KR101873231B1 - Assembly structure of sliding panel - Google Patents

Abstract

The present invention relates to an assembly structure of a roof and a wall panel. According to the present invention, the assembly structure of a roof and a wall panel comprises: a seismic bracket (10) having a beam installation groove (12) formed on a lower part to be installed on the upper part of a beam (50), and having a clearance space part (18) formed on the upper part to generate a horizontal clearance when a sliding panel (60) is installed; a support frame (30) pressing the sliding panel (60) to prevent separation of the sliding panel (60) installed in the clearance space part (18) installed; and a coupling member (40) to fix the seismic bracket (10) installed in the beam (50) and the support frame (30) pressing the sliding panel (60). When being installed to the beam (50), a prefabricated roof and a wall panel are installed to be horizontally moved without being directly fixed to the beam (50), thereby making horizontal movement free. Accordingly, the panel (60) is returned to an original position after being leaned to one side by a strong wind, thereby providing an effect of enhancing durability of the roof and the wall panel.

Description

ASSEMBLY STRUCTURE OF SLIDING PANEL < RTI ID = 0.0 > [0001] < / RTI &

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an assembly structure of a sliding panel capable of right and left clearances for installing a prefabricated roof and a wall panel.

A prefabricated building method is a method that is mainly used when building roofs are to be built in an early time.

The roofs of the buildings made of these prefabricated construction methods are usually constructed by connecting steel panels made of surface-treated steel or metal panels made of aluminum or copper. When a roof is formed using a metal panel, not only the construction period is shortened but also the construction cost is reduced, and furthermore, since the appearance of the constructed building can be more beautifully displayed, Such a metal panel is widely used in the roof construction of various buildings.

The conventional prefabricated roof panels are installed in such a manner that they are welded to the beams or directly fix the roof panels using pieces or the like. In the case of a roof fixing the roof panel and the beam directly to the pieces, there is a problem that the panel installed by the earthquake or the strong wind shakes to the left and right, causing the entire roof to shake, and when the panel is tilted to one side, .

Registration No. 10-1298271, 'Connection Structure of Metal Panel Roof and Method of Construction of Metal Panel Roof'

Accordingly, it is an object of the present invention to improve the durability of the roof by constructing the prefabricated roof and the wall panel so that the panel does not deform in shape even when it swings to the left and right, In which the left and right clearances are possible.

According to the present invention, in the assembling structure of a roof and a wall panel, a beam installation groove (12) is formed at a lower portion to be installed on an upper portion of a beam (50), and a sliding panel (60) A support frame 30 for pressing the sliding panel 60 installed in the clearance space 18 so as to prevent the clearance space 18 from being separated from the clearance space 18, And a fastening member (40) for fixing the support frame (30) for pressing the sliding panel (60).

The earthquake-proof bracket (10) is characterized in that a panel mounting portion (16) on which both ends of the panel (60) are installed is formed.

Further, the panel mounting portion 16 is formed with a clearance space portion 18 in which both ends of the panel 60 are spaced left and right.

The support frame 30 is characterized in that a pushing piece 32 for preventing both ends of the panel 60 provided on the earthquake-proof bracket 10 from being detached is formed at the bottom.

Further, the fastening member 40 is characterized by being a screw having an anti-loosening function.

In the present invention, when the prefabricated roof panel and the wall panel are fixed to the beams, the panels can be moved left and right without being fixed directly to the beams. Thus, the panel can be moved to one side by a strong wind or the like, So that the durability of the roof can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the construction of an assembly structure of a sliding panel capable of right and left clearances according to an embodiment of the present invention;
FIG. 2 is a view showing a state in which the exploded view of FIG.
3 is a perspective view of an earthquake-proof bracket according to an embodiment of the present invention,
4 is a perspective view of a support frame according to an embodiment of the present invention,
5 is a view for explaining an anti-vibration structure of an assembly structure of a sliding panel capable of right and left clearances according to an embodiment of the present invention,
6 is a view showing an assembling structure of a sliding panel capable of right and left clearances according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded view showing an assembly structure of a sliding panel according to an embodiment of the present invention, and FIG. 2 is an installation sectional view of FIG.

The sliding panel 60 according to the present invention has an assembly structure in which a beam installation groove 12 is formed at an upper portion of a beam 50 and a sliding panel 60 is installed at an upper portion thereof, A support frame 30 for pressing the sliding panel 60 provided in the clearance space part 18 so as not to be detached and an earthquake-resistant bracket 10 provided on the beam 50, And a fastening member 40 for fastening the support frame 30 which presses the sliding panel 10 and the sliding panel 60 to each other.

In the present invention, when a roof or a wall panel is installed, left and right clearances are provided so that when a vibration such as an earthquake occurs, the panel 60 can be installed to move left and right at a predetermined interval to maintain the shape of a roof or a wall panel .

The sliding panel 60 according to the present invention is for explaining a configuration in which the earthquake-proof bracket 10 is installed to be slidable by left and right clearances in a state where both ends of the panel 60 are installed.

3 to 4 are perspective views showing the structures of the earthquake-proof bracket 10 and the support frame 30 of the present invention.

Referring to FIG. 3, the earthquake-proof bracket 10 of the present invention is a '

And a beam installation groove 12 for installing the beam 50 to be installed on the beam 50 is formed at the lower part.

The earthquake-proof bracket 10 described in the present invention has a structure in which when the roof or the wall panel is installed, when the vibration such as an earthquake occurs, the panel 60 is spaced apart from the left and right, So as to prevent damage to the apparatus.

A support portion 14 protrudes downward to be fixed to both ends of the beam installation groove 12 so as to prevent the earthquake-resistant bracket 10 installed on the beam 50 from moving, The position of the earthquake-proof bracket 10 can be fixed to the upper portion of the beam 50 before the panel 60 is installed and the movement of the panel 60 due to the left- The bracket 10 is supported.

It is not necessary to provide means for temporarily fixing the earthquake-proof bracket 10 before installation of the panel 60 by a separate fixing member if the earthquake-proof bracket 10 is fixed on the upper portion of the beam 50 by the support portion 14 The ease of construction becomes easy.

In other words, by fitting the support portions 14 at both ends into the beam 50, the position of the earthquake-proof bracket 10 is fixed, and both ends of the panel 60 can be easily installed.

Since the supporting portion 14 fitted to both ends of the beam 50 supports the side surface of the beam 50 at both ends thereof, the supporting portion 14 supports the side surface of the beam 60 when the earthquake- It also plays a role.

A panel mounting portion 16 is formed at the upper portion of the beam mounting groove 12 and both ends of the panel 60 are installed on both sides of the panel mounting portion 16. The both ends of the panel mounting portion 16 are extended upward from the supporting portion 14 And an elastic portion 20 for connecting the panel mounting portion 16 is provided.

In the present invention, the space space portion 18 of '┛┛' is formed by the panel mounting portion 16 of the vibration-proof bracket 10 and the elastic portion 20 protruding upward at both ends of the panel mounting portion 16 And the panel 60 is spaced laterally in the clearance space 18 in a state where both ends of the panel 60 are positioned on the panel mounting portion 16, So that the durability is improved.

The resilient portion 20 is configured to generate a left-right elasticity in accordance with the earthquake-proof bracket 10 when the panel 60 swings due to the left-right clearance, thereby preventing an excessive force from being applied to the earthquake- .

5, the left and right clearances of the panel 60 are generated by the swinging and are moved to the left and right in the space 18, ) Are correspondingly spread to the left and right together to absorb the shock.

As described above, after the earthquake-proof bracket 10 is installed on the beam 50, the support frame 30 is disposed above the water-mounted panel 16 in such a manner that both ends of the panel 60 are positioned on the panel-mounting portion 16 of the earthquake- The panel 60 is prevented from being detached from the clearance space portion 18 by the panel mounting portion 16.

Referring to FIG. 4, the support frame 30 of the present invention includes a support frame 30,

And the pressing pieces 32 for pressing the panels 60 provided at the lower part are formed at both ends by the spacing grooves 34. [

That is, when the panel 60 is positioned on the earthquake-proof bracket 10 and then joined to the support frame 30 at the top, both ends of the panel 60 can be prevented from being damaged when the panel 60 is shaken, Accordingly, when the panel 60 is in the left and right clearance, it plays a role of generating a clearance only to left and right in the clearance space portion 18.

The spacing groove 34 has a space for facilitating bolt fastening when fastening the fastening member 40, which will be described later, and also has a material cost saving effect.

That is, although the support frame 30 can be formed in a '?' Shape, the bolt can be easily fastened, and the material can be reduced in size and ease of molding as much as the spacing grooves 34.

Compared to welding a metal plate by bending it in the form of "ㅁ", the simple bending work is easy, so that it is easy to form and the working time is shortened accordingly.

After the support frame 30 is assembled to the upper portion of the earthquake-proof bracket 10, the support frame 30 and the earthquake-proof bracket 10 are fixed by a fastening member 40 such as a piece or a screw.

In an embodiment of the present invention, the fastening member 40 may be an anti-loosening screw. When the fastening member 40 is loosened, the support frame 30, which holds the panel 60, Can be prevented.

When the fastening member 40 is released, the support frame 30 is lifted up and eventually the upper and lower portions of the panel 60 are spaced apart from each other and the earthquake-resistant bracket 10 installed on the beam 50 is removed 60 are detached, so that the roof and the wall panel are damaged.

In the present invention, as shown in Fig. 6, the cushioning material 42 is filled in the upper part of the fastening screw to prevent the fastening screw 40 from being loosened and to prevent the fastening part from corrosion and shock absorption, The silicon 44 may be filled again to finish the process.

The cushion member 42 absorbs vibration caused by the movement of the coupling member 40 when the panel 60 is wobbled to mitigate the impact and serves to press the upper portion of the coupling member 40 in order to prevent the coupling member 40 from being loosened do.

The cushioning member 42 may be partially filled in the upper portion of the fastening member 40 and may be filled with the cushioning member 42 if necessary between the both ends of the panel 60 to which the fastening member 40 is fastened It is also possible.

Silicone 44 for waterproofing is filled in the upper part filled with cushioning material 42 and finishing is performed by silicone 44 so that water does not flow into the place where fastening member 40 is fastened and corrosion does not occur.

The cushioning material 42 and the silicone 44 are provided so as to connect between the both end panels 60. Since the cushioning material 42 and the silicone 44 are made of an elastic material, It does not interfere with the play because it grows and shrinks together.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

(10) - Seismic bracket (12) - Beam installation groove
(14) - Support (16) - Panel mounting part
(18) - clearance space part (20) - elastic part
(30) - Support frame (32) - Presser
(34) - spacing groove (40) - fastening member
(42) - cushioning material (44) - silicone
(50) - beam (60) - panel

Claims (5)

In an assembly structure of a roof and a wall panel,
An earthquake-proof bracket (10) for installing a roof or a wall panel so as to allow left and right clearances is installed,
The earthquake-proof bracket 10 has a beam installation groove 12 formed at the lower portion thereof so that an earthquake-proof bracket 10 is installed on the upper portion of the beam 50, The mounting position of the earthquake-proof bracket 10 is temporarily fixed to the upper portion of the beam 50 before the mounting of the bracket 10 and the support portion for supporting the movement of the earthquake-proof bracket 10 by the left- A panel mounting portion 16 is formed at an upper portion of the beam mounting groove 12 and both ends of the panel 60 are installed on both sides of the panel mounting portion 16, The elastic bracket 10 is formed to extend upward from the panel 14 so that the left and right elasticities are generated in the earthquake-proof bracket 10 when the panel 60 is rocked by the right and left clearances, thereby forming the elastic portion 20 for preventing the earthquake- And the panel 60 is formed by the panel mounting portion 16 and the elastic portions 20 at both ends, Is formed by a clearance space (18) to increase the durability and to generate the left and right clearance when the shake,
A support frame 30 is installed on the upper portion of the beam 50 to press the panel 60 installed in the clearance space portion 18 so as not to be detached. And a fastening member (40) for fastening the support frame (30) for pressing the fastening member (60) is fastened and fixed.
The method according to claim 1,
The earthquake-proof bracket (10)

The sliding panel assembly of claim 1,
delete The method according to claim 1,
The support frame 30 has a roof on which a pushing piece 32 for preventing both ends of the panel 60 installed on the earthquake-proof bracket 10 from being detached is formed beneath. Assembly structure of panels.
The method according to claim 1,
Wherein the fastening member (40) is a screw having an anti-loosening function.

Images