KR102746941B1 - Mounting apparatus on roof panel of installation structure for solar panel - Google Patents

Abstract

The present invention relates to a mounting device of installation structures for solar panels, the mounting device being capable of preventing the contraction of roof panels caused by the weight of solar panels and installation structures, thereby preventing leakage of a building and improving the durability of the solar panel installation structures. The mounting device of installation structures for solar panels comprises: at least two roof panel mounting brackets (20) configured to be mounted on a roof panel (10) while accommodating a portion of a lower support frame (30); a toggle bolt (50) configured to fix the position of the roof panel mounting bracket (20) seated on an upper surface of the roof panel (10) and pass through the roof panel (10) and a C-shaped steel (60) that supports the roof panel (10) from the lower surface for fastening; and a self-drill screw (40) having a drill tip formed on one end so as to maintain the distance between the roof panel mounting bracket (20) and the C-shaped steel (60), which are fixed by the toggle bolt (50), in a fastened state and to directly fasten the roof panel mounting bracket (20) and the C-shaped steel (60).

Description

MOUNTING APPARATUS ON ROOF PANEL OF INSTALLATION STRUCTURE FOR SOLAR PANEL

The present invention relates to a mounting device for an installation structure for solar panels, and more specifically, to a mounting device for an installation structure for solar panels that can prevent shrinkage of a roof panel due to the weight of the solar panel and the installation structure installed on the roof panel of a building, thereby improving water leakage in the building and the durability of the solar panel installation structure.

Solar power generation refers to converting light energy into electrical energy by concentrating sunlight onto solar cells or photovoltaic modules.

These solar modules are focused on solar panels, and the solar panels are installed on the roof of a building to generate solar power while satisfying conditions such as irradiance conditions, securing an installation area, and ease of installation to ensure stable production of electricity.

In order to install solar panels on the roof of a building, a solar power generation support structure is installed on the roof panels or steel panels that form the roof.

Domestic patent registration No. 10-2054871 (registration date, December 5, 2019) discloses a mounting module for a slanted roof-mounted solar panel that can always be installed in a row with bases installed on two slopes despite the gap between the ribs of the sandwich panel.

Referring to FIG. 7, the configuration of this prior art is fixed on sandwich panels (10) of a sloping roof to support solar panels, and includes a base (130), an upper bracket (120), and a lower bracket (110). The solar panels can be supported by vertical frames (32) vertically constructed on the base (130). The vertical frames (32) can be supported by the base (130) by being fastened by a base support (140) fitted into the base (130) and a fastening member (150) such as a bolt and nut. The base support (140) can be positioned between the upper brackets (120) along the length of the base (130), and the sandwich panels (10) are constructed directly below the C-shaped steel (60), and an H-shaped steel (70) is constructed vertically with respect to the C-shaped steel (60) below the C-shaped steel (60).

Each of the above bases (130) can be formed as a beam so that it can be installed vertically along the slope direction of the slope of the sloped roof, and a plurality of base fasteners (140) are configured to be installed at a certain interval along the slope direction of the slope so that they can be fastened vertically to the base (130). The upper brackets (120) are respectively installed at the fastening hole positions of each base (130) along the slope direction of the slope so that they can support the bases (130) corresponding to the fastening holes of the bases (130). Each of the upper brackets (120) is formed as a horizontally long beam so that it can be installed horizontally on the protrusions of the sandwich panels (10), and is stacked vertically on the base (130), the upper bracket (120), and the protrusions of the sandwich panels (10). The lower brackets (100, 110) are paired with two for each upper bracket (120), and are respectively mounted on the protrusions of the sandwich panels (10) and combined with the upper bracket (120) to support the upper bracket (120). Each lower bracket may be composed of a mounting portion (100) and a support portion (110). The mounting portion (100) may be formed in a shape corresponding to the cross-section of the protrusions of the sandwich panels (10) so that it can be firmly mounted by being fitted and fixed on the protrusions of the sandwich panels (10). The support portion (110) is coupled on the mounting portion (100) and is fitted and combined with the upper bracket (120) below the upper bracket (120).

A lower bracket (100, 110) like this can be fixed to a sandwich panel (10) by a direct-connecting piece (40), and the direct-connecting piece (40) can be fastened from the lower bracket (100, 110) through the sandwich panel (10) to a C-shaped steel (60). Here, the direct-connecting piece (40) can be formed by a combination of a bolt and nut or a screw piece, etc.

However, although the above-described conventional technology has the advantage of being able to mount the installation structure of the solar panel in response to the clearance of the sandwich panel, as described above, there is a problem in that the number of parts for mounting the installation structure to the sandwich panel is relatively large, and the process and work time for assembling these parts are considerable, so that a lot of cost is required for installing the solar panel.

In particular, conventional technology has a problem in that the roof panels shrink due to the weight of the solar panels and the installation structure, and such shrinkage of the roof panels causes water leakage in the building or reduces the durability of the solar panel installation structure.

The present invention is to solve the above-described problems, and the purpose of the present invention is to provide a mounting device for a solar panel installation structure capable of preventing shrinkage of a roof panel due to the weight of the solar panel and the installation structure, thereby improving water leakage in the building and the durability of the solar panel installation structure. That is, the solar panel and the installation structure installed on the roof panel of a building cause shrinkage in the roof panel due to their weight and wind pressure, and such shrinkage of the roof panel significantly reduces the wind pressure response and waterproofing ability of the structure, causing water leakage in the building or reducing the durability of the solar panel installation structure. Therefore, the present invention provides a mounting device for a solar panel installation structure capable of minimizing shrinkage of the roof panel by the solar panel installation structure.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned can be more clearly understood from the following description explaining preferred embodiments.

In order to achieve the above purpose, the mounting device for the solar panel installation structure according to the present invention comprises: a plurality of lower support frames (30) arranged on the mountain portion of a roof panel (10) in which ribs spaced at a certain interval in the longitudinal direction and mountain portions protruding at a certain height are repeatedly formed; a pillar frame (32) standing upright and joined to the lower support frame (30) at a certain interval; and a mounting device for the solar panel installation structure for mounting the solar panel on the upper portion of the pillar frame (32), wherein at least two roof panel mounting brackets (20) for mounting on the roof panel (10) while each accommodating a part of the lower support frame (30), a toggle bolt (50) for fixing the position of the roof panel mounting brackets (20) mounted on the mountain portion of the roof panel (10) and fastening by penetrating the roof panel (10) and the C-shaped steel (60) supporting the roof panel (10) from the lower surface, and the The roof panel mounting bracket (20) is fixed with a toggle bolt (50) to maintain the distance between the C-shaped steel (60) and the roof panel mounting bracket (20) in a connected state, and includes a direct-connection piece (40) having a drill bit formed on one side to directly connect the roof panel mounting bracket (20) and the C-shaped steel (60), and the roof panel mounting bracket (20) may be configured to include a panel mountain horizontal plate portion (22) having a predetermined length and being able to be closely mounted on a panel mountain flat portion (12) of the roof panel (10), a pair of panel groove horizontal plate portions (24) extending from downwardly inclined slanted plates at both ends of the panel mountain horizontal plate portion (22) and being able to be closely mounted on a panel groove flat portion (14) of the roof panel, and a frame support vertical plate portion (26) extending by being bent so as to stand vertically from each end of the panel groove horizontal plate portion (24) so as to be integrally formed.
For example, the toggle bolt (50) may be configured such that a screw thread is formed on the outer periphery of a circular bar having a predetermined length, a toggle key (57) is rotatably coupled to the lower end about a hinge (56), the toggle key (57) has a predetermined length, a cross-section perpendicular to the longitudinal direction is bent in a D-shape, and is formed by being cut so as to accommodate the lower end of the circular bar on one side of the hinge (56), and the roof panel mounting bracket (20) may be configured such that a direct-connection piece mounting hole (45) for fastening the direct-connection piece (40) to the panel mount horizontal plate portion (22) and a toggle bolt mounting hole (55) for fastening the toggle bolt (50) are formed.
As an example, in a mounting device for a solar panel installation structure, a plurality of lower support frames (30) arranged on the mountain portion of a roof panel (10) having a cross-section perpendicular to the longitudinal direction having a semicircular convex mountain portion and a semicircular concave valley portion repeatedly formed, a pillar frame (32) standing upright and joined to the lower support frame (30) at a predetermined interval, and a solar panel mounting structure for mounting a solar panel on the upper portion of the pillar frame (32), at least two roof panel mounting brackets (20) for mounting to the roof panel (10) while each accommodating a portion of the lower support frame (30), a toggle bolt (50) for fixing the position of the roof panel mounting bracket (20) mounted on the mountain portion of the roof panel (10) and connecting it by penetrating through the roof panel (10) and the C-shaped steel (60) supporting the roof panel (10) from the lower surface, and a toggle bolt (50) fixed thereto The roof panel mounting bracket (20) comprises a direct-connection piece (40) having a drill bit formed on one side to maintain the distance between the roof panel mounting bracket (20) and the C-shaped steel (60) in a connected state and directly connect the roof panel mounting bracket (20) and the C-shaped steel (60), and the roof panel mounting bracket (20) comprises a ridge bracket part (21) having a predetermined length and being closely attached to and fixed on a convex peak of the roof panel, a pair of valley bracket parts (23) extending from both ends of the ridge bracket part (21) and being fixed on a valley, and a frame support vertical plate part (26) that is bent and extended so as to stand vertically from the ends of the valley bracket parts (23) and is integrally formed, and the ridge bracket part (21) comprises a direct-connection piece mounting hole (45) for connecting the direct-connection piece (40) and a toggle bolt (50) for connecting the toggle bolt. A mounting hole (55) is formed, and the toggle bolt (50) is formed with screw threads on the outer periphery of a circular rod having a predetermined length, and a toggle key (57) is rotatably coupled to the lower end about a hinge (56), and the toggle key (57) can be configured such that it has a predetermined length, a cross-section perpendicular to the longitudinal direction is bent into a D-shape, and is formed by being cut so as to accommodate the lower end of the circular rod on one side of the hinge (56).

delete

delete

delete

As described above, according to the present invention, after the roof panel mounting bracket (20) is fastened to the roof panel using the toggle bolt (50), the direct-connecting piece (40) is drilled through the direct-connecting piece mounting hole (45) formed in the roof panel mounting bracket (20) and directly fastened to the C-shaped steel (60), thereby enabling fixation while maintaining the distance between the roof panel mounting bracket (20) and the C-shaped steel (60) constant.

Accordingly, since the roof panel mounting bracket (20) that secures the lower support frames (30) spaced apart at regular intervals at two or more locations is directly connected to the C-shaped steel (60) through the direct connection piece (40), movement due to the weight of the installation structure or external wind pressure can be blocked.

That is, by preventing the roof panel (10) from shrinking due to the weight of the solar panel and the installation structure, water leakage in the building can be blocked, and further, the durability and reliability of the solar panel installation structure can be greatly improved.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

Figure 1 is an exploded perspective view of the mounting device of the solar panel installation structure according to the present invention.
Figure 2 is a cross-sectional view of a solar panel installation structure mounting device according to the present invention.
Figures 3a and 3b show a roof panel support bracket in a mounting device for a solar panel installation structure according to the present invention.
Figures 4a and 4b show a toggle bolt, a mounting device for a solar panel installation structure according to the present invention.
Figure 5 is an installation structure for a solar panel according to one embodiment of the present invention.
Figure 6 is a solar panel installed as a mounting device for a solar panel installation structure according to one embodiment of the present invention.
Figure 7 is a cross-sectional view of a conventional solar panel installation structure mounting device.

Hereinafter, a mounting device for a solar panel installation structure according to the present invention will be described in detail with reference to the attached drawings. Various embodiments of the present invention will be described below, but it should be understood that the technical idea of the present invention is not limited thereto and may be modified and implemented in various ways by those skilled in the art. In addition, the terms used in this specification have been used to describe the concept of the present invention and embodiments thereof, and are not intended to limit the present invention to only the dictionary or phraseological meanings of the terms. For example, a singular expression in this specification may include plural expressions unless the context clearly indicates otherwise. In addition, in this specification, terms such as "include" or "have" mean the presence of a certain configuration, step, operation, or a combination thereof, and do not exclude the possibility of the presence or addition of other configurations, steps, or operations unless the context clearly indicates otherwise.

Unless stated otherwise herein, “connected” or “coupled” may include one element/feature being directly connected or coupled to another element/feature, or indirectly connected or coupled via another element/feature, and does not necessarily mean directly mechanically connected or coupled. Thus, while the various schematic diagrams depicted in the drawings illustrate exemplary arrangements of elements and components, additional intervening elements, devices, features or components may be present in an actual embodiment (assuming the functionality of the depicted elements is not adversely affected).

Meanwhile, when adding quotation marks to components of the drawings, identical components are given the same marks as much as possible even if they are shown on different drawings, and detailed descriptions of well-known functions and configurations that may unnecessarily obscure the gist of the present invention are omitted. In addition, directional terms such as 'upper', 'lower', 'front', 'rear', 'leading', 'front', 'rear', etc. are used in relation to the orientation of the disclosed drawing(s). Since the components of the embodiments of the present invention can be positioned in various orientations, directional terms are used for the purpose of illustration and not limitation.

FIG. 1 is an exploded perspective view of a mounting device for a solar panel installation structure according to the present invention, and FIG. 2 is a cross-sectional view of a transverse section of a mounting device for a solar panel installation structure according to the present invention.

The mounting device for the solar panel installation structure according to the present invention is configured to include a roof panel mounting bracket (20), a toggle bolt (50), a direct-connection piece (40), a lower support frame (30), a pillar frame (32), and an upper support frame (34), as shown in FIGS. 1 and 2.

The roof panel (10) to which the mounting device of the solar panel installation structure according to the present invention can be applied has a rib section formed at a predetermined interval in the longitudinal direction, and a mountain section repeatedly formed between the rib sections to a predetermined height. Here, the mountain section may have a trapezoidal or semicircular cross-section perpendicular to the longitudinal direction based on the boundary point with the rib section, or the cross-section of the rib section may have a cross-section having a shape symmetrical to the boundary point with the mountain section. Depending on the size of the relative width of the rib section with respect to the mountain section, the roof panel may be classified into a large-ribbon roof panel, a small-ribbon roof panel, etc.

The roof panel (10) above is a sandwich panel made by inserting or injecting a core material such as EPS, glass wool, or rigid polyurethane between molded steel plates (or color coils), and includes a plurality of longitudinally extending root portions and a plurality of crest portions to form an upper surface. The root portions and crest portions are arranged alternately along the width direction. Accordingly, one crest portion exists between two adjacent root portions.

For example, each of the ridges of the roof panel (10) has a panel mountain flat portion (12) formed at the ridge, and each of the valleys has a panel valley flat portion (14) formed at the base. Accordingly, both ends of the panel mountain flat portion (12) and the panel valley flat portion (14) are formed by being connected to an inclined plane having a certain slope.

FIGS. 3A and 3B illustrate a roof panel support bracket in a mounting device for a solar panel installation structure according to the present invention. FIG. 3A illustrates a roof panel support bracket (20) that can be applied to a roof panel (10) in which a panel mountain flat portion (12) is formed on a mountain portion, and FIG. 3B illustrates a roof panel support bracket (20) that can be applied to a roof panel in which a cross-section perpendicular to the longitudinal direction of the mountain portion is formed in a semicircular shape.

For example, the roof panel support bracket (20) may be configured by integrally forming a panel mountain horizontal plate portion (22) having a predetermined length and being able to be closely mounted on a panel mountain flat portion (12) of the roof panel, as shown in the drawing 3a, a pair of panel groove horizontal plate portions (24) extending from downwardly slanted plates at both ends of the panel mountain horizontal plate portion (22) and being able to be closely mounted on a panel valley flat portion (14) of the roof panel, and a frame support vertical plate portion (26) extending by being bent so as to stand vertically from each end of the panel valley horizontal plate portion (24).

In addition, a direct-connection piece mounting hole (45) for fastening the direct-connection piece (40) and a toggle bolt mounting hole (55) for fastening the toggle bolt (50) are formed in the horizontal plate portion (22) of the panel mount.

Accordingly, when the solar panel installation structure is a roof panel (10) in which the panel mountain flat portion (12) and the panel valley flat portion (14) are formed, the roof panel mounting bracket (20) is installed so as to be in close contact with the panel mountain flat portion (12) of the roof panel (10) and the panel valley horizontal plate portion (24) is installed on the panel mountain flat portion (14) so as to be stably installed on the roof panel (10).

For example, the roof panel support bracket (20) is applied when the cross-section perpendicular to the longitudinal direction has a convex semicircle shape at the peak and a concave semicircle shape at the valley, as illustrated in the drawing 3b. In other words, a ridge bracket portion (21) for being closely attached to and secured to the convex peak portion of the roof panel, a pair of valley bracket portions (23) extending from both ends of the ridge bracket portion (21) and secured to the valley portion, and a frame support vertical plate portion (26) extending by being bent so as to stand vertically from the ends of the valley bracket portions (23) may be formed integrally.

In addition, a direct-connection piece mounting hole (45) for fastening the direct-connection piece (40) and a toggle bolt mounting hole (55) for fastening the toggle bolt (50) are formed in the mountain ridge bracket part (21).

Accordingly, in the case where the solar panel installation structure is a roof panel having a convex semicircular peak and a concave semicircular valley formed in a vertical cross-section relative to the longitudinal direction, the roof panel mounting bracket (20) is installed so as to be in close contact with the peak of the roof panel, and the valley bracket part (23) is installed on the valley so as to be stably installed on the roof panel.

Figures 4a and 4b are toggle bolts in a mounting device for a solar panel installation structure according to the present invention.

For example, the toggle bolt (50) is positioned and fastened to the C-shaped steel (60) that supports the lower surface of the roof panel (10) by fixing the roof panel mounting bracket (20) that is secured to the ridge of the roof panel (10) as shown in FIGS. 1 to 4b.

Here, it is preferable that a through hole be formed in the C-shaped steel (60) into which the toggle bolt (50) can be inserted and fastened.

The above toggle bolt (50) is configured by forming a screw thread on the outer periphery of a circular rod having a certain length, and a toggle key (57) coupled to a hinge (56) at the lower end. The toggle key (57) has a certain length, a cross-section perpendicular to the longitudinal direction is bent in the shape of a D, and is coupled to the lower end of the circular rod through the hinge (56) at the center. Here, the toggle key (57) is cut so as to accommodate the lower end of the circular rod at one side of the hinge (56), and is rotatable about the hinge (56).

Accordingly, the toggle bolt (50) can be inserted into the through hole with the toggle key (57) folded, and the inserted toggle key (57) can be unfolded to fasten the toggle bolt (50).

For example, the direct-connection piece (40) is directly connected to the C-shaped steel (60) that supports the roof panel mounting bracket (20) that is installed on the panel flat portion (12) of the roof panel (10) at the lower surface of the roof panel (10), as shown in FIGS. 1 and 2, thereby firmly fixing the roof panel mounting bracket (20).

The above direct-connection piece (40) has a drill bit formed at the end so that it can be directly connected to the C-shaped steel (60), thereby maintaining the connected state between the roof panel mounting bracket (20) and the C-shaped steel (60). Accordingly, the roof panel (10) is prevented from shrinking due to the weight of the installation structure or external wind pressure.

FIG. 5 is an installation structure for a solar panel according to an embodiment of the present invention, and FIG. 6 is a solar panel installed with a solar panel installation structure mounting device according to an embodiment of the present invention.

The lower support frame (30), pillar frame (32), and upper support frame (34) may be composed of a square pipe with a hollow interior as shown in FIGS. 1 to 6.

According to an embodiment of the present invention, a solar panel installation structure comprises, as shown in FIGS. 5 and 6, a lower support frame (30) that is fastened to a roof panel mounting bracket (20) mounted at regular intervals on a panel mountain flat portion (12) of a roof panel (10), a pillar frame (32) that is vertically erected at regular intervals from the lower support frame (30), and an upper support frame (34) that is fastened to an upper end of the pillar frame (32).

Here, the lower support frame (30) may be composed of at least two pieces so that the solar panels can be mounted at regular intervals, but may be composed of multiple pieces depending on the width of the solar panel. Accordingly, the pillar frame (32) and the upper support frame (34) may also be composed of multiple pieces.

Meanwhile, the lower support frame (30) and the pillar frame (32) can be joined by a method such as welding, but can also be joined with bolts and nuts.

An upper support frame (34) that is balanced with a solar panel (80) is attached to the upper end of the above-mentioned erected pillar frame (32), and a plurality of panel supports (36) are attached to the upper support frame (34) to install the solar panel (80).

In the present invention, when the roof panel mounting bracket (20) is fastened to the panel flat portion (12) of the roof panel (10) by the toggle bolt (50) and the direct-connection piece (40) as described above, the lower support frame (30) is inserted and secured between the frame support vertical plate portions (26) of the roof panel mounting bracket (20) and is firmly fastened to the frame support vertical plate portion (26) by means of screws or the like.

The installation structure for mounting the solar panel is installed on the roof panel (10) as described above, and various types or shapes of structures are used. For example, a device for connecting the installation structure to the roof panel is known in the past (see FIG. 7), and such a device is typically configured to include a bracket arranged in contact with a rib or a peak of the roof panel, a structure fastened to the bracket, and a solar panel mounted on the structure. Here, the bracket includes a bolt and a nut for fastening to the roof panel by penetrating the roof panel.

However, conventional devices for connecting the above-mentioned installation structure to the roof panel have a problem in that when water, especially rainwater, falls on the roof panel, it collects in the relatively low-lying grooves, and the water collected in the grooves penetrates into the core material located between the steel sheets of the roof panel through the holes penetrated by the bolts.

These problems made it difficult for the roof panels to maintain their waterproof properties, and there was a high risk of leakage occurring over time after construction.

In addition, conventional devices for connecting the above-mentioned installation structure to the roof panel have a problem in that they cannot stably support the structure without shaking when supporting the structure, especially the structure including a tall pillar, even if the bracket is mounted on the mountain section, and there is a problem in that the durability of the installation structure is significantly reduced by causing shrinkage in the roof panel (10) due to the weight of the installation structure or wind pressure, and there is a problem in that the above-mentioned water leakage phenomenon occurs.

The mounting device for the solar panel installation structure according to the present invention first fixes the roof panel mounting bracket (20) by designating a position using a toggle bolt (50) so that it is installed in close contact with the panel mountain flat portion (12) and the panel valley flat portion (14) of the roof panel (10). That is, a through hole is formed in the panel mountain flat portion (12) of the roof panel (10) where the roof panel mounting bracket (20) is positioned so that the toggle bolt (50) can be inserted. At this time, a through hole is also formed in the C-shaped steel (60) supporting the roof panel (10) so that the toggle bolt (50) can penetrate therethrough.

After that, the toggle key (57) of the toggle bolt (50) is inserted in a folded state through the toggle bolt mounting hole (55) formed in the roof panel mounting bracket (20), and the toggle key (57) of the toggle bolt (50) that has been inserted is unfolded.

Then, a watertight packing (51), a flat washer (52), and a spring washer (53) are fitted to the toggle bolt (50), and the roof panel mounting bracket (20) is fixed by fastening it with a flange nut (54) so that it does not move.

After the roof panel mounting bracket (20) is fastened using the toggle bolt (50) as described above, the direct-connection piece (40) is drilled through the direct-connection piece mounting hole (45) formed in the roof panel mounting bracket (20) and directly fastened to the C-shaped steel (60).

The fastening of the roof panel mounting bracket (20) and the C-shaped steel (60) using the direct-connection piece (40) enables the roof panel mounting bracket (20) and the C-shaped steel (60) to be fixed while maintaining a constant distance therebetween. That is, since the roof panel mounting bracket (20), which is fixed to the lower support frame (30) spaced apart at a constant interval at two or more locations, is directly fastened to the C-shaped steel (60) through the direct-connection piece (40), movement due to the weight of the installation structure or external wind pressure is blocked.

Meanwhile, the connection of the roof panel mounting bracket (20) and the C-shaped steel (60) using the above-mentioned direct-connection piece (40) is fixed while maintaining the distance between the roof panel mounting bracket (20) and the C-shaped steel (60) at a constant level, thereby stably maintaining the connection of the toggle bolt (50), and effectively preventing leakage of the roof panel through the insertion hole of the toggle bolt.

Accordingly, the roof panel (10) can be prevented from shrinking due to the weight of the solar panel and the installation structure, thereby blocking water leakage in the building, and further, the durability and reliability of the solar panel installation structure can be greatly improved.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical idea of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those with ordinary knowledge in the technical field of the present invention can improve and change the technical idea of the present invention in various forms. Accordingly, such improvements and changes will fall within the protection scope of the present invention if they are obvious to those with ordinary knowledge.

10: Roof panel 12: Panel flat part
14: Panel groove flat part 20: Roof panel mounting bracket
21: Ridge bracket part 22: Panel mountain horizontal plate part
23: Valley bracket section 24: Panel valley horizontal plate section
26: Frame support vertical plate 30: Lower support frame
32: Column frame 34: Upper support frame
36: Panel stand 40: Direct piece
45: Direct piece mounting hole 50: Toggle bolt
51: Watertight packing 52: Flat washer
53: Spring washer 54: Flange nut
55: Toggle bolt mounting hole 60: C-shaped steel
70: H-beam

Claims (4)

In a mounting device for a solar panel installation structure for mounting a solar panel on the upper part of a roof panel (10), a plurality of lower support frames (30) arranged on the ridges of the roof panel (10) in which ribs spaced at regular intervals in the longitudinal direction and ridges protruding at a regular height are repeatedly formed, a pillar frame (32) standing up and connected to the lower support frame (30) at regular intervals, and a solar panel mounting device for the solar panel installation structure for mounting the solar panel on the upper part of the pillar frame (32),
At least two roof panel mounting brackets (20) for mounting on the roof panel (10) while each accommodating a portion of the lower support frame (30),
A toggle bolt (50) for fixing the position of the roof panel mounting bracket (20) mounted on the ridge of the roof panel (10) and fastening it by penetrating the roof panel (10) and the C-shaped steel (60) supporting the roof panel (10) from the lower surface,
In order to maintain the distance between the roof panel mounting bracket (20) fixed by the toggle bolt (50) and the C-shaped steel (60) in a connected state and directly connect the roof panel mounting bracket (20) and the C-shaped steel (60), a direct-connection piece (40) having a drill bit formed on one side is included.
The roof panel mounting bracket (20) is a mounting device for a solar panel installation structure, which is formed integrally with a panel mountain horizontal plate portion (22) having a predetermined length and capable of being closely mounted on a panel mountain flat portion (12) of the roof panel (10), a pair of panel groove horizontal plate portions (24) extending from downwardly inclined slanted plates at both ends of the panel mountain horizontal plate portion (22) and capable of being closely mounted on a panel valley flat portion (14) of the roof panel, and a frame support vertical plate portion (26) extending by being bent so as to stand vertically from each end of the panel valley horizontal plate portion (24).
In claim 1,
The above toggle bolt (50) is configured such that a screw thread is formed on the outer periphery of a circular bar having a certain length, a toggle key (57) is rotatably connected to the lower end around a hinge (56), and the toggle key (57) has a certain length, a cross-section perpendicular to the longitudinal direction is bent in a D-shape, and is formed by being cut so that one side of the hinge (56) can accommodate the lower end of the circular bar.
The roof panel mounting bracket (20) is a mounting device for a solar panel installation structure, in which a direct-connection piece mounting hole (45) for fastening the direct-connection piece (40) to the panel horizontal plate (22) and a toggle bolt mounting hole (55) for fastening the toggle bolt (50) are formed.
In a mounting device for a solar panel installation structure for mounting a solar panel on the upper part of the pillar frame (32), a plurality of lower support frames (30) arranged on the peaks of a roof panel (10) having a cross-section perpendicular to the longitudinal direction having a convex peak in a semicircular shape and a concave valley in a semicircular shape repeatedly formed, a pillar frame (32) standing upright and connected to the lower support frames (30) at regular intervals,
At least two roof panel mounting brackets (20) for mounting on the roof panel (10) while each accommodating a portion of the lower support frame (30),
A toggle bolt (50) for fixing the position of the roof panel mounting bracket (20) mounted on the ridge of the roof panel (10) and fastening it by penetrating the roof panel (10) and the C-shaped steel (60) supporting the roof panel (10) from the lower surface,
In order to maintain the distance between the roof panel mounting bracket (20) fixed by the toggle bolt (50) and the C-shaped steel (60) in a connected state and directly connect the roof panel mounting bracket (20) and the C-shaped steel (60), a direct-connection piece (40) having a drill bit formed on one side is included.
The roof panel mounting bracket (20) is formed integrally with a ridge bracket part (21) having a predetermined length and being closely attached to the convex peak of the roof panel, a pair of valley bracket parts (23) extending from both ends of the ridge bracket part (21) and being attached to the valley part, and a frame support vertical plate part (26) extending by bending so as to stand vertically from the ends of the valley bracket part (23).
The above-mentioned mountain ridge bracket part (21) is formed with a direct-connection piece mounting hole (45) for fastening the direct-connection piece (40) and a toggle bolt mounting hole (55) for fastening the toggle bolt (50).
The above toggle bolt (50) is a mounting device for an installation structure for a solar panel, which is configured such that a screw thread is formed on the outer periphery of a circular rod having a predetermined length, a toggle key (57) is rotatably coupled to the lower end about a hinge (56), and the toggle key (57) has a predetermined length, a cross-section perpendicular to the longitudinal direction is bent in a D-shape, and is formed by being cut so as to accommodate the lower end of the circular rod on one side of the hinge (56). delete