KR20100009926A - Apparatus for adjusting the angle of solar energy collection plate - Google Patents

Abstract

The present invention relates to a solar panel that is configured in a photovoltaic device for integrating light from the sun;

A plurality of pillar members 10 fixed to the holder 12 of the photovoltaic power generation station and having an inclination control plate 16 formed on the legs 14 thereof; A rotating member 20 coupled to the upper end of the pillar member 10 to rotate along the rotating mechanism 18; A mounting member 30 mounted on the upper side of the rotating member 20 and fixed to the solar panel 50; A control member 40 coupled between the rotating member 20 and the pillar member 10 to adjust the inclination angle of the solar panel 50 according to the amount of sunshine through the inclination control panel 16;

Since the operation mechanism according to the adjustment of the inclination angle of the solar panel is simplified, the assembly time and the assembly process of the device are reduced, as well as the installation cost is reduced, as well as various auxiliary costs due to the maintenance of the device, as well as the safety accident of the worker. do.

Solar panel, pillar member, rotating mechanism, rotating member, mounting member, adjusting member,

Description

Apparatus for adjusting the angle of solar energy collection plate}

The present invention relates to a solar panel that is configured in the photovoltaic power generation mechanism to collect light from the sun, and in particular, to configure the angle of inclination of the solar panel to be able to adjust to the south middle altitude of the sun to maximize the power generation efficiency It relates to an angle adjusting device of the panel.

In general, a solar cell module (hereinafter referred to as a solar panel) is an essential equipment for photovoltaic power generation, and the solar panel is mainly intended to receive as much light from the sun as possible and convert it into electricity. Solar cell modules having characteristics have been developed and used.

The development of solar panels is important, of course, but the cradle that supports them is also a key component that cannot be overlooked in order to achieve the goal of receiving a lot of sunlight at the same opportunity.

Without a cradle for the module, from small households to large-scale power generation, not only can the module be properly and securely mounted, but it is also not possible to optimize the generation of electricity through solar power. As it affects up to 20%, it is becoming an important factor.

In particular, solar power generation produces maximum efficiency when the solar panel is incident at 90 ° angle with the sun's direct sunlight, and the sun's position observed in each region changes every day as the Earth rotates and revolves. In the azimuth angle, the movement is repeated from east to west on the basis of 1 day, and the elevation angle is repeated in the north-south direction on the basis of 365 days.

Therefore, in order to maximize the efficiency of photovoltaic power generation, it is desirable that the solar tracking device moves along the sun from east to west in azimuth and in real time from north to south in altitude. It is necessary to select a solar cell installation system.

First, the solar installation system applied to the photovoltaic power station has been developed and used a lot of fixed type to keep the solar panel inclined, and tracking type to follow the movement of the sun using the tracker.

However, the fixed type, which is most commonly applied among the installation system of the solar power generation tool, has the advantage of the lowest installation cost and the very easy maintenance, but the solar panel is fixed at a predetermined angle so that it does not efficiently integrate sunlight. It has the disadvantage of low power generation efficiency.

On the other hand, the tracking type has the advantage of maximizing the power generation efficiency by tracking the sun in real time using the tracker, but the driving unit using the power must be configured to track the sun automatically and the program tracking the sun in real time. As a device such as a sensor or the like must be essentially configured, expensive costs are required as well as maintenance is required.

Therefore, nowadays a variable system combining the advantages of fixed type and tracking type has been developed and applied, which has been known by Korean Patent Nos. 0734217 and 0760043 and Utility Model Registration 036670.

Looking at the above prior art, it is easy to mass-produce and transport parts, which is an advantage of the variable system, and includes the contents of adjusting the angle of the solar panel according to the position of the sun after installation.

Looking at the above prior art, it relates to a structure for mounting a solar panel, which is a feature of the variable system, and to manually adjust and maintain the inclination angle, and includes a stable support structure and an easy operation method.

However, in the case of registered patent Nos. 0734217 and 0760043, there is a disadvantage in that the part fixing to maintain the inclination angle of the solar panel is limited to one place at the outermost side, so that the resistance to external force such as wind pressure is insufficient. As the component parts are broken down, much assembly time and careful parts management are required, and when the inclination angle fixing bolts are separated when adjusting the inclination angle of the solar panel, there is a risk of safety accident and damage of the solar panel due to the collision between the solar panel and the worker. .

Therefore, the present invention has been made to solve the problems described above, simplifying the structure of the solar tracking device to reduce the installation cost, as well as the safety of the operator by adjusting the angle of the solar panel according to the seasonal change. It is an object of the present invention to provide an angle adjusting device for a solar panel that has secured and doubled convenience.

The present invention for achieving the above object; An angle adjusting device of a solar panel is installed in the photovoltaic power generation place to produce power using the solar light, a plurality of pillar members that are fixed to the cradle of the photovoltaic place while the tilt control plate is formed in the leg portion; A rotating member coupled to the upper end of the pillar member to rotate along the rotating mechanism; A mounting member mounted on the upper side of the rotating member and fixed to the solar panel; It is coupled between the rotating member and the pillar member includes a control member for adjusting the inclination angle of the solar panel according to the amount of sunshine through the inclination control panel.

As described above, the angle adjusting device of the solar panel according to the present invention has a number of effects as follows.

First, since the operation mechanism according to the adjustment of the inclination angle of the solar panel is simplified, the assembly time and the assembly process of the device is reduced, thereby reducing the installation cost and reducing various auxiliary costs due to the maintenance of the device.

Secondly, by reducing the rotation radius of the solar panel to a minimum, a series of work processes according to the angle control of the solar panel is simplified, and there is an effect of preventing safety accidents such as a worker collision occurring during the operation of the device.

Hereinafter, an embodiment according to the present invention will be described.

1 is an overall view showing an installation state of a solar panel according to the present invention, Figure 2 is an operating state diagram showing an angle adjusting device of the solar panel according to the present invention, Figure 3 is an angle of the solar panel according to the present invention Figure 4 is an exploded perspective view showing an adjustment device, Figure 4 is an enlarged perspective view showing the rotating member of Figure 3 according to the invention, Figure 5 is an enlarged perspective view showing the adjustment member of Figure 3 according to the invention, Figure 6 3 is an enlarged perspective view illustrating the tilt control plate of FIG. 3 according to the present invention.

As in Figures 1-6; The present invention is an angle adjusting device of the solar panel 50 is installed in the photovoltaic power station to produce power using the solar light, while being fixed to the cradle 12 of the photovoltaic power station on the leg portion 14 A plurality of pillar members 10 having a tilt control plate 16 formed thereon; A rotating member 20 coupled to the upper end of the pillar member 10 to rotate along the rotating mechanism 18; A mounting member 30 mounted on the upper side of the rotating member 20 and fixed to the solar panel 50; It is coupled between the pillar member 10 and the rotating member 20 includes a control member 40 for adjusting the inclination angle of the solar panel 50 according to the amount of sunshine through the inclination control plate 16.

Here, the solar tracking device 1 according to the present invention, after sequentially installing the pillar member 10, the rotating member 20 and the mounting member 30, the pillar member 10 and the rotating member 20 By connecting the through the adjusting member 40, it is added that the inclination angle of the solar panel 50 can be adjusted according to the amount of sunshine.

In addition, the pillar member 10 supports the total load of the solar tracking device 1, and a plurality of cradles 12 sequentially installed at the installation place, and the base plate 13 on the cradle 12. It is composed of a leg portion 14 fixed through, a rotary mechanism 18 installed on the upper end of the leg portion 14, and the inclination control plate 16 provided on the leg portion 14.

In addition, the rotating mechanism 18 is used as a rotating means and a supporting means of the rotating member 20, the upper plate 15 is fixed to the upper end of the leg portion 14, and the upper plate 15 And a cylindrical tube 18b mounted horizontally on the upper side of the mounting plate 18a.

In addition, the inclination adjustment plate 16 is fixed in the vertical direction on the side of the leg portion 14, the guide hole 16b is formed in the center of the lower end of the adjustment member 40 is coupled, the guide A pin fixing hole 16a used in the process of maintaining the rotating member 20 in a horizontal state is formed at the side of the long hole 16b.

In addition, as shown in Figure 6, the guide hole 16b of the tilt control plate 16, the intermediate positioning groove (B) for maintaining the inclination angle of the solar panel 50 to 30 degrees, and the solar panel 50 The upper positioning groove A for maintaining the inclination angle of 45 ° and the lower positioning groove C for maintaining the inclination angle of the solar panel 50 at 15 ° are formed.

In addition, the intermediate positioning groove (B) is preferably formed of a triangular irregularities, such as the ratchet principle, the entry portion of the irregularities are formed at an obtuse angle so that the bolt can be smoothly followed and exit, the seating portion of the irregularities at an acute angle It is preferable to form a structure that is formed so as to surround the bolt so as not to escape.

At this time, in the present embodiment has been described by limiting the three positioning grooves (A, B, C) of the inclination control plate 16 is formed, but also means for setting the inclination angle of the rotating member 20 in multiple stages Naturally, if included in the technical category of the present application.

In addition, the inclination control plate 16 may be formed of a member having a shape as shown in FIG. 6 and attached to the leg portion 14, and the inclination control plate 16 may be integrally formed by processing the leg portion 14. It may be formed.

That is, processing the leg portion 14 as the inclination control plate 16 means that the positioning grooves A, B, and C as described above are formed in the leg portion 14.

The rotating member 20 is rotated about the rotating mechanism 18 while being coupled to the upper end of the pillar member 10, and is inserted into the cylindrical hole 18b of the rotating mechanism 18 at the center thereof. The central axis 22 of a predetermined length is formed, and the support shaft 24 is mounted on one side or both sides thereof.

The mounting member 30 is fixed to the upper side of the rotating member 20 and simultaneously rotates together with the rotating member 20, and the solar panel 50 is fixed to the upper side of the rotating member 20. Rotate with 20.

And, the adjusting member 40, for adjusting the inclination angle of the solar panel 50 according to the season or the amount of sunshine, the through-hole 44a in a state coupled to the rotating shaft 24 of the rotating member 20 The body 44 to rotate around the screw, coupled to the lower end of the body 44, the tilt control plate in the process of setting the solar panel 50 in a horizontal state or adjusting the inclination angle ( It consists of a screw bracket 45 is fixed along 16).

In addition, the screw bracket 45 is formed by bending the upper surface portion 45c coupled to the end of the body portion 44 through the male screw 45a and one end of the upper surface portion 45c in the vertical direction. A side portion 45d having a pin fixing hole 45b corresponding to the pin fixing hole 16a of the tilt adjusting plate 16, and a pin fixing hole 16a of the tilt adjusting plate 16 and the side portion 45d. It consists of a horizontal fixing pin 42 coupled to the pin fixing hole 45b.

Hereinafter, the operation according to the present invention will be described.

First, when the solar tracking device 1 is to be configured, the pillar member 10 is fixed to the place of the solar panel 50 through the holder 12, and a rotating mechanism is provided at the upper end of the pillar member 10. Mount the rotating member 20 through 18.

In this way, the rotating member 20 mounted on the upper end of the pillar member 10 is in a rotatable state along the rotating mechanism 18.

Then, while the adjusting member 40 is fixed between the pillar member 10 and the rotating member 20, the mounting member 30 is fixed to the rotating member 20, and the solar panel 50 thereon. If you install the assembly is complete.

In this case, the solar panel 50 of the solar tracking device 1 is set to be rotatable around the rotating mechanism 18 and the tilting angle can be adjusted by the adjustment member 40. It is set.

On the other hand, when the rotating member 20 is to be installed, the horizontal fixing pin 42 is inserted into the pin fixing hole 45b of the screw bracket and the pin fixing hole 16a of the inclination adjusting plate to insert the rotating member 20. Set it to the horizontal state and perform the operation.

In this case, since the rotating member 20 is set in a horizontal state, the convenience of work according to the installation of the other components 30, 40, and 50 is increased.

On the other hand, in the case of adjusting the inclination angle of the rotating member 20, in the state in which the horizontal fixing pin 42 is pulled out, abutting the screw bracket 45 of the adjusting member with the guide bracket 16b of the tilt adjusting plate Tighten the nut.

At this time, the guide hole 16b formed in the tilt control plate 16 is divided into three stages (A, B, C), so that the slope of the solar panel 50 in three stages depending on the season or the irradiation angle of the sun ( A, B, C) can be adjusted appropriately.

For example, when the screw bracket 45 of the adjustment member 40 is positioned and fixed in the lower positioning groove C, the inclination angle of the solar panel 50 is 15 ° to form a summer (May to July). The maximum power generation effect can be obtained.

In addition, when the screw bracket 45 of the adjusting member 40 is positioned and fixed in the intermediate positioning groove B, the inclination angle of the solar panel 50 forms a 30 ° degree and the spring (February to April) and The maximum development effect can be obtained in autumn (August-October).

And, when the screw bracket 45 of the adjusting member 40 is located and fixed to the upper positioning groove (A), the inclination angle of the solar panel 50 is 45 ° to achieve a winter (November ~ January) The maximum development effect can be obtained.

Of course, by forming at least four or more positioning grooves formed in the guide hole 16b of the tilt control plate 16 may increase the power generation effect, or by forming two positioning grooves (A, C) according to the adjustment operation You can also get convenience.

As described above, the present invention has been described with reference to preferred embodiments, but those skilled in the art can variously modify or modify the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be carried out.

1 is a perspective view showing an installation state of a solar panel according to the present invention,

Figure 2 is an operating state showing the angle adjusting device of the solar panel according to the present invention,

3 is an exploded perspective view showing an angle adjusting device of a solar panel according to the present invention;

4 is an enlarged perspective view of the rotating member of FIG. 3 according to the present invention;

5 is an enlarged perspective view showing the adjusting member of FIG. 3 according to the present invention;

Figure 6 is an enlarged perspective view showing the tilt control plate of Figure 3 according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Angle adjusting device

10: pillar member 12: holder

14: leg 20: rotating member

22: rotating shaft 30: mounting member

40: adjustment member 45: screw bracket

50 solar panel

Claims (8)

As an angle adjusting device of the solar panel 50 is installed in the photovoltaic power generation place to produce power using solar light, A plurality of pillar members 10 fixed to the holder 12 of the photovoltaic power generation station and having an inclination control plate 16 formed on the legs 14 thereof; Each rotating member 20 rotating along the rotating mechanism 18 coupled to the upper end of the pillar member 10; A mounting member 30 mounted on the upper side of the rotating member 20 and fixed to the solar panel 50; An adjustment member 40 coupled between the rotating member 20 and the pillar member 10 to adjust the inclination angle of the solar panel 50 through the inclination control plate 16; Angle control device of the solar panel comprising a. The method of claim 1, wherein the rotating member 20, An angle control device for a solar panel, characterized in that a central axis (22) is inserted into the rotating mechanism (18) at one side thereof. The angle adjusting device of the solar panel of claim 1, wherein the inclination control plate (16) is fixed to the leg portion (14). The angle adjusting device of the solar panel according to claim 1, wherein the tilt control plate (16) is formed by processing the leg portion (14). According to claim 1, The inclination control plate 16, In the process of maintaining the solar panel 50 in a horizontal state, the angle adjustment device of the solar panel, characterized in that the pin fixing hole (16a) is fixed to the screw bracket (45) through a horizontal fixing pin (42). According to claim 1, The inclination control plate 16, An angle adjusting device for a solar panel, characterized in that the guide hole (16b) is fixed to the screw bracket 45 is fixed in the process of adjusting the inclination angle of the solar panel (50). The method of claim 1 or 6, wherein the guide hole 16b, At least three or more positioning grooves (A, B, C) for setting the inclination angle of the solar panel 50 in a multi-stage, characterized in that the angle adjustment device of the solar panel. The method of claim 1, wherein the rotating mechanism 18, A cylindrical tube fixed to the leg 14 and having an upper plate 15 provided with a mounting plate 18a on its upper surface, and a central shaft 22 of the rotating member inserted into the mounting plate 18a; 18b), the angle adjusting device of the solar panel, characterized in that consisting of.

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