KR101430109B1 - Movable solar cell module assembly - Google Patents

Abstract

The present invention relates to a solar cell module assembly that is easy to carry and move, and is easy to install and store. And a support assembly configured to support the solar cell module while supporting the solar cell module while supporting the solar cell module at a predetermined angle inclination from a front direction to a backward direction, wherein the support assembly supports the solar cell module in forward and backward directions along a back surface of the solar cell module Two frame parts disposed at left and right sides with a predetermined distance therebetween; Two front support portions supporting the front portion of the frame portion and extending in a direction perpendicular to the ground plane; Two rear supports supporting the rear portion of the frame portion; And a wheel provided at one end of the front supporting part and one end of the rear supporting part, wherein the frame part detachably supports the solar cell module.

Description

[0001] MOVABLE SOLAR CELL MODULE ASSEMBLY [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar cell module assembly, and more particularly, to a solar cell module assembly that is easy to carry and move and is easy to install and store.

Alternative energy is being developed as fossil fuels such as petroleum and coal are depleted. Especially, energy resources utilizing solar energy are being actively developed.

Power generation technologies that utilize solar energy to produce electricity include solar power generation that uses solar heat to drive a heat engine to generate electricity, and solar power that generates electricity from solar cells using solar light.

Here, a solar cell used for solar power generation includes a semiconductor compound element that converts sunlight directly into electricity.

In the solar cell used for the solar power generation, silicon and a composite material are usually used. Specifically, a solar cell uses a P-type semiconductor and an N-type semiconductor in combination, and utilizes a photoelectric effect to generate electricity by receiving sunlight.

Most of the solar cells are composed of large-area P-N junction diodes, and the electromotive force generated at the opposite ends of the P-N junction diode is connected to an external circuit.

The minimum unit of such a solar cell is referred to as a cell. Actually, the solar cell is rarely used as a cell.

This is because the voltage required from one cell is very small, about 0.5V, compared to several tens of V or several hundreds of V, which is necessary for practical use. Therefore, a plurality of unit solar cells can be connected in series or parallel .

In addition, when the solar cell is used outdoors, it is subjected to various harsh environments. Therefore, in order to protect a large number of cells connected with a necessary unit capacity in a harsh environment, a solar cell module solar cell module).

The solar cell module assembly according to the prior art includes a solar cell module composed of a plurality of cells and a support assembly for stably supporting and fixing the solar cell module to an installation space. The support assembly according to the related art is stably fixed with the roof or the ground of the building as the installation space.

However, since the support assembly according to the related art is mainly used for large-capacity solar power generation, there is a problem that a large installation space is required and the installation space is considerably large. In order to stably support the solar cell module, There is an inconvenience that the installation process of the solar cell module and the dismantling process require much time and labor.

Particularly, when the solar cell module assembly according to the related art is used for small-capacity solar power generation, there is a problem that installation cost and demolition cost are excessively increased compared to the power production capacity.

Accordingly, it is an object of the present invention to provide a solar cell module assembly capable of solving the problems of the prior art.

Specifically, it is an object of the present invention to provide a solar cell module assembly for small capacity power generation.

It is still another object of the present invention to provide a solar cell module assembly that is easy to carry and move.

Still another object of the present invention is to provide a solar cell module assembly that is easy to install, demount, and store.

According to an embodiment of the present invention, there is provided a solar cell module comprising: a solar cell module; And a support assembly configured to support the solar cell module while supporting the solar cell module while supporting the solar cell module at a predetermined angle inclination from a front direction to a backward direction, wherein the support assembly supports the solar cell module in forward and backward directions along a back surface of the solar cell module Two frame parts disposed at left and right sides with a predetermined distance therebetween; Two front support portions supporting the front portion of the frame portion and extending in a direction perpendicular to the ground plane; Two rear supports supporting the rear portion of the frame portion; And a wheel provided at one end of the front supporting part and one end of the rear supporting part.

Preferably, the rear support portion includes a first support member having one end coupled to a rear portion of the frame portion and the other end coupled to a portion of the front support portion located at a predetermined height of the front support portion, And a second support member including one end coupled to a portion of the rear surface of the first support member positioned higher than the other end of the first support member and the other end of the wheel.

In addition, preferably, a first connecting member for connecting the two front supporting portions is provided between the two front supporting portions, and a second connecting member for connecting the two rear supporting portions is provided between the two rear supporting portions .

Preferably, at least one of the one end portion of the front support portion and the one end portion of the rear support portion is provided with a braking portion for preventing the wheels from rolling.

According to another embodiment of the present invention, there is provided a solar cell module comprising: a solar cell module; And a support assembly configured to support the solar cell module while supporting the solar cell module while supporting the solar cell module at a predetermined angle inclination from a front direction to a backward direction, wherein the support assembly supports the solar cell module in forward and backward directions along a back surface of the solar cell module Two frame parts disposed at left and right sides with a predetermined distance therebetween; Two front support portions supporting the front portion of the frame portion and extending in a direction perpendicular to the ground plane; Two rear supports supporting the rear portion of the frame portion; And a wheel provided at one end of the front supporting part and one end of the rear supporting part, wherein the frame part detachably supports the solar cell module.

Preferably, the frame portion includes a fixed frame, which is supported by the front support portion and the rear support portion and is hollow and includes a front grip portion for holding a frame portion located at a front portion of the solar cell module, An insertion extension portion slidable into the fixed frame through a rear end portion of the fixed frame and a rear grip portion extending from the insertion extension portion and holding a frame portion located at a rear portion of the solar cell module, And a moving frame.

Preferably, a plurality of first latching grooves spaced apart from each other by a predetermined distance in the longitudinal direction is provided on one side surface of the insertion extending portion, and one side surface of the rear portion of the fixing frame is communicated with the first latching groove, And a first through hole through which the fixing screw pin passes through by a screw fastening method.

Preferably, the solar cell module further includes two front gripping grooves and two rear gripping grooves which are engaged with the front gripping portion and the rear gripping portion.

Preferably, the rear support portion includes a first support member including one end portion connected to the rear portion of the frame portion and the other end portion coupled to a portion of the front support portion located at a predetermined height of the front support portion, And a second support member including one end coupled to a portion of the rear surface of the first support member positioned higher than the other end of the first support member and the other end of the wheel.

Preferably, the front support portion is connected to a front portion of the frame by a first hinge connection portion, and one end portion of the first support member is connected to a rear portion of the frame by a second hinge connection portion.

Preferably, the front support portion includes a first fixing member including one end of the wheel, the first fixing member being formed to be hollow and extending higher than the other end of the first support member, And a first moving member provided with a connecting portion and slidable into the fixing member through an upper end of the fixing member.

Preferably, the first moving member is provided with a plurality of second engaging grooves spaced apart from each other by a predetermined distance in the longitudinal direction, and the second engaging groove and the second engaging groove are formed on one side of the upper portion of the first fixing member. And a second through hole through which the second fixing screw pin passes through by a screw fastening method.

Preferably, the first support member includes a second fixation member coupled to one end of the front support portion and the second support member and configured to have a hollow shape, and the second hinge connection portion at one end, A second movable member slidable into the second fixed member through an upper end of the second fixed member, and a plurality of third engaging grooves provided at a predetermined distance in the longitudinal direction on one side of the second movable member, And a third through-hole communicating with the third engaging groove at one side of the upper portion of the second fixing member, the third through-hole being configured to penetrate the third fixing screw pin by a screw fastening method.

Preferably, at least one of the one end portion of the front support portion and the one end portion of the rear support portion is provided with a braking portion for preventing the wheels from rolling.

According to the above-mentioned problem solving means, the present invention can freely move the solar cell module assembly by providing a wheel in the support assembly. Thus, the present invention can easily install and dismount the solar cell module assembly in the yard, garden, or open space.

In addition, the present invention can reduce the storage space of the solar cell module assembly by detachably connecting the solar cell module to the support assembly, thereby improving the storage and portability of the solar cell module assembly. As a result, according to the present invention, the solar cell module assembly can be stored indoors when the weather condition deteriorates (for example, when a sand typhoon occurs, when a typhoon occurs, when it is rainy or the like) The lifetime of the solar cell module assembly can be improved, and the maintenance cost of the solar cell module assembly can be reduced.

In addition, the present invention can improve the fixation force of the solar cell module assembly on the support assembly while facilitating the process of attaching and detaching the solar cell module assembly to the support assembly by configuring the frame unit with the fixed frame and the movable frame.

1 is a schematic perspective view of a solar cell module assembly according to an embodiment of the present invention.
2 is a schematic exploded perspective view of a solar cell module assembly according to an embodiment of the present invention.
3 is a schematic side view of a solar cell module assembly according to an embodiment of the present invention.
4 is a schematic perspective view of a solar cell module assembly according to another embodiment of the present invention.
5 is a schematic exploded perspective view of a solar cell module assembly according to another embodiment of the present invention.
6 is a schematic side view of a solar cell module assembly according to another embodiment of the present invention.
7 is a schematic perspective view of the frame portion of Fig.

Hereinafter, a solar cell module assembly according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic perspective view of a solar cell module assembly 1000 according to an embodiment of the present invention. FIG. 2 is a schematic exploded perspective view of a solar cell module assembly 1000 according to an embodiment of the present invention 3 is a schematic side view of a solar cell module assembly 1000 according to an embodiment of the present invention.

1 to 3, a solar cell module assembly 1000 according to an embodiment of the present invention includes a solar cell module 100, a solar cell module 100, 250 at a predetermined angle inclination while being movable at the same time.

Here, the solar cell module 100 is preferably a small capacity independent solar cell module 100. For example, the solar cell module 100 may be a solar cell module 100 having a power of, for example, 250 W, for generating small capacity electricity. In addition, the solar cell module 100 may be a (stand-alone) solar cell module 100 having a (length) * (length) of (1655 mm) * (993 mm).

However, this is only an example of the solar cell module 100 supported by the support assembly 200 of the present invention, but the present invention is not limited thereto.

The supporting assembly 200 according to the present embodiment includes two frame parts 210 spaced apart from each other by a predetermined distance to support the rear surface of the solar cell module 100 and two frame parts 210 supporting the front part of the frame part 210 Two front supporting parts 230 and two rear supporting parts 250 supporting the rear supporting part 250 of the frame part 210 and two rear supporting parts 250 supporting the front supporting part 230 and the rear supporting part 250, And includes four wheels 300 provided. The number of the frame parts 210, the number of the front supporting parts 230 and the rear supporting parts 250 and the number of the wheels 300 are illustrative and the present invention is not limited thereto, And may be variable according to the specifications (e.g., power output, size, etc.) of the module 100.

The two frame parts 210 support the solar cell module 100 toward the front and rear support parts 250 along the back surface of the solar cell module 100 and are disposed at a predetermined distance from the left and right. The two frame portions 210 are configured to support only a part of the rear surface of the solar cell module 100 with a bar shape so that the size and weight of the frame portion 210 can be reduced, Not only the manufacturing cost of the unit 210 can be reduced, but also the structure of the support assembly 200 can be made compact.

The two front support portions 230 support the vicinity of the front portion or the front portion of the two frame portions 210 (i.e., the rear surface of the frame portion 210), and extend in a direction perpendicular to the ground surface. The front support portion 230 is fixedly coupled to the rear surface of the frame portion 210. For example, the front support portion 230 is coupled to the rear surface of the frame portion 210 with a weld joint.

A wheel 300 is provided at one end of the two front support parts 230. The wheel 300 is rotatably connected to one end of the front support portion 230.

One end of the front support part 230 may be provided with a braking part for preventing the wheel 300 from rolling and / or preventing the body of the wheel 300 from rotating relative to the front support part 230 have. The solar cell module assembly 1000 can be fixed in one place after the solar cell module assembly 1000 is installed and thus the solar cell module assembly 1000 Can be prevented from deviating from the installation place.

Between the two front support portions 230, a first connection member 231 connecting the two front support portions 230 is provided. The first connecting member 231 complements the strength and rigidity of the two front supports 230.

The two rear support portions 250 supports the vicinity of the rear support portion 250 or the rear support portion 250 of the frame portion 210 (i.e., the rear surface of the frame portion 210). The rear support part 250 is fixedly coupled to the rear surface of the frame part 210. For example, the rear support part 250 is coupled to the rear surface of the frame part 210 with a welding part.

The support part of the rear support part 250 includes a first support member 251 coupled to the rear support part 250 of the frame part 210 and a second support member 251 connected to the rear support part 250 of the first support member 251 And a second support member 253 connected to a portion of the first support member 251 to support the rear support portion 250 of the first support member 251 with respect to the installation site.

The first support member 251 has one end coupled to the rear support portion 250 of the frame portion 210 and the other end coupled to the front support portion 230 at a predetermined height And the other end thereof.

The second support member 253 has one end coupled to a portion of the rear support 250 of the first support member 251 that is positioned higher than the other end of the first support member 251, And supports the rear supporting portion 250 of the support member 251 with respect to the installation place and includes the other end where the wheel 300 is provided.

A second connection member 255 is provided between the two rear support portions 250 to connect the two rear support portions 250 (for example, the second support member 253). The second connecting member 255 complements the strength and rigidity of the two rear support portions 250.

A wheel 300 is provided at one end of the two rear support parts 250. The wheel 300 is rotatably connected to one end of the support part of the rear support part 250.

Preferably, the one end of the second support member 253 is provided with a braking portion for preventing the wheel 300 from rolling and / or preventing the body of the wheel 300 from rotating relative to the front support portion 230 . The solar cell module assembly 1000 can be fixed in one place after the solar cell module assembly 1000 is installed and thus the solar cell module assembly 1000 Can be prevented from deviating from the installation place.

The braking unit may be provided on at least one of the one end of the front support unit 230 and the one end of the rear support unit 250.

4 is a schematic perspective view of a solar cell module assembly 1000 according to another embodiment of the present invention. FIG. 5 is a schematic perspective view of a solar cell module assembly 1000 according to another embodiment of the present invention. FIG. 6 is a schematic side view of a solar cell module assembly 1000 according to another embodiment of the present invention, and FIG. 7 is a schematic perspective view of a frame part 210 of FIG.

4 to 7, a solar cell module assembly 1000 according to another embodiment of the present invention includes a solar cell module 100, a solar cell module 100, And a support assembly 200 detachably supporting the solar cell module 100 while supporting the solar cell module 100 while being inclined at a predetermined angle in the direction of the axis 250.

Here, the solar cell module 100 is preferably a small capacity independent solar cell module 100. For example, the solar cell module 100 may be a solar cell module 100 having a power of, for example, 250 W, for generating small capacity electricity. In addition, the solar cell module 100 may be a (stand-alone) solar cell module 100 having a (length) * (length) of (1655 mm) * (993 mm).

However, this is only an example of the solar cell module 100 supported by the support assembly 200 of the present invention, but the present invention is not limited thereto.

The support assembly 200 according to the present embodiment includes two frame portions 210 spaced from each other by a predetermined distance to support the back surface of the solar cell module 100 in a detachable manner, Two rear support parts 250 supporting the rear support part 250 of the frame part 210 and two front support parts 230 supporting the front support part 230 and the rear support part 250 And four wheels 300 provided on the supporting part. The number of the frame parts 210, the number of the front supporting parts 230 and the rear supporting parts 250 and the number of the wheels 300 are illustrative and the present invention is not limited thereto, And may be variable according to the specifications (e.g., power output, size, etc.) of the module 100.

The two frame units 210 detachably support the solar cell module 100 toward the front and rear support portions 250 along the back surface of the solar cell module 100 and are disposed at a predetermined distance from the left and right. The two frame portions 210 are configured to support only a part of the rear surface of the solar cell module 100 with a bar shape so that the size and weight of the frame portion 210 can be reduced, Not only the manufacturing cost of the unit 210 can be reduced, but also the structure of the support assembly 200 can be made compact.

The two frame parts 210 include a fixed frame 211 to which a front supporting part 230 and a rear supporting part 250 supporting part are coupled to the rear surface of the frame part 210, And a movable frame 213 which is connected as far as possible.

The fixed frame 211 (or the rear surface of the fixed frame 211) is supported by the front supporting portion 230 and the rear supporting portion 250 and is hollow, and the rear supporting portion 250 are opened to allow the moving frame 213 to be inserted and slide.

The stationary frame 211 includes a front hinge connection part 216 and a rear hinge connection part 216 to which the front supporting part 230 and the rear supporting part 250 supporting parts are connected at the front part of the rear surface of the fixed frame 211 and the rear supporting part 250, (250) hinge connection (217). The first hinge connection portion 233a of the front support portion 230 is connected to the front hinge connection portion 216 by a pin and the hinge connection portion 217 of the rear support portion 250 is connected to a support portion 250 That is, the second hinge connection part 252 of the first support member 251 of the support part of the rear support part 250 is connected by a pin. That is, the fixing frame 211 is hinged to the front supporting part 230 and the rear supporting part 250 so that the fixing frame 211 is rotatably connected to the front supporting part 230 and the rear supporting part 250 do.

The stationary frame 211 includes a front grasping portion 211a that grasps a rim portion located at a front portion of the solar cell module 100 at a front portion of the stationary frame 211. [ The front grip portion 211a may preferably have a 'C' shape.

In this case, it is preferable that a front grasping groove 110, to which the front grasping portion 211a is engaged, is provided at a rim portion positioned at a front portion of a rim portion of the solar cell module 100. [ As a result, the front grasping portion 211a can prevent the solar cell module 100 from moving left and right in a state where the solar cell module 100 is installed on the supporting assembly 200, It is possible to improve the supporting effect and the fixing effect of the second embodiment.

A first through hole 211b is formed on one side of the rear support part 250 of the fixed frame 211. [ The first through hole 211b is configured to communicate with a first engaging groove 215 of a moving frame 213 to be described later and a first fixing screw pin 212 for preventing sliding of the moving frame 213 is screwed It penetrates through the fastening system.

The movable frame 213 includes an insertion extension portion which is slidable into the fixing frame 211 through an end portion of the rear support portion 250 of the fixed frame 211, And a rear support portion 250 grip portion 214 for holding a rim portion located at a rear support portion 250 of the rear support portion 250.

The grip portion 214 of the rear support portion 250 may have a 'C' shape.

At this time, preferably, the rear portion of the rear supporting portion 250 of the solar cell module 100 is provided with a rear supporting portion 250 holding groove (not shown) 120 may be provided. Therefore, the grip portion 214 of the rear support portion 250 can prevent the left and right movement of the solar cell module 100 in a state where the solar cell module 100 is installed on the support assembly 200, The support effect and the fixing effect of the assembly 200 can be improved.

A plurality of first latching grooves 215 spaced a predetermined distance in the longitudinal direction are provided on one side surface of the insertion extension part. The first latching groove 215 is configured to communicate with the first through hole 211b provided in the fixed frame 211. The first latching groove 215 is screwed into the first through hole 211b, The sliding movement of the moving frame 213 can be prevented and the insertion extending portion of the moving frame 213 can be prevented from sliding to the outside of the fixing frame 211 by the first fixing screw pin 212, The exposed length can be adjusted.

By providing the movable frame 213 and the fixed frame 211 in this manner, even if the specifications (for example, size and the like) of the solar cell module 100 change, the movable frame 213 is drawn out of the fixed frame 211 And the support area of the frame can be increased, thereby improving the compatibility of the support assembly 200.

The two front support portions 230 support the vicinity of the front portion or the front portion of the two frame portions 210 (i.e., the rear surface of the frame portion 210), and extend in a direction perpendicular to the ground surface.

The front support part 230 includes a first fixing member 235 having a wheel 300 and a first movable member 235 configured to be slidable into the first fixing member 235 through the upper end, (233).

The first fixing member 235 includes an end portion of the wheel 300 and an upper end portion of the first fixing member 235 that is opposite to the one end portion of the first fixing member 235, Extended and hollow.

A second through hole is provided on one side of the upper portion of the first fixing member 235. The second through hole communicates with the second engaging groove 233b of the first shifting member 233 to be described later, and the second fixing screw pin 236 is configured to pass through the screw fixing manner.

The first moving member 233 is configured to be slidable into the first fixing member 235 through the upper end of the first fixing member 235, The first hinge connection part 233a is hinged to the front hinge connection part 216 of the fixed frame 211. The first hinge connection part 233a is hinged to the front hinge connection part 216 of the fixed frame 211. [

A plurality of second latching grooves 233b spaced a predetermined distance in the longitudinal direction are provided on one side of the first shifting member 233. The second engaging groove 233b is configured to communicate with the second through hole provided in the fixing member, and the second engaging groove 233b is configured to communicate with the second through- The first movable member 233 can be prevented from sliding and the length of the first movable member 233 exposed to the outside of the fixed frame 211 can be adjusted.

By configuring the front supporting portion 230 with the first moving member 233 and the first fixing member 235, the supporting angle of the solar cell module 100 (or the angle of the sun) The incident angle of sunlight of the battery module 100) can be changed. As a result, the efficiency of the solar cell module 100 can be kept constant in the region where the altitude of the southern portion of the sun varies according to the season.

A wheel 300 is provided at one end of the two front support parts 230. The wheel 300 is rotatably connected to one end of the front support portion 230.

One end of the front support part 230 may be provided with a braking part for preventing the wheel 300 from rolling and / or preventing the body of the wheel 300 from rotating relative to the front support part 230 have. The solar cell module assembly 1000 can be fixed in one place after the solar cell module assembly 1000 is installed and thus the solar cell module assembly 1000 Can be prevented from deviating from the installation place.

A first connecting member 231 for connecting the two front supporting portions 230 is provided between the two front supporting portions 230 (for example, a fixing member). The first connecting member 231 complements the strength and rigidity of the two front supports 230.

The support part of the rear support part 250 includes a first support member 251 connected to the rear support part 250 of the frame part 210 (or the front hinge connection part 216 of the frame part 210) And a second supporting member 253 connected to a part of the rear supporting part 250 of the supporting member 251 and supporting the rear supporting part 250 of the first supporting member 251 with respect to the installation place.

The first support member 251 has one end connected to the rear support part 250 of the frame part 210 (or near the rear support part 250 part of the frame part 210) and the one end part connected to the front support part 230 And a second end coupled to a portion of the front support 230 at a predetermined height. The first support member 251 is provided at one end thereof with a second hinge connection portion 252 connected to the hinge connection portion 217 of the rear support portion 250 of the fixed frame in a hinge manner.

Preferably, the first support member 251 may be configured similar to the front support portion 230. The first supporting member 251 is connected to the front supporting portion 230 (for example, the first fixing member 235) and the one end of the second supporting member 253, 2 fixing member; A second moving member provided at one end with the second hinge connection portion 252 and slidable into the second fixing member through the upper end of the second fixing member; A plurality of third latching grooves spaced a predetermined distance in the longitudinal direction from one side of the second moving member; And a third through-hole communicating with the third engaging groove at one side of the upper portion of the fixing member, the third through-hole being configured to penetrate the third fixing screw pin by a screw fastening method.

By configuring the first supporting member 251 as the second moving member and the second fixing member, the supporting angle of the solar cell module 100 (or the angle of the supporting surface of the solar cell module 100 ) Can be changed. As a result, the efficiency of the solar cell module 100 can be kept constant in the region where the altitude of the southern portion of the sun varies according to the season according to the season.

The second support member 253 has one end coupled to a portion of the first support member 251 that is positioned higher than the other end of the first support member 251 on the rear support portion 250, As shown in Fig.

A second connecting member 253 for connecting the two rear supporting portions 250 (for example, the second supporting member 253) is provided between the two rear supporting portions 250 (or the second supporting member 253) (255). The second connecting member 255 complements the strength and rigidity of the two rear support portions 250.

A wheel 300 is provided at one end of the two rear support parts 250. The wheel 300 is rotatably connected to one end of the support part of the rear support part 250.

Preferably, the one end of the second support member 253 is provided with a braking portion for preventing the wheel 300 from rolling and / or preventing the body of the wheel 300 from rotating relative to the front support portion 230 . The solar cell module assembly 1000 can be fixed in one place after the solar cell module assembly 1000 is installed and thus the solar cell module assembly 1000 Can be prevented from deviating from the installation place.

The braking unit may be provided on at least one of the one end of the front support unit 230 and the one end of the rear support unit 250.

According to the above-mentioned problem solving means, the present invention can freely move the solar cell module assembly by providing a wheel in the support assembly. Thus, the present invention can easily install and dismount the solar cell module assembly in the yard, garden, or open space.

In addition, the present invention can reduce the storage space of the solar cell module assembly by detachably connecting the solar cell module to the support assembly, thereby improving the storage and portability of the solar cell module assembly. As a result, according to the present invention, the solar cell module assembly can be stored indoors when the weather condition deteriorates (for example, when a sand typhoon occurs, when a typhoon occurs, when it is rainy or the like) The lifetime of the solar cell module assembly can be improved, and the maintenance cost of the solar cell module assembly can be reduced.

In addition, the present invention can improve the fixation force of the solar cell module assembly on the support assembly while facilitating the process of attaching and detaching the solar cell module assembly to the support assembly by configuring the frame unit with the fixed frame and the movable frame.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Will be apparent to those of ordinary skill in the art.

1000: solar cell module assembly
100: solar cell module
200: support assembly
210:
211: Fixed frame
213: Moving frame
230:
233: Movable member
235: Fixing member
250:
251: first supporting member
253: second supporting member

Claims (14)

A solar cell module;
And a support assembly configured to be movable at the same time while supporting the solar cell module at a predetermined angle inclination from the front direction to the rear direction,
The support assembly includes:
Two frame parts supporting the solar cell module in the forward and backward directions along the back surface of the solar cell module and spaced apart from each other by a predetermined distance;
Two front support portions supporting the front portion of the frame portion and extending in a direction perpendicular to the ground plane;
Two rear supports supporting the rear portion of the frame portion;
And a wheel provided at one end of the front support part and one end of the rear support part,
A first connecting member for connecting the two front supporting portions is provided between the two front supporting portions and a second connecting member for connecting the two rear supporting portions is provided between the two rear supporting portions. Solar module assembly. The method according to claim 1,
The rear support portion
A first support member having one end coupled to a rear portion of the frame portion and the other end coupled to a portion of the front support portion located at a predetermined height of the front support portion;
And a second support member including one end coupled to a portion of the rear surface of the first support member that is higher than the other end of the first support member and the other end of the wheel. Solar module assembly. delete 3. The method according to any one of claims 1 to 3,
Wherein at least one of the one end portion of the front support portion and the one end portion of the rear support portion is provided with a braking portion for preventing the wheels from rolling. A solar cell module;
And a support assembly configured to be movable at the same time while supporting the solar cell module at a predetermined angle inclination from the front direction to the rear direction,
The support assembly includes:
Two frame parts supporting the solar cell module in the forward and backward directions along the back surface of the solar cell module and spaced apart from each other by a predetermined distance;
Two front support portions supporting the front portion of the frame portion and extending in a direction perpendicular to the ground plane;
Two rear supports supporting the rear portion of the frame portion;
And a wheel provided at one end of the front support part and one end of the rear support part,
Wherein the frame portion is supported by the front support portion and the rear support portion and is hollow and includes a fixed frame including a front grip portion for holding a frame portion located at a front portion of the solar cell module, And a rear grip portion extending from the insertion extension portion and holding a rim portion located at a rear portion of the solar cell module,
And the frame part detachably supports the solar cell module. delete 6. The method of claim 5,
A plurality of first latching grooves spaced apart from each other by a predetermined distance in the longitudinal direction are provided on one side surface of the insertion extension portion,
Wherein one side of the rear portion of the fixed frame is provided with a first through hole communicating with the first engaging groove and penetrating the first fixing screw pin by a screw fastening method. 6. The method of claim 5,
And two front gripping grooves and two rear gripping grooves engageable with the front gripping portion and the rear gripping portion are provided at a rim portion of the solar cell module. 6. The method of claim 5,
The rear support portion
A first support member having one end connected to a rear portion of the frame portion and the other end coupled to a portion of the front support portion located at a predetermined height of the front support portion;
And a second support member including one end coupled to a portion of the rear surface of the first support member that is higher than the other end of the first support member and the other end of the wheel. Solar module assembly. 10. The method of claim 9,
Wherein the front support portion is connected to a front portion of the frame by a first hinge connection portion and one end portion of the first support member is connected to a rear portion of the frame by a second hinge connection portion. 11. The method of claim 10,
The front support portion
A first fixing member including one end of the wheel and having a hollow shape extending from the other end of the first support member,
And a first moving member provided at one end with the first hinge connection portion and slidable into the fixing member through an upper end of the fixing member. 12. The method of claim 11,
A plurality of second latching grooves spaced a predetermined distance in the longitudinal direction are provided on one side surface of the first moving member,
Wherein one side of the upper portion of the first fixing member is provided with a second through hole communicating with the second latching groove and penetrating the second fixing screw pin by a screw fastening method. 11. The method of claim 10,
Wherein the first support member comprises:
A second fixing member coupled to one end of the front support portion and the second support member and configured to be hollow,
A second moving member provided at one end thereof with the second hinge connection portion and slidable into the second fixing member through the upper end of the second fixing member,
A plurality of third latching grooves spaced a predetermined distance in the longitudinal direction from one side of the second moving member,
And a third through-hole communicating with the third engaging groove at one side of the upper portion of the second fixing member, the third through-hole being configured to penetrate the third fixing screw pin by a screw fastening method. assembly. 6. The method of claim 5,
Wherein at least one of the one end portion of the front support portion and the one end portion of the rear support portion is provided with a braking portion for preventing the wheels from rolling.

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