KR20220075840A - braket assembly for solar panel on a roof without additional structures - Google Patents

Abstract

The bracket assembly for solar panel installation that can be mounted on the roof without additional structures includes a roof panel; a panel support for supporting the roof panel; a presser for closely fixing the roof panel to the panel support; a sealing sphere positioned between the roof panel and the pressing sphere; And it includes a photovoltaic module bracket connected to the top of the pusher.

Description

Bracket assembly for solar panel on a roof without additional structures

The present invention relates to a bracket assembly for installing a solar panel, and more particularly, to a bracket assembly for installing a solar panel capable of installing a solar panel on the roof of a building without installing an additional structure separately.

In general, a photovoltaic module is used to produce electric power using the light of the sun, and a large amount of electric energy is produced at the same time by integrating solar cells that directly convert solar energy into electric energy in a plate shape. As fossil energy is gradually depleted, the demand for it is gradually increasing as one of the alternative energy sources.

As part of the demands of the times, there are cases where a solar panel for solar power generation is additionally installed on the roof of an already constructed building.

Although disclosed in domestic registration patents No. 10-1317568 and No. 10-1324500 in relation to such a roof-type solar module, the structure of the solar module is heavy, and the working load and the number of working steps are increased, thereby increasing the installation cost. In addition, the photovoltaic module currently installed on the roof of a building is installed after assembling horizontal and vertical beams in a grid shape. In this case, the work space is narrow and installation is difficult.

Korea Patent No. 10-1317568, Solar power generation device for prefabricated roof installation with reinforced waterproof function (Registration date: October 04, 2013) Korea Patent Registration No. 10-1324500, roof-type solar module device (Registration date: October 28, 2013)

The present invention provides a bracket assembly for installing a solar panel that reduces installation cost and improves the efficiency of installation work by simply constructing it through a bracket assembly without installing a separate facility.

In one embodiment, the solar panel installation bracket assembly includes a panel support for supporting the roof panel; a roof panel connected to the top of the panel support and a presser for closely fixing the roof panel to the panel support; a sealing sphere positioned between the roof panel and the pressing sphere; And it includes a photovoltaic module bracket connected to the top of the pusher.

The panel support of the bracket assembly for solar panel installation includes an upper support part, a lower support part, and a vertical support part connecting the upper support part and the lower support part, and the vertical support part is provided with an extended support reinforcement part integrally connected with the upper support part, and the Surface contact support parts for supporting the roof panel in surface contact are respectively formed on both sides of the upper surface of the upper support part, and when the end of the roof panel is bent along the surface contact support part, the presser is bolted to the panel support by a fastening bolt. When the load applied by the roof panel is transmitted to the panel support, the load applied to the vertical support is minimized, and the panel support collapses or bends due to the load of the roof panel. In order to prevent loss or cracks from occurring, the extended support reinforcing part extends toward the upper side of the vertical support so that the load applied to the upper support of the panel support is dispersed and supported. ; a second reinforcing part extending toward the other upper side of the vertical support part and extending toward the upper support part side; It further includes a dispersion space portion provided between the first reinforcing portion and the second reinforcing portion.

A circular fitting groove and a prismatic fitting groove are respectively provided on both sides of the pressing hole of the bracket assembly for installing the solar panel, and the closing hole is provided with a circular protrusion fitted into the circular fitting groove and the square fitting groove. A prismatic protrusion is provided to prevent pressing deformation when the closing sphere is pressed by the pressing sphere while the pressing sphere is bolted to the panel supporting member by means of a bolt.

The photovoltaic module bracket of the bracket assembly for solar panel installation fixedly connects the photovoltaic module to the upper end of the presser that is fixed in close contact with the panel support, and both sides of the lower fixed surface and the lower fixed surface that are in close contact with the upper surface of the presser, respectively A lower support bracket part having a first support side and a second support side each having a fastening hole facing each other and extending vertically, a first adhesion fixing surface in close contact with the inner side of the first support side, and a second of the lower support bracket part A connection hole corresponding to the fastening hole and the first close contact fixing surface and a second tight fixing surface are provided through each of the second tight fixing surface, the first close contact fixing surface, and the second close fixing surface, which are closely located inside the support side The upper support bracket part having the lower support surface of the solar module connecting the surfaces, the bracket fastening bolt connecting the fastening hole of the lower support bracket part through the connection hole of the upper support bracket part, and the bracket fastening nut coupled to the bracket fastening bolt Including, the lower fixing surface of the lower support bracket part is fastened and fixed to the presser by a fastening bolt bolting the panel support and the presser, and the upper support bracket part is a first extending vertically from both sides of the upper end of the lower support surface of the solar module A partition surface and a second partition surface and a bolt head loading part provided between the first partition surface and the second partition surface are provided, respectively, in close contact with the first partition surface and the second partition surface of the upper support bracket part to be spaced apart from each other The upper surface of the first solar module and the upper surface of the second solar module each seated on the lower support surface of the photovoltaic module of the upper support bracket are provided with a pressure support surface that is pressed and pressed in close contact with the bolt head loading part A pressure fixture having a bolt fastening hole and a bolt head is fitted in the bolt head loading part of the upper support bracket part, and it penetrates the bolt fastening hole of the pressure fixture and further includes a pressure fixture fixing bolt fastened by a pressure fixture nut.

In the upper support part of the panel support of the bracket assembly for solar panel installation, the first and second reinforcing parts of the expanded support reinforcing part are connected to the upper support part, and a first fastening screw groove part and a second fastening screw are connected along the longitudinal direction of the panel support part. A reinforcing connection portion provided with a groove portion is further provided.

A plurality of bolting holes corresponding to the first fastening screw groove portion and the second fastening screw groove portion are respectively provided in the pressing hole of the solar panel mounting bracket assembly, and the plurality of fastening bolts are provided so that a plurality of fastening bolts are provided with the plurality of bolting holes, respectively. The first fastening screw groove portion and the second fastening screw groove portion provided along the longitudinal direction of the panel support member are respectively screwed therethrough, so that the pressing member and the panel support member are bolted to each other.

When the first adhesion fixing surface of the upper support bracket part of the bracket assembly for solar panel installation is in close contact with the first support side and the second adhesion fixing surface is in close contact with the second support side, the upper end of the first support side and the second support side It is respectively seated on the upper end to prevent the first and second close contact surfaces from being completely lowered toward the lower support bracket, so that the first and second close contact surfaces of the upper support bracket are respectively first supported. Positioning projections for positioning the fastening hole and the connecting hole to correspond to each other when closely positioned inside the side inner side and the second supporting side surface are respectively provided on the first and second adhesion and fixation surfaces of the upper support bracket part .

An elastic body on the upper portion of the pressure support surface of the pressure fixture of the bracket assembly for installing a solar panel, a fixture for fixing one end of the elastic body to the pressure support surface, and the other end opposite to one end of the elastic body to prevent damage to the solar module It further includes a solar module fixing part made of a buffer for the.

As an embodiment, in the solar panel installation bracket assembly, the lower support surface of the solar module of the upper support bracket is provided in a horizontal direction with respect to the vertical direction of the first and second adhesion surfaces, the lower part of the solar module To position the photovoltaic module supported on the ground in a horizontal direction, or the lower support surface of the photovoltaic module of the upper support bracket part is the first close-fitting surface with respect to the vertical direction of the first and second close-fitting surfaces And the second is provided to be inclined toward the fixed surface side, the solar module supported on the lower support surface of the photovoltaic module is provided so as to be positioned in an inclined direction.

The bracket assembly for solar panel installation according to the present invention can be mounted on the roof without an additional structure, thereby reducing the solar panel installation cost and increasing the efficiency of the installation operation.

In addition, it has the effect of solving environmental problems such as forest damage by installing a solar panel on an artificial structure.

1 is a perspective view showing a bracket assembly for installing a solar panel according to an embodiment of the present invention.
2 is an exploded perspective view showing a bracket assembly for installing a solar panel according to an embodiment of the present invention.
3 is a view showing a bracket assembly for installing a solar panel according to an embodiment of the present invention.
4 is a view showing a bracket assembly for installing a solar panel according to another embodiment of the present invention.
5 is a view showing a bracket assembly for installing a solar panel according to another embodiment of the present invention.

The present invention described below can apply various transformations and can have various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

In addition, terms such as first, second, etc. may be used to distinguish and describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

In addition, when at least two different embodiments are described in the present application, all or part of the components may be used by merging and mixing with each other, even if there is no particular description within the scope not departing from the technical spirit of the present invention. .

1 is a perspective view showing a solar panel installation bracket assembly according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a solar panel installation bracket assembly according to an embodiment in the present invention, Figure 3 is the present invention It is a view showing a bracket assembly for installing a solar panel according to an embodiment, Figure 4 is a view showing a bracket assembly for installing a solar panel according to another embodiment of the present invention, Figure 5 is another embodiment of the present invention It is a view showing a bracket assembly for installing a solar panel according to the present invention.

1 to 5, the solar panel installation bracket assembly 100 is a roof panel (P), a panel support (10), a pressing sphere (20), a sealing sphere (30) and a solar module bracket (40) ) is included.

The roof panel (P) is of a dome-shaped or rectangular shape covering the upper part of a structure that separates indoor and outdoor, such as a sewage treatment plant, a wastewater treatment plant, a food treatment plant, a waste treatment plant, a livestock excreta treatment plant, a large-scale storage tank, and a sports facility.

The panel support 10 supports the roof panel P, and in the process of supporting the roof panel P of a building, when the load of the roof panel P is transmitted to the panel support 10 side, it is distributed and transmitted. It not only minimizes the transfer of load applied to the panel support 10 , but also firmly supports the sealing member 30 in close contact with the pressing member 20 .

To this end, the panel support 10 of the present invention includes a lower support part 11 and an upper support part 12 and a vertical support part 13 vertically connecting the lower support part 11 and the upper support part 12, The vertical support part 13 is formed with an extended support reinforcement part 14 integrally connected with the upper support part 12 .

The expanded support reinforcing part 14 of the present invention includes a first reinforcing part 141 extending toward an upper side of the vertical support part 13 and extending toward the upper support part 12 side, and the vertical support part 13 A second reinforcing part 142 extending to the other upper side of the upper support part 12 and extending toward the upper support part 12 side, and a dispersion space part 143 provided between the first and second reinforcing parts 141 and 142 ) may be further formed.

Accordingly, the load applied to the upper support portion 12 of the panel support 10 is distributed and supported.

That is, when the load applied by the roof panel P is transferred to the panel support 10 side, the first reinforcing part 141 and the second reinforcing part respectively extend to one side and the other side of the upper part of the vertical support part 13 . Since the load is distributed and transmitted by the part 142 and the dispersion space part 143, the load applied to the vertical support part 13 can be minimized, so that the panel support 10 by the load of the roof panel P ) can be prevented from collapsing, bending, or cracking.

On both sides of the upper surface of the upper support portion 12 of the present invention, surface contact support portions 15 for supporting the roof panel P in surface contact are provided, respectively, and the end portion P1 of the roof panel P is provided with the surface contact paper It is bent along the branch 15 so that when the pressing member 20 is bolted to the panel support 10 by the fastening bolt B, it is closely adhered to the surface contact support part 15 to be firmly supported.

As described above, since the end portion P1 of the roof panel P is closely adhered to and supported by the surface contact support 15 by surface contact, the roof panel P is moved to the panel support 10 by the pressing member 20. and can be firmly fixed to the roof panel (P) even in strong winds to prevent shaking, flow, or separation.

The presser 20 is connected to the upper end of the panel support 10 so as to closely fix the roof panel P to the panel support 10 .

The sealing sphere 30 is positioned between the roof panel P and the pressing sphere 20 and is formed in a shape suitable to prevent a gap from being generated between the roof panel P and the pressing sphere 20 .

A circular fitting groove 21 and a square fitting groove 22 to which the closing member 30 is fitted are provided on both sides of the pressing hole 20, respectively, and the circular fitting groove 21 is provided in the closing hole 30 Since the circular protrusion 31 fitted to the prismatic protrusion 32 and the prismatic protrusion 32 fitted into the prismatic fitting groove 22 are provided, the pressing sphere 20 is connected to the panel supporting member by the fastening bolt (B) ( 10) When the closing sphere 30 is pressed by the pressing sphere 20 in the process of bolting with 10), the pressing force of the pressing sphere 20 is distributed by the circular protrusion 31 and the prismatic protrusion 32. As a result, deformation of pressing on the sealing member 30 is prevented, airtightness and airtightness by the sealing member 30 can be greatly improved, and through this, the gap between the pressing member 20 and the roof panel P is It is possible to prevent the inflow of rainwater or the odor from being discharged to the outside by preventing the occurrence of odors.

On the other hand, in the upper support portion 12 of the panel support 10 of the present invention, the first reinforcing portion 141 and the second reinforcing portion 142 of the expanded support reinforcing portion 14 are provided with the upper support portion 12 and A reinforcing connection part 16 provided with a first fastening screw groove part 161 and a second fastening screw groove part 162 is formed along the longitudinal direction of the panel support 10 .

In addition, a plurality of bolting holes 23 corresponding to the first fastening screw groove portion 161 and the second fastening screw groove portion 162 are formed in the pressing hole 20 .

Through this, a plurality of fastening bolts (B) pass through the plurality of bolting holes 23, respectively, and as the presser 20 and the panel support 10 are bolted together, a plurality of fastening bolts 20 along the longitudinal direction The fastening bolt (B) is fastened to the first fastening screw groove portion 161 and the second fastening screw groove portion 162, respectively, so that the panel support unit 10 and the presser unit 20, as well as the sealing unit 30 and the roof It is possible to firmly fasten the panel (P).

The photovoltaic module bracket 40 is connected to the upper end of the pusher 20 and is formed to fix the photovoltaic module.

Since the photovoltaic modules S1 and S2 can be fixedly connected to the upper end of the pusher 20 by the photovoltaic module bracket 40 and installed, the installation performance, workability and work efficiency according to the installation work for the photovoltaic module can be improved. can be improved and the working time can be shortened.

To this end, the photovoltaic module bracket 40 of the present invention includes a lower support bracket portion 41 , an upper support bracket portion 42 , and a pressure fixture 45 .

As shown, the lower support bracket part 41 is in close contact with the upper surface of the presser 20 and is pressed by a fastening bolt B for bolting the panel support 10 and the presser 20 . A first support side 413 and a first supporting surface 413 that are respectively provided with fastening holes 412 corresponding to each other and extending vertically to both sides of the lower fixed surface 411 fastened to the sphere 20 and the lower fixed surface 411, respectively It includes two supporting side surfaces 414, is positioned along the longitudinal direction of the pressing sphere 20, is in close contact with the upper surface of the pressing sphere 20, and then is fastened and fixed by a fastening bolt (B).

As shown in the figure, the upper support bracket part 42 includes a first adhesion fixing surface 421 and the lower support bracket part ( 41) of the second close contact fixing surface 422 positioned inside the second support side 414, the first close contact fixing surface 421 and the second close contact fixing surface 422 are provided respectively through the fastening hole The photovoltaic module lower support surface 424 and the photovoltaic module lower support surface 424 for connecting the connection hole 423 corresponding to 412 and the first adhesion fixing surface 421 and the second adhesion fixing surface 422 ) The first and second partitions 425 and 426 extending vertically from both sides of the upper end, and the bolt head loading part 427 provided between the first and second partitions 425 and 426 is formed

The first partition surface 425 and the second partition surface 426 are spaced apart from each other so that the solar modules S1 and S2 respectively seated on the solar module lower support surface 424 of the upper support bracket part 42 are spaced apart from each other. This is to allow ventilation between the photovoltaic modules (S1, S2) to dissipate heat to the photovoltaic modules (S1, S2) heated by sunlight.

The upper support bracket part 42 is also positioned along the longitudinal direction of the pressing hole 20 to be connected and fixed with the lower support bracket part 41, and the fastening hole 412 of the lower support bracket part 41 is also fixed. It is connected and fixed by a bracket fastening bolt 43 and a bracket fastening nut 44 that pass through and connect the connecting hole 423 of the upper support bracket part 42 .

In this way, after the lower support bracket part 41 is in close contact with the upper surface of the pressing hole 20, the lower support bracket part 41 is fixed to the pressing hole 20 with a fastening bolt (B), and the upper support bracket part 42 ) of the first and second close fixing surfaces 421 and 422 of the lower support bracket 41, respectively, the first support side 413 and the second support side 414 of the lower end support side surface 414, located inside and in close contact Then, by passing the bracket fastening bolt 43 through the fastening hole 412 and the connecting hole 423 and fastening the bracket fastening bolt 43 with the bracket fastening nut 44, the upper end of the pressing hole 20 Since the lower support bracket part 41 and the upper support bracket part 42 can be connected and installed to the It can be installed in the pressing hole 20 for fixing the roof panel (P).

The pressure fixture 45 is positioned to be spaced apart from each other in close contact with the first partition surface 425 and the second partition surface 426 of the upper support bracket part 42, respectively. A pressure support surface 451 for adhering and pressing the upper surface of the first solar module (S1) and the upper surface of the second solar module (S2) respectively seated on the solar module lower support surface 424 is provided, and the bolt It further includes a bolt fastening hole 452 corresponding to the head mounting portion 427.

In addition, the bolt head 471 is inserted into the bolt head charging part 427 of the upper support bracket part 42 and penetrates the bolt fastening hole 452 of the pressing fixture 45 by the pressing fixture nut 46 It includes a pressure ball fixing bolt (47) to be fastened.

The pressure fixture 45 of the present invention made in this way is to press and fix the upper ends of the photovoltaic modules S1 and S2 seated on the photovoltaic module lower support surface 424 of the upper support bracket part 42, As shown, the photovoltaic module (S1, S2) while the pressure fixture nut 46 is pressing the pressure fixture 45 by turning the pressure fixture nut 46 and fastening it to the fixture bolt 47. ) because the pressure support surface 451 of the pressure fixture 45 presses and presses the upper end of the photovoltaic module (S1, S2) is firmly fixed.

At this time, in order for the pressure support surface 451 of the pressure fixture 45 to firmly press and press the upper end of the photovoltaic modules S1 and S2, the pressure support surface 451 is the photovoltaic module S1, S2. ) inclined to the side.

Positioning protrusions 428 may be further formed on the first adhesion fixing surface 421 and the second adhesion fixing surface 422 of the upper end support bracket part 42 of the present invention, respectively.

As such, as the positioning protrusion 428 is provided, the first adhesion fixing surface 421 of the upper support bracket part 42 is in close contact with the first support side surface 413 and the second adhesion fixing surface 422 is in close contact. When in close contact with the second support side 414, it is seated on the upper end of the first support side 413 and the upper end of the second support side 414, respectively, so that the first adhesion surface 421 and the second adhesion surface 422 are respectively seated. ) is prevented from being completely lowered toward the lower support bracket part 41 so that the fastening hole 412 and the connection hole 423 are positioned to correspond to each other.

Accordingly, when connecting the lower support bracket part 41 and the upper support bracket part 42 with the bracket fastening bolt 43 and the bracket fastening nut 44, the fastening hole 412 of the lower support bracket part 41 And even if the connection hole 423 of the upper support bracket part 42 is not manually aligned, the fastening hole 412 and the connection hole 423 can be positioned to correspond to each other by the positioning protrusion 428. By passing the bracket fastening bolt 43 through the fastening hole 412 and the connecting hole 423 and fastening the bracket fastening nut 44, the lower support bracket part 41 and the upper support bracket part 42 are connected and fixed. done easily

The photovoltaic module lower support surface 424 of the upper support bracket part 42 of the present invention is horizontal with respect to the vertical direction (a) of the first adhesion fixing surface 421 and the second adhesion fixing surface 422 . (b) may be provided so as to position the solar module supported on the solar module lower support surface 424 in the horizontal direction.

In addition, the photovoltaic module lower support surface 424 of the upper support bracket part 42 has the first adhesion with respect to the vertical direction (a) of the first adhesion surface 421 and the second adhesion surface 422 . It may be formed to be inclined toward the fixing surface 421 and the second close fixing surface 422 to position the solar module supported on the solar module lower support surface 424 in the inclined direction (c).

In this way, the solar module lower support surface 424 in the horizontal direction (b) or inclined direction (c) with respect to the vertical direction (a) of the first and second adhesion fixed surface 421 and the second adhesion fixed surface (c). The reason for the provision is to connect and install the roof panel P in a curvature with respect to a curved position when a dome-shaped or rectangular roof is installed.

In one embodiment of the present invention, when the solar modules S1 and S2 are formed to be positioned in the inclined direction c, the solar modules S1 and S2 are Safety accidents may occur due to separation, separation and damage.

To solve this, the solar installation bracket assembly 100 may further include a solar module fixing unit 50 .

The solar module fixing unit 50 includes an elastic body 51 , a fastener 52 and a buffer unit 53 .

The elastic body 51 is formed in a bar shape on the pressure support surface 451 of the pressure fixture 45 , and a plurality of elastic bodies 51 may be disposed to be spaced apart from each other in the longitudinal direction of the panel support member 10 .

The fixture 52 fixes one end of the elastic body 51 to the pressure support surface 451 and, for example, secures one end of the elastic body 51 to the pressure support surface 451 in various ways such as bolts and screws. can do.

The buffer part 53 is formed at the other end opposite to one end of the elastic body 51, and is made of a material capable of absorbing shock, for example, a synthetic resin material having elasticity, a rubber material, etc. , S2) is coupled to the photovoltaic module bracket 40 or prevents the photovoltaic modules S1 and S2 from being damaged by vibration or impact applied by wind or the like after being coupled.

Although in one embodiment of the present invention, the photovoltaic module fixing part 50 is shown and described as being formed on the pressure support surface 451, the solar module fixing part 50 is the solar module lower support surface 424. It is also free to be formed in

In particular, when the photovoltaic module fixing part 50 is formed on both the pressurized support surface 451 and the photovoltaic module lower support surface 424 , the upper and lower portions of the solar modules S1 and S2 can be fixed at the same time. has

As described in detail above, the solar panel installation bracket assembly according to the present invention can be mounted on the roof without an additional structure, thereby reducing the solar panel installation cost and increasing the efficiency of the installation operation.

In addition, it has the effect of solving environmental problems such as forest damage by installing a solar panel on an artificial structure.

On the other hand, the embodiments disclosed in the drawings are merely presented as specific examples to aid understanding, and are not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

10: panel support 20: presser
30: sealing hole 40: solar module bracket
50: solar module fixing part

Claims (2)

roof panel;
a panel support for supporting the roof panel;
a presser for closely fixing the roof panel to the panel support;
a sealing sphere positioned between the roof panel and the pressing sphere; and
It includes a solar module bracket connected to the top of the pusher,
The panel support includes an upper support part, a lower support part, and a vertical support part connecting the upper support part and the lower support part. Each of the interview support parts that support the panel by interview are formed,
The end of the roof panel is bent along the surface contact support part so that when the pressing ball is bolted to the panel support part by a fastening bolt, it is firmly supported in close contact with the surface contact support part,
When the load applied by the roof panel is transferred to the panel support, the load applied to the vertical support is minimized to prevent the panel support from collapsing, bending, or cracking due to the load of the roof panel. The support reinforcing part includes: a first reinforcing part extending toward an upper side of the vertical support part and extending toward the upper support part so that the load applied to the upper support part of the panel support part is distributed and supported; a second reinforcing part extending toward the other upper side of the vertical support part and extending toward the upper support part side; Further comprising a dispersion space portion provided between the first reinforcing portion and the second reinforcing portion,
A circular fitting groove and a prismatic fitting groove into which the closing sphere is fitted are provided on both sides of the pressing sphere, respectively, and the closing sphere is fitted with a circular protrusion fitted into the circular fitting groove and the prismatic fitting groove, the pressing sphere by the fastening bolt A prismatic protrusion is provided to prevent pressing deformation when the closing sphere is pressed by the pressing sphere in the process of being bolted to the panel support,
The photovoltaic module bracket fixedly connects the photovoltaic module to the upper end of the presser fixed to the panel support, and vertically extended to both sides of the lower fixed surface and the lower fixed surface that are in close contact with the upper surface of the presser, but facing each other A lower support bracket portion having a first support side and a second support surface each having a fastening hole, a first adhesion fixing surface in close contact with the inner side of the first support surface, and a second support side in close contact with the lower support bracket portion Sunlight that is provided through each of the second tight fixing surface and the first close contact fixing surface and the second close fixing surface to be connected to the connection hole corresponding to the fastening hole and the first close contact fixing surface and the second tight fixing surface A top support bracket having a module lower support surface, a bracket fastening bolt for penetratingly connecting the fastening hole of the lower support bracket part and the connecting hole of the upper support bracket part, and a bracket fastening nut coupled to the bracket fastening bolt,
The lower fixing surface of the lower support bracket part is fastened to the presser by a fastening bolt bolting the panel support and the presser, and the upper support bracket part is a first partition surface extending vertically from both sides of the upper end of the lower support surface of the solar module and A second compartment is provided with a bolt head charging unit provided between the first compartment and the second compartment, the upper support bracket is in close contact with the first compartment and the second compartment, respectively, and positioned to be spaced apart from each other. A pressurizing support surface is provided to closely and support the upper surface of the first solar module and the upper surface of the second solar module seated on the lower support surface of the photovoltaic module of the upper support bracket, respectively, and bolts corresponding to the bolt head insert are provided. A pressure fixture having a hole and a bolt head is fitted in the bolt head insertion part of the upper support bracket, and further comprising a pressure fixture fixing bolt that passes through the bolt fastening hole of the pressure fixture and is fastened by a pressure fixture nut,
In the upper support portion of the panel support, the first reinforcing portion and the second reinforcing portion of the expanded support reinforcing portion are connected to the upper support portion, and a reinforcing connection portion provided with a first fastening screw groove and a second fastening screw groove along the longitudinal direction of the panel support. is further provided,
A plurality of bolting holes respectively corresponding to the first fastening screw groove portion and the second fastening screw groove portion are provided in the pressing hole,
The plurality of fastening bolts are provided so that the plurality of fastening bolts pass through the plurality of bolting holes, respectively, and are screwed into the first fastening screw groove portion and the second fastening screw groove portion provided along the longitudinal direction of the panel support member, respectively, so that the pressing hole and the panel are screwed together. The support is provided so as to be bolted and made,
When the first adhesion fixing surface of the upper support bracket part is in close contact with the first support side and the second adhesion fixing surface is in close contact with the second support side, it is seated on the upper end of the first support side and the upper end of the second support side, respectively. The first and second close contact surfaces are prevented from being completely lowered toward the lower support bracket, so that the first and second close contact surfaces of the upper support bracket are formed inside the first support side and the second supporting surface, respectively. Positioning projections for positioning the fastening hole and the connecting hole to correspond to each other when positioned closely on the inner side of the side surface are respectively provided on the first and second adhesion and fixation surfaces of the upper support bracket,
An elastic body on the pressure support surface of the pressure fixture, a fixture for fixing one end of the elastic body to the pressure support surface, and a buffer provided at the other end opposite to one end of the elastic body to prevent damage to the solar module A bracket assembly for installing a solar panel further comprising a module fixing part. The method of claim 1,
The lower support surface of the photovoltaic module of the upper support bracket is provided in a horizontal direction with respect to the vertical direction of the first and second adhering fixed surfaces to position the photovoltaic module supported on the lower supporting surface of the photovoltaic module in the horizontal direction. Alternatively, the lower support surface of the solar module of the upper support bracket part is provided inclined toward the first and second close contact surfaces with respect to the vertical direction of the first and second adhesion surfaces. A photovoltaic panel installation bracket assembly provided to position the photovoltaic module supported on the module lower support surface in an inclined direction.

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