KR200436670Y1 - A solar cell panel support unit - Google Patents

Abstract

 The present invention relates to a solar panel support device, in particular, in a solar panel support device in which the solar panel is rotatably installed, including a brace for supporting the solar plate, the brace is provided with two or more, The braces are arranged to narrow the gap between each other toward the upper portion, thereby preventing the solar panels from being interfered by the braces during rotation, thereby increasing the angle at which the solar panels can be rotated, even when the solar panels are rotated. The present invention relates to a solar panel support apparatus that can be stably supported by supporting at two or more points.

Solar, rotation, support

Description

Solar panel support device {A SOLAR CELL PANEL SUPPORT UNIT}

1 is a perspective view of a solar panel support device according to a preferred embodiment of the present invention.

Figure 2 is a side view of the solar panel support device of Figure 1;

Figure 3 is a state using the solar panel support device of Figure 1;

4 is a partial perspective view of FIG. 1.

5 is a partial perspective view of FIG. 1.

6 is a partially enlarged perspective view of FIG. 1.

Figure 7 is a partial perspective view of the solar panel support device according to another embodiment of the present invention.

** Description of symbols for the main parts of the drawing **

100, 110, 120: Brace 200: Fixed part

201: insertion hole 202, 203: through hole

300: tracking means 301: through the angle control

400: support 410: support bracket

411: through hole 412: vertical part

413 horizontal portion 500 longitudinal support portion

600: lateral support 610: flange

620: connecting bracket 621: protrusion plate

700: solar panel 710: connection part

  The present invention relates to a solar panel support device, in particular, in a solar panel support device in which the solar panel is rotatably installed, including a brace for supporting the solar plate, the brace is provided with two or more, The props are arranged to narrow the gap between each other toward the upper portion, thereby preventing the solar plates from being interfered by the props during rotation, thereby increasing the angle range in which the solar plates can be rotated, even when the solar plates are rotated. The brace is related to a solar panel support device that can be stably supported by supporting at two or more points.

The main components of photovoltaic power generation are composed of largely modular solar cell, solar panel supporting device including supporting structure and tracking device, and inverter.

The support device is largely divided into two methods as follows according to the installation method of the solar panel. It is divided into fixed type and tracking type according to the rotation of solar panel.

Such tracking formulas are those disclosed in Korean Patent Laid-Open Publication Nos. 2003-62712, 1991-5008, and Japanese Patent Laid-Open Publication Nos. 1993-346326.

Solar power generation depends on the efficiency of the solar cell module. To achieve maximum power, the solar panel must be at an angle of 90 degrees to the sun. Keeping track of the sun and maintaining the best angle is the best way. However, this tracking method has a disadvantage that the installation price is expensive compared to the fixed type by attaching a separate tracking device to the basic structure.

Fixed type is cheap installation cost, accounting for about 80% of solar power plants.

However, since the fixed type fixes the solar panels at a certain angle during installation, the maximum power generation can be achieved only for a certain time (about 10 to 3 o'clock). In addition, since the solar altitude also changes according to the region, the method of calculating the solar altitude of the region appears differently as follows. 90 °-latitude in the spring and autumn, 90 °-(latitude + 23.5 °) in the summer, and 90 °-(local latitude-23.5 °) in the winter, so the above values are used for maximum development. It is necessary to correct them.

In other words, the fixed type can be the maximum efficiency of sunlight from only one angle considered in the installation. In general, the fixed type is less than 30% less efficient than the tracking type.

 The present invention has been made to solve the above-mentioned problems, in the solar panel support device is installed so that the solar panel is rotatable, including a brace for supporting the solar panel, the brace is provided with two or more, The props are arranged to narrow the gap between each other toward the upper portion, thereby preventing the solar plates from being interfered by the props during rotation, thereby increasing the angle range in which the solar plates can be rotated, even when the solar plates are rotated. The brace aims to provide a solar panel support device that can be stably supported by supporting at two or more points.

 The present invention for achieving the above object is in the solar panel support device that the solar panel is rotatably installed, including a brace for supporting the solar plate, the brace is provided with two or more, the brace is upwards It is characterized in that arranged so as to narrow the interval between each other.

According to this configuration, the solar panel is prevented from interfering by the brace during rotation, the angle range that the solar panel can be rotated is increased, and even when the solar panel is rotated, the brace is supported stably at two points or more There is an advantage to this.

A plurality of through-holes are formed in the lower portion of the brace so that the angle between the ground and the brace can be adjusted according to the arrangement angle of the solar panel so that the support can be more stably supported.

A fixing part is disposed between the solar plate and the brace, and the fixing part is provided with two or more plates spaced apart from each other, and an upper portion of the brace is disposed between the fixing parts spaced apart from each other so that the solar plate is fixed to the fixing part. It is not interfered by, and the front and rear of the brace is fastened to the fixing portion can be secured to the brace to the fixing portion.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention in detail as follows.

For reference, among the components of the present invention to be described below, the same components as the prior art will be referred to the above-described prior art, and a detailed description thereof will be omitted.

1 is a perspective view of a solar panel support device according to a preferred embodiment of the present invention, Figure 2 is a side view of the solar panel support device of Figure 1, Figure 3 is a state diagram using the solar panel support device of Figure 1, Figure 4 5 is a partial perspective view of FIG. 1, FIG. 6 is a partially enlarged perspective view of FIG. 1, and FIG. 7 is a partial perspective view of a solar panel support apparatus according to another embodiment of the present invention.

As shown in Figure 1 to 7, the solar panel support device of the present embodiment comprises a brace 100 for supporting the solar panel 700, the brace 100 is provided with two or more, the brace The 100 is arranged to narrow the gap between each other toward the top.

The solar panel 700 is formed in a rectangular plate shape and a plurality of solar panels 700 are connected to each other to absorb a lot of sunlight at once.

The plurality of solar panels 700 are connected to each other by a connection portion 710 disposed on the back.

The connection parts 710 are disposed to be spaced apart from each other in the vertical direction, and are installed perpendicular to the rear surface of the solar panel 700.

The connection part 710 may be bent to form a bent portion in contact with the solar panel 700 so as to increase the contact area between the connection unit 710 and the solar panel 700 to be stably connected. In addition, one more bent portion is formed at the free end of the connecting portion 710 to face the bent portion.

Therefore, the cross-sectional shape of the connecting portion 710 is a '' 'shape.

The connection part 710 is installed such that the bent part faces each other with the bent part of the adjacent connection part 710.

As such, the connection part 710 may be disposed to connect the solar panels 700 to each other more robustly and stably.

The prop 100 supports the solar panel 700 so that the solar panel 700 can absorb the sunlight efficiently.

The brace 100 is provided with two or more, the brace 100 is disposed so that the interval between each other becomes narrower toward the top.

In this embodiment, the prop 100 is provided with three, the prop 110 is disposed inclined with respect to the ground in front and rear, respectively, and the prop 120 is disposed perpendicular to the ground between the inclined prop 110 ).

The two props 110 which are disposed to be inclined are arranged to be narrower toward the top, that is, closer to the rotation center of the solar panel 700.

Therefore, each prop 100 is narrower the interval between each other toward the top.

These, three braces 100 are arranged along the direction in which the solar panel 700 is rotated. That is, when the solar panel 700 is rotated from the front to the rear, the prop 100 is disposed along the front and rear directions, and when the solar plate 700 is rotated from the left to the right, the prop 100 is disposed along the left and right directions.

In the upper portion of the brace 100, two upper through-holes are formed above and below.

A plurality of through holes are formed in the lower portion of the brace 100.

A plurality of through holes formed in the lower portion of the brace 100 is formed along the left and right directions.

Preferably, a plurality of through holes formed in the lower portion is formed along an arc shape.

Due to the through hole, the through hole into which the bolt is inserted can be changed according to the arrangement angle of the solar panel 700, and the angle between the ground and the prop 100 can be adjusted. Therefore, the solar panel 700 can be more stably supported.

Unlike the foregoing, the angle of the brace 100 may be changed by forming a long hole formed in the left and right directions without forming a plurality of through holes.

In addition, an auxiliary through hole may be further formed below the brace 100 so as to be on the through hole formed along the arc shape. The auxiliary through hole is disposed near the center point of the arc.

When changing the angle of such a brace 100, loosening the bolts fastened to the auxiliary through hole, the brace 100 becomes rotatable around the auxiliary through hole, and after rotating the brace 100 When the bolt is inserted into the changed through hole, the angle adjustment is completed. In this way, it is possible to adjust the angle of the brace 100 without completely leaving the brace 100 from the support bracket 410 it is easy to adjust the angle.

Furthermore, each prop 100 is formed with a control through hole to be disposed between the upper through hole and the through hole formed in the lower portion.

The fixing part 200 is disposed between the solar panel 700 and the brace 100.

Fixing part 200 is provided with two plates spaced apart from each other, the plate is formed in a triangular shape so that the width becomes narrower toward the top.

Through-holes 202 and 203 are formed in both lower and central portions of the two plates of the fixing part 200, respectively.

The through holes 202 and 203 are formed in the fixing part 200 two above and below.

An upper portion of the brace 100 is disposed between the plates of the fixing portion 200 in the installed state, and the through holes 202 and 203 of the fixing portion 200 are disposed at positions corresponding to the upper through holes of the brace 100. The bolt 100 is inserted into the through holes 202 and 203 formed in the two plates and the upper through hole so that the nut is fastened to the end of the bolt so that the brace 100 is fixed to the fixing part 200.

As such, the fixing part 200 becomes narrower toward the top so that the fixing part 200 does not interfere when the solar panel 700 is rotated, and at the same time, the lower part is wide so that a plurality of props 100 are firmly fastened so that a plurality of props ( The load of the solar panel 700 in the 100 may be evenly distributed. In addition, the front and rear of the brace 100 may be fastened to the fixing part 200 so that the brace 100 may be firmly fixed to the fixing part 200.

In addition, the upper portion of the fixing part 200 is formed with the insertion hole 201 is inserted into the rotating shaft.

Although the longitudinal support part 500 fixed to the solar panel 700 rear surface by the fixing part 200 protrudes from the solar panel 700 rear surface, a part of the longitudinal support part 500 is rotated apart from the fixing part 200. It is inserted between the plates so that the solar panel 700 is not interfered by the fixing part 200.

On the other hand, the fixing part 200 is installed so that the insertion hole 201 is disposed in the middle position of the top and bottom of the solar panel 700. In this case, the rotation angle of the solar panel 700 can be freely adjusted to a reference point (solar plate horizontal) 0 degrees to left and right 45 degrees.

Unlike the above, the insertion hole 201, that is, the center of rotation of the solar panel 700, the fixing part 200 and the brace 100 is disposed so as to be biased to the top or bottom of the solar panel 700 May be That is, when the solar panel 700 is inclined, the fixing part 200 and the prop 100 are disposed to be closer to the end close to the ground. When the center of rotation is eccentrically disposed as described above, the rotational range of the solar panel 700 can be further widened by preventing the top or bottom of the solar panel 700 from being rotated by touching the ground.

Further, as described above, the longitudinal support portion 500 is formed with a plurality of insertion holes into which the rotation shaft is inserted so that the positions of the fixing portion 200 and the brace 100 can be selectively changed, and both ends of the tracking means can be fixed by bolting. A plurality of through holes are formed.

The vertical support part 500 is fixed to the back of the solar panel 700 and is rotatably mounted to the fixing part 200 so that the solar panel 700 is rotatably installed in the support device.

Insertion hole is formed in the center of the longitudinal support portion 500, when installed, the longitudinal support portion 500 is disposed between the two plates of the fixing portion 200 and the rotation shaft is inserted into the insertion hole and the insertion hole of the fixing portion 200 Inserted, the longitudinal support portion 500 is rotatably mounted to the fixed portion 200.

The vertical support part 500 is disposed on the rear surface of the solar panel 700 in the vertical direction.

Longitudinal support portion 500 is a flange is formed at both ends, the flange is formed with a plurality of through holes to which the bolt is fastened.

Thus, the flange is formed so that the longitudinal support portion 500 can be easily installed on the solar panel 700.

The tracking means 300 rotates the solar panel 700 and maintains the state at the rotated angle.

The tracking means 300 may be provided in a variety of ways as described in the prior art, in this embodiment the tracking means 300 is bent like an arc, and the angle adjusting through-hole 301 in the longitudinal direction It is provided with bars formed.

Preferably, the tracking means 300 has an arc shape with a central angle of 180 degrees.

Both ends of the tracking means 300 are bolted and fixed to the longitudinal support 500, and their positions are fixed relative to the solar panel 700.

The control through hole and the angle control through hole 301 is formed in a circular or polygonal shape, it can be fixed by inserting a pin having a polygonal bolt or cross-sectional shape.

Rotating the solar panel 700, so that the solar panel 700 and the longitudinal support portion 500 and the tracking means 300 is rotated relative to the brace 100, at this time to the control through hole of the brace 100 By inserting a bolt into the adjacent angle control through-hole 301, the solar panel 700 can maintain the changed angle.

In another embodiment of the tracking means 300, as shown in FIG. 7, the gear teeth 302 are formed along the longitudinal direction on the lower outer peripheral surface of the tracking means 300, and the gear teeth 302 and the gear teeth 302. The interlocking pinion 800 may be provided below the tracking means 300. That is, the tracking means 300 serves as a rack.

When the pinion 800 is rotated as described above, the tracking means 300 is rotated by being engaged with the tracking means 300 to rotate the solar panel 700.

Furthermore, a driving means 810 such as a motor for rotating the pinion 800 may be further provided to automatically rotate.

When the solar panel 700 is lengthened in the width direction, the solar panel 700 is provided with a plurality of support devices to support the solar panel 700.

The lateral support part 600 is disposed on the rear surface of the solar panel 700 in the width direction to support the solar panel 700 which is extended in the width direction so as not to bend.

The lateral support 600 is fixed to the solar panel 700 and is connected to the longitudinal support 500 so as to be rotated relative to the brace 100.

In addition, the lateral support 600 is provided with two lateral support 600 so as to be disposed on the upper and lower portions of the tracking means 300 or the longitudinal support 500, respectively, and fixed to the upper and lower portions of the solar panel 700, respectively.

In detail, the horizontal support part 600 is installed at the bent portion of the connection part 710, and the horizontal support part 600 is installed to be spaced apart from the rear surface of the solar panel 700.

The lateral support 600 is provided by a band-shaped auxiliary bracket surrounding the outer circumferential surface of the lateral support 600.

Both ends of the auxiliary bracket are bolted so that the lateral support portion 600 and the solar panel 700 are connected to the bent portion of the connection portion 710.

The lateral support part 600 is formed of a pipe having a rectangular cross section, and flanges 610 are formed at both ends thereof.

Bolting holes are formed in the flange 610 to be close to each corner.

As described above, when the flange 610 is formed such that the width of the solar panel 700 is longer than the length of the horizontal support 600, the horizontal support 600 connects the flanges 610 of the plurality of horizontal support 600 to each other. Can be used.

The longitudinal support part 500 is installed on the lateral support part 600 by the connecting bracket 620 so that the tracking means 300 and the longitudinal support part 500 are fixed relative to the solar panel 700.

The connection bracket 620 includes a horizontal plate and a protrusion plate 621 vertically spaced apart from each other on both sides of the horizontal plate.

Through-holes are formed in the horizontal plate, and the horizontal plate is disposed to face the flange of the longitudinal support part 500 and then fastened to the flange.

One of the protrusion plates 621 is disposed between the horizontal support part 600 and the solar panel 700, and the other is disposed outside the horizontal support part 600 to bolt the horizontal support part 600 and the protrusion plate 621. do.

Protruding plate 621 is formed in a triangular shape so that the width becomes narrower toward the top.

The pedestal 400 is disposed in the front-rear direction and fixes the device to the ground.

A support bracket 410 is installed on the upper surface of the pedestal 400 to connect the pedestal 400 and the brace 100.

The supporting bracket 410 is formed in a plate shape and includes a horizontal portion 413 fixed to the pedestal 400 and a vertical portion 412 formed to be spaced apart from each other vertically on both sides of the upper surface of the horizontal portion 413.

A plurality of through holes 411 are formed at positions corresponding to the auxiliary through holes and through holes formed along an arc shape formed at the bottom of the prop 100, respectively, on the vertical portions 412 on both sides.

The brace 100 is disposed between the vertical portions 412 on both sides, and bolts are inserted into the through holes formed in the brace 100 and the vertical portion 412 so that the brace 100 and the vertical portion 412 are fastened. do.

The solar panel support apparatus of this configuration can rotate the solar panel 700 according to the altitude of the sun, so that it can effectively absorb the solar light, and at the same time, the installation of the device is simple and the installation cost is low.

Further, even when the wide plate-shaped solar panel 700 is rotated, the closer the distance between the plurality of props 100 is closer to the ground, the narrower the closer the center of rotation of the solar panel 700 is, so that the solar plate 700 is rotated when the prop By preventing the interference by the 100, the angle range in which the solar panel 700 can be rotated is increased, and even if the solar panel 700 is rotated, the prop 100 is stably supported at two or more points. I can support it.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be modified or modified in various ways without departing from the spirit and scope of the present invention described in the following claims. It can be modified.

 According to the solar panel support device of the present invention as described above, has the following effects.

In the photovoltaic plate support device that the solar plate is rotatably installed, comprising a brace for supporting the solar plate, the brace is provided with two or more braces, the brace is arranged so that the space between each other narrower toward the top As a result, the solar panel is prevented from interfering with the props during rotation, thereby increasing the angle range in which the solar panels can be rotated, and the props can be stably supported at two or more points even when the solar panels are rotated. .

A plurality of through-holes are formed in the lower portion of the brace so that the angle between the ground and the brace can be adjusted according to the arrangement angle of the solar panel so that the support can be more stably supported.

A fixing part is disposed between the solar plate and the brace, and the fixing part is provided with two or more plates spaced apart from each other, and an upper portion of the brace is disposed between the fixing parts spaced apart from each other so that the solar plate is fixed to the fixing part. It is not interfered by, and the front and rear of the brace is fastened to the fixing portion can be secured to the brace to the fixing portion.

Claims (3)

In the solar panel support device that the solar panel is rotatably installed, Including the props that support the solar panels, The brace is provided with two or more, the brace is disposed so that the gap between each other narrower toward the top, Both ends are fixed to the solar panel includes an arc-shaped bar for maintaining the solar plate at a rotated angle, The brace is provided with a control through hole, The bar has a plurality of angle adjusting through-holes are formed along the longitudinal direction of the solar panel support device, characterized in that one side of the bar is installed on the brace. The method of claim 1, Through holes are formed in the lower portion of the brace, A pedestal is provided for fixing the device to the ground, The pedestal is provided with a support bracket connecting the pedestal and the brace, The support bracket includes a vertical portion formed vertically spaced apart from each other, And a plurality of through holes formed in the vertical portion along an arc shape. In the solar panel support device that the solar panel is rotatably installed, Including the props that support the solar panels, The brace is provided with two or more, the brace is disposed so that the gap between each other narrower toward the top, The fixing part is disposed between the solar plate and the brace, The fixing part is provided with two or more plates spaced apart from each other, the upper portion of the brace is disposed between the fixing parts spaced apart and fastened, Both ends are fixed to the solar panel includes an arc-shaped bar for maintaining the solar plate at a rotated angle, Gears are formed along the longitudinal direction on the lower outer peripheral surface of the bar, And a pinion engaged with the gear and a driving means for rotating the pinion.

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