KR101562909B1 - A structure for mounting a roof panel - Google Patents

Abstract

The present invention relates to a mounting structure for a solar module, and more particularly, to a bracket mounting structure for a solar module for mounting a solar module bracket on a roof plate supported by a support frame and having floor portions for increasing rigidity, And a horizontal support portion 54 for fixing the bracket for the solar module. The support portion 54 is disposed on the overlapping both end portions of the roof plate and fastened and fixed by a screw to support the solar module And a first support hole 50 for installing a bracket 57 for mounting the photovoltaic module on the floor portion of the existing prefabricated roof, Since a separate supporting frame for supporting a conventional solar module is not needed, the load on the existing roof can be minimized and the installation cost can be reduced. There is an effect that it can be reduced, and even if the support hole is screwed into the cap, it is engaged with the cap, so there is no fear of leakage, and the solar module can be easily installed.

Description

A STRUCTURE FOR MOUNTING A ROOF PANEL

The present invention relates to a bracket installation structure for a solar module, and more particularly, to a bracket installation structure for an improved solar module, in which brackets for a solar module are mounted without a separate support frame, .

BACKGROUND ART Generally, when a metal panel is used as a roof of a building such as a factory or a warehouse, a frame member is fixedly arranged on the top of a building so as to be spaced apart from each other at a predetermined interval in the lateral direction, A plurality of panels extending long in the direction of the main body are arranged side by side and fixed.

In the construction of such a roof plate, the energy cost is increased due to the recent increase in the price of crude oil, and due to the environmental problem due to the use of fossil fuel, the installation of the photovoltaic module However, since the facilities for utilizing such solar energy have an excessive problem with the initial facility cost such as the cost for securing the site and installing the solar cell, the additional cost for the installation of the solar module has recently been increased. In many cases, such a solar module is installed on the roof of a factory or the like in order to reduce it.

As an example of installing a solar module on a curved roof plate as described above, Korean Patent No. 10-1138992 (Apr. 25, 2012) discloses a fixing device 100, as shown in FIG. 1, A first support member 120 installed on an upper portion of the base bracket 110, and a second support member 120 installed on an upper portion of the base bracket 110. The base bracket 110 is fixed to the roof 10, A second support member 130 fitted to the first support member 120 and a third support member 140 supporting the solar module 20 together with the second support member 130, The apparatus 100 includes a base bracket 110 installed on a roof 10 of a building having unevenness and supporting the solar module 20 and fixed to a roof, 1 supporting member 120, a second supporting member 130 fitted to the first supporting member 120 and a second supporting member 130 together with the solar module Underground is that the solar module roof panyong retainer is disclosed which includes a third support member (140).

The base bracket 110 is coupled to the protruding portion of the roof irregularities and has a flat surface formed between both inclined surfaces of the protruding portion and the inclined surfaces, and is formed in a direction extending from the upper side to the lower side along the inclined direction of the roof And a coupling portion formed between the fixing portion and the fixing portion.

However, since the fixing portion of the base bracket is directly bolted to the roof plate, there is a problem that the rainwater flowing on the roof in the rainy season leaks through the fastening hole of the fixing portion.

In addition, in order to install a solar module on a roof, a structure for supporting a solar module separately from a structure for connecting and fixing roof plates is required in the prior art, so that the structure is complicated, There is a problem that the overall weight is increased.

Korean Patent No. 10-1138992 (issued April 25, 2012)

It is an object of the present invention to provide a solar module having a structure in which solar modules are mounted on a roof separately from roof structures according to the related art, And a bracket mounting structure for a solar module having an improved structure for fixing the module mounting bracket without leakage.

In order to achieve the above object, a bracket mounting structure for a solar module for mounting a bracket for a solar module on a roof plate supported by a support frame according to the present invention and having floor portions for increasing rigidity comprises: And a bracket for supporting the solar module, wherein the bracket has a horizontal support portion for fixing the bracket to the solar module, .

Wherein the first support sphere is inclined downwardly from both sides so as to be disposed on the overlapping ends of the folded floor portions at both ends of the adjacent two roof plates and is mounted on the floor portions at the upper end where the slope portions meet, And a vertical support portion vertically formed at a lower end of each of the inclined surface portions and adapted to press both sides of the upper surface of the middle mountain floor portion when bolted thereto.

The roof plate may further include a second support hole disposed on the middle mountain floor portion formed between the floor portions bent at both ends of the roof plate to mount a bracket for supporting the solar module.

And the second support legs include base portions each of which is disposed on both sides of the upper surface of the middle mountain floor portion and each of the support base portions has an inner surface having the same shape as the opposite side surfaces of the middle mountain floor portion of the roof plate A vertical support portion extending from the upper surface of the support portion and extending upwardly from the upper surface of the support portion and fastened to each other with a bolt, and a coupling portion having a coupling structure bent at an upper end of the support portion.

Wherein the engaging portions have a bent portion whose one end is bent in a "C" shape and whose upper end is bent downward, and the engaging portion opposed thereto has an inverted " A downward groove is formed at the inner end portion thereof so as to be engaged with the bent end portion of the one engaging portion.

A bracket mounting structure for a solar module according to the present invention is characterized in that a support frame is provided on a floor portion of a conventional prefabricated roof and a solar module is installed on the support frame, Therefore, it is possible to minimize the increase of the load on the existing roof and reduce the installation cost, and it is possible to prevent the leakage of the solar module due to the structure in which the cap is engaged with the cap even when the support is screwed. There is an effect that it can be easily installed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view showing a configuration of a fixing device for installing a conventional solar module on a roof plate. FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bracket mounting structure for a solar module,
3 is a schematic exploded perspective view showing a mounting structure of a bracket for a solar module according to the present invention, in which a support for installing a bracket installed on a floor portion of a prefabricated roof is provided for supporting a solar module.
4 is a sectional view of the bracket mounting structure for the solar module shown in Fig. 3 assembled;
Fig. 5 is a perspective view of a first pedestal provided in the floor part of the roof in Fig. 3; Fig.
FIG. 6 is an exploded perspective view showing the structure and assembly of the second base provided at the middle mountain floor portion of the roof in FIG. 3;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings showing embodiments of a bracket installation structure for a solar module according to the present invention.

The roof structure for installing the bracket for a solar module of the present invention is disclosed in Appl. The roof structure can be optimally applied to a prefabricated roof shown in an exploded perspective view in FIG. 2, which is registered as a utility model registration No. 20-0392080, and the roof structure is referred to in this specification.

The roof plate fixing device 30 includes a support member 11 having a U-shaped cross section and spaced apart from each other to be laterally arranged and fixed on a conventional roof plate. (14, 15) for fixing the roof plate to the upper end of the bolt (13) fixed to the concave bottom portion at regular intervals in the longitudinal direction thereof. The fixing device 30 is configured such that the supporting members 11 having a U-shaped cross section are arranged on the roof lower panel 31 of the steel plate provided on the existing roof supporting frame 19 in the horizontal direction and at regular intervals in the vertical direction Tightened with screws, integrated with the support frame and the roof lower panel 31, and the roof top panel 21 is fastened to the fixtures 14,15.

The fixture 14 supports the ends of the floor portions of two adjacent upper panels, which are folded at their ends for the purpose of increasing the rigidity of the roof top panel 21, at the bottom surface, In one or two places, the intermediate floor part, which is relatively low in height, is supported at the bottom for the purpose of increasing the rigidity of the roof board.

The cap clip 16 is placed on the overlapped upper panel to fix the end portions of the floor portions of the two adjacent roof top panels 21 supported at the bottom by the fixture 14 and fastened with a screw, A cap 22 was placed on the cap clip to prevent leakage at the site. Further, the fixture 15 is formed with resilient pieces bent at both sides thereof to resiliently engage the inside of the middle floor portion of the roof plate. The reference numeral 32, which is not shown in the drawing, is a heat insulating material.

3 to 6, in addition to the conventional roof plate coupling structure described with reference to FIG. 2, a bracket for a photovoltaic module according to the present invention is provided on an end portion of two roof top panels 21 disposed on the fixture 14, (50) arranged to engage the outer shape of the intermediate floor portions arranged to engage the fastener (15) to provide a bracket for the solar module on the intermediate floor portions, 2 support (60).

The first and second pedestals 50 and 60 can be easily coupled to both the floor and middle floors of the roof panel without fear of leakage to fix the solar module bracket on the conventional roof plate, And has a simplified structure to speed up the reduction and assembly work.

4, the first support 50 includes inclined surface portions 51 inclined downward from both sides so as to be disposed on the overlapping end portions of the floor portions bent at both ends of two adjacent roof plates, A horizontal flat portion 52 that is seated on the floor portions at the upper end where the slope portions meet, a vertical support portion 53 vertically formed at the lower end of each of the slanted surface portions, And generally includes a horizontal support portion 54 to which the bracket for the solar module is fixed.

A screw is fastened on the upper surface of the flat portion 52 of the first support member 50 to fix the overlapping ends of the folded floor portions of the two roof plates below the flat portion together with the flat portion, In order to prevent water leakage, two spaced engagement protrusions 55 having a shape in which a latching portion is formed from both sides of the flat portion as in a curled clip in the conventional roof plate fixing structure are integrally formed, so that the cap 56 is engaged, Even if it comes, water does not enter the screw fastening part. A bracket 57 for supporting the solar module is fixed to the horizontal support part 54 and a frame 58 of the solar module is supported in the groove 58 formed in the bracket 57.

Further, the second pedestal 60 includes pedestal portions 61 and 62, which are respectively disposed on both sides of the upper surface of at least one or two intermediate mountain floor portions on the roof plate as shown in Fig. 5 , Each of the support portion portions (61, 62) having support portions (63, 64) having the same inner side surface as the both side surfaces of the middle mountain floor portion of the roof plate, and a support portion Vertical supporting portions 65 and 66 extended and bolted to each other, and engaging portions 67 and 68 having a coupling structure bent to be engaged with the upper ends of the respective supporting portions. The support portions 63 and 64 are spaced apart from each other by a dimension smaller than the middle mountain floor portion so as to press the upper surface of the middle mountain floor portion and firmly engage with each other when the vertical support portions 65 and 66 are fastened with bolts .

The engaging portion 67 has a curved end portion 69 whose upper portion is extended and whose end portion is bent downward. In contrast, the engaging portion 67 has a shape opposite to the engaging portion 67 A downward groove 70 is formed in the inner end portion thereof to engage with the bent end portion 69 of the engaging portion 67. [ The engaging portion 68 is provided on the folded middle mountain floor portion of the roof plate opposite to the engaging portion 67 so that the bent end portion 69 of the engaging portion 67 is fitted into the groove 70 of the engaging portion 68 And the folded end portion 69 is engaged with the groove 70 by being slid. The bottom surface of the coupling part 68 is formed in a groove shape for material saving, but it may be a planar shape.

Then, the engaging portion 67 and the supporting portions 65 and 66 of the engaging portion 68 are fastened with bolts to be completely engaged. A bracket 57 for supporting the solar module is provided on the upper surface of the coupling portion 68 in a state where the coupling portion 67 and the coupling portion 68 are coupled to each other, And the frame 58 of the solar module is inserted and supported in the groove 58 formed in the bracket 57.

As shown in FIG. 6, in the present invention, even though the first support sockets 50 are fixed by screws at both end portions of the roof plate, the caps are engaged with the coupling protrusions formed integrally with the flat portions, And a second bracket 60 is installed at an interval in a middle mountain floor portion formed on a roof plate and a bracket is fixed to the first and second brackets so as to fix the solar module The bracket can be installed in the first and second support members so that the solar module can be stably installed in a lightweight and simplified support structure without a separate support frame without fear of leakage by supporting the lower end of the frame in the groove formed in the bracket.

The bracket mounting structure for a solar module of the present invention can be used to easily install a solar module without the structure of a roof plate and a support frame for a separate solar module.

50: first support hole 51:
52: flat portion 53: vertical support
54: horizontal support portion 55: engaging projection
56: cap 57: bracket
58: groove 60: second base
61, 62: base portion 63, 64:
65, 66: vertical supports 67, 68:

Claims (5)

delete A bracket for supporting the solar module supported by the support, a cap for preventing the penetration of water at the joint portion of the screw, The bracket mounting structure comprising:
(50) which is fastened on the both end portions to support a bracket (57) for supporting the photovoltaic module on both ends of the two roof plates,
And a second support hole (60) disposed on an intermediate mountain floor portion formed between the floor portions bent between the opposite ends of the roof board, for mounting a bracket (57) for supporting the solar module,
The first pedestal (50) has slopes (51) inclined downward from both sides so as to be disposed on the overlapped ends of the floor portions bent at both ends of two adjoining roof plates, and floor portions A vertical flat portion 52 that is seated on the upper surface of the sloped surface portion and is fastened to the overlapped end portion of the floor portions with a screw, a vertical support portion 52 formed vertically at the lower end of each sloped surface portion, And two spaced engagement protrusions 55 having a shape in which a locking portion is formed outward from both sides of the flat portion 52 are integrally formed,
The cap is coupled in an engaging manner with a coupling protrusion 55 integrally formed on the first support hole 50 so that water does not enter the screw coupling portion fixed to the roof plate,
Wherein the second support opening (60) includes support hole portions (61, 62) which are respectively disposed on both sides of the upper surface of the middle mountain floor portion. delete 3. The roof support according to claim 2, wherein each of the support pedestal portions (61,62) comprises: a support portion (63,64) having an inner surface of the same shape as both side surfaces of the middle mountain floor portion of the roof plate; (65, 66) extending in an upright chamber opposite to each other and bolted together with a bolt, and engaging portions (67, 68) having an engaging structure bent to be engaged with each other at an upper end of each of the supports Bracket mounting structure for optical module. The connector according to claim 4, wherein the engaging portion (67) has a bent end portion (69) whose upper portion is extended and whose end portion is downwardly bent, and the engaging portion (68) Wherein a groove (70) is formed at an inner end portion of the bracket so as to engage with a bent end portion (69) of the engaging portion (67).

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