KR20220002192U - Fastening device for installation of prefabricated roof panels - Google Patents

Abstract

The disclosed fastening device for installing a prefabricated roof panel according to the present invention is installed on an upper surface of a connection portion of a neighboring roof panel 130 , a bracket 120 in which a bolt through hole 123 is formed, and a bolt of the bracket 120 . The body portion 112 is inserted into the roof panel 130 through the through hole 123 and has a thread for fastening the nut 160 , and a planar extension extending in the longitudinal direction from the lower end of the body portion 112 . The portion 114 and the engaging portion 116 that is shaft-coupled to both ends of the extension portion 114 by a shaft member 116 and rotates in a second direction in a vertical state in a first direction parallel to the extension portion 114 . ) includes a fixing bolt 110 including a. The bracket 120 is fixed together with the roof panel 130 and the support structure 140 located under the roof panel 130 by the fixing bolt 110, and the locking part 116 of the fixing bolt 110 is the roof. When passing through the panel 130 and the support structure 140 , the first direction is maintained, and after passing through the support structure 140 , when an external force is applied, it rotates in the second direction and is caught on the bottom surface of the support structure 140 .

Description

Fastening device for installation of prefabricated roof panels

The present invention relates to a fastening device for installing a prefabricated roof panel.

When constructing a building, the roof body should be installed by focusing on several factors that can greatly increase insulation and sound absorption, water leakage blocking, and support. The roof panels (aka sandwich panels) located between the steel plates are laid side by side and the ends of each roof panel are connected to each other for construction.

Meanwhile, in recent years, a technology for installing a photovoltaic module on the roof of a building and allowing the energy obtained from the photovoltaic module to be used is being actively performed.

Here, the building includes both a new building and an existing building. The method for fixing the roof panel during the roof construction of the building as described above is to penetrate the roof panel from the outside of the roof panel and bolt it to a supporting structure such as a C-beam that supports the panel. A method of concluding a

Here, there is a risk of leakage in the bolted portion, particularly when installing a solar module on a roof, such leakage is a big problem. In order to fix the photovoltaic module to the roof panel, a separate clamp is fastened to the roof panel by fastening a bolt, and a method of fixing the photovoltaic module to this clamp is used.

Therefore, in order to prevent this, a technology for preventing water leakage by installing a cap covering the bolt fastening portion as shown in the prior art documents shown in FIGS. 1 to 3 is introduced.

According to the prior art, as shown in FIGS. 1 and 2 , in the case of an existing building, the leak prevention bracket 20 is fixed in another place without removing the previously constructed roof cap 10 , and the roof cap 10 . It is also possible to prevent water leakage by covering and fixing the cap 30 on the upper part of the water leakage prevention bracket 20, and in the case of a new building as shown in FIG. 3, the water leakage prevention bracket 20 and the cap 30 without the roof cap 10 ) to be newly constructed.

In the case of an existing building, when the roof panels (1) are laid side by side and the ends of each roof panel (1) are connected to each other, the fixing bolts (3, Fig. 3), the roof cap 10 is fixed without being removed, and it is placed on a position different from the fixed position of the roof cap 10 among the connection parts of the roof panel 1 and leaks through the screw 4 The prevention bracket 20 is fixed, and the cap 30 is fixed while covering the roof cap 10 and the top of the leak prevention bracket 20 at once.

In the case of a new building, the roof panel (1) and the leak prevention bracket (20) are fixed to the support structure (2) at once through the fixing bolt (3) above the support structure (2) among the connection parts of the roof panel (1), The cap 30 is fixed while covering the top thereof. Both ends of the cap can be fixed while blocking the gap by closing with silicone or the like.

As described above, according to the technology disclosed in the prior art document, the upper portion of the bolted portion for coupling the bracket 20 and the roof panel 1 is covered with the cap 30 to prevent leakage through the bolted portion.

However, in the case of fastening using the straight-type direct fixing bolt 3 in the prior art, there is the following problem.

First, solar modules are installed at a certain distance between modules, and dozens to hundreds of solar modules are usually installed depending on the size of the roof. As shown, since the fixing bolt 3 is not fastened by a nut or the like, only the lower end is inserted into the support structure, and thus the fastening force is not strong, resulting in a stability problem. Since the height of the roof of the building is quite high, in order to fasten the nuts to the fixing bolts (3), a worker has to climb up to the roof and tighten them using equipment inside the building. This makes it even more difficult

In addition, a large load is applied to the roof by the photovoltaic structure including the photovoltaic module, and when snow accumulates, a load is also applied to the roof. Due to this load, some thickness shrinkage of the roof panel (1) occurs. Even if the roof panel (1) shrinks in thickness due to the load, the fixing bolt (3) does not contract, so the underground panel (1) and the fixing bolt (3) are floating on each other, and there is a risk of leakage in this part. Although the cap 30 prevents leakage of the bolted portion, even when both ends of the cap 30 are finished, the bonding force of the closed portion is weakened over time, and there is a risk of some leakage through this portion.

Registered Utility Model Publication No. 20-0487015 (Registered on July 19, 2018)

The present invention has been devised in view of the above points, and the purpose of the present invention is to provide a fastener for a prefabricated roof panel that strengthens the coupling force of the fastening device installed on the prefabricated roof panel and reliably prevents water leakage. .

A fastening device for installing a prefabricated roof panel according to the present invention for achieving the above object is installed on the upper surface of the connection portion of the neighboring roof panel 130, the bracket 120 in which the bolt through hole 123 is formed; and a body portion 112 which is inserted into the roof panel 130 through the bolt through hole 123 of the bracket 120 and has a thread for fastening the nut 160 , and the body portion 112 . A planar extension 114 extending in the longitudinal direction from the lower end and shaft members 116 at both ends of the extension 114 are axially coupled to each other and are perpendicular in a first direction parallel to the extension 114 . It includes; a fixing bolt 110 including a locking part 116 that rotates in the second direction of the state. The bracket 120 is fixed together with the roof panel 130 and the support structure 140 located below the roof panel 130 by the fixing bolt 110, and the locking part of the fixing bolt 110 ( 116) maintains the first direction when passing through the roof panel 130 and the support structure 140, and rotates in the second direction when an external force is applied after passing through the support structure 140, the bottom surface of the support structure 140 will get caught on

On the other hand, the bracket 120 has a planar shape having a width wider than the width of the upper surface of the connection portion of the roof panel 130 and includes a base portion 122 in which the bolt through hole 123 is formed in the center portion, and the base portion It extends from both ends of the 122 and has a bent structure and includes a cover portion 124 surrounding the inclined portions on both sides of the upper surface of the roof panel 130 , and a rubber plate 126 is installed on the bottom surface of the base portion 122 . to be in contact with the upper surface of the connection portion of the roof panel 130 .

According to the present invention, since the locking part of the fixing bolt rotates and is caught on the bottom surface of the support structure, the fastening force of the fixing bolt is solid. Therefore, the bracket fastened by the fixing bolt and the panel cap surrounding it are also firmly fixed, and in the end, a separate clamp fastened to the panel cap and the photovoltaic structure fixed to the clamp can also be stably fixed to the roof. It has the effect of securing the stability of the structure.

In addition, a rubber plate is installed on the bottom surface of the base part of the bracket, and the rubber plate comes into contact with the upper surface of the connection part of the roof panel.

1 is a view showing a construction state of a prefabricated roof panel of a building according to the prior art;
2 and 3 are cross-sectional views after construction of a prefabricated roof panel of a building according to the prior art;
4 is a cross-sectional view after construction of a prefabricated roof panel of a building in a state to which a fastening device for installing a prefabricated roof panel according to an embodiment of the present invention is applied;
Figure 5 shows (a) a perspective view, (b) a bottom perspective view of a bracket of a fastening device for installing a prefabricated roof panel according to an embodiment of the present invention.
6 is a view showing (a) a front view, (b) a side view of a fixing bolt of a fastening device for installing a prefabricated roof panel according to an embodiment of the present invention;
7 is a view for explaining the operation of the fixing bolt of FIG.

The above objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a fastening device for installing a prefabricated roof panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 4 , in the fastening device according to the present invention, when the ends of the prefabricated roof panel 130 of a building are connected to each other and constructed, the bracket is attached to the connection portion of the neighboring roof panel 130 through the fixing bolt 110 . 120 is fixed to the roof panel 130 and the support structure 140 such as C-beam at once. And the panel cap 150 is installed so as to cover the connection portion of the bracket 120 and the roof panel 130 at once. Although not shown, a separate bracket is installed on the panel cap 150 so that a photovoltaic structure including a photovoltaic module is installed. On the other hand, here, the building may include both a new building and an existing building, and in the case of an existing building, the present invention is applied to a previously installed roof panel, or an existing roof panel is removed and a new roof panel is applied, or a previously installed roof panel is applied. It can also be applied to installing a new roof panel over the roof panel.

4 and 5 , the bracket 120 has a structure including a base part 122 and a cover part 124 .

The base part 122 has a planar shape having a width wider than the width of the upper surface of the connection part of the roof panel 130 . And a bolt through hole 123 through which the fixing bolt 110 passes is formed in the central portion of the base portion 122 .

The cover portion 124 extends from both ends of the base portion 122 , has a bent structure, and is formed to surround both inclined portions of the upper surface of the roof panel 130 . The cover part 124 has a structure in which it protrudes from both ends of the base part 122 in the upper vertical direction and then protrudes in the lower right oblique direction and then protrudes in the opposite oblique direction downward, that is, in the left oblique direction. The surface extending in the right diagonal direction surrounds the inclined portions on both sides of the connection portion of the roof panel 130 . The shape of the cover part 124 corresponds to the shape of the panel cap 150 installed to surround the extension part.

On the other hand, a rubber plate 126 is installed on the bottom surface of the base part 122, and the rubber plate 126 comes into contact with the upper surface of the connection part of the roof panel 130, and water is transferred to the bolted part by the rubber plate 126. It is possible to further prevent seepage.

As shown, when the panel cap 150 is covered in a state where the bracket 120 is fixed to the roof panel 130 by the fixing bolt 110, the entire joint portion and the bolt fastening portion of the roof panel 130 are covered. leakage can be prevented. On the other hand, as time passes, a gap may occur between the end of the panel cap 150 and the roof panel 130, and there is a possibility that water may enter through this gap. By installing it, it is possible to fundamentally block the penetration of water into the bolted part.

4 and 6 , the fixing bolt 110 has a structure including a body portion 112 , an extension portion 114 , and a locking portion 116 . The bracket 120 is fixed together to the roof panel 130 and the support structure 140 located under the roof panel 130 by the fixing bolts 110 .

The body portion 112 is inserted into the roof panel 130 through the bolt through hole 123 of the bracket 120 , a screw thread for fastening the nut 160 is formed, and has a cylindrical structure.

The extension 114 extends in the longitudinal direction from the lower end of the body 112 and has a planar structure.

The locking part 116 is shaft-coupled to both ends of the extension part 114 by a shaft member 118 , and rotates in a second direction in a vertical state in a first direction parallel to the extension part 114 .

Referring to FIG. 7 , when the extension part 114 and the locking part 116 of the fixing bolt 110 pass through the roof panel 130 and the support structure 140 , the locking part 116 moves in the first direction. maintain (a). After passing through the support structure 140 , when the operator holds the body portion 112 and applies an external force such as shaking left and right or shaking up and down, the locking portion 116 is rotated in the second direction (b). After that, when the operator grabs and lifts the body portion 112 , the locking portion 116 is caught on the bottom surface of the support structure 140 (c).

The operator uses a separate tool to drill a hole in the roof panel 130 and the support structure 140 so that the fixing bolt 110 is inserted. In this state, the operator inserts the body portion 112 of the fixing bolt 110 through the bolt through hole 123 of the bracket 120, and the fixing bolt 110 is applied to the roof panel 130 and the support structure 140. The bracket 120 may be first inserted into the body portion 112 of the fixing bolt 110 before being inserted into the .

After that, the bottom surface of the bracket 120 is brought into close contact with the upper surface of the connection part of the roof panel 130 , and then the nut 160 is fastened to firmly couple it. Finally, as described above, the panel cap 150 is placed over the top of the bracket 120 .

Therefore, according to the present invention, since the locking part 116 of the fixing bolt 110 rotates and is caught on the bottom surface of the support structure 140 , the fixing force of the fixing bolt 110 becomes strong. Therefore, the bracket 120 fastened by the fixing bolt 110 and the panel cap 150 surrounding it are also firmly fixed, and eventually a separate clamp fastened to the panel cap 150 and sunlight fixed to the clamp. Since the structure can also be stably fixed to the roof, there is an advantage in securing the stability of the photovoltaic structure.

Although preferred embodiments of the present invention have been described above, the present invention is not limited to the specific embodiments described above. That is, a person having ordinary knowledge in the technical field to which the present invention belongs can make a number of changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications are possible. Equivalents should also be considered to fall within the scope of the present invention.

110. Fixing bolt 112. Body part
114. extension 116. catch
120. Bracket 122. Base part
123. Bolt through hole 124. Cover part
126. Rubber plate 130. Roof panel
140. Support structure 150. Panel cap

Claims (2)

a bracket 120 installed on the upper surface of the connection portion of the neighboring roof panel 130 and having a bolt through hole 123 formed therein; and,
The body part 112 is inserted into the roof panel 130 through the bolt through hole 123 of the bracket 120 and a screw thread for fastening the nut 160 is formed, and the lower end of the body part 112 . A planar extension portion 114 extending in the longitudinal direction from the shaft is coupled to both ends of the extension portion 114 by shaft members 116 and is vertical in a first direction parallel to the extension portion 114 A fixing bolt 110 including a locking part 116 that rotates in the second direction of
The bracket 120 is fixed together with the roof panel 130 and the support structure 140 located under the roof panel 130 by the fixing bolt 110,
The locking part 116 of the fixing bolt 110 maintains a first direction when passing through the roof panel 130 and the support structure 140 , and moves in the second direction when an external force is applied after passing through the support structure 140 . A fastening device for installing a prefabricated roof panel, characterized in that it is rotated and caught on the bottom surface of the support structure (140).
The method of claim 1,
The bracket 120 has a planar shape having a width wider than the width of the upper surface of the connection portion of the roof panel 130 and includes a base portion 122 in which the bolt through hole 123 is formed in the central portion, and the base portion ( 122) extending from both ends, having a bent structure, and including a cover portion 124 surrounding the inclined portions on both sides of the upper surface of the roof panel 130,
A fastening device for installing a prefabricated roof panel, characterized in that a rubber plate 126 is installed on a bottom surface of the base portion 122 to contact an upper surface of a connection portion of the roof panel 130 .

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