CN202521724U - Intelligent control combined type heating supply system of solar energy, air source and gas - Google Patents

Abstract

The utility model discloses an intelligently controlled solar energy, air source and gas combined heating and heating system. The water outlet pipes are connected to the heating system, the geothermal system and the water outlet respectively. The heating system and the geothermal system are connected to the hot water storage tank through the return pipe. The medium pipeline also includes an intelligent control system. The intelligent control system is equipped with a processor. One end of the processor is connected to the signal receiver, and the other end is connected to the output port. The output ports are respectively connected to the electronic controller in the gas instantaneous heating assembly. , the vacuum panel controller and the controller in the air source assembly are electrically connected. By adopting the technical scheme of the utility model, the user can turn off the power supply of the system at ordinary times, use the control terminal to turn on the system remotely and intelligently before going home, and can use hot water after returning home.

Description

Intelligently controlled solar energy, air source and gas combined heating system

technical field

The utility model relates to a heat supply system, in particular to an intelligently controlled solar energy, air source and gas combined heat supply system. the

Background technique

At present, during the use of heating and heating systems in people's homes, the power supply is generally turned on all day long so that hot water can be used at any time. During this process, the heating device repeatedly works to waste a lot of electric energy. In addition, in order to save electricity, some users usually turn off the power supply of the heating system, and then turn on the power supply when in use. However, it takes about half an hour for the heating system to be ready for use after being turned on, so it needs to be turned on every time. Wait half an hour before it can be used, and when the user needs to use hot water or heating immediately, it brings great inconvenience to the user. the

Contents of the invention

In order to overcome the deficiencies of the prior art, the utility model provides an intelligently controlled solar energy, air source and gas combined heating system which is convenient to use. the

The intelligently controlled solar energy, air source and gas combined heating and heating system of the utility model includes a hot water storage tank, a gas instant heating assembly, a solar vacuum panel heating assembly, an air source assembly, a heating system, and a geothermal system The hot water storage tank is connected to the water inlet pipe, and its outlet pipe is connected to the water inlet pipe of the gas instant heating assembly, and the outlet pipe of the gas instant heating assembly is respectively connected to the heating system and the geothermal system and the water outlet, the heating system and the geothermal system. The system is connected to the hot water storage tank through the return pipe. There is a medium pipeline between the hot water storage tank and the solar vacuum panel heating assembly. There is also a medium pipeline between the hot water storage tank and the air source assembly. The heat transfer medium is in the medium In the pipeline, the circulation is between the hot water storage tank and the solar vacuum panel heating assembly, and between the hot water storage tank and the air source assembly; the gas instantaneous heating assembly is equipped with an electronic controller , the solar vacuum panel heating assembly is equipped with a vacuum panel controller, and the air source assembly is equipped with a controller, which also includes an intelligent control system. The intelligent control system is equipped with a processor. One end of the processor is connected to the signal receiver, and the other is One end is connected to the output port, and the output port is electrically connected to the electronic controller in the gas instant heating assembly, the vacuum panel controller and the controller in the air source assembly, and the other end of the signal receiver is connected to the control terminal through the network. the

The signal receiver is connected with the control terminal through a wireless network or a wired network. the

The control terminal is a mobile phone or a computer. the

The solar vacuum panel heating assembly includes a water inlet pipe, a water outlet pipe, a solar vacuum tube, a heat conduction medium and a vacuum tube support. The heat conduction medium is placed in the vacuum tube to be heated by sunlight, and the heat conduction medium enters the hot water storage tank from the water outlet pipe to heat water. the

The air source assembly also includes a condenser, a compressor, an evaporator, and an electronic expansion valve, wherein the condenser, the compressor, the evaporator, and the electronic expansion valve are sequentially connected through a refrigerant circulation pipeline, and the refrigerant circulation pipeline is provided with There is a circulating refrigerant, and the water inlet and outlet of the condenser are connected with connecting pipes. the

The gas instant heating assembly is also provided with an automatic reset thermostat and a thermal circuit protector, and the inlet and outlet pipes of the gas instant heating assembly are respectively provided with an inlet water temperature sensor and an outlet water temperature sensor. the

The hot water storage tank is also provided with a temperature control switch and a pressure relief valve. the

The hot water storage tank is also provided with a water level switch, and the bottom of the hot water storage tank is provided with a cleaning valve. the

The hot water outlet pipeline of the hot water storage tank is provided with a waste heat recovery system, and the waste heat recovery system is provided with a heat exchange device. the

A water purification system is provided on the water inlet pipes of the heating system and the geothermal system. the

The utility model adopts the above technical scheme, uses the intelligent control system to realize the remote intelligent control of the solar energy, air source and gas combined heating and heating system through the network, so that the user can usually turn off the power supply of the heating and heating system, and before going home Use the control terminal to turn on the power supply of the heating and heating system, and you can directly use the hot water and heating system after returning home, which saves power and is convenient for users to use. the

Description of drawings

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is the overall structural representation of the utility model;

Fig. 2 is the structural representation of the air source assembly of the present utility model;

Fig. 3 is the structural representation of the hot water storage tank of the present utility model;

Fig. 4 is a schematic structural view of the instant gas heating assembly of the present invention.

Detailed ways

As shown in one of Figures 1-4, the utility model includes a hot water storage tank 1, a gas instant heating assembly 2, a solar vacuum panel heating assembly 3, an air source assembly 4, a heating system 5, and a geothermal system 6 The hot water storage tank 1 is connected to the water inlet pipe 11, and its outlet pipe 12 is connected to the water inlet pipe 21 of the gas instant heating assembly 2, and the outlet pipe 22 of the gas instant heating assembly 2 is respectively connected to the heating system 5 and the geothermal system 6 And the water outlet 23, the heating system 5 and the geothermal system 6 are connected to the hot water storage tank 1 through the return pipe 13, and a medium pipeline is provided between the hot water storage tank 1 and the solar vacuum panel heating assembly 3, and the hot water storage tank 1 There is also a medium pipeline between the air source assembly 4, and the heat transfer medium is in the medium pipeline, respectively between the hot water storage tank 1 and the solar vacuum panel heating assembly 3, and between the hot water storage tank 1 and the air source Circulation between the assemblies 4; the gas instant heating assembly 2 is provided with an electronic controller 24, the solar vacuum panel heating assembly 3 is provided with a vacuum panel controller 31, and the air source assembly 4 is provided with a control device 41, which also includes an intelligent control system 7, a processor 71 is arranged in the intelligent control system 7, one end of the processor 71 is connected to a signal receiver 72, and the other end is connected to an output port 73, and the output port 73 is respectively connected to the gas instantaneous heating master The electronic controller 24 in the assembly 2, the vacuum panel controller 31 and the controller 41 in the air source assembly 4 are electrically connected, and the other end of the signal receiver 72 is connected to the control terminal 8 through the network. the

The signal receiver 72 is connected with the control terminal 8 via a wireless network or a wired network. the

The control terminal 8 is a mobile phone or a computer. the

The solar vacuum panel heating assembly 3 includes a water inlet pipe, a water outlet pipe, a solar vacuum tube 32, a heat conduction medium and a vacuum tube support, the heat conduction medium is placed in the vacuum tube to be heated by sunlight, and the heat conduction medium enters the hot water storage tank through the water outlet pipe to cool the water. heating. The air source assembly 4 also includes a condenser 42, a compressor 43, an evaporator 44, and an electronic expansion valve 45, wherein the condenser 42, the compressor 43, the evaporator 44, and the electronic expansion valve 45 pass through the refrigerant circulation pipeline in sequence Circulation connection, the refrigerant circulation pipeline is provided with a circulating refrigerant, and the water inlet end and the water outlet end of the condenser 42 are connected with connecting pipes. the

The gas instant heating assembly 2 is also provided with an automatic reset thermostat 25 and a thermal circuit breaker 26, and the water inlet 21 and the water outlet 22 of the gas instant heating system 2 are respectively provided with water inlet temperature sensors. 27 and the outlet water temperature sensor 28, the gas instant heating system 2 is also provided with a combustion chamber, a fan, an igniter, a transformer, a gas proportional valve, a water flow sensor, a gas double cut-off solenoid valve, a wind pressure switch, and a combustion valve. the

The hot water outlet pipe 12 of the hot water storage tank 1 is provided with a waste heat recovery system 14 , and the waste heat recovery system 14 is provided with a heat exchange device 141 . the

A water purification system 9 is provided on the water inlet pipes of the heating system 5 and the geothermal system 6 . the

When the user is in a different place (such as going to work or on a business trip) and needs to heat the room or wants to have hot water when he goes home, he can use a computer or mobile phone to control the intelligently controlled solar and air sources at home through the network. And gas combined heating system to control, the user can set the start-up time, running time and heating temperature of solar energy, air source and gas combined heating system. When the signal receiver 72 in the intelligent control system 7 at home receives the setting request sent by the user from the control terminal 8, the signal receiver 72 sends the received signal to the processor 71, and the processor 71 processes the control signal to control The signal is sent to the controller 41 of the air source assembly 4, the electronic controller 23 of the gas instant heating assembly 2, and the vacuum panel controller 31 provided in the solar vacuum panel heating assembly 3 through the output port 73. The water pump on the water inlet pipe of the vacuum panel heating assembly 3 will be powered on. At this time, the heat transfer medium (working fluid) in the solar vacuum panel heating assembly 3 starts to circulate, and the solar vacuum panel heating assembly 3 is illuminated by the sun. The solar vacuum tube 32 absorbs the heat in the sunlight, and conducts the heat to the heat-conducting medium, and the heat-conducting medium that has absorbed the heat flows into the hot water storage tank 1 to heat the cold water in the hot water storage tank 1. the

Simultaneously, the controller 41 of the air source assembly 4 controls the power supply of the air source assembly 4, and the axial flow fan 46 starts running, and the outdoor air performs heat exchange through the evaporator 44, and the air after the temperature is lowered is discharged from the system by the fan, and at the same time , the refrigerant inside the evaporator 44 absorbs heat and vaporizes and is sucked into the compressor 43. The compressor 43 compresses the low-pressure refrigerant (working fluid) gas into a high-temperature and high-pressure gas and sends it to the medium coil. At this time, the cold water in the hot water storage tank It will be heated by the refrigerant, and the refrigerant is cooled into a liquid, which flows into the evaporator 44 again after being throttled and cooled by the expansion valve 45, and then carries out the above cycle to continuously heat the cold water. the

Of course, in order to obtain hot water faster and more, the above two processes are connected in parallel and can be carried out simultaneously or one by one. the

The water pump that is located on the water outlet pipe 12 of the hot water storage tank also starts to work, and the water that has been preheated through the air source assembly 4 and the solar vacuum panel heating assembly 3 just enters the gas instant heating assembly 2, and is located in the gas instant heating assembly 2. The water inlet temperature sensing head 26 on the water inlet pipeline 21 of the thermal heating assembly and the water outlet temperature sensing head 27 located on the outlet pipe 22 of the gas instant heating assembly will collect the temperature respectively, and the collected temperature Feedback to the electronic control board 23 of the gas instant heating unit 2 together, through the calculation of the electronic control board 23, the best water outlet effect is achieved with the lowest power output, and the outlet water temperature is consistent with the set temperature. The hot water heated by the gas instant heating assembly 2 can flow through the water purification system 9 and then enter the geothermal system 5 and the heating system 6 to heat the room (such as: bedroom, living room, kitchen, bathroom, etc.), and flow through The hot water of the geothermal system 5 and the heating system 6 returns to the hot water storage tank 1 through the return pipeline 13, and thus circulates for heating. It is also possible to adjust the speed of heating by adjusting the switches on the geothermal system 5 and the heating system 6. the

The hot water storage tank 1 is also provided with a temperature control switch 15 and a pressure relief valve 16. When the water in the hot water storage tank 1 is preheated to the first set temperature, the temperature control on the hot water storage tank 1 The switch 15 cuts off the power supply of the air source assembly 4, and the air source assembly 4 stops heating the water in the hot water storage tank 1; when the water in the hot water storage tank 1 drops to the first set temperature, the hot water storage tank The temperature control switch 15 on 1 connects the power supply of the air source assembly 4, and the air source assembly 4 heats the water in the hot water storage tank 1; when the water in the hot water storage tank 1 is higher than the second set temperature, The temperature control switch 15 controls the pressure relief valve 16 on the hot water storage tank 1 to open the pressure relief, and cut off the power supply of the solar vacuum panel heating assembly 3 at the same time, and the solar vacuum panel heating assembly 3 stops heating the water in the hot water storage tank 1 , to prevent the pressure in the hot water storage tank 1 from being too high. the

The water outlet 23 of the gas instant heating assembly 2 is connected with several water outlet terminals (such as shower room, bathtub, washbasin, etc.). When using hot water, the hot water that people usually use for bathing is generally around 40 degrees Celsius. When the hot water flows through the body and then flows into the sewer, the water temperature remains at about 35 degrees Celsius, and a lot of heat is discharged into the sewer, which is wasted. most of the energy. The waste heat recovery system 14 utilizes this part of heat, and recovers this part of heat through heat exchange to reheat the water from the recovery pipeline. the

The hot water storage tank 1 of the utility model is provided with a water level switch 17. When the water level in the hot water storage tank 1 is lower than the set position, the water level switch 17 will automatically connect the power supply of the solenoid valve to allow water to pass through the main water inlet pipe 11. Entering the hot water storage tank 1, the water level is automatically replenished to the set position. the

The hot water storage tank 1 of the utility model is provided with a cleaning valve 18, and after a period of time, the cleaning valve 18 located at the bottom of the hot water storage tank 1 can be opened to clean the hot water storage tank. the

Claims (10)

1. the solar energy of Based Intelligent Control, air source and combustion gas combined type heating system comprise heat storage water tank, the Instant heating type heating assembly of combustion gas, solar energy evacuated plate heating assembly, air source assembly, heating system, geothermal system; Heat storage water tank connects water inlet pipe; Its outlet pipe connects the water inlet pipe of the Instant heating type heating assembly of combustion gas; The outlet pipe of the Instant heating type heating assembly of combustion gas connects heating system and geothermal system and water delivery port respectively, and heating system is connected with heat storage water tank through return pipe with geothermal system, is provided with medium pipeline between heat storage water tank and solar energy evacuated plate heating assembly; Also be provided with medium pipeline between heat storage water tank and air source assembly; Heat-conducting medium heats between the assembly at heat storage water tank and solar energy evacuated plate respectively, and between heat storage water tank and air source assembly, circulates in medium pipeline; Be provided with electronic controller in the Instant heating type heating assembly of said combustion gas; Be provided with the evacuated panel controller in the solar energy evacuated plate heating assembly; Be provided with controller in the air source assembly, 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 the Instant heating type heating assembly of combustion gas in electronic controller, evacuated panel controller and air source assembly in controller be electrically connected, the signal receiver other end is connected with control terminal by network.

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

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

4. the solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system; It is characterized in that: described solar energy evacuated plate heating assembly comprises water inlet pipe, outlet pipe, solar energy vacuum tube, heat-conducting medium and vacuum tube support; Heat-conducting medium places vacuum tube by the sunshine heating, and heat-conducting medium gets into heat storage water tank by outlet pipe water is heated.

5. the solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system; 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 solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system; It is characterized in that: the Instant heating type heating assembly of said combustion gas also is provided with automatically reset temperature controller and thermal cut-out protector, is respectively equipped with inflow temperature sensor and leaving water temperature sensor on the water inlet pipe of the Instant heating type heating assembly of combustion gas and the outlet pipe.

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

8. the solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system 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.

9. the solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system, it is characterized in that: the hot water outlet pipeline of said heat storage water tank is provided with residual neat recovering system, and residual neat recovering system is provided with heat-exchange device.

10. the solar energy of Based Intelligent Control according to claim 1, air source and combustion gas combined type heating system, 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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