KR20210153511A - Bracket for fixing stone - Google Patents

Abstract

The present invention relates to a bracket for fixing a stone. A bracket for fixing a stone, according to an embodiment of the present invention, comprises: a stone fastening plate fastened to a stone; a connecting plate extending from one end of the stone fastening plate in a direction in which one side of the stone fastening plate is facing, and having both surfaces facing a direction parallel to the direction in which the one end faces; and a truss fastening plate which extends in a direction opposite to the direction in which the stone fastening plate is provided from an area other than an area to which the stone fastening plate is connected among the edges of the connecting plate, and is fastened to a truss. The stone fastening plate, the connecting plate and the truss fastening plate are provided integrally with each other. Therefore, the present invention can increase construction efficiency.

Description

Bracket for fixing stone {BRACKET FOR FIXING STONE}

The present invention relates to a bracket for fixing a stone for installing a stone on a wall, and more particularly, to a bracket for fixing a stone for fixing a stone to a truss installed on a wall.

Plate-shaped stones may be combined/arranged on the exterior or interior wall of a building to make the exterior beautiful.

In general, the stone is fastened to the wall of the building by a bracket, in this case, the bracket may be provided in a structure that is directly connected to the wall of the building itself or connected to a truss installed on the wall of the building.

In recent years, brackets for fastening stones are being provided in a structure connected to a truss installed on a wall of a building to secure a space for earthquake resistance and insulation construction.

In general, such a bracket is provided in a structure in which a member connected to the truss and a member connected to the stone are separately provided and are combined by bolts during construction. In addition, there is a problem in that the coupling operation between each member must be performed separately.

Also, these brackets are usually connected to the truss by welding, which can cause a fire.

Registered Patent 10-1486849 (2015.01.21.)

The present invention is to solve the above problems, and an object of the present invention is to provide a bracket for fixing a stone that can increase construction efficiency.

In addition, an object of the present invention is to provide a bracket for fixing a stone that can minimize the risk of fire due to welding operation.

A bracket for fixing a stone according to an embodiment of the present invention includes a stone fastening plate fastened to a stone; a connecting plate extending from one end of the stone fastening plate in a direction in which one side of the stone fastening plate is facing, and both sides facing a direction parallel to the direction in which the one end faces; A truss fastening plate that extends in a direction opposite to the direction in which the stone fastening plate is provided from an area other than the area to which the stone fastening plate is connected among the edges of the connecting plate and is fastened to a truss; including, the stone fastening plate , The connecting plate and the truss fastening plate are provided integrally with each other.

The truss fastening plate extends from the other end of the connecting plate facing the opposite direction of the one end to which the stone fastening plate is connected, and both sides of the connecting plate face a direction parallel to the direction in which the one side of the stone fastening plate faces. .

The stone fastening plate includes a first stone fastening plate and a second stone fastening plate provided such that the other end, which is the opposite end of the one end, is connected to each other, and the other surface, which is the opposite surface of the one side, is in contact with each other, and the connecting plate may include a first connection plate and a second connection plate extending in opposite directions.

The truss fastening plate extends from an area facing the direction perpendicular to the direction to which one end of the stone fastening plate is connected among the edges of the connecting plate, and both sides face the direction parallel to the direction in which the area faces. can

The truss fastening plate extends in the same direction as the direction in which the connecting plate extends from the other end, which is the opposite end of one end to which the connecting plate is connected, and both sides of the connecting plate face a direction parallel to the both sides of the connecting plate. may include more.

The bracket for fixing the stone according to the present invention can increase the construction efficiency.

In addition, the stone fixing bracket according to the present invention can minimize the risk of fire due to the welding operation.

1 is a perspective view showing a bracket 1000 for fixing a stone according to an embodiment of the present invention.
Figure 2 is a plan view showing the bracket 1000 for fixing the stone of Figure 1 before the bending operation.
3 is a perspective view showing the bracket 1000 for fixing the stone of FIG. 1 to which the extension member is coupled.
4 is a plan view illustrating an example in which the stone fixing bracket 1000 of FIG. 1 is fastened to the horizontal member 21 .
5 is a side view of the bracket 1000 for fixing the stone of FIG.
6 is a plan view showing another example fastened to the horizontal member (21a) of the stone fixing bracket 1000 of FIG.
7 is a side view of the bracket 1000 for fixing the stone of FIG. 6 .
8 is a plan cross-sectional view showing an example of the horizontal member 21a to which the head of the T bolt shown in FIG. 6 is fastened.
9 is a perspective view showing a stone fixing bracket 1000a according to another embodiment of the present invention.
10 and 11 are side views sequentially showing an example of a process in which the stone fixing bracket 1000a of FIG. 9 is fastened to the horizontal member 21 .
12 is a perspective view showing a stone fixing bracket 1000b according to another embodiment of the present invention.
Figure 13 is a plan view showing the stone fixing bracket (1000b) of Figure 12 before the bending operation.
14 is a side view showing an example in which the stone fixing bracket 1000b of FIG. 12 is fastened to the horizontal member 21 .
15 is a perspective view showing a stone fixing bracket 1000c according to another embodiment of the present invention.
16 is a side view showing an example in which the stone fixing bracket 1000c of FIG. 15 is fastened to the horizontal member 21 .
17 is a perspective view showing a stone fixing bracket 1000d according to another embodiment of the present invention.
18 is a side view showing an example in which the stone fixing bracket 1000d of FIG. 17 is fastened to the horizontal member 21 .
19 is a perspective view showing a stone fixing bracket 1000e according to another embodiment of the present invention.
20 is a side view showing an example in which the stone fixing bracket 1000e of FIG. 19 is fastened to the horizontal member 21 .
21 is a perspective view showing a stone fixing bracket 1000f according to another embodiment of the present invention.
22 is a side view showing an example in which the stone fixing bracket 1000f of FIG. 21 is fastened to the vertical member 21 .

Hereinafter, embodiments of the present invention will be described clearly and in detail to the extent that those skilled in the art can easily practice the present invention.

The stone fixing brackets 1000, 1000a, 1000b, 1000c, 1000d, 1000e, and 1000f according to embodiments of the present invention are used to fix the stone to the trusses 21, 21a, 22 installed on the wall of the building. The wall to which the stone is fixed by the stone fixing brackets (1000, 1000a, 1000b, 1000c, 1000d, 1000e, 1000f) may be the outer wall or the inner wall of the building, and not only the side wall, but also the inside and outside of the building, such as the ceiling or floor. It can mean any wall that forms a face. The trusses 21 , 21a , and 22 are usually manufactured such that the vertical member 22 and the horizontal member 21 , 21a form a grid-type unit module of a certain standard. The stone fixing brackets 1000 , 1000a , 1000b , 1000c , 1000d , 1000e , and 1000f may be fastened to the vertical member 22 or the horizontal members 21 and 21a according to embodiments.

1 is a perspective view showing a bracket 1000 for fixing a stone according to an embodiment of the present invention. Figure 2 is a plan view showing the bracket 1000 for fixing the stone of Figure 1 before the bending operation. FIG. 3 is a perspective view showing the bracket 1000 for fixing the stone of FIG. 1 to which the extension member 1500 is coupled. 4 is a plan view illustrating an example in which the stone fixing bracket 1000 of FIG. 1 is fastened to the horizontal member 21 . 5 is a side view of the bracket 1000 for fixing the stone of FIG. 1 to 5 , the stone fixing bracket 1000 includes a stone fastening plate 1100 , a connecting plate 1200 , and a truss fastening plate 1300 .

The stone fastening plate 1100 is fastened to the stone. For example, at the other end, which is the opposite end of one end to which the connection plate 1200 of the stone fastening plate 1100 is connected, the stone inserting pin member 1400 is inserted so as to protrude upward and downward from both sides of the stone fastening plate 1100, respectively. A pinhole 1101 may be formed. A protrusion (not shown) protruding outwardly to prevent the pinhole 1101 from falling by being caught in the pinhole 1101 may be provided in a central region along the longitudinal direction of the pinhole 1101 . The upper portion of the stone insertion pin member 1400 inserted into the pinhole 1101 is inserted into a groove formed at the lower end of the stone coupled to the upper portion, and the lower portion is inserted into the groove formed at the upper end of the stone coupled to the lower portion. Although the stone insertion pin member 1400 is shown in the shape of a thin cylinder, it may be provided in various shapes, such as a rectangular pillar shape in which the longitudinal direction is provided in the vertical direction, if necessary. The pinhole 1101 may be provided as a long hole provided in a direction perpendicular to a direction in which the stone fastening plate 1100 extends from the connecting plate 1200 when the longitudinal direction is viewed from above. Accordingly, the stone insertion pin member 1400 may be moved along the longitudinal direction of the pinhole 1101 according to the position of the groove into which the stone insertion pin member 1400 of the stone is inserted to be inserted into the groove of the stone material.

A bolt long hole 1102 may be formed in the stone fastening plate 1100 . As shown in FIG. 3 , the bolt long hole 1102 is provided for fastening the extension member 1500 to the stone fastening plate 1100 . The extension member 1500 may be fastened to the stone fastening plate 1100 by a bolt passing through one end of the extension member 1500 and the bolt long hole 1102 , and a nut fastened thereto. A pinhole 1501 into which the stone insertion pin member 1400 is inserted so as to protrude from both sides may be formed at the other end of the extension member 1500 in the opposite direction to one end thereof. In this way, by providing the extension member 1500 , it is possible to increase the distance between the stone material and the truss 21 if necessary. The bolt long hole 1102 may be provided as a long hole having a longitudinal direction along a direction in which the stone fastening plate 1100 extends from the connecting plate 1200 . Accordingly, since the length of the extension member 1500 protruding from the connection plate 1200 can be adjusted, the distance between the stone material and the truss 21 can be adjusted.

A preliminary bolt hole 1103 may be formed in the stone fastening plate 1100 . The preliminary bolt hole 1103 may be provided to fasten the extension member 1500 or a component other than the stone to the stone fastening plate 1100 . For example, when it is necessary to install an additional horizontal member in the stone fastening plate 1100 in addition to the previously installed truss 21, the additionally installed horizontal member is the horizontal member and the bolt passing through the preliminary bolt hole 1103. It may be fastened to the stone fastening plate 1100 by the On the other hand, if necessary, such as when the bolt long hole 1102 is not provided, or the bolt long hole 1102 and the size of the bolt do not match, the extension member 1500 is made of stone by a bolt passing through the preliminary bolt hole 1103 . It may be fastened to the fastening plate 1100 .

According to this embodiment, the stone fastening plate 1100 may include a first stone fastening plate 1110 and a second stone fastening plate 1120 . The other end of the first stone fastening plate 1110 and the second stone fastening plate 1120, which is an end opposite to one end to which the connecting plate 1200 is connected, is connected to each other. The first stone fastening plate 1110 and the second stone fastening plate 1120 are provided so that the other surface, which is the opposite surface of one surface facing the extending direction of the connecting plate 1200 , is in contact with each other.

The connection plate 1200 extends from one end of the stone fastening plate 1100 in a direction in which one surface of the stone fastening plate 1100 is viewed. The connection plate 1200 is provided so that both sides face a direction parallel to the direction in which one end of the stone fastening plate 1100 is viewed. A bolt hole 1201 may be formed in the connection plate 1200 . The bolt hole 1201 is provided so that the bolt 30 provided for fastening the stone fixing bracket 1000 to the horizontal member 21 can pass therethrough. The bolt hole 1201 may be provided in single or plural number as needed for each of the connection plates 1210 and 1220 . In addition, a positioning hole 1202 may be formed in the connection plate 1200 . To fasten the stone fixing bracket 1000, check the mark on the horizontal member 21 through the positioning hole 1202 to fasten the stone fixing bracket 1000 to the correct position of the horizontal member 21. can According to this embodiment, the connection plate 1200 may include a first connection plate 1210 and a second connection plate 1220 . The first connection plate 1210 and the second connection plate 1220 extend in opposite directions to each other.

The truss fastening plate 1300 extends in a direction opposite to the direction in which the stone fastening plate 1100 is provided from an area other than the area to which the stone fastening plate 1100 is connected among the edges of the connecting plate 1200 . According to this embodiment, the truss fastening plate 1300 extends from the other end facing the opposite direction of one end to which the stone fastening plate of the connecting plate 1200 is connected, and both sides are facing one side of the stone fastening plate 1100 It may be provided so that a direction parallel to the direction is desired.

The truss fastening plate 1300 is fastened to the truss 21 . According to this embodiment, the truss fastening plate 1300 is fastened to the horizontal member 21 . A bolt hole 1301 is formed in the truss fastening plate 1300 . The bolt hole 1301 is provided so that the bolt 30 provided for fastening the stone fixing bracket 1000 to the horizontal member 21 can pass therethrough. A plurality of bolt holes 1301 may be provided in each of the truss fastening plates 1310 and 1320 . Among the bolt holes 1301 , the bolt hole 1301 adjacent to the connection plate 1200 avoids interference with the bolt 30 inserted into the bolt hole 1201 formed in the connection plate 1200 through which the bolt 30 is inserted. To this end, the bolt hole 1301 formed in the connection plate 1200 may be positioned at a crossed position. A positioning groove 1303 may be formed in the truss fastening plate 1300 . In order to fasten the stone fixing bracket 1000, check the mark marked on the upper surface or the bottom of the horizontal member 21 through the positioning groove 1303 to fix the stone fixing bracket 1000 accurately of the horizontal member 21. can be fastened in position. The positioning groove 1303 is formed at a position that does not interfere with the long hole 1302 and the bolt hole 1301 for the T-bolt. For example, the positioning groove 1303 may be provided in a shape that is indented inward from the other end, which is the opposite end of the one end to which the connecting plate 1200 of the truss fastening plate 1300 is connected.

4 and 5, in the stone fixing bracket 1000 according to this embodiment, the connection plate 1200 is in close contact with the side surface of the horizontal member 21, the first truss fastening plate 1310 and In a state in which the second truss fastening plate 1320 is in close contact with the upper and lower surfaces of the horizontal member 21, respectively, the bolt 30 is fastened to the first truss fastening plate 1310 and the second truss fastening plate 1320 through the bolt hole formed in it. It may be fixed to the horizontal member 21 by fastening it through 1301 and the horizontal member 21 . If necessary, the bolt 130 may be additionally fastened to pass through the bolt hole 1201 and the horizontal member 21 formed in the connection plate 1200 .

The stone fastening plate 1100 , the connecting plate 1200 and the truss fastening plate 1300 are provided integrally with each other. According to this embodiment, the stone fastening plate 1100, the connecting plate 1200, and the truss fastening plate 1300 are bent after performing a cutting process as shown in FIG. 2 by pressing a single metal plate. It can be manufactured by performing processing. For example, the first stone fastening plate 1110 and the second stone fastening plate 1120 are folded to face each other. The first stone fastening plate 1110 and the first connecting plate 1210 are folded in a direction opposite to the direction in which the first stone fastening plate 1110 and the second stone fastening plate 1120 are folded. The first connecting plate 1210 and the first truss fastening plate 1310 are folded in the same direction in which the first stone fastening plate 1110 and the second stone fastening plate 1120 are folded. The second stone fastening plate 1120 , the second connecting plate 1220 , and the second truss fastening plate 1320 are the first stone fastening plate 1110 , the first connecting plate 1210 and the first truss fastening described above with each other. The plate 1310 is folded in the same way as it is folded. When the above-described cutting processing and bending processing are performed on one metal plate, the stone fixing bracket 1000 may be manufactured in the shape shown in FIG. 1 .

The bracket 1000 for fixing the stone according to the present embodiment is provided with the above-described structure, so that it can be manufactured integrally by cutting and bending from one metal plate. In addition, the bracket 1000 for fixing the stone is provided in the above-described structure, so that the stone is directly supported at the other end and the stone fastening plate 1100 requiring greater strength is connected to the connecting plate 1200 and the truss fastening plate 1300. The connection plate 1200 and the truss fastening plate 1300, which have twice the thickness and require relatively little strength, are provided with a thinner thickness compared to the stone fastening plate 1100, so that they have sufficient strength with a small amount of material can be

6 is a plan view showing another example fastened to the horizontal member (21a) of the stone fixing bracket 1000 of FIG. 7 is a side view of the bracket 1000 for fixing the stone of FIG. 6 . FIG. 8 is a plan sectional view showing an example of the horizontal member 21a to which the head of the T-shaped bolt 40 (hereinafter referred to as the T-bolt) shown in FIG. 6 is fastened. 6 to 8 , the stone fixing bracket 1000 may be fastened to a horizontal member 21a having a rail capable of being caught by inserting T-bolts 40 into upper and lower surfaces thereof. According to this embodiment, the long hole 1302 for the T-bolt is formed in the truss fastening plate 1300 . The stone fixing bracket 1000 according to this embodiment is a horizontal member ( 21a) can be fixed. The long hole 1302 for the T-bolt has a longitudinal direction of the rail in a state in which the stone fixing bracket 1000 is fastened to the horizontal member 21a so that the head of the T-bolt 40 can penetrate and be inserted into the rail. may be provided to match. As shown in Figure 8, the head of the T-bolt 40 is provided with a length so that both ends can be in contact with both inner surfaces of the rail when the longitudinal direction is positioned to coincide with the width direction of the rail. In addition, the head of the T-bolt 40 is rotatable in one direction while both ends are in contact with the inner surfaces of both sides of the rail, and one corner is angled to prevent rotation in the other direction, and the other corner is rounded. can be provided as Therefore, it is possible to prevent the T-bolt 40 from rotating together with the nut when the nut is rotated for fastening with the T-bolt 40 in a state in which the head of the T-bolt 40 is inserted into the rail.

9 is a perspective view showing a stone fixing bracket 1000a according to another embodiment of the present invention. Referring to FIG. 9 , the stone fixing bracket 1000a may further include a locking plate 1600a in the configuration of the stone fixing bracket 1000 of FIG. 1 . The engaging plate 1600a extends in the same direction as the extending direction of the connecting plate 1200a from the other end of the truss fastening plate 1300a opposite to the one end to which the connecting plate 1200a is connected. The locking plate 1600a is provided so that both surfaces face a direction parallel to both surfaces of the connection plate 1200a. As in this embodiment, when the truss fastening plate 1300a includes the first truss fastening plate 1310a and the second truss fastening plate 1320a, the engaging plate 1600a is each first truss fastening plate 1310a. And it may be provided to extend from the second truss fastening plate (1320a). According to this embodiment, since the positioning groove 1303 is formed in the truss fastening plate 1300a, two locking plates 1600a may be provided to correspond to the positioning groove 1303 to be spaced apart from each other.

The engaging plate 1600a may be provided integrally with the stone fastening plate 1100a, the connecting plate 1200a, and the truss fastening plate 1300a. Also, the stone fixing bracket 1000a according to the present embodiment may be manufactured by cutting and bending one metal plate, similarly to the stone fixing bracket 1000 of FIG. 1 . Therefore, after cutting the metal plate and before bending, the engaging plate 1600a is a single plate with both sides facing the same direction together with the stone fastening plate 1100a, the connecting plate 1200a and the truss fastening plate 1300a. have.

10 and 11 are side views sequentially showing an example of a process in which the stone fixing bracket 1000a of FIG. 9 is fastened to the horizontal member 21 . Referring to FIG. 10 , in a state in which the first stone fastening plate 1110a and the second stone fastening plate 1120a are fully folded, the stone fixing bracket 1000a is connected to the horizontal member 21 by the interference of the locking plate 1600a. ) is difficult to position so as to be positioned between the first truss fastening plate 1310a and the second truss fastening plate 1320a. Accordingly, before being fastened to the horizontal member 21 , the stone fixing bracket 1000a may be provided in a state in which the first stone fastening plate 1110a and the second stone fastening plate 1120a are opened at a predetermined angle or more. Thereafter, the horizontal member 21 is positioned between the first truss fastening plate 1310a and the second truss fastening plate 1320a by placing the stone fixing bracket 1000a, the first truss fastening plate 1310a and The bolt 30 is fastened through the bolt hole 1301 formed in one of the second truss fastening plates 1320a. After that, by fastening the bolt 30 through the bolt hole 1301 formed in the other one of the first truss fastening plate 1310a and the second truss fastening plate 1320a, the bolt 30 is tightened by the force , the other one may be in close contact with the horizontal member 21 . After that, if necessary, the bolt 30 may be additionally fastened through the bolt hole 1201 formed in the connection plate 1200a.

On the other hand, in the stone fixing bracket 1000a, the horizontal member 21a is positioned between the first truss fastening plate 1310a and the second truss plate 1320a. After positioning the stone fixing bracket 1000a, FIG. 1 Like the bracket 1000 for fixing the stone of , by inserting the head of the T-bolt into the rail through the long hole 1302 for the T-bolt and then fastening the nut, it can be fixed to the horizontal member 21a on which the rail is formed.

As described above, the bracket 1000a for fixing the stone according to the present embodiment is provided with a locking plate 1600a, so that when fastened to the horizontal members 21 and 21a, the horizontal member more stably against the torque due to the weight of the stone. (21, 21a) can be fixed.

12 is a perspective view showing a stone fixing bracket 1000b according to another embodiment of the present invention. Figure 13 is a plan view showing the stone fixing bracket (1000b) of Figure 12 before the bending operation. 14 is a side view showing an example in which the stone fixing bracket 1000b of FIG. 12 is fastened to the horizontal member 21 . 12 to 14 , unlike the stone fixing bracket 1000 of FIG. 1 , the stone fixing bracket 1000b according to the present embodiment is the bottom surface of the horizontal member 21 when it is fastened to the horizontal member 21 . A second truss fastening plate ( 1320 in FIG. 1 ) surrounding the truss may not be provided. Therefore, the stone fixing bracket 1000b according to the present embodiment may be installed on the horizontal member 21 irrespective of the thickness along the vertical direction of the horizontal member 21 . According to this embodiment, since the second truss fastening plate ( 1320 in FIG. 1 ) is not provided in the stone fixing bracket ( 1000b ), when fastened to the horizontal member 21 for more stable fixation, the truss fastening plate ( 1300b ) It is preferable to fasten the bolt 30 through the bolt hole 1301 and the bolt hole formed in the second connection plate 1220 . Optionally, the bolt 30 may be additionally fastened through a bolt hole formed in the first connection plate 1210a. The stone fixing bracket 1000a according to the present embodiment may be fastened to the horizontal member 21a on which rails are formed, like the stone fixing bracket 1000 of FIG. 1 . In this case, the stone fixing bracket 1000a is a T bolt 40 penetrating through the T bolt long hole 1302 formed in the truss fastening plate 1300b and a bolt 30 penetrating the bolt hole formed in the second connecting plate 1220b. ) may be fixed to the horizontal member 21a. In this case, as described above, the bolt 30 may be additionally fastened through the bolt hole formed in the first connection plate 1210a. Other configurations, structures, functions, manufacturing methods and installation methods of the stone fixing bracket 1000b may be the same as or similar to those of the fixing bracket 1000 of FIG. 1 .

15 is a perspective view showing a stone fixing bracket 1000c according to another embodiment of the present invention. 16 is a side view showing an example in which the stone fixing bracket 1000c of FIG. 15 is fastened to the horizontal member 21 . 15 and 16 , the stone fixing bracket 1000c may be provided to further include a locking plate 1600c in the configuration of the stone fixing bracket 1000b of FIG. 12 . The configuration, structure, and function of the locking plate 1600c may be the same as or similar to the locking plate 1600a of the first truss fastening plate 1310a of FIG. 9 . Configurations, structures, functions, and installation methods other than the locking plate 1600c of the stone fixing bracket 1000c may be the same as or similar to the stone fixing bracket 1000b of FIG. 12 . In addition, the stone fastening plate 1100c, the connecting plate 1200c, the truss fastening plate 1300c and the locking plate 1600c of the stone fixing bracket 1000c are formed by cutting one metal plate as in the above-described embodiments, and , the stone fixing bracket (1000c) may be manufactured by bending the cut metal plate in this way.

17 is a perspective view showing a stone fixing bracket 1000d according to another embodiment of the present invention. 18 is a side view showing an example in which the stone fixing bracket 1000d of FIG. 17 is fastened to the horizontal member 21 . 17 and 18, the stone fixing bracket 1000d is different from the stone fixing bracket 1000 of FIG. 1 in which the stone fastening plate 1100d, the connecting plate 1200d and the truss fastening plate 1300d are each It may be provided in the singular. Therefore, since the bracket 1000d for fixing the stone according to the present embodiment is not provided with a configuration to be fastened to the bottom surface of the horizontal member 21, regardless of the thickness of the horizontal member 21 in the vertical direction, the horizontal member 21 can be contracted to However, the stone fastening plate 1100d, the connecting plate 1200d, and the truss fastening plate 1300d of the stone fixing bracket 1000d according to this embodiment are shown in FIG. 1 so that the stone fastening plate 1100d has sufficient strength. The thickness of the first stone fastening plate 1110 , the first connecting plate 1210 and the first truss fastening plate 1310 may be provided. For example, the stone fastening plate 1100d, the connecting plate 1200d and the truss fastening plate 1300d of the stone fixing bracket 1000d according to this embodiment are the first stone fastening plate 1110, the first It may be provided with twice the thickness of the first connection plate 1210 and the first truss fastening plate 1310 . Other configurations, structures, functions, installation methods and manufacturing methods of the stone fixing bracket 1000d may be provided in the same or similar manner to the stone fixing bracket 1000 of FIG. 1 .

19 is a perspective view showing a stone fixing bracket 1000e according to another embodiment of the present invention. 20 is a side view showing an example in which the stone fixing bracket 1000e of FIG. 19 is fastened to the horizontal member 21 . 19 and 20 , the stone fixing bracket 1000e may be provided to further include a locking plate 1600e in the configuration of the stone fixing bracket 1000d of FIG. 17 . The configuration, structure, and function of the locking plate 1600d may be the same as or similar to the locking plate 1600a of the first truss fastening plate 1310a of FIG. 9 . However, as described below, since the stone fixing bracket 1000e can be manufactured by cutting and bending one metal plate, the thickness of the locking plate 1600e is the stone fastening plate 1100e, the connecting plate 1200e) And it may be provided in the same way as the truss fastening plate (1300e). Other than the locking plate 1600c of the stone fixing bracket 1000e, the configuration, structure, function, and installation method may be the same as or similar to the stone fixing bracket 1000d of FIG. 17 . In addition, the stone fastening plate 1100e, the connecting plate 1200e, the truss fastening plate 1300e and the locking plate 1600e of the stone fixing bracket 1000e are formed by cutting one metal plate as in the above-described embodiments, and , the stone fixing bracket (1000e) may be manufactured by bending the cut metal plate in this way.

21 is a perspective view showing a stone fixing bracket 1000f according to another embodiment of the present invention. 22 is a side view showing an example in which the stone fixing bracket 1000f of FIG. 21 is fastened to the vertical member 21 . 21 and 22 , unlike the stone fixing bracket 1000 of FIG. 1 , the stone fixing bracket 1000f is fastened to the vertical member 22 of the truss. According to this embodiment, in the stone fixing bracket 1000f, the stone fastening plate 1100f and the connecting plate 1200f are provided in a single number, and the truss fastening plate 1300f of the stone fixing bracket 1000f is the connecting plate ( 1200f) extends from an area facing the direction perpendicular to the direction toward which one end to which the stone fastening plate 1100f is connected among the edges. The truss fastening plate 1300f is provided so that both sides face a direction parallel to the direction in which the truss fastening plate 1300f of the edge of the connecting plate 1200f is connected to. According to this embodiment, the truss fastening plate 1300f includes a first truss fastening plate 1310f and a second truss fastening plate 1320f. Each of the first truss fastening plate 1310f and the second truss fastening plate 1320f is one of the regions facing the direction perpendicular to the direction in which one end to which the stone fastening plate 1100f is connected among the edges of the connecting plate 1200f, respectively and from the other. The first truss fastening plate 1310f and the second truss fastening plate 1320f are provided to face each other. Similar to the above-described embodiments, the truss fastening plate 1300f has a bolt hole 1301 and a long hole 1302 for a T-bolt, depending on whether the rail is formed on the vertical member 22, a general bolt 30 or, It may be fastened to the vertical member 22 using the T-bolt 40 and the nut. Unlike the above-described embodiments, a long hole 1203 for a T-bolt may be formed in the connection plate 1200f together with the bolt hole 1201 . Therefore, when the stone fixing bracket 1000f is fastened to the vertical member 22, the side on which the rail of the vertical member 22 is formed is provided to face the connecting plate 1200f, optionally a T-bolt 40 is inserted into the rail through the long hole 1302 for the T-bolt and may be fastened with a nut. Other configurations, structures and functions of the stone fixing bracket 1000f may be the same as or similar to the stone fixing bracket 1000 of FIG. 1 . In addition, similarly to the above-described embodiments, the stone fastening member 1100f, the connecting plate 1200f and the truss fastening plate 1300f are formed by cutting one metal plate, and the stone fixing bracket 1000f is the cut metal plate. It can be manufactured by bending.

The stone fixing brackets (1000, 1000a, 1000b, 1000c, 1000d, 1000e, 1000f) according to embodiments of the present invention are provided in one piece with a configuration fastened to a stone and a configuration fastened to a truss. Since a separate process for fastening the components to be fastened to the truss is not required, construction efficiency can be increased. In addition, the stone fixing brackets 1000, 1000a, 1000b, 1000c, 1000d, 1000e, and 1000f according to embodiments of the present invention are fastened to the truss by bolts, thereby minimizing the risk of fire due to welding operation.

The above are specific embodiments for carrying out the present invention. In addition to the above-described embodiments, the present invention may include simple design changes or easily changeable embodiments. In addition, the present invention will include techniques that can be easily modified and implemented using the embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, and should be defined by the claims and equivalents of the claims of the present invention as well as the claims to be described later.

1000: stone fixing bracket 1100: stone fastening plate
1110: first stone fastening plate 1120: second stone fastening plate
1200: connecting plate 1210: first connecting plate
1220: second connection plate 1300: truss fastening plate
1310: first truss fastening plate 1320: second truss fastening plate
1400: stone insertion pin member 1500: extension member
1600: jam plate

Claims (1)

a stone fastening plate fastened to the stone;
a connecting plate extending from one end of the stone fastening plate in a direction in which one side of the stone fastening plate is facing, and both surfaces facing a direction parallel to the direction in which the one end faces; and
A stone fixing bracket including a truss fastening plate that extends in a direction opposite to a direction in which the stone fastening plate is provided from an area other than the area to which the stone fastening plate is connected among the edges of the connecting plate and is fastened to a truss.

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