CN202361509U - Intelligent control heating system complementarily using solar energy and air - Google Patents

Abstract

The utility model discloses an intelligent control heating system complementarily using solar energy and air; a water inlet main pipe is arranged on a hot water tank; medium pipelines are respectively arranged between the hot water tank and a solar light panel heating assembly, and between the hot water tank and an air source assembly; a water outlet pipeline of the hot water tank is connected with a geothermal system and a heating system; the geothermal system and the heating system are connected with the hot water tank by a return pipe; the intelligent control heating system also comprises an intelligent control system; one end of a processor arranged in the intelligent control system is connected with a signal receiver, and the other end of the processor is connected with an output port; the output port is electrically connected with a light panel controller and a controller arranged in the air source assembly respectively; and the other end of the signal receiver is connected with a control terminal by a network. With the adoption of the technical scheme in the utility model, a user can shut down the power supply of the heating system in usual time and intelligently and remotely start the system by using the control terminal before going home, so that the user can use hot water and the heating system at home.

Description

The complementary heating system that uses of the solar energy of Based Intelligent Control and air source

Technical field

The utility model relates to a kind of circulation heating system, relates in particular to a kind of solar energy and complementary heating system that uses of air source of Based Intelligent Control.

Background technology

At present, the heating system in the people family in use, general whole day opening power all so that can use hot water at any time, in this process, the heater waste much electricity of working repeatedly.In addition; Some users close the power supply of heating system usually in order to save electric energy, energized again during use; But heating system from energized to using the time that also needs about half an hour; So could use after all need waiting half an hour, when the user need use hot water or heating, bring great inconvenience at every turn at once to the user.

Summary of the invention

Solar energy and the complementary heating system that uses of air source that the purpose of the utility model provides a kind of Based Intelligent Control satisfy people's demand.

For realizing above-mentioned purpose, the complementary heating system that uses of the solar energy of the Based Intelligent Control of the utility model and air source comprises heat storage water tank, solar energy tabula rasa heating assembly, air source assembly, geothermal system, heating system; Heat storage water tank is provided with the water inlet manifold that is connected with outside network; Be provided with medium pipeline between heat storage water tank and the solar energy tabula rasa heating assembly; Be provided with medium pipeline between heat storage water tank and the air source assembly; Heat-conducting medium heats between the assembly at heat storage water tank and solar energy tabula rasa respectively, and between heat storage water tank and air source assembly, circulates in medium pipeline; The outlet pipe of heat storage water tank connects geothermal system and heating system, and geothermal system is connected heat storage water tank with heating system through return pipe, and the outlet pipe of heat storage water tank also is provided with uses water out; Be provided with the tabula rasa controller in the solar energy tabula rasa heating assembly; The air source assembly is provided with controller, and it also comprises intelligence control system said heating system, is provided with processor in the intelligence control system; Processor one end connects signal receiver; The other end connects output port, output port respectively with tabula rasa controller and air source assembly in controller be electrically connected, the signal receiver other end is connected with control terminal by network.

Said signal receiver is connected with control terminal by wireless network or cable network.

Said control terminal is mobile phone or computer.

Described solar energy tabula rasa heating assembly comprises thermal-arrest plate, medium pipeline, heat-conducting medium, heat-insulation layer, and heat transfer medium flows is in medium pipeline, and medium pipeline is close to the shady face that is arranged in the thermal-arrest plate, and heat-insulation layer is wrapped in the outside of solar energy tabula rasa heating assembly.

Said air source assembly also comprises condenser, compressor, evaporimeter, electric expansion valve; Wherein, Condenser, compressor, evaporimeter, electric expansion valve are through the medium circulation pipeline connection that circulates successively; Be provided with the refrigerant that circulates in the medium circulation pipeline, the water inlet end of condenser is connected tube connector with the water side.

Also be provided with temp control switch and pressure relief valve on the described heat storage water tank.

Also be provided with water level switch on the described heat storage water tank, the heat storage water tank bottom is provided with the cleaning valve.

The water inlet pipe of said heating system and geothermal system is provided with water cleaning systems.

The utility model adopts above technical scheme; Utilizing intelligence control system to pass through network realizes the long-distance intelligent of solar energy and the complementary heating system that uses of air source is accused; The user can close the power supply of heating system usually like this; Before going home, utilizing control terminal to open the power supply of heating system, can directly use hot water and heating system after going home, is that conserver power source is user-friendly to again like this.

Description of drawings

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is done further detailed explanation:

Fig. 1 is the structural representation of the complementary heating system that uses of solar energy and air source of the Based Intelligent Control of the utility model;

Fig. 2 is the structural representation of the heat storage water tank part of the utility model;

Fig. 3 is the structural representation of the air source assembly part of the utility model.

The specific embodiment

Shown in Fig. 1 to 3, the utility model comprises heat storage water tank 1, solar energy tabula rasa heating assembly 2, air source assembly 3, geothermal system 4, heating system 5; Heat storage water tank 1 is provided with the water inlet manifold 11 that is connected with outside network; Be provided with medium pipeline between heat storage water tank 1 and the solar energy tabula rasa heating assembly 2; Be provided with medium pipeline between heat storage water tank 1 and the air source assembly 3; Heat-conducting medium heats between the assembly 2 at heat storage water tank 1 and solar energy tabula rasa respectively in medium pipeline, and circulation between heat storage water tank 1 and air source assembly 3; The outlet pipeline 22 of heat storage water tank 1 connects geothermal system 4 and heating system 5, and geothermal system 4 is connected heat storage water tank 1 with heating system 5 through return pipe 13, also is provided with water out 14 on the outlet pipe 12 of heat storage water tank 1; Be provided with tabula rasa controller 21 in the solar energy tabula rasa heating assembly 2; Air source assembly 3 is provided with controller 31, and it also comprises intelligence control system 6, is provided with processor 61 in the intelligence control system 6; Processor 61 1 ends connect signal receiver 62; The other end connects output port 63, and output port 63 is electrically connected with tabula rasa controller 21 and controller 31 in the air source assembly 3 respectively, and signal receiver 62 other ends are connected with control terminal 7 by network.

Said signal receiver 62 is connected with control terminal 7 by wireless network or cable network.

Said control terminal 7 is mobile phone or computer.

Described solar energy tabula rasa heating assembly 2 comprises thermal-arrest plate, medium pipeline, heat-conducting medium, heat-insulation layer; Heat transfer medium flows is in medium pipeline; Medium pipeline is close to the shady face that is arranged in the thermal-arrest plate; Heat-conducting medium in thermal-arrest plate and the medium pipeline carries out heat transmission, then gets into 1 pair of water heating of heat storage water tank, and heat-insulation layer is wrapped in the outside of solar energy tabula rasa heating assembly 2.

Said air source assembly 3 also comprises condenser 32, compressor 33, evaporimeter 34, electric expansion valve 35; Wherein, Condenser 32, compressor 33, evaporimeter 34, electric expansion valve 35 are through the medium circulation pipeline connection that circulates successively; Be provided with the refrigerant that circulates in the medium circulation pipeline, the water inlet end of condenser 32 is connected tube connector with the water side.

The water inlet pipe of said heating system 4 and geothermal system 5 is provided with water cleaning systems 8.

When the user (as is on duty in the strange land; Or go on business); Need heat or when hoping to go home just to have hot water to use, can use computer or mobile phone the room, the solar energy of the Based Intelligent Control of family controlled with the heating system of the complementary use of air source through network; The user can be provided with available machine time, running time and the heating temperature of solar energy and the complementary heating system that uses of air source.Signal receiver 62 in the intelligence control system 6 among the manager is received the user when being provided with of sending of control terminal 7 requires, and signal receiver 62 sends to processor 61 with the signal that receives, and treated device 61 is handled controlled signal; Control signal heats the tabula rasa controller 21 that is provided with in the assembly 2 through controller 31, the solar energy tabula rasa that output port 63 sends to air source assembly 3; At this moment the solar energy tabula rasa heats the water pump meeting energized on 2 one-tenth inlet pipelines of assembly, and heat-conducting medium (working medium) just begins circulation in the solar energy tabula rasa heating this moment assembly 2, and the solar energy tabula rasa heats assembly 2 under the shining of sunlight; Thermal-arrest plate in it absorbs the heat in the sunshine; And be transmitted to heat on the heat-conducting medium, the medium pipeline in the solar energy tabula rasa heating assembly 2 can be designed to shapes such as snakelike, mosquito-repellent incense shape; Elongate the length of medium pipeline as far as possible; Make the length of flow across of heat-conducting medium longer, absorb more heats, absorbed the medium of heat; Flow to again in the heat storage water tank 1, the cold water in the heat storage water tank 1 is heated.On the solar energy tabula rasa assembly 2 toughened glass panel, base plate and housing can be set, what rise is protection and supporting role, makes solar energy tabula rasa assembly 2 be not easy to damage.Heat-insulation layer is by the least possible loss of the heat of heat-conducting medium, to reach the higher thermal efficiency.

Simultaneously, the power supply of air source assembly 3, aerofoil fan 36 entrys into service are connected in controller 31 controls of air source assembly 3; Outdoor air carries out heat exchange through evaporimeter 34, and the air after temperature reduces is discharged system by fan, simultaneously; Evaporimeter 34 inner refrigerant heat absorption vaporizations are inhaled into compressor 33; Compressor 33 with this low pressure refrigerant (working medium) gas be compressed into high temperature, gases at high pressure are sent into the medium coil pipe, at this moment the cold water in the heat storage water tank will be heated by refrigerant, and refrigerant is cooled into liquid; This liquid inflow evaporator 34 once more after expansion valve 35 throttlings coolings carries out above-mentioned circulation and row heating during constantly to cold water again.

Certainly for faster, more obtain hot water, more than two processes be parallelly connected, can carry out simultaneously.

When air source assembly 3 and solar energy tabula rasa heating assembly 2 are worked; The water pump that is located on the heat storage water tank 1 is also started working; Let in the heat storage water tank 1 through the water of air source assembly 3 with 2 preheatings of solar energy tabula rasa heating assembly; The geothermal system 4 of after water cleaning systems 8 filters, flowing through is again carried out room (as: bedroom, parlor, kitchen, toilet etc.) heating with heating system 5, and the hot water of geothermal system of flowing through 4 and heating system 5 is got back in the heat storage water tank 1 through water return pipeline 13, and so circulation heats; Also maybe be through regulating switch on geothermal system 4 and the heating system 5, the speed of regulating heating.

Also be provided with temp control switch 15 and pressure relief valve 16 on the described heat storage water tank 1; When the water preheat in the heat storage water tank 1 during to first design temperature; Temp control switch 15 on the heat storage water tank 1 cuts off the power supply of air source assembly 3, and air source assembly 3 stops the water in the heat storage water tank 1 is heated; When the water in the heat storage water tank 1 was reduced to first design temperature, the temp control switch 15 on the heat storage water tank 1 was connected the power supply of air source assembly 3, the water heating in 3 pairs of heat storage water tanks 1 of air source assembly; When the water in the heat storage water tank 1 is higher than second design temperature; Pressure relief valve 16 on the temp control switch 15 control heat storage water tanks 1 is opened pressure release; Cut off the power supply of solar energy tabula rasa heating assembly 2 simultaneously; Solar energy tabula rasa heating assembly 2 stops the heating of the water in the heat storage water tank 1 is prevented hypertonia in the heat storage water tank 1.

Said heat storage water tank outlet pipe 12 with being connected to several outlet terminals (as: shower house, bathtub, washbowl etc.) on the water out 14.People directly open outlet terminal and can use hot water like this.

The heat storage water tank 1 of the utility model is provided with water level switch 17, and when heat storage water tank 1 middle water level was lower than desired location, water level switch 17 will be connected power of electromagnetic valve automatically, lets water pass through water inlet manifold 11 and gets into heat storage water tank 1, and water level adds to desired location automatically.

The heat storage water tank 1 of the utility model is provided with cleaning valve 18, has used and can open the cleaning valve 18 that is located at heat storage water tank 1 bottom a period of time of after and carry out the cleaning of heat storage water tank.

Claims (8)

1. the complementary heating system that uses of the solar energy of Based Intelligent Control and air source comprises heat storage water tank, solar energy tabula rasa heating assembly, air source assembly, geothermal system, heating system; Heat storage water tank is provided with the water inlet manifold that is connected with outside network; Be provided with medium pipeline between heat storage water tank and the solar energy tabula rasa heating assembly; Be provided with medium pipeline between heat storage water tank and the air source assembly; Heat-conducting medium heats between the assembly at heat storage water tank and solar energy tabula rasa respectively, and between heat storage water tank and air source assembly, circulates in medium pipeline; The outlet pipe of heat storage water tank connects geothermal system and heating system, and geothermal system is connected heat storage water tank with heating system through return pipe, and the outlet pipe of heat storage water tank also is provided with uses water out; Be provided with the tabula rasa controller in the solar energy tabula rasa heating assembly; The air source assembly is provided with controller, it is characterized in that: it also comprises intelligence control system, is provided with processor in the intelligence control system; Processor one end connects signal receiver; The other end connects output port, output port respectively with tabula rasa controller and air source assembly in controller be electrically connected, the signal receiver other end is connected with control terminal by network.

2. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source, it is characterized in that: said signal receiver is connected with control terminal by wireless network or cable network.

3. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source, it is characterized in that: said control terminal is mobile phone or computer.

4. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source; It is characterized in that: described solar energy tabula rasa heating assembly comprises thermal-arrest plate, medium pipeline, heat-conducting medium, heat-insulation layer; Heat transfer medium flows is in medium pipeline; Medium pipeline is close to the shady face that is arranged in the thermal-arrest plate, and heat-insulation layer is wrapped in the outside of solar energy tabula rasa heating assembly.

5. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source; It is characterized in that: said air source assembly also comprises condenser, compressor, evaporimeter, electric expansion valve; Wherein, Condenser, compressor, evaporimeter, electric expansion valve are provided with the refrigerant that circulates through the medium circulation pipeline connection that circulates successively in the medium circulation pipeline, the water inlet end of condenser is connected tube connector with the water side.

6. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source is characterized in that: also be provided with temp control switch and pressure relief valve on the described heat storage water tank.

7. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source, it is characterized in that: also be provided with water level switch on the described heat storage water tank, the heat storage water tank bottom is provided with the cleaning valve.

8. the complementary heating system that uses of the solar energy of Based Intelligent Control according to claim 1 and air source, it is characterized in that: the water inlet pipe of said heating system and geothermal system is provided with water cleaning systems.

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