KR102008569B1 - Solar power generation apparatus - Google Patents

Abstract

According to the present invention, there is provided a solar cell apparatus including a flat panel solar panel unit including a solar cell thereon; A rotation support unit rotatably coupled to the solar panel unit and supporting the solar panel unit from the ground; A weight portion formed at one end of the solar panel portion and having a predetermined weight; A wire connection part provided at the other end of the solar panel part and having one end of a wire connected thereto; A wire guide part provided on a lower surface of the wire connection part to change a connection direction of the wire; And a wire winch part connected to the other end of the wire to pull or unwind the wire.

Description

SOLAR POWER GENERATION APPARATUS

The present invention relates to a photovoltaic device, and more particularly to a photovoltaic device that can adjust the inclination angle according to the change in the altitude of the sun.

Recently, the importance of alternative energy is emerging due to depletion of petroleum energy and various energy, rising production cost, global warming, and environmental pollution, and interest and investment in solar energy with various advantages as one of renewable energy It is increasing.

In general, photovoltaic power generation refers to spreading horizontally and vertically arranged plate light collecting panels in a predetermined space and condensing sunlight incident thereto to obtain electrical energy. Such a photovoltaic device is typically a solar cell panel that connects the solar panels in series and parallel to receive the necessary power, a storage battery that stores the collected power, and a power regulator for controlling the power and to convert into a cross flow. An inverter or the like. Photovoltaic power generation has the advantages of using the infinite energy of the sun, no pollution, only generating electricity where it is needed, and being easy to maintain, while the power production depends on the amount of sunlight, There are disadvantages such as limited installation place, high initial investment cost and high generation cost.

On the other hand, photovoltaic power generation is a power generation method that directly converts the light energy from the sun into electrical energy, the photovoltaic power generation equipment is installed on a cradle fixed at a certain angle to increase the power generation efficiency according to the angle of the sun.

However, because the altitude of the sun is changed according to the latitude, season, and time of each region where the photovoltaic facilities are installed, the stationary photovoltaic facilities cannot generate electric energy with high efficiency. Therefore, there is a need for low cost installation, operation, and maintenance costs for adjusting the tilt angle to increase solar power efficiency according to the change of the altitude of the sun.

The present invention is to solve the above problems and an object of the present invention is to provide a photovoltaic device that can adjust the inclination angle of the solar panel unit for tracking the altitude of the sun at a lower cost and more efficiently.

In order to achieve the above object, a photovoltaic device according to an embodiment of the present invention, a solar cell panel portion having a flat plate having a solar cell on the upper surface; A rotation support unit rotatably coupled to the solar panel unit and supporting the solar panel unit from the ground; A weight portion formed at one end of the solar panel portion and having a predetermined weight; A wire connection part formed at the other end of the solar panel part and having one end of a wire connected thereto; A wire guide part provided on a lower surface of the wire connection part to change a connection direction of the wire; And a wire winch portion connected to the other end of the wire to pull or unwind the wire.

In addition, the solar cell apparatus according to an embodiment of the present invention is characterized in that the wire connecting portion comprises an elastic member having one end fixed to the solar panel and the other end connected to the wire.

In addition, the photovoltaic device according to an embodiment of the present invention is characterized in that the distance from the reference line to which the solar panel is rotated from one end of the solar panel portion and the other end of the solar panel portion is different from each other.

On the other hand, a photovoltaic device according to another embodiment of the present invention includes a plurality of solar panel unit of the flat form having a solar cell on the upper surface; A plurality of rotation support parts rotatably coupled to each of the plurality of solar panel parts and supporting each of the solar panel parts from the ground; A plurality of weight parts formed at one end of each solar panel part and having a predetermined weight; A plurality of wire connection parts formed at the other ends of the respective solar panel parts and connected to one end of each of the plurality of wires; A plurality of wire guide parts provided on grounds below each of the plurality of wire connection parts to change a connection direction of each of the plurality of wires; And a common wire winch part which is connected to each other end of each of the plurality of wires to pull or unwind the plurality of wires.

In addition, the solar cell apparatus according to another embodiment of the present invention is characterized in that the wire connecting portion includes an elastic member having one end fixed to the solar panel and the other end connected to the wire.

In addition, the photovoltaic device according to another embodiment of the present invention is characterized in that the distance from the reference line to which the solar panel is rotated from one end of the solar panel portion and the other end of the solar panel portion is different from each other.
In addition, the solar cell apparatus according to another embodiment of the present invention includes a solar panel unit of the flat form having a solar cell on the upper surface; A rotation support unit rotatably coupled to the solar panel unit and supporting the solar panel unit from the ground; A weight portion formed at one end of the solar panel portion and having a predetermined weight; One end is fixed to the other end of the solar panel portion, the other end is a wire connecting portion including an elastic member connected to one end of the wire; A wire guide part provided on a lower surface of the wire connection part to change a connection direction of the wire; And a wire winch part connected to the other end of the wire to bind the wire to the shaft to pull or unwind by a rotational movement of the shaft, and the distance from the reference line at which the solar panel is rotated to one end of the solar panel part and the solar panel part. Characterized in that the distance to the other end is different.
In addition, the solar cell apparatus according to another embodiment of the present invention includes a plurality of solar panel unit of the flat form having a solar cell on the upper surface; A plurality of rotation support parts rotatably coupled to each of the plurality of solar panel parts and supporting each of the solar panel parts from the ground; A plurality of weight parts formed at one end of each solar panel part and having a predetermined weight; A plurality of wire connection parts including an elastic member having one end fixed to the other end of each of the solar panel parts and the other end connected to each one end of each of the plurality of wires; A plurality of wire guide parts provided on grounds below each of the plurality of wire connection parts to change a connection direction of each of the plurality of wires; And a common wire winch part which is connected to each other end of each of the plurality of wires, and which can tie or pull the wires to different lengths by the rotational movement of the shafts, respectively, from the reference line to which the solar panel parts are rotated. A distance to one end of the solar panel unit and a distance to the other end of the solar panel unit are different.

The solar cell apparatus according to the present invention by the means as described above may be provided with a tilt angle adjusting means having a low installation cost, operating cost, and repair cost by using a simple structure using a wire, in each photovoltaic device The most efficient way of adjusting the tilt angle can be applied separately.

In addition, the photovoltaic device according to the present invention, by adjusting the inclination angle by using a flexible and flexible wire, it is possible to change the direction of the force in a variety of ways to adjust the inclination angle of the solar panel portion greatly in the installation space You can increase the convenience of installation regardless.

In addition, the photovoltaic device according to the present invention may adjust the inclination angle of the plurality of solar panel units at the same time by using a single wire winch, but also to adjust the individual inclination angles suitable for each solar panel unit.

1 is a perspective view of a photovoltaic device according to an embodiment of the present invention.
Figure 2 is a side view of a photovoltaic device according to an embodiment of the present invention.
3 is a perspective view of a photovoltaic device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail in the three-dimensional photovoltaic device according to a preferred embodiment of the present invention.

The following examples are only presented to understand the content of the present invention, and those skilled in the art will be capable of many modifications within the technical spirit of the present invention. Therefore, the scope of the present invention should not be construed as limited to these examples. In addition, when a part is 'connected' to another part, it can include not only 'directly connected' but also 'indirectly' with other components in between. have. In addition, "including" or "include" any component means that other components other than the corresponding component may further include other components unless specifically stated otherwise.

1 is a perspective view of a photovoltaic device according to an embodiment of the present invention.

Figure 2 is a side view of a photovoltaic device according to an embodiment of the present invention.

1 and 2, the solar cell apparatus according to an embodiment of the present invention, the solar panel unit 100, the rotation support unit 200, the weight portion 300, the wire connection unit 400, the wire guide unit ( 500, and a wire winch unit 600.

The solar panel unit 100 has a flat plate shape having a solar cell (not shown) that receives the sunlight on the upper surface and converts it into electrical energy. In general, since the solar cell has a rectangular shape, it is preferable that the shape of the solar panel part 100 also has a rectangular shape.

One end of the rotation support part 200 is rotatably coupled to the solar panel part 100 and the other end is fixed to the ground to support the solar panel part 100 from the ground. Since the solar panel 100 is rotatably coupled to one end of the rotation support part 200, the inclination angle inclined along the straight line, that is, the rotation reference line 150, as a reference of rotation at one end of the rotation support part 200. The degree can be changed. Here, the rotation reference line 150 may be made on an extension line of a line connecting the solar panel unit 100 and the rotation support unit 200.

Meanwhile, the distance A from the rotational reference line 150 to one end of the solar panel unit 100 and the distance B from the other end of the solar panel unit 100 may be different from each other. Even when the same inclination angle is changed due to the difference between the two distances A and B, the distance at which one end of the solar panel unit 100 moves and the distance at which the other end of the solar panel unit 100 moves may vary. In other words, even if one end of the solar panel unit 100 moves at the same distance, the inclination angle changed according to the difference between the two distances A and B may vary. Detailed functions on this will be described later in detail with other components.

The weight portion 300 is formed at one end of the solar panel unit 100 and has a predetermined weight. By the predetermined weight of the weight portion 300, the solar panel 100 is always a force that tilts the inclination angle toward one end.

The wire connector 400 is formed at the other end of the solar panel unit 100 and one end of the wire 10 is connected. The wire connection unit 400 connects the wire 10 at the other end of the solar panel unit 100, to a force pulled by the wire 10 and a predetermined weight of the weight portion 300 described above. When the tilted force is balanced, the solar panel unit 100 maintains a constant inclination angle.

Meanwhile, the wire connector 400 may include an elastic member 450 having one end fixed to the solar panel unit 100 and the other end connected to the wire 10. The elastic member 450 preferably has a spring structure and buffers the stress applied to the wire 10 as the inclination angle of the solar panel unit 100 is changed by wind or external force. That is, when the elastic member 450 is not present, an external force applied to the solar panel unit 100 directly stresses the wire 10, so that the wire 10 is broken or the wire 10 is broken. It may damage the connected parts.

The wire guide part 500 is provided on the bottom surface of the wire connection part 400 and changes the connection direction of the wire 10. That is, the wire guide part 500 changes the direction in which the force acts when the wire 10 is pulled or released, the force of pulling or loosening the wire 10 by the wire guide part 500. By effectively transmitting to the solar panel unit 100 to change the inclination angle. Here, the wire 10 has a very high ductility and flexibility, unlike the other means, the direction of the force by the wire guide portion 500 can be changed very effectively and variously, largely in the installation space There is an advantage to increase the convenience of installation regardless.

The wire winch part 600 is connected to the other end of the wire 10 to substantially pull or loosen the wire 10. The wire winch unit 600 is usually tied to the shaft by the rotational movement of the shaft by the electric motor, while rotating or winding while rotating or pulling, the wire 10 can be pulled or released.

On the other hand, the photovoltaic device according to an embodiment of the present invention, when the wire winch 600 pulls or loosens the wire 10, the wire guide unit 500 is effectively connected to the wire 10. The impact force acts in a vertical downward direction at one side of the solar panel unit 10 connected to the wire connection unit 400 to change the inclination angle of the solar panel unit 10. Here, the force to which one side of the solar panel unit 10 is pulled down by the wire 10 is the force to which the other side of the solar panel unit 10 is pulled down by the weight of the weight part 300. In balance, the inclination angle of the solar panel unit 10 may be maintained at a predetermined angle.

In addition, as described above, the inclination angle that is changed even when the wire 10 is pulled the same length according to the position of the rotation reference line 150 formed in the solar panel unit 10 may vary. For example, compared with the case where the distance A to one end of the solar panel unit 100 and the distance B to the other end of the solar panel unit 100 are the same, the one end distance A is the same. If the shorter than the distance (B) to the other end, the inclination angle of the solar panel unit 10 can be changed even more severe even with a small pull of the wire (10).

3 is a perspective view of a photovoltaic device according to another embodiment of the present invention.

Referring to FIG. 3, a solar cell apparatus according to another embodiment of the present invention includes first and second solar panel units 1100 and 2100, first and second pivotal support units 1200 and 2200, and first and second weight units. 1300. 2300, first and second wire connection parts 1400 and 2400, first and second wire guide parts 1500 and 2500, and a common wire winch part 1600.

The photovoltaic device according to another embodiment of the present invention has the same name in the above-described embodiment, and the same components have the same content and the number of components is different. The description will be omitted, and only differences and components and operations will be described.

The common wire winch part 1600 may have the other end of the first wire 10 having one end connected to the first wire connection part 1400 formed at the other end of the first solar panel part 1100. The other end of the second wire 20 connected to the second wire 20, one end of which is connected to the second wire connection part 2400 formed at the other end of the second solar panel unit 2100 at the same time, is connected to the second wire guide part. Connected via 2500, the first and second wires 10 and 20 are pulled or released by the common wire winch unit 1600.

The common wire winch unit 1600 may simultaneously pull or loosen the first and second wires 10 and 20 and eventually change the inclination angles of the first and second solar panel units 1100 and 2100 at once.

In addition, when the first and second solar panel units 1100 and 2100 have different positions of the respective rotation reference lines formed while being connected to the first and second pivot support units 1200 and 2200, the common wire winch unit Even if the first and second wires 10 and 20 are pulled or unwound at the same length by the 1600, the inclination angles changed to the first and second solar panel units 1100 and 2100 may be adjusted differently. Therefore, the first and second wires 10 and 20 connected to the first and second solar panel parts 1100 and 2100, respectively, use the common wire winch part 1600 together, and the first and second solar panel parts Each of (1100, 2100) may be applied differently to the change of the inclination angle suitable for the most effective power generation efficiency.

As described above, the photovoltaic device according to the present invention may be provided with a tilt angle adjusting means having a low installation cost, an operation cost, and a repair cost by using a simple structure using a wire, and the most efficient tilt angle in each photovoltaic device. The adjustment method can be applied separately. In addition, the photovoltaic device according to the present invention, by adjusting the inclination angle by using a flexible and flexible wire, it is possible to change the direction of the force in a variety of ways to adjust the inclination angle of the solar panel portion greatly in the installation space You can increase the convenience of installation regardless. In addition, the photovoltaic device according to the present invention may adjust the inclination angle of the plurality of solar panel units at the same time by using a single wire winch, but also to adjust the individual inclination angles suitable for each solar panel unit.

The photovoltaic device according to the present invention described above has been described with reference to the accompanying drawings, but this is only an example, and those skilled in the art may various modifications and other equivalent embodiments therefrom. I will understand the point. Therefore, the true technical protection scope of the present invention should be defined only by the technical spirit of the appended claims.

100: solar panel portion 200: rotation support portion 300: weight weight
400: wire connection part 500: wire guide part 600: wire winch part

Claims (7)

A flat panel solar panel unit having a solar cell on an upper surface thereof;
A rotation support unit rotatably coupled to the solar panel unit and supporting the solar panel unit from the ground;
A weight portion formed at one end of the solar panel portion and having a predetermined weight;
One end is fixed to the other end of the solar panel portion, the other end is a wire connecting portion including an elastic member connected to one end of the wire;
A wire guide part provided on a lower surface of the wire connection part to change a connection direction of the wire; And
The other end of the wire is connected to tie the wire to the shaft comprises a wire winch to pull or loosen by the rotational movement of the shaft,
A distance from a reference line at which the solar panel unit is rotated to a one end of the solar panel unit and a distance from the other end of the solar panel unit is different from each other; delete delete A plurality of solar panel units having a flat plate having a solar cell on an upper surface thereof;
A plurality of rotation support parts rotatably coupled to each of the plurality of solar panel parts and supporting each of the solar panel parts from the ground;
A plurality of weight parts formed at one end of each solar panel part and having a predetermined weight;
A plurality of wire connection parts including an elastic member having one end fixed to the other end of each of the solar panel parts and the other end connected to each one end of each of the plurality of wires;
A plurality of wire guide parts provided on grounds below each of the plurality of wire connection parts to change a connection direction of each of the plurality of wires; And
Each other end of each of the plurality of wires is connected to each other and includes a common wire winch portion to tie the plurality of wires to the shaft can be pulled or released to different lengths by the rotational movement of the shaft,
And a distance from a reference line at which the solar panel unit is rotated to an end of the solar panel unit and a distance from the other end of the solar panel unit is different from each other. delete delete delete

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