned connecting tube,
Input pipe, efferent duct, input water pipe, output water pipe, water-supply-pipe, return water delivery pipe, water inlet delivery pipe, water inlet input pipe, return water
Insulating layer is mounted on the periphery of efferent duct, water inlet pipe and drinking-water pipe.
5. a kind of room temperature based on rotating heat conducting according to claim 1 adjusts room, it is characterised in that: above-mentioned Stirling hair
It can be always towards the direction of the sun under the control for the shaft that the direction of reflective dish in motivation is installed on it;Water heater
On absorber plate the control of shaft installed on it of direction under can be always towards the direction of the sun.
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JPH09210486A (en) * | 1996-02-08 | 1997-08-12 | Sanyo Electric Co Ltd | Heat pump type cooling or heating device |
JPH10253101A (en) * | 1997-03-07 | 1998-09-25 | Sanyo Electric Co Ltd | Air conditioner with external combustion type gas engine |
KR20130034672A (en) * | 2011-09-28 | 2013-04-08 | 김동식 | Votax type heat exchanger |
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CN205372874U (en) * | 2016-01-27 | 2016-07-06 | 宁波荣捷特机械制造有限公司 | Indoor temperature regulation and controlling system |
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US5522222A (en) * | 1993-06-10 | 1996-06-04 | Samsung Electronics Co., Ltd. | Cooling and heating system utilizing a vuilleumier pump |
JPH09210486A (en) * | 1996-02-08 | 1997-08-12 | Sanyo Electric Co Ltd | Heat pump type cooling or heating device |
JPH10253101A (en) * | 1997-03-07 | 1998-09-25 | Sanyo Electric Co Ltd | Air conditioner with external combustion type gas engine |
KR20130034672A (en) * | 2011-09-28 | 2013-04-08 | 김동식 | Votax type heat exchanger |
CN104033974A (en) * | 2014-06-29 | 2014-09-10 | 曾永鸿 | Construction ventilation refrigeration system |
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Effective date of registration: 20190920 Address after: 221424 West Side of Moxin Road, Chesboard Town, Xinyi City, Xuzhou City, Jiangsu Province Applicant after: Xinyi chessboard Industrial Concentration Zone Construction Development Co., Ltd. Address before: 730030 No. 679, Pingliang Road, Chengguan District, Gansu, Lanzhou 602 Applicant before: Liu Kuan |
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