KR20200127830A - Bracket for connecting truss by non-welding scheme - Google Patents

Abstract

An objective of the present invention is to provide a bracket which can be easily machined and formed into a simple structure. According to an embodiment of the present invention, the bracket to fasten a vertical member and a horizontal member comprises: a main body unit corresponding to a first surface of the horizontal member; a first horizontal member fixing unit which comes in contact with one side of the main body unit, and is bent in a direction perpendicular to the main body unit to correspond to a second surface of the horizontal member; a second horizontal member fixing unit which comes in contact with the other side of the main body unit, and is bent in a direction perpendicular to the main body unit to correspond to a third surface of the horizontal member; a first vertical member fixing unit which comes in contact with the first horizontal member fixing unit, and is bent to be perpendicular to the first horizontal member fixing unit to come in contact with a first point of the vertical member; and a second vertical member fixing unit which comes in contact with the second horizontal member fixing unit, and is bent to be perpendicular to the second horizontal member fixing unit to come in contact with a second point of the vertical member.

Description

Bracket for connecting trusses in a non-welding method{BRACKET FOR CONNECTING TRUSS BY NON-WELDING SCHEME}

The present invention relates to a bracket for construction, and more specifically, to a bracket capable of fastening a horizontal member and a vertical member without welding.

In general, a building exterior panel is fabricated into a square plate shape and attached to a building. In order to attach such panels to buildings, trusses spaced apart from the surface of the wall are installed at regular intervals. The truss is usually manufactured so that a vertical member and a horizontal member form a grid-shaped unit module of a certain standard. The truss is a metal truss with durability and strength for supporting panels and is installed on the slab or outer wall of a building. A typical truss is connected by welding a portion to which a vertical member and a horizontal member are fastened.

In the work of connecting trusses by welding, there is a risk of fire due to spatter. In addition, during welding construction, there are safety issues such as a risk of loss of insulation or building materials due to welding sparks, and burns of workers. In addition, the construction cost increases as the number of workers for welding increases. In order to solve such problems, various studies and attempts have been made to connect trusses in a non-contact manner.

However, there is still an urgent need for a non-welding bracket that can be efficiently produced at low cost and can easily assemble a truss while providing sufficient support strength.

An object of the invention is to provide a bracket that can be easily processed and molded with a simple structure.

Another object of the present invention is to provide a bracket that can be used for multiple purposes while having one structure.

Another object of the present invention is to provide a bracket capable of easily fastening a vertical member and a horizontal member.

A bracket for fastening a vertical member and a horizontal member according to an embodiment of the present invention for achieving the above object includes a body portion corresponding to the first surface of the horizontal member, and in contact with one side of the body portion, and at a right angle to the body portion. A first horizontal member fixing portion that is bent in a direction to correspond to a second surface of the horizontal member, a second horizontal member that is in contact with the other side of the body portion and is bent in a direction perpendicular to the body portion to correspond to the third surface of the horizontal member. The first vertical member fixing portion in contact with the top, the first horizontal member fixing portion, and being bent at a right angle to the first horizontal member fixing portion to be in contact with the first point of the vertical member, and the second horizontal member fixing portion, and the first 2 It includes a second vertical member fixing portion that is bent at a right angle to the horizontal member fixing portion to contact the second point of the vertical member.

According to the embodiment of the present invention as described above, it is possible to implement a bracket that can be efficiently produced at a low cost, and can easily assemble a truss while providing sufficient support strength.

1 is a plan view showing one surface of a bracket according to a first embodiment of the present invention after a cutting operation.
2A is a view showing an exemplary bending method of the bracket 100 formed through a cutting operation.
2B is a cross-sectional view of the shape of the bracket 100 according to the first embodiment of the present invention viewed from the direction of the main body after the bending treatment.
2C is a cross-sectional view of the shape of the bracket 100 of the first embodiment of the present invention viewed from the direction of the first horizontal member fixing portion after the bending treatment.
3A is a view showing a fixed form of a truss using a bracket according to a first embodiment of the present invention.
3B is a cross-sectional view showing a form in which a vertical member and two horizontal members are installed at a corner using brackets according to the first embodiment of the present invention.
3C is a cross-sectional view showing another form in which a vertical member and two horizontal members are installed at a corner using brackets according to the first embodiment of the present invention.
4 is a plan view showing one surface of a bracket according to a second embodiment of the present invention.
5A is a diagram illustrating a method of bending the bracket 200 of the second embodiment formed through a cutting operation.
5B is a cross-sectional view of the shape of the bracket 200 of the second embodiment of the present invention viewed from the direction of the first horizontal member fixing portion after the bending treatment.
5C is a cross-sectional view of the shape of the bracket 200 of the second embodiment of the present invention viewed from the direction of the first and second vertical member fixing portions after bending treatment.
5D is a cross-sectional view of the shape of the bracket 200 according to the second embodiment of the present invention viewed from the direction of the main body after the bending treatment.
6A to 6C are views showing a fixing form of a truss using a bracket according to a second embodiment of the present invention.
7 is a plan view showing one surface of a bracket according to a third embodiment of the present invention.
8A to 8C are cross-sectional views showing the shape of the bracket 300 according to the third embodiment.
9A to 9C are views exemplarily showing a fastening form of a vertical member and a horizontal member using a bracket according to a third embodiment of the present invention.

It is to be understood that both the preceding general description and the following detailed description are exemplary, and it is to be understood that additional descriptions of the claimed invention are provided. Reference numerals are indicated in detail in the preferred embodiments of the present invention, examples of which are indicated in the reference drawings. Wherever possible, the same reference numerals are used in the description and drawings to refer to the same or similar parts.

In the following, a bracket for connecting a truss, which is a building material, will be used to explain the advantages of the present invention. However, those familiar with the art will be able to readily understand other advantages and performance of the present invention in accordance with the teachings herein. The present invention may also be implemented or applied through other embodiments. In addition, the detailed description may be modified or changed according to viewpoints and applications without significantly departing from the scope, technical spirit, and other objects of the present invention.

1 is a plan view showing one surface of a bracket according to a first embodiment of the present invention after a cutting operation. Referring to FIG. 1, the bracket 100 according to the first embodiment includes a body part 110, a first horizontal member fixing part 120, a second horizontal member fixing part 130, a first vertical member fixing part 140, and It includes a second vertical member fixing portion 150.

The body portion 110 is folded at an angle of 90° in the direction of the inside of the ground along the first horizontal member fixing portion 120 and the bending line L1. In addition, the main body 110 is folded at an angle of 90° to the inside of the ground along the second horizontal member fixing part 130 and the bending line L2. The bending lines L1 and L2 will be processed through a bending process in which the bending lines L1 and L2 are folded in an'L' shape in the direction of the inside of the paper. When the bending process is completed, the body portion 110, the first horizontal member fixing portion 120, and the second horizontal member fixing portion 130 may form a'U' shape and accommodate the horizontal member. The main body 110 may include a screw groove 112 and a center groove 114. The screw groove 112 may be inserted with a screw (screw or piece) for coupling with a vertical member or a horizontal member, if necessary. The center groove 114 is provided for alignment with a center line drawn on a vertical member or a horizontal member accommodated by the body portion 110 when necessary. The protruding portion of the body portion 110 in which the screw groove 112 is located has a role of engaging the two brackets 100 when connecting horizontal members connected at 90° to a vertical member located at a corner. This part will be referred to as a support 111 hereinafter.

The first horizontal member fixing part 120 includes screw grooves 122 and 124. The first horizontal member fixing portion 120 and the horizontal member are coupled through screws inserted into the screw grooves 122 and 124. The first horizontal member fixing part 120 is folded with the first vertical member fixing part 140 at an angle of 90° to the outside of the ground along the bending line L3. The bending lines L3 and L4 will be processed through a bending process that is folded in an'L' shape in an outward direction of the paper.

The second horizontal member fixing part 130 includes screw grooves 132 and 134. The second horizontal member fixing part 130 and the horizontal member are fastened through screws inserted into the screw grooves 132 and 134. The second horizontal member fixing part 130 is folded with the second vertical member fixing part 150 at an angle of 90° to the outside of the paper along the bending line L4.

The first vertical member fixing part 140 is adjacent to the first horizontal member fixing part 120 based on the bending line L3. The first vertical member fixing part 140 includes screw grooves 142 and 144 and may be fastened to the vertical member by screws penetrating the screw grooves 142 and 144. Here, the spacing S between the bending line L3 and the cutting line (solid line) depends on the thickness of the metal plate constituting the bracket 100. In addition, the distance S between the bending line L1 and the edge surface of the first vertical member fixing part 140 also depends on the thickness of the metal plate constituting the bracket 100. For example, the interval S may have a value greater than the thickness of the metal plate constituting the bracket 100.

The second vertical member fixing part 150 is adjacent to the second horizontal member fixing part 130 with the bending line L4 as a boundary. The second vertical member fixing part 150 includes screw grooves 152 and 154, and may be fastened to the vertical member by screws passing through the screw grooves 152 and 154. Here, the distance S between the edge of the second vertical member fixing portion 150 and the body portion 110 also depends on the thickness of the metal plate constituting the bracket 100. For example, the interval S may have a value greater than the thickness of the metal plate constituting the bracket 100.

The bracket 100 according to the first embodiment of the present invention briefly described above may be formed through a cutting operation in the form of a layout shown on one metal plate. And after the cutting operation, the vertical member and the horizontal member are fastened through bending processing (for example, using a V-shaped punch and die) for the illustrated bending lines (L1, L2, L3, L4). Can be formed.

2A is a view showing an exemplary bending method of the bracket 100 formed through a cutting operation. Referring to FIG. 2A, the first horizontal member fixing part 120 and the second horizontal member fixing part 130 through the bending lines L1 and L2 of the bracket 100 in the form of a metal plate are ground with respect to the body part 110. It is folded at an angle of 90° inward. When the bending process is completed, the body portion 110, the first horizontal member fixing portion 120, and the second horizontal member fixing portion 130 may form a'U' shape and accommodate the horizontal member. In addition, through the bending line L3, the first horizontal member fixing portion 120 and the first vertical member fixing portion 140 are bent so as to be folded by 90° in the outward direction of the paper. Through the bending line L4, the second horizontal member fixing part 130 and the second vertical member fixing part 150 are bent so as to be folded by 90° in the outward direction of the paper.

2B is a cross-sectional view of the shape of the bracket 100 according to the first embodiment of the present invention viewed from the direction of the main body after the bending treatment. Referring to FIG. 2B, the bracket 100 has a cross-section showing a non-rotated body portion 110a and a cross-section showing the rotated body portion 110b, respectively.

Looking at the non-rotating body portion 110a shown on the upper side, a screw groove 112a and a center groove 114a are formed in the body portion 110a. The portion where the screw groove 112a is located is a corner bracket and a support 111a is formed to provide a structure in which the two brackets can be well engaged when used. On the left side of the body portion 110a, a first horizontal member fixing portion 120a and a first vertical member fixing portion 140a are shown in which only a cross section is visible by bending. The first horizontal member fixing portion 120a and the first vertical member fixing portion 140a are represented by a metal cross section having a thickness T. In addition, a second horizontal member fixing portion 130a and a second vertical member fixing portion 150a are shown on the right side of the body portion 110a, showing only a cross section by bending treatment. Similarly, the second horizontal member fixing portion 130a and the second vertical member fixing portion 150a are also shown only in cross section of the thickness T.

Looking at the rotated body portion 110b shown in the lower side, a screw groove 112b and a center groove 114b are formed in the body portion 110b. The portion where the screw groove 112b is located is a corner bracket and a support 111b is formed to provide a structure in which the two brackets can be well engaged when used. On the left side of the main body portion 110b, a second horizontal member fixing portion 130b and a second vertical member fixing portion 150b are shown in which only a cross section is visible by bending. In the second horizontal member fixing portion 130b and the second vertical member fixing portion 150b, only a cross section of a thickness T is shown. In addition, a first horizontal member fixing portion 120b and a first vertical member fixing portion 140b are shown on the right side of the rotated body portion 110b, showing only a cross section by bending treatment. The first horizontal member fixing portion 120b and the first vertical member fixing portion 140b are represented by a metal cross section having a thickness T.

2C is a cross-sectional view of the shape of the bracket 100 of the first embodiment of the present invention viewed from the direction of the first horizontal member fixing portion after the bending treatment. Referring to FIG. 2C, the bracket 100 is shown only in the form of a cross-sectional shape of a metal plate, with the body portion 110 and the first vertical member fixing portion 140 facing the first horizontal member fixing portion 120 in front.

2D is a cross-sectional view of the shape of the bracket 100 of the first embodiment of the present invention viewed from the direction of the first and second vertical member fixing portions after the bending treatment. Referring to FIG. 2D, the bracket 100 includes a first vertical member fixing part 140 and a second vertical member fixing part 150 in front of the body part 110 and the first horizontal member fixing part ( 120), the second horizontal member fixing portion 130 is shown, respectively.

3A is a view showing a fixed form of a truss using a bracket according to a first embodiment of the present invention. Referring to FIG. 3A, when the vertical members 20 and 22 are fixed to the wall, the horizontal members 30, 31, 32, 33, 34, 35 are the brackets 100 and screws 50 of the present invention. It can be assembled and fastened by

First, the vertical members 20 and 22 are fixed to the wall by the metal brackets 40, 42, 44 and 46. The vertical members 20 and 22 may be, for example, rectangular metal pipes. The vertical member 20 is fixed to the wall surface by metal brackets 40 and 42. The metal brackets 40 and 42 may provide sufficient space between the vertical members 20 and 22 and the wall surface for filling the insulation. That is, the metal brackets 40, 42, 44, 46 will be installed so that the vertical members 20 and 22 are fixed with a predetermined distance from the wall surface.

When the installation of the vertical members 20 and 22 is completed, the bracket 100 according to the first embodiment of the present invention is used as a means for fastening the vertical member and the horizontal member. For example, brackets 100a and 100b will be used as a means for connecting and fixing the vertical members 20 and 22 and the horizontal member 32. It is assumed that the horizontal member 32 is also a square pipe, for example. When the vertical members 20 and 22 and the horizontal member 32 are fixed by the brackets 100a and 100b and the screw 50 of the present invention, the remaining horizontal members 31, 32, 33, 34, 35 ) May be fixed by the bracket 100 and the screw 50. The installation order is not limited to the disclosure herein, and may be determined in various ways according to the operator's convenience.

In the above, an example in which the bracket 100 according to the first embodiment of the present invention is used as a means for connecting a vertical member and a horizontal member has been described. However, the bracket 100 according to the first embodiment of the present invention may be more usefully used in the case of fastening horizontal members that bend 90° at a corner of a wall surface with a vertical member. This use will be referred to as a corner bracket. An example of using the bracket 100 as a corner bracket will be described in detail with reference to FIGS. 3B and 3C to be described later.

3B is a cross-sectional view showing a form in which a vertical member and two horizontal members are installed at a corner using brackets according to the first embodiment of the present invention. Referring to FIG. 3B, horizontal members 11 and 12 at 90° to the vertical member 10 positioned at the corner may be installed by brackets 100a and 100b.

The base 111a of the first bracket 100a accommodating the horizontal member 11 and the base 111b of the second bracket 100b accommodating the horizontal member 12 are installed in a form that engages with each other at 90°. .

3C is a cross-sectional view showing another form in which a vertical member and two horizontal members are installed at a corner using brackets according to the first embodiment of the present invention. Referring to FIG. 3C, horizontal members 14 and 15 at 90° to the vertical member 13 positioned at the corner may be installed by brackets 100a and 100b.

The support 111a of the first bracket 100a accommodating the horizontal member 15 is positioned outside the vertical member 13. That is, the support 111a of the first bracket 100a is located outside the wall surface. In addition, the support 111b of the second bracket 100b accommodating the horizontal member 14 may also be located outside the vertical member 13. In this case, the support 111a of the first bracket 100a and the support 111b of the second bracket 100b will be disposed in a form that does not engage with each other at all.

In the above, the structure and uses of the bracket 100 according to the first embodiment of the present invention have been exemplarily described. It has been described that the bracket 100 can be usefully used as a corner bracket for fastening vertical members and horizontal members positioned at a corner.

4 is a plan view showing one surface of a bracket according to a second embodiment of the present invention. Referring to FIG. 4, a bracket 200 according to a second embodiment of the present invention after a cutting operation is shown. The bracket 200 includes a body part 210, a first horizontal member fixing part 220, a second horizontal member fixing part 230, a first vertical member fixing part 240, and a second vertical member fixing part 250.

The body part 210 is folded at an angle of 90° in the direction of the inside of the paper along the first horizontal member fixing part 220 and the bending line L1. In addition, the main body 110 is folded at an angle of 90° in the direction of the inside of the ground along the second horizontal member fixing part 130 and the bending line L2. The bending lines L1 and L2 will be processed through a bending process in which the bending lines L1 and L2 are folded in an'L' shape in the direction of the inside of the paper. When the bending process is completed, the body portion 110, the first horizontal member fixing portion 120, and the second horizontal member fixing portion 130 may form a'U' shape and accommodate the horizontal member. The main body 110 may include screw grooves 211 and 213 and center grooves 212 and 214. If necessary, a screw for coupling with a vertical member or a horizontal member may be inserted into the screw grooves 211 and 213. The center grooves 212 and 214 are provided for alignment with the center line drawn on the vertical member accommodated by the main body 210 when necessary. Unlike the bracket 100 according to the first embodiment, the bracket 200 according to the second embodiment does not have a separate support 111. Accordingly, the bracket 200 according to the second embodiment can be used as a corner bracket, but cannot be used as a corner bracket positioned on a wall. Therefore, it is preferable that the bracket 200 according to the second embodiment be used for fastening vertical members and horizontal members on a general wall surface rather than a corner.

The first horizontal member fixing part 220 includes screw grooves 222 and 224. The first horizontal member fixing part 220 and the horizontal member are coupled through screws inserted into the screw grooves 222 and 224. The first horizontal member fixing part 220 is folded with the first vertical member fixing part 240 at an angle of 90° to the outside of the ground along the bending line L3. The bending lines L3 and L4 will be processed through a bending process in which the bending lines L3 and L4 are folded in an'L' shape in the outward direction of the paper.

The second horizontal member fixing part 230 includes screw grooves 232 and 234. The second horizontal member fixing part 230 and the horizontal member are fastened through screws inserted into the screw grooves 232 and 234. The second horizontal member fixing part 230 is folded with the second vertical member fixing part 250 at an angle of 90° to the outside of the paper along the bending line L4.

The first vertical member fixing part 240 is adjacent to the first horizontal member fixing part 220 based on the bending line L3. The first vertical member fixing part 240 includes screw grooves 242 and 244, and may be fastened to the vertical member by screws passing through the screw grooves 242 and 244. Here, the interval S between the bending line L3 and the cutting line depends on the thickness of the metal plate constituting the bracket 200. In addition, the distance S between the bending line L1 and the edge surface of the first vertical member fixing part 240 also depends on the thickness of the metal plate constituting the bracket 200. For example, the interval S may have a value greater than the thickness of the metal plate constituting the bracket 200.

The second vertical member fixing part 250 is adjacent to the second horizontal member fixing part 230 with the bending line L4 as a boundary. The second vertical member fixing part 250 includes screw grooves 252 and 254, and may be fastened to the vertical member by screws passing through the screw grooves 252 and 254. Here, the distance (S) between the edge of the second vertical member fixing portion 250 and the body portion 210 also depends on the thickness of the metal plate constituting the bracket 100. For example, the interval S may have a value greater than the thickness of the metal plate constituting the bracket 200.

The bracket 200 according to the second embodiment of the present invention briefly described above may be formed through a cutting operation in the form of a layout shown on one metal plate. And after the cutting operation, the vertical member and the horizontal member are fastened through bending processing (for example, using a V-shaped punch and die) for the illustrated bending lines (L1, L2, L3, L4). Can be formed.

5A is a diagram illustrating a method of bending the bracket 200 of the second embodiment formed through a cutting operation. Referring to FIG. 5A, the first horizontal member fixing part 220 and the second horizontal member fixing part 230 through the bending lines L1 and L2 of the bracket 200 in the form of a metal plate are ground with respect to the body part 210. It is folded at an angle of 90° inward. When the bending process is completed, the main body 210, the first horizontal member fixing portion 220, and the second horizontal member fixing portion 230 may form a'C' shape and accommodate the horizontal member. In addition, the first horizontal member fixing portion 220 and the first vertical member fixing portion 240 through the bending line L3 are bent so as to be folded by 90° in the outward direction of the paper. Through the bending line L4, the second horizontal member fixing part 230 and the second vertical member fixing part 250 are bent so as to be folded by 90° in the outward direction of the paper.

5B is a cross-sectional view of the shape of the bracket 200 of the second embodiment of the present invention viewed from the direction of the first horizontal member fixing portion after the bending treatment. Referring to FIG. 5B, in the bracket 200, the body part 210 and the first vertical member fixing part 240 are shown only in the cross-sectional shape of a metal plate, respectively, in front of the first horizontal member fixing part 220.

5C is a cross-sectional view of the shape of the bracket 200 of the second embodiment of the present invention viewed from the direction of the first and second vertical member fixing portions after bending treatment. Referring to FIG. 5C, the bracket 200 is shown in front of the first vertical member fixing part 240 and the second vertical member fixing part 250. The body part 210, the first horizontal member fixing part 220, and the second horizontal member fixing part 230 of the bracket 200 are shown in a cross-sectional shape of a metal plate, respectively.

5D is a cross-sectional view of the shape of the bracket 200 of the second embodiment of the present invention viewed from the direction of the main body after the bending treatment. Referring to FIG. 5D, the bracket 200 has a first horizontal member fixing part 220, a second horizontal member fixing part 230, and a first vertical member fixing part 240 in a cross-sectional shape of a metal plate around the body part 210. And a second vertical member fixing part 250 is shown.

Looking at the main body 210, on the left side of the main body 210, a first horizontal member fixing portion 220 and a first vertical member fixing portion 240 are shown only in cross section by bending treatment. The first horizontal member fixing part 220 and the first vertical member fixing part 240 are represented by a metal cross section having a thickness T. In addition, a second horizontal member fixing portion 230 and a second vertical member fixing portion 250 are shown on the right side of the main body 210 to show only a cross section by bending treatment. Likewise, the second horizontal member fixing portion 230 and the second vertical member fixing portion 250 are also shown only in cross section of the thickness T.

6A to 6C are views showing a fixing form of a truss using a bracket according to a second embodiment of the present invention.

6A, when the vertical member 20 is fixed to the wall, the horizontal members 31 and 33 are attached to the vertical member 20 by the brackets 200a and 200b according to the second embodiment of the present invention. Can be assembled and fastened. The bracket 200a on the left side is mounted along the center line of the vertical member 20 and is fixed by screws 61 and 62. Then, the bracket (200a) is firmly fastened to the vertical member (20). Subsequently, the horizontal member 31 may be inserted into the bracket 200a fixed to the vertical member 20. The horizontal member 31 inserted into the bracket 200a can be firmly fastened to the vertical member 20 by inserting and fixing the screws 63a, 63b, 64a, 64b into the screw grooves.

And the right side bracket (200b) is mounted along the center line of the vertical member (20), it will be fixed by the screws (65, 66). Then, the bracket 200b is fastened to the right side of the vertical member 20. Subsequently, the horizontal member 33 may be inserted into the bracket 200b fixed to the right side of the vertical member 20. The horizontal member 33 inserted into the bracket 200b can be firmly fastened to the vertical member 20 by inserting and fixing the screws 67a, 67b, 68a, 68b into the screw grooves.

Here, the direction in which the main body of each of the brackets 200a and 200b is located may be a wall surface. However, it will be well understood that the installation directions of the brackets 200a and 200b can be changed according to a work environment or various requirements. In the above, an example in which the bracket 200 according to the second embodiment of the present invention is used as a means for connecting a vertical member and a horizontal member has been described.

Referring to FIG. 6B, a plan view showing a vertical member 20 and two horizontal members 31 and 33 viewed from the top in which the brackets 200a and 200b according to the second embodiment of the present invention are installed. to be.

The vertical member 20 is shown only in a hatched cross section. After the left bracket 200a is fixed to the vertical member 20, it will be fixed by screws. Thereafter, the horizontal member 31 is inserted into the left bracket 200a and fixed with a screw. After the right bracket 200b is fixed to the vertical member 20, it will be fixed by screws. Thereafter, the horizontal member 33 may be inserted into the right bracket 200b and fixed with a screw. Here, the upper portion of the drawing where the main body of the brackets 200a and 200b is located may be in the wall direction. However, it will be well understood by those skilled in the art that the upper portion of the drawing in which the main body portions of the brackets 200a and 200b are located may be in the opposite direction to the wall surface.

6C, a plan view showing a form viewed from the side in which a vertical member 20 and two horizontal members 31 and 33 are installed using brackets 200a and 200b according to a second embodiment of the present invention. to be.

The horizontal members 31 and 33 are only shown in hatched cross sections. After the left bracket 200a or the right bracket 200b is fixed to the vertical member 20, screws will be inserted using screw grooves. Thereafter, the horizontal members 31 and 33 may be inserted into the left bracket 200a and the right bracket 200b and fixed with screws.

In the above, the structure and uses of the bracket 200 according to the second embodiment of the present invention have been exemplarily described. The bracket 200 provides a means for simply fixing the horizontal member and the vertical member with only screws.

7 is a plan view showing one surface of a bracket according to a third embodiment of the present invention. Referring to FIG. 7, a cross-sectional view of a bracket 300 according to a third embodiment of the present invention after a cutting operation is shown. The bracket 300 is a body part 310, a first horizontal member fixing part 320, a second horizontal member fixing part 330, a third horizontal member fixing part 360, a fourth horizontal member fixing part 370, a first vertical member A fixing part 340, a second vertical member fixing part 350, a third vertical member fixing part 380, and a fourth vertical member fixing part 390 are included. The bracket 300 according to the third embodiment is a form in which two brackets 200 according to the second embodiment are connected. Accordingly, the brackets 200 according to the two second embodiments may be formed through the process of bending the bracket 300 according to the third embodiment in half.

The main body 310 is folded at an angle of 90° in the direction of the inside of the paper along the first horizontal member fixing part 320 and the bending line L1. In addition, the main body 310 is folded at an angle of 90° to the inside of the ground along the second horizontal member fixing part 330 and the bending line L2. The bending lines L1 and L2 will be processed through a bending process in which the bending lines L1 and L2 are folded in an'L' shape in the direction of the inside of the paper. In addition, the body portion 310 is folded at an angle of 90° in the direction of the inside of the ground along the third horizontal member fixing portion 360 and the bending line L3. In addition, the main body 310 is folded at an angle of 90° to the inside of the ground along the fourth horizontal member fixing part 370 and the bending line L4. The bending lines L3 and L4 will be processed through a bending process in which the bending lines L3 and L4 are folded in an'L' shape in the direction of the inside of the paper. When the bending process is completed, the main body 310, the first horizontal member fixing part 320, and the second horizontal member fixing part 330 may form a'C' shape and accommodate the horizontal member. When the bending process is completed, the main body 310, the third horizontal member fixing part 360, and the fourth horizontal member fixing part 370 may form a'C' shape and accommodate another horizontal member.

The main body 310 may include screw grooves 311, 313, 315, 317 and center grooves 312, 314, 316. The screw grooves 311, 313, 315, 317 may be inserted with a screw for coupling with a vertical member or a horizontal member, if necessary. The center grooves 312, 314, 316 are provided for alignment with the center line drawn on the vertical member accommodated by the main body 310 if necessary. The characteristic of the bracket 200 according to the second embodiment is that, unlike the bracket 200 according to the second embodiment, one bracket 300 can fix two horizontal members. Therefore, the bracket 300 according to the third embodiment enables the simplification of work when fastening a plurality of vertical members and horizontal members.

The first horizontal member fixing part 320 includes screw grooves 321 and 323. The first horizontal member fixing part 320 and the horizontal member are coupled through screws inserted into the screw grooves 321 and 323. The first horizontal member fixing part 320 is folded with the first vertical member fixing part 340 at an angle of 90° to the outside of the paper along the bending line L5. The bending lines L5 and L6 will be processed through a bending process that is folded in an'L' shape in an outward direction of the paper.

The second horizontal member fixing part 330 includes screw grooves 331 and 333. The second horizontal member fixing portion 330 and the horizontal member are fastened through screws inserted into the screw grooves 331 and 333. The second horizontal member fixing part 330 is folded with the second vertical member fixing part 350 at an angle of 90° outwardly of the paper along the bending line L6.

The third horizontal member fixing part 360 includes screw grooves 361 and 363. The third horizontal member fixing part 360 and the horizontal member are coupled through screws inserted into the screw grooves 361 and 363. The third horizontal member fixing part 360 is folded with the third vertical member fixing part 380 at an angle of 90° to the outside of the ground along the bending line L7. The bending lines L7 and L8 will be processed through a bending process in which the bending lines L7 and L8 are folded in an'L' shape outward.

The fourth horizontal member fixing part 370 includes screw grooves 371 and 373. The fourth horizontal member fixing part 370 and the horizontal member are fastened through screws inserted into the screw grooves 371 and 373. The fourth horizontal member fixing part 370 is folded with the fourth vertical member fixing part 390 at an angle of 90° to the outside of the paper along the bending line L8.

Here, one horizontal member may be fastened to the vertical member by the main body 310, the first horizontal member fixing part 320, and the second horizontal member fixing part 330. In addition, another horizontal member may be fastened to the vertical member by the main body 310, the third horizontal member fixing part 360, and the fourth horizontal member fixing part 370.

The first vertical member fixing part 340 is adjacent to the first horizontal member fixing part 320 based on the bending line L5. The first vertical member fixing part 340 includes screw grooves 341 and 343, and may be fastened to the vertical member by screws penetrating the screw grooves 341 and 343. Here, the spacing S between the bending line L1 and the edge surface of the first vertical member fixing part 340 depends on the thickness of the metal plate constituting the bracket 300. For example, the spacing S may have a value greater than the thickness of the metal plate constituting the bracket 300.

The second vertical member fixing part 350 is adjacent to the second horizontal member fixing part 330 based on the bending line L6. The second vertical member fixing part 350 includes screw grooves 351 and 353, and may be fastened to the vertical member by screws passing through the screw grooves 351 and 353. Here, the distance (S) between the edge of the second vertical member fixing portion 350 and the body portion 310 also depends on the thickness of the metal plate constituting the bracket 300.

The third vertical member fixing part 380 is adjacent to the third horizontal member fixing part 360 based on the bending line L7. The third vertical member fixing part 380 includes screw grooves 381 and 383, and may be fastened to the vertical member by screws passing through the screw grooves 381 and 383. Here, the spacing S between the bending line L1 and the edge surface of the third vertical member fixing part 380 depends on the thickness of the metal plate constituting the bracket 300.

The fourth vertical member fixing part 390 is adjacent to the fourth horizontal member fixing part 730 based on the bending line L8. The fourth vertical member fixing part 390 includes screw grooves 391 and 393, and may be fastened to the vertical member by screws penetrating the screw grooves 391 and 393. Here, the distance S between the edge of the fourth vertical member fixing portion 390 and the body portion 310 also depends on the thickness of the metal plate constituting the bracket 300.

Here, the first vertical member fixing portion 340 and the third vertical member fixing portion 380 may be formed to be spaced apart by an interval M. The spacing (M) is adjustable as needed. In addition, the second vertical member fixing portion 350 and the fourth vertical member fixing portion 390 may also be formed to be spaced apart by an interval M.

The bracket 300 according to the third embodiment of the present invention briefly described above may be formed through a cutting operation in the form of a layout shown on one metal plate. And after the cutting operation, the vertical member through bending processing (e.g., using a V-shaped punch and die) for the illustrated bending lines (L1, L2, L3, L4, L5, L6, L7, L8). It may be formed in a structure that fastens the horizontal member.

8A to 8C are cross-sectional views showing the shape of the bracket 300 according to the third embodiment. 8A is a plan view of the shape of the bracket 300 according to the third embodiment of the present invention viewed from the direction of the first horizontal member fixing part 320 and the third horizontal member fixing part 360 after bending treatment. Referring to FIG. 8A, the first and third horizontal member fixing portions 320 and 360 are shown in the front, and the body portion 310 and the first and third vertical member fixing portions 340 and 380 are shown only in the cross-sectional shape of a metal plate, respectively. Has been.

8B is a cross-sectional view of the shape of the bracket 300 according to the third embodiment of the present invention viewed from the directions of the first and third vertical member fixing portions 340 and 380 after the bending treatment. Referring to FIG. 8B, the first vertical member fixing part 340 and the third vertical member fixing part 380 are shown in front, and the body part 310 is shown in a cross-sectional shape of a metal plate.

8C is a plan view of the shape of the bracket 300 according to the third embodiment of the present invention viewed from the direction of the main body after the bending treatment. Referring to FIG. 8C, a first horizontal member fixing part 320, a second horizontal member fixing part 330, a first vertical member fixing part 340, and a second horizontal member fixing part 320, a second horizontal member fixing part 330, and a second horizontal member fixing part 320 in the form of a metal plate on the upper side around the main body 310. The vertical member fixing part 350 is shown. The third horizontal member fixing part 360, the fourth horizontal member fixing part 370, the third vertical member fixing part 380, and the fourth vertical member fixing part 390 in the form of a cross-sectional shape of a metal plate on the lower side of the main body 310 Is shown.

9A to 9C are views exemplarily showing a fastening form of a vertical member and a horizontal member using a bracket according to a third embodiment of the present invention.

Referring to FIG. 9A, when the vertical member 20 is fixed to the wall surface by metal brackets, the horizontal members 31 and 33 are vertical members 20 by the bracket 300 according to the third embodiment of the present invention. ) Can be assembled and fastened. The bracket 300 is mounted on the vertical member 20 along the center line through the center groove 316, and will be fixed by screws 61, 62, 65, 66. Then, the vertical members 31 and 33 may be fixed to the vertical member 20 by one bracket 300. The horizontal members 31 and 33 are inserted into the bracket 300 fixed to the vertical member 20, and the screws 63a, 63b, 64a, 64b, 67a, 67b, 68a, 68b are inserted and fixed It can be firmly fastened to the member 20.

Referring to FIG. 9B, a plan view as viewed from above in which the vertical member 20 and the two horizontal members 31 and 33 are installed using the bracket 300 according to the third embodiment of the present invention is shown.

The vertical member 20 is shown only in a hatched cross section. After the bracket 300 is fixed to the vertical member 20, it will be fixed by screws. Thereafter, the horizontal member 31 is inserted into the left side of the bracket 300 and fixed with a screw. In addition, the horizontal member 33 is inserted into the right side of the bracket 300 and fixed with screws.

Referring to FIG. 9C, a plan view showing a side view in which a vertical member 20 and two horizontal members 31 and 33 are installed using the bracket 300 according to the third embodiment of the present invention.

The horizontal members 31 and 33 are only shown in hatched cross sections. After the bracket 300 is fixed to the vertical member 20, the screws will be inserted using screw grooves. Thereafter, the horizontal members 31 and 33 may be inserted into the left and right sides of the bracket 300 and fixed with screws.

In the above, the structure and uses of the bracket 300 according to the third embodiment of the present invention have been exemplarily described. If the bracket 300 is used, two horizontal members can be fastened to the vertical member with one bracket.

10A to 10C are photographs showing an example in which a vertical member and a horizontal member are fastened using a bracket according to the first to third embodiments of the present invention.

Referring to FIG. 10A, there is shown an example in which a vertical member and a horizontal member positioned at a corner of a wall are fastened using two brackets 100a and 100b according to the first embodiment of the present invention. Horizontal members at 90° to the vertical member (vertical truss) positioned at the corner may be installed by brackets. Supports of each of the brackets to which the horizontal members are fastened may be installed in a form engaged with each other at 90°.

Referring to FIG. 10B, there is shown an example in which a vertical member (a vertical truss) and a horizontal member (a horizontal truss) are fastened using the brackets 200a and 200b according to the second embodiment of the present invention. When the vertical member is fixed to the wall, the horizontal member may be assembled and fastened to the vertical member by brackets according to the second embodiment. The horizontal member is fastened to the vertical member by the bracket on the left, and it will be fixed by screws. And the bracket on the right side is also mounted at any position of the vertical member, and can be fixed by screws. Although the horizontal member inserted into the right bracket is omitted, the horizontal member can be inserted and fastened like the left bracket.

FIG. 10C shows an example of joining vertical members (vertical truss) and horizontal members (horizontal trusses) using the bracket 300 according to the third embodiment of the present invention. 10C shows the results of the implementation of FIG. 9A described above. The horizontal members may be fastened to the vertical member by one bracket 300 according to the third embodiment of the present invention. Horizontal members are inserted into the bracket 300 fixed to the vertical member, and may be fixed using screws.

As described above, embodiments have been disclosed in the drawings and specifications. Although specific terms have been used herein, these are only used for the purpose of describing the present invention, and are not used to limit the meaning or the scope of the present invention described in the claims. Therefore, those of ordinary skill in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

Claims (4)

In the bracket for fastening the vertical member and the horizontal member:
A body portion corresponding to the first surface of the horizontal member;
A first horizontal member fixing portion in contact with one side of the body portion and bent in a direction perpendicular to the body portion to correspond to a second surface of the horizontal member;
A second horizontal member fixing portion in contact with the other side of the body portion and bent in a direction perpendicular to the body portion to correspond to a third surface of the horizontal member;
A first vertical member fixing portion in contact with the first horizontal member fixing portion and bending at a right angle to the first horizontal member fixing portion to contact a first point of the vertical member; And
And a second vertical member fixing portion in contact with the second horizontal member fixing portion and bent at a right angle to the second horizontal member fixing portion to be in contact with a second point of the vertical member,
Bracket including a protruding support extending in the surface direction of the vertical member. The method of claim 1,
Each of the first horizontal member fixing part, the second horizontal member fixing part, the first vertical member fixing part, and the second vertical member fixing part includes at least one screw groove to be connected to the horizontal member or the vertical member through a screw. Bracket. The method of claim 1,
Bracket including at least one center groove formed for alignment with the center line of the vertical member. The method of claim 1,
The main body part, the first horizontal member fixing part, the second horizontal member fixing part, the first vertical member fixing part, and the second vertical member fixing part are formed through a cutting process of one metal plate.

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