KR20230084680A - Method of construction of soil barrier to prevent soil from falling down and ground collapse during civil engineering work - Google Patents

Abstract

The present invention relates to a soil barrier method for preventing soil erosion and ground collapse during civil engineering work. More specifically, an interval maintenance means for a slot is provided at an opening of a slot casing used in a process of performing the soil barrier method using a large-sectional soldier pile, and the interval maintenance means is configured to be removed or opened in a process of embedding the large-sectional soldier pile without separate opening or closing work or removal work. Accordingly, by applying the interval maintenance means to the slot casing used for the soil barrier method with the large-sectional soldier pile using a dual casing, it is possible to prevent the slot opening of the slot casing from being compressed or prevent the narrowing of intervals in a process of the storing, transporting, or embedding of the clot casing. In addition, separate opening work or an additional opening process for the slot casing is not required since a slot portion of the slot casing is completely opened as the interval maintenance means is automatically removed or rotated in a process of embedding the large-sectional soldier pile in a state in which the clot casing is inserted. In addition, the interval maintenance means can be repetitively used according to the need, thereby being very economical, greatly improving work efficiency of soil barrier construction using the large-sectional soldier pile, and shortening a construction period and reducing construction costs.

Description

Method of construction of soil barrier to prevent soil from falling down and ground collapse during civil engineering work}

The present invention relates to an earth retaining method for preventing soil from flowing down and ground collapse during civil engineering work, and more particularly, in the earth retaining method of applying a large cross-section thumb pile to increase the vertical spacing of supports, the large cross section A separate distance maintaining means is applied to the slot casing inserted into the outer casing in the process of drilling the drilling hole and connecting hole for inserting the thumb pile, and the distance maintaining means is automatically As it is configured to be removed, it is about a large-sided thumb pile earth retaining method that enables the earth retaining work to be performed more quickly and efficiently as well as unnecessary opening and closing means by the slot casing.

Existing earth retaining work is a temporary earth retaining work in the form of inserting thumb piles at regular intervals and then stacking and inserting earth plates between these thumb piles, and a state in which continuous excavation holes are drilled after installing a guide beam for drilling. It is divided into earth wall retaining construction in which a thumb pile is inserted at equal intervals for each excavation hole and then a filling material such as concrete is filled into the excavation hole.

It is divided into a permanent concrete retaining wall, which is integrally cast and formed on the earthen wall or rock wall, and a temporary earth retaining construction, which is installed to prevent the earthen wall or rock wall from collapsing only during excavation work, and then dismantles it after construction is completed.

Stable excavation for the construction ground is made using such a temporary earth retaining wall or earth wall, and at the same time as excavation, supporters are connected and installed at regular intervals up and down using the thumb pile.

The above-mentioned support is to effectively support the earth pressure acting on the thumb pile to prevent the excavated earth wall from being extruded or collapsed, and since a considerable earth pressure acts on the earth plate or concrete earth wall stacked up and down between neighboring thumb piles, In order to enable stable support from this earth pressure, braces must be formed to maintain a distance of about 2 to 3 m between the upper and lower floors.

In addition, although the number of the above-mentioned braces varies depending on the scale of the work site, it is common that a relatively large number of braces are installed horizontally in the form of a planar mesh in the horizontal and vertical directions.

However, in the excavation part where multi-layered supports are installed at intervals of 2 to 3 m at regular intervals up and down, the concrete frame is sequentially poured upward from the bottom of the foundation and the lowest basement floor to build a building. is constructed with a height of about 4 to 4.5 m, as described above, the problem of not being able to construct one layer with a height of 4 to 4.5 m at once by the braces installed at intervals of 2 to 3 m there will be

Therefore, in order to construct one layer, first construct a partial layer with a height of about 2 ~ 3m, wait for the completed concrete to cure completely, and then dismantle all the supports located on the upper part of the cured partial layer, and then install the second layer again. It is necessary to construct a partial layer with a height of about 3m, wait for this partial layer to be completely cured, and then completely dismantle the support on the upper side and curing the partial layer of about 2 to 3m again.

Therefore, in the above-described conventional earth retaining method, one layer cannot be cured at once due to the limited upper and lower spacing of the braces, and only about 2 to 3m of continuous construction is repeated. Since the joints occur continuously, many problems in construction such as structural weakness and waterproofing of the building are caused by these multiple construction joints, and the situation is a direct cause of air delay.

If you want to escape this hassle, that is, if you want to construct one floor at a time, the upper and lower intervals of the above-mentioned support beams must be secured by about 5 to 6 m. Although the stress supported by the soil pressure is increased by the thumb pile of the standard standard, this construction method requires the formation of a large-diameter hole for placing the thumb pile, which is also a very uneconomical construction due to the increase in construction cost. There is a problem.

That is, in the conventional earth retaining method, as shown in (a) in FIG. 1, thumb piles 110 and 110' are inserted into the drilled holes at regular intervals along the drilled holes 100 and 100' that are continuously drilled. After that, filling materials such as concrete are filled into the excavation holes 100 and 100', and as the entire concrete is cured, the earth wall of the integrated concrete wall can be completed, and as the earth wall is completed, Accordingly, one side of the earth wall can be excavated to construct a building.

At this time, the thumb pile has a standard suitable for the inner diameter of the excavation hole, and the thumb pile specification is the inner diameter of the excavation hole in the maximum perforation size range of commonly used auger equipment (pile driver, auger crane, etc.) By applying the one with the maximum standard for , we are trying to widen the vertical distance between the top and bottom of the brace as much as possible.

However, the earth wall due to the above earth retaining method is limited by the inner diameter of the excavation hole and the corresponding standard of the thumb pile, so that the vertical spacing of the supporting beams is only 2 ~ 3m. As shown in (b) in 1, the drilling of the excavation holes 100 and 100' using a general auger equipment and the expansion drilling holes 101 and 101' using a large diameter auger equipment at equal intervals are drilled. An earth retaining method has been devised so that a large cross-sectional thumb pile 111 (111') can be inserted into the inside of the ball (101) (101').

At this time, since the expansion excavation hole for inserting the large-diameter thumb pile must also use a large-diameter auger equipment, the operation of the equipment is not smooth and the equipment operation cost is excessively consumed, which is shown in (c) in FIG. Drilling of continuous drilling holes (100) (100') using an auger equipment capable of drilling of a general inner diameter, and connecting holes (102) of the same inner diameter at regular intervals ) (102'), the excavation hole (100) (100') and the connecting hole (102) (102') are used to insert the large-sided thumb pile (111) (111') into the retaining wall. A method has been proposed.

Here, the earth retaining method by the excavation hole and the connecting hole is disclosed by the earth retaining method using a large cross-sectional thumb pile to increase the vertical spacing of the struts according to Patent Registration No. 10-0515971.

In addition, the earth retaining method applied with the large-sided thumb pile using the above excavation hole and connecting hole was devised by the construction method of the thumb pile embedded pile unit according to Patent No. 10-0691890 and the construction method of the column-type retaining wall using the same As such, in the above earth retaining construction method, as shown in FIG. 2, using a double casing by the outer casing 200 and the inner slot casing 300 to maintain the inner wall of the excavation hole and to insert the large-sided thumb pile A construction method is proposed.

However, as the existing large-sided thumb pile earth retaining method must necessarily have an opening and closing means for the internal slot casing that is inserted simultaneously or sequentially with the outer casing after drilling the excavation hole and the connecting hole, manufacturing the slot casing Not only does the unit price increase, but it also has the disadvantage of having to separately manufacture the slot casing inserted into the drilling hole and the slot casing inserted into the connecting hole.

That is, after the slot casing is inserted into the outer casing inserted into the excavation hole and the connecting hole, the large-sided thumb pile is pulled out and removed before inserting the large-sided thumb pile into the inner side of the slot casing adjacent to each other. The flanges of each are inserted, and the webs of the cross-section thumb piles are inserted between the openings of the slot casings adjacent to each other,

When the outer casing is removed, the excavation hole and the connecting hole collapse and the earth pressure acts on the slot casing to compress the slot casing, so that the opening narrows or soil and the like flow in through the opening, so the conventional slot casing has the above It is essential to have an opening and closing means for the opening, and it is inconvenient to insert the large-sided thumb pile only in a state in which the opening and closing means of the slot casing is opened after pulling out the outer casing.

In particular, the opening and closing means of the slot casing has a length that cannot be moved or rotated open by the operator's artificial force, and thus has the disadvantage of inevitably mobilizing separate equipment, as well as for opening the opening and closing means As the work manpower and work time are required, it is acting as a cause of delay in the process and increase in construction cost.

The present invention has improved the problems as described above, and provides a gap maintaining means for the slot at the opening of the slot casing used in the process of performing the earth retaining method using a large-sided thumb pile, and the gap maintaining means As it is configured to be removed or opened during the insertion process of the large-sided thumb pile without separate opening or removal work,

It is possible to solve problems such as the open slot casing being compressed by external force or impact or the slot spacing being narrowed by the slot spacing means, and the slot spacing means automatically Since it is removed or opened, it is not necessary to add a separate operation or process for opening the slot, so that the earth retaining work using the large-sided thumb pile can be performed more efficiently and quickly, and the large-sided thumb pile earth retaining using the same It is an object of the present invention to provide a method

The present invention for achieving the above object is to use a double casing by an outer casing and a slot casing to construct an earth wall in which a large cross-section thumb pile is inserted. In the slot casing used for earth retaining construction,

The slot casing is formed with a slot opening having a gap enough to insert the web of the cross-section thumb pile along the vertical longitudinal direction, and the slot opening is compressed by an external force in the slot opening. It is made according to the insertion configuration of the gap maintenance means to prevent this.

In the present invention, by applying a distance maintenance means to the slot casing used in the large-sided thumb pile earth retaining method using a double casing, the slot opening of the slot casing is compressed during storage, transportation, or insertion of the slot casing It is possible to prevent the gap from narrowing, and the slot part of the slot casing is completely opened as the gap maintaining means is automatically removed or rotated in the process of inserting the large-sided thumb pile in the state where the slot casing is inserted. , It is not necessary to perform a separate opening operation or an additional opening process for the slot casing, and it is very economical because the space maintaining means can be used repeatedly if necessary. Work efficiency is greatly improved, and it is possible to shorten the construction period and reduce the construction cost.

Terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

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

3 shows an embodiment of the slot casing 10 according to the present invention, maintaining at least two or more gaps in the slot opening 11 of the slot casing 11 used for earth retaining work using large-sided thumb piles. It is formed by combining means 20. At this time, the distance maintaining means 20 is by the fitting groove 21 formed with fitting grooves 21a and 21a' on both sides, and the fitting strip 21 is also made of metal or synthetic resin material or wood. This is possible, and by using the fitting grooves 21a and 21a' to fix the fitting fixture 21 to the slot opening 11 by hitting in the form of an interference fit, the fitting fixture 21 ) is able to maintain a fixed state that is not separated by its own weight from the slot opening 11, the slot casing

Even if an external force acts on (10), it is possible to prevent the slot opening 11 from being compressed or the gap from being narrowed.

In addition, the fitting device 21 interferes with the web 31 of the large cross-section thumb pile 30 in the process of inserting the cross-section thumb pile 30, which is a heavy weight, to the lower side along the slot opening 11 By sliding and moving, when the lower end of the large-sided thumb pile (30) is completely inserted to the lower end of the slot casing (10), the fitting device (21) is separated from the slot casing (10) and is driven into the ground. It can be completely removed.

In addition, in the case of drawing out and reusing the slot casing 10 as described above, since it can be reused for earth retaining work in a state where the new fitting fixture 21 is re-combined by interference fitting, the service life of the slot casing 10 It won't hinder you at all.

Subsequently, as another embodiment of the gap maintaining means 20, as shown in FIG. 4, an insertion rotation table 22 is formed across the inside of the slot casing 10, but one side of the insertion rotation table 22 The end is fixed in the slot opening 11 in the form of an interference fit, and the other end of the fitting swivel 22 is coupled to the hinge shaft pin 22a transversely inserted through from the outside of the slot casing 10, There is.

Therefore, the fitting swivel 22 can maintain a fixed state in the transverse direction by the coupling by the hinge axis pin 22a and the interference fit with the slot opening 11, and the slot The casing 10 can prevent the slot opening 11 from being compressed or the gap from narrowing even when an external force is applied.

In this state, the insertion swivel 22 interferes with the web 31 of the large cross-section thumb pile 30 in the process of inserting the large cross-section thumb pile 30 and is caught in the slot opening 11 The end of the fitting rotary table 22 will be separated from the slot opening 11 while rotating downward, and at the same time rotated downward using the hinge axis pin 22a as a rotation axis to adhere to one side of the inside of the slot casing 10 As a result, the cross-sectional thumb pile 30 can be easily inserted without interference with the fitting swivel 22.

In addition, in the case of drawing out and reusing the slot casing 10 as described above, the mounting rotation table in a downwardly rotated state

As (22) is fixed again by external force to maintain a horizontal state, that is, the end is forcibly inserted into the slot opening 11, such a slot casing 10 can be immediately reused for earth retaining work, so the slot casing (10) does not interfere with the service life at all.

Subsequently, as another embodiment of the gap maintaining means 20, as shown in FIG. 5, a hinge pin 23a is rotatably coupled to one side of the slot opening 11 of the slot casing 10. (23) is formed by combining, but the clamping rod

(23) may be horizontally fixed inside the slot opening 11, or may be rotated downward by the hinge pin 23a within the slot opening 11.

At this time, when the clamping bar 23 is located in the transverse direction, a fitting groove 12 is formed on one side of the slot opening 11 corresponding to the end of the clamping bar 23, and the clamping bar 23 When is located in the lateral direction, the end of the clamping bar 23 is inserted and fixed into the fitting groove 12, so that the horizontally fixed state of the clamping bar 23 can be maintained, thereby reducing the external force on the slot casing 10. Even if this works, it is possible to prevent the slot opening 11 from being compressed or the gap from narrowing.

In this state, the shim bar 23 opens the slot while interfering with the web 31 of the cross-section thumb pile 30 as shown in FIG. As the end of the fitting rod 23 inserted into the fitting groove 12 of the part 11 is downwardly separated from the fitting groove 12, it rotates downward in the slot opening 11 by the hinge pin 23a. At the same time, since it will be in close contact with the inner side of the slot opening 11, the large-sided thumb stake 30 can be easily inserted without interference with the clamping bar 23.

In addition, when the slot casing 10 as described above is to be drawn out and reused, the holder 23 in a downwardly rotated state is returned to a horizontal state by an external force, that is, the end is the fitting groove 12 of the slot opening 11 ), since such a slot casing 10 can be immediately reused for earth retaining construction by being forcibly coupled to maintain the inserted state, the slot casing

(10) does not interfere with the service life at all.

Then, as another embodiment of the gap maintaining means 20, as shown in FIG. 7, the slot opening of the slot casing 10

(11) A support band 24 fixed to both sides by shaft pins 24a and 24a' is formed by coupling, and the support band 24 is a slot opening.

It connects both sides of the slot casing 10 separated by (11) and serves to prevent the slot opening 11 from being compressed by external force or the gap being narrowed by the support band 24.

In addition, a cut groove portion 24b in the form of a triangular groove is formed at the lower center of the support band 24, and when a strong load is applied from the top of the support band 24, the cut groove portion 24b ) As the fracture occurs, the support band 24 is separated from both sides and rotated downward by the shaft pins 24a and 24a' so that it can be separated from the slot opening 11.

Therefore, as shown in FIG. 8, the support band 24 interferes with the web 31 of the large cross-section thumb pile 30 in the process of inserting the large cross-section thumb pile 30, and the cross-section thumb pile ( 30) will cause breakage in the cut groove 24b due to the penetration load, and at the same time rotate downward by the shaft pins 24a and 24a' on both sides, and cross-section without any interference with the web 31 The thumb pile 30 can be inserted.

In addition, in the case of drawing out and reusing the slot casing 10 as described above, after removing the support band 24 in a cut and rotated state, a new support band 24 is formed using the existing shaft pins 24a and 24a'. By fixing, such a slot casing 10 can be immediately reused for earth retaining work, so there is no hindrance to the lifespan of the slot casing 10 at all.

Accordingly, the step-by-step construction process of the large-sided thumb pile earth retaining method using the slot casing 10 having the above-described gap maintaining means 20 is described in more detail as follows.

First, as shown in FIG. 9, the outer casing 10a is mounted singly on the auger equipment (auger crane or pile driver, etc.) or the slot casing 10 is doubled inside the outer casing 10a. In the state in which the drilling hole 51 is drilled with respect to the ground at the desired location in a state in which it is mounted, the outer casing 10a or the outer casing 10a and the slot casing 10 in a state in which the drilling is made to the desired depth. The drilling hole drilling and casing insertion steps are performed to separate the casing from the auger equipment 50 to maintain the state in which the casing is inserted into the drilling hole 51.

Subsequently, in a state in which another outer casing 10a is mounted singly in the auger equipment or in a state in which the slot casing 10 is doublely mounted inside the outer casing 10a, the drilling hole 51 and the neighbor The connecting hole drilling and casing inserting steps of drilling the connecting hole 52 are performed so as to do so.

At this time, when the drilling of the drilling hole and the connecting hole and the step of inserting the outer casing are performed in a state where the outer casing 10a is mounted alone, the external casing 10a and the connecting hole in the drilling hole using an auger equipment It will be natural to go through the process of additionally inserting the slot casing 10 into each of the inner and outer casings 10a.

Therefore, after passing through the above drilling and casing insertion steps, the outer casing 10 a and the slot casing 10 are double inserted inside the drilling hole 51 and the connecting hole 52, respectively. In this double casing insertion state, the slot casing aligning step may be performed so that the slot openings 11 of the respective slot casings 10 face each other, and if necessary, each of the outer casings 10a is drilled through a drilling hole. A process of aligning the slot openings 11 of each slot casing 10 inserted into the drilling hole 51 and the connecting hole 52 so that they face each other in the state of being pulled out from the 51 and the adjacent hole 52 It will be free even if you go through .

In this way, in a state in which the slot openings 11 of each slot casing 10 are aligned to face each other, the web 31 of the cross-sectional thumb pile 30 passes through the slot openings 11 of the mutual slot casings 10. It is sufficient to perform the step of inserting the large-sided thumb pile to be inserted, and due to this insertion step, both flanges of the large-sided thumb pile 30 are connected to the slot casing 10 in the drilling hole 51 and the adjacent hole ( 52) to be inserted into the inside of the slot casing 10, respectively.

In addition, in the step of inserting the cross-section thumb pile, the web 31 of the cross-section thumb pile 30 will interfere with the spacing means 20 of each slot casing 10, and the spacing means of these various structures (20) completely opens the slot opening 11 while being separated, removed or rotated due to the load of the cross-section thumb pile 30, so the cross-section thumb pile 30 is drilled through the hole 51 and the connecting hole 52 It can be smoothly inserted to the bottom without interference.

When the insertion into the cross-sectional thumb pile 30 is made in this way, the filling material filling step of filling the filling material 41 made of soil or concrete into the inside of each slot casing 10 is performed, but the concrete In the case of the filling material 41, before the concrete is hardened, the slot casing removal step of drawing and removing each of the slot casings 10 from the drilling hole 51 and the connecting hole 52 may be performed.

As each of these processes is continuously performed, as shown in FIG. 14, the earth wall 40 is completed by the excavation hole 51 and the connecting hole 52 and the large cross-section thumb pile 30 inserted into them As the earth retaining method of the present invention can be achieved, the filling of the filling material and the removal of the slot casing may be performed sequentially according to the drilling process, or at once for all drilling holes and connecting holes formed in the excavation site It is okay to simultaneously perform the steps of charging and removing the slot casing.

Therefore, the earth retaining method of the present invention does not require an additional opening and closing process or opening and closing step for the slot casing as in the past, thereby simplifying the earth retaining construction process and improving work efficiency, thereby reducing the construction period as well as reducing the construction cost. Significant savings can be achieved.

The embodiments described in this specification and the configurations shown in the drawings as described above are merely the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, so various equivalents and modifications that can replace them It should be understood that there may be examples.

Claims (7)

Using a double casing with a cylindrical outer casing (10a) and a slot casing (10) formed with slot openings (11) having a gap sufficient for the web of the cross-section thumb pile to be inserted along the vertical longitudinal direction, In the slot casing 10 used in the earth retaining construction in which the earthen wall 40 in which the face pile 30 is inserted is constructed,
The slot opening 11 of the slot casing 10 is characterized in that the slot maintaining means 20 is inserted to prevent the slot opening 11 from being compressed by an external force. A slot casing having a spacing means to be. According to claim 1,
The spacing maintaining means 20 for the slot opening 11 is composed of a fitting fitting 21 having vertical fitting grooves 21a and 21a' formed on both sides, the fitting fitting 21 It is configured to be coupled by interference fit with respect to the slot opening 11, and the fitting lock 21 is pressed downward as the web 31 of the cross-sectional thumb pile 30 is pressed downward from the top of the slot casing 10 A slot casing having a gap maintaining means, characterized in that it is configured to slide downward along the slot opening 11 and be separated and removed from the slot opening 11. According to claim 1,
The gap maintaining means 20 for the slot opening 11 is made of a fitting swivel 22 rotatably coupled from the inside of the slot casing 10 by a hinge shaft pin 22a, the fitting swivel 22 One end of ) is configured to be coupled and fixed to the slot opening 11 of the slot casing 10 in an interference fit form, and the fitting swivel 22 is a large cross-section thumb pile from the top of the slot casing 10 As the web 31 of (30) is pressed downward, the fitting swivel 22 rotates downward through the hinge axis pin 22a and is configured to be separated from the slot opening 11, characterized in that the slot having a gap maintaining means casing. According to claim 1,
The gap maintaining means 20 for the slot opening 11 is made of a mounting bracket 23 rotatably coupled to one side of the slot opening 11 of the slot casing 10 by a hinge pin 23a. , The other end of the fitting bar 23 is inserted into the fitting groove 12 formed in the slot opening 11, so that the fitting bar 23 is inserted into the slot by the hinge pin 23a and the fitting groove 12. The opening part 11 can be supported in the transverse direction, and the clamping bar 23 is pressed downward as the web 31 of the large-sided thumb pile 30 is pressed downward from the top of the slot casing 10. A slot casing having a spacing means, characterized in that one end of (23) is separated from the fitting groove 12 and rotated downward by the hinge pin 23a so that interference with the web 31 is canceled. According to claim 1,
The gap maintaining means 20 for the slot opening 11 is made of a support band 24 fixed to both sides of the slot opening 11 of the slot casing 10 by shaft pins 24a and 24a'. , A cut groove portion 24b is formed at the lower center of the support band 24, and the support band 24 has the web 31 of the large cross-section thumb pile 30 downward from the top of the slot casing 10. As the pressure is applied, the middle part is cut by the cut groove 24b of the support band 24, and the cut sides are rotated downward by the shaft pins 24a and 24a' so that interference with the web 31 is released. A slot casing having a space maintaining means characterized in that. Drilling of an excavation hole for the destination plate and inserting the outer casing in a state in which the outer casing is mounted on the auger equipment; With another outer casing attached to the auger equipment, drilling of the connecting hole to the adjacent site of the drilling hole and close to the outer casing
entrance stage;
A slot casing inserting and aligning step of inserting a slot casing having a slot opening and a gap maintaining means into the outer casing inserted into the drilling hole and the connecting hole, and making the slot openings of adjacent slot casings face each other;
pulling and removing the outer casing in the drilling hole and the outer casing in the connecting hole;
A large-sided thumb pile insertion step in which the web of the large-sided thumb pile is inserted along the slot opening of the aligned slot casing and at the same time the web and the spacing maintaining means are interfered with to release the spacing maintaining means of the slot casing;
A filling material filling step of filling the filling material into the slot casing into which the large-sided thumb pile is inserted;
Slot casing removal step of pulling out and removing the slot casing in the excavation hole and the connecting hole in the state in which the filling material is filled; Spacing means, characterized in that the large-sided thumb pile can be constructed with the embedded earth wall by sequentially performing Large-sided thumb pile earth retaining method using a slot casing with Drilling a drilling hole for a destination board and inserting a double casing in a state in which a cylindrical outer casing, a slot opening, and a slot casing having a gap maintaining means are simultaneously mounted on the auger equipment;
A step of drilling a connecting hole for an adjacent site of a drilling hole and inserting a double casing in a state in which another cylindrical outer casing and a slot casing having a slot opening and a gap maintaining means are simultaneously mounted on the auger equipment;
a slot casing aligning step of inserting into the drilling hole and the connection hole so that the slot openings of the slot casings adjacent to each other face each other;
pulling and removing the outer casing in the drilling hole and the outer casing in the connecting hole;
A large-sided thumb pile insertion step in which the web of the large-sided thumb pile is inserted along the slot opening of the aligned slot casing and at the same time the web and the spacing maintaining means are interfered with to release the spacing maintaining means of the slot casing;
A filling material filling step of filling the filling material into the slot casing into which the large-sided thumb pile is inserted;
Slot casing removal step of pulling out and removing the slot casing in the excavation hole and the connecting hole in the state in which the filling material is filled; Spacing means, characterized in that the large-sided thumb pile can be constructed with the embedded earth wall by sequentially performing Large-sided thumb pile earth retaining method using a slot casing with