KR20100002096U - Solar battrery board an angle adjust equipment - Google Patents

Abstract

The present invention relates to a solar panel angle control device, its main purpose is to maintain the solar panel surface perpendicular to the sun to increase the solar collection efficiency, and to apply the load vertically to the structure supporting the solar panel strength To reinforce.

Solar panel angle control device of the present invention for achieving this purpose;

A first hinge bracket installed under the support frame having a plurality of solar panels disposed on an upper surface thereof;

The worm gear and the worm wheel, which are gear-coupled with the gear of the motor front end, are rotated by the housing in which the first hinge bracket and the screw hinged at the upper end are arranged in the vertical direction, and the motor rotational force provided at one side of the housing. A linear motion device for moving the worm wheel and the screw screwed up and down;

A second hinge bracket is formed symmetrically on both ends of the linear motion device main body, and a third hinge bracket hinged by hinge pins on both sides of the second hinge bracket.

Accordingly, there is an advantage in that the solar panel is maintained perpendicular to the sun to increase the solar collection efficiency, and the load is applied to the structure supporting the solar panel vertically to reinforce the strength.

Solar panel, angle adjuster

Description

SOLAR BATTRERY BOARD AN ANGLE ADJUST EQUIPMENT}

The present invention relates to a solar panel, and more specifically, the angle of the solar panel of the photovoltaic system can be easily adjusted according to the movement of the sun to maximize solar collection efficiency and at the same time the load of the solar panel vertically It relates to an angle adjusting device of a solar panel to extend the life.

In general, a solar battery is a photovoltaic cell that converts solar energy into electrical energy, and its application fields include electric clocks, radios, unmanned light towers, unmanned repeaters, buoy lights, satellites, and rockets. It is used. In addition, solar heating houses, fog warning lights that alert drivers when a fog is on the road, and aviation obstacle lights installed in structures such as transmission towers are also used as solar cell applications.

The solar cell used in this field of application is to connect the cells (Cell, 1 solar cell) and cells in series and as many times as necessary in order to make solar panels, and then to make these solar panels in series and in parallel. Use by connecting.

On the other hand, such solar cells can use the power generated directly during the day when it can receive sunlight, but since the power is not produced at night, to obtain power continuously, configure a circuit and charge the battery once in the day. Must be placed and used. Typical solar cell structures are as follows.

1 is a perspective view showing a foot control device (AC) of a conventional solar panel, the contents are as follows.

As shown in the drawing, the conventional solar panel angle adjusting device AC (hereinafter, referred to as "apparatus") is provided with a supporting frame SF on the lower side of a plurality of solar panels not shown, and the supporting frame SF The rotating shaft RS is disposed in the longitudinal center horizontal direction of the cross section.

A plurality of hinge brackets (HB) are arranged in the longitudinal direction of the rotation shaft (RS), a guide (not shown) to smoothly rotate the rotation shaft (RS) to the inside of the hinge bracket (HB). Is placed.

In the hinge bracket (HB) at least one fixing bolt (BT) is disposed to prevent the flow of the support frame (SF) is completed in a certain angle in the following operation to maintain the angle of the rotation is completed.

In addition, the support bracket (SP) is fixed to the bottom surface in the lower vertical direction of the hinge bracket (HB) is formed to support the support frame (SF) on which the plurality of solar panels (SC) are arranged.

On the other hand, the end of the rotation shaft (RS) is axially coupled with the rotating device (RE) provided with a handle (HD) in one side, the reduction gear (not shown) is disposed inside the rotating device (RE).

Subsequently, the operation will be described as shown.

First, since the handle HD is disposed at one side of the rotating device RE, the reduction gear (not shown) inside the rotating device RE rotates as the handle HD is rotated to one side or the other side. The rotating shaft RS, which is axially coupled with the reduction gear, rotates slowly.

At this time, when the position is perpendicular to the position of the sun, the rotation is stopped, by tightening the fixing bolt (BT) installed in each hinge bracket (HB) to prevent the flow and the angle adjustment is completed.

However, the conventional solar panel angle adjusting device as described above;

Rotating shafts arranged in the horizontal direction of the longitudinal center of the support frame, hinge brackets hinged to the pivot shafts, and supporting frames on which the solar panels are installed are always tilted in the inclined direction ("θ" mark), so that the solar panels are installed. There was a problem that accidents that fall on one side occur frequently.

In addition, as described above, since the support shaft is disposed in an inclined state, the rotation shaft is deformed in one direction, and thus, the rotation is not easy.

In addition, the configuration of the support for supporting the solar panel and the support frame, the rotating shaft has a complex construction problem.

In addition, in the case of the guide provided on the support to smooth the rotation of the rotating shaft, because it is easily worn, there was a problem that maintenance is not easy.

In addition, by adjusting the angle of the solar panel by man rotates the handle provided on one side of the rotating device, there was a problem that the user complains of inconvenience.

In addition, since the angle adjustment by the attraction force is made as described above, there is a problem that the solar collection effect is inferior when the solar panel is not perpendicular to the sun.

The present invention is devised to solve the conventional problems as described above, the object of the present invention is to make it easy to adjust the angle of the solar panel according to the movement of the sun so that the angle of incidence of the solar light and the solar panel is at right angles This is to maximize the solar collection efficiency.

In addition, another object of the present invention is to provide an angle adjusting device of the solar panel to easily adjust the angle of the solar panel.

In addition, another object of the present invention is to make the load of the solar panel perpendicular to the angle adjusting device during angle adjustment, thereby preventing the failure cause of the angle adjusting device to prolong the life of the angle adjusting device, thereby maintaining the maintenance cost of the angle adjusting device. To save.

The present invention for achieving this purpose, a support frame, a plurality of solar panels installed on one side of the support frame, and the support frame is installed on the lower side of the support frame, the solar panel is installed so as to increase the efficiency of solar collection It relates to a solar panel angle adjusting device to rotate a certain angle,

The angle control device;

A first hinge bracket installed on at least one lower side of the support frame having a plurality of solar panels disposed on an upper surface thereof;

The worm gear and the worm wheel, which are gear-coupled with the gear of the motor front end, are rotated by the housing in which the first hinge bracket and the screw hinged at the upper end are arranged in the vertical direction, and the motor rotational force provided at one side of the housing. A linear motion device for moving the worm wheel and the screw screwed up and down;

Second hinge brackets formed symmetrically on both lower sides of the linear motion device housing;

It includes a third hinge bracket hinged by hinge pins on both sides of the second hinge bracket.

The angle of the solar panel can be easily adjusted according to the movement of the sun so that the angle of incidence of the solar light and the angle of the solar panel are perpendicular to each other to maximize solar collection efficiency.

In addition, since the load of the solar panel acts perpendicular to the angle adjusting device during angle adjustment, the cause of the failure of the angle adjusting device is prevented at the source to extend the life and reduce the maintenance cost.

In addition, the hinge bracket is formed integrally with the angle adjusting device, thereby reducing manufacturing costs and providing a wide range of dedicated apparatus for angle control of the solar panel, which is easy to maintain.

2, the angle adjusting device 1 (hereinafter, referred to as "control device") of the solar panel according to the present invention is the first hinge bracket 100 and the linear motion device 200 and the second, It is roughly classified into third hinge brackets 300 and 400. (Hereinafter, since the technical structure of the support frame constituting the conventional configuration is the same, a description thereof will be omitted.)

The first hinge bracket 100 is installed in parallel to the lower side of the support frame 10 is provided with a plurality of solar cells (Solar Cell) not shown in the upper surface, and the top of the screw 270 of the linear motion device 200 to be described later It is hinged by the hinge pin 180.

The linear motion device 200 is roughly divided into a housing 201, a motor 210, a worm gear 230, a worm wheel 250, and a screw 270.

The housing 201 has an external shape as shown in the drawing, and a worm gear 230 and a worm wheel 250 are installed inside the motor 201.

The second hinge bracket 300 is integrally formed at both sides of the lower portion of the housing 201 of the linear motion device 200 as described above so as to be hinged with the third hinge bracket 400 to be described later.

The third hinge bracket 400 includes a mounting part 410 and a hinge coupling part 430.

The mounting portion 410 is formed in a horizontal direction, and as shown, a bolt hole 411 is formed to fix the bolt to the base (BS).

 One end of the mounting portion 410, the hinge coupling portion 430 is formed integrally in the vertical direction.

The hinge coupler 430 is hinged by the second hinge bracket 300 and the hinge pin 180 which are integrally formed at both lower sides of the housing 201, and thus, the solar panel 20 in the following operation. According to the inclination of the linear motion device 200 according to the present invention was to be arranged in a direction perpendicular to the support frame 10 is a plurality of the above-described solar panel (not shown).

Subsequently, with reference to Figures 2 and 3 will be described the operation and effect of the solar panel angle control device 1 according to the present invention.

First, by pressing a switch (not shown) to be perpendicular to the position of the sun to operate the linear motion device 200 according to the present invention.

Accordingly, the worm wheel 250 is screwed with the screw 270 is linearly moved upwards or downwards to form an inclination such that the surface of the solar panel 20 is located perpendicular to the sun.

At this time, the linear movement device 200 is also rotated by one side by a third hinge bracket 400 hinged to the second hinge bracket 300 formed integrally with the housing 201, so that the solar panel 20 As the load acts in the vertical direction of the angle adjusting device 1 according to the present invention, the life of the angle adjusting device is almost semi-permanently extended by preventing the screw 270 from bending or buckling.

In addition, the second hinge bracket 300 is integrally formed in the housing 201 of the linear motion device 200 according to the present invention, thereby widely supplying a linear motion device 200 exclusively for angle adjustment of the solar panel, which greatly reduces manufacturing costs. It was.

Figure 4 is a perspective view showing another embodiment of the solar panel angle adjustment device 1 according to the present invention. (Hereinafter, the configuration other than the first and second protective cover 280, 290 will be described in the above-described embodiment Since the configuration is the same, the description is omitted.)

As shown, the linear motion device according to the present invention further includes a first protective cover 280 and the second protective cover 290.

The first protective cover 280 is a rubber material and is disposed in an accordion shape on the upper outer side of the screw 270.

The first protective cover 280 is commonly referred to as a field term called a bellows cover. The first protective cover 280 may be elongated in the form of a spring according to the linear movement of the screw 270, or shortly contracted to prevent the screw 270 from being contaminated with foreign matter. It is.

The second protective cover 290 is provided with a flange 291 on the upper end of the pipe, bolted to the tab (not shown) formed on the lower side of the housing 201 of the linear motion device 200, the lower side of the screw 270 To protect.

As such, the hinge pin 180 is integrally formed at the upper end of the second protective cover 290 so as to be hinged with the third hinge bracket 400.

In addition, as shown in Figure 5 is another embodiment of the solar panel angle adjusting device 1 of the present invention, the second hinge bracket 300 is integrally formed at the bottom of the second protective cover 290, the hinge pin ( 180 is to be hinged to the third hinge bracket 400 by.

Accordingly, as shown in Figure 6, the angle of the solar panel 20 is easy to adjust, even if the inclination is formed at any angle, the load of the support frame 10 in which a large number of solar panels 20 are arranged in the present invention According to the angle adjusting device (1) acts only in the vertical direction, the life of the angle adjusting device (1) is extended and at the same time easy to maintain.

In addition, it is possible to easily adjust the angle of the solar panel 20 according to the movement of the sun to maximize the solar collection efficiency by making the angle of incidence of the solar light and the angle of the solar panel 20 right angle.

In addition, the hinge bracket is formed integrally with the angle adjusting device to reduce manufacturing costs and at the same time provide a wide range of dedicated apparatus for angle adjustment of the solar panel.

The present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains may be easily modified without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing an angle adjusting device of a conventional solar panel,

Figure 2 is a perspective view showing an angle adjusting device of the solar panel according to the present invention,

Figure 3 is a side view showing the action of the angle adjusting device of the solar panel according to the present invention,

Figure 4 is a perspective view showing another embodiment of the angle adjusting device of the solar panel according to the present invention,

5 is a perspective view showing another embodiment of the angle adjusting device of the solar panel according to the present invention,

Figure 6 is a side view showing the action of the angle adjusting device of the solar panel according to another embodiment of the present invention.

Claims (3)

Solar panel angle adjusting device for rotating the support frame, a plurality of solar panels installed on one side of the support frame, and a support frame provided with the solar panel is installed at a lower side of the support frame to increase the solar collection efficiency, To The angle control device; A first hinge bracket installed on at least one lower side of the support frame having a plurality of solar panels disposed on an upper surface thereof; The worm gear and the worm wheel, which are gear-coupled with the gear of the motor front end, are rotated by the housing in which the first hinge bracket and the screw hinged at the upper end are arranged in the vertical direction, and the motor rotational force provided at one side of the housing. A linear motion device for moving the worm wheel and the screw screwed up and down; Second hinge brackets formed symmetrically on both lower sides of the linear motion device housing; An angle adjusting device of a solar panel comprising a third hinge bracket hinged by hinge pins on both sides of the second hinge bracket. The method of claim 1, The linear motion device includes a first protective cover of rubber material disposed in an accordion shape on the upper outside of the screw; The angle adjusting device of the solar panel further comprises a second protective cover disposed in the vertical direction on the lower outer side of the first protective cover. Solar panel angle adjusting device for rotating the support frame, a plurality of solar panels installed on one side of the support frame, and a support frame provided with the solar panel is installed at a lower side of the support frame to increase the solar collection efficiency, To The angle control device; A first hinge bracket installed on at least one lower side of the support frame having a plurality of solar panels disposed on an upper surface thereof; The worm gear and the worm wheel, which are gear-coupled with the gear of the motor front end, are rotated by the housing in which the first hinge bracket and the screw hinged at the upper end are arranged in the vertical direction, and the motor rotational force provided at one side of the housing. A linear motion device for moving the worm wheel and the screw screwed up and down; Hinge pins integrally formed on both sides of an upper portion of the second protective cover of the linear motion device; And a third hinge bracket hingedly coupled with the hinge pin.

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