KR20220094843A - Supporting part of permanent waling and under ground structure construction method using it - Google Patents

Abstract

The present invention relates to a permanent wale support installed on an outer wall below a wale and a girder so as to support the wale installed in front of an outer wall and the girder connected to the wale. The permanent wale support of the present invention is fixedly joined to the outer surface of the outer wall below a position where the wale and the girder are installed to support the wale and the girder, and has the flat upper surface. Therefore, a wale support member is not attached to a main column of a retaining wall at a time of construction at a site, but is attached at a factory before the construction at the site, and then site construction is performed, so that fall of a worker can be prevented. In addition, since a welding work is not performed in a field, corrosion and fire can be prevented. In addition, since an accident is prevented in advance, safety can be improved.

Description

Permanent wale support member and underground structure construction method using the same

The present invention relates to the field of civil engineering, and more particularly, to a permanent wale support member used for construction of an underground structure without a facility, and to a method of constructing an underground structure using the same.

1 is a cross-sectional view showing the installation state of a conventional wale and girder.

In the conventional construction method of the underground structure, the construction is performed in the order of installing the strut 30 after installing the wale 40 on the inside of the wall.

Here, the wale 40 and the strut 30 function to resist the transverse earth pressure of the earth during construction, and a girder that functions as a frame structure should be installed during common use.

In this conventional construction method, it is necessary to fill in the groove generated between the wall and the wale (40).

That is, in the prior art, after constructing the wall, excavating to a predetermined depth to expose the piles of the wall, attaching the bracket to the exposed piles, mounting the wale 40, and installing the struts 30 in the horizontal direction.

Ideally, the wale 40 is installed in close contact with the wall to support the earth pressure, but in reality, the piles of the wall are not uniformly arranged or the cross-section of the wall is uneven, so a groove is naturally formed between the wall and the wale 40 will be.

Therefore, there is a problem in that the installation workability of the wale 40 is lowered, and the structural stability is lowered because the earth pressure is not evenly transmitted to the wale.

Conventionally, through a method of filling the groove with a filling material made of concrete or mortar or installing a block for filling the groove, the ground plane of each stake and the wale 40 is uniform.

In addition, a separate bracket 50 for supporting them is installed on the lower side of the wale 40 and the strut 30 or the girder, and the bracket 50 is disposed in the vertical direction with respect to the wall and directly 40) and the strut 30 or the horizontal support part 51 in contact with the girder and the inclined support part 52 arranged to form an inclination with the wall to support one side of the lower surface of the horizontal support part 51 .

The horizontal support part 51 and the inclined support part 52 constituting the bracket 50 are fixedly coupled to the outer surface of the wall by a bonding method such as welding in the field, respectively.

Therefore, in the conventional construction method of an underground structure, as described above, the components such as the horizontal support part 51 and the inclined support part 52 constituting the bracket 50 are formed of the wall by a joining method such as welding at the construction site. Since it is fixed to the outer surface, there is a problem that the frequency of occurrence of construction accidents may increase due to reduced stability because on-site fires may occur during welding work.

The present invention was derived to solve the above problems, and instead of attaching the wale support member to the main pole of the retaining structure wall at the time of construction at the site, attach it at the factory before construction at the site, and then perform the site construction. The purpose of this is to present a permanent wale support member that prevents corrosion and fire and improves safety by preventing corrosion and fire by preventing the fall of the device and preventing welding work in the field. do.

In order to solve the above problems, the present invention is a wale belt installed in front of the outer wall and a permanent wale support installed on the outer wall below the girder to support the wale and the girder connected to the girder, the wale and the girder It is fixedly bonded to the outer surface of the outer wall below the installation position to support the wale and the girder, and provides a permanent wale support member, characterized in that it has a flat upper surface.

Here, the permanent wale supporting member is arranged in parallel with the width direction of the outer wall and a pair of transverse supporting members are installed to be spaced apart from each other, and the horizontal supporting member and the transverse supporting member are arranged in parallel with the height direction of the outer wall. It may include a vertical support member provided integrally with the horizontal support member between the members.

And, the width of the horizontal support member may be formed to have the same width as the width of the outer wall.

In addition, the permanent wale support member is bonded to the outer surface of the pillar constituting the outer wall in the factory, not the construction site, so that it can be transported to the construction site in a state fixed to the pillar.

In order to solve the above problems, the present invention includes a first step of joining the permanent wale support member to the outer surface of the pillar constituting the outer wall body; a second step of constructing the outer wall by perforating the ground on which the outer wall is to be constructed as much as the width of the pillar and the entire permanent wale supporting member; a third step of installing one lower surface of the girder to be seated on the upper surface of the permanent wale support member after excavating the ground in front of the outer wall; a fourth step of installing a wale in a space between the girder and the outer wall so that the wale and the girder are mutually fixed; We present a method of constructing an underground structure using a permanent wale support member, characterized in that it includes

Here, the permanent wale support member is bonded to the outer surface of the pillar constituting the outer wall in the factory, not the construction site, so that it can be transported to the construction site in a state fixed to the pillar.

The permanent wale support member according to the present invention is not attached to the main pillar of the retaining structure wall at the time of construction, but at the factory before on-site construction. can have an effect.

In addition, there is an effect that can improve safety by preventing corrosion and fire and preventing safety accidents in advance by preventing welding of the wale support member to the main pillar of the retaining structure wall in the field.

1 is a cross-sectional view showing the installation state of a conventional wale and girder,
2 is a perspective view showing a structure in which a permanent wale support member is joined to an outer wall according to an embodiment of the present invention;
3 is a cross-sectional view showing a state in which a wale and a girder are installed, including a permanent wale supporting member according to an embodiment of the present invention;
4 is a plan view showing a structure in which a permanent wale support member is installed on an outer wall according to an embodiment of the present invention;
5 is a construction flow chart sequentially describing a method of constructing an underground structure using a permanent wale support member according to an embodiment of the present invention.

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

2 is a perspective view showing a structure in which a permanent wale supporting member is joined to an outer wall according to an embodiment of the present invention, and FIG. is a cross-sectional view showing a state in which is installed, Figure 4 is a plan view showing a structure in which the permanent wale supporting member is installed on the outer wall according to an embodiment of the present invention, Figure 5 is a permanent wale according to an embodiment of the present invention This is a construction flow chart sequentially describing the construction method of an underground structure using a supporting member.

As shown in these drawings, the permanent wale supporting member according to the present invention supports the wale 2 installed in front of the outer wall 1 and the girder 3 connected to the wale 2 (2) and the girder (3) as a permanent wale support installed on the outer wall body (1) below the girder (2) and the girder (3) is fixedly bonded to the outer surface of the outer wall below the location where the girder (3) is installed. It is characterized in that it is provided with a flat upper surface to support the wale (2) and the girder (3).

As described above, the permanent wale supporting member according to the present invention provides structural stability by supporting structures such as the wale 2 installed in front of the outer wall 1 and the girder 3 connected to the wale 2 role in improving it.

The conventional permanent wale supporting member was installed by a bonding method such as welding at the construction site, but the present invention reduces the work at the construction site because the permanent wale supporting member is manufactured and joined at the factory instead of the construction site. By minimizing the work of manpower at the construction site, it is possible to minimize construction accidents that may occur at the construction site.

However, in the case of the girder 3 and the bearing supporting the girder to prevent the flow in the vertical direction in FIG. 3, if it is for temporary use (demolition after installation construction), it is assembled with bolts as shown in FIG. 3, but permanently In the case of using it as a welding machine, it is welded at the factory and transported to the site.

This permanent wale support member 100 is arranged in parallel with the width direction of the outer wall body 1, and a pair of horizontal support members 110 installed to be spaced apart from each other by a predetermined interval, and the outer wall body 1, arranged in parallel with the height direction It is configured to include the horizontal support member 110 and the horizontal support member 110 and the vertical support member 120 provided integrally with the horizontal support member (110).

The horizontal support member 110 is a member that is arranged in parallel with the width of the pillars constituting the outer wall body 1 to form a flat upper surface, and is installed in pairs to be spaced apart from each other by a predetermined interval along the height direction of the pillar.

The horizontal support member 110 is fixedly coupled to the outer surface of the column constituting the outer wall body 1 by a bonding method such as welding, and the horizontal support member 110 can increase the supporting force for supporting a structure such as the girder 3 . It is effective to additionally install the horizontal support member 110 at a location spaced apart by a predetermined interval so that the pair of horizontal support members 110 are connected by the vertical support member 120 .

In addition, the width of the horizontal support member 110 is formed to have the same width as the width of the column constituting the outer wall body 1, so that it is effective to maximize the supporting force by bonding to the outer surface of the column.

The vertical support member 120 is a horizontal support member 110 between the horizontal support member 110 and the horizontal support member 110 to improve the supporting force for supporting a structure such as the girder 3 as described above. It is a member provided in the longitudinal direction to connect.

The vertical support member 120 is integrally formed with the horizontal support member 110 to increase structural stability and rigidity, and is joined together with the horizontal support member 110 on the outer surface of the column constituting the outer wall 1 by welding, etc. It is fixedly coupled by a method.

The length of the vertical support member 120 is preferably determined according to the weight of the structure, such as the girder (3) seated on the upper surface of the horizontal support member (110).

When the weight of a structure such as the girder 3 seated on the upper surface of the horizontal support member 110 is large, it is formed to have a relatively long length so as to increase the supporting force, so that it is joined to the outer surface of the outer wall body 1, and the girder ( When the weight of the structure as in 3) is small, it is effective to form it to have a relatively short length to reduce material costs.

Permanent wale support member 100 consisting of a horizontal support member 110 and a vertical support member 120 is bonded to the outer surface of the column constituting the outer wall body 1 at the factory, not the construction site, and is fixed to the column. It is preferable to be transported to the construction site in the state.

The permanent wale support member 100 is bonded to the outer surface of the pillar constituting the exterior wall 1 at the factory, not the construction site, and is transported to the construction site in a fixed state so that the construction of the exterior wall 1 is made at the construction site. It has the effect of minimizing the work of manpower at the construction site by reducing the work of .

The process of constructing a wale and a girder using the permanent wale supporting member according to the present invention having the above-described configuration will be described with reference to FIG. 5 as follows.

First, the permanent wale support member 100 is joined to the outer surface of the pillar constituting the outer wall 1 at the factory, not the construction site, by welding or the like, and transported to the construction site in a fixed state.

Then, the ground on which the outer wall body 1 is to be constructed is drilled as much as the width of the entire width of the pillar and the permanent wale supporting member, and the pillar to which the permanent wale supporting member 100 is fixed is penetrated into the drilling hole to construct the outer wall (1). do.

After that, after digging the ground in front of the outer wall (1) to prepare a space, one lower surface of the girder (3) is placed on the flat upper surface of the horizontal support member (110) constituting the permanent wale support member (100) according to the present invention will settle down

Here, in order to maximize the area in contact with the flat upper surface of the transverse supporting member 110 so that the lower surface of one side of the girder 3 can be stably supported by the transverse supporting member 110, the girder 3 is attached to the outer wall body (1). It is effective to make it as close as possible to the

And, when one side of the wale 2 is fixed to one side of the girder 3, the wale 2 and the outer wall 1 are spaced apart by a predetermined interval to form a spaced space.

In this state, the construction of the underground structure is completed by installing a separate fixing member in the separation space so that the girder 3 is firmly connected to the outer wall 1 by the permanent wale support member.

As described above, the permanent wale supporting member according to the present invention does not attach the wale supporting member to the main pillar of the retaining structure at the time of construction at the site, but attaches it at the factory before on-site construction. It is possible to prevent a worker from falling, prevent corrosion and fire by preventing welding work in the field, and to improve safety by preventing safety accidents in advance.

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and It will be said that the technical idea and the technical idea with the root are all included in the scope of the present invention.

1 : Exterior wall 2 : Belt
3: girder
100: permanent band support member
110: horizontal support member 120: vertical support member

Claims (6)

To support the wale 2 installed in front of the outer wall 1 and the girder 3 connected to the wale 2, it is installed in the outer wall 1 below the wale 2 and the girder 3 As a permanent wale support,
Permanent, characterized in that it is fixedly bonded to the outer surface of the outer wall below the position where the wale 2 and the girder 3 are installed to support the wale 2 and the girder 3 and has a flat upper surface. Belt support member. According to claim 1,
The permanent wale support member 100 is arranged in parallel with the width direction of the outer wall body 1 and is parallel to the height direction of the pair of horizontal support members 110 and the outer wall body 1 which are installed to be spaced apart from each other by a predetermined interval. Permanent wale support member, characterized in that it comprises a vertical support member (120) provided integrally with the horizontal support member (110) between the horizontal support member (110) and the horizontal support member (110). 3. The method of claim 2,
The width of the horizontal support member (110) is a permanent wale support member, characterized in that it is formed to have the same width as the width of the outer wall (1). According to claim 1,
The permanent wale support member 100 is bonded to the outer surface of the pillar constituting the outer wall 1 at the factory, not the construction site, and is transported to the construction site in a state fixed to the pillar. support member. As a method of constructing an underground structure using the permanent wale support member according to any one of claims 1 to 4,
a first step of joining the permanent wale support member to the outer surface of the pillar constituting the outer wall body (1);
a second step of constructing the outer wall (1) by perforating the ground on which the outer wall (1) is to be constructed as much as the width of the pillar and the permanent wale support member (100);
a third step of installing the one side lower surface of the girder (3) to be seated on the upper surface of the permanent wale support member (100) after excavating the ground in front of the outer wall (1);
a fourth step of installing a wale in the space between the girder 3 and the outer wall 1 so that the wale 2 and the girder 3 are mutually fixed;
Underground structure construction method using a permanent wale support member, characterized in that it includes. 6. The method of claim 5,
The permanent wale support member 100 is bonded to the outer surface of the pillar constituting the outer wall 1 at the factory, not the construction site, and is transported to the construction site in a state fixed to the pillar. A method of constructing an underground structure using a supporting member.

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