KR101808105B1 - Outer wall for building and construction method thereof - Google Patents

Abstract

The present invention relates to an exterior wall structure used to cover an exterior wall of a new building, and a method of constructing the exterior wall structure. The present invention implements an exterior wall structure construction method of a new form to which the following manners are applied: a manner of directly fastening an anchor bolt and an angle on an exterior surface of a heat insulating material, such as Styrofoam, in a state where the heat insulating material is in close contact with a side of a concrete wall, a manner of bursting and sealing a urethane foam capsule together with an anchor bolt, and a manner of connecting a frame to support an exterior panel to a bracket for each pipe. Accordingly, the present invention is able to execute perfect insulation construction and also make construction work easy; and moreover, is safe in terms of construction such as no risk of fire due to the exclusion of a welding work, etc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building exterior wall,

The present invention relates to a building exterior wall and a construction method, and more particularly, to an exterior wall construction to be used for covering an exterior wall of a new building and a method of constructing the exterior wall structure.

Generally, the outer wall of the building made of concrete structure is provided with incombustible exterior panel such as terracotta, marble, granite and artificial stone including cement board.

For example, exterior panel panels such as marble, granite, and glass walls are typically fabricated in the form of a rectangular flat panel, and the exterior panel panels thus fabricated are arranged on the exterior walls of the building in a side-by-side manner and finished with curtain wall-shaped exterior walls.

In this way, a method of installing a heat insulating material and an exterior panel on the wall of the building is used to protect the exterior wall of the building as well as to obtain insulation and decoration effect. The insulation is fixed by using anchor bolts, , And an installation method in which the exterior wall is closed by fixing the exterior panel to an angle or the like joined to the end of the anchor bolt is used.

As the use of exterior panels for building walls has been expanded, a variety of techniques have recently been developed for easily installing exterior panel panels on building walls.

7, an anchor bolt 110 is first embedded in a concrete wall 100 of a building. At this time, the angle 120 is also fixed to the anchor bolt 110, Seal the area.

Next, a heat insulating material 150 having a horizontal connecting part 130 welded to the angle 120, and a space 140 having an area corresponding to the angle 120 and a space to be inserted into the connecting part 130, For example, styrofoam is closely attached to the concrete wall body 100.

At this time, the space portion 140 of the heat insulating material 150 is closed with the styrofoam 180.

Next, a frame 160 having a lattice-like frame structure is fixed by welding to a plurality of connecting rods 130 for supporting the external panel.

The exterior panel 170 is brought into close contact with the frame 160 thus installed and then the external panel 170 is fastened to the support bar (not shown) installed in the concrete wall 100. Thus, Can be completed.

However, the conventional method of constructing the exterior wall of a building has various drawbacks as follows.

First, the styrofoam insulation installed on the concrete wall is not only deteriorated in adhesion to the wall side, but also has a disadvantage in that the insulation effect is lowered as a whole because the space portion is made in various places for installation of the anchor bolt, angle, have.

Second, there are disadvantages such as sealing work at the anchor bolt installation site, backfilling after styrofoam incision, welding work between members, and so on.

Third, there is a high risk of fire because almost all steel member connecting work such as angle, connecting rod, connecting rod and frame, frame and frame is performed by welding.

Korean Patent Publication No. 10-2014-0123307 Korean Patent Publication No. 10-2015-0144561

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method of directly fixing an anchor bolt and an angle on an outer surface of an insulating material in a state in which a heat insulating material such as styrofoam is closely attached to a concrete wall, And a method of connecting a frame for supporting an external panel to each bracket for each pipe. By implementing the method of constructing a new type of exterior wall structure, it is possible not only to achieve perfect insulation, but also to simplify construction work, The present invention is to provide a building exterior wall and a construction method which can prevent the risk of fire due to the exclusion of welding work and the like.

In order to achieve the above object, the building exterior wall provided in the present invention has the following features.

Wherein the building exterior wall comprises a support bar protruding from a concrete wall, a heat insulating material adhered to the concrete wall, an anchor bolt fastened to the concrete wall, an angle fixed by the anchor bolt and a horizontal connecting rod, A frame having a lattice-like frame structure supported by the connection block while being spaced apart from the wall, and an exterior panel which is in close contact with the front surface of the frame and is fixed to the support bar.

Particularly, the anchor bolts of the building exterior wall are installed in a structure capable of tightly fixing the heat insulating material to the concrete wall side while being fastened in the bolt fastening holes formed in the concrete wall through the bolt through holes formed in the heat insulating material.

Here, in the case of the angle fixed by the anchor bolt, it is preferable that the front surface of the heat insulating material can be pressed by the fastening force of the anchor bolt.

In addition, a sealing material for watertightness and airtightness is contained in the bolt fastening hole of the concrete wall, and a sealing material capsule which is blown up when the anchor bolt is fastened can be inserted.

The sealing material contained in the sealing material capsule at this time may be a sealing material in a state such as paste or liquid.

The building exterior wall is a coupling means between the connecting block and the frame, and includes a bracket for supporting the bridges, which has an integrated structure of two wing portions tightly fastened to the rear face of the frame, and a body portion which surrounds the three faces of the connecting block. can do.

In addition, the building exterior wall is a means for coupling between two frame-shaped pipes intersecting each other of the frame. The building-exterior wall is composed of two wing portions tightly fastened to both sides of the vertically arranged frame-shaped pipe, The bracket may further include a bracket for connecting the tubes, the bracket being integrally formed of a body portion which is tightly attached to the front surface of the frame tube to be arranged and which is fastened to the horizontal frame tube.

As a preferred embodiment, the frame tube of the frame is formed at each end of the tube and includes an axial tube portion that fits into the end of the tube of the relative frame, so that it is possible to use a plurality of frame tubes.

In order to achieve the above object, the present invention provides a method for constructing a building exterior wall, comprising the steps of:

The method of constructing the exterior wall of a building includes the steps of sequentially placing a heat insulating material, a frame, and an external panel on a front surface of a concrete wall, comprising the steps of placing a heat insulating material on the front surface of the concrete wall, Tightening the anchor bolt from the front surface of the heat insulating material to the bolt fastening hole of the concrete wall to firmly fix the angle and the connecting rod to the heat insulating material side and pressing and fixing the heat insulating material to the concrete wall side; And attaching the external panel to the support bar formed on the concrete wall after fixing the external panel in close contact with the front surface of the frame.

Here, in the step of disposing the heat insulating material, it may include a step of previously forming a bolt through hole for passing an anchor bolt through the heat insulating material.

The step of fastening the anchor bolt to the concrete wall may include the step of popping the sealing material capsule containing the sealing material installed in the bolt fastening hole of the concrete wall together with the anchor bolt fastening.

In the step of joining the frame to the connecting block, the brackets are integrally formed with the brackets, which have an integrated structure of the wing portions tightly coupled to the back surface of the frame tube and the body portion that surrounds the three surfaces of the connecting block, And combining the frames with each other.

The connecting portions between the frame-shaped pipes intersecting each other of the frame include both wing portions tightly fastened to both sides of the vertically arranged frame-shaped pipe, and a pair of vertically arranged frame- And can be connected to each other by using a bracket for a pipe joint having an integral structure of a body portion fastened to a horizontal frame of each frame while being closely attached thereto.

The building exterior wall and construction method provided by the present invention has the following advantages.

First, after the insulation material such as styrofoam is adhered to the concrete wall, the anchor bolt and the angle are installed on the outer surface of the insulation material, and the insulation is tightly adhered to the concrete wall side. It is possible to construct the insulation completely.

Second, by applying an insulation bolt and anchor bolts and angles, and connecting a frame for external panel support to each pipe bracket, it is easy to work, and it is possible to reduce airflow, time, The construction time can be shortened due to the outer wall finish of the building, and the construction cost can be reduced.

Third, it is possible to minimize the welding work by using brackets for connecting pipes for installation of frames, etc., thereby reducing the risk of fire and securing the safety of construction.

Fourth, by applying a method of inserting a capsule containing a sealing material such as a urethane foam into an anchor bolt fastening hole formed in a concrete wall and sealing the anchor bolt fastening part with the anchor bolt fastening, It is possible to prevent corrosion of the anchor bolt or the frame due to the sealing effect as well as a perfect sealing effect and thus to maintain the solid construction state of the external panel for a long time and to secure the construction quality of the external panel.

1 and 2 are perspective views showing a building exterior wall according to an embodiment of the present invention.
3 is a cross-sectional view showing a building exterior wall according to an embodiment of the present invention;
FIG. 4 is a perspective view illustrating a bracket for supporting each wall of a building exterior wall according to an embodiment of the present invention,
FIG. 5 is a perspective view showing a bracket for a pipe fitting of a building exterior wall according to an embodiment of the present invention and a use state thereof; FIG.
6 is a cross-sectional view sequentially showing respective steps of a method for constructing a building exterior wall according to an embodiment of the present invention
7 is a cross-sectional view showing a conventional building exterior wall

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

FIG. 1 and FIG. 2 are perspective views showing a building exterior wall according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view illustrating a building exterior wall according to an embodiment of the present invention.

As shown in FIGS. 1 to 3, the building exterior wall improves the anchor bolt fastening structure, the construction structure, the support structure of the frame, and the frame construction structure, thereby achieving excellent insulation effect as well as easy construction and safety And the like.

To this end, the building exterior wall includes a concrete wall body 10 having a plurality of support bars (not shown) for fixing exterior panels.

The concrete wall 10 is a wall constituting the outer wall of the building and is constructed through concrete pouring. A plurality of bolt fastening holes 19 for fastening the anchor bolts 11 are formed in the concrete wall 10, .

Here, the support bar is a member that serves to fix the exterior panel 17, which will be described later, and is installed as a structure to be inserted into the formwork side when the concrete is inserted for the construction of the concrete wall body 10, After the installation, the support bar is protruded by a predetermined length from the wall. The method of installing the support bar is not greatly different from that of the prior art, and a detailed description thereof will be omitted.

In addition, the building exterior wall includes a heat insulating material 15 as a means for insulating the building.

The heat insulating material 15 is in the form of a rectangular plate having a predetermined thickness made of a material such as styrofoam or the like and is disposed in close contact with the front surface of the concrete wall body 10 and has an anchor bolt 11 fastened to the concrete wall body 10 As shown in FIG.

A plurality of bolt through holes 14 penetrating the thickness of the insulating material 15 are formed in the heat insulating material 15. Each bolt through hole 14 is formed in each bolt fastening hole 19 formed in the concrete wall 10, As shown in FIG.

Of course, the bolt through-holes 14 formed in the heat insulating material 15 may be formed in advance by a separate tool, or may be formed in advance by inserting the heat insulating material 15 with the anchor bolts 11 when the anchor bolts 11 are fastened during the field construction. May be formed by a direct punching method.

In addition, the building exterior wall includes anchor bolts 11 as means for supporting the frame 16 on the side of the concrete wall.

The anchor bolt 11 is provided with an arm member 11a to be inserted into a bolt fastening hole 19 of a conventional anchor bolt such as a concrete wall member 10 used for constructing a building, It is possible to apply a conventional anchor bolt composed of the male member 11b to be fastened in the bolt fastening hole 19 as an intermediate.

The building exterior wall also includes an angle 12 and linkage 13 as means for substantially supporting the frame 16.

For this purpose, the bar-shaped connecting rod 13 is provided on the bottom surface of the horizontal member of the angle " b " And is integrally joined in a horizontal posture.

A hole 24 for penetrating the anchor bolt 11 is formed in the vertical member of the angle 12 and an anchor bolt 11 So that the entirety of the angle 12 including the connecting rod 13 can be fixedly fixed to the concrete wall 10 due to the angles 12 thus installed .

That is, when the anchor bolt 11 is fastened to the bolt fastening hole 19 of the concrete wall 10 while passing through the hole 24 of the angle 12 and the bolt through hole 14 of the heat insulating material 15 in order, The angle 12 is pressed toward the front surface of the heat insulating material 15 by the fastening force exerted by the nut 18 fastened to the threaded portion of the anchor bolt 11 at this time, and the heat insulating material 15 is pressed, Can be closely adhered to the concrete wall body 10 side.

In addition, the building exterior wall includes a sealing material capsule 20 as means for maintaining water tightness and airtightness at the anchor bolt fastening portion and its periphery.

The sealing material capsule 20 is made of a soft synthetic resin material such as urethane foam which can be easily broken by impact or pressure.

The sealant encapsulant 20 is filled with a sealing material in a paste state or a liquid state, for example, a normal sealing material used for waterproofing the building. The sealing material encapsulant 20 filled with the sealing material is placed on the concrete wall 10 And is inserted into the formed bolt fastening hole 19, for example, inside the fastening hole.

As a result, when the anchor bolts 11 are fastened to the bolt fastening holes 19 of the concrete wall 10, the sealant capsules 20 are pushed down by the anchor bolts 11, The sealing liquid contained in the inside of the anchor bolt 11 and the sealing liquid in the inside of the anchor bolt 11 flows into the bolt tightening hole 19 tightened with the anchor bolt 11 so that water tightness and airtightness .

Since the sealing and encapsulating process is completed with the sealant capsule 20 popping up only by tightening the anchor bolt 11, additional work such as application of sealant can be excluded as in the past. .

In addition, the building exterior wall includes a frame 16 as a means for supporting the exterior panel 17 from the inside.

The frame 16 is formed by combining a plurality of frame tubes 21, for example, a plurality of square tubes in a lattice-like frame structure.

These frames 16 are installed in such a structure that they are supported by the connecting rods 13 while being vertically arranged in parallel to the front surface of the concrete wall 10, substantially at a distance from the front surface of the heat insulating material 15.

Particularly, the connecting rod 13 and the frame 16 are connected to each other through a bracket 22 for supporting each tube.

4, the bracket 22 for supporting the respective tubes is composed of a "C" -shaped body portion 22b and a body portion 22b having a shape bent at right angles at one end of the body portion 22b And the wings 22a are formed integrally with each other.

In this state, the body portion 22b of each tube supporting bracket 22 is in the shape of a square bar. The wing portion 22a is in close contact with the rear surface of the frame tube 21 and the body portion 22b is connected to the connecting rod 13 while both wing portions 22a are connected to the frame 13, So that the connecting rod 13 and the frame 16 can be integrally coupled to each other via the respective tube supporting brackets 22.

By using the bracket 22 for supporting each pipe when connecting the connecting rod 13 and the frame 16, it is possible to eliminate the welding work which is dangerous to the fire and to simplify the connecting work only by fastening bolts .

Each of the frame pipes 21 of the frame 16 is integrally connected to each other via the pipe joint bracket 23, so that a rectangular frame structure can be formed as a whole.

For this purpose, as shown in Fig. 5, the bracket 23 for each pipe joint is provided with a " C "-shaped bending member disposed at an interval corresponding to the width of the frame tube 21, A body portion 23b constituted by a connection plate and both wing portions 23a integrally formed by being bent upwardly and downward at right angles at one end portion of each bending member of the body portion 23b .

Accordingly, the two frame tubes 21, which take the vertical posture and the horizontal posture, are arranged so as to intersect with each other.

For example, two frame tubes 21, which are arranged in a line and arranged at equal heights, are disposed on both sides of one frame tube 21 taking a vertical posture while being in contact with their respective ends in a horizontal posture.

In this state, the both-side bending members of the body portion 23b of the bracket 23 surround the three sides of the frame tube 21 in the horizontal posture, The upper and lower wing portions 23a of the body portion 23b are connected to the vertical frame tube 21 in a horizontal frame tube 21 So that the intersections between the frame pipes 21 of the frame 16 can be integrally joined by the brackets 23 for each pipe joint.

At least one of the frame tubes 21 of each of the frame tubes 21 constituting the lattice frame structure of the frame 16 has an end portion made up of the tube portion 25.

Accordingly, when the plurality of frame tubes 21 are connected, the shaft tube portion 25 in the frame tube 21 is inserted into the end of the frame tube 21 corresponding to the frame tube 21, The plurality of frame tubes 21 can be connected and used as efficiently as required.

Thus, there is an advantage in that rigidity can be ensured with respect to the connecting portion when connecting the frame tubes 21 using the shaft portion 25, as well as a smooth appearance can be obtained.

Hereinafter, a method of constructing a building exterior wall provided by the present invention will be described.

FIG. 6 is a sectional view sequentially showing respective steps of a method for constructing an exterior wall of a building according to an embodiment of the present invention.

As shown in FIG. 6, first, a step of placing a heat insulating material 15 in the form of a styrofoam plate in close contact with the front surface of the concrete wall 10 is performed.

At this time, a bolt through-hole 14 for penetrating the anchor bolt 12 may be formed in the heat insulating material 15 in advance.

When the heat insulating material 15 is disposed in close contact with the concrete wall 10, that is, when the heat insulating material 15 is pressed against the concrete wall 10, the support bar protruding from the concrete wall 10 passes through the heat insulating material 15) and come out to the outside.

Next, the anchor bolts 11 having the angles 12 and the connecting rods 13 interposed therebetween are fastened to the bolt fastening holes 19 of the concrete wall body 10 from the front surface of the heat insulating material 15, 12 and the connecting rod 13 to the side of the heat insulating material 15 and fixing the heat insulating material 15 to the concrete wall 10 side.

That is, the connecting rod 13 and the angle 12, which are attached together by welding or bolting, are attached to the anchor bolt 11 in a state where the anchor bolt 11 is inserted into the hole 24 of the angle 12 The position of the anchor bolt 11 is aligned with the bolt through hole 14 and the bolt fastening hole 19 lying on the straight line and then the bolt fastening hole 19 of the inner concrete wall body 10 from the outside of the heat insulating material Tighten the anchor bolts (11).

The connecting rod 13 and the angle 12 are firmly fixed together with the anchor bolt 11 and the thermal insulating material 15 pressed by the angle 12 is further tightly adhered to the concrete wall 10 side.

Particularly, in the step of fastening the anchor bolts 11 to the concrete wall body 10, the sealing material capsule 20 may be blown and sealed.

That is, after a bolt fastening hole 19 is formed in the concrete wall 10 at the time of or after the construction of the concrete wall 10, the sealing material capsule 20 containing the sealing material is inserted into the bolt fastening hole 19 The sealant capsule 20 is blown by the end portion of the anchor bolt 11 so that the sealing liquid contained in the anchor bolt 11 is blown out by fastening the anchor bolt 11 to the bolt fastening hole 19 of the concrete wall 10 And the periphery including the inside of the bolt fastening hole 19 is completely filled with the sealing liquid, so that the sealing treatment by the sealing liquid can be performed naturally at the same time as the anchor bolt fastening.

Next, the frame 16 is vertically arranged so as to be spaced apart from the heat insulating material 15, and then the frame 16 is fixed to the connecting block 13 fixed by the anchor bolts 11.

The main body portion 22b of each tube supporting bracket 22 is provided with the main body portion 22b and the wing portion 22a, While simultaneously tightening the wing portions 22a on both sides of the frame tube 21 in close contact with each other.

Accordingly, the frame 16 is installed in a structure that is supported by a plurality of connecting rods 13 via the bracket 22 for supporting each pipe.

At this time, in the case of the frame 16, a grid-like frame structure can be manufactured by the bracket 23 for each pipe consisting of the body portion 23b and the wing portion 23a.

For example, the three sides of the frame tube 21 horizontally disposed on the body portion 23b of the tube fitting bracket 23 are wrapped on the connecting portion between the frame tubes 21 mutually intersecting the frame 16 And the upper and lower wings 23a are fastened to both sides of the vertically disposed frame tube 21 and tightened while the vertically framed tube 21 and the horizontal frame tube 21 are connected to each other through the tube joint bracket 23 To form a frame 16 having a lattice frame structure.

Next, after the frame is installed, the exterior panel 17 is closely attached to the front surface of the frame 16, and is connected to the support bar formed on the concrete wall 10 to fix and install the exterior panel 17. Can be completed.

Here, the operation of connecting the external panel to the support bar is the same as that of the conventional external panel installation operation, so a detailed description thereof will be omitted.

As described above, in the present invention, when the exterior wall structure is applied to the exterior wall of the new and / or the new building, the anchor bolt and the angle are directly fastened to the outside of the heat insulating material with the heat insulating material adhered to the concrete wall side. By applying a new method such as using a bracket for supporting each pipe and a bracket for supporting each pipe when sealing the frame and installing the frame, it is possible to simplify the whole construction work as well as the complete insulation work, and as the risk of fire is excluded The safety of construction can be ensured.

10: Concrete wall
11: Anchor bolt
12: Angle
13: Links
14: Bolt through hole
15: Insulation
16: frame
17: External panel
18: Nuts
19: Bolt tightening hole
20: sealing material capsule
21: Frame tube
22: Support bracket for each tube
23: Bracket for each pipe
24: Hall
25:

Claims (14)

A support bar protruding from the concrete wall body 10; a heat insulating material 15 closely attached to the concrete wall body 10; anchor bolts 11 fastened to the concrete wall body 10; A frame 16 having a lattice-like frame structure supported by the connecting block 13 while being spaced from the concrete wall block 10 and arranged in parallel to the concrete wall block 10; And an outer panel 17 which is in close contact with the front surface of the frame 16 and is fixed to the support bar,
The anchor bolts 11 pass through the bolt through holes 14 formed in the heat insulating material 15 and are fastened in the bolt fastening holes 19 formed in the concrete wall 10 so that the heat insulating material 15 is pushed toward the concrete wall 10 The anchor bolt 11 passes through the hole 24 of the angle 12 and the bolt through hole 14 of the heat insulating material 15 in turn so that the bolt fastening hole 19 of the concrete wall body 10 The angle 12 is pressed toward the front surface of the heat insulating material 15 by the fastening force exerted by the nut 18 fastened to the threaded portion of the anchor bolt 11 to press the heat insulating material 15, (15) can be closely adhered to the side of the concrete wall (10)
In the bolt fastening hole 19 of the concrete wall 10, a sealing material in a paste state or a liquid state for the purpose of watertightness and airtightness is contained, and a sealant capsule 20 blown at the time of anchor bolt fastening is bolted When the anchor bolts 11 are fastened to the bolt fastening holes 19 of the concrete wall 10, the sealing material capsules 20 are pressed by the anchor bolts 11, And the sealant contained in the sealing material capsule 20 flows out to fill the inside of the bolt fastening hole 19 in which the anchor bolt 11 is fastened.
delete delete delete The method according to claim 1,
, And a bracket (22) for supporting each pipe as a coupling means between the connecting block (13) and the frame (16).
The method of claim 5,
The tube supporting bracket 22 has an integral structure of a wing portion 22a which is tightly coupled to the back surface of the frame tube 21 and a body portion 22b which is fastened while covering the three sides of the connecting rod 13 Wherein the wall is made of a metal.
The method according to claim 1,
And a bracket (23) for each pipe joint as a coupling means between two frame pipes (21) intersecting each other in the frame (16).
The method of claim 7,
The bracket 23 for each pipe joint includes two wing portions 23a which are tightly coupled to both sides of the vertically arranged frame pipe 21 and a pair of vertically disposed frames 23a, And a body portion (23b) tightly attached to a front surface of each tube (21) and fastened to a horizontal frame tube (21).
The method according to claim 1,
The frame pipe 21 of the frame 16 is formed in each pipe end and includes an axial pipe portion 25 which is fitted into an end of the pipe frame 21, Which is characterized in that it can be attached and used.
A method of sequentially installing a heat insulating material, a frame, and an external panel on a front surface of a concrete wall,
Placing a heat insulating material in close contact with a front surface of the concrete wall;
Tightening an anchor bolt in which an angle and a connecting rod are coupled to the bolt fastening hole of the concrete wall from the front surface of the heat insulating material so that the angle and the connecting rod are closely fixed to the heat insulating material side and the heat insulating material is pressed and fixed to the concrete wall side;
Connecting the frame to the connecting block in a state of being arranged side by side away from the heat insulating material;
Placing the external panel in close contact with the front surface of the frame, and then connecting and fixing the external panel to a support bar formed on the concrete wall;
Lt; / RTI >
The anchor bolt can be tightly fixed to the concrete wall side while being fastened in a bolt fastening hole formed in a concrete wall body through a bolt through hole formed in the heat insulating material. The anchor bolt is fastened to the bolt through hole The angle is pressed toward the front surface of the heat insulating material by the fastening force exerted by the nut fastened to the threaded portion of the anchor bolt, so that the heat insulating material is pressed tightly on the side of the concrete wall And can be brought into close contact with each other,
A sealing material in a paste state or a liquid state for the purpose of watertightness and airtightness is contained in the bolt fastening hole of the concrete wall and a sealing material capsule which is blown up when the anchor bolt is fastened is inserted into the inner end of the bolt fastening hole, When the anchor bolt is fastened to the bolt fastening hole of the concrete wall, the sealing material capsule is pushed down by the anchor bolt, and the sealant inside the sealing material capsule flows out to fill the bolt fastening hole fastened with the anchor bolt Wherein the method comprises the steps of:
delete delete The method of claim 10,
In the step of joining the frame to the linking block, the linking block and the frame are combined using the bracket for supporting the corrugated pipe having the integrated structure of the wing portions that are tightly coupled to the back surface of the frame tube and the body portion, The method of claim 1,
The method of claim 10,
The connecting portions of the frame crossing the frames intersect with each other. The frame portions are vertically disposed on both sides of the frame, and the frame portions are closely attached to the entire surface of the frame, And a body part fastened to a horizontal frame of each frame is connected to each other by using a bracket for each pipe joint.

Images