KR20190108676A - Bracket for assembling solar panel - Google Patents

Abstract

According to the present invention, a bracket for assembling a solar panel is used to install a solar panel (20) on an upper portion of a roof panel (10) having a floor (11) with both sides slantingly elevated in an upward direction. The bracket for assembling a solar panel comprises: a first body portion (110) including a first vertical portion (111) extending vertically on one upper side of the floor (11) and having a first fastening hole (112) opened to a side, and a first supporting portion (113) slantingly extending downward from a lower end of the first vertical portion (111) to the outside so that a bottom surface is attached to an inclined surface on one side of the floor (11); a second body portion (120) including a second vertical portion (121) extending vertically on other upper side of the floor (11) and having a second fastening hole (122), which faces the first fastening hole (112), opened to a side, and a second supporting portion (123) slantingly extending downward from a lower end of the second vertical portion (121) to the outside so that a bottom surface is attached to an inclined surface on the other side of the floor (11); a fastening screw (130) screw-coupled to the first fastening hole (112) and the second fastening hole (122) so that the supporting portions (113, 123) are configured to laterally press the inclined surfaces on both sides of the floor (11); and a support portion (140) extending upward from an upper end of any one of the first vertical portion (111) or the second vertical portion (121) to be mounted on a lower portion of the solar panel (20). According to the present invention, it is possible to prevent water from penetrating into the roof panel (10).

Description

Solar Panel Mounting Bracket {BRACKET FOR ASSEMBLING SOLAR PANEL}

The present invention relates to a solar panel joining bracket, and more particularly, to a solar panel joining bracket used to install a solar panel on top of the roof panel is formed with both sides slanted upwardly raised floor.

1 and 2 illustrate a configuration in which a solar panel is installed in a roof panel using a conventional solar panel coupling bracket. Referring to the drawings, the conventional solar panel coupling bracket is fixed to the lower end is fixed to the roof panel 110, the module clip 400 is fastened to the upper end by fixing bolts, etc., and the module frame 300 is fixed to both upper sides. The frame 200 and the lower end of the module frame 300 is configured to be seated on the seating portion 230 of the fixed frame 200 and the inner surface is in close contact with the contact portion 240, and the fixed portion of the fixed frame 200 Coupled to the 250 through the fixing bolt was composed of a module clip 400 to provide a fixing force while pressing the upper portion of the module frame 300.

However, since the fixing frame 200 is fixedly coupled to the roof panel 110 in a bolted manner as shown in FIG. 2, a bolt hole must be punched in the roof panel 110, and thus water such as rainwater through the bolt hole. Is introduced there was a problem that the leakage occurs in the roof panel (110).

On the other hand, Figure 3 shows the configuration of the roof panel assembled in the zinc panel construction method. Referring to the drawings, the zinc panel construction method includes a male connection end 22 and a female connection end 23 formed at both ends of the roof panel cut to a predetermined length unit, respectively. The roof panel could be assembled in a form of forming a mulch of upwardly protruding shape while being fitted to the female connection end 23 of the panel.

However, when the coupling structure of the photovoltaic panel using the conventional photovoltaic panel coupling bracket is applied as it is, interference may occur between the bracket and the protruding mulle, and the fixing frame 200 extends upward and downward Since the coupling flange 210 extended laterally to the roof panel 110 is coupled to the roof panel 110, when there is a strong wind or the bolt fastening force is deteriorated, there is a problem that a squeaking noise is generated while the play is generated at the coupling portion. In addition, there is a problem in that water leaks due to the water inflow while the gap is generated in the part where the male connecting end 22 and the female connecting end 23 are assembled according to secular variation.

Patent Publication No. 10-1827214 (2018.02.01), solar panel module fixing device. Korean Patent Laid-Open No. 10-2016-0024301 (2016.03.04), finishing materials for building roofs and exterior walls.

The present invention was created in order to solve the above problems, the object of the present invention is to avoid the need to perforate the bolt hole for fixing the bracket to prevent leakage of the roof panel by the bolt hole and the surface according to the shape of the roof panel It provides a solar panel joining bracket that can be installed in close contact with the roof panel to prevent noise caused by play, and to fix the germ, which is the position of the roof panel, more stably while installing the solar panel on top of the roof panel. Is in.

The solar panel joining bracket according to the present invention for achieving the above object is used to install the solar panel 20 on top of the roof panel 10 is formed with the raised floor 11 is inclined upwardly on both sides. In the solar panel joining bracket, the first vertical portion 111 and the first fastening hole 112 is arranged laterally extended up and down on the upper side of the floor 11 and the floor 11, A first body part 110 including a first support part 113 extending inclined downward from the lower end of the first vertical part 111 to be in close contact with one side of the inclined surface; A second vertical portion 121 extending upwardly and downwardly disposed on the other upper side of the floor 11 and having a second opening 122 facing the first fastening hole 112 laterally, and the floor 11; A second body part 120 including a second support part 123 inclined downward from the lower end of the second vertical part 121 to the outside so that the bottom surface is in close contact with the other inclined surface of the second inclined surface; A fastening screw 130 screwed to the first fastening hole 112 and the second fastening hole 122 such that each of the support parts 113 and 123 presses both inclined surfaces of the floor 11 sideways; And a support part 140 extending upward from an upper end of one of the vertical parts of the first vertical part 111 or the second vertical part 121 to be mounted under the solar panel 20.

Here, the roof panel 10 is the male connection end 13 formed at the end of the horizontal plate 12 and the female connection end 14 formed at the end of the other horizontal plate 12 are coupled to each other of the floor 11 A germ 15 protruding upward from the center is formed, and the first body part 110 extends laterally from the first vertical part 111 and the upper surface of the floor 11 and the germ 15. Is inserted into the space formed between the lower end of the pressurization portion 114 for pressing the neck portion of the germ 15 may be further included.

In addition, the pressing portion 114 is formed to extend laterally from the lower end of the first vertical portion 111, the bottom surface is seated on one side of the upper surface of the floor 11, the second body portion 120 is the first It may further include an extension portion 124 is formed to extend laterally from the bottom of the vertical portion 111, the bottom surface is seated on the other side of the upper surface of the floor (11).

In addition, an uneven portion 115 protruding in a convex-convex shape may be formed on a side facing the second body 120 on the pressing portion 114.

In addition, the inclined angles 16 are formed on both side slopes of the floor 11 at a lower inclination angle than the inclination angle of the upper portion, and the first support portion 113 and the second support portion ( 123 is formed to have a length corresponding to the upper portion of each of the inclined surface, the lower end may be supported by each of the bent portion (16).

In addition, the inclined angles 16 are formed on both side slopes of the floor 11 at a lower inclination angle than the inclination angle of the upper portion, and the first support portion 113 and the second support portion ( 123 is formed with a length corresponding to each inclined surface, but the support bent portion (116, 125) is formed concavely angled at an inclination angle corresponding to the position where the bent portion 16 is formed, the support bent portion on each bent portion 16 116 and 125 may be caught and supported by a lower end of the horizontal plate 12 of the roof panel 10.

In addition, the first body portion 110 and the second body portion 120 are bent outwardly from the first support portion 113 and the second support portion 123, respectively, and the bottom surface of the number of the roof panels 10 Mounting portions 126 supported on the flat plate 12 may be formed, respectively.

In addition, at the upper end of the vertical part of the first vertical part 111 or the second vertical part 121 in which the supporting part 140 is not formed, the space between the two vertical parts 111 and 121 is bent laterally. A bent portion 117 may be formed to cover the cover.

In addition, the side facing the other vertical portion on the bent portion 117 may be formed of a waterproof material having elasticity to form a waterproof portion 118 to hermetically seal between the bent portion 117 and the other vertical portion.

In addition, at least one vertical side portion of the first vertical portion 111 or the second vertical portion 121 is formed in the longitudinal side end of the anti-rotation piece 127 extending laterally to support the longitudinal side end of the opposite vertical portion is formed. Can be.

In addition, the first vertical portion 111 and the pressing portion 114 in contact with the contact portion inclined downward downward on the first body portion 110 between the first vertical portion 111 and the second vertical portion 121. A discharge hole 151 for discharging the water introduced into the space to the outside may be formed.

On the other hand, the first vertical portion 111 and the second vertical portion 121 in a concave groove in the inner position of the portion where the first vertical portion 111 and the pressing portion 114 in contact with the discharge hole 151. The space 152 may be formed to temporarily store the water introduced into the space therebetween.

According to the solar panel coupling bracket according to the present invention,

First, the first support part 113 formed below the first body part 110 is inclined downwardly to the outside on the roof panel 10 on which the floor 11 on which both sides are inclined upwardly upwardly is inclined downward. While being in close contact with one side of the inclined surface, the second support portion 123 formed in the lower portion of the second body portion 120 is inclined downward to the outside while being assembled in a structure that is in close contact with the other inclined surface of the floor 11 blows a strong wind or tightening force Even if it is lowered, noise can be minimized due to play, and each support part 113 and 123 is formed by the fastening screw 130 screwed to the first body part 110 and the second body part 120. Since both sides of the inclined surface of the side pressure can be firmly supported the assembled state of the roof panel 10.

Second, the roof panel 10 is assembled in a zinc panel construction method so that the male connection end 13 formed at the end of one horizontal plate 12 and the female connection end 14 formed at the end of the other horizontal plate 12 are mutually coupled. While the germ 15 protruding upward in the center of the floor 11 is formed, the first body part 110 extends laterally from the first vertical part 111 and is formed with the upper surface of the floor 11. Inserted into the space formed between the bottom of the germ (15) is formed in the pressing portion 114 for pressing the neck portion of the germ (15) can be stably fixed to the roof panel 10 and at the same time the roof panel 10 It is possible to further prevent the penetration of the water into the interior of the roof panel 10 by pressurizing the part of the germ 15 which may further strengthen the assembled state of the water from the outside.

Third, the pressing portion 114 is formed to extend laterally from the lower end of the first vertical portion 111, the bottom surface is seated on one side of the upper surface of the floor 11, the second body portion 120 in the first Since the extended portion 124 is formed to extend laterally from the lower end of the vertical portion 111 and the bottom surface is seated on the other side of the upper surface of the floor 11, the bracket may be more firmly fixed to the floor 11.

Fourth, the side facing the second body portion 120 on the pressing portion 114 is formed with a concave-convex portion protruding in a concave-convex shape, and compared with the case where the side is formed in a flat form, The effect of pressing the neck of 15) can be further increased.

Fifth, the inclined angled portions 16 are formed on both side surfaces of the floor 11 at a lower angle than the inclined angle of the upper portion, and the first and second support portions 113 and 123 are concave. ) Is formed in a length corresponding to the upper portion of each inclined surface is supported by the lower end of each of the bent portion 16, so the brace force against the external side pressure is increased to maintain a more secure fastening state.

1 and 2 are a side view and a side cross-sectional view showing a configuration in which the solar panel is installed on the roof panel using a conventional solar panel coupling bracket;
Figure 3 is an exploded perspective view showing the configuration of a roof panel assembled in a general zinc panel construction method,
Figure 4 is a side view showing a configuration in which the solar panel is installed on the roof panel using the solar panel coupling bracket according to a preferred embodiment of the present invention,
5 and 6 are a side view and an exploded perspective view showing a detailed configuration of the solar panel coupling bracket according to a preferred embodiment of the present invention,
Figure 7 is a side view showing the configuration of the waterproof portion, the discharge hole and the seating portion in accordance with a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

As shown in FIG. 4, the solar panel coupling bracket 100 according to the preferred embodiment of the present invention has a solar panel 20 formed on an upper portion of the roof panel 10 on which the raised floor 11 is inclined upwardly. ) Is used to install the bracket, as shown in Figure 5 and 6 includes a first body portion 110, a second body portion 120, a fastening screw 130 and a support portion 140.

First, the first body part 110 and the second body part 120 is a support member fixed to the floor 11 while being assembled together, and the first body part 110 is an upper portion of the floor 11. The lower end of the first vertical portion 111 so that the bottom surface is in close contact with the first vertical portion 111 and the first fastening hole 112 is opened laterally, and the one side inclined surface of the floor 11 is arranged to extend up and down on one side. It includes a first support portion 113 extending obliquely downward from the outside.

In addition, the second body portion 120 is vertically disposed on the other side of the upper floor 11 and the second vertical portion in which the second fastening hole 122 facing the first fastening hole 112 opens laterally. And a second support part 123 extending downward from the lower end of the second vertical part 121 so as to be in close contact with the other inclined surface of the floor 11.

The fastening screw 130 is a fastening means for coupling the first body part 110 and the second body part 120 so that each of the support parts 113 and 123 presses both inclined surfaces of the floor 11 laterally. It is screwed to the ball 112 and the second fastening hole (122). Here, the fastening screw 130 is the head is disposed on the outer side of one body portion and the nut 131 is disposed on the outer side of the other body portion while pressing the two body parts 110, 120 are simultaneously pressed inward.

The support part 140 is a member for supporting the solar panel 20 and extends upwardly from an upper end of one of the vertical parts of the first vertical part 111 and the second vertical part 121 to extend the solar panel ( 20) is mounted on the bottom. Here, the recess 141 is formed in the interior of the support 140, the recess 141 is formed upwardly and the recess 141 is formed in such a way that the inner space is expanded than the inlet side of the coupling member 21 of the solar panel 20, The end of Figure 4) is fitted so that it can be firmly fastened.

As described above, the first support part 113 formed below the first body part 110 is inclined downwardly to the outside on the roof panel 10 on which the floor 11 on which both sides are inclined upwardly is raised and is inclined downward. While being in close contact with one side of the inclined surface, the second support portion 123 formed in the lower portion of the second body portion 120 extends downward inclined outwardly is assembled in a structure that is in close contact with the other inclined surface of the floor 11 blows or fastening force Even if this is reduced, noise can be minimized due to play, and each support part 113 and 123 is formed by the fastening screw 130 screwed to the first body part 110 and the second body part 120. Since both sides of the inclined surface of the side pressure) can be firmly supported the assembled state of the roof panel 10.

Meanwhile, as shown in FIG. 5, the roof panel 10 is assembled in a zinc panel construction method, and a dark lead formed at the ends of the male connection end 13 and the other horizontal plate 12 formed at one end of the horizontal plate 12. When the determination 14 is coupled to each other and the upper projection 15 is formed in the center of the floor 11, the first body portion 110 is formed to extend laterally from the first vertical portion 111 and the floor It may further include a pressing unit 114 is inserted into the space formed between the upper surface of the (11) and the lower end of the germ 15 to press the neck portion of the germ (15).

Through the construction of the pressing unit 114, the horizontal support force and the upper and lower bearing force can be reinforced and stably fixed to the roof panel 10. At the same time, the assembly state of the roof panel 10 is more firmly and water is introduced from the outside. By pressing the part of the germ 15 may be prevented from penetrating the interior of the roof panel 10 in advance.

In addition, the pressing portion 114 is formed to extend laterally from the lower end of the first vertical portion 111, the bottom surface is seated on one side of the upper surface of the floor 11, the second body portion 120 in the first Since the extended portion 124 is formed to extend laterally from the lower end of the vertical portion 111 and the bottom surface is seated on the other side of the upper surface of the floor 11, the bracket may be more firmly fixed to the floor 11.

In addition, the side facing toward the second body portion 120 on the pressing portion 114 is formed with a concave-convex portion protruding in a concave-convex shape, and compared with the case where the side is formed in a flat form, The effect of pressing the neck of 15) can be further increased.

And, as shown in FIG. 5 when the inclined angled portion 16 is formed on both sides of the floor 11 of the floor 11 on the roof panel 10 while the inclination angle of the lower than the inclination angle of the upper is formed relatively small The first support part 113 and the second support part 123 are formed to have a length corresponding to the upper part of each inclined surface, and the lower end is supported by each of the bent parts 16, so that the holding force against the external side pressure is increased. It can maintain a firm fastening state.

In addition, as shown in the shape of the first support portion 113 in Figure 7, the first support portion 113 and the second support portion 123 is formed in a length corresponding to the upper portion of each inclined surface, the lower end of each bent portion (16) It is supported by) so that the brace force against external side pressure can be increased to maintain a tighter tightening state.

In addition, as shown in the shape of the second support 123 in FIG. 7, when the first support 113 and the second support 123 have a length corresponding to each inclined surface, the bent portion 16 is The support bent portions 116 and 125 angled to the inclination angle corresponding to the formed position are formed so that the support bent portions 116 and 125 are supported by the bent portions 16 and the horizontal plate 12 of the roof panel 10 is supported. Since the lower end may be supported, the support force may be further increased. In addition, the first body part 110 and the second body part 120 are bent outwardly from the first support part 113 and the second support part 123, respectively, and the bottom surface of the horizontal plate of the roof panel 10 ( Since the seating portions 126 supported by 12 are respectively formed, the support force can be further increased.

Meanwhile, as illustrated in FIG. 7, the vertical portions of the first vertical portion 111 or the second vertical portion 121 in which the support portion 140 is not formed are bent laterally toward the other vertical portion to form two vertical portions. Since the bent portion 117 is formed to cover the space between the 111 and 121, it is possible to reduce the inflow of water into the space from the outside.

Here, on the side facing the other vertical portion on the bent portion 117 is made of a waterproof material having elasticity, such as rubber or silicone, the waterproof portion 118 to seal tightly between the bent portion 117 and the other vertical portion is Since it is formed, it is possible to minimize the inflow of water into the space between the two vertical portions (111, 121).

In addition, at least one vertical side portion of the first vertical portion 111 or the second vertical portion 121 is formed in the longitudinal side end of the anti-rotation piece 127 extending laterally to support the longitudinal side end of the opposite vertical portion is formed. Therefore, when the first body part 110 and the second body part 120 is rotated by the fastening screw 130 is not fixed by the operator of the two body parts (110, 210) by the rotational force of the fastening screw 130. Since the non-body portion can be prevented from being rotated, the assembly of the bracket is easy and the worker can provide a condition for working.

In addition, a portion in which the first vertical portion 111 and the pressing portion 114 are in contact with the first body portion 110 is downwardly inclined to be disposed between the first vertical portion 111 and the second vertical portion 121. Since the discharge hole 151 for discharging the water introduced into the space to the outside is formed it can be prevented that the water introduced into the space is introduced into the interior of the roof panel 10 through the germal 15 disposed therein. .

In addition, between the first vertical portion 111 and the second vertical portion 121 in a concave groove in an inner position of a portion where the first vertical portion 111 and the pressing portion 114 contact on the discharge hole 151. Since a space portion 152 is formed for temporarily storing water introduced into the space of the water, the water flows into the germal 15 until the space portion 152 is filled, even though water is introduced into the space. It is possible to more effectively prevent the flow into the roof panel 10.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10 ... loop panel 15 ... almal
20 ... Solar Panel 100 ... Solar Panel Bonding Bracket
110 1st body part 111 1st vertical part
113 First support part 114 Pressing part
115 ... Extension 116,125 ...
117.Bending part 118 ... Waterproof part
120 second body 121 second vertical part
123 The second support 124 Extension
126 Seating part 127
130 ... Tightening screw 140 ...
151 ... Emission 152 ... Space

Claims (10)

In the solar panel joining bracket used to install the solar panel 20 on the upper side of the roof panel 10 is formed with the raised floor 11 is inclined upwardly, both sides,
The first vertical portion 111 is disposed to extend up and down on the upper side of the floor 11 and the first fastening hole 112 is opened laterally, and the bottom surface is in close contact with one side inclined surface of the floor 11. A first body part 110 including a first support part 113 extending obliquely downward from the lower end of the first vertical part 111;
A second vertical portion 121 extending upwardly and downwardly disposed on the other upper side of the floor 11 and having a second opening 122 facing the first fastening hole 112 laterally, and the floor 11; A second body part 120 including a second support part 123 inclined downward from the lower end of the second vertical part 121 to the outside so that the bottom surface is in close contact with the other inclined surface of the second inclined surface;
A fastening screw 130 screwed to the first fastening hole 112 and the second fastening hole 122 such that each of the support parts 113 and 123 presses both inclined surfaces of the floor 11 sideways; And
And a support part 140 extending upward from an upper end of one of the vertical parts of the first vertical part 111 and the second vertical part 121 to be mounted to the lower part of the solar panel 20. Panel mounting bracket.
The method according to claim 1,
The roof panel 10 has a male connection end 13 formed at an end of one horizontal plate 12 and a female connection end 14 formed at an end of the other horizontal plate 12 and are coupled to each other in the center of the floor 11. The upward protruding germ (15) is formed,
The first body part 110 extends laterally from the first vertical part 111 and is inserted into a space formed between an upper surface of the floor 11 and a lower end of the germ 15 and the germ 15. Bracket for solar panel coupling, characterized in that it further comprises a pressing portion 114 for pressing the neck portion.
The method according to claim 2,
The pressing portion 114 extends laterally from the lower end of the first vertical portion 111 so that the bottom is seated on one side of the upper surface of the floor 11,
The second body part 120 further includes an extension part 124 formed to extend laterally from the lower end of the first vertical part 111 so that the bottom surface is seated on the other side of the upper surface of the floor 11. Mounting bracket for solar panel.
The method according to claim 3,
The side panel facing the second body portion 120 on the pressing portion 114, the solar panel coupling bracket, characterized in that the concave-convex portion protruding in the form of concave-convex.
The method according to claim 4,
On both side inclined surfaces of the floor 11 is formed a concave angled bent portion 16 is formed while the inclination angle of the lower than the inclination angle of the upper is formed relatively,
The first support part 113 and the second support part 123 are formed to have a length corresponding to the upper part of each inclined surface, and the lower end is supported by each of the bent portion (16) bracket for solar panel coupling.
The method according to claim 4,
On both side inclined surfaces of the floor 11 is formed a concave angled bent portion 16 is formed while the inclination angle of the lower than the inclination angle of the upper is formed relatively,
The first support part 113 and the second support part 123 are formed to have a length corresponding to each inclined surface, but the support bent parts 116 and 125 concave at an inclination angle corresponding to the position where the bent part 16 is formed are formed. Formed to support each of the bent portion (116, 125) is supported by the support panel and the solar panel coupling bracket, characterized in that the lower end is supported on the horizontal plate 12 of the roof panel (10).
The method according to claim 6,
The first body part 110 and the second body part 120 are bent outwardly from the first support part 113 and the second support part 123, respectively, and a bottom surface thereof is a horizontal plate of the roof panel 10 ( 12) a mounting panel for supporting the solar panel, characterized in that each is formed.
The method according to claim 7,
The upper part of the vertical part of the first vertical part 111 or the second vertical part 121 in which the supporting part 140 is not formed is bent laterally toward another vertical part to cover the space between two vertical parts 111 and 121. Bracket for solar panel coupling, characterized in that the bent portion 117 is formed.
The method according to claim 8,
On the side of the bent portion 117 toward the other vertical portion is made of a waterproof material having an elastic waterproof portion 118 for sealing tightly between the bent portion 117 and the other vertical portion is formed Panel mounting bracket.
The method according to claim 8,
The anti-rotation piece 127 is formed at the longitudinal side end of at least one vertical portion of the first vertical portion 111 or the second vertical portion 121 and extends laterally to support the longitudinal side portion of the vertical portion facing each other. Mounting bracket for solar panel.

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