KR101616102B1 - Fixing method for solar generating - Google Patents

Abstract

A solar power generation module installation apparatus is disclosed. A solar power generation module installation apparatus of the present invention comprises: a roof panel having an upper surface mounted on a roof frame and having a panel coupling portion, A first bolt head receiving groove formed to have a length corresponding to the length of the roof panel and being folded downward in the middle so as to be opened upward and elongated in the longitudinal direction; And a lower end of the lower coupling end, the lower end of the lower coupling end being bent in a direction opposite to the inclination of the lower coupling end, A fixing frame fixed to the roof panel by a fixing screw penetrating through the roof panel in the first bolt head receiving groove and fastened to the roof frame; A second bolt formed in a length corresponding to the length of the fixed frame and formed to be long in the longitudinal direction so that a part of the bottom surface is inserted into the first bolt head receiving groove and the protruding portion for latching is formed at the entrance, A mounting portion formed on both sides of the head receiving groove and the second bolt head receiving groove so that the solar power generating module is seated on both sides of the receiving head, and an upper connecting step formed by extending obliquely downwardly from both ends of the mounting portion, And an engaging portion formed at each end of the upper coupling ends so as to be bent toward the lower engaging end so that the engaging ends are engaged with each other. A fixing bolt for inserting a head part in the longitudinal direction into the second bolt head receiving groove; and a pressing bolt for pressing each of the top surfaces of the photovoltaic modules, which are respectively seated on the seating parts with the fixing bolt therebetween, And a fixing member for fixing the photovoltaic module to the fixing bolt through the pressing member so as to press and fix both photovoltaic modules in the direction of the roof panel, And a pressing portion made of a pressing nut to be fastened.
According to the present invention, after the stationary frame is fixed to the upper surface of the roof panel constituting the roof of the building, the installation frame is fitted into the stationary frame, and the solar power module is mounted on the stationary frame, The photovoltaic module can be easily fixed to the roof panel and thus the workability can be improved. In addition, the solar power generation module installation device maintains a rigid coupling state, thereby providing a stable installation of the solar power generation module.

Description

{FIXING METHOD FOR SOLAR GENERATING}

The present invention relates to a method of installing a solar power generation module, and more particularly, to a solar power generation module installation method in which a solar power generation module can be easily installed on a roof panel of a building.

Generally, solar power generation system is a power generation system that converts sunlight directly into electric power. Unlike conventional energy sources, it is a pollution-free energy source that does not cause greenhouse gas emission or environmental destruction. Recently, And a variety of related technologies are being released.

The above-described environmentally-friendly solar power generation device is basically composed of a solar power generation module that generates direct current by receiving sunlight, a power control device that controls the electricity, a storage battery that stores the generated power, And an inverting inverter.

More specifically, it comprises a solar power generation module for inputting solar light to produce electric power, and a module frame for fixing a plurality of the solar power generation modules on a surface thereof, A tracking device may be additionally provided to allow the sunlight to always be incident upon movement. Among the above configurations, an installation device for fixing the solar power generation module and a tracking device that rotates or moves in accordance with the direction of movement of the sunlight and receives sunlight are currently being used in various ways.

In recent years, various technologies have been proposed to be installed on agricultural land, slopes, roads, building structures, and roofs. Such environmentally friendly photovoltaic devices should satisfy the conditions of good sunlight solar radiation condition, solar cell module installation area and ease of installation due to the precondition of stable supply of electric power.

In the conventional photovoltaic device installed on the roof of a building, horizontally and vertically-shaped beams are assembled in a lattice shape, and then installed. In such a case, there is a problem that the work space is narrow and the installation is difficult. In the case of a sandwich panel, it is difficult to install a photovoltaic device on the roof.

In order to solve this problem, there has been proposed a technique of installing a clamp on a clip of a sandwich panel of a conventional sandwich panel and installing a solar power generator on the clamp. This is a sandwich panel type solar power generator installed on a building roof, 0403767 (public announcement date: December 14, 2005).

As shown in FIG. 1, a sandwich panel-mounted photovoltaic device for a building roof according to the related art has a structure in which end portions of adjacent monolops 300 are overlaid and then rolled together to form a track- The sandwich panel is formed as a rectangular tubular body having front, rear and bottom openings. A clip accommodating portion 110 is formed in the sandwich panel, A clip holder 111 is formed horizontally on one side of the upper body 101 and a bolt hole 112 horizontally penetrates the opposite side of the clip holder 111. The upper body 101 is formed at right angles to the lower ends of both side surfaces of the upper body 101 The clamp 100 is formed as a lower body 102 in which a flange engaging portion 120 is formed at an upper portion and a bolt hole 121 is formed in the flange engaging portion 120, 310, The clip 310 is received in the clamp receiving portion 110 of the body 101 and the lower end of the clip 310 is held on the clip holder 111 so that the bolt 130 is fastened through the bolt hole 112 The clamp 100 is fixed to the clip 310 and the flange 212 continuous to both sides of the frame 210 of the solar cell module 200 is seated on the flange engaging portion 120 of the lower body 102 And then the bolts 213 are fastened and fixed.

However, the solar cell module for building roof of this type has a problem in that the manufacturing cost is increased due to the complicated structure for fixing the solar cell module to the solar cell module, there was. That is, a pair of frames are disposed on both sides of the clamp fixed to the roof, and the solar cell module is fixed to the frame, thereby reducing the workability of the construction work.

Korea Utility Model Registration No. 20-0403767 (Notice: December 14, 2005)

It is an object of the present invention to provide a means for easily fixing the solar module on the top surface of a roof panel constituting a roof of a building.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to at least partially solve the problems in the conventional arts. It can be understood.

The above object is achieved by a roof panel according to the present invention, the roof panel having an upper surface mounted on a roof frame and having a panel coupling portion with each end being superimposed on each other; A first bolt head receiving groove formed to have a length corresponding to the length of the roof panel and being folded downward in the middle so as to be opened upward and elongated in the longitudinal direction; And a lower end of the lower coupling end, the lower end of the lower coupling end being bent in a direction opposite to the inclination of the lower coupling end, A fixing frame fixed to the roof panel by a fixing screw penetrating through the roof panel in the first bolt head receiving groove and fastened to the roof frame; A second bolt formed in a length corresponding to the length of the fixed frame and formed to be long in the longitudinal direction so that a part of the bottom surface is inserted into the first bolt head receiving groove and the protruding portion for latching is formed at the entrance, A mounting portion formed on both sides of the head receiving groove and the second bolt head receiving groove so that the solar power generating module is seated on both sides of the receiving head, and an upper connecting step formed by extending obliquely downwardly from both ends of the mounting portion, And an engaging portion formed at each end of the upper coupling ends so as to be bent toward the lower engaging end so that the engaging ends are engaged with each other. A fixing bolt for inserting a head part in the longitudinal direction into the second bolt head receiving groove; and a pressing bolt for pressing each of the top surfaces of the photovoltaic modules, which are respectively seated on the seating parts with the fixing bolt therebetween, And a fixing member for fixing the photovoltaic module to the fixing bolt through the pressing member so as to press and fix both photovoltaic modules in the direction of the roof panel, And a pressing portion formed of a pressing nut to be fastened to the mounting portion.

Wherein the panel connecting portion is protruded upward from the surface so that the panel inclined surfaces are respectively formed on both sides of the panel connecting portion, and the fixing frame is inclined downward so that only the end portions of both the lower connecting ends elastically press the inclined surfaces of the panel- And may be formed by bending.

The latching end may be bent at an angle of 95-110 with respect to the lower coupling end.

Wherein the locking part is bent at 85 to 95 degrees with respect to the upper coupling end and is formed to have a length shorter than or equal to the length of the locking end and formed with a locking groove between the locking part and the upper coupling end, When the installation frame is pressed in a direction perpendicular to the surface of the roof panel in a state where the installation frame is fixed to the panel coupling portion, both the engagement portions are inclined downwardly along the engagement ends on both sides, And the retaining end may be inserted into and engaged with the retaining groove while being returned to the original position by elasticity after being elastically deformed in the opposite direction.

Wherein the locking part is bent at 85 to 95 degrees with respect to the upper coupling end and is formed to have a length shorter than or equal to the length of the locking end and formed with a locking groove between the locking part and the upper coupling end, The fixing frame is fixed to the panel connecting portion, the fixing frame is inserted into the fixing groove of the fixing frame in the longitudinal direction of the fixing frame, and then the fixing frame is moved in the longitudinal direction of the fixing frame, Grooves may be respectively inserted and joined together.

The above object is achieved by a roof panel according to the present invention, the roof panel having an upper surface mounted on a roof frame and having a panel coupling portion with each end being superimposed on each other; A first bolt head receiving groove formed to have a length corresponding to the length of the roof panel and being folded downward in the middle so as to be opened upward and elongated in the longitudinal direction; And a lower end of the lower coupling end bent downwardly in a direction opposite to the inclining direction of the lower coupling end, the lower end of the lower coupling end being positioned on the panel coupling portion, A fixing frame fixed to the roof panel by a fixing screw penetrating the roof panel through the roof frame in the first bolt head receiving groove; A second bolt formed in a length corresponding to the length of the fixed frame and formed to be long in the longitudinal direction so that a part of the bottom surface is inserted into the first bolt head receiving groove and the protruding portion is formed at the entrance, A mounting portion formed on both sides of the head receiving groove and the second bolt head receiving groove so that the solar power generating module is seated on both sides of the receiving head, and an upper connecting step formed by extending obliquely downwardly from both ends of the mounting portion, And an engaging portion formed at each end of the upper coupling ends so as to be bent toward the lower engaging end so that the engaging ends are engaged with each other. A fixing bolt for inserting a head part in the longitudinal direction into the second bolt head receiving groove; and a pressing bolt for pressing each of the top surfaces of the photovoltaic modules, which are respectively seated on the seating parts with the fixing bolt therebetween, And a fixing member for fixing the photovoltaic module to the fixing bolt through the pressing member so as to press and fix both photovoltaic modules in the direction of the roof panel, A method of installing a solar power generation module on a top surface of a roof panel using a solar power generation module installation apparatus including a pressing portion formed of a pressing nut to be coupled, the method comprising the steps of: a) And the fixing screw is received in the first bolt head receiving groove, Through a coupling fixed to the fixed frame to the roof panel and roof fastened to the frame, each end of said lower coupling end adapted to come into close contact with the inclined surface resiliently urged in the panel coupling section; b) After inserting the head of the fixing bolt into the second bolt head receiving groove of the installation frame in the longitudinal direction of the installation frame, the engaging end bent at the end of the lower engaging end is inserted into the engaging portion of the upper engaging end Inserting the mounting frame into the fixing frame; c) placing the photovoltaic modules on the seating portions on both sides of the second bolt head receiving groove; And d) connecting the pressing member to the fixing bolt when the photovoltaic power generation module is seated on the seating portion, and then fastening the pressing nut to the fixing bolt to press both PV modules with the pressing end, And mounting the solar cell module to an installation frame.

The mounting frame may be pressed in a direction perpendicular to the surface of the roof panel in a state in which the fixing frame is fixed to the panel coupling portion in the step d) The upper coupling ends may be deformed in opposite directions to each other so that the coupling ends are respectively inserted into the coupling grooves and coupled.

In the step d), when the fixing frame is fixed to the panel connecting portion, the fixing frame is inserted into the locking groove on the longitudinal end side of the fixing frame, and then the fixing frame is moved in the longitudinal direction of the fixing frame So that the engaging ends of both the engaging grooves are inserted into the engaging grooves of both the engaging grooves.

According to the present invention, after the stationary frame is fixed to the upper surface of the roof panel constituting the roof of the building, the installation frame is fitted into the stationary frame, and the solar power module is mounted on the stationary frame, The photovoltaic module can be easily fixed to the roof panel, so that the workability can be improved. In addition, it is possible to provide a stable installation of the photovoltaic power generation module by maintaining the firmly coupled state.

1 is a partially enlarged cross-sectional view showing a structure for installing a PV module according to a related art.
2 is an exploded perspective view showing a solar power generation module installation apparatus according to the present invention.
FIG. 3 is a sectional view showing a state in which the solar cell module is installed using the solar cell module installation apparatus shown in FIG. 2. FIG.
4 is a cross-sectional view illustrating a state in which the solar power generation module is installed by the solar power generation module installation apparatus shown in FIG.
FIG. 5 is a schematic flowchart for explaining a process of installing a solar power generation module using the solar power generation module installation apparatus shown in FIG. 2. FIG.
FIG. 6 is a flowchart for explaining another embodiment of a process of installing a solar power generation module using the solar power generation module installation apparatus shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

FIG. 2 is an exploded perspective view showing a solar power generation module installation apparatus according to the present invention. FIG. 3 is a sectional view of the solar power generation module installation apparatus using the solar power generation module installation apparatus shown in FIG. And FIG. 4 is a cross-sectional view illustrating a state in which the solar cell module is installed by the solar cell module installation apparatus shown in FIG.

2 and 4, the solar power generation module installation apparatus according to the present invention is for quickly and easily fixing the solar power generation module 70 to the roof panel 20 of the building, A mounting frame 40 to be fitted to and fixed to the panel fitting portion 22 of the mounting frame 20 and a fixing frame 30 to be fitted to the fixing frame 30, And a pressing portion 50 for fixing the photovoltaic module 70 to the mounting frame 40 while pressing it.

This will be described in more detail.

A roof panel 20 (which is a panel having a structure similar to a sandwich panel or a sandwich panel) constituting a roof of a building is fixedly installed on the upper surface of the roof frame 10 and is fixed to each roof panel 20 The panel connecting portion 22 protruding upward from the surface is formed as shown in FIG. In other words, the panel connecting portion 22 is formed such that the connecting portion thereof protrudes upward so that rainwater does not flow into the connecting portion where the ends of the roof panels 20 meet, and the inclined surfaces 26 Is formed. The panel connecting portion 22 has a structure in which the metal plates constituting the sheathing of the roof panel 20 are coupled to each other so as to overlap with each other and protrude upward so that rainwater does not flow in between them.

The fixed frame 30 is fixed to the panel coupling portion 22 and supports the mounting frame 40. The fixed frame 30 is formed to have a length corresponding to the length of the roof panel 20 A first bolt head receiving groove 38 formed to be long in the longitudinal direction, and a first bolt head receiving groove 38 which is open in an upward direction and is folded downward in the width direction, And a lower end of the lower coupling end 32 and a lower end of the lower coupling end 32. The lower end of the lower coupling end 32 and the lower end of the lower coupling end 32 are bent in opposite directions. The fixed frame 30 has a symmetrical structure with respect to the first bolt head receiving groove 38.

Particularly, the fixing frame 30 is formed by being bent downwardly so as to be in close contact with the inclined surfaces 26 of the panel connecting portions 22 while elastically pressing the end portions of the lower connecting ends 32 of both the panels. The angle formed by the lower joining end 32 with respect to the upper surface 37 of the fixed frame 30 is smaller than the angle A1 formed by the inclined surface 26 with respect to the upper surface 27 of the panel joining portion 22 A2 are formed to be small so as not to overlap each other. This is for increasing the coupling force by allowing both lower coupling ends 32 to elastically press the inclined surfaces 26 when the fixed frame 30 is coupled to the roof panel 20 by the fixing screws 60. [

3, the fixing frame 30 is fixed to the first bolt head receiving groove 38 in a state where the bottom surface of the first bolt head receiving groove 38 is seated on the upper surface of the panel connecting portion 22, Is fixed to the roof panel (20) by a fixing screw (60) penetrating the roof panel (20) and fastened to the roof frame (10).

Each of the engaging ends 34 formed by bending the respective ends of both the lower engaging ends 32 is formed by being bent obliquely downward in the direction opposite to the inclination of the lower engaging end 32 as shown in Fig. And is inclined at an angle (A4) of 95 - 110 degrees with respect to the lower joining end 32. The reason why the engaging end 34 is bent at an angle of 95 to 110 is that the engaging groove 45 formed by the engaging portion 44 engages with the engaging portion 34 so that the attaching frame 40 can be engaged with the stationary frame 30 . That is, the mounting frame 40 can be coupled to the stationary frame 30 by inserting and latching the respective locking ends 34 of the stationary frame 30 into the respective locking grooves 45 of the mounting frame 40 .

The installation frame 40 is fitted to a fixed frame 30 fixedly coupled to the roof panel 20 and stably supports the solar power generation module 70. The installation frame 40 has a length corresponding to the length of the fixed frame 30 And a second bolt head accommodating portion formed in a long length in the longitudinal direction so that a part of the bottom surface is inserted into the first bolt head receiving groove 38 and the engaging protrusion 49 is formed at the entrance, A seating portion 46 formed so as to seat the solar power generation module 70 on both sides of the groove 48 and the second bolt head receiving groove 48, And the upper ends 42 of the upper coupling ends 42 are bent toward the lower coupling end 32 so that the coupling ends 34 are engaged with the coupling ends 44 ).

The locking protrusion 49 is formed on both sides of the inlet of the second bolt head receiving groove 38 so that the head of the fixing bolt 56 is inserted in the longitudinal direction of the mounting frame 40, .

The upper joining end 42 is bent and extended in a downward inclined manner in the width direction of the mounting frame 40 at both the seating portions 46 so that the mounting frame 40 is seated on the upper surface of the stationary frame 30 The angle A3 formed by the surface of the seating portion 46 and the upper coupling end 42 with respect to the surface of the seating portion 46 is set so as not to overlap closely with each other, Is smaller than the angle (A2) of the step (32).

The engaging portion 44 is formed by bending the end portions of both the upper engaging ends 42 at a predetermined angle in the direction in which the engaging portions 44 are bent. And the engaging groove 45 is formed between the engaging ends 42 in which the engaging end 34 is inserted and engaged.

2 or 3, the engaging portion 44 is bent at an angle A5 of 85 to 95 degrees with respect to the upper engaging end 42, and is shorter than the length of the engaging end 34 Or the same length. If the angle is less than 85 degrees, insertion of the engaging end 34 is not easy. If the engaging end 34 is larger than 95 degrees, the engaging end 34 is easily released and the engaging force is reduced. The engaging end 34 is not inserted into the engaging groove 45 and the engaging portion 44 is in a state in which the engaging portion 44 is not inserted into the engaging groove 45. As a result, The length of the latching portion 44 is preferably equal to or shorter than the latching end 34. [

Although not shown in the drawing, the engaging portion 34 and the engaging portion 44 may be multi-folded and engaged with each other. This structure is intended to improve the bonding force between the stationary frame 30 and the mounting frame 40.

The pressing portion 50 is for pressing both solar photovoltaic modules 70 respectively seated on the seating portion 46 to securely and firmly engage the mounting frame 40 coupled to the stationary frame 30 A fixing bolt 56 into which the head is inserted in the longitudinal direction in the second bolt head receiving groove 48 and a photovoltaic module 70 mounted on the mounting portions 46 with the fixing bolt 56 interposed therebetween, A pressing member 52 formed with a pressing end 52A for pressurizing the upper surface of each of the fixing bolts 56 and 52 and a through hole 52B through which a part of the fixing bolt 56 is passed, And a pressing nut 54 which is fastened to the fixing bolts 56 exposed through the pressing member 52 so as to press and fix the solar power generating modules 70 of the roof panel 20 toward the roof panel 20.

As shown in FIG. 2, the pressing member 52 may have a predetermined length and may have various lengths corresponding to the length of the solar cell module 70, and the through-holes 52B And may be formed in a circular or elongated shape.

The pressing end 52A is formed with a close-contact avoiding groove 52C on the bottom surface so as to press the solar cell module 70 more efficiently. The contact avoidance groove 52C is for enhancing the pressing force and the fixing force by making the entire bottom surface of the pressing end 52A not be pressed against the upper surface of the solar power generation module 70 but pressing only the bottom edge region.

The fixing frame 30 and the mounting frame 40 described above are formed by a roll forming method. That is, a steel sheet having a predetermined width is passed through a plurality of rollers to perform roll forming.

A method of installing the solar cell module 70 on the roof panel 20 using the solar cell module installation apparatus constructed as above will be described with reference to FIG. 5 in the accompanying drawings.

a) Step

First, the bottom surface of the first bolt head receiving groove 38 of the fixed frame 30 is seated on the upper surface of the panel engaging portion 22, and then the fixing screw 60 is inserted into the first bolt head receiving groove 38, (20), that is, the panel connecting portion (22), and is fastened to the roof frame (10).

By fastening the fixing screw 60 through the roof panel 20 in the first bolt head receiving groove 38 as described above, each end of the lower coupling end 32 is fixed to the panel coupling portion 22 while being elastically pressed against the inclined surface 26. [

In this process, the stationary frame 30 is firmly fixed to the roof panel 20.

b) Step

The head of the fixing bolt 56 is inserted into the second bolt head receiving groove 48 of the mounting frame 40 in the longitudinal direction of the mounting frame 40 after performing step a) The mounting frame 40 is inserted into the engaging groove 45 formed by the engaging portion 44 of the upper engaging end 42 so that the engaging end 34, which is bent at the end of the lower engaging end 32, (30).

5 (b), when the fixing frame 30 is fixed to the panel connecting portion 22, the mounting frame 40 is inclined at right angles to the surface of the roof panel 20 The both engaging portions 44 are inclined downwardly along the both inclined engaging ends 34 so that both upper engaging ends 42 are deformed while generating elasticity in opposite directions to each other, The engaging ends 34 are inserted into the engaging grooves 45 and engaged when the engaging portions 44 are returned to their original positions by their own elasticity at the positions where the engaging portions 44 are out of the engaging ends 34. [

The engaging ends 34 of the stationary frame 30 can be moved to the mounting frame 40 only by pressing the mounting frame 40 on the upper surface of the stationary frame 30 and then pressing the stationary frame 30 toward the roof panel 20. [ The mounting frame 40 can be firmly fixed to the stationary frame 30 by being inserted into the respective locking grooves 45 of the stationary frame 30. [

c) Step

When the mounting frame 40 is coupled to the stationary frame 30 by the step b) described above, the photovoltaic modules 70 are respectively mounted on the seating portions 46 on both sides of the second bolt head receiving groove 48 .

d) Step

The fixing bolts 56 are inserted into the through holes 52B of the pressing member 52 and exposed to the outside of the through holes 52B when the solar power generating modules 70 are mounted on the mounting portions 46 by the above- Tighten the pressing nut (54) to the fixing bolt (56). In this process, each of the photovoltaic modules 70 can be firmly coupled to the mounting frame 40 because the both pressing ends 52A press the top edge of each photovoltaic module 70 .

At this time, since the contact avoiding recesses 52C are formed long in the longitudinal direction on both sides of the pressing end 52A, the both pressing ends 52A can firmly press both the solar power generating modules 70 without lifting .

6 is a flowchart for explaining another embodiment of a process of installing a solar power generation module using the solar power generation module installation apparatus shown in FIG. 2. Referring to FIG.

6 (b), in a state in which the fixed frame 30 is fixed to the panel coupling portion 22, the length of the installation frame 40 6 (b)) of the stationary frame 30 after both the engaging ends 34 are inserted into the engaging grooves 45 on both sides of the stationary frame 30, So that both the engaging ends 34 are inserted into the engaging grooves 45 on both sides and engaged with the engaging grooves 45, respectively, as in the above-described embodiment.

As described above, after the fixed frame 30 is first fixedly coupled to the roof panel 20 of the building, the mounting frame 40 is coupled to the fixed frame 30 by interference fit or longitudinal fitting, The photovoltaic modules 70 are mounted on the mounting portion 46 and the respective photovoltaic modules 70 are fixedly connected to the mounting frame 40 by the pressing members 52. Thus, So that the installation workability of the solar power generation modules 70 can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: roof frame 20: roof panel
22: panel coupling portion 30: fixed frame
32: lower coupling end 34:
40: installation frame 42: upper coupling end
44: latching portion 50: pressing portion
52: pressing member 54: pressing nut
56: fixing bolt 60: fixing screw
70: PV module

Claims (8)

delete delete delete delete delete A roof panel that is seated on an upper surface of the roof frame and has a panel engaging portion in which the respective ends are superimposed on each other;
A first bolt head receiving groove formed to have a length corresponding to the length of the roof panel and being folded downward in the middle so as to be opened upward and elongated in the longitudinal direction; And a lower end of the lower coupling end bent downwardly in a direction opposite to a tilting direction of the lower coupling end so as to be slidable downwardly, A fixing frame fixed to the roof panel by a fixing screw penetrating the roof panel through the roof frame in the first bolt head receiving groove;
A second bolt formed in a length corresponding to the length of the fixed frame and formed to be long in the longitudinal direction so that a part of the bottom surface is inserted into the first bolt head receiving groove and the protruding portion for latching is formed at the entrance, A mounting portion formed on both sides of the head receiving groove and the second bolt head receiving groove so that the solar power generating module is seated on both sides of the receiving head, and an upper connecting step formed by extending obliquely downwardly from both ends of the mounting portion, And an engaging portion formed at each end of the upper coupling ends so as to be bent toward the lower engaging end so that the engaging ends are engaged with each other.
A fixing bolt for inserting a head part in the longitudinal direction into the second bolt head receiving groove; and a pressing bolt for pressing each of the top surfaces of the photovoltaic modules, which are respectively seated on the seating parts with the fixing bolt therebetween, And a fixing member for fixing the photovoltaic module to the fixing bolt through the pressing member so as to press and fix both photovoltaic modules in the direction of the roof panel, A method of installing a solar power generation module on an upper surface of a roof panel using a solar power generation module installation device including a pressing part made of a pressing nut to be coupled,
a) fixing the bottom surface of the first bolt head receiving groove of the fixed frame to the upper surface of the panel connecting portion, and then fixing the fixing screw to the roof frame through the roof panel in the first bolt head receiving groove, Fixing the fixing frame to the roof panel so that each end of the coupling end is elastically pressed against the slope of the panel coupling portion;
b) After inserting the head of the fixing bolt into the second bolt head receiving groove of the installation frame in the longitudinal direction of the installation frame, the engaging end bent at the end of the lower engaging end is inserted into the engaging portion of the upper engaging end Inserting the mounting frame into the fixing frame;
c) placing the photovoltaic modules on the seating portions on both sides of the second bolt head receiving groove; And
d) When the photovoltaic power generation modules are respectively seated on the seating portions, the pressing members are coupled to the fixing bolts, and the pressing nuts are fastened to the fixing bolts to press both photovoltaic modules with the pressing ends, Gt; wherein the frame comprises a < RTI ID = 0.0 >
How to install PV modules. The method according to claim 6,
The step d)
The mounting frame is pressed in a direction perpendicular to the surface of the roof panel so that both the engaging portions are inclined downwardly along the engaging ends on both sides while the fixing frame is fixed to the panel engaging portion, Wherein the engaging step includes a step of engaging the engaging groove with the engaging groove,
How to install PV modules. The method according to claim 6,
The step d)
The fixing frame is fixed to the panel connecting portion, the fixing frame is inserted into the locking groove on the longitudinal end side of the fixing frame, and the fixing frame is moved in the longitudinal direction of the fixing frame, And engaging with the engaging recesses of the first and second engaging portions, respectively,
How to install PV modules.

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