KR101480174B1 - Fixing device for solar light collecting module - Google Patents

Abstract

The present invention relates to a fixing device of a solar collecting module for reducing working time according to construction and reducing construction costs by installing the solar light collecting module when installing the solar light collecting module on a roof. According to the present invention, the fixing device of the solar collecting module includes: a lower side fixing clamp (110) which is fixed on one side of a building and has sides to be faced with each other in parallel; an upper side fixing clamp (100) which is coupled with the lower side fixing clamp (110) by a first coupling member (30); and a lower side edge guide protrusion unit (212) which is projected in a thickness direction of the solar light collecting module and is inserted into the lower side of the solar light collecting modules.

Description

[0001] The present invention relates to a fixing device for a solar light collecting module,

The present invention relates to a fixing device used for installing a solar light collecting module capable of producing energy using sunlight on a prefabricated roof or the like.

The present invention relates to a fixing device for fixing a solar light condensing module, and more particularly, to a fixing device for fixing a solar light condensing module to a roof surface without installing a separate type of roof when a solar light condensing module is installed in a roof module of a prefabricated house or a factory. .

Unlike many apartments with large construction companies, small houses are usually constructed by small construction companies. In the case of single-family houses, consumers are dissatisfied with construction quality. In recent years, demand for eco- The demand for 'modular prefabricated houses', in which residential modules are mass-produced at factories and assembled at the construction site, are increasing with the policy of saving eco-friendly houses.

This module-type prefabricated housing is used to mass-produce modules corresponding to various parts of a house, and then each module is transported to a construction site by using a large-sized vehicle, and is assembled in the field. A panel protruding from the edge is formed. In particular, in the case of a roof module, a panel made of a metal material is protruded at a predetermined interval so that the roof can be carried or another structure can be assembled on the roof.

Therefore, in order to install the solar light collecting module on the roof module, a hole is formed in the metal light collecting module protruding from the roof module, a fixing bracket is installed on the metal panel at regular intervals, It is necessary to install a solar light condensing module on the upper part of the support by fixing a support bracket to the section steel after fixing it to the fixing bracket and it takes long time for construction of the solar light condensing module, There is a problem in that the construction cost is increased due to the use of many materials in the construction process and the load burden on the roof module of the prefabricated house is increased due to the use of many materials.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a solar concentrator module, in which a solar concentrator module So that it is possible to shorten the working time due to the construction and to reduce the construction cost, and to provide a fixing device for the solar light condensing module.

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According to another aspect of the present invention, there is provided a fixing device for a solar light condensing module, the fixing device being mounted on a side of a building, the lower side of which simultaneously grasps a lower surface of a pair of solar light condensing modules, And a pair of sunlight condensing modules (110) which are in contact with the upper surfaces of the pair of solar light condensing modules and which are fastened to the lower side fixing clamps (110) by a first fastening member (30) A rectangular upper side fixing clamp 100 for pressing the module side in the direction of the lower side fixing clamp 110 and a plurality of solar light condensing modules 100 fixed to one side of the building and having parallel corners so as to face each other, A lower edge fixing clamp 210 having a rectangular shape for simultaneously grasping the bottom surface of the solar cell module 2, And an octagonal upper edge fixing clamp 200 fastened to the lower edge fixing clamp 210 by the upper edge fixing clamp 210 and the lower edge fixing clamp 210 to press the corner portions of the plurality of solar light condensing modules toward the lower edge fixing clamp 210 A predetermined space is formed between the upper side clamping clamp 100 and the lower side clamping clamp 110 and a predetermined space is formed between the upper side clamping clamp 200 and the lower side clamping clamp 210 A support guide 112 protrudes from both sides of the lower side fixing clamp 110 in the thickness direction of the solar light condensing module to be inserted into a space formed in a concave shape on the lower surface of the pair of solar light condensing modules, A lower edge guide protrusion 212 protrudes in the thickness direction of the solar light condensing module at each corner of the lower edge fixing clamp 210, It characterized in that the insertion into the recessed space formed on the bottom.
The upper side fixing clamp 100 has a rectangular upper side plate 102 which is in contact with an upper surface of the pair of solar light condensing modules and has a first fastening hole 102 through which the first fastening member 30 is inserted, An upper side guide rib 103 protruding from both sides of the lower surface of the upper side plate 101 and contacting the side surfaces of the pair of solar light collecting modules, And an upper side coupling boss 104 protruding from a center of a lower surface of the upper side plate 101 to be in contact with a side surface of the pair of solar light condensing modules and having the first coupling hole 102 communicated therewith .
The lower side fixing clamp 110 includes a rectangular lower side plate 111 which is in contact with a lower side of the pair of solar light collecting modules and on which the support guide 112 is formed, A pair of lower side guide ribs 113 protruding from both sides of the center of the upper surface and facing the upper side guide ribs 103 to be in contact with the side surfaces of the pair of solar light condensing modules, And a lower side fastening boss 114 formed between the guide ribs 113 and fastened to the first fastening member 30.
The upper edge fixing clamp 200 includes an octagonal upper edge plate 201 having a second coupling hole 202 formed in contact with an upper surface of the plurality of solar light collecting modules and through which the second coupling member 31 is inserted An upper edge guide rib 204 protruding in the direction of the lower surface of the upper edge plate 201 and in contact with a corner side surface of the plurality of solar light collecting modules, And an upper edge coupling boss 203 protruding from a lower center portion of the upper edge plate 201 and having a second coupling hole 202 communicated therewith.
The lower edge fixing clamp 210 includes a rectangular lower edge plate 211 having the lower edge guide protrusion 212 formed thereon and contacting the lower edge of the plurality of solar light collecting modules, A lower edge guide rib 214 protruding in the upper direction on the upper surface of the edge plate 211 so as to face the upper edge guide rib 204 and in contact with a corner side surface of the plurality of solar light collecting modules, And a lower edge fastening boss 213 protruding from the center of the upper surface of the plate 211 to fasten the second fastening member 31.

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In the present invention, when a solar collecting module is installed on a roof of a prefabricated house or a factory, it is possible to install the solar collecting module without the need for a separate form of the flow, thereby reducing the construction work cost And to provide a fixing device for the solar light collecting module.

1 is an exploded perspective view showing a configuration of a fixing device of a solar light condensing module according to an embodiment of the present invention.
2 is an exploded cross-sectional view showing an actual engagement state of an edge fixing clamp of a fixing device of a solar light condensing module according to an embodiment of the present invention.
3 is an exploded cross-sectional view showing an actual engagement state of a side fixing clamp of a fixing device of a solar light condensing module according to an embodiment of the present invention.
4 is a view showing an actual use state of a fixing device of a solar light condensing module according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It should be understood, however, that there is no intention to limit the scope of the present invention to the embodiment shown, and that other embodiments falling within the scope of the present invention may be easily devised by adding, Can be proposed.
1 and 4, the fixing device of the solar light condensing module according to the present invention includes a side fixing clamp 10 and an edge fixing clamp 20.
The side stationary clamp 10 firmly fixes the sides of a pair of solar light collecting modules provided parallel to each other at the same time and the edge stationary clamp 20 firmly fixes the corner portions of the plurality of solar light collecting modules simultaneously .
Side clamping clamp 10 includes a lower side clamping clamp 110 and an upper side clamping clamp 100. The edge clamping clamp 20 includes a lower edge clamping clamp 210 and an upper edge clamping clamp 200 do.
The lower side fixing clamp 110 is fixed to one side of a building such as a roof, a building side, and a building roof on which the solar light collecting module is installed, and a lower surface of a pair of solar light collecting modules, At the same time grip.
Generally, the lower surface of the solar light collecting module is manufactured such that the rim of the lower surface protrudes from the center of the lower surface to prevent the geothermal heat from directly coming from the building, which is easy for the operator to grasp by hand.
3, support guides 112 protrude from both sides of the lower side fixing clamp 110 according to the present invention in the thickness direction of the solar light condensing module, Is inserted into a space formed concavely on the lower surface of the pair of solar light condensing modules.
In this way, the support guide 112 is inserted inside the bottom edge of the pair of solar light condensing modules, so that the pair of solar light condensing modules can be fixed and firmly fixed.
The upper side clamping clamp 100 is formed in a rectangular shape so as to be in contact with the upper surface of the pair of solar light collecting modules at the same time and is fixed to the lower side clamping clamp 110 by the first clamping member 30 and the unlocking member 40. [ And presses the pair of solar light collecting modules in the direction of the lower side fixing clamp 110.
As shown in FIG. 4, in general, the solar cell constituting the solar light condensing module is formed into an octagon, not a square, in order to maximize the area of silicon, which is a raw material. Therefore, the side of the octagonal cell is located on the side of the solar light collecting module, and the corner of the octagonal cell is located on each edge of the solar collecting module.
Therefore, the upper side fixing clamp 100 for fixing the side surfaces of the pair of solar light collecting modules at the same time is formed in a rectangular shape so as not to interfere with the light receiving portion of the solar cell.
In order to improve the pressing force when the upper side clamping clamp 100 and the lower side clamping clamp 110 are fixed by using the first clamping member 30, the upper side clamping clamp 100 and the lower side clamping clamp 110 A predetermined space is formed.
That is, since there is a space between the upper side clamping clamp 100 and the lower side clamping clamp 110, it is possible to further press the upper side clamping clamp 100. If there is no empty space between the upper side clamping clamp 100 and the lower side clamping clamp 110, Since the stationary clamp 100 does not have a space to move in the direction of the lower surface of the solar light condensing module when the first clamping member 30 is pressed by the first clamping member 30,
The lower edge fixing clamp 210 is formed in a rectangular shape and is fixed to one surface of a building on which the solar light collecting module is installed and simultaneously grasps the bottom surfaces of a plurality of sun light collecting modules provided in parallel so that corner portions thereof face each other .
A lower edge guide protrusion 212 protrudes in the thickness direction of the solar light collecting module at each corner of the lower edge fixing clamp 210 and is inserted into a space formed in a concave shape on the lower surface of the plurality of solar light collecting modules.
That is, the plurality of solar light collecting modules are simultaneously inserted into the lower surface of the corner portion, thereby firmly fixing the plurality of solar light collecting modules so as not to move.
The upper edge fixing clamp 200 is formed in an octagonal shape so as to be in contact with the upper surface of the corner of the plurality of solar light collecting modules at the same time and is connected to the lower edge fixing clamp 210 by the second fastening member 31 and the release preventing member 40. [ And presses the plurality of solar light collecting modules in the direction of the lower edge fixing clamp 210.
As described above, since the solar cell forming the solar light condensing module is octagonal, the corner of the solar light condensing module and the corner of the octagonal solar cell are positioned.
Therefore, in order to maximize the efficiency of the solar light collecting module, the upper edge fixing clamp 200 provided at a position where the edges of the plurality of solar light collecting modules face each other is formed in an octagonal shape, .

The upper side fixing clamp 100 includes the upper side plate 101, the upper side guide rib 103 and the upper side side attachment boss 104. The lower side side fixing clamp 110 includes the lower side plate 111, a lower side guide rib 113, and a lower side fastening boss 213.
The upper side plate 101 is in the form of a rectangle and is in contact with the upper surface of a pair of solar light collecting modules so as to fix and press the pair of solar light collecting modules upward, A first fastening hole 102 to be fastened is formed.
The upper side guide ribs 103 protrude from both sides of the lower surface of the upper side plate 101 and are positioned between the side surfaces of the pair of solar light collecting modules and are simultaneously in contact with the side surfaces of the solar light collecting modules located on both sides.
The upper side side coupling boss 104 protrudes from the lower center portion of the upper side plate 101 to be longer than the upper side guide rib 103 and is in contact with a side surface of the pair of solar light condensing modules, 102 are communicated with each other.
The lower side plate 111 is formed in a rectangular shape and is in contact with a pair of solar light condensing module bottoms so that a pair of solar light condensing modules can be fixed and pressed downward, .
The lower side plate 111 may be fixed to a separate support frame 70 provided on one side of the building through a support frame fixing member 60. The support frame fixing member 60 may be fixed to the lower side fastening bosses 114 of the first fastening member 30.
The lower side guide ribs 113 protrude from both sides of the center of the upper surface of the lower side plate 111 and are positioned opposite to the upper side guide ribs 103 to be in contact with the sides of the pair of solar light collecting modules.
The lower side guide ribs 113 and the upper side guide ribs 103 are not in contact with each other, and a predetermined empty space is formed between the lower side guide ribs 113 and the upper side guide ribs 103. By forming the empty space between the lower side guide ribs 113 and the upper side guide ribs 103, a higher pressing force can be obtained when the first fastening member 30 is fastened.
The lower side fastening boss 114 is formed to protrude between the pair of lower side guide ribs 113. The lower side fastening boss 114 is fastened to the first fastening member 30 to form the upper side plate 101 and the lower side plate 111, So as to be firmly fastened.
The upper edge fixing clamp 200 includes an upper edge plate 201, an upper edge guide rib 204 and an upper edge coupling boss 203. The lower edge fixing clamp 210 includes a lower edge plate 211, A lower edge guide rib 214, and a lower edge fastening boss 213. As shown in Fig.
As described above, the upper edge plate 201 is formed in an octagonal shape so as to maintain the maximum area of the solar cell receiving the sunlight and is in contact with the upper surface of the plurality of solar light collecting modules, The second fastening hole 202 is formed at the center.
The upper edge guide ribs 204 protrude in the direction of the lower surface of the upper edge plate 201 and come into contact with the side surfaces of the plurality of solar light collecting modules. By the upper edge guide ribs 204, the side faces of the plurality of solar light collecting modules are not in direct contact with each other, but are kept at constant intervals.
The upper edge coupling boss 203 is formed to protrude from the lower center portion of the upper edge plate 201 longer than the upper edge guide rib 204 and is inserted into the second coupling hole 31 so that the second coupling member 31 can pass therethrough. (Not shown).
The lower edge plate 211 is formed in a rectangular shape so that the lower edge guide protrusion 212 can be formed at an edge thereof so as to be brought into contact with a bottom surface of a plurality of solar light collecting modules and a plurality of solar light collecting modules are fixed .
The lower edge plate 211 may be fixed to a separate support frame 70 provided on one side of the building through a support frame fixing member 60. The support frame fixing member 60 may be fixed to the lower edge fixing boss 60, The second fastening member 31 may be coupled to the second fastening member 31 through the first fastening member 213.
The lower edge guide ribs 214 protrude in the upper direction on the upper surface of the lower edge plate 211 so as not to contact with each other and are opposed to the upper edge guide ribs 204 and are in contact with the side faces of the plurality of solar light collecting modules .
A predetermined space is formed between the lower edge guide ribs 214 and the upper edge guide ribs 204 and a higher pressing force can be obtained when the second fastening member 31 is fastened by the empty space.

The lower edge coupling boss 213 protrudes from the center of the upper surface of the lower edge plate 211 and is firmly fastened to the second fastening member 31.

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1. Fixing device of sunlight condensing module 10. Side fixing clamp
20. The edge fixing clamp 30. The first fastening member
31. Second fastening member 40. Release preventing member
50. Solar light collecting module 60. Support frame fixing member
70. Support frame 100. Upper side fixing clamp
101. Upper side plate 102. First tightening hole
103. Upper side guide ribs 104. Upper side side coupling bosses
110. Lower Side Fixing Clamp 111. Lower Side Plate
112. Support guide 113. Lower side guide rib
114. Lower side fastening boss 200. Upper edge fastening clamp
201. Upper edge plate 202. Second fastening hole
203. Upper edge coupling boss 204. Upper edge guide rib
210. Lower edge clamp 211. Lower edge plate
212. Lower edge guide projection 213. Lower edge coupling boss
214. Lower edge guide rib

Claims (9)

A lower side fixing clamp 110 fixed to one side of the building and simultaneously gripping a lower surface of a pair of solar light condensing modules provided so as to face each other side by side;
A pair of sunlight condensing module side surfaces are brought into contact with the upper surface of the pair of sunlight condensing modules and are connected to the lower side side fixing clamps 110 by a first coupling member 30, Side upper fixing clamp 100 that presses the upper side clamp 110 in the direction of the upper side 110;
A rectangular lower edge fixing clamp 210 which is fixed to one side of the building and simultaneously grasps the bottom surfaces of a plurality of solar light collecting modules provided in parallel so that the corner portions thereof face each other;
And a second edge fixing clamp (210) coupled with the second edge fixing clamp (210) by the second fastening member (31), so that the corner portions of the plurality of solar light condensing modules are connected to the lower edge fixing clamp And an upper edge fixing clamp 200 of an octagonal shape that presses the upper edge fixing clamp 200 in the direction of the upper edge fixing clamp 210,
A predetermined space is formed between the upper side clamping clamp 100 and the lower side clamping clamp 110. A predetermined space is formed between the upper side clamping clamp 200 and the lower side clamping clamp 210,
Support guides 112 protrude from both sides of the lower side fixing clamp 110 in the thickness direction of the solar light condensing module and are inserted into a space formed concavely in the lower surface of the pair of solar light condensing modules,
A lower edge guide protrusion 212 protrudes in the thickness direction of the solar light collecting module at each corner of the lower edge fixing clamp 210 and is inserted into a space recessed in the lower surface of the plurality of solar light collecting modules Of the solar light collecting module.
The method according to claim 1,
The upper side fixing clamp 100 has a rectangular upper side plate 102 which is in contact with an upper surface of the pair of solar light condensing modules and has a first fastening hole 102 through which the first fastening member 30 is inserted, An upper side guide rib 103 protruding from both sides of the lower surface of the upper side plate 101 and contacting the side surfaces of the pair of solar light collecting modules, And an upper side coupling boss 104 protruding from a center of a lower surface of the upper side plate 101 to be in contact with a side surface of the pair of solar light condensing modules and having the first coupling hole 102 communicated therewith , Fixing device of sunlight condensing module.
3. The method of claim 2,
The lower side fixing clamp 110 includes a rectangular lower side plate 111 which is in contact with a lower side of the pair of solar light collecting modules and on which the support guide 112 is formed, A pair of lower side guide ribs 113 protruding from both sides of the center of the upper surface and facing the upper side guide ribs 103 to be in contact with the side surfaces of the pair of solar light condensing modules, And a lower side fastening boss (114) protruded between the guide ribs (113) and fastened by the first fastening member (30).
The method according to claim 1,
The upper edge fixing clamp 200 includes an octagonal upper edge plate 201 having a second coupling hole 202 formed in contact with an upper surface of the plurality of solar light collecting modules and through which the second coupling member 31 is inserted An upper edge guide rib 204 protruding in the direction of the lower surface of the upper edge plate 201 and in contact with a corner side surface of the plurality of solar light collecting modules, And an upper edge coupling boss (203) protruding from a lower center portion of the upper edge plate (201) and having a second coupling hole (202) communicated therewith.
5. The method of claim 4,
The lower edge fixing clamp 210 includes a rectangular lower edge plate 211 having the lower edge guide protrusion 212 formed thereon and contacting the lower edge of the plurality of solar light collecting modules, A lower edge guide rib 214 protruding in the upper direction on the upper surface of the edge plate 211 so as to face the upper edge guide rib 204 and in contact with a corner side surface of the plurality of solar light collecting modules, And a lower edge fastening boss (213) protruding from a central portion of an upper surface of the plate (211) to fasten the second fastening member (31). delete delete delete delete

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