KR102010561B1 - Inclined Roof Fixed solar device - Google Patents

Abstract

The present invention relates to an inclined roof fixed photovoltaic power generation device. In a photovoltaic power generation device which is installed in a roof which is inclined to allow two panels having a plurality of convex units protruding along front and rear directions to be symmetrical to each other, the photovoltaic power generation device comprises: a roof fixing unit having two roof fixing fixtures extending along left and right directions of a panel and provided to have a predetermined distance from each other along the front and rear directions, a plurality of fixing brackets having both end units fixed to two convex units to be adjacent among the convex units of the roof, having a center unit to which the roof fixing fixtures are connected, and installed along the left and right directions of the panel, and a plurality of lower support plates coupled to an upper surface along a longitudinal direction of the roof fixing fixture; a pillar unit including two upper support plates connected to the lower support plate of the roof fixing unit and two pillar fixtures vertically installed in an upper side of the upper support plate, and provided with a plurality in the left and right directions of the roof fixing unit; a support frame slopingly installed in an upper end unit of the pillar unit toward a front direction; and a solar cell module installed in an upper side of the support frame.

Description

Inclined Roof Fixed Solar Device

The present invention relates to an inclined roof fixed photovoltaic device, and more specifically, to install a large number of solar cell modules in preparation for the roof area, by minimizing the size and number of screw bolts used to fix the roof The present invention relates to an inclined roof fixed photovoltaic device that can reduce the risk of leakage of a roof.

Photovoltaic power generation is a power generation method that converts sunlight into electrical energy using multiple solar cell modules. It is free from pollution, such as air pollution, noise, heat generation and vibration, is easy to maintain, and has a long life. Is in the spotlight. These photovoltaic devices are usually installed in large plains, forests and waters on a large scale and operate like a power plant. They are also used on the veranda or roof of homes to produce household electrical energy. In particular, recently, solar cell modules have been installed in livestock kennels (hereinafter referred to as “barn houses”) with large roof areas, and more and more places are producing and using power directly for livestock house operations.

1 is a view showing a state in which a solar cell module is installed on a conventional barn roof. Referring to FIG. 1, most barn roofs are constructed using a sandwich panel in which urethane or styrofoam is built so that both sides thereof are inclined downward with respect to the center. On the other hand, the method of installing the solar cell module on the inclined roof of the barn, first, the construction is performed by coupling the solar cell module to the support structure after installing the support structure serving as a framework of the solar cell module on the inclined roof. . The solar cell module is installed to be disposed at an angle from the inclined roof at the same time the weight is distributed by the support structure.

However, in the related art, in order to arrange the solar cell module on the inclined roof in a horizontal direction as shown in FIG. 1, since the support stand installed on the eaves of the roof is installed with a long length, the overall weight of the support structure is increased. In addition, the support post is installed on the roof by a screw bolt fixed to the reinforcement frame under the roof through the support post and the roof while the lower end is placed on the roof. This will cause problems that can cause leakage. Here, since the support structure of the conventional support structure is directly connected to the support post on the roof, there is a problem in that the possibility of leakage is further increased because a screw bolt having a large diameter is used to more firmly fasten the support post to the roof.

(Patent Document 1) KR Patent Publication No. 10-1359438 (2014.01.29.)

The present invention has been made to solve the above problems, an object of the present invention can be installed a large number of solar cell modules in preparation for the roof area, minimizing the size and number of screw bolts used for fixing to the roof It is to provide a sloped roof fixed photovoltaic device that can reduce the risk of leakage of the roof.

On the other hand, other objects not specified in the present invention will be further considered within the scope that can be easily inferred from the following detailed description and effects.

The inclined roof fixed photovoltaic device according to the present invention for achieving the above object, in the photovoltaic device is installed on a roof in which two panels protruding a plurality of convex portions along the front and rear directions are inclined symmetrically, the panel Extends along the left and right directions of the two roof anchors provided at a predetermined distance in the front and rear directions, and both ends of the roof convex portions are fixed to two adjacent convex portions, and the roof anchors are connected to the central portion of the panel and the left and right directions of the panel A roof fixing unit including a plurality of fixing brackets installed along the plurality of lower support plates coupled to the upper surface along the longitudinal direction of the roof fixing unit; A support unit including two upper support plates connected to the lower support plate of the roof fixing unit, and two supporters installed vertically from the upper support plate, and a plurality of support units installed along the left and right directions of the roof fixing unit; A support frame installed inclined toward the front of the upper end of the support unit; And it includes a solar cell module installed on the upper side of the support frame.

Here, the upper support plate and the lower support plate is a rectangular plate shape, four corners are fastened and fixed through the bolt and nut, the fixing bracket is fixed to the panel of the roof through the screw bolt, the bolt for fixing the upper support plate and the lower support plate The diameter of the screw bolt for fixing the fixing bracket to the panel of the roof may be provided smaller than the diameter of.

Here, the reinforcement bar may be connected between the support pole and the roof fixture, and the reinforcement bar may be inclined at 45 ° in preparation for the up and down direction of the support pole.

Here, both ends of the fixing bracket may be bent to surround the convex side of the panel.

The inclined roof fixed photovoltaic device according to the present invention does not have a solar cell module installed in an inclined panel in a horizontal direction, but a solar cell panel is installed along a left and right direction of an inclined panel, so as to prepare for the roof area as much as possible. Since the solar panels can be arranged, there is an effect of increasing the power production compared to the same area.

In addition, the number of fixing brackets fixed to the roof is minimized, and the fixing bracket is fixed to the panel of the roof rather than the diameter of bolts for fastening the upper support plate on which the support stand is installed and the lower support plate provided on the upper part of the roof fixing stand. By having a smaller diameter of the screw bolt, there is an effect that the risk of leakage of the roof is significantly reduced by minimizing the size and number of screw bolts used for fixing to the roof.

1 is a drawing substitute photo showing a state of a photovoltaic device installed on the roof of a conventional barn building.
Figure 2 is a perspective view showing a state in which the photovoltaic device according to an embodiment of the present invention is installed on the inclined roof.
Figure 3 is a rear view of the inclined roof fixed photovoltaic device according to an embodiment of the present invention viewed from the direction A shown in FIG.
Figure 4 is an exploded perspective view of the inclined roof fixed photovoltaic device according to an embodiment of the present invention.
5 is a partially enlarged perspective view illustrating an enlarged connection part of a support unit and a roof fixing unit according to an exemplary embodiment of the present invention.
6 is a cross-sectional view showing the roof fixing unit is fixed to the roof according to an embodiment of the present invention.
7 is an exploded perspective view showing the structure of the roof fixing unit and the fixing bracket of the roof fixing unit according to an embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings. In addition, the terms used are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of the user operator. Therefore, the definitions of these terms should be made based on the contents throughout the present specification.

Hereinafter, with reference to the drawings will be described in detail the configuration and operation of the inclined roof fixed photovoltaic device according to an embodiment of the present invention.

First of all, for convenience of description, the X, Y, and Z coordinates shown in the drawings are defined by defining the X direction in the left and right directions, the Y direction in the front and rear directions, and the Z direction in the vertical direction. And the same applies to the claims.

Referring to Figures 2, 3 and 6, first, in the inclined roof fixed photovoltaic device 100 according to an embodiment of the present invention, a plurality of convex portion 13 protrudes along the front and rear direction on the upper surface Two panels 12 are installed on the roof 10 which is inclined symmetrically in a '∧' shape. Panel 12 is a special plywood laminated by sandwiching different kinds of materials and bonded with adhesive. The surface is made of a strong metal such as aluminum or stainless steel, and the inner core is made of foamed plastic. It is built to act to increase insulation, sound insulation, strength, etc. The upper surface of the panel 12 is provided with a plurality of protrusions 13 protruding upward as described above, the valley is formed between the protrusions (13). The bottom surface of the panel 10 is provided with a reinforcing frame 20 for supporting the roof 10, the reinforcing frame 20 may be a C-shaped steel having a cross-section 'C' shape.

Photovoltaic device 100 according to an embodiment of the present invention may be installed at a plurality of predetermined intervals in the front and rear direction on the upper surface of the inclined panel 12 of the roof 10 having the configuration as described above. . On the other hand, as described above, the inclined roof 10 is usually constructed in buildings such as barns or factories.

2 to 4, the inclined roof fixed photovoltaic device 100 according to an embodiment of the present invention installed on the inclined roof 10 as described above, along the left and right directions of the panel 12. Two roof fixing units 112 extending and being provided at a predetermined distance in the front and rear directions, and a roof fixing unit 112 connected to a central portion thereof, and two adjacent convex portions 13 of the convex portions 13 of the roof 10 are adjacent to each other. Both ends are fixed to the fixing bracket 116 is installed in a plurality of along the left and right directions of the panel 12, and a plurality of lower support plate 118 is coupled to the upper surface along the left and right directions of the roof fixing plate (112). Roof fixing unit 110 to be; The upper support plate 122 is connected to the lower support plate 118 of the roof fixing unit 110, and includes two support posts 126 installed vertically on the upper support plate 122, the panel 12 A plurality of holding unit 120 is installed along the left and right directions; Support frame 130 is installed to be inclined toward the front end of the support unit 120; And a solar cell module 140 installed on an upper side of the support frame 130.

2 to 4 and 6 to 7, the roof fixing unit 110 extends along the left and right directions of the inclined panel 12 of the roof 10 to the upper surface of the panel 12. It is fixed. The roof fixing unit 110 has a pair of roof fixing units 122 and a plurality of convex portions formed on the panel 12 connected to the left and right directions of the roof fixing unit 122 arranged a predetermined distance away from the front and rear direction. It comprises a fixing bracket 116, which is fixed at both ends to two adjacent convex portions 13 of the (13), and a plurality of lower support plate 118 provided on the upper surface of the roof fixing stand (112).

The roof fixtures 112 are provided in pairs, one each in the front-rear direction, and the pair of roof fixtures 112 are disposed apart by a predetermined distance in the front-rear direction. The roof fixture 112 is manufactured in the form of a square pipe extending in left and right directions to have a length adjacent to the left and right lengths of the panel 12. The roof fixing plate 112 extending in the left and right directions is fixed to the panel 12 by a plurality of fixing brackets 116. Specifically, the roof fixing plate 112 is fixed to the panel 12 by the fixing bracket 116 to be located between the convex portions 13 formed on the upper surface of the panel 12, that is, the upper side of the valleys 14.

A plurality of fixing brackets 116 are fastened along the left and right directions of the roof fixing stand 112. On the other hand, the fixing bracket 116 is fixed to the panel 12 by the screw bolt (SB). Screw bolt (SB) is a screw bolt that is fixed through the panel 12, the number of fixing brackets 116 fixed to the panel 12 to minimize the perforation of the panel 12 due to the screw bolt (SB) It is desirable to minimize. Thus, in the present embodiment, it is shown that four fixing brackets 116 are coupled to one roof mount 112 in order to firmly fix the roof mount 112 to the panel 12, which is one embodiment. This is not a limitation.

The central part of the fixing bracket 116 is inserted and coupled to the roof holder 112, and both ends are fixed to two adjacent convex parts 13 of the convex parts 13 of the panel 12 through screw bolts SB. do. Referring to FIGS. 6 and 7, the fixing bracket 116 is a fixing plate having both ends fixed to two adjacent convex portions 13 of the convex portions 13 of the panel 12 by a screw bolt (SB). 113, and a space for wrapping the roof fixture 112 therein is formed, the cover plate 115 is fastened to the fixing plate 113 using the bolt (B1) and the nut (N1).

As described above, both ends of the fixing plate 113 are fixed to two adjacent convex portions 13 of the convex portions 13 by screw bolts SB. The screw bolt SB is fixed to the inside of the panel 12 through the screw H formed in the lower end after passing through the hole H2 drilled at both ends of the fixing plate 113, thereby to the panel 12. The fixing plate 113 is firmly fixed. In this case, the lower end of the screw bolt (SB) may pass through the bottom of the panel 12 may be fixed to the reinforcing frame 20 provided on the bottom of the panel 12.

On the other hand, both ends of the fixing plate 113 fixed to the convex portion 13 is bent downward to surround the side surface of the convex portion 13. Specifically, the fixing plate 113 is composed of a connecting portion 113a in the form of a thin plate extending in the front and rear direction and a bent portion 113b bent downward from both ends of the connecting portion 113a, and the connecting portion 113a is a convex portion. When fixed to the (13), the bent portion 113b bent downward from both ends of the connecting portion 113a surrounds the side surface of the convex portion 13, so that the fixing plate 113 is the convex portion 13 of the panel 12 The effect is more firmly fixed to.

Holes H2 through which the screw bolts SB pass are drilled at both ends of the connection part 113a, and holes H1 through which the bolts B1 pass inside the holes H2 through which the screw bolts SB pass. Is provided. At this time, the hole H2 through which the screw bolt SB passes is preferably formed smaller in diameter than the hole H1 through which the bolt B1 passes.

The cover plate 115 is coupled to the fixed plate 113 through the bolt (B1) and the nut (N1), the cover plate 115 is coupled to the fixed plate 115, the upper side and the cover plate of the fixed plate 115 The roof fixture 112 is inserted into and fixed to an inner space of the 115. The cover plate 115 is a cover portion 115a for wrapping and fixing the roof holder 112 in a 'c' shape, and an extension portion 115b extending from both sides of the cover portion 115a and fastened to the fixing plate 113. Is made of. The extension portion 115b is provided with a hole H1 having a size that matches the hole H1 of the fixing plate 113. The fixing plate 113 and the cover plate 115 pass through one end of the bolt B1 through the hole H1 formed in each of the fixing plate 113 and the cover plate 115, and then the nut N1 at one end of the bolt B1 passing through the hole H1. ) Is firmly coupled to each other by screwing.

4 and 5, a plurality of lower support plates 118 are provided along the left and right directions of the roof fixing stand 112. In this embodiment, three lower support plates 118 are shown to be connected to the roof fixing plate 112, which is the number of lower support plates 118 according to the left and right lengths of the roof fixing unit 112 in one embodiment. Can vary.

The lower support plate 118 may be fixed to the roof fixing plate 118 by welding or the like. The lower support plate 118 is manufactured in the shape of a plate made of a square shape. A total of four holes H3 are drilled at four corners of the lower support plate 118. The upper support plate 122 of the support unit 120 is firmly fastened to the lower support plate 118 through the bolt B3 and the nut N3.

3 to 5, a plurality of strut units 120 are vertically installed along the left and right directions of the roof fixing unit 110. The holding unit 120 is connected to the front end and the rear end of the lower support plate 118 of the pair of roof fixing unit 110. Thus, in the present embodiment, since the three lower support plates 118 are provided along the left and right directions of the roof fixing stand 112, it will be described that three support units 120 are also provided.

The strut unit 120 includes an upper support plate 122, a strut connecting rod 124, and a strut 126. Since the upper support plate 122 is fixed to the lower support plate 118 coupled to the upper portion of the pair of roof fixing stand 112, two are provided in pairs, one each in the front and rear direction. The upper support plate 122 is manufactured in the shape of a plate made of a rectangular shape like the lower support plate 118. Four holes H3 are drilled in four corners of the upper support plate 122. The upper support plate 122 is manufactured in a size that matches the lower support plate 118, the hole (H3) of the lower support plate 118 and the hole (H3) of the upper support plate 122 is the upper support plate (118) in the lower support plate (118). 122) are placed in connection with each other. In this way, after the upper support plate 122 is placed in the lower support plate 118, one end of the bolt B3 passes through the holes H3 connected to each other, and then one end of the bolt B3 passes through the hole H3. The lower support plate 118 and the upper support plate 122 are firmly fastened by fastening the nut N3 to the portion by a screw coupling method.

In addition, since the support unit 120 is a pillar for supporting the support frame 130 and the solar cell module 140 installed at the top, it should be more firmly fixed to the roof fixing unit 110. To this end, the lower support plate 118 of the roof fixing unit 110 and the upper support plate 122 of the support unit 120 is preferably fastened four corners using the bolt (B3) and nut (N3) as described above. The bolt B3 for fixing the lower support plate 118 and the upper support plate 122 may have a diameter larger than the diameter of the screw bolt SB for fixing the fixing bracket 116 to the panel 12.

The two upper support plates 122 provided in the front-rear direction are connected through the column connecting rod 124. The strut connecting rod 124 is provided in the shape of a square pipe extending in the front-rear direction.

Each of the support posts 126 is vertically connected to the upper surface of the front end and the rear end of the support post 124 in the vertical direction. At this time, the holding post 126 located in front of the two holding posts 126 is made shorter vertical length than the holding post 126 located in the rear. Accordingly, the support frame 130 is inclined toward the front end of the plurality of strut unit 120, that is, the upper end of the strut 126.

On the other hand, the plurality of strut units 120 disposed along the left and right directions of the panel 12 may all be manufactured to have the same vertical length, but the present invention is not limited thereto, and the plurality of strut units 120 as in the present embodiment are provided. It may be provided so that the vertical length is gradually shortened toward the ridge from the eaves of the silver panel 12.

3 and 4, the support frame 130 is provided to be inclined toward the front from the upper end of the plurality of strut unit 120 is installed along the left and right direction of the roof fixing unit (110). A solar cell module 140 in which a plurality of solar panels 142 are arranged side by side in the left and right directions is installed on the support frame 130.

The support frame 130 is fixed and coupled to the upper end of the support stand 126 is disposed in front and rear of the support unit 120, the plurality of support units 120 are arranged in the left and right directions 1 support 132, a pair of second support 134 extending in the left and right directions above the plurality of first support 132, a predetermined distance apart in the front and rear direction, and the first support 132 and It includes a fastening member 136 for fastening the second support 134.

The first support 132 is manufactured in the shape of a square pipe, the second support 134 is manufactured in a 'C' shape of the cross section. The second support 134 extends in the horizontal direction to connect the plurality of first supports 132. The second support 134 is installed at a predetermined interval in the front-rear direction from the upper portion of the first support 132. The fastening member 136 is provided to fasten the first support 132 and the second support 134 at a portion where the first support 132 and the second support 134 intersect in the shape of '∩'. In detail, both ends of the fastening member 136 pass through the first support 132 while the second support 134 is wrapped therein, and both ends of the fastening member 136 passed through the first support 132. The nut is fastened by screwing, thereby firmly fastening the first support 132 and the second support 134.

The solar cell module 140 includes a plurality of solar panels 142 arranged side by side in the left and right and up and down directions, and the solar cell module 140 condenses the sunlight emitted from the sun through the solar panel 142. Convert to electrical energy. The configuration and operation of the solar cell module 140 is not a feature of the present invention, and since it is known in the art, a detailed description thereof will be omitted.

Reinforcement bar 150 is connected to both ends of the roof fixture 112 and the support 126. The reinforcing bar 150 connecting the roof fixing stand 112 and the support stand 126 serves to support the support stand 126 from the roof fixing stand 112 so that the support unit 120 is not twisted by an external force such as wind. Do this. Accordingly, the reinforcing bar 150 is preferably installed between the support pole 126 and the roof fixing stand 112 having the longest vertical length of the plurality of support pole 126. In addition, the reinforcing bar 150 is installed to be inclined at 45 degrees in preparation for the up and down direction of the support stand 126, thereby further improving the bearing capacity of the support stand 126 from the roof fixing stand 112.

The terms "comprise", "comprise", or "having" described above mean that a corresponding component may be included unless specifically stated otherwise, and therefore, excludes other components. Rather, it should be interpreted to include other components. All terms, including technical and scientific terms, have the same meanings as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: photovoltaic device 110: roof fixing unit
112: roof bracket 116: fixing bracket
118: bottom support plate 120: holding unit
122: upper support plate 126: support
130: support frame 140: solar cell module
150: reinforcement bar

Claims (5)

In the photovoltaic device 100 is installed on the roof 10 in which the two panels 12 protruding a plurality of convex portions 12 along the front and rear directions are inclined symmetrically,
Two roof fixing units 112 extending along the left and right directions of the panel and spaced apart from each other by a predetermined distance in the front and rear directions, and a plurality of roof fixing units are connected along the left and right directions of the roof fixing units, and two convex portions adjacent to each other among the convex portions of the roof. A roof fixing unit (110) comprising a fixing bracket (116) fixed at both ends to a part, and a plurality of lower support plates (118) coupled to an upper surface in a left and right direction of the roof fixing stand;
And two upper support plates 122 connected to the lower support plates of the roof fixing unit, and two support posts 126 installed vertically on the upper support plates, which are located in front of the two support posts. A length of the strut is shorter than the length of the strut positioned at the rear, and a plurality of strut units are installed along the left and right directions of the roof fixing unit;
A support frame 130 inclined toward the front of the upper end of the support unit; And
It includes; the solar cell module 140 is installed on the upper side of the support frame,
The plurality of strut units 120 are gradually shorter in length from the eaves of the panel 12 toward the ridge, and the left and right inclination angles of the support frame and the solar cell module are larger than the left and right inclination angles of the panel and are smaller than horizontal. Slant roof fixed photovoltaic device, characterized in that.
The method of claim 1,
The upper support plate and the lower support plate has a rectangular plate shape, and four corners are fastened and fixed by bolts and nuts, and the fixing bracket is fixed to the panel through screw bolts to fix the upper support plate and the lower support plate. Sloped roof fixed photovoltaic device characterized in that the diameter of the screw bolt for fixing the fixing bracket to the panel is smaller than the diameter of the bolt.
The method of claim 2,
Sloped roof fixed photovoltaic device, characterized in that the reinforcing bar 150 is connected between the holding pole and the roof fixture.
The method of claim 3,
The reinforcing bar is inclined roof fixed photovoltaic device, characterized in that disposed inclined at 45 ° in preparation for the up and down direction of the support.
The method of claim 3,
Both ends of the fixing bracket is bent to surround the convex side of the panel inclined roof fixed photovoltaic device.

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