KR101864186B1 - Building panel and manufacturing method thereof - Google Patents

Abstract

A building panel according to an embodiment of the present invention includes a main member having a predetermined area; A plurality of side members connected to the main member in four directions and bent perpendicularly to the main member; A plurality of support members which are connected to the side members and are narrower than the side members and which are bent in a direction facing the main member from the side members; And a plurality of wings coupled to the inner wall of the side member and extending outwardly of the support member. An embodiment of the present invention can provide a construction panel and a method of manufacturing the same that have a sturdy structure with little deformation on the center plate and the wing portion side and can simplify the bending operation of the wing portion by omitting the operation of reversing the entire body from the bending of the wing portion have.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building panel,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building panel and a manufacturing method thereof, and more particularly, to a building panel used as an assembly panel constituting an exterior wall of a building and a method of manufacturing the same.

The buildings are built in various structures. The building has reinforced concrete using reinforced concrete and concrete, and a steel structure that constitutes the frame of a steel frame and assembles the wall. In addition, the building is completed in various forms.

After the main skeleton and walls are completed, the building will be finished with various facilities, environment beautification and interior and exterior work.

Recently, the outer wall of a building is finished with a steel panel as a metal panel. Since the steel panel is provided in a pre-painted form, it is possible to work with a color suitable for the symbol in advance, and it has a simple and neat appearance, light weight, excellent assembling workability, and structurally robust advantages.

Conventionally, a metal panel used as a building exterior panel has a structure in which a wing portion is folded outward and spread out of a panel. Such a metal panel forms a hole in a wing portion and is configured to be coupled to an external beam by screws or bolts through holes.

Since the external force received by the external panel is transmitted to the wing portion and the center plate of the panel, the portion supporting the wing portion can be deformed or the central portion can be deformed. The member for supporting the wing portion may be distorted.

As described above, the existing metallic exterior panel for a building has a problem that the wing portion is expanded outwardly, and a wide flat plate exists on the center plate, so that the central portion of the panel is deformed or the wing portion is distorted.

In manufacturing the above-described metal enclosure, a supporting member for supporting the wing portion and the wing portion is folded with respect to the center plate.

The metal sheathing panel is finished by folding the support member against the center plate and folding the wing portion back against the support member. Such a bending process is performed on all of the slope portions of the developed metal exterior panel.

However, in the process of folding the flattened flat metal plate, it is necessary to fold the support member against the center plate, then turn the plate itself when folding the wing portion.

In other words, since the bending operation can be performed in the outward direction of the wing portion when the wing portion is turned on the bending machine while the wing portion is bitten, the bending process itself is troublesome and the weight is large even if the area is slightly increased.

Korean Registered Patent Publication No. 10-1500707

An embodiment of the present invention provides a building panel having a rigid structure with little deformation on the center plate and the wing portion side and omitting the work of reversing the entire wing portion from the bending of the wing portion, .

A building panel according to an embodiment of the present invention includes a main member having a predetermined area; A plurality of side members connected to four sides of the main member and bent perpendicularly to the main member; A plurality of support members connected to the side members, the support members being narrower than the side members and bent in a direction facing the main member in the side members; And a plurality of wings coupled to an inner wall of the side member and extending outwardly of the support member, wherein an assembling hole for fitting the wing portion is formed in the bending region of the side member and the support member do.

Wherein the end portions of the plurality of side members are arranged so as to be mutually supportable at right angles to each other at right angles on the edge of the main member and the end portions of the plurality of support members are arranged so as to cross each other at right angles, .

Wherein the wing portion includes: a blade fixing member that is brought into contact with the side member through the assembly hole to be engaged; And a blade assembly member horizontally extending from the blade fixing member to the outside of the side member and the support member, wherein the blade assembly member is provided with a rectangular hole for screw assembly.

The side member is provided with a coupling hole for coupling the blade fixing member, and the coupling hole may have a rivet.

The side member and the support member may be formed to have mutually different lengths at different positions on all sides of the main member, or the end portion of the support member may have a shape inclined obliquely.

According to another aspect of the present invention, there is provided a building panel comprising: a main member having a predetermined area; A plurality of side members connected to four sides of the main member and bent perpendicularly to the main member; And a plurality of wings coupled to an inner wall portion of the side member and extending outwardly of the side member, wherein the wing portion includes: a wing fixing member that is brought into contact with and joined to the side member; And a wing assembly member that is formed by being bent at right angles in the wing fixing member and horizontally extended to the outside of the side member, wherein the side member is provided with a plurality of coupling holes for coupling the wing fixing member, A rivet is disposed in the coupling hole, and a rectangular hole is formed in the blade assembly member.

A manufacturing method for manufacturing the building panel according to an embodiment of the present invention is characterized in that a side member on each side of the main member is put on a bending machine and a boundary line between the main member and the side member is pressed, The support member is bent at a right angle in the main member, the support member is engaged with the bending machine, the support member is bent at right angles to the inner side of the main member at the side member by pressing the boundary line between the side member and the support member, And a step of forming an assembly hole in the bending region of the side member and the support member and inserting the wing portion into the assembly hole side and coupling the wing portion to the side member with a plurality of rivets.

The side member and the support member may be formed to have different lengths from each other at four positions of the main member, or the end portion of the support member may be cut into an inclined shape.

The above-described embodiment of the present invention has a simple structure in which the center plate and the wing portion have a rigid structure with little deformation and the operation of bending the wing portion is omitted, Method can be provided.

1 is a perspective view of a building panel according to an embodiment of the present invention.
Figure 2 is an exploded view of the wing of Figure 1;
FIG. 3 is a bottom perspective view of a building panel according to an embodiment of the present invention.
4 is an exploded view of a building panel according to an embodiment of the present invention.
Fig. 5 is a first bending process diagram in which the side member is bended in the bending machine in Fig.
Fig. 6 is a second bending process diagram in which the support member is bended in the bending machine in Fig. 5;
7 is an exploded view of a building panel according to another embodiment of the present invention.
8 is a perspective view in which the side member is folded in Fig.

Various embodiments of the present invention will now be described by way of specific embodiments illustrated in the accompanying drawings. The differences in the embodiments are to be understood as mutually exclusive matters, and the specific shapes, structures, and characteristics described in connection with one embodiment may be embodied in other embodiments without departing from the spirit and scope of the present invention .

It is to be understood that the position or arrangement of the individual components in accordance with embodiments of the present invention may be varied and that like reference numerals may be used to indicate like or similar features throughout the various aspects, The form may be exaggerated for ease of explanation.

The direction and position of the drawing are described assuming an XYZ Cartesian coordinate system. The top, bottom, right and left coincide with the XY coordinate plane system, and the front, rear, left and right coincide with the YZ coordinate plane system. In the drawings of the embodiments, each of the elements for which the lower elements are not described are assumed to include typical lower elements for having respective assigned functions, and are not limited to the lower elements shown in the figures. It is to be understood that the components illustrated but not shown are included in the embodiments.

The terms used shall be understood to have the traditional meaning of Chinese characters, national language, or English, except those specifically defined, or to have attributes consistent with the terms used in the field. It is to be understood that "comprising, comprising, or having" means having more than one of the other components, "fixed and constrained" And can be moved by the user.

1 to 3, a building panel according to an embodiment of the present invention includes a main member 100 disposed at a center and having a predetermined area, a main member 100 connected to four sides of the main member 100, A plurality of side members 101 bent at right angles to the side member 101 and connected to the side member 101 and provided at a narrower width than the side member 101 and bent in a direction facing the main member 100 from the side member 101 And includes a plurality of support members 110 and a plurality of wings 120 coupled to the inner wall of the side member 101 and extending outwardly of the support member 110.

4, the main member 100, the side member 101, and the support member 110 are preliminarily arranged in a rectangular disk shape in which a high-rigidity steel plate is cut and expanded, As shown in Fig.

1 to 4, end portions of a plurality of side members 101 are disposed so as to be mutually crossable at right angles on the edge of the main member 100. [ That is, since the main member 100 has a rectangular shape, the side member 101 is bent in the main member 100 in a state where the side member 101 is connected to the slope portion of the main member 100.

This side member 101 makes the main member 100 appear to have a constant thickness. Further, since the side member 101 is bent at right angles in the main member 100, the rigidity of the panel is increased.

Thus, the side member 101 located at each side of the main member 100 prevents deformation or distortion of the building panel itself.

The end portions of the plurality of support members 110 are arranged so as to cross each other at a right angle from the inside of the plurality of side members 101 to be mutually supportable. The support member 110 is bent at a right angle at the side member 101 and disposed on the main member 100.

Since the support member 110 is supported on the wall in the wall assembly after panel completion, the support member 110 enhances the rigidity of the side member 101 and prevents deformation from being seen from the outside.

Referring to FIGS. 3 and 4, an assembly hole 111 is formed in the bending region of the main member 100 and the support member 110 to assemble the wing 120. The assembly hole 111 is formed in a long slit shape so that the wing portion 120 can be inserted.

The end of the support member 110 may have an oblique shape. Accordingly, when the support members 110 are bent at the side member 101 and disposed at right angles, the end portions of the support members 110 can be contact-supported in an oblique shape without interference.

1 to 3, the wing portion 120 is screwed to the wall. The wings 120 are disposed at a plurality of intervals in the lower portion of the side member 101 so as to provide sufficient fixing force. The wing portion 120 is provided with a rectangular hole 125 for screw assembly.

The wing portion 120 includes a wing fixing member 121 which is in contact with and joined to the side member 101 side through the assembly hole 111 and the side member 101 and the support member 110 in the wing fixing member 121, And a wing assembly (bracket) member 122 which is horizontally extended outwardly of the frame.

The wing fixing member 121 and the wing assembly (bracket) member 122 are bent at right angles and the rectangular hole 125 for screw assembly is located in the wing assembly (bracket) member 122. The rectangular holes 125 allow movement of the screws during wall assembly according to the temperature-dependent elongation, thus providing flexibility in thread assembly.

1 to 4, the side member 101 is provided with a coupling hole 102 for coupling the blade fixing member 121, and a rivet 130 is located in the coupling hole 102 . The wing portion 120 is coupled to the side member 101 by a pair of rivets 130.
When the wing fixing member 121 is brought into contact with and joined to the side member 101, the wing assembling member 121 is placed in the assembly hole 111 and the bottom portion of the wing assembling member 121 is engaged with the side member 101 101 at the same height as the lower end thereof.
Accordingly, the building panel according to an embodiment of the present invention is configured such that the wing assembling member 121 of the wing 120, which is a bracket for mounting and fixing, is inserted into the side member 101, The change in the position of the second housing 120 is sufficiently restricted.

The side members 101 on the four sides of the main member 100 surround the main member 100 to form the right corner 105. [

On the other hand, although not shown, a foam material for heat insulation may be disposed in the inner region of the main member 100 and the side member 101. In addition, a slit hole may be formed horizontally in the corner portion 105. [ The slit hole allows the inside of the side member 101 to be seen.

The side member 101 and the support member 110 are formed to have mutually different lengths at different positions of the main member 100 so that the support member 110 of one side member 101 is supported by the other side member 101 Without being interfered with the support member 110 of the support member 110. [

Hereinafter, a manufacturing method for manufacturing a building panel according to an embodiment of the present invention will be described.

4, in the method of manufacturing a building panel according to an embodiment of the present invention, firstly, a development shape of the above-mentioned building panel having the side member 101 and the support member 110 on the four sides of the main member 100 Is prepared in advance. Such rectangular plate can be prepared by laser cutting the raw material.

5, the operator inserts the side member 101 of the main member 100 on the disk into the bobbin 11 of the bending machine 10 and inserts the bite 11 of the bending machine 10 into the boundary line of the main member 100 and the side member 101, The side member 101 is bent at a first right angle with respect to the main member 100 by pressing the pressing member 15 with the pressing member 15. [

6, the support member 110 is inserted into the bite 11 of the bending machine 10 and the boundary line between the side member 101 and the support member 110 is pressed by the pressing portion 15 The support member 110 is secondarily bent at right angles to the inside of the main member 100 in the side member 101. [ In FIG. 6, the side member 101 is not represented as being bent, but it is assumed that the side member 101 has already been bent at a right angle through the process of FIG.

The operator can perform bending in all directions while rotating the original plate without turning the original plate, that is, the main member 100, in the first and second bending processes of the side member 101 and the support member 110. Thus, the bending operation can be performed by itself. Of course, if the building panel grows too large to accommodate alone, you will inevitably have to bend it with the help of another worker.

The coupling hole 102 is previously formed in the side member 101 before the side member 101 is bent and the assembly hole 111 is previously formed in the bending region of the side member 101 and the support member 110 .

3, the operator completes a building panel that can be assembled to the wall by inserting the wing 120 into the assembly hole 111 and connecting the wing 120 with the rivet 130 on the side member 101 .

As described above, the side member 101 and the support member 110 may be formed to have different lengths from each other at four positions of the main member 100, or the end portion of the support member 110 may be cut into an inclined shape, 110) can be abutted from the edge side without interference.

Hereinafter, another embodiment in which the panel is implemented by the main member and the side member, which is different from the above embodiment, will be described.

7 and 8, a building panel according to another exemplary embodiment of the present invention includes a main member 200 having a predetermined area, a plurality of guide members 220 connected to four sides of the main member 200, And includes a plurality of side members 201 and a plurality of wing portions 220 coupled to the inner wall portions of the side members 201 and extending outwardly of the side members 201.

The wing portion 220 includes a wing fixing member 221 which is brought into contact with and joined to the side member 201 side, a wing fixing member 221 which is bent at right angles and horizontally extended outwardly of the side member 201 And a wing assembly member (222).

The side member 201 is provided with a plurality of coupling holes 202 for coupling the blade fixing members and a rivet 230 is located in the coupling hole 202. [

The wing assembling member 222 is provided with an elongated hole 225 for fixing the wall.

The construction panel according to another embodiment of the present invention configured as described above is characterized in that the support member 210 is not provided on the side member 201 and the fixing of the wing portion 220 to the lower portion of the side member 201 (235). Since the support member 210 is not connected to the side member 201, the fixing groove portion 235 can be structurally formed.

Although the support member 210 is omitted in such an architectural panel, if the thickness of the steel plate is increased by the manufacturing members, sufficient rigidity can be given. Is completed by once bending the support member 210 in the four-way main member 200 and assembling the wing portion 220. The fixing groove portion 235 is formed before the side member 201 is bent.

The building panel according to another embodiment of the present invention can be assembled to the wall by disposing screws in the rectangular holes 225 of the wing portion 220. Since the building panel has a rectangular shape, it can be arranged in a checkerboard shape on the wall to provide a beautiful appearance.
When the wing fixing member 221 contacts and is brought into contact with the side member 201, the wing assembling member 222 is disposed in the fixing groove portion 235, and the bottom portion of the wing assembling member 222 is engaged with the side member 201 201 at the same height.
The wing assembling member 222 is inserted into the fixing groove portion 235 of the side member 201 to limit the change in the position of the wing portion 220 due to vibration and shaking.

Although not shown in the drawings, the perpendicular crossing shapes of the side members 101 and 201 and the support member 110 in the above embodiments may be diagonally shaded, but the present invention is not limited thereto, and the side members 101 and 201, And may be formed in various lines depending on the mutual end shapes of the electrodes 110.

 A further bendable member at a right angle can be connected to the lower portion of the support member 110, and the member can substantially contact the main member 100 to sufficiently prevent deformation of the main member 100. [

Also, if the rigidity for fixing and assembly is secured, the wings 120 and 220 can sufficiently reduce weight by removing unnecessary areas.

The bite 11 and the pressing portion 12 of the bending machine 10 can be operated with hydraulic pressure for fixing and pressing force for bending.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Deletion, addition or the like of the present invention may be variously modified and changed within the scope of the present invention.

10: Bending machine 11: Bite
15:
100, 200: main member 101, 201: side member
102, 202: coupling hole 110, 210: support member
111: Assembly holes 120, 220:
121, 221: wing fixing member 122, 222: wing assembly member
125, 225: an oblong hole 130, 230: a rivet
235: Fixing groove

Claims (8)

A main member having a predetermined area;
A plurality of side members connected to four sides of the main member and bent perpendicularly to the main member;
A plurality of support members connected to the side members, the support members being narrower than the side members and bent in a direction facing the main member in the side members; And
And a plurality of wings coupled to an inner wall of the side member and extending outwardly of the support member,
An assembly hole is formed in the bending region of the side member and the support member to assemble the wing portion,
The end portions of the plurality of side members are disposed so as to be mutually crossable at right angles on the edge of the main member,
Wherein end portions of the plurality of support members are disposed so as to be mutually crossable at right angles at the inside of the plurality of side members,
The wing portion
A blade fixing member which is brought into contact with the side member through the assembly hole to be engaged; And
And a blade assembly member horizontally extending from the blade fixing member to the outside of the side member and the support member,
The wing assembly member is provided with a rectangular hole,
Wherein the side member is provided with a plurality of engagement holes for engagement of the vane securing member,
Wherein the side member and the support member are formed to have mutually different lengths at different positions in all directions of the main member or the end portion of the support member has a shape inclined obliquely,
Wherein when the wing fixing member is brought into contact with and joined to the side member, the wing assembling member is disposed in the assembly hole, the bottom portion of the wing assembling member is maintained at the same height as the lower end of the side member,
Wherein the wing assembly member is inserted into the assembly hole of the side member to limit the change in the position of the wing portion due to vibration and shaking. delete delete delete delete A main member having a predetermined area;
A plurality of side members connected to four sides of the main member and bent perpendicularly to the main member; And
And a plurality of wings coupled to an inner wall of the side member and extending outwardly of the side member,
The wing portion
A blade fixing member which is brought into contact with and joined to the side member; And
And a wing assembling member formed at a right angle in the wing fixing member and extending horizontally to the outside of the side member,
Wherein the side member is provided with a plurality of engagement holes for engagement of the vane securing member,
The wing assembly member is provided with a rectangular hole,
Wherein the side member is provided with a fixing groove portion in which the blade assembly member is disposed,
Wherein the wing assembling member is disposed in the fixing groove portion when the wing fixing member is in contact with the side member and the bottom portion of the wing assembly member is maintained at the same height as the lower end portion of the side member,
Wherein the wing assembling member is inserted and fixed in the fixing groove of the side member to limit a change in the position of the wing portion due to vibration and shaking. delete delete

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