KR200438982Y1 - fixing trust structure of type stone for building - Google Patents

Abstract

The interior and exterior stone fixing truss structure of the building of the present invention is a truss structure that is supported by the interlayer slab of the building to fix the interior and exterior stone, and is disposed in parallel at regular intervals in the vertical direction and has a plurality of long holes in the front direction. Vertical reinforcement formed in sequence with, a plurality of horizontal reinforcement between the vertical reinforcement, and a support bracket coupled to the long hole of the vertical reinforcement to the fixed bracket which can be moved in the vertical direction in front of the fixing bracket It is coupled to extend, but is configured to be fixed to enable the position correction in the front, rear and vertical direction of the stone to be mounted on the support bracket by coupling so as to be movable in the front and rear of the fixing bracket.

Truss, Stone, Fixture, Longitudinal, Position Correction

Description

Fixed trust structure of type stone for building

1 is a front view showing a support frame according to the prior art.

Figure 2 is a side view showing a support frame according to the prior art.

Figure 3 is a partial perspective view showing a support frame according to the prior art.

4 is a perspective view showing a state in which a stone is installed on the truss structure of the present invention.

5 is a perspective view showing a truss structure of the present invention.

Figure 6 is a front view showing the truss structure of the present invention.

Figure 7 is a side view showing the truss structure of the present invention.

8 is a partial cross-sectional view showing a truss structure of the present invention.

9 is an exploded perspective view showing a fixing means coupled to the vertical reinforcement of the truss structure of the present invention.

10 is an exploded perspective view showing a support bracket and a close contact bracket of the truss structure of the present invention.

Explanation of symbols on the main parts of the drawings

1: interlayer slab 2: stone

2a: coupling hole 10: support frame

11: vertical material 12: vertical material

13: fixed hardware 100: truss structure

110: vertical reinforcement 111: long hole

120: horizontal reinforcing material 130: fixing means

131: fixing bracket 131a: fixing hole

131b: Fixed piece 131c: Supporting piece

131d: moving ball 132: support bracket

132a: Guide 133: Coupling Pin

134: fastening means 134a: head

134b: engaging portion 134c: screwing portion

140: support bracket 141: seating surface

142: support surface 143: rib

150: close contact bracket 160: joint connection member

170: strength reinforced steel 180: bonding bracket

190: anchor bolt 191; Fastening means

It relates to the interior and exterior stone fixing truss structure of the building of the present invention, more specifically to ensure the uniformity of the mounting and arrangement state of the stone is connected to the building wall in the up, down, left, right direction An interior and exterior stone fixing truss structure of a building.

In recent years, when remodeling old or new buildings or building new buildings, stone panels made of natural stone are continuously and horizontally attached to the exterior wall of the building to enhance the appearance of the building. Structures for attaching such stone panels to buildings have been proposed in the past.

The stone attachment structure according to the prior art, as shown in Figures 1 to 3, in order to install the building curtain wall wall will be made of stone (2) the vertical member 11 to the outer wall structure of the building with anchors and vertical material ( 11) between the vertical member 11 and the horizontal member 12 connecting the vertical member 11 to form a support frame 10.

The vertical member 11 usually uses square pipes, H-shaped steels, C-shaped steels, and the like, and mainly uses each pipe having excellent cross-sectional performance. And the vertical member 11, the horizontal member 12, the rust preventive coating in order to prevent the welding portion is rusted.

Thereafter, the outer surface of the support frame 10 drills a hole for inserting a pin at the bottom of the stone 2, inserts a pin into the hole, and the pin fixes the fixing hardware 13 to the horizontal member 12 to make a stone ( 2) Install. In general, the pins and the fixing hardware 13 are made of stainless steel in consideration of durability, or the fixing iron is rust-coated.

In the prior art, the fixing method of the vertical member 11 and the horizontal member 12 constituting the support frame 10 is made by welding, and the completed support frame 10 is mainly welded even when fixed to the wall of the construction site. It is installed through work.

However, the truss structure according to the prior art has a problem in that the production of the support frame 10 mainly consists of a manufacturing method through welding, which requires a lot of work time and a lot of manpower and increases the manufacturing cost.

In addition, the stone to be installed to be connected to the plurality of front to the support frame 10 in the horizontal direction, vertical direction without vertical error 11 and horizontal member 12 should be precisely fixed without mutual error, bar through the existing welding work There was a difficulty in the precise coupling work of the vertical member (11) and the horizontal member (12).

In particular, after the support frame 10 manufactured as described above is installed on the wall of the construction site, if the error range occurs in the stone which is installed to be connected to the stone when the work is connected or fixed in the horizontal, vertical direction, mutually fixed by welding After the release of the fixed state of the vertical member 11 and the horizontal member 12, the efficiency of construction is reduced due to the correction work such as correcting the error range of the vertical member 11 and the horizontal member 12 through welding again. There was this.

In addition, the truss structure according to the related art is constructed by supporting and fixing the fixed hardware 13 on which the stone 2 is mounted to the horizontal member 12, wherein the horizontal member 12 stress is concentrated by the load of the stone. There was a disadvantage that the strength becomes weak.

In order to make up for the shortcomings, the cross-sectional area of the stone is reduced and the horizontal load 12 is fixed to the vertical member 11 to share the load of the stone, thereby minimizing the stress concentrated on the horizontal member 12. However, this increases the manufacturing cost by increasing the number of installation of the horizontal member 12 has a problem in reducing the manufacturing efficiency of the support frame 10 according to the increase in the welding work accordingly.

Therefore, the main purpose of the present invention is to enable the position correction of the fixing means for mounting the stone in the vertical reinforcement material and the uniformity of the mounting and arrangement state of the stone is connected to the building wall in the vertical, vertical, horizontal direction It's about making sure you get it.

In addition, another object of the present invention is to be able to directly combine the fixing means for mounting the stone to the vertical reinforcement, to reduce the number of installation of the horizontal reinforcement to reduce the manufacturing cost.

Further, another object of the present invention is to reduce the number of installation of the horizontal reinforcement forming the truss structure to reduce the welding work to minimize the production time of the truss structure.

In order to achieve the object of the present invention, the interior and exterior stone fixing truss structure of the building of the present invention is provided with a vertical reinforcement arranged in parallel to the interlayer slab of the building and a horizontal reinforcement connecting the vertical reinforcement in a horizontal direction, and in the vertical reinforcement In the truss structure for fixing the internal and external stone through the fixing bracket and the supporting bracket to be coupled, a plurality of long holes are sequentially formed in the longitudinal direction on the front surface of the vertical reinforcement, so that the inner end of the long hole is formed into a locking structure The fastening means for closing the fastening with a nut is coupled to the long hole so that the vertical reinforcement and the fixing bracket can be integrally combined to allow correction of the vertical height of the stone, but the fastening means has a length in one direction. And a head having an integral portion formed at an end of the head, It consists of a polygonal locking part having the same outer circumferential surface width, and a screw part formed integrally with the locking part to form a male screw on the outer circumference so that the head part is caught by the inner circumferential surface locking end of the long hole and the inner surface in the width direction of the long hole It is characterized in that the locking portion is coupled to the screw portion to be exposed to the outside of the long hole to determine the locked state of the long hole according to the rotation state of the head.

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

First, in the drawings, the same components or parts are to be noted that the same reference numerals as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

Figure 4 is a perspective view showing a state in which stone is installed in the truss structure of the present invention, Figure 5 is a perspective view showing the truss structure of the present invention, Figure 6 is a front view showing the truss structure of the present invention, Figure 7 is the present invention 8 is a partial cross-sectional view showing the truss structure of the present invention, Figure 9 is an exploded perspective view showing a fixing means coupled to the vertical reinforcement of the truss structure of the present invention, Figure 10 is An exploded perspective view showing the support bracket and the contact bracket of the truss structure.

First, as shown in Figures 4 to 10, the interior and exterior stone fixing truss structure of the building of the present invention is supported on the interlayer slab (1) of the building in the truss structure 100 for fixing the interior and exterior stone, vertical And a plurality of horizontal stiffeners (120) disposed in parallel with a predetermined interval in the direction and sequentially formed in the longitudinal direction a plurality of long holes 111 on the front, and a plurality of horizontal stiffeners (120) between the vertical stiffeners (110) The base bracket 132 is coupled to the long hole 111 of the vertical reinforcement 110 to be fixed to the fixed bracket 131 which is movable in the vertical direction so as to extend in front of the fixed bracket 131. It consists of a fixing means 130 is coupled to be movable in the front and rear of the fixing bracket 131 to allow the position correction of the stone to be mounted on the support bracket 132 in the front, rear and vertical directions.

The vertical reinforcement 110 is generally applied to the four types of angular pipe and forms a plurality of long holes 111 in the longitudinal direction in the same length as the direction in which the vertical reinforcement 110 is installed in the front.

In addition, the fixing means 130 is composed of a fixing bracket 131 and the support bracket 132, the fixing bracket 131 is bent to be upright at an angle of 90 ° but is attached to the front of the vertical reinforcement (110) long hole (111) ) And a fixing hole 131a is formed in the fixing piece 131b of the portion in communication with each other, and a moving hole 131d is formed in the supporting piece 131c of the portion for seating the support bracket 132.

In addition, the support bracket 132 forms a guide hole 132a on one side, and the coupling pin 133 is formed at the upper and lower ends of the stone by coupling the coupling pin 133 to protrude upward and downward on the other side. 133 by fitting so that the stone can be mounted on the fixing means (130).

As such, the combination of the fixing bracket 131 and the support bracket 132 seats the support bracket 132 on the upper surface of the support piece 131c of the fixed bracket 131, but has a movable hole 131d and a guide hole ( By connecting the 132a to each other through the fastening means 191, the coupling position of the support bracket 132 can be freely adjusted based on the fixing bracket 131 by the moving hole 131d and the guide hole 132a. Thus, even if the stone is not disposed in place, the coupling pin 133 can be easily coupled to the coupling hole of the stone.

In addition, the fixing means 130 is configured as described above to be easily coupled to the vertical reinforcement 110 made of a square pipe through the engaging fastening means (191, 134).

The locking fastening means 191 and 134 are integrally formed at an end of the head 134a having a length in one direction and an end of the head 134a, and have an outer circumferential surface width that is the same as that of the long hole 111. It consists of a polygonal locking portion 134b and a screw portion 134c formed integrally with the locking portion 134b to form a male screw on its outer circumference.

The combination of the vertical reinforcing material 110 and the fixing means 130, first, the fixing hole 131a of the fixing bracket 131 and the long hole 111 of the vertical reinforcing material 110 to communicate with each other and then the fastening step 191 The head 134a of the 134 to be inserted into the long hole 111 of the vertical reinforcing material 110, and then rotates by 90 ° while pulling the latching portion 134b to be inserted into the long hole 111. At the same time, the head 134a is formed at the inner end thereof, and at the same time, the locking part 134b made of a polygon is in close contact with the inner surface of the long hole 111 to prevent rotation of the locking fastening means 191 and 134. To securely hold the locking state of the head (134a).

In addition, the upper portion of the interlayer slab 1 of the building to be supported by the vertical reinforcement 110 and the horizontal reinforcement 120, the interlayer through the support bracket 140 is fixed to the anchor bolt 190 Slab (1) and the vertical reinforcement 110 to be more closely fixed. The support bracket 140 bends the plate shape upright to fix the rib 143 at the center of the bent portion to enhance the strength, and the seating surface 141 of the support bracket 140 in close contact with the interlayer slab 1 is The anchor bolt 190 is fixed, and the support surface 142 of the support bracket 140 vertically installed so as to be upright is coupled to the close contact bracket 150 which is banded upright symmetrically to each other, but of the close contact bracket 150 One side is fixed to the support surface 142 of the support bracket 140 through the fastening means 191 and the other side is to be in close contact with both sides of the vertical reinforcement 110 to be mutually joined by welding.

In addition, the vertical space between the vertical reinforcement 110 to be connected so as to be connected to extend the plurality of vertical reinforcement 110 in a straight line according to the height of the height of the interlayer slab (1) of the building at a predetermined interval to the vertical Both sides of the reinforcing member 110 to the plate-shaped joint connecting member 160 is fixed to the side of the vertical reinforcement 110 through the fastening means 191 to connect the vertical reinforcement 110 in the vertical direction.

At this time, the joint connecting member 160 is in close contact with the side of the pair of vertical reinforcement 110 to be connected to the joint and then fixed with the fastening means 191 and the vertical reinforcement 110 on one side and welded with the vertical reinforcement 110 on the other side. It can also be bonded to each other through.

Further, the bottom of the inter-layer slab (1) of the building is coupled to the strength reinforcement steel 170 with an anchor bolt 190, and then the vertical reinforcement disposed at the same interval with the strength reinforcement steel 170 and the truss structure 100. Abutting the bonding bracket 180 on the side of the vertical reinforcement 110 arranged inside of the 110 to be mutually bonded by welding.

Referring to the operation of the present invention as follows.

First, the horizontal reinforcing material 120 between the vertical reinforcement material disposed at equal intervals between the horizontal reinforcement disposed in the horizontal direction and then bonded together by welding.

At this time, the truss structure 100 of the present invention is to be mounted in a locking structure to two vertical reinforcement 110 per stone.

That is, the fixing means 130 is coupled to the long holes 111 in the same horizontal position of the vertical reinforcement 110 arranged in parallel through the locking means 191 and 134.

Thereafter, while the coupling hole of the stone is coupled to the coupling pin 133 protruding up and down to the fixing means 130, the stone is mounted on the truss structure 100 to be connected to the upper, lower, left, right.

At this time, the failure of the stone or the position of the long hole 111 of the vertical reinforcement 110 does not coincide with each other, even if the fixing means 130 in the vertical reinforcement 110 is not positioned in the correct position on the horizontal line 130 is the long hole The inner circumferential surface of the 111 can be moved as long as the position correction of the vertical direction of the fixing means 130 is possible.

In addition, since the position can be corrected in the front and rear directions of the support bracket 132 in the fixing bracket 131, the front surface of the stone can be easily and simply made the same plane.

This enables to improve the mounting position of the stone, thereby improving the efficiency of the stone mounting work.

In addition, the truss structure 100 of the present invention is not a method of fixing the stone by a fixed hardware through the existing horizontal reinforcement 120, as a structure that is directly mounted to the vertical reinforcement 110, the horizontal reinforcement of the 120 It is possible to reduce the number of installation to reduce the manufacturing cost, the truss structure (100) to be fixed through the fastening means (191) consisting of bolts and nuts instead of the fixing method by welding in the fraud truss structure (100) It can improve the efficiency of the production.

As described above, the interior and exterior stone fixing truss structure of the building of the present invention allows the position correction of the fixing means for mounting the stone to the vertical reinforcement to be connected to the floor slab of the building to be connected in the up, down, left and right directions. There is an effect to ensure the uniformity of the mounting state and arrangement of the stone to be.

In addition, the internal and external stone fixing truss structure of the building of the present invention allows to directly combine the fixing means for mounting the stone to the vertical reinforcement, to reduce the snow reinforcement of the horizontal reinforcement to reduce the production cost It works.

In addition, the interior and exterior stone fixed truss structures of the building of the present invention can reduce the welding work by reducing the number of installation of the horizontal reinforcement constituting the truss structure has the effect of minimizing the production time of the truss structure.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

Claims (4)

In the truss structure for fixing the internal and external stone through the vertical and horizontal reinforcement and horizontal reinforcement connecting the vertical reinforcement in a horizontal direction, and fixing brackets and support brackets coupled to the vertical reinforcement in the interlayer slab of the building, A plurality of long holes are sequentially formed in the longitudinal direction on the front of the vertical reinforcing material, and the fastening means for closing the fastening with a nut by closing the inner ends of the long holes is fastened to the long holes so that the vertical reinforcing material and the fixing bracket are coupled to the long holes. By allowing them to be combined integrally, they allow correction of the vertical height of the stone, The fastening means includes a head having a length in one direction, a polygonal engaging portion formed integrally with an end portion of the head portion and having an outer circumferential surface width equal to the width of the long hole, and integrally formed with the engaging portion and having an outer circumferential edge. It consists of a screw part formed with a male thread on the inner circumferential surface of the long hole, so that the head is caught by the end of the long hole, and the engaging part is coupled to the inner surface in the width direction of the long hole, so that the screw part is exposed to the outside of the long hole. The interior and exterior stone fixed truss structure of the building, characterized in that to determine the. delete delete delete

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