KR101370570B1 - Vibration-proof type solar celll apparatus - Google Patents

Abstract

The present invention relates to a vibration-proof type solar cell device. The malfunction of, or damage to the solar cell device, which converts a solar energy into an electric energy, is prevented as the device has a vibration-proof unit on the lower side of a frame member thereof to effectively absorb and reduce vibrations caused by external force such as an earthquake or strong winds. An embossing reflection panel is formed on the upper border of a solar cell panel to be extended and bent, thereby enabling the sunlight to be reflected on the other solar cell panel which is arranged on a rear side even if an incidence angle of the sunlight gets out of a direction of an installation angle of the solar cell panel. As a result, the generation of solar energy increases. As the device has a dripping unit for spraying a cleansing solution to the solar cell panel, the solar cell panel is kept clean and maintained at an ideal temperature, thereby maximizing power generation effects. In addition, malfunction due to overvoltage and negligent accidents can be prevented as a frame member of the device has a ground terminal. The vibration-proof type solar cell device according to an embodiment of the present invention comprises: the solar cell panel which converts solar energy into electric energy; the frame member which fixates the solar cell panel on a bottom surface by being connected to the lower side of the solar cell panel; a bottom angle which is steadily installed on the bottom surface; a supporting angle which is steadily installed on the lower side of the frame member and is located on the upper part of the bottom angle; and the vibration-proof unit which is installed between the bottom and supporting angles, absorbs vibrations caused by external force and prevents the solar cell panel and the frame member from being damaged.

Description

VIBRATION-PROOF TYPE SOLAR CELLl APPARATUS}

The present invention relates to an earthquake-resistant solar cell device, and more specifically, by providing a dustproof means at the bottom of the frame member of the solar cell device to convert solar energy into electrical energy, vibrations caused by external forces such as earthquakes or strong winds are effectively absorbed and reduced. The solar cell device can be prevented from malfunctioning or being damaged, and the upper edge of the solar cell panel is provided with an embossed reflective panel extending so that the incident angle of sunlight deviates from the installation angle direction of the solar cell panel. Even if the solar light can be reflected to the other solar panel side disposed behind it, the amount of solar power can be increased, and the solar cell is maintained in a clean state as a dripping means is sprayed toward the solar panel. Of course, the solar cell panel can be maintained at an appropriate temperature, so that the power generation effect The present invention relates to an earthquake-resistant solar cell device that can be maintained at a maximum and is provided with a ground terminal in a frame member to prevent malfunction due to overvoltage and a safety accident.

Human beings have been studying economical ways to use and save energy efficiently since similarity. The future energy problem is expected to become one of the biggest problems on the planet, and energy costs are continuously rising. In order to efficiently use this energy, until now, indoor panels have used insulation panels so that indoor heat is lost as much as possible to the outside air, and these insulation panels are very effective for energy efficient construction and construction of large buildings. One of the ingredients.

Recently, the solar cell device which converts light energy of solar light into electric energy is widely used, and its use is widely spread in that it uses no sunlight and uses natural solar light.

The principle of power generation of the solar cell is that when light is emitted to the solar cell, electrons and holes are generated inside, and the generated charges move to the P and N poles, which causes a potential difference between the P and N poles. Power) is generated. At this time, when a load is connected to the solar cell, a current flows, which is called a photoelectric effect.

On the other hand, Korean Utility Model Registration No. 2003063500000 (2003.02.21) is a solar panel in which solar cells and insulation panels are grafted so that the cost of solar panels and the acquisition of solar heat can be effectively achieved. Is known.

However, in the above-described prior art, the angle of the solar panel is limited, and there is a limit that the amount of insolation can not be increased when the sun leaves the angle at which the sun is irradiated.

In addition, if foreign matters such as dust accumulate on the solar panel or its own temperature is excessively high due to sunlight, normal operation may not be possible. However, in the prior art, a manager sprays water on the solar panel separately. Unless there is a separate device for overcoming the situation was not provided.

In addition, when vibration or shock caused by an external force such as an earthquake or typhoon is transmitted to the device, the device may malfunction or be damaged. However, conventionally, there is no separate means for preventing the device.

Accordingly, an object of the present invention is to provide a dustproof means at the bottom of the frame member of the solar cell device to convert solar energy into electrical energy, so that vibrations caused by external forces such as earthquakes or strong winds can be effectively absorbed and reduced so that the solar cell device malfunctions. It is to provide a seismic solar cell device that can be prevented from causing or breaking.

In addition, an object of the present invention is to provide an embossed reflective panel extending at the upper edge of the solar cell panel so that even if the incident angle of the solar light deviates from the installation angle direction of the solar cell panel, the solar cell toward the other solar panel disposed behind the solar panel It is to provide a seismic solar cell device that can be reflected so that the amount of generation of solar light can be increased.

 In addition, another object of the present invention can be maintained in the clean state of the solar cell as well as the solar cell panel can be maintained in a clean state according to the dripping means is sprayed with the washing liquid toward the solar panel can be maintained to maximize the power generation effect In addition, the ground member is provided in the frame member to provide a seismic solar cell device capable of preventing malfunction and safety accidents caused by overvoltage.

The object of the present invention described above is a solar cell panel for converting solar energy into electrical energy, a frame member connected to a lower surface of the solar cell panel to fix the solar cell panel on a bottom surface, and the bottom surface. A bottom angle fixedly installed, a support angle fixedly installed at a lower end of the frame member, installed between the bottom angle and the support angle, and absorbed by external force to absorb vibrations by the external force; It is achieved by providing a seismic solar cell device, characterized in that the seismic means for protecting the frame member is prevented from being damaged.

According to a preferred feature of the present invention, an embossed reflective panel is formed to be bent at the upper edge of the aforementioned solar panel so that sunlight can be reflected toward another solar cell panel located at the rear.

According to a preferred feature of the present invention, one side of the above-mentioned frame member is further provided with a drop means for spraying the cleaning solution toward the solar panel.

According to a preferred feature of the present invention, the bottom angle is formed in the shape of the longitudinal section "┗┛" so that the above-described seismic means is accommodated between the bottom angle and the support angle, the support angle is "┏┓" It is supposed to be formed in a shape.

According to a preferred feature of the invention the above-mentioned frame member is to be provided with a ground terminal.

According to a preferred aspect of the present invention, the above-described vibration-isolating means comprises: a bearing support case formed with a bearing insertion hole at an upper portion thereof and fixedly installed on the bottom angle; a lower portion inserted into the bearing insertion hole in a vertical direction, A supporting bolt having a bearing stop ring protruded thereon and having an upper portion penetrating through the supporting angle and having a thread formed on an outer circumference thereof and screwed to the nut; a bearing bolt inserted through the supporting bolt, positioned in the bearing insertion hole, An automatic alignment bearing in which the lower end of the support bolt is supported on the ring and the deformation of the central axis of the support bolt due to the vibration due to the external force is corrected; The support case, and the support bolt, Angle, and are located between the bottom of the support angle is the angle on top of the support is to be included a compression spring that vibration due to the external force are respectively supported by the bottom angles absorption.

The seismic solar cell device according to the preferred embodiment of the present invention as described above is provided by a dustproof means at the bottom of the frame member of the solar cell device converting solar energy into electrical energy by an external force such as earthquake or strong wind. Vibration can be effectively absorbed and reduced so that the solar cell device can be prevented from malfunctioning or breaking.

Second, an embossed reflective panel is provided at the upper edge of the solar panel so that solar light can be reflected to another solar cell panel disposed behind the solar panel even if the incident angle of the solar light deviates from the installation angle direction of the solar panel. There is an advantage that can increase the amount of solar power generated.

 Third, as the washing means is sprayed toward the solar panel, the solar cell is managed in a clean state, and the solar cell panel can be maintained at an appropriate temperature, so that the power generation effect can be maximized.

Fourth, there is an advantage that the ground terminal is provided in the frame member to prevent malfunction and safety accidents due to overvoltage.

1 is a perspective view of a seismic solar cell device according to an embodiment of the present invention.
Figure 2 is a partially exploded perspective view of the seismic solar cell device according to an embodiment of the present invention.
3 to 7 is a state diagram used in the seismic solar cell device according to an embodiment of the present invention.

1 is a perspective view of a seismic solar cell apparatus according to an embodiment of the present invention, Figure 2 is a partially exploded perspective view of the seismic solar cell apparatus according to an embodiment of the present invention, Figures 3 to 7 shows a state of use of the seismic solar cell apparatus according to an embodiment of the present invention.

The seismic solar cell apparatus 1 according to an exemplary embodiment of the present invention includes a solar cell panel for converting solar energy into electrical energy, and a solar cell panel 100 connected to a lower surface of the solar cell panel 100. ) Is fixed to the bottom surface of the frame member 200, the bottom angle 300 is fixed to the bottom surface, and the bottom of the frame member 200 is installed fixed to the top of the bottom angle 300 Installed between the support angle 400 and the bottom angle 300 and the support angle 400, the vibration by the external force is absorbed to prevent damage to the solar cell panel 100 and the frame member 200 Seismic means 500 is protected to be included.

Hereinafter, with reference to FIGS. 1 to 7 will be described in detail with respect to the constituent members of the seismic solar cell device 1 according to an embodiment of the present invention and its connection relationship.

Here, the solar cell panel 100 receives solar energy from the sun and converts it into a form of electrical energy as shown in FIG. 3. A module in which a plurality of cells are combined, and an array in which a plurality of modules are combined It is provided in the form of. The solar cell panel 100 is the same as a solar battery according to the prior art, and thus a detailed principle and further detailed description of producing electrical energy from solar energy will be omitted for simplicity of the specification. do.

In addition, an embossed reflective panel 110 is formed at the upper edge of the above-described solar cell panel 100, and the reflective panel 110 is formed of another solar cell panel located at the rear as shown in FIG. 4. Sunlight is reflected toward 100 to increase the amount of solar radiation, thereby increasing the amount of electrical energy produced.

The reflective panel 110 is bent at a predetermined angle from the solar cell panel 100, but is preferably connected in an adjustable angle in consideration of the size and the separation distance of the other solar cell panel 100 arranged in the rear. Of course, the size and shape may also be changed in various ways. Although not shown, a plurality of independent reflecting panels 110 may be provided in the vicinity of the seismic solar cell apparatus 1, so that the amount of insolation may be maximized using scattered waves and reflected waves.

On the other hand, the lower surface of the above-described solar cell panel 100 is connected to the frame member 200, the frame member 200 serves as a support for fixing the position of the solar cell panel 100 on the bottom surface will be. Such a frame member 200 is composed of a plurality of vertical frames standing upright in the vertical direction with respect to the ground and a horizontal frame connecting the vertical frames with each other, preferably made of a solid metal material.

As shown in FIG. 5, a drop means 210 is installed at one side of the frame member 200, and the drop means 210 is sprayed with a washing solution toward the solar cell panel 100. ) Is maintained in a clean state as well as to prevent the excessive rise of the temperature of the solar cell panel by the sunlight to play a role to maximize the energy generation efficiency.

The drop means 210 is installed on one side of the frame member 200, but the injection nozzle is provided on the top of the solar cell panel 100 so that the cleaning liquid can be easily injected toward the solar cell panel 100. Since the washing liquid in the form of (preferably water) is the same as the prior art dropping apparatus sprayed by pressure, further detailed description will be omitted for simplicity of the specification.

In addition, the operation of the above-described dropping means 210 may be to automatically spray the cleaning liquid every predetermined time, the temperature sensor that detects this when the temperature of the solar cell panel 100 rises above a predetermined temperature (not shown) The washing liquid may be automatically sprayed by, or may be manually controlled by the manager.

The ground terminal 220 is installed at a lower side of the frame member 200 in which the above-described dropping means 210 is installed, and the ground terminal 220 is installed in the ground so as to be groundable in the seismic solar cell apparatus 1. It is to prevent malfunction of the device and manager's safety accident that can be caused by overvoltage. Since the ground terminal 220 is the same as the ground terminal according to the prior art, further description will be omitted for simplicity of the specification.

And the bottom angle 300 is fixed to the bottom surface on which the seismic solar cell apparatus 1 is installed, the bottom angle 300 is seismic means 500 serves to be installed to be described later seismic means The longitudinal section is formed in a “┗┛” shape so that the means 500 can be received between the bottom angle 300 and the support angle 400 which will be described later. The bottom angle 300 may be fixed by welding to the bottom surface on which the seismic solar cell apparatus 1 is installed, or may be fixed by an anchor bolt.

In addition, the support angle 400 is fixedly installed at the lower end of the above-mentioned frame member 200, and the fixed angle serves to allow the seismic means 500 to be installed together with the above-described bottom angle 300. Located at the top of the angle 300 and its longitudinal section is formed in a "┏┓" shape. The support angle 400 may be welded to the bottom of the frame member 200, may be fixed by an anchor bolt, the support angle 400 itself may be used as a horizontal frame of the frame member 200. .

On the other hand, between the above-described bottom angle 300 and the support angle 400, seismic means 500 is installed, the seismic means 500 is absorbed by the external force such as earthquake or typhoon absorbed by the solar panel 100 And it serves to protect the frame member 200 to prevent damage.

Such a seismic means 500, the bearing insertion hole 511 is formed in the upper portion, the bearing support case 510 is fixedly installed on the bottom angle 300, and the lower portion in the vertical direction on the bearing insertion hole 511 Is inserted into the lower end of the annular bearing stop ring 521 is formed to protrude, the upper portion is penetrated through the support angle 400, the thread 522 is formed on the outer periphery of the support bolt is screwed with the nut (523) ( 520 and the support bolt 520 are inserted into the bearing insertion hole 511 and the lower end thereof is supported by the bearing stop ring 521, but the center shaft angle of the support bolt 520 is deformed due to vibration by external force. The self-aligning bearing 530 to be corrected, a cover 540 fixedly fastened on the support case so that the support bolt 520 and the self-aligning bearing 530 are constrained in the support case, and the support case and the support bolt 520. ) Bottom angle 300 and the support angle (4) to be accommodated therein 00 is positioned between the support angle 400, the lower end is supported by the bottom angle 300, respectively, the compression spring 550 is absorbed by the external force is included.

In addition, the anti-vibration rubber plate 524 is provided on the side where the compression spring 550 is in contact with the support angle 400 and the bottom angle 300 and the inner wall side of the support angle 400, respectively.

That is, as shown in FIGS. 6 and 7 when the vibration is applied to the seismic solar cell apparatus 1 by an external force such as an earthquake or typhoon, the vibration is absorbed by the compression spring 550 and the angle of the central axis by the vibration. The deformed support bolt 520 is corrected by the central axis angle deformation by the self-aligning bearing 530. Such self-aligning bearing 530 is the same as the self-aligning bearing according to the prior art, further detailed description will be omitted for simplicity of the specification.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is not limited.

1: Seismic Solar Cell Device 100: Cell Panel
110: reflective panel 200: frame member
210: dropping means 220: ground terminal
300: bottom angle
400: support angle 500: seismic means
510: bearing support case 511: bearing insertion hole
520: support bolt 521: bearing stop ring
522: thread 523: nut
524: anti-vibration rubber plate 530: self-aligning bearing
540: cover 550: compression spring

Claims (6)

A solar panel converting solar energy into electrical energy;
A frame member connected to a lower surface of the solar panel to fix the solar cell panel on a bottom surface thereof;
A bottom angle fixed to the bottom surface;
A support angle fixedly installed at a lower end of the frame member and positioned at an upper portion of the bottom angle; And
And a seismic means installed between the bottom angle and the support angle to protect vibration of the solar panel and the frame member from being absorbed by external force.
The above-
A bearing support case having a bearing insertion hole formed at an upper portion thereof and fixedly installed on the floor angle;
And a lower portion of the support bolt is inserted into the bearing insertion hole in a vertical direction, an annular bearing stop ring is protruded at a lower end thereof, and an upper portion of the support bolt is threadedly engaged with the nut.
A self-aligning bearing inserted through the support bolt and positioned in the bearing insertion hole and having a lower end supported by the bearing detent ring, wherein a center axis angle deformation of the support bolt is corrected by an external force;
A cover for fixing the support bolt and the self-aligning bearing in the support case fixedly secured to the support case; And
A compression spring positioned between the bottom angle and the support angle so that the support case and the support bolt are accommodated therein, and a lower end supported by the support angle and an upper end respectively supported by the bottom angle; A seismic solar cell device, characterized in that. The method according to claim 1,
The seismic solar cell device, characterized in that the embossed reflective panel is extended to be bent at the upper edge of the solar cell panel so that sunlight can be reflected toward another solar cell panel located at the rear. The method according to claim 1,
The seismic solar cell apparatus, characterized in that the drop member is further provided on one side of the frame member to spray the cleaning solution toward the solar panel. The method according to claim 1,
The bottom angle of the bottom angle is formed in a "┗┛" shape so that the seismic means is accommodated between the bottom angle and the support angle is characterized in that the support angle is formed in the "┏┓" shape. Seismic solar cell device. The method according to claim 1,
The frame member is earthquake-proof solar cell apparatus characterized in that the ground terminal is provided. delete

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