KR102237779B1 - Rotation and Slope Control Equipment Of Sunlight Generation Module - Google Patents

Abstract

The present invention relates to a photovoltaic module angle adjustment device capable of maximizing the electric energy generation efficiency using solar energy by adjusting the vertical tilt angle according to the season and the rotation angle according to the solar movement direction of the photovoltaic module, wherein the configuration comprises: a tilt angle inducing means for inducing the tilt angle of the photovoltaic module at the top of the post; a tilt angle adjusting means for adjusting the tilt angle of the photovoltaic module by being connect-installed to the tilt angle inducing means thereof; a photovoltaic module rotating means for rotating the photovoltaic module by being connect-installed to the tilt angle adjusting means thereof; and a photovoltaic module connect-installed to the photovoltaic module rotating means thereof.

Description

Rotation and Slope Control Equipment Of Sunlight Generation Module}

The present invention relates to a device for adjusting rotation and inclination of a photovoltaic module to maximize electric energy generation efficiency using sunlight by adjusting the vertical tilt angle according to the season and the rotation angle according to the solar movement direction. About.

In order to effectively utilize solar energy, the azimuth and inclination angles of the solar cell array become important.

In general, it is desirable to set the azimuth angle toward the south where the amount of power generated by the solar cell is the maximum, and the angle of inclination to be the optimal annual inclination angle at which the amount of power generated by the solar cell is the maximum. In the case of installation, it is desirable to install it at the optimum angle of inclination throughout the year.

Recently, the construction of eco-friendly power generation facilities using solar power, wind power, and tidal power, which are clean energy sources that do not cause environmental pollution problems while replacing fossil fuels, is gradually increasing.

Among these power generation facilities, a photovoltaic power generation device that generates power by arraying a number of solar cells that convert sunlight into electrical energy can further increase the amount of power generated in a small scale that can generate enough power to generate hot water for daily use by one household. It is being installed on a large scale that allows for expansion.

However, the solar power generation device has a problem in that it does not improve the utilization efficiency of solar light in the case of a conventional fixed solar power generation device because the amount of power generation depends on the insolation time and the angle of incidence to the solar cell module.

Therefore, in recent years, in order to solve the above problems, a solar module angle adjusting device of Korean Patent Publication No. 10-2014-0070907 (2014.06.11.) of Patent Document 1 has been provided, and its configuration is as follows.

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In the solar module angle control device comprising a solar module,

A cradle for fixing the solar module;

A plurality of angle adjustment units coupled to the cradle and rotating 360 degrees in the x-axis and y-axis directions to adjust the angle of the solar module; And

It includes a support that is coupled to the angle adjustment unit to support the solar module and adjust the height in the z-axis direction.

In addition, there is provided a photovoltaic power generation system having a variable angle adjustment device of Korean Patent No. 10-2034782 (2019.10.15.) of Patent Document 2 as shown in FIG. 1, and its configuration is as follows.

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An angle that is installed between the support frame 3 to which the photovoltaic module (M) is coupled, and the support frame (2) that is hinged to support the support frame (3), and adjusts the angle of the photovoltaic module (M) In the solar power generation system with the adjustment device 40,

The angle adjustment device 40, a wire (W) having a length to the rear of the post frame (2) and connected to the traction unit (45);

A fixed pulley 41 for changing the direction of the force of the wire W connected by being fixed to the height of one side of the post frame 2;

A wire fixing member 42 to which an end of the wire W whose direction of force is changed by the fixing pulley 41 is fixed;

A moving bar 43, wherein the wire fixing member 42 is integrally fixed to the end and horizontally moving along the guide frame 43a fixed to the support frame 2 by an external force;

One side is connected by a first hinge pin (44a) to the end of the moving bar (43) passing through the guide frame (43a), and the other side is connected to the support frame (3) by a second hinge pin (44b). It consists of including a link bar (44).

Conventional Patent Document 1 and Patent Document 2 as described above are a technology for adjusting the vertical inclination angle of the photovoltaic module according to the season, not a technology for adjusting the rotation angle of the photovoltaic module according to the solar movement direction, the patent In addition to the techniques of Documents 1 and 2, there are provided techniques for adjusting the vertical inclination angle of various types of solar power modules, but there is a problem in that the rotation angle of the solar power module according to the solar movement direction cannot be adjusted.

Korean Patent Publication No. 10-2014-0070907 (2014.06.11.) Korean Patent Registration No. 10-2034782 (2019.10.15.)

The present invention was invented to solve the above problems, and its object is,

First, it is possible to adjust the inclination angle of the photovoltaic module according to the altitude of the sun,

Second, it is possible to adjust the rotation angle, that is, the azimuth angle of the photovoltaic module according to the solar movement direction,

Third, it is possible to adjust the vertical tilt angle of the solar power module according to the season and the rotation angle of the solar power module according to the solar movement direction at the same time. It is to provide a rotation and tilt adjustment device.

The configuration of the problem solving means of the photovoltaic module rotation and tilt adjustment device of the present invention for achieving the above object,

The support 120 is installed on the upper end of the post 110 fixedly installed on the ground, and an arc-shaped guide bar 130 is installed on the lower post of the support, and the vertical inclination angle of the photovoltaic module at one side of the support The inclination angle guiding means 100 of the photovoltaic module is installed so as to upwardly adjust the cylinder 140;

Both ends of the guide bar are fixedly installed with both sides of the lower fixing plate 210, an arc-shaped hole 220 is formed along the edge of the lower fixing plate, and the support and the fixing shaft 230 are formed at the lower central part. The inclination angle adjustment means 200 of the solar power generation module by installing the bracket 240 so as to be rotatable through the medium;

A shaft 320 of the power generating means 310 is fixedly installed on one side of the lower fixing plate, a rod 330 is installed on one side of the power generating means, and an upper fixing plate ( 340 is installed, and the upper fixing plate, the rod and the arc-shaped hole, the photovoltaic module rotating means 300 is installed by installing a connecting shaft 350;

A photovoltaic module 400 on the upper fixing plate to interlock with the upper fixing plate using a fixing bar 410; By installing the tilt angle guide means and the photovoltaic module rotation means is configured to make the vertical inclination and rotation of the photovoltaic module together.

The photovoltaic module angle control device of the present invention having the above configuration, as described in the above object, can adjust the inclination angle of the photovoltaic module according to the altitude of the sun, and the solar light according to the solar movement direction. The rotation angle of the power generation module, that is, the azimuth angle, can be adjusted, and the vertical inclination angle of the photovoltaic power generation module and the rotation angle of the photovoltaic power generation module according to the solar movement direction can be simultaneously adjusted, thereby maximizing the electric energy generation efficiency using solar power. There is an effect that can be done.

1 is a configuration diagram of a device for adjusting rotation and tilt of a conventional photovoltaic module,
Figure 2 is a perspective view of a photovoltaic module rotation and tilt adjustment device of the present invention,
Figure 3 is a side view of a photovoltaic module rotation and tilt adjustment device of the present invention,
Figure 4 is a perspective view of an excerpted tilt angle induction means of the present invention,
Figure 5 is a perspective view of an excerpted tilt angle adjustment means of the present invention,
Figure 6 is a perspective view of the photovoltaic module rotation means extract of the present invention.
7A and 7B are side views showing an example of adjusting the inclination of the photovoltaic module using the inclination angle adjusting means of the present invention;
8A and 8B are plan views showing an example of rotating a photovoltaic module using the photovoltaic module rotating means of the present invention.

The present invention relates to a device for adjusting rotation and inclination of a photovoltaic module to maximize electric energy generation efficiency using sunlight by adjusting the vertical tilt angle according to the season and the rotation angle according to the solar movement direction. As for this, an embodiment will be described with reference to the accompanying drawings as follows.

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In the photovoltaic module rotation and tilt adjustment device of the present invention, as shown in Figs. 2 to 6, a support 120 is installed on the upper end of the post 110 fixedly installed on the ground, and the support 120 is installed on the lower post of the support. An arc-shaped guide bar 130 is installed, and an inclination angle guiding means 100 of the solar power generation module is installed so as to upwardly the cylinder 140 for adjusting the vertical inclination angle of the solar power generation module at one side of the support;

Both ends of the guide bar are fixedly installed with both sides of the lower fixing plate 210, an arc-shaped hole 220 is formed along the edge of the lower fixing plate, and the support and the fixing shaft 230 are formed at the lower central part. The inclination angle adjustment means 200 of the solar power generation module by installing the bracket 240 so as to be rotatable through the medium;

A shaft 320 of the power generating means 310 is fixedly installed on one side of the lower fixing plate, a rod 330 is installed on one side of the power generating means, and an upper fixing plate ( 340 is installed, and the upper fixing plate, the rod and the arc-shaped hole, the photovoltaic module rotating means 300 is installed by installing a connecting shaft 350;

A photovoltaic module 400 on the upper fixing plate to interlock with the upper fixing plate using a fixing bar 410; By installing the tilt angle guide means and the photovoltaic module rotation means is configured to make the vertical inclination and rotation of the photovoltaic module together.

In the above configuration, the tilt angle induction means 100 supports the photovoltaic module 400, as shown in FIG. 4, and guides the photovoltaic module 400 up/down angle, that is, the inclination. A support 120 is installed on the upper end of the support 110 fixed to the ground, and an arc-shaped guide bar 130 is installed on the lower support 110 of the support 120 and one of the support 120 On the side, a cylinder 140 for adjusting the vertical inclination angle of the photovoltaic module 400 is installed.

The support 110 serves to support and support the tilt angle adjustment means 200, the photovoltaic module rotation means 300 and the photovoltaic module 400, and the support 120 is the support ( 110) At the top, the bracket 240 of the tilt angle adjusting means 200 and the fixed shaft 230 are connected and installed so as to be able to rotate up and down to serve as a medium for adjusting the vertical tilt angle of the solar power generation module 400. And, the arc-shaped guide bar 130 serves to guide the vertical inclination angle of the lower fixed plate 210 when the solar power module 400 is angle-adjusted, and the cylinder 140 is a photovoltaic module When 400 is angle-adjusted, it serves to push the lower fixing plate 210 upward or pull it downward.

In the configuration of the inclination angle guiding means 100 serving as the above, the configuration of one embodiment of the guide bar 130, a guide rail 131 is formed along the longitudinal direction of the guide bar 130 , A guide bracket 150 on which a guide pin 151 is installed is installed on the post 110 so that the angle change of the lower fixing plate 210 in a state in which the guide pin 151 is coupled to the guide rail 131 Accordingly, the guide pin 151 is formed to move along the guide rail 131 by an amount corresponding thereto.

In addition, in an exemplary configuration of the support body 120, a cylinder 140 is fixedly installed on one side of the support body 120, and an upper end of the cylinder 140 is a lower portion installed under the lower fixing plate 210. The bracket 211 and the connecting member 141 is rotatably installed.

However, the cylinder 140 may be installed by embedding a part of the lower portion of the cylinder 140 on one side of the support body 120 or installed on one side of the cylinder 140 so as to be integrated with the support body 120.

The tilt angle adjustment means 200 of the present invention is to adjust the vertical tilt angle of the photovoltaic module 400 described below, as shown in FIG. 5, and both ends of the guide bar 130 are lower fixed plates. It is fixedly installed on both sides of the lower fixing plate 210, and an arc-shaped hole 220 extending from one end to the other is formed at the edge of the lower fixing plate 210, and the support ( 120) and a bracket 240 that is rotatably installed via the fixed shaft 230 is installed.

The configuration of the lower fixing plate 210 in the configuration of the tilt angle adjusting means 200 is formed as a half-circular flat plate, and the guide at both ends of the lower half-circular flat lower fixing plate 210 A guide bar fixing member 212 connected to both front ends of the bar 130 is installed.

The shape of the lower fixing plate 210 is an embodiment of the present invention, and in addition, it can be formed in various ways such as a fan shape, and an arc-shaped hole 220 is essentially formed in the lower fixing plate 210. It should be. The reason is to determine the rotation radius when rotating the photovoltaic module 400 according to the moving direction of the sun, and to ensure that the photovoltaic module 400 rotates accurately.

The photovoltaic module rotation means 300 of the present invention is connected to the tilt angle adjustment means 200 to rotate the photovoltaic module 400 according to the moving direction of the sun, as shown in FIG. A shaft 320 of the power generating means 310 is fixedly installed on one side of the lower fixing plate 210, a rod 330 is installed on one side of the power generating means 310, and the lower fixing plate ( An upper fixing plate 340 is positioned on the upper part of the 210, and a connection shaft 350 is connected to the upper fixing plate 340, the rod 330, and the arc-shaped hole 220.

In the configuration of the photovoltaic module rotating means 300, the shaft 320 of the power generating means 310 is fixedly installed on the shaft fixing part 213 formed on the lower fixing plate 210.

And the fixing between the shaft 320 and the shaft fixing part 213 of the power generating means 310 is fixed so as to be integral, and when the power generating means 310 is operated, the shaft 320 is interlocked and the lower fixing plate 210 ) Is fixed and the case 311, which is the power generating means 310, is rotated.

On the other hand, the shaft 320 and the shaft fixing portion 213 of the power generating means 310 are fixedly installed so as to be integrated, and one embodiment of the fixing method is to form a key on the shaft 320, It is preferable that a key coupling portion is formed on the shaft fixing portion 213 so that the key is coupled and fixed to the key coupling portion.

As described above, when the shaft 320 of the power generating means 310 is installed to be integrated with the shaft fixing part 213, when the power generating means 310 is operated, the lower fixing plate 210 is fixed in place, generating power. As the means 310 is rotated, the rod 330 is rotated with it to rotate the upper fixing plate 340.

At this time, the principle that the upper fixing plate 340 is rotated together with the rod 330 is installed in connection with the upper fixing plate 340 at the upper part of the connection shaft 350, and the middle part of the rod 330 is the rod 330 ), and the lower portion of the rod 330 is inserted into the arc-shaped hole 220 so that the connection shaft 350 moves along the arc-shaped hole 220 and the upper fixing plate 340 is rotated with it.

The power generation means 310, which is the photovoltaic module rotating means 300 for the above-described action, is provided with a forward and reverse motor (not shown) in the case 311, and the shaft 320 of the forward and reverse motor Is fixedly installed so as to be integral with the lower fixing plate 210, and the connection shaft 350 passes through the rod 330 and the arc-shaped hole 220, and the connection through the arc-shaped hole 220 The lower part of the shaft 350 is fixed so that it can be moved along the arc-shaped hole 220 without being separated from the arc-shaped hole 220 formed in the lower fixing plate 210 by using a fixing member. The upper part is fixedly installed so as to be integral with the upper fixing plate 340.

In another embodiment of the rod 330, the tip is formed in a "T" shape, and two connecting shafts 350 are installed on the "T"-shaped rod 330, and the two connecting shafts (350) The lower part is coupled to the arc-shaped hole 220, because the upper part of the connection shaft 350 is fixedly installed with the upper fixing plate 340, and the lower part of the connection shaft 350 is an arc-shaped hole This is to ensure that you can safely move along (220).

The photovoltaic module 400 of the present invention is installed to interlock with the upper fixing plate 340 by using the fixing bar 410 on the upper fixing plate 340, one embodiment of the fixing bar 410 It is preferable to use C-type steel.

In addition, it is preferable to install a support bar 360 for fixing the fixing bar 410 on the upper fixing plate 340 of the present invention.

Briefly explaining a method of adjusting the vertical tilt angle according to the season and the rotation angle according to the solar movement direction by using the photovoltaic module angle adjusting device of the present invention as described above. same.

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First, when the cylinder 140, which is a configuration of the tilt angle inducing means 100, is operated to adjust the tilt of the photovoltaic module 400, the lower fixed plate 210 is lowered according to the operating direction of the cylinder 140. When pushed up or pulled from the top to the bottom or from the top to the bottom, the support 120 and the bracket 240 rotates up and down about the fixed shaft 230, and at the same time, the guide bracket 150 installed on the post 110 As the guide pin 151 moves the guide rail 131 of the guide bar 130 and adjusts the vertical inclination of the lower fixing plate 210, the upper fixing plate 340 and the photovoltaic module 400 are also interlocked. Thus, the inclination of the photovoltaic module 400 is adjusted.

In addition, when the power generating means 310 is operated to rotate the photovoltaic module 400, the case 311 of the power generating means 310 is rotated to one side or the other side while the shaft 320 rotates. As the rod 330 rotates, the lower part of the connection shaft 350 moves along the arc-shaped hole 220, and the upper part of the connection shaft 350 is interlocked with the upper fixing plate 340, while the photovoltaic module 400 Is to rotate.

By adjusting the vertical tilt angle of the solar power generation module according to the season and the rotation angle according to the solar movement direction in the same manner as described above, the electric energy generation efficiency using sunlight can be maximized.

The photovoltaic module angle adjusting device of the present invention as described above, by connecting and installing a photovoltaic tracking sensor (not shown) to one side of the control unit (not shown) or power generating means or cylinder, the photovoltaic module 400 By keeping the solar light vertically incident on, the electric energy generation efficiency using solar light can be maximized.

As described above, the photovoltaic module angle adjusting device of the present invention can adjust the vertical tilt angle of the photovoltaic module according to the season, and the rotation of the photovoltaic module according to the solar movement direction, as described in the above effect. The angle can be adjusted, and the vertical tilt angle of the solar power module according to the season and the rotation angle of the solar power module according to the solar movement direction can be simultaneously adjusted, thereby maximizing the electric energy generation efficiency using sunlight. There is an advantage.

100: tilt angle induction means 110: support
120: support 130: guide bar
131: guide rail 140: cylinder
141: connecting member 150: guide bracket
151: guide pin 200: tilt angle adjustment means
210: lower fixing plate 220: arc-shaped hole
211: cylinder bracket 212: guide bar fixing member
213: shaft fixing part 230: fixed shaft
240: bracket 300: photovoltaic module rotation means
310: power generating means 311: case
320: axis 330: rod
340: upper fixing plate 350: connecting shaft
400: photovoltaic module 410: fixed bar

Claims (7)

The support 120 is installed on the upper end of the post 110 fixedly installed on the ground, and an arc-shaped guide bar 130 is installed on the lower post of the support, and the vertical inclination angle of the photovoltaic module at one side of the support The inclination angle guiding means 100 of the solar power generation module is installed by installing a cylinder 140 to adjust the;
Both ends of the guide bar are fixedly installed with both sides of the lower fixing plate 210, an arc-shaped hole 220 is formed along the edge at one edge of the lower fixing plate, and the support and the fixing shaft 230 are formed at the lower central part. ) By installing the bracket 240 so as to be able to rotate through the inclination angle adjustment means 200 of the solar power generation module;
A shaft 320 of the power generating means 310 is fixedly installed on one side of the lower fixing plate, a rod 330 is installed on one side of the power generating means, and an upper fixing plate ( 340 is installed, and the upper fixing plate, the rod and the arc-shaped hole, the photovoltaic module rotating means 300 is installed by installing a connecting shaft 350;
A photovoltaic module 400 to interlock with the upper fixing plate by using a fixing bar 410 on the upper fixing plate; By installing the tilt angle guiding means, the tilt angle adjusting means. A device for adjusting rotation and tilt of a photovoltaic module, characterized in that the photovoltaic module is configured to vertically tilt and rotate by the interaction of the photovoltaic module rotation means.
The method of claim 1,
The guide bar 130 is formed to have an arc shape in a lower direction around a post, a guide rail 131 is formed in the longitudinal direction of the guide bar, and a guide bracket in which a guide pin 151 is installed on the post (150) is installed, and the guide pin is configured to move along the guide rail by a change in the angle of the lower fixing plate while the guide pin is coupled to the guide rail. And tilt adjustment device.
The method of claim 1,
The upper portion of the support body 120 is formed to have a downward slope from one side to the other side, and a cylinder is fixedly installed on one side of the support body formed to have the slope, and the upper end of the cylinder is a cylinder bracket installed under the lower fixing plate. A device for adjusting rotation and inclination of a photovoltaic module, characterized in that by installing a connection member 141 that is rotatably installed with the 211.
The method of claim 1,
The lower fixing plate 210 is formed as a half-circular flat plate-shaped panel, and is fixedly installed at both ends of the lower half-circular lower fixing plate through the guide bar line end and the guide bar fixing member 212 as a medium. , A rotation and inclination adjusting device of a photovoltaic module, characterized in that a shaft fixing part (213) to which the shaft of the power generating means is fixedly installed is formed at a central part of the lower fixing plate.
The method of claim 1,
The power generating means 310, a motor is installed in the case 311, the shaft of the motor is fixedly installed so as to be integral with the lower fixed plate rotation and tilt adjustment device of the photovoltaic module.
The method of claim 1,
The connecting shaft 350 passes through the rod and the arc-shaped hole, and the lower portion of the connecting shaft penetrating through the arc-shaped hole moves along the arc-shaped hole without being separated from the arc-shaped hole formed in the lower fixing plate by using a fixing member. And the upper portion of the rod is fixedly installed so as to be integral with the upper fixing plate.
The method of claim 1,
The front end of the rod 330 is formed in a "T" shape, and two connection shafts are installed on the "T"-shaped rod, and the lower part of the two connection shafts is coupled to the arc-shaped hole, and the connection An upper portion of the shaft is a device for adjusting rotation and inclination of a photovoltaic module, characterized in that it is fixedly installed with the upper fixing plate.

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