KR101879291B1 - Reinforcement module for preventing falling down of brick wall - Google Patents

Abstract

One embodiment of the present invention relates to a reinforcement module to prevent falling down of a brick wall, to prevent falling down of a brick wall formed between a lower structure and an upper structure spaced apart from the lower structure in a vertical direction. According to one embodiment of the present invention, the reinforcement module to prevent falling down of a brick wall comprises: a lower fixing unit to be fixed to the lower structure; an upper fixing unit to be fixed to the upper structure; and a support unit receiving external force from the brick wall to transfer the external force to the upper and lower fixing units in order to prevent falling down of the brick wall. A vertical separation distance between the upper and lower fixing units is able to be adjusted when the upper and lower fixing units are able to receive the external force from the support unit after the lower fixing unit is fixed to the lower structure or after the upper fixing unit is fixed to the upper structure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing module for preventing the barrier wall from falling, and more particularly, to a reinforcing module for preventing the barrier wall from being detached from the barrier wall formed between the lower structure and the upper structure spaced apart from the lower structure.

Generally, various buildings are composed of columns separated vertically between the upper and lower slabs by the slabs and square openings formed by the pillars and beams on the side of the building, and various windows are installed do.

In addition, a window may be provided in the opening, but a wall may be formed through the masonry of the brick if necessary. The wall may be variously applied at the construction site for partitioning the space, It is also used in part for finishing or decorating.

In particular, most of the existing buildings have a raymen structure supported by pillars and beams, and the walls of the buildings with raymen structures are mostly composed of non-structural walls, The design is not applied at all.

On the other hand, when a strong wind is blown into a building or an earthquake occurs, a horizontal load is applied to the building. The horizontal load is a load that shakes the building from side to side, which easily collapses the building. Mostly due to horizontal loading.

In recent years, earthquakes that are frequently occurring in neighboring countries in Korea have caused massive damage to people and property, and Korea has never been safe from earthquakes. It is said that more than 80% of domestic buildings are defenseless against earthquakes It can be said that school buildings are even worse.

In addition, since the horizontal load is concentrated on the opening of the building, the window or the filling wall is easily broken. For example, when the building collapses due to an earthquake, the wall where the window and the filling wall are located is relatively weak. First, there is a problem that people who are trapped in the room can not get out.

In order to solve this problem, Korean Patent No. 10-1657481 (registered on Aug. 20, 2016) has been used for reinforcing steel sheets and bending brackets, but it is necessary to manufacture reinforcing plates and bending brackets depending on the height of the masonry walls , There is a problem in terms of economy and construction.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a reinforcing module for preventing the barrier wall from being detached from a wall, which can easily be applied to various walls having various heights.

It is to be understood that the present invention is not limited to the above-described embodiments and that various changes and modifications may be made without departing from the spirit and scope of the present invention as defined by the following claims .

The reinforcing module for preventing the anti-mural wall according to an embodiment of the present invention prevents conduction of the masonry wall formed between the lower structure and the upper structure spaced from the lower structure in the height direction, ; An upper fixing part fixable to the upper structure; And a support portion that receives an external force from the barrel wall to transmit the external force to the lower fixing portion and the upper fixing portion to prevent conduction of the barrel wall, wherein the height separation distance between the lower fixing portion and the upper fixing portion is In a state in which the lower fixing portion is fixed to the lower structure or after the upper fixing portion is fixed to the upper structure, the lower fixing portion and the upper fixing portion can receive external force from the supporting portion .

According to the reinforcing module for preventing the fall of the barrier wall according to the embodiment of the present invention, it is possible to easily construct the barriers having various heights.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned can be clearly understood by those skilled in the art from the present specification and the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic perspective view showing a reinforcing module for preventing the barrier walls from falling in the present invention. FIG.
FIG. 2 is a schematic side view showing various embodiments of the reinforcing module for preventing the anti-varnish wall of the present invention. FIG.
3 is a schematic perspective view for explaining an embodiment of the lower fixing part of the present invention.
4 is a schematic perspective view for explaining an embodiment of the upper fixing part of the present invention.
5 is a schematic sectional view for explaining an embodiment of the reinforcing module for preventing the anti-varnish wall of the present invention.
6 is a schematic perspective view for explaining another embodiment of the upper fixing part of the present invention.
FIG. 7 is a schematic cross-sectional view for explaining another embodiment of the reinforcing module for preventing the barrier walls from falling down according to the present invention. FIG.
8 is a schematic side view showing various embodiments of the reinforcing module for preventing the anti-varnish wall of the present invention.
9 is a schematic perspective view for explaining another embodiment of the upper fixing part of the present invention.
10 is a schematic sectional view for explaining another embodiment of the reinforcing module for preventing the anti-varnish wall of the present invention.
11 is a schematic perspective view for explaining another embodiment of the lower fixing part of the present invention.
12 is a schematic perspective view and a sectional view for explaining the intermediate fixing part of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The reinforcing module for preventing the anti-mural wall according to an embodiment of the present invention prevents conduction of the masonry wall formed between the lower structure and the upper structure spaced from the lower structure in the height direction, ; An upper fixing part fixable to the upper structure; And a support portion that receives an external force from the barrel wall to transmit the external force to the lower fixing portion and the upper fixing portion to prevent conduction of the barrel wall, wherein the height separation distance between the lower fixing portion and the upper fixing portion is The lower fixing part and the upper fixing part can receive external force from the supporting part after the lower fixing part is fixed to the lower structure or after the upper fixing part is fixed to the upper structure.

The upper fixing portion may include an upper coupling portion fixed to the upper structure by a coupling member and an upper transmission portion extending from the upper coupling portion and receiving an external force from the support portion. The height between the upper coupling portion and the support portion The directional spacing distance can be adjusted in a state where the lower fixing portion and the upper transmission portion can receive external force from the supporting portion after the lower fixing portion is fixed to the lower structure.

The upper transfer part may form an upper insertion space into which the support part is inserted, and the upper part of the upper part may be inserted into the upper insertion space to be covered.

The upper fastening part may include a first upper fastening part formed at one side with respect to the upper transfer part and a second upper fastening part formed at the other side.

The upper fastening portion may include a lower surface opposed to a lower surface of the upper structure, an upper connecting portion connected to the upper transmitting portion, a side opposed portion opposed to a side surface of the upper structure and fixed to the upper structure by a fastening member, And a reinforcing portion for reinforcing the side facing portion.

The upper fastening portion may include a side facing portion which is opposed to the side surface of the upper structure and is fixed to the upper structure by the fastening member, an upper connecting portion connected to the upper transmitting portion, and a reinforcing portion that reinforces the side facing portion .

The lower fixing portion may include a lower coupling portion fixed to the lower structure by a coupling member and a lower transmission portion extending from the lower coupling portion and receiving an external force from the supporting portion, The directional separation distance can be adjusted in a state where the upper fixing portion is fixed to the upper structure and the upper fixing portion and the lower transmission portion can receive external force from the supporting portion.

In addition, the support portion may form a support portion insertion space into which the lower transfer portion is inserted, and the lower transfer portion may be inserted into the support portion insertion space to be covered.

The lower coupling part may include a first lower coupling part formed at one side with respect to the lower transmission part and a second lower coupling part formed at the other side.

The intermediate fixing part may be fixed to the intermediate structure positioned between the lower structure and the upper structure. The intermediate fixing part may include an intermediate fastening part fixed to the intermediate structure by the fastening member, And an intermediate transfer portion extending from the support portion and receiving an external force from the support portion. The intermediate transfer portion may form an intermediate insertion space into which the support portion is inserted.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

FIG. 1 is a schematic perspective view showing a reinforcing module for preventing the barrier wall from being transferred according to the present invention, and FIG. 2 is a schematic side view showing various embodiments of the reinforcing module for preventing barrier wall from falling.

3 is a schematic perspective view for explaining an embodiment of the lower fixing part of the present invention.

FIG. 4 is a schematic perspective view for explaining an embodiment of the upper fixing part of the present invention, and FIG. 5 is a schematic cross-sectional view for explaining an embodiment of the reinforcing module for preventing the anti-varnish wall of the present invention.

FIG. 6 is a schematic perspective view for explaining another embodiment of the upper fixing part of the present invention, and FIG. 7 is a schematic cross-sectional view for explaining another embodiment of the reinforcing module for preventing the anti-

9 is a schematic perspective view for explaining another embodiment of the upper fixing part of the present invention, and FIG. 10 is a perspective view of the present invention Sectional view for explaining another embodiment of the reinforcing module for preventing the warp wall from falling off.

11 is a schematic perspective view for explaining another embodiment of the lower fixing part of the present invention.

12 is a schematic perspective view and a sectional view for explaining the intermediate fixing part of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

1 to 12, the reinforcing module for preventing the anti-varnish wall of the present invention comprises a rough wall W formed between a lower structure K1 and an upper structure K2 spaced from the lower structure K1 in a height direction, Or the like.

The lower structure K1 supports the masonry wall W and may mean a foundation, a slab, or a floor of a building.

The upper structure K2 may be a slab, a floor, a beam, or a ceiling of the building, which is spaced upward from the lower structure K1.

For example, as shown in FIG. 1, the reinforcing module for preventing wall barrier from falling can include a lower fixing part 100, an upper fixing part 200, and a supporting part 300.

For example, the lower fixing part 100 may be configured to be fixed to the lower structure K1.

For example, the upper fixing part 200 may be fixed to the upper structure K2.

The fixing between the lower fixing part 100 and the lower structure K1 and the fixing between the upper fixing part 200 and the upper structure K2 are realized by a fastening member T such as a high- Or may be implemented in a configuration such as an adhesive.

For example, the support part 300 receives an external force from the masonry wall W to prevent conduction of the masonry wall W, and transmits an external force to the lower and the upper fixing parts 100 and 200 Lt; / RTI >

That is, when the external force is applied, the supporting part 300 may transmit external force applied to the lower fixing part 100 and the upper fixing part 200. When the supporting part 300 is fixed to the lower fixing part K1, The lower fixing part 100 may transmit an external force transmitted from the supporting part 300 to the lower structure K1 and the upper fixing part 200 fixed to the upper structure K2 may transmit the external force transmitted from the supporting part 300 To the upper structure K2.

As a result, when the masonry wall W tries to conduct due to an earthquake or the like, the support part 300 supports the masonry wall W in the lateral direction and receives an external force from the masonry wall W, It is possible to prevent collapse.

For example, the support 300 may be a metal pipe, but is not limited thereto.

The height separation distance between the lower fixing part 100 and the upper fixing part 200 may be a distance after the lower fixing part 100 is fixed to the lower structure K1, 200 can be adjusted in a state in which the lower fixing part 100 and the upper fixing part 200 can receive an external force from the supporting part 300 after the fixing part 200 is fixed to the upper structure K2.

In more detail, the distance in the height direction between the lower structure K1 and the upper structure K2 may be different depending on the building.

The height direction separation distance between the lower fixing part 100 and the upper fixing part 200 may be adjusted so as to easily install the reinforcing module for preventing the masonry wall from being deteriorated in the masonry walls W having various heights.

For example, in a state where the lower fixing part 100 is fixed to the lower structure K1, the supporting part 300 extends from the lower fixing part 100 and is disposed at a position adjacent to the mating wall W , The upper fixing part 200 may be moved in the height direction in accordance with the position of the upper structure K2 in the height direction before being fixed to the upper structure K2.

The state that the lower fixing part 100 and the upper fixing part 200 described above can receive external force from the supporting part 300 means that the lower fixing part 100 and the upper fixing part 200 are in contact with each other, The upper fixing part 200 may be moved in the height direction with respect to the supporting part 300 in a state where the upper fixing part 200 is connected to the supporting part 300, K2.

As a result, the distance in the height direction between the lower fixing part 100 and the upper fixing part 200 is set such that the lower fixing part 100 and the upper fixing part 200 receive external force from the supporting part 300 Can be adjusted even when it is possible.

Hereinafter, various embodiments of the reinforcing module for preventing the barrier walls from falling will be described in more detail with reference to FIGS. 2 to 11. FIG.

First, as shown in Fig. 2, the one side of the masonry walls W may be provided with the masonry wall preventive reinforcement module (which may be referred to as "a first masonry wall preventive reinforcement module" The other side of the masonry wall W may be provided with the above-mentioned masonry wall preventive reinforcement module (which may be referred to as "a second masonry wall preventive reinforcement module"

3, the lower fixing part 100 may be integrally formed with the supporting part 300. As shown in FIG.

The lower fixing part 100 may be connected to the supporting part 300 by welding.

For example, the lower fixing part 100 may have a through hole through which the coupling member T is coupled to the lower structure K1, and a first lower coupling part And a second lower coupling part 120 formed on the other side.

When the lower fixing part 100 is fixed to the lower structure K1 by the fastening member T, the lower fixing part 100 receives an external force from the supporting part 300, ). ≪ / RTI >

4 is a schematic perspective view showing an upper fixing part 200A which is an embodiment of the upper fixing part 200 and FIG. 5 shows a relation between the upper fixing part 200A and the supporting part 300 of FIG. FIG.

The upper fixing part 200A includes an upper coupling part 210A fixed to the upper structure K2 by a coupling member T and a lower coupling part 210A extending from the upper coupling part 210A, And an upper conveying part 220A receiving an external force.

For example, the upper transfer part 220A may form an upper insertion space S into which the support part 300 is inserted. The upper part of the support part 300 is inserted into the upper insertion space S, .

As a result, the upper transfer part 220A and the support part 300 may overlap at least partly in the lateral direction, and the support part 300 may contact the upper transfer part 220A, Unit 220A.

The upper transfer portion 220A and the upper coupling portion 210A cover the upper portion of the support portion 300 so that the foreign substance is transferred into the hollow Can be prevented.

5, the distance in the height direction between the upper fastening portion 210A and the support portion 300 may be set such that the lower fixing portion 100 is fixed to the lower structure K1, The lower fixing part 100 and the upper transmission part 220A can receive the external force from the supporting part 300, that is, the upper fixing part 200 and the supporting part 300 are moved in the lateral direction Can be adjusted in some overlapped states.

As a result, the operator first fixes the lower fixing part 100 to the lower structure K1, and then moves the upper fixing part 210A in the height direction to correspond to the height of the upper structure K2 And can be fixed to the upper structure K2.

The height separation distance between the lower fixing part 100 and the upper fixing part 200 may be set such that the lower fixing part 100 is fixed to the lower structure K1, The upper fixing part 200 and the supporting part 300 can be moved in the lateral direction at least partially in a state in which the fixing part 100 and the upper fixing part 200 can receive external force from the supporting part 300, Can be adjusted in an overlapped state.

For example, the upper fixing part 200 may be fixed to the lower surface of the upper structure K2. The upper fixing part 200 may include a first upper coupling part 211A formed at one side with respect to the upper transmission part 220A, And a second upper fastening portion 213A to be formed.

The first upper coupling part 211A and the second upper coupling part 213A may form through holes so that the coupling member T can be coupled to the upper structure K2.

6 is a schematic perspective view showing an upper fixing part 200B which is another embodiment of the upper fixing part 200 and FIG. 7 is a sectional view showing the relationship between the upper fixing part 200B and the supporting part 300 FIG.

The upper fixing portion 200B will be described in more detail with reference to FIGS. 6 and 7, but detailed description of the functions common to the upper fixing portions 200 and 200A will be omitted.

6 and 7, the upper fixing part 200B includes an upper coupling part 210B fixed to the upper structure K2 by a coupling member T, and an upper coupling part 210B fixed to the upper coupling part 210B. And an upper transfer part 220B extending from the support part 300 and receiving an external force.

The upper transfer part 220B may form an upper insertion space S into which the support part 300 is inserted and the upper part of the support part 300 may be inserted into the upper insertion space S to be covered .

The upper coupling portion 210B includes a lower surface opposing portion 211B opposing a lower surface of the upper structure K2, an upper connecting portion 213B connected to the upper transmitting portion 220A, A side opposing portion 215B which is opposed to the side surface of the side wall K2 and is fixed to the upper structure K2 by a coupling member T and a reinforcing portion 217B which reinforces the side opposing portion 215B have.

For example, the upper coupling portion 210B includes the lower surface opposing portion 211B and the side opposing portion 215B, so that the upper coupling portion 210B contacts the at least two surfaces of the upper structure K2, ). ≪ / RTI >

The reinforcing portion 217B is connected to the side facing portion 215B and the upper connecting portion 213B to prevent the side facing portion 215B and the upper connecting portion 213B from being damaged.

8 is a schematic side view for explaining the upper fixing part 200C, which is another embodiment of the upper fixing part 200, FIG. 9 is a schematic perspective view showing the upper fixing part 200C of FIG. 8, 10 is a schematic cross-sectional view illustrating the relationship between the upper fixing part 200C and the supporting part 300 of FIG.

The upper fixing portion 200C will be described in more detail with reference to FIGS. 8 to 10, but detailed description of the functions common to the upper fixing portions 200, 200A, and 200B described above will be omitted.

8 to 10, the upper fixing part 200C includes an upper coupling part 210C fixed to the upper structure K2 by a coupling member T, and an upper coupling part 210C fixed to the upper coupling part 210C. And an upper transfer part 220C extending from the support part 300 and receiving an external force.

The upper transfer part 220C may form an upper insertion space S into which the support part 300 is inserted and the upper part of the support part 300 may be inserted into the upper insertion space S to be covered .

The upper coupling part 210C includes a side opposing part 211C which is opposite to the side surface of the upper structure K2 and is fixed to the upper structure K2 by a coupling member T, An upper connection part 213C connected to the side part 220C and a reinforcing part 215C reinforcing the side opposite part 211C.

The reinforcing portion 215C is connected to the side opposing portion 211C and the upper connecting portion 213C to prevent the side opposing portion 211C and the upper connecting portion 213C from being damaged.

11 is a schematic perspective view showing a lower fixing part 100A which is another embodiment of the lower fixing part 100 and FIG. 12 is a perspective view showing a relationship between the lower fixing part 100A of FIG. 11 and the supporting part 300 FIG.

The lower fixing portion 100A will be described in more detail with reference to FIGS. 11 and 12, but the detailed description of the functions common to the lower fixing portion 100 described above will be omitted.

11 and 12, the lower fixing portion 100A includes a lower coupling portion 110A fixed to the lower structure K1 by a coupling member T, and a lower coupling portion 110B fixed to the lower coupling portion 110A. And a lower transmitting portion 120A extending from the supporting portion 300 and receiving an external force.

The distance in the height direction between the lower coupling part 110A and the support part 300 is set such that the upper fixing part 200 is fixed to the upper structure K2, (120A) can receive external force from the support part (300).

The support portion 300 may extend downward from the upper fixing portion 200 in the height direction so that the upper portion of the upper wall 200 is fixed to the upper portion K2, The lower fixing part 100A is supported by the lower fixing part 100A between the lower fixing part 100A and the lower fixing structure K1 before being fixed to the lower structure K1, (Not shown) inserted into the lower structure K1 and then fixed to the lower structure K1 at a position in the height direction.

The lower fixing part 100A and the upper fixing part 200 can receive the external force from the supporting part 300. The lower fixing part 100A and the upper fixing part 200, The lower fixing part 100A may be moved in the height direction with respect to the supporting part 300 in a state where the lower fixing part 100A is connected to the supporting part 300, K1) or to the support.

As a result, the distance in the height direction between the lower fastening portion 110A and the support portion 300 is smaller than the distance between the lower fixing portion 100A and the upper fixing portion 200 from the support portion 300 Lt; / RTI >

For example, the support portion 300 may form a support insertion space Z into which the lower transfer portion 120A is inserted, and the lower transfer portion 120A may be inserted into the support portion insertion space Z, .

As a result, the lower transmission portion 120A and the support portion 300 may overlap at least partly in the lateral direction, and the support portion 300 may contact the lower transmission portion 120A, Unit 120A.

Also, as the support portion 300 covers the lower transfer portion 120A, the lower transfer portion 120A can be protected from external environment or external force.

For example, the lower coupling part 110A may include a first lower coupling part formed at one side with respect to the lower transmission part 120A and a second lower coupling part formed at the other side.

13 is a schematic perspective view and a cross-sectional view for explaining the intermediate fixing part 400 of the reinforcing module for preventing the masonry wall from falling according to an embodiment of the present invention.

13, the reinforcing module for preventing wall migration of walls may further include an intermediate fixing part 400 which can be fixed to an intermediate structure located between the lower structure K1 and the upper structure K2 have.

For example, in the intermediate structure, the lower structure K1 is a slab of one layer, and when the upper structure K2 is a three-layer slab, a two-layer slab located between the slab of one layer and the slab of three layers Or beam and may mean the masonry wall W positioned between the lower structure K1 and the upper structure K2.

For example, the intermediate fixing part 400 includes an intermediate coupling part 410 fixed to the intermediate structure by a coupling member T, and an intermediate coupling part 410 extending from the intermediate coupling part 410 and transmitting an external force from the supporting part 300. [ And an intermediate transfer unit 420 for receiving the intermediate transfer unit 420.

Here, the intermediate transfer portion 420 may form an intermediate insertion space Y into which the support portion 300 is inserted.

For example, on the intermediate insertion space Y, a lower portion of the support portion 300 extending downward from the upper fixing portion 200 and a lower portion of the support portion 300 extending upward from the lower fixing portion 100, The upper side can be inserted.

The intermediate transfer unit 420 may surround the supporting unit 300 extending from the upper fixing unit 200 and the supporting unit 300 extending from the lower fixing unit 100 or 100A.

In other words, the intermediate transfer unit 420 includes the supporting unit 300 extending from the upper fixing unit 200 and at least a part of the supporting unit 300 extending from the lower fixing unit 100, Direction.

As a result, the intermediate transfer part 420 may receive external force from the support part 300 extending from the upper fixing part 200, and may receive external force from the support part 300 extending from the lower fixing part 100 An external force may be delivered.

The intermediate fixing part 400 includes the supporting part 300 extending from the upper fixing part 200 and the supporting part 300 extending from the lower fixing parts 100 and 100A, And the operator can fix the intermediate fixing part 400 to the intermediate structure by using the fastening member T after positioning the intermediate fixing part 400 at a position corresponding to the intermediate structure.

Epoxy may be applied between the support part 300 and the rough wall W to eliminate a gap between the support part 300 and the rough wall W. [

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

100:
200: upper fixing part
300:
400: intermediate fixing part
W:

Claims (10)

A reinforcing module for preventing the warp wall from being transferred between a lower structure and an upper structure spaced from the lower structure in a height direction,
The reinforcing module for preventing wall barrier from falling includes:
A first anti-glare barrier reinforcement module disposed on one side of the rough wall; And
And a second anti-roll barriage preventing reinforcing module disposed on the other side of the barrier wall,
Each of the reinforcing module for preventing the first barrier walls from falling and the reinforcing module for preventing the second barrier walls from falling,
A lower fixing part fixable to the lower structure;
An upper fixing part fixable to the upper structure; And
And a support for receiving an external force from the barrel wall to transmit the external force to the lower and the upper fixing parts to prevent conduction of the barrel wall,
The height direction separation distance between the lower fixing portion and the upper fixing portion of the first anti-reflective barrier module and the second anti-
After the lower fixing part is fixed to the lower structure or after the upper fixing part is fixed to the upper structure,
In a state in which the lower fixing part and the upper fixing part can receive external force from the supporting part,
Lt; / RTI >
Wherein the upper fixing part of each of the reinforcing module for preventing the first barrier walls from falling and the reinforcing module for preventing the second barrier walls from falling includes:
An upper coupling portion fixed to the upper structure by a coupling member, and an upper transfer portion extending from the upper coupling portion and receiving an external force from the supporting portion,
Wherein the upper fastening portion of the first anti-roll barriers comprises:
And a reinforcing portion for reinforcing the side facing portion, wherein the side connecting portion includes a side surface opposed to a side surface of the upper structure and fixed to a side surface of the upper structure by a fastening member,
And the upper fastening portion of the second anti-roll barriers for reinforcing the anti-
And a fixing member which is fixed to a lower surface of the upper structure,
Reinforcing module for anti - collision barrier.
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