CN201113476Y - Distributed wind and solar hybrid power generation system - Google Patents

Abstract

The utility model discloses a decentralized wind-solar hybrid power generation system, which comprises at least two wind-solar hybrid power generation devices and energy storage batteries electrically connected to each wind-solar hybrid power generation device. The support frame, the wind generator and the solar panel are installed on the support frame, and the wind generator and the solar panel are electrically connected; the wind generator and the solar panel input electric energy to the energy storage battery for charging and storage through wires. Compared with the prior art, the utility model adopts a plurality of wind-solar hybrid power generation devices composed of wind generators and solar panels, and charges and stores an energy storage battery at the same time, so that the power generation is not affected by the natural environment of the outside world. Influenced by various factors, it can still effectively guarantee the power supply demand of municipal facilities when some wind-solar hybrid power generation devices fail or stop working, and the surplus power can be stored by energy storage batteries for emergency use.

Description

Distributed wind and solar hybrid power generation system

technical field

The utility model relates to a power generation system for providing power for municipal facilities, in particular to a decentralized wind-solar complementary power generation system utilizing wind energy and solar energy to generate electricity.

Background technique

At present, most of the wind-solar hybrid power generation systems that provide power for municipal facilities connect a wind-driven generator and a solar panel to an energy storage battery, and the energy storage battery provides street lights and broadcasting systems for municipal facilities. Waiting for working power, this kind of wind-solar hybrid power generation system that only has a single wind turbine and a solar panel to charge and store the energy storage battery has the following disadvantages:

1. The power generated by this single wind-solar hybrid power generation device is greatly affected by the wind direction of the outside world and the intensity of the sun's irradiation, which affects the stability of the power supply provided by the energy storage battery to municipal facilities;

2. When this single wind-solar hybrid power generation device fails, the municipal facilities connected to it will be paralyzed or unable to work normally;

3. The power generated by this single wind-solar hybrid power generation device is extremely limited, and it is difficult to have surplus power for energy storage batteries for emergency use;

Therefore, there is an urgent need for a decentralized wind-solar hybrid power generation system that is not affected by external natural factors and can effectively guarantee the power supply demand of municipal facilities when some wind-solar hybrid power generation devices fail or stop working.

Utility model content

The purpose of this utility model is to provide a distributed wind-solar hybrid power generation that is not affected by external natural factors and can still effectively guarantee the power supply demand of municipal facilities when some wind-solar hybrid power generation devices fail or stop working. system.

In order to achieve the above purpose, the technical solution of the utility model is to provide a decentralized wind-wind hybrid power generation system, including at least two wind-wind hybrid power generation devices and energy storage batteries electrically connected to each wind-solar hybrid power generation device. The power generation device includes a wind generator, a solar panel and a support frame, and the wind generator and the solar panel are installed on the support frame, and the wind generator and the solar panel are electrically connected; The wind turbines and solar panels input electrical energy to the energy storage battery through wires to charge and store.

Compared with the prior art, the utility model adopts a wind-solar hybrid power generation device composed of a plurality of wind power generators and solar panels installed on the support frame, and simultaneously charges and stores an energy storage battery, so that the power generation It is not affected by external natural factors, and it can still effectively guarantee the power supply demand of municipal facilities when some wind-solar hybrid power generation devices fail or stop working, and the surplus power can be stored by energy storage batteries for emergency use .

Description of drawings

Fig. 1 is a schematic circuit diagram of the distributed wind-solar hybrid power generation system of the present invention.

Fig. 2 is a structural schematic diagram of a wind-solar hybrid power generation device of the distributed wind-solar hybrid power generation system of the present invention.

Fig. 3 is a frame layout diagram of the distributed wind-solar hybrid power generation system of the present invention.

Detailed ways

As shown in Figure 1, the working principle of the distributed wind-solar hybrid power generation system of the present invention is as follows: multiple wind-solar hybrid power generation devices simultaneously input the generated electric energy to the energy storage battery for charging and storage, and the above-mentioned energy storage battery then converts the stored electric energy available for the load. As shown in FIG. 2 , each of the above wind-solar hybrid power generation devices 1 includes a wind generator 10, a solar panel 11, and a support frame 12, and the wind generator 10 and the solar panel 11 are installed on the support frame 12. The wind power generator 10 is electrically connected to the solar panel 11;

As shown in Figure 3, in one embodiment of the distributed wind-solar hybrid power generation system of the present invention, three wind-solar hybrid power generation devices 1 are connected in parallel to the energy storage battery 2, and the wind-driven generators in the wind-solar hybrid power generation device 1 10 and the solar panel 11 are connected to the input terminal 20 of the energy storage battery 2 through wires, so that the wind power generator 10 and the solar panel 11 charge and store the generated electric energy to the energy storage battery 2, so that the energy storage battery 2 It is then electrically connected to the municipal facilities of the load through the output terminal 21 to provide electric energy for the municipal facilities to work.

Preferably, as shown in FIG. 3 , the orientations of the wind-solar hybrid power generation device 1 are different, that is, the orientations of the solar panels 11 are at a certain angle to each other, and the orientations of the wind generators 10 are also at a certain angle to each other, so that in the When the wind direction and the position of the sun change, the electric energy generated by the entire wind-solar hybrid power generation device 1 can be kept within a stable range without large fluctuations, thereby ensuring the stability of the output electric energy of the energy storage battery 2 .

The utility model distributed wind-solar hybrid power generation system adopts multiple wind-solar hybrid power generation devices 1 composed of wind generators 10 and solar panels 11, and charges and stores an energy storage battery 2 at the same time, which makes the utility model The new type of power generation is not affected by external natural factors, and it can still effectively guarantee the power supply demand of municipal facilities when some wind-solar hybrid power generation devices 1 fail or stop working, and the surplus power can be used by the energy storage battery 2 Store for emergency use.

What is disclosed above is only the preferred embodiment of the present utility model, and of course the scope of rights of the present utility model cannot be limited with this. Therefore, the equivalent changes made according to the patent scope of the utility model still belong to the scope covered by the utility model .

Claims (4)

1. A decentralized wind-solar hybrid power generation system, characterized in that it comprises: At least two wind-solar hybrid power generation devices, each wind-power hybrid power generation device includes a wind generator, a solar panel and a support frame, and the wind generator and the solar panel are installed on the support frame, and the wind generator and the solar cell Board electrical connection; The energy storage battery electrically connected to all the above-mentioned wind-solar hybrid power generation devices; the wind generator and solar panel in the wind-solar hybrid power generation device input electric energy to the energy storage battery through wires for charging and storage. 2. The distributed wind-solar hybrid power generation system according to claim 1, wherein the wind-solar hybrid power generation devices are connected in parallel to the energy storage battery. 3 . The decentralized wind-solar hybrid power generation system according to claim 1 , wherein the directions of the solar panels of the wind-solar hybrid power generation devices are at a certain angle to each other. 4 . 4 . The decentralized wind-solar hybrid power generation system according to claim 1 , wherein the orientations of the wind generators of each wind-solar hybrid power generation device are at a certain angle to each other.

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