CN204460564U - The air-conditioner of one kind of multiple energy complementations - Google Patents

Abstract

The utility model discloses the air-conditioner of one kind of multiple energy complementations, comprise wind-driven generator, photovoltaic electroplax, transformer, compressor and heat-collecting box, wind-driven generator is connected to the first controller and batteries by rectifier, photovoltaic electroplax connects batteries and the first controller respectively, first controller is by the first inverter connection transformer, transformer is connected to compressor and electric heater, cross valve junction chamber external heat exchanger on compressor and have indoor heat exchanger, choke valve and fluid reservoir is connected with in turn between outdoor heat exchanger and indoor heat exchanger, heat exchange box in heat-collecting box is connected with the first filter box and the second filter box, first filter box is connected with solar water heater in turn, reflux pump and the first recovery tank, second filter box is connected with earth source heat pump in turn, geothermal tube and the second recovery tank.The utility model air-conditioner can effectively utilize wind energy, solar energy and geothermal energy, for air-conditioner provides clean free energy, thus reduces civil power expense.

Description

The air-conditioner of one kind of multiple energy complementations

Technical field

The utility model relates to air-conditioner technical field, the air-conditioner of specifically one kind of multiple energy complementations.

Background technology

Along with non-renewable energy resources are day by day short, on the pollution of environment and climate change to affect mouth benefit serious, impel people to find the clean energy resource of environmental protection.New energy technology has very large development prospect, and new energy technology is applied on air-conditioner, and oneself becomes the focus of Air-conditioning Enterprise research and development.The electricity consumption of current city can't bear the heavy load gradually, and many cities are own uses electricity in off-peak hours through having carried out, and uses the cleanliness without any pollution energy (as solar energy and wind energy) to be the good method solving this problem.But it is large that existing solar air conditioner exists conversion of energy, and transformation efficiency is low, when illumination is weak, there is electricity shortage, therefore will use civil power, causes user power utilization expense to remain high, and still bring very large pressure to the supply of civil power.

Utility model content

The purpose of this utility model is the air-conditioner providing one kind of multiple energy complementations, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

The air-conditioner of one kind of multiple energy complementations, comprise wind-driven generator, photovoltaic electroplax, transformer, compressor and heat-collecting box, described wind-driven generator is connected to the first controller and batteries by rectifier, described photovoltaic electroplax connects batteries and the first controller respectively, the 3rd gauge tap is connected with between described photovoltaic electroplax and batteries, the second gauge tap is connected with between described photovoltaic electroplax and the first controller, described first controller is by the first inverter connection transformer, described batteries is also connected with second controller in turn, second inverter and transformer, described transformer is also connected with the 4th gauge tap, described transformer is connected compressor respectively by the 5th gauge tap with the 6th gauge tap, described transformer is also connected with electric heater by the 7th gauge tap, cross valve is connected with between the exhaust outlet of described compressor and gas returning port, the exhaust outlet of compressor connects the exhaust port of cross valve, the gas returning port of compressor connects the suction port of cross valve, the condenser port of cross valve is connected with outdoor heat exchanger, the evaporimeter port of cross valve is connected with indoor heat exchanger, choke valve and fluid reservoir is connected with in turn between described outdoor heat exchanger and indoor heat exchanger, described electric heater is arranged in heat-collecting box, also heat exchange box is installed in described heat-collecting box, described heat-collecting box one end is provided with the blower fan of band filter screen, the water inlet of heat exchange box is connected to the first filter box and the second filter box, the water inlet of described first filter box passes through solar water heater successively, reflux pump is connected heat exchange box delivery port with the first recovery tank, the water inlet of described second filter box passes through earth source heat pump successively, geothermal tube is connected heat exchange box delivery port with the second recovery tank.

As further program of the utility model: be also connected with the first gauge tap between described rectifier and batteries, described 3rd gauge tap is connected on the first controller.

As further program of the utility model: described 4th gauge tap is also connected on the first controller, described 4th gauge tap connects 220V civil power.

As further program of the utility model: described 5th gauge tap, the 6th gauge tap and the 7th gauge tap are all connected on the first controller.

As the utility model further scheme: the water inlet of described heat exchange box is provided with control valve, the delivery port of described heat exchange box is provided with control valve.

Compared with prior art, the beneficial effects of the utility model are: the utility model air-conditioner effectively can utilize the complementation of wind energy, solar energy and geothermal energy, by the electric energy of Conversion of Energy required for air-conditioning and heat energy, high to the utilization rate of new forms of energy, for air-conditioner provides sufficient clean free energy, greatly reduce and civil power is used, reduce the civil power expense of resident, also alleviate the power supply pressure of civil power.

Accompanying drawing explanation

Fig. 1 is the structural representation of the air-conditioner of various energy resources complementation.

In figure: 1-wind-driven generator; 2-photovoltaic electroplax; 3-rectifier; 4-first controller; 5-first inverter; 6-batteries; 7-first gauge tap; 8-second gauge tap; 9-the 3rd gauge tap; 10-second controller; 11-second inverter; 12-the 4th gauge tap; 13-transformer; 14-the 5th gauge tap; 15-the 6th gauge tap; 16-compressor; 17-cross valve; 18-indoor heat exchanger; 19-outdoor heat exchanger; 20-choke valve; 21-fluid reservoir; 22-the 7th gauge tap; 23-electric heater; 24-solar water heater; 25-first filter box; 26-heat exchange box; 27-filter screen; 28-blower fan; 29-reflux pump; 30-first recovery tank; 31-second recovery tank; 32-geothermal tube; 33-second filter box; 34-earth source heat pump; 35-heat-collecting box.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1, in the utility model embodiment, the air-conditioner of one kind of multiple energy complementations, comprise wind-driven generator 1, photovoltaic electroplax 2, transformer 13 and compressor 16, wind-driven generator 1 is connected to the first controller 4 and batteries 6 by rectifier 3, the first gauge tap 7 is also connected with between rectifier 3 and batteries 6, the electric energy that first gauge tap controls wind-driven generator 1 generation is that batteries 6 is powered, photovoltaic electroplax 2 connects batteries 6 and the first controller 4 respectively, the 3rd gauge tap 9 is connected with between photovoltaic electroplax 2 and batteries 6, 3rd gauge tap 9 controls photovoltaic electroplax 2 and powers for batteries 6, 3rd gauge tap 9 is connected on the first controller 4, the second gauge tap 8 is connected with between photovoltaic electroplax 2 and the first controller 4, the electric energy that second gauge tap 8 controls photovoltaic electroplax 2 generation is carried directly to transformer 13, first controller 4 is by the first inverter 5 connection transformer 13, batteries 6 is also connected with second controller 10 in turn, second inverter 11 and transformer 13, transformer 13 is also connected with the 4th gauge tap 12, 4th gauge tap 12 is also connected on the first controller 4, 4th gauge tap 12 connects 220V civil power.The electric energy that wind-driven generator 1 produces under wind-force effect is through the effect of rectifier 3, a wind is stored in batteries 6, a part directly acts on transformer 13 through the control of the first controller 4 and the first inverter 5, the electric energy part that photovoltaic electroplax 2 produces is stored in batteries 6, a part also directly acts on transformer 13 through the control of the first controller 4 and the first inverter 5, when wind-driven generator 1 and photovoltaic electroplax 2 all quit work, electric energy in batteries 6 continues as air-conditioner by the control action of second controller 10 and the second inverter 11 in transformer 13 and provides electric energy, when the electric energy of batteries 6 exhausts, continue as air-conditioner by the effect connection 220V civil power of the 4th gauge tap 12 and energy is provided, to ensure the normal operation of air-conditioner.

Transformer 13 is connected compressor 16 respectively by the 5th gauge tap 14 with the 6th gauge tap 15, compressor 16 carries out the power supply under different time and different situations by wind-driven generator 1, photovoltaic electroplax 2, batteries 6 and civil power, thus ensures the normal operation of air-conditioner by the effect of compressor 16.Transformer 13 is also connected with electric heater 23 by the 7th gauge tap 22, air-conditioner is made to carry out heating work in the winter time by the effect of the 7th gauge tap 22, realize indoor heating function, 5th gauge tap 14, 6th gauge tap 15 and the 7th gauge tap 22 are all connected on the first controller 4, air-conditioner is made to carry out cooling work in summer by the effect of the 5th gauge tap 14 and the 6th gauge tap 15, cross valve 17 is connected with between the exhaust outlet of compressor 16 and gas returning port, the exhaust outlet of compressor 16 connects the exhaust port of cross valve 17, the gas returning port of compressor 16 connects the suction port of cross valve 17, the condenser port of cross valve 17 is connected with outdoor heat exchanger 19, the evaporimeter port of cross valve 17 is connected with indoor heat exchanger 18, choke valve 20 and fluid reservoir 21 is connected with in turn between outdoor heat exchanger 19 and indoor heat exchanger 18, the fluid reservoir 21 arranged makes inflow consistent with the refrigerant pressure flowed out, ensure the flow speed stability of cold-producing medium, thus ensure the stable of air-conditioner system.

Electric heater 23 is arranged in heat-collecting box 35, in heat-collecting box 35, heat exchange box 26 is also installed, heat-collecting box 35 one end is provided with the blower fan 28 of band filter screen 27, the water inlet of heat exchange box 26 is connected to the first filter box 25 and the second filter box 33, the water inlet of the first filter box 25 is successively by solar water heater 24, reflux pump 29 is connected heat exchange box 26 delivery port with the first recovery tank 30, the water inlet of the second filter box 33 is successively by earth source heat pump 34, geothermal tube 32 is connected heat exchange box 26 delivery port with the second recovery tank 31, the water inlet of heat exchange box 26 is provided with control valve, the delivery port of heat exchange box 26 is provided with control valve.The heat energy gathered by solar water heater 24 is entered in heat exchange box 26 by water circulation and dispels the heat, and indoor are distributed heat under the effect of blower fan 28, thus reach to the function of heating indoor, first through the filtration of the first filter box 25 before water circulation enters heat exchange box 26, to remove the impurity in recirculated water, thus avoid heat exchange box 26 because of long-time accumulated impurities damage equipment; The heat energy gathered by geothermal tube 32 is entered in heat exchange box 26 by water circulation and dispels the heat, and first carries out removal of impurities, thus the carrying out smoothly of assurance device.

Claims (5)

1. the air-conditioner of one kind of multiple energy complementations, comprise wind-driven generator, photovoltaic electroplax, transformer, compressor and heat-collecting box, it is characterized in that, described wind-driven generator is connected to the first controller and batteries by rectifier, described photovoltaic electroplax connects batteries and the first controller respectively, the 3rd gauge tap is connected with between described photovoltaic electroplax and batteries, the second gauge tap is connected with between described photovoltaic electroplax and the first controller, described first controller is by the first inverter connection transformer, described batteries is also connected with second controller in turn, second inverter and transformer, described transformer is also connected with the 4th gauge tap, described transformer is connected compressor respectively by the 5th gauge tap with the 6th gauge tap, described transformer is also connected with electric heater by the 7th gauge tap, cross valve is connected with between the exhaust outlet of described compressor and gas returning port, the exhaust outlet of compressor connects the exhaust port of cross valve, the gas returning port of compressor connects the suction port of cross valve, the condenser port of cross valve is connected with outdoor heat exchanger, the evaporimeter port of cross valve is connected with indoor heat exchanger, choke valve and fluid reservoir is connected with in turn between described outdoor heat exchanger and indoor heat exchanger, described electric heater is arranged in heat-collecting box, also heat exchange box is installed in described heat-collecting box, described heat-collecting box one end is provided with the blower fan of band filter screen, the water inlet of heat exchange box is connected to the first filter box and the second filter box, the water inlet of described first filter box passes through solar water heater successively, reflux pump is connected heat exchange box delivery port with the first recovery tank, the water inlet of described second filter box passes through earth source heat pump successively, geothermal tube is connected heat exchange box delivery port with the second recovery tank.

2. the air-conditioner of various energy resources complementation according to claim 1, is characterized in that, is also connected with the first gauge tap between described rectifier and batteries, and described 3rd gauge tap is connected on the first controller.

3. the air-conditioner of various energy resources complementation according to claim 2, is characterized in that, described 4th gauge tap is also connected on the first controller, and described 4th gauge tap connects 220V civil power.

4. the air-conditioner of various energy resources complementation according to claim 3, is characterized in that, described 5th gauge tap, the 6th gauge tap and the 7th gauge tap are all connected on the first controller.

5. the air-conditioner of various energy resources complementation according to claim 4, is characterized in that, the water inlet of described heat exchange box is provided with control valve, and the delivery port of described heat exchange box is provided with control valve.