KR20200088051A - Wall members and underground wall using the same - Google Patents

Abstract

The present invention relates to wall members (100) forming an underground wall. Each of the wall members has a body (110) which is formed by a side plate (111), a front plate (112), and a rear plate (113) and has a ″ㄷ″-shaped cross-sectional structure with opening portions formed in the upper and lower portions thereof and the other side thereof. The other end portions of the front plate (112) and the rear plate (113) have inwardly bent hook portions (114). One edge of each of the front plate (112) and the rear plate (113) has an inwardly recessed stepped portion (115). The plurality of bodies (110) forming a wall (A) have a structure in which the hook portions (114) of one body (110a) coupled to one side thereof are coupled to the stepped portions (115) of the other body (110b) coupled to the other side thereof. The side plate (111) has a side plate recessed portion (130) that is recessed to the other side by bending, or has a side plate protrusion portion (130a) protruding to the side. The wall members (100) can increase the structural stability of the underground wall by mitigating the concentration of stress that occurs between the wall members.

Description

Wall member and underground wall using the same{WALL MEMBERS AND UNDERGROUND WALL USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a wall member and an underground wall using the same.

As a method of forming a wall in the ground and constructing a building structure based on it, the top-down method and the like are actively used.

It is first formed as a temporary facility by a CIP (cast in place pile) method, SCW (soil cement wall) method, etc., and adjacent to it, after forming a wall (plywood) seen by pouring concrete again. , It takes a method of constructing a building structure by forming pillars or bearing walls on this main wall.

That is, after drilling the ground along the excavation area, and reinforcing materials such as reinforcing bars and H piles are inserted into the hole, a concrete (cemented concrete or soil concrete) is poured to form a wall.

Also, after curing the reinforced concrete, it is most important to assemble the reinforcement in the field to reinforce the wall because it is most important to support the earth pressure by the earth wall until the strength is developed.

However, in the conventional underground wall construction method, it is difficult to secure a gap between the wall and the reinforcing bar, and there is a possibility that the reinforcing bar is released with time.

In addition, the stiffness is good in the longitudinal direction of the reinforcing bar, but it is difficult to secure the stiffness as it is constructed with each ball separately in the lateral direction, so there is a possibility that displacement occurs in the wall during excavation.

In addition, since the reinforcing effect by the transverse reinforcing bar is low, the strength of the permanent wall is also lowered, and there is a problem in that the order and the waterproofness are disadvantageous.

The existing technology requires a double construction of an underground wall (a retaining wall) and a main wall (a composite wall), and thus has a problem in that it takes a lot of economical cost and lengthens the construction period as it takes a lot of cross-section.

In order to solve this problem, a method of constructing an underground wall using the wall member 100 of each tube structure has been proposed as follows.

1 to 4 relates to Korea Patent Publication No. 10-2015-0039406 (the construction method of the underground wall using the wall member 100).

Here, the wall member 100 includes a main body 110 having a rectangular box structure in which a tung portion is formed above and below; A plurality of partition walls 120 formed inside the body 110 so as to have a lattice structure; Includes; guide member 130 is installed on the inner surface of the partition wall 120, the guide member 130 is a pipe member 131 is formed so that the reinforcing bar 133 is inserted; It is characterized by a structure comprising a spacer member 132 which maintains mutual spacing by being coupled to the inner front of the tube member 131 and the partition wall 120 or the inner back of the tube member 131 and the partition wall 120 ( Fig. 1).

That is, in the previous underground wall construction method, it is difficult to secure a gap between the wall and the reinforcing bar, and there is a problem in that the reinforcing effect of the reinforcing bar wall is considerably deteriorated because there is a possibility that the reinforcing bar is detached. , In order to prevent this problem by permanently maintaining the distance between the inner surface of the partition wall 120 and the reinforcing bar 133 in the interior of the wall member 100 (Fig. 2).

Therefore, as the space between the partition wall 120 and the reinforcing bar 133 is permanently secured through the spacer 132, the reinforcing effect by the reinforcing bar 133 can be enhanced to maximize the strength of the wall, and displacement to the wall. It has the effect of preventing the possibility of occurrence.

In addition, by preventing the possibility of displacement in the wall, there is an advantage that it is possible to secure the water-repellent and waterproof properties of the wall.

In addition, after forming the finishing wall 400 on the front surface of the underground wall 200 formed by pouring concrete on the wall member 100, an integrated structure of the underground wall 200 and the finishing wall 400 is implemented to make the overall permanent. There is an advantage that it can be used as a wall (Fig. 3, 4).

5 to 9 relates to Korean Patent Publication No. 10-2015-0039407 (underground wall construction method using a wall member 100 having excellent water and water resistance).

Here, the wall member 100 includes a main body 110 having a rectangular box structure in which a tung portion is formed above and below; A plurality of partition walls 120 formed inside the body 110 so as to have a lattice structure; A locking part 140 formed on one side surface of the main body 110 to enable the coupling member 150a of the adjacent wall members 100 and 100a to slide up and down in the vertical direction; It is characterized by a structure comprising a; binding unit 150 formed on the other side of the main body 110 so as to be able to engage the sliding member 140b of the other adjacent wall members 100 and 100b in the vertical direction (Fig. 5).

That is, in the previous underground wall construction method, when joining the wall, there is a possibility that the joint of the wall connection is poor, and this may cause displacement to deteriorate the water resistance, waterproofness, and strength of the wall. And by connecting the connection portion of the wall through the binding portion 150 to be made solid, it is possible to obtain an effect of improving the water resistance, water resistance and strength, as well as securing stability when the wall is near.

The locking portion 140 and the binding portion 150 are simple through the slide fitting in the up and down direction, but the bonding is securely maintained, so the operation is easy, and there is an advantage that structural stability can be secured.

In addition, as in the prior art, since there is no need to reinforce the longitudinal displacement by separately inserting the wedge pile, it is possible to reduce the economic cost and obtain the effect of easy construction.

In addition, the wall member 100 is characterized in that it is possible to secure the gap between the partition wall 120 and the reinforcing bar 133 through a structure in which the guide member 130 is installed on the inner surface of the partition wall 120 (FIG. 9). .

10 to 14 relates to Korean Patent Publication No. 10-2015-0039408 (wall member 100 for preventing the inflow of grout or slime into the pipe and an underground wall using the same and a construction method thereof).

Here, the wall member 100 includes a main body 110 having a rectangular box structure in which a tung portion is formed above and below; A plurality of partition walls 120 formed inside the body 110 so as to have a lattice structure; In addition to being installed inside the main body 110, the upper and lower divisions to prevent the grout or slime from flowing into the upper portion prevent the inflow member 140; characterized in that the structure comprises a.

That is, in the previous underground wall construction method, since the grout, slime, etc. in the vicinity (2) region of the perforated hole flows into the pipe when the wall is approached, the reinforcing bar network in the underground wall may be injured or deterioration of the wall concrete may occur. However, in the prior art, in order to fundamentally prevent such a problem, a structure is proposed to prevent slime in the near-entrance (2) region from entering the tube.

In other words, by installing the inflow prevention member 140 in the interior of the wall member 100 so as to be disposed in the vicinity of the perforated hole, the grout or slime at the bottom of the member 140 is blocked from entering the upper portion and shared. , It prevents the problem of the slime inflow into the tube of the wall member 100 by default (Fig. 10, 11, 12).

Through this, the concrete quality and strength of the underground wall 200 formed by pouring concrete inside the wall member 100 can be secured, and when the wall member 100 is approached, the inside of the member is separately cleaned to grout or Since the hassle of removing the slime can be reduced, there is an advantage in terms of workability and economy.

In addition, the wall member 100 is characterized in that the gap between the partition wall 120 and the reinforcing bar 133 can be secured through a structure in which the guide member 130 is installed on the inner surface of the partition wall 120 (FIG. 13, 14).

On the other hand, these prior arts had the following problems.

Each wall member 100 forming the underground wall is joined by mutual welding, and rigidity is secured by reinforced concrete placed therein to resist the back pressure.

However, since the reinforced concrete placed inside each wall member 100 behaves independently of each other, the problem is that stress concentration occurs in the welded joint between each wall member 100 due to the earth pressure of the back soil.

The reference numerals of the above prior art are to be limited only to the description of the prior art.

1. Korea Patent Publication No. 10-2015-0039406 2. Korean Patent Publication No. 10-2015-0039407 3. Korean Patent Publication No. 10-2015-0039408

The present invention has been derived to solve the above problems, and to propose a wall member and an underground wall using the same to relieve stress concentration generated between each wall member to increase the structural stability of the underground wall. For that purpose.

In order to solve the above problems, the present invention is a wall member 100 for forming an underground wall, and is formed by one side plate 111, a front plate 112, and a back plate 113, and the upper and lower parts and the other side. Equipped with a main body 110 having a "c" shaped cross-sectional structure in which a tipped portion is formed, and the other end portions of the front plate 112 and the back plate 113 are formed with an inwardly bent ring portion 114, the front side One edge of the plate 112 and the rear plate 113 is formed with a stepped portion 115 recessed inward, and a plurality of the main bodies 110 constituting the wall portion A are coupled to one side. The ring portion 114 of (110a) is coupled to each other in a structure that is coupled to the step portion 115 of the other body (110b) is coupled to the other side, the one side plate 111 is recessed to the other side by bending Presenting the wall member 100, characterized in that the side plate depression 130 is formed, or the side plate protrusion 130a protruding to one side is formed.

The side plate depression 130, a side opening portion 131 formed in the central portion of the one side plate 111; A lateral closing portion 132 formed on the other side of the side opening portion 131 so as to have a width greater than the width of the side opening portion 131; It is preferable to include; a lateral inclined closing portion 133 formed to join the both ends of the side closing portion 132 and the edge of the side opening portion 131.

The front plate 112 is preferably formed with a front plate depression 140 recessed rearward by bending or a front plate protrusion 140a protruding forward.

The front plate depression 140 includes: a front opening 141 formed in a central portion of the front plate 112; A rear closing portion 142 formed at a rear side of the front opening 141 to have a width greater than that of the front opening 141; It is preferable to include; a front inclined closing portion 143 formed to join the both ends of the rear closure portion 142 and the front edge portion 141.

The back plate 113 is preferably formed with a back plate depression 150 that is recessed forward by bending or a back plate protrusion 150a that is projected backward.

The back plate recessed portion 150 includes: a rear opening portion 151 formed in a central portion of the back plate 113; A front closing portion 152 formed in front of the rear trim portion 151 to have a width greater than that of the rear trim portion 151; It is preferable to include; a rear inclined closing portion 153 formed to engage both ends of the front closing portion 152 and the edges of the rear opening portion 151.

The present invention is an underground wall using the wall member (100), the wall member (100) is formed by being coupled to one side and the other side of the H-shaped steel column 200, respectively (B); A plurality of the main body 110 is opened and coupled along the lateral direction, the wall portion (A) coupled to one side and the other end of the support portion (B); including, but, the coupled to the support portion (B) The steel column 200 proposes an underground wall characterized in that a protrusion 210 protruding further downward is formed than a plurality of the main bodies 110 coupled to the support part B.

The step portion 115 of the main body 110 coupled to one side edge of the wall portion A and the support portion B is coupled to the other side edge of the other wall portion A and the support portion B. It is preferable that the coupling portion 116 coupled with the ring portion 114 of the main body 110 is coupled to the standing structure along the vertical direction.

The coupling portion 116 is coupled to each of the step portion 115 formed on the front plate 112 and the rear plate 113 of the main body 110, one side coupling portion 116a coupled to one edge ); A central coupling portion 116b coupled to the central portion; Includes; the other side coupling portion (116c) coupled to the other edge, the one side coupling portion (116a) is coupled to the upwardly inclined structure along the lower direction, the other coupling portion (116c) is a downwardly inclined structure along the lower direction It is preferably combined with.

The present invention is a construction method of the underground wall, a perforation step of continuously forming a plurality of perforation holes (h) on the ground (10); A grouting step of grouting inside the perforation hole (h); A support part installation step of inserting the support part (B) into the perforation hole (h), so that the protrusion part 210 of the steel column 200 is inserted into the lower surface of the perforation hole; A wall part installation step of coupling the wall part (A) to the support part (B); Presenting a method for constructing an underground wall, comprising; forming an underground wall by pouring concrete into the inner and surrounding areas of the support portion (B) and the wall portion (A).

The present invention proposes a wall member and an underground wall using the same to relieve stress concentration generated between the wall members to increase the structural stability of the underground wall.

1 to 14 show the prior art,
1 to 4 are views of Korean Patent Publication No. 10-2015-0039406.
5 to 9 are views of Korean Patent Publication No. 10-2015-0039407.
10 to 14 are views of Korean Patent Publication No. 10-2015-0039408.
15 or less shows an embodiment of the present invention,
15 is a sectional view of a first embodiment of a wall member.
16 is a sectional view of a second embodiment of a wall member.
Fig. 17 is a sectional view of a wall part.
18 is a cross-sectional view of the support.
19 is a side view of the support.
20 is a sectional view of a third embodiment of a wall member.
21 is a side view of a third embodiment of a wall member.
22 is a sectional view of a fourth embodiment of a wall member.
23 is a side view of a fourth embodiment of a wall member.
24 is a cross-sectional view of the underground wall.
25 is a perspective view of an underground wall in a state where the ring portion is coupled to one side coupling portion.
26 is a perspective view of an underground wall in a state where the ring portion is coupled to the central coupling portion.
27 is a perspective view of an underground wall in a state in which the ring portion is coupled to the other coupling portion.
28 and 29 are process diagrams of an underground wall construction method.

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

15, the present invention basically relates to a wall member 100 for forming an underground wall.

It is formed by the one side plate 111, the front plate 112, and the back plate 113, and also has a body 110 having a "c" shaped cross-sectional structure formed with tits on the upper, lower, and other sides.

The other side ends of the front plate 112 and the back plate 113 are formed with a bent portion 114 bent inward, and one edge of the front plate 112 and the back plate 113 is recessed inward ( 115) is formed, the plurality of main bodies 110 constituting the wall portion (A) is a stepped portion of the other body (110b) of the ring portion 114 of the other body (110a) coupled to one side coupled to the other side It is coupled to each other in a structure coupled to (115).

Here, one side plate 111 is formed with a side plate depression 130 that is recessed to the other side by bending, or a side plate protrusion 130a protruding to one side is formed.

That is, basically, a conventional wall member 100 is utilized, but one side plate 111 is bent to form a side plate depression 130 or a side plate protrusion 130a (FIGS. 15 and 16 ). .

When a plurality of wall members 100 having such a structure are combined to form a wall portion A, concrete is filled in the upper side plate depression 130 or the side plate protrusion 130a to serve as a shear key.

Therefore, since the coupling portion between the wall members and the upper side plate depression 130 or the side plate protrusion 130a are resisted together against the earth pressure of the rear soil, the stress concentration generated between the wall members is alleviated to relieve the underground wall. It can increase the structural stability.

The upper side plate depression 130 or the side plate protrusion 130a may obtain the above effect in any case, but it is more preferable to form the side plate depression 130 in terms of ease of manufacture, transport, and storage of the wall member. desirable.

The side plate depression 130 is specifically, a side opening portion 131 formed in the central portion of the side plate 111; A side closing part 132 formed on the other side of the side opening part 131 so as to have a width greater than the width of the side opening part 131; It is preferably configured to include; a lateral inclined closing portion 133 formed to join the edges of the lateral openings 131 and both ends of the lateral closure 132.

When such a structure is taken, since the bonding force between the two wall members 100 installed adjacently increases, the above-described shear resistance capability (role of the shear key) has an effect of further increasing.

On the other hand, even when such a structure is formed on the front plate 112 and the back plate 113, it is possible to obtain an effect of increasing the structural stability of the underground wall.

That is, the front plate depression 140 recessed rearward by bending the front plate 112 is formed, or the front plate protrusion 140a protruding forward is formed, and the front side is bent by bending the rear plate 113 It is preferable that the recessed back plate recessed portion 150 is formed, or that the rear plate projecting portion 150a protruded rearward is formed.

Concrete is placed on the front and rear of the coupling body of the wall member 100, and the upper recessed portion or the protrusion allows such a combination of the concrete and the wall member 100 to form an integrated structure.

Therefore, the combination of the wall member 100 and the underground wall formed by the above concrete behaves as an integral structure against the back pressure of the earth, and thus, an effect of increasing the structural stability of the underground wall can be obtained.

Even in this case, it is more preferable in terms of ease of manufacture, transport, and storage of the wall member to form the front plate depression 140 and the back plate depression 150.

In addition, the front plate recessed portion 140 includes: a front opening portion 141 formed in a central portion of the front plate 112; A rear closing portion 142 formed at a rear side of the front trim portion 141 to have a width greater than that of the front trim portion 141; It may take a structure including; a front oblique closing portion 143 formed to combine the edges of the front end portion 141 and both ends of the rear closure portion 142.

In this case, since the adhesion between the concrete and the wall member 100 is increased, the effect of increasing the structural stability of the underground wall due to the behavior as the one-piece structure can be obtained more greatly.

The back plate recessed portion 150 includes a rear opening portion 151 formed in a central portion of the back plate 113; A front closing portion 152 formed in front of the rear trim portion 151 to have a width greater than that of the rear trim portion 151; It can take a structure including; a rear inclined closing portion 153 formed to join the edges of the front end portion 152 and the rear trim portion 151, which can achieve the above effect.

Hereinafter, embodiments of the underground wall using the above wall member 100 will be described.

The underground wall, the support member (B) formed by the wall member 100 is coupled to one side and the other side of the H-type steel column 200, respectively; A plurality of main body 110 is coupled to be opened in the lateral direction, the wall portion (A) coupled to one side and the other end of the support (B); is configured to include (Fig. 17, 18).

Since the steel column 200 coupled to the support part B is formed with a protrusion 210 protruding further downward than the plurality of bodies 110 coupled to the support part B, the underground wall is stably supported by the ground. (Fig. 19).

The upper wall part (A) and the support part (B) are each produced by welding and provided to the site, and the coupling between them is made at the site.

In order to facilitate the joining operation in the field, the step portion 115 of the body 110 coupled to one edge of the wall portion A and the support portion B includes another wall portion A and the support portion. The coupling portion 116 coupled with the ring portion 114 of the body 110 coupled to the other edge of (B) is coupled in an upright structure along the vertical direction (FIGS. 20 and 21 ).

Coupling unit 116 is coupled to a plurality of spaced apart from each other along the lateral direction, at least one of the plurality of coupling unit 116 is preferably coupled to the stepped portion 115 in an inclined structure.

The coupling portion 116 is coupled to each of three step portions 115 formed on the front plate 112 and the back plate 113 of the main body 110, one side coupling portion 116a coupled to one edge; A central coupling portion 116b coupled to the central portion; Including; the other side coupling portion 116c coupled to the other edge; one side coupling portion 116a is coupled in an upwardly inclined structure along the lower direction, and the other side coupling portion 116c is coupled in a downwardly inclined structure along the lower direction. It is desirable.

The coupling portion 116 is preferably a reinforcing bar (S) that is a circular cross-section is coupled to the outer surface of the step portion 115.

The wall part (A) or the support part (B), which is installed far from the drilling hole (h), is difficult to install in an upright structure due to site conditions and construction errors.

If the first wall part (A) or support part (B) is installed inclined, the wall part (A) or support part (B) coupled to the wall part (A) or support part (B) must also be inclined to be able to engage. .

However, since the present invention is coupled to the main body 110 with the inclined structure of the one side coupling portion 116a and the other side coupling portion 116c, even if the wall portion A or the support portion B installed at a distance is installed obliquely, the wall is installed and coupled later. There is an advantage that the part (A) or the support part (B) can be installed close to the upright structure.

The front plate 112 and the back plate 113 of the main body 110 are preferably formed with grooves 117 formed inward, respectively.

In this case, the groove portion 117 is formed to improve the bending rigidity of the front plate 112 and the back plate 113, and improves the height of the front plate 112 and the back plate 113, thereby improving the secondary moment of section. To increase the bending stiffness.

In addition, when a construction error occurs during construction and deformation occurs in the support portion (B) and the wall portion (A), there is an advantage that can induce the location of the deformation to the groove portion 117.

That is, the groove portion 117 induces displacement occurring in the support portion (B) and the wall portion (A) to improve the structural safety of the entire structure.

An underground wall construction method using the wall member 100 according to an embodiment of the present invention includes: a drilling step of continuously forming a plurality of drilling holes h on the ground 10; A grouting step of grouting inside the perforation hole h; A support part installation step of inserting the support part B into the perforation hole h and installing the protrusion 210 of the steel column 200 to be inserted into the lower surface of the perforation hole; A wall part installation step of coupling the wall part (A) to the support part (B); Includes; forming the underground wall by pouring concrete in the inner and surrounding areas of the support (B) and the wall (A).

The underground wall construction method of the present invention first installs the support portion (B) in the perforated hole (h). In the support portion installation step, when the protrusion 210 formed under the steel column 200 is formed, the perforated hole (h) as shown in FIG. It is installed to be inserted into the ground.

Then, the wall portion (A) is installed on one side and the other side of the support portion (B), at this time, depending on the installation slope of the support portion (B), one side coupling portion (116a), the central coupling portion (116b), the other side coupling portion (116c) It is possible to adjust the inclination of the wall portion (A) or the support portion (B) that is installed later by utilizing.

The above is merely a description of some of the preferred embodiments that can be implemented by the present invention, and as is well known, the scope of the present invention should not be construed as being limited to the above embodiments, and the present invention described above. It will be said that both the technical idea and the technical idea together with the fundamental are included in the scope of the present invention.

100: wall member 110: main body
111: one side plate 112: front plate
113: back panel 114: ring portion
115: step portion 116: engaging portion
117: groove 130: side plate depression
130a: side plate protrusion 131: side opening
132: side closing portion 133: side oblique closing portion
140: front plate depression 140a: front plate projection
141: front trim portion 142: rear closed portion
143: front oblique closing part 150: back plate depression
150a: rear plate protrusion 151: rear trough
152: front closure portion 153: rear oblique closing portion
200: steel column 210: protrusion
A: Wall part B: Support part

Claims (10)

As a wall member 100 for forming an underground wall,
In addition to being formed by one side plate 111, the front plate 112, and the back plate 113, the main body 110 having a "c" shaped cross-sectional structure formed with a tipped portion formed on the upper and lower parts and the other side,
At the other end portions of the front plate 112 and the back plate 113, an inwardly bent ring portion 114 is formed,
One edge of the front plate 112 and the back plate 113 is formed with a stepped portion 115 recessed inward,
A plurality of the main body 110 constituting the wall portion (A) is the step portion 115 of the other side body (110b) of the hook portion 114 of the one side body (110a) coupled to one side coupled to the other side To a structure that is bonded to each other,
The wall member 100 characterized in that the side plate 111 is formed with a side plate depression 130 which is recessed to the other side by bending, or a side plate protrusion 130a protruding to one side is formed. According to claim 1,
The side plate depression 130,
A side opening portion 131 formed in the central portion of the one side plate 111;
A lateral closing portion 132 formed on the other side of the side opening portion 131 so as to have a width greater than the width of the side opening portion 131;
A lateral inclined closing portion 133 formed to join both ends of the lateral closing portion 132 and an edge of the lateral opening portion 131;
Wall member (100) characterized in that it comprises. According to claim 1,
Wall member 100 characterized in that the front plate 112 is formed with a front plate depression 140 recessed rearward by bending, or a front plate protrusion 140a protruding forward is formed. According to claim 3,
The front plate depression 140,
A front opening portion 141 formed in the central portion of the front plate 112;
A rear closing portion 142 formed at a rear side of the front opening 141 to have a width greater than that of the front opening 141;
A front inclined closing portion 143 formed to join the both ends of the rear closing portion 142 and the edge of the front opening 141;
Wall member (100) characterized in that it comprises. According to claim 1,
A wall member 100 characterized in that the back plate 113 is formed with a back plate depression 150 recessed by bending, or a rear plate protrusion 150a protruding backward is formed. The method of claim 5,
The back plate depression 150,
A rear opening portion 151 formed in a central portion of the rear plate 113;
A front closing portion 152 formed in front of the rear trim portion 151 to have a width greater than that of the rear trim portion 151;
A rear inclined closing portion 153 formed to join both ends of the front closing portion 152 and the edges of the rear opening portion 151;
Wall member (100) characterized in that it comprises. An underground wall using the wall member (100) of any one of claims 1 to 6,
The wall member 100 is a support portion (B) formed by being coupled to one side and the other side of the H-type steel column 200, respectively;
It includes a plurality of the main body 110 is opened and coupled along the lateral direction, the wall portion (A) coupled to one side and the other end of the support (B);
The steel column 200 coupled to the support (B), the underground wall, characterized in that the protrusion 210 further protruding downward than the plurality of the body 110 coupled to the support (B) is formed. The method of claim 7,
The step portion 115 of the main body 110 coupled to one side edge of the wall portion A and the support portion B is coupled to the other side edge of the other wall portion A and the support portion B. Underground wall, characterized in that the coupling portion 116 coupled to the ring portion 114 of the main body 110 is coupled in an upright structure along the vertical direction. The method of claim 8,
The coupling portion 116
The main body 110 of the front plate 112 and the rear plate 113 formed on the stepped portion 115 are each coupled to three,
One side coupling portion (116a) coupled to one edge;
A central coupling portion 116b coupled to the central portion;
Includes; the other side coupling portion (116c) coupled to the other edge;
The one side coupling portion 116a is coupled in an upward inclined structure along the lower direction,
The other side coupling portion (116c) is an underground wall, characterized in that coupled to the downward inclined structure along the downward direction. As a construction method of the underground wall of claim 7,
A drilling step of continuously forming a plurality of drilling holes (h) in the ground (10);
A grouting step of grouting inside the perforation hole (h);
A support part installation step of inserting the support part (B) into the perforation hole (h), so that the protrusion part 210 of the steel column 200 is inserted into the lower surface of the perforation hole;
A wall part installation step of coupling the wall part (A) to the support part (B);
An underground wall forming step of pouring concrete into the inner and surrounding areas of the support part (B) and the wall part (A) to form an underground wall;
Underground wall construction method comprising a.

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