KR200470975Y1 - Solar Generation Apparatus - Google Patents

Abstract

In the photovoltaic device, the vertical pillars 10 and the first vertical pillars 11 installed upwardly to be spaced apart from each other in parallel to the ground or the structure so that the first and second vertical pillars 11 and 12 are spaced apart from each other. One side is supported and the first horizontal frame portion 20 and one side is inclined upwardly toward the second vertical pillar 12 and one side is connected to the other side of the first horizontal frame portion 20 and extended downward inclined the other side A second horizontal frame part 30 fixed to the upper end of the second vertical pillar 12 and a first supported by the intermediate support means 180 so as to be parallel and spaced apart from the upper part of the first horizontal frame part 20. A first downward support frame 50 and the first upward support frame 50 which are supported by the intermediate support means 180 so as to be parallel to and spaced apart from the first upward support frame 40 and the second horizontal frame part 30. 40 and a plurality of short-circuit spaced apart from the second downward support frame 50 to support each of the solar panels (P) ) And the first post 150 and the first upward support which are installed upright on each of the first upward support frame 40 and the second downward support frame 50 to support one side of the solar panel P. A second post 60 which is installed upright on each of the frame 40 and the second downward support frame 50 and supports the other side of the solar panel P while pairing with the first post 150; A clamp 70 provided on the upper ends of the first post 150 and the second post 60 to fix the solar panel P to the first post 150 and the second post 60. It is a bidirectional inclined fixed photovoltaic device to which an improved clamping means is applied.

Description

Bidirectional Inclined Stationary PV System with Improved Clamping Device {Solar Generation Apparatus}

The present invention relates to a two-way sloped photovoltaic device.

Conventional photovoltaic devices have been biaxial tracking, uniaxial tracking, manually adjustable single tracking, and stationary. In the case of solar tracking solar power generation device, the efficiency of photovoltaic power generation due to tracking increases, but there is a problem in that it does not give a large gain compared to the fixed type in consideration of the configuration of the tracking device, durability of the device, and energy consumption for tracking.

Patent Document 10-1028159, "Main frame; Subframe rotatably installed on the main frame; A plurality of supports installed on the subframe; Mounting frame rotatably installed on both ends of the support; And on the mounting frame A module frame provided with a plurality of solar modules, a moving member provided to enable linear movement in a direction crossing the mounting frame, and a vertical movement of the moving member to rotate the mounting frame in a vertical direction. One end is rotatably installed on the movable member, and the other end is connected to the mounting frame, and the other end is installed on the movable member and is stretched in the linear movement direction of the movable member to linearly move the movable member. And a stretchable unit and a rotation driving unit for rotating the subframe. The post value. " In the case of the support frame or the clamp used in the registered patent and the photovoltaic device, the size of the frame is increased for the setting of the inclination and the installation is difficult because the device is heavy, and the manufacturing cost increases and the manufacturing process is complicated.

The present invention is fixed and bidirectional inclined solar power generating device of the structure of the power generation efficiency is close to the tracking type, because the fixed type is more robust than the tracking type and has excellent ventilation and durability to withstand the strong external force such as typhoon after installation. To provide.

The present invention is to secure the solar panel to the basic frame inclined with a clamp, light and simple configuration, easy to manufacture and light, easy to install when installing the solar panel, and durable to withstand strong external forces such as typhoon after installation To provide a two-way tilted fixed photovoltaic device with a superior improved module clamp.

In the photovoltaic device,

A vertical pillar 10 installed upwardly with the first and second vertical pillars 11 and 12 spaced apart from each other in parallel with the ground or the structure;

A first horizontal frame part 20 supported at one end of the first vertical pillar 11 and extending upwardly inclined toward the second vertical pillar 12;

A second horizontal frame portion 30 having one side connected to the other side of the first horizontal frame portion 20 and extending downward inclined and the other side fixed to an upper end of the second vertical pillar 12;

A first upward support frame (40) supported by the intermediate support means (180) so as to be parallel and spaced above the first horizontal frame portion (20);

A second downward support frame (50) supported by the intermediate support means (180) so as to be parallel and spaced above the second horizontal frame portion (30);

A solar panel (P) for supporting a plurality of short-circuited parts spaced apart from the first upward support frame (40) and the second downward support frame (50);

A first post 150 installed upright on each of the first upward support frame 40 and the second downward support frame 50 to support one side of the solar panel P;

A second upright installed in each of the first upward support frame 40 and the second downward support frame 50 to support the other side of the solar panel P while forming a pair with the first post 150; A post 60;

A clamp 70 provided on the upper ends of the first post 150 and the second post 60 to fix the solar panel P to the first post 150 and the second post 60. Two-way inclined fixed photovoltaic device to which the improved clamping means is applied.

According to the present invention, the fixed and bidirectional power generation efficiency is closer to the tracking type, and because it is fixed type, it is more robust than the tracking type, and it is equipped with ventilation and durable structure capable of withstanding strong external force such as typhoon after installation. An apparatus is provided.

According to the present invention, in fixing the solar panel to the base frame inclined, it is light and simple in construction, easy to manufacture and light, and easy to install when installing the solar panel, and endurable against strong external force such as typhoon after installation. There is provided a photovoltaic device with this superior structurally improved module clamp.

1 is a plan view of a bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention.
Figure 2 (a, b, c) is a side view and a detailed side view of the two-way inclined fixed photovoltaic device according to an embodiment of the present invention.
Figure 3 is an overall configuration of the two-way inclined fixed photovoltaic device according to an embodiment of the present invention.
Figure 4 is a detailed view of a two-way inclined fixed photovoltaic device post according to an embodiment of the present invention.
Figure 5 is a detailed configuration of the bidirectional inclined fixed photovoltaic device post according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention will be described in detail. 1 is a plan view of a bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention. 2 (a, b, c) is a side view and a detailed side view of the bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention. 3 is an overall configuration diagram of a bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention. Figure 4 is a detailed view of the two-way inclined fixed photovoltaic device post according to an embodiment of the present invention. 5 is a detailed configuration of the bidirectional inclined fixed photovoltaic device post according to an embodiment of the present invention.

As shown in Figures 1 to 5, the two-way inclined fixed photovoltaic device according to an embodiment of the present invention is upwardly spaced apart from the first and second vertical columns (11, 12) upright side by side on the ground or structure. One side is supported at an upper end of the installed vertical pillar 10 and the first vertical pillar 11 and the first horizontal frame portion 20 and one side of which are inclined upwardly toward the second vertical pillar 12. The second horizontal frame portion 30 and the first horizontal frame portion 20, which are connected to the other side of the first horizontal frame portion 20 and are inclined downwardly, and whose other side is fixed to the upper end of the second vertical pillar 12. ) To the intermediate support means 180 parallel and spaced apart from the upper portion of the first upward support frame 40 and the second transverse frame portion 30 supported by the intermediate support means 180 so as to be parallel and spaced apart from each other. The second downward support frame 50 and the first upward support frame 40 and the second lower supported by A plurality of spaced apart on the support frame 50, a short circuit is configured to include a solar panel (P) is supported, respectively.

The first post 150 and the first upward support frame (1) are installed upright on each of the first upward support frame 40 and the second downward support frame 50 to support one side of the solar panel P. 40 and the second downward support frame 50 are installed in an upright position, respectively, to form a pair with the first post 150 to support the other side of the solar panel P and the second post 60. It is configured to include a clamp 70 provided on the upper end of the first post 150 and the second post 60 to fix the solar panel (P) to the first post 150 and the second post (60). .

As shown in FIGS. 1 to 5, the bidirectional inclined fixed photovoltaic device according to an embodiment of the present invention includes a mountain point where the first horizontal frame part 20 and the second horizontal frame part 30 meet each other. At least two auxiliary pillars 80 upright are formed in the upper part, and a blind frame 90 is formed on the auxiliary pillars 80, and the first horizontal frame part 20 and the second The solar panel P is not installed at a mountain point where the horizontal frame part 30 meets, and it is preferable that the air is vented through the space 85.

3 to 5, in the bidirectionally inclined fixed photovoltaic device according to an embodiment of the present invention, the first post 150 is vertically formed body plate 151 and the first coupling hole ( 153a is formed, the lower support plate 153 is formed to protrude horizontally at the bottom of the body plate 151 and protrudes vertically on both sides of the body plate 51, but protrudes toward the lower support plate 153 protrudes Both side plates 152 and the second coupling hole (154a) is formed, it is preferable that the upper support plate 154 protruding horizontally formed on the upper end of the body plate (151).

As shown in FIGS. 3 to 5, the body plate 151, the lower support plate 153, the both side plates 152, and the upper support plate 154 are formed by folding one plate and partially folding it.

As shown in FIGS. 3 to 5, the plurality of solar panels P which are respectively supported by being short-circuited to be spaced apart from the first upward supporting frame 40 are configured to be inclined upwardly relative to the first upward supporting frame 40. The second post 60 is higher than the first post 150, and one side of the solar panel P is supported by the first post 150 having a small height, and the solar panel P The other side of the second post 60 having a height greater than the first post 150 is supported by each solar panel (P) is preferably configured to be inclined upwardly compared to the first upward support frame (40).

Although the present invention has been described with reference to the above-mentioned preferred embodiment, the scope of the present invention is not limited to these embodiments, the scope of the present invention is defined by the following utility model claims to be equivalent to the present invention It will include various modifications and variations that fall within the scope.

The reference numerals described in the utility model claims below are merely to aid the understanding of the invention and do not affect the interpretation of the scope of rights, and the scope of the rights should not be construed narrowly by the reference numerals described.

10: vertical pillar portion 11: the first vertical pillar
12: second vertical machine 20: first horizontal frame portion
30: second horizontal frame portion 40: first upward support frame
50: second down support frame 60: second post
70: clamp 80: auxiliary pillar
85: space part 90: Garimprem
150: first post 151: body plate
152: both side plates 153: lower support plate
153a: first coupling hole 154: upper support plate
154a: second coupling hole 180: intermediate support means
P: solar panel

Claims (5)

delete In the photovoltaic device,
A vertical pillar 10 installed upwardly with the first and second vertical pillars 11 and 12 spaced apart from each other in parallel with the ground or the structure;
A first horizontal frame part 20 supported at one end of the first vertical pillar 11 and extending upwardly inclined toward the second vertical pillar 12;
A second horizontal frame portion 30 having one side connected to the other side of the first horizontal frame portion 20 and extending downward inclined and the other side fixed to an upper end of the second vertical pillar 12;
A first upward support frame (40) supported by the intermediate support means (180) so as to be parallel and spaced above the first horizontal frame portion (20);
A second downward support frame (50) supported by the intermediate support means (180) so as to be parallel and spaced above the second horizontal frame portion (30);
A solar panel (P) for supporting a plurality of short-circuited parts spaced apart from the first upward support frame (40) and the second downward support frame (50);
A first post 150 installed upright on each of the first upward support frame 40 and the second downward support frame 50 to support one side of the solar panel P;
A second upright installed in each of the first upward support frame 40 and the second downward support frame 50 to support the other side of the solar panel P while forming a pair with the first post 150; A post 60;
A clamp 70 provided on the upper ends of the first post 150 and the second post 60 to fix the solar panel P to the first post 150 and the second post 60. Composed of,

At least two auxiliary pillars 80 which are erected upwards are formed at a mountain point where the first horizontal frame part 20 and the second horizontal frame part 30 meet each other.
The concealment frame 90 is formed on an upper portion of the auxiliary pillar 80,
Improvement is characterized in that the solar panel (P) is not installed at the mountain (M) point where the first horizontal frame portion 20 and the second horizontal frame portion 30 meets through the space portion 85 Bi-directional oblique fixed photovoltaic device with clamping means. In the photovoltaic device,
A vertical pillar 10 installed upwardly with the first and second vertical pillars 11 and 12 spaced apart from each other in parallel with the ground or the structure;
A first horizontal frame part 20 supported at one end of the first vertical pillar 11 and extending upwardly inclined toward the second vertical pillar 12;
A second horizontal frame portion 30 having one side connected to the other side of the first horizontal frame portion 20 and extending downward inclined and the other side fixed to an upper end of the second vertical pillar 12;
A first upward support frame (40) supported by the intermediate support means (180) so as to be parallel and spaced above the first horizontal frame portion (20);
A second downward support frame (50) supported by the intermediate support means (180) so as to be parallel and spaced above the second horizontal frame portion (30);
A solar panel (P) for supporting a plurality of short-circuited parts spaced apart from the first upward support frame (40) and the second downward support frame (50);
A first post 150 installed upright on each of the first upward support frame 40 and the second downward support frame 50 to support one side of the solar panel P;
A second upright installed in each of the first upward support frame 40 and the second downward support frame 50 to support the other side of the solar panel P while forming a pair with the first post 150; A post 60;
A clamp 70 provided on the upper ends of the first post 150 and the second post 60 to fix the solar panel P to the first post 150 and the second post 60. Composed of,


The first post 150,
Body plate 151 formed vertically,
A first coupling hole 153a is formed, the lower support plate 153 is formed to protrude horizontally at the lower end of the body plate 151,
Both side plates 152 protruding from both sides of the body plate 151 perpendicularly and protruding toward the protruding lower support plate 153,
A second coupling hole 154a is formed, the upper support plate 154 protruding horizontally on the top of the body plate 151,
Bi-directional inclined fixed photovoltaic device applied with improved clamping means, characterized in that consisting of. The method of claim 3,
The body plate 151, the lower support plate 153, the both side plate 152 and the upper support plate 154 is formed by folding and folding a single plate material, characterized in that the bidirectional inclined fixed solar applied clamping means Power generation device. The method of claim 3,
A plurality of solar panels (P), each of which is short-circuited to be spaced apart from the first upward support frame 40 and is respectively inclined upwardly relative to the first upward support frame 40,
The second post 60 is higher than the first post 150,
One side of the solar panel P is supported by the first post 150 having a small height, and the other side of the solar panel P has a second post 60 having a height greater than that of the first post 150. By supporting each of the solar panels (P) is a two-way inclined fixed photovoltaic device with improved clamping means, characterized in that configured to be inclined upward relative to the first upward support frame (40).

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