CN105656102A - New-energy charging station with complementation of wind energy, air energy, and solar energy - Google Patents

Abstract

The invention, which belongs to the technical field of new energy utilization, relates to a new-energy charging station with complementation of wind energy, air energy, and solar energy. The new-energy charging station comprises charging piles, a photovoltaic assembly, an air compressor set, a thermoelectric conversion set, a wind-power conversion set, a wind-heat-light complementary controller, and a storage battery. A photovoltaic input terminal of the wind-heat-light complementary controller is connected with an output terminal of the photovoltaic assembly; a pneumoelectri input terminal of the wind-heat-light complementary controller is connected with the thermoelectric conversion set and the wind-power conversion set; and the thermoelectric conversion set and the air compressor set are connected. A charging and discharging control terminal of the wind-heat-light complementary controller is connected with the storage battery. A load output terminal of the wind-heat-light complementary controller is connected with power supply terminals of the charging piles by s direct-current inverter. The storage battery and the charging piles are connected electrically. Compared with a charging station with single utilization of air energy or solar energy in the prior art, the provided charging station utilizes three kinds of renewable energy sources comprehensively, so that the charging speed is increased and steady operation of the charging station is guaranteed.

Description

Wind energy, air can with the new forms of energy charging station of sun power complementation

Technical field

The present invention relates to technical field of new energy utilization, specifically, be wind energy, air can with the new forms of energy charging station of sun power complementation.

Background technology

Along with the growth of minimizing and the price day by day of fossil oil, the new forms of energy such as sunlight, wind, water, air are utilized to become the new direction of industrial development. Known new forms of energy charging station has: title is " a kind of power truck wind light mutual complementing charging station ", and application number is: 201020103548.6; Title is " new forms of energy air energy charging station ", application number: 201220533480.4. Wind light mutual complementing charging station achieves wind energy and the electric energy of the big renewable resources conversion of sun power two, but this technology is limited to the sufficient environment of scene and region, can not realize city and region charge function. New forms of energy air energy charging station can realize charging aerating integrated function, but needs a large amount of compressor unit, and floor space is big.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, it is provided that wind energy, air can with the new forms of energy charging station of sun power complementation.

For achieving the above object, the present invention provides following technical scheme:

The present invention relates to wind energy, wind energy, air can with the new forms of energy charging station of sun power complementation, belong to technical field of new energy utilization. Comprise charging pile, photovoltaic module, air compressor unit, thermoelectric conversion unit, wind-powered electricity generation conversion unit, wind-heat light complementary controller, store battery. The light volt input terminus of the complementary controller of described wind-heat light is connected with the output terminal of photovoltaic module. The gas electrical input of the complementary controller of described wind-heat light is connected with thermoelectric conversion unit and wind-powered electricity generation transforming agent group, and described thermoelectric conversion unit is connected with air compressor unit. The charge and discharge control end of the complementary controller of described wind-heat light is connected with store battery. The load output terminal of the complementary controller of described wind-heat light is through being connected with the power supply end of charging pile with direct-flow inverter. Described store battery realizes being electrically connected with charging pile.

Compared with prior art, the positively effect of the present invention is:

Wind energy provided by the invention, wind energy, air can with the new forms of energy charging station of sun power complementation, make full use of the sun power of clean energy, wind energy and air energy, avoid single utilization sun power or the wind energy can to the dependence problem in space to the dependence of weather or single utilization air, three big new forms of energy are efficiently utilized to replace Nonrenewable resources, improve charge velocities, ensure that charging station operates stably.

Accompanying drawing explanation

Fig. 1 be wind energy, air can with the principle of work figure of the new forms of energy charging station of sun power complementation;

Fig. 2 be wind energy, air can with the appearance assumption diagram of the new forms of energy charging station of sun power complementation.

Mark in accompanying drawing 1 is respectively: 1. thermoelectric conversion unit; 2. photovoltaic module; 3. direct-flow inverter; 4. the complementary controller of wind-heat light; 5. store battery; 6. air compressor unit; 7. charging pile; 8. city's electricity power supply; 9. windmill; 10. wind-powered electricity generation transforms unit.

Embodiment

In order to the present invention is realized technique means, character of innovation, reach object and effect is easy to understand, below in conjunction with concrete diagram, set forth the present invention further.

As shown in Figure 1, 2, the present invention relates to wind energy, wind energy, air can with the new forms of energy charging station of sun power complementation, belong to technical field of new energy utilization. Comprise charging pile 7, photovoltaic module 2, air compressor unit 6, thermoelectric conversion unit 1, wind-powered electricity generation conversion unit 10, wind-heat light complementary controller 4, store battery 5. The light volt input terminus of the complementary controller 4 of described wind-heat light is connected with the output terminal of photovoltaic module 2. The gas electrical input of the complementary controller 4 of described wind-heat light transforms unit 10 with thermoelectric conversion unit 1 and wind-powered electricity generation and is connected, and described thermoelectric conversion unit 1 is connected with air compressor unit 6. The charge and discharge control end of the complementary controller 4 of described wind-heat light is connected with store battery 5. The load output terminal of the complementary controller 4 of described wind-heat light is through being connected with the power supply end of charging pile 7 with direct-flow inverter. Described store battery 5 realizes being electrically connected with charging pile 7.

Specific embodiment of the invention process is as follows:

When daytime, solar energy resources relatively enriched, generate electricity based on photovoltaic module 2, thermoelectric conversion unit 1 generating be auxiliary, night or overcast and rainy time, generating electricity based on thermoelectric conversion unit 1, the electric energy that photovoltaic module 2 and thermoelectric conversion unit 1 produce is input to the complementary controller 4 of thermoelectricity respectively. Wind-powered electricity generation transforms unit 10, no matter at daytime, night or overcast and rainy all as auxiliary generating plant.

When charging pile 7 has a load (when charging), the electric energy that photovoltaic module 2 and thermoelectric conversion unit 1 are produced by the complementary controller 4 of wind-heat light by directly transporting to the charge port of charging pile 7 after direct-flow inverter 3, for load is directly charged.

When charging pile 7 is unloaded, when uncharged (namely), the power storage that photovoltaic module 2 and thermoelectric conversion unit 1 are produced by wind-heat light complementation controller 4 is in store battery 5.

When the electric energy deficiency that photovoltaic module 2, wind-powered electricity generation conversion unit 10 and thermoelectric conversion unit 1 produce thinks that load is fully charged, the electric energy of accumulators store is utilized to continue as load charging, if the electric energy of accumulators store also exhausts, then city's electricity power supply can be utilized to charge for load.

To those skilled in the art, it is clear that the invention is not restricted to the details of above-mentioned exemplary embodiment, and when not deviating from spirit or the essential characteristic of the present invention, it is possible to realize the present invention in other specific forms. Therefore, no matter from which point, embodiment all should be regarded as exemplary, and right and wrong are restrictive, the scope of the present invention is limited by claims instead of above-mentioned explanation, it is intended that all changes in the implication of the equivalent important document dropping on claim and scope are included in the present invention, it should not any Reference numeral in claim to be considered as the claim involved by limiting.

Claims (1)

1. wind energy, wind energy, air can with the new forms of energy charging station of sun power complementation, belong to technical field of new energy utilization.It is characterized in that: comprise charging pile, photovoltaic module, air compressor unit, thermoelectric conversion unit, wind-powered electricity generation conversion unit, wind-heat light complementary controller, store battery. The light volt input terminus of the complementary controller of described wind-heat light is connected with the output terminal of photovoltaic module. The gas electrical input of the complementary controller of described wind-heat light is connected with thermoelectric conversion unit and wind-powered electricity generation transforming agent group, and described thermoelectric conversion unit is connected with air compressor unit. The charge and discharge control end of the complementary controller of described wind-heat light is connected with store battery. The load output terminal of the complementary controller of described wind-heat light is through being connected with the power supply end of charging pile with direct-flow inverter. Described store battery realizes being electrically connected with charging pile.