KR102440977B1 - Retaining Wall System usable as building underground wall and it's Construction Method - Google Patents

Abstract

The present invention relates to a retaining wall system that can be used as a retaining wall in the construction of an underground structure and a construction method thereof, and specifically, to a retaining wall system that can be used as an underground wall of a structure. It relates to a retaining wall system that can be used as an outer wall of an underground structure and a construction method therefor.
The present invention not only solves the problem of soil subsidence due to decay by using a thin-walled steel retaining plate treated with anticorrosion treatment instead of wood, but also relaxes the back ground through the inlet formed in the retaining plate and fills the overburden, so that the back side can be filled later It can solve the problem of ground subsidence.
In addition, in addition to injecting small hole grouting into the back ground, in case leakage occurs at the boundary between the retaining plate and the side pile during the excavation process, the boundary between the retaining plate and the side pile is first welded to prevent leakage and the amount of leakage In this large case, the waterproof sealing material can be injected at a predetermined depth if necessary through injection pipes separately attached to both ends of the flanges on the back side of the side piles. In other words, by establishing a two-step prevention measure to prevent leakage and runoff, it is possible to solve the lowering of the groundwater level in the back ground and subsidence of the back ground due to water leakage that may occur during the excavation process.
In addition, the position of the brace is fixed to the position of the side pile, and the wale is tied to the fixing point formed on the brace after the brace is installed to support the earth pressure transmitted through the retaining plate, and In order to prevent local buckling of piles, by installing a stiffener connecting the flange and the flange of the side pile at the location where the brace is installed, the structural stability of the retaining board is greatly increased, and thus the subsidence of the back ground can be solved.
In the present invention, in order to secure the economical aspect in this respect, an appropriate standard of the side pile member is applied according to the size of the earth pressure. This can be determined in consideration of the required wall thickness of the underground structure. In addition, the thickness of the retaining plate is different according to the depth and the size of the plate support mechanism, which is the actual resistance member, is different to ensure economic feasibility as in the wooden retaining plate.
In the present invention, since the retaining board is used as an underground structure, it can be constructed in a structure that strengthens the base mat of the underground structure and the retaining plate, so that the retaining plate can be the support of the structure. Since it can be planned not to do so, the construction amount of pile foundation can be reduced, which is very advantageous in terms of economic feasibility.

Description

Retaining Wall System usable as building underground wall and it's Construction Method}

The present invention relates to a retaining wall system that can be used as a retaining wall in the construction of an underground structure and a construction method thereof, and specifically, to a retaining wall system that can be used as an underground wall of a structure. It relates to a retaining wall system that can be used as an outer wall of an underground structure and a construction method therefor.

In planning a new building, an underground structure is almost indispensable. In order to construct an underground structure, it is necessary to construct a retaining system in order to dig up to the planned depth. Since the retaining facility must be constructed from the site boundary to the inside of the project site, and after excavation is completed, the main wall of the underground structure must be installed on the retaining wall. Since this space corresponds to the outermost line of the site, the reduced area is quite large.

Due to these issues, the practitioners have made a lot of effort to find a way to use the retaining system as the main wall of the underground structure as it is. The reality is that we have been facing the same problem and have not been able to solve this problem.

In addition, referring to Figs. 1 to 4, the space between the side piles (1) and the side piles (1) is dug in order to install the retaining plate (2) due to poor filling in the drilling space of the side piles (1). In the process, problems such as subsidence of the back ground due to relaxation of the back soil, occurrence of over-digging, and poor filling of the over-dig space have occurred.

1 is a view showing a state of construction according to a conventional construction method. As time goes by, the brace 4 pushes the wale in the arrow direction as shown in FIG. 2 by the pressure of the brace 4, and accordingly, the retaining board (2) is moved to the overburden space (M) and the ground on the back is subsided.

This fact is contrary to the fact that the Special Act on Underground Safety Management has been recently implemented to prevent subsidence of the surrounding ground during the underground excavation process. In particular, it is important to develop this patented technology. In addition, if the retaining system cannot be used as the wall of the structure, there is a disadvantage of lowering the usability of the underground space.

Korean Patent Registration No. 10-1420782 (2014.07.11) Korean Patent Registration No. 10-1774887 (2017.08.30)

The object of the present invention is not only to solve the problem of ground subsidence due to decay by using thin-walled steel, synthetic resin, preservative wood, concrete plate, etc., which are not treated with wood, but as a retaining plate, but also to solve the problem of ground subsidence due to decay, as well as loosened ground on the back through the inlet formed in the retaining plate, It is possible to solve the problem of subsidence of the back ground in the future by allowing the overburden to be filled in a closed room.

In addition, in addition to injecting small hole grouting into the back ground, in case leakage occurs at the boundary between the retaining plate and the side piles during the excavation process, the boundary between the retaining plate and the side piles is first welded to prevent water leakage, and the amount of leakage In this large case, the waterproof sealing material can be injected at a predetermined depth if necessary through injection pipes separately attached to both ends of the flanges on the back side of the side piles. In other words, by establishing a two-step prevention measure to prevent leakage and runoff, it is possible to solve the lowering of the groundwater level in the back ground and subsidence of the back ground due to water leakage that may occur during the excavation process.

In addition, the position of the brace is fixed to the position of the side pile, and the wale is tied to the fixing point formed on the brace after the brace is installed to support the earth pressure transmitted through the retaining plate. In order to prevent local buckling of piles, by installing a stiffener connecting the flange of the side pile and the flange at the location where the brace is installed, the structural stability of the retaining plate is greatly increased, thereby solving the subsidence of the back ground.

In the present invention, in order to secure the economical aspect in this respect, an appropriate standard of the side pile member is applied according to the size of the earth pressure. This can be determined in consideration of the required wall thickness of the underground structure. In addition, the thickness of the retaining plate is different according to the depth, that is, the size of the earth pressure, and the standard of the plate support mechanism member, which is the actual resistance member, is changed to ensure economic feasibility as in the conventional wooden retaining plate.

In the present invention, since the space secured by the installation of the retaining plate is used as the installation space for the underground structure, it can be constructed in a structure that strengthens the wall space secured by the installation of the base mat and the retaining plate for the underground structure. Since it can become a support body of a structure by being integrated, it is possible to plan not to construct a pile foundation installed close to the retaining plate, which is very advantageous in terms of economic feasibility because the construction amount of the pile foundation can also be reduced.

In order to solve the above problems, the present invention is to be installed up to the order depth during pile construction, and the first front flange 120 is formed on one side of the first girder web 110 formed in a girder shape, and the second front flange 120 is formed on the other side. The first back flange 130 is formed, the first plate guide 140 is formed on both sides of the first back flange 130, the first girder-type side piles to facilitate the reinforcement of the wall of the underground structure (100); It is intended to be installed up to the depth of entry during construction of the side pile, and the second front flange 220 is formed on one side of the second girder web 210 formed in a girder shape, and the second rear flange 230 is formed on the other side. , The second girder-type side piles 200, the second plate guide 240 is formed on both sides of the second girder web 210 to facilitate the reinforcement of the wall of the underground structure; Doedoe installed on one side of the first front flange 120 of the first girder-type side pile 100 or the second front flange 220 of the second girder-type side pile 200, the installed girder-type side pile and The brace 800 is formed to be vertical; Consists of an H-beam extending in one direction and formed to be coupled with the brace 800 so that the flange portion of the H-beam faces in the vertical direction; ) is formed in a girder shape in the direction going from the top to the bottom, the first girder web 110 in which the portion forming the vertex in the girder shape is formed as the first side plane 111; It is located on one inner surface and the other inner surface of the first back flange 130, but the first plate guide 140 for inserting the retaining plate; includes, and the second girder-type side pile 200 is from the upper side to the lower side. A second girder web 210 that is formed in a girder shape in a direction going to the girder, and the portion forming the vertex in the girder shape is formed as a second flat surface 211; A second front flange 220 in which a first passage hole 221 is formed on one side of the part fastened to the support pile part 300 in order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened. ); In order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened, it is located on one side of the part fastened to the support pile part 300, but located in a diagonal direction with the first passage hole 221 . a second rear flange 230 in which two passage holes 231 are formed;
It is located on one inner surface and the other inner surface of the second back flange 230, but is for inserting the retaining plate, and extends from the upper part of the second back flange 230 by a predetermined length to one side of the second back flange 230. The second plate guide 240 is formed up to; On one side, a groove-shaped second back flange fastening groove 251 is formed so that one end of the second back flange 230 is accommodated, and the other side is a second plate guide so that one end of the second plate guide 240 is accommodated. A third plate guide 250 in which the fastening groove 252 is formed; and a support pile part 300 having a predetermined space so that the lower one side of the second girder-type side pile 200 is inserted. Including, but the support pile part 300 is a side pile insertion pipe 310 formed in a predetermined tube shape so that the lower side of the second girder-type side pile 200 is inserted; A lower reinforcement plate 320 located at the lower end of the side pile insertion pipe 310 but formed in a plate shape to correspond to the lower end of the side pile insertion pipe 310 in order to close the open lower end of the side pile insertion pipe 310 ); a pile end portion 330 connected to the lower reinforcing plate 320 and formed such that a predetermined number of triangular plates have a conical shape; The lower reinforcement bracket 340 is installed on the upper surface of the lower reinforcing plate 320, a predetermined number is formed to support the second girder-type side pile 200 inserted into the side pile insertion pipe 310; an upper reinforcement bracket 350 positioned at the upper end of the side pile insertion pipe 310 but formed in a predetermined number to support the second girder-type side pile 200; By covering the upper surface of the side pile insertion pipe 310, the second girder-type side piles 200 are for passing, and the second girder-type side piles 200 are passed through the second girder-type side piles 200 ), an upper reinforcing plate 360 having a side pile through hole 363 formed in a shape corresponding to the upper surface of the first girder, which is formed in an arc shape with one side concave to correspond to one side of the perforation hole and is adjacent to each other. The first plate guide 140 and the second girder-type side pile 200 of the first girder-type side pile 100 located on one side is installed between the type side pile 100 and the second girder type side pile 200 . ) of the first retaining plate 400 is inserted between the second plate guide 240 is installed; Installed between the adjacent second girder-type side piles 200, the third plate guide 250 of the second girder-type side piles 200 located on one side and the second girder-type side piles 200 located on the other side ) of the second retaining plate 500 inserted into and installed in the third plate guide 250; and including, and including, a plate support member 610 formed in a plate-like shape of a predetermined size, but a cardboard support member 610 A cardboard support formed including a preceding load material first connecting part 620 in a curved inward form and the other end of the first plate support member 610 surrounding one side of the (600); One side is penetrated and fastened to the first connecting part 620 of the preceding load member, and the other side is penetrated and fastened to the preceding load member second connecting part 630. ) but located in the space between the band support (1000) formed in a triangular shape when viewed from the top; Formed on one side of the first front flange 120 and the first back flange 130 of the first girder-type side pile 100, or the second front flange 220 of the second girder-type side pile 200 Including, the first girder-type side pile 100, the second girder-type side pile 200, the first retaining plate ( 400), when the second retaining plate 500 is installed, the interface guide plate 2000 is formed to be positioned between the first retaining plate 400 and the second retaining plate 500; We provide a retaining wall system that can be used as an underground wall of a structure.

The present invention not only solves the problem of ground subsidence due to decay by using thin-walled steel, synthetic resin, preservative wood, concrete board, etc., which are not treated with wood, but as a retaining plate, but also relaxes the ground through the injection hole formed in the retaining plate It is possible to solve the problem of subsidence in the future by allowing the wealth to be filled in a closed room.

In addition, in addition to injecting small hole grouting into the back ground, in case leakage occurs at the boundary between the retaining plate and the side pile during the excavation process, the boundary between the retaining plate and the side pile is first welded to prevent leakage and the amount of leakage In this large case, the waterproof sealing material can be injected at a predetermined depth if necessary through injection pipes separately attached to both ends of the flanges on the back side of the side piles. In other words, by establishing a two-step prevention measure to prevent leakage and runoff, it is possible to solve the lowering of the groundwater level in the back ground and subsidence of the back ground due to water leakage that may occur during the excavation process.

In addition, the position of the brace is fixed to the position of the side pile, and the wale is tied to the fixing point formed on the brace after the brace is installed to support the earth pressure transmitted through the retaining plate, and In order to prevent local buckling of piles, by installing a stiffener connecting the flange of the side pile and the flange at the location where the brace is installed, the structural stability of the retaining plate is greatly increased, thereby solving the subsidence of the back ground.

In the present invention, in order to secure the economical aspect in this respect, an appropriate standard of the side pile member is applied according to the size of the earth pressure. This can be determined in consideration of the required wall thickness of the underground structure. In addition, the thickness of the retaining plate is different according to the depth and the standard of the plate support mechanism, which is an actual resistance member, is different to ensure economic feasibility as in the conventional wooden retaining plate.

In the present invention, since the space secured by the installation of the retaining plate is used as the installation space for the underground structure, it can be constructed in a structure that strengthens the wall space secured by the installation of the base mat and the retaining plate for the underground structure. Since it can become a support body of a structure by being integrated, it is possible to plan not to construct a pile foundation installed close to the retaining plate, which is very advantageous in terms of economic feasibility because the construction amount of the pile foundation can also be reduced.

1 to 3 are diagrams related to the prior art.
4 is a plan view schematically showing the appearance of the retaining wall system in the order depth section.
5 is a schematic plan view of the retaining wall system in the non-order depth section.
6 and 8 are diagrams schematically illustrating matters relating to the connection part of the support pile part and the support pile part and the base floor of the structure.
9 is a view of the first girder-type side piles 100 and the second girder-type side piles 200 of the retaining wall system of the present invention.
10 and 11 are views related to the support pile part 300 of the present invention.
12 is a view related to the first retaining plate 400 of the present invention.
13 is a view of the cardboard support 600 of the present invention.
14 is a view in which a reinforcing bar is added to the cardboard support 600 of the present invention.
15 is a view in which a retaining plate connecting portion 670 is added to the cardboard support 600 of the present invention.
16 to 20 are various exemplary views of the cardboard support of the present invention.
21 is another exemplary view in which the preceding load member 700 and the preceding load introducing member 730 are installed to introduce the preceding load to the cardboard support of the present invention.
Figure 22, Figure 23 is a three-dimensional view showing the part of the side piles, braces, and bands combined of the present invention.
24 is a view of the anti-tilt device 1100 for preventing the inclination when the side pile of the present invention is inserted into the drilling hole.
25 is a schematic flowchart of a method for constructing a retaining structure that can be used as an underground wall of a structure.
26 is a plan view of the side pile construction step (S3) of the construction method of the present invention.
27 is a side view of the side pile construction step (S3) of the construction method of the present invention.
28 is a view related to the first retaining plate construction step (s4) of the construction method of the present invention.
29 is a view related to the installation of the anti-sag of the first side pile after the first retaining plate construction is completed in the construction method of the present invention.
30 is a side view of the first-floor excavation step (S5) and the first-floor installation step (S6) above the ground.
31 is a view of the second retaining plate inserting step (s9).
32 to 34 are exemplary views for forming the second and third basement floors in the construction method of the present invention.
35 is a view related to the support pile bushing construction step (S17) connected to the side piles and embedded in the base floor of the structure.
36 is a three-dimensional view of the overall appearance of the retaining wall system of the present invention.
FIG. 37 is a partially enlarged view of FIG. 36 .
38 is a plan view showing a construction example of the retaining wall and the structure foundation floor of the present invention.

The terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor can properly define the concept of the term in order to best describe his invention. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

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

In addition, the girder-type side piles expressed in the present invention are words expressing 'the first girder-type side piles 100 or the second girder-type side piles 200', and are used interchangeably for convenience.

The present invention relates to a retaining wall system that can be used as a retaining wall in the construction of an underground structure and a construction method thereof, and specifically, to a retaining wall system that can be used as an underground wall of a structure. It relates to a retaining wall system that can be used as an outer wall of an underground structure and a construction method therefor.

The retaining wall system of the present invention is a first girder-type side pile 100, a second girder-type side pile 200, a support pile part 300, a first retaining plate 400, a second retaining plate 500, It is configured to include a cardboard support 600 , a preceding load material 700 , a brace 800 , a band length 900 , a filling material 1300 , an anti-tilt member 1100 , and the like.

Figure 4 (a) is a view of the first girder-type side piles 100, Figure 4 (b) is a view of the second girder-type side piles (200). The first girder-type side piles 100 and the second girder-type side piles 200 will be described in detail below as being installed in perforated holes drilled at predetermined intervals.

The first girder-type side pile 100 is to be installed up to the order depth during pile construction, and the first front flange 120 is formed on one side of the first girder web 110 formed in a girder shape, and the first front flange 120 is formed on the other side. The back flange 130 is formed, the first plate guide 140 is formed on both sides of the first back flange 130 to facilitate the reinforcement of the wall of the underground structure.

The first girder web 110 is formed in a girder shape in the direction going from the upper side to the lower side, and the portion forming the vertex in the girder shape is formed as the first side plane 111 .

The first plate guide 140 is located on the inner surface of one side and the other inner surface of the first rear flange 130, but for the retaining plate to be inserted, the first plate guide 140 has a groove in the shape of a 'C' It is preferably formed, but the shape may be modified as necessary.

Referring to Figure 9 (a), it is preferable that the lower end of the first girder-type side pile 100 is formed with a first blocking portion 141 to prevent the inflow of foreign substances.

The second girder-type side pile 200 is to be installed up to the depth of approximation at the time of side pile construction, and a second front flange 220 is formed on one side of the second girder web 210 formed in a girder shape, and the other side The second back flange 230 is formed, the second plate guide 240 is formed on both sides of the second girder web 210 to facilitate the reinforcement of the wall of the underground structure.

The length (h2) of the second side pile is equal to or longer than the length (h1) of the first girder-type side pile 100 (length of the first girder-type side pile (h1) ≤ second girder The length of the side pile (h2)).

The second girder web 210 is formed in a girder shape in the direction going from the upper side to the lower side, and the portion forming the vertex in the girder shape is formed as the second side plane 211 . Figure 9 (c) is a view showing the side of the second girder-type side piles 200 as showing a girder shape, the side of the first girder-type side piles 100 is also formed in the same shape.

The second front flange 220 is a first through hole 221 on one side of the part fastened to the support pile part 300 in order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened. is formed

The second back flange 230 is located on one side of the part fastened to the support pile part 300 in order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened, but the first through hole ( 221) and the second passage hole 231 is formed to be located in the diagonal direction.

The second plate guide 240 is located on one inner surface and the other inner surface of the second rear flange 230, but is for inserting the retaining plate. The second plate guide 240 is extended by a predetermined length from the upper portion of the second back flange 230 and is formed up to one side of the second back flange 230, preferably the first girder-type side pile 100. It is formed with a length corresponding to the first plate guide 140 of the.

The second plate guide 240 is preferably formed in a 'C' shape, but the shape may be modified as necessary.

In addition, the second plate guide 240 has a blockage portion 241 formed at a position corresponding to the end of the first girder-type side pile 100 during construction, and cement milk, side piles into the second plate guide 240 . When the filling material, etc. is put into the back part, only the clogging part 241 is put in, so that the construction of the second retaining plate 500 can proceed smoothly afterwards.

Referring to Figure 9 (b), the second blocking portion 241 is preferably formed at a position down by the length (h) of the first girder-type side piles 100 from the upper end of the second girder-type side piles 200. do.

The third plate guide 250 is located below the second plate guide 240, but the side piles are installed in a state in which they are previously installed on the second girder-type side piles 200 or correspond to the step-by-step excavation period in the excavation process. It is preferable to be formed in a detachable form on the second back flange 230 so that the second retaining plate 500, the cardboard support 600, and the preceding load material 700 can be installed while installing the same length (Fig. c) see).

The third plate guide 250 has a second back flange fastening groove 251 having a groove shape to accommodate one end of the second back flange 230 on one side, and the other side of the second plate guide 240 . A second plate guide fastening groove 252 is formed so that one end is accommodated. Preferably, the third plate guide 250 is formed in a 'L' shape as shown in the drawing, but any shape including the second back flange fastening groove 251 and the second plate guide fastening groove 252 is possible. to be.

10 and 11 relate to the support pile part 300, the support pile part 300 is to have a predetermined space so that the lower side of the second girder-type side pile 200 is inserted.

The support pile part 300 is a side pile insertion pipe 310, a lower reinforcing plate 320, a pile end 330, a lower reinforcing bracket 340, an upper reinforcing bracket 350, an upper reinforcing plate 360, It is configured to include a stud 370 and the like.

The side pile insertion pipe 310 is formed in a predetermined tube shape so that the lower side of the second girder-type side pile 200 is inserted, and is shown in a circular shape, but is deformed into a shape such as a square pipe that can accommodate the side piles Of course it is possible.

The lower reinforcing plate 320 is located at the lower end of the side pile insertion pipe 310, but in a plate shape to correspond to the lower end of the side pile insertion pipe 310 to close the open lower end of the side pile insertion pipe 310 will be formed

The pile end 330 is connected to the lower reinforcing plate 320 and is formed so that a predetermined number of triangular-shaped plates have a conical shape.

10, the pile end 330 includes a first pile end plate 330a, a second pile end plate 330b, a third pile end plate 330c, and a fourth pile end plate 330d. and each shape is formed in a plate-like shape of a right triangle shape, and one side of the pile end plates is joined to form a conical shape (the third pile end plate 330c and the fourth pile end plate 330d are not shown).

The pile end 330 further includes a pile end reinforcing bar 331 , wherein the pile end reinforcing bar 331 has a predetermined interval on the outer peripheral surface of the pile end 330 in the longitudinal direction and a predetermined number is formed.

The lower reinforcing bracket 340 is installed on the upper surface of the lower reinforcing plate 320 and a predetermined number is formed to support the second girder-type side pile 200 inserted into the side pile insertion pipe 310 .

The lower reinforcing bracket 340 is formed in a plate shape having a triangular shape, and includes a first lower reinforcing bracket 340a and a second lower reinforcing bracket 340b.

The first lower reinforcing bracket 340a is to support one side of the second girder web 210, and one side is seated on the upper surface of the lower reinforcing plate 320 and the other side is the second girder web 210. meets one side of

The second lower reinforcing bracket 340b is for supporting one side of the second back flange 230, and one side is seated on the upper surface of the lower reinforcing plate 320 and the other side is the second back flange 230. to meet one side of

The upper reinforcement bracket 350 is located at the upper end of the side pile insertion pipe 310, but a predetermined number is formed to support the second girder-type side pile 200.

Preferably, the upper reinforcing bracket 350 is formed in a plate shape having a triangular shape, and includes a first upper reinforcing bracket 350a and a second upper reinforcing bracket 350b.

The first upper reinforcing bracket (350a) is to support one side of the second back flange 230, one side is seated on the upper surface of the upper reinforcing plate 360, and the other side is the second back flange 230. meets one side of

The second upper reinforcing bracket 350b is for supporting one side of the second front flange 220, one side is seated on the upper surface of the upper reinforcing plate 360, and the other side is the second front flange 220. will meet on one side of the

The upper reinforcing plate 360 is to cover the upper surface of the side pile insertion pipe 310, for the second girder-type side pile 200 to pass through, and the second girder-type side pile 200 to pass through. A side pile passing hole 363 of a shape corresponding to the upper surface of the two girder-type side pile 200 is formed.

The upper reinforcing plate 360 further includes a first inlet 361 and a second inlet 362 in order to inject an injection material such as grout into the side pile intubation tube 310, and the first inlet 361 is the first inlet 361. It is located on the rear surface of the second rear flange 230, but is formed in a position adjacent to the second passage hole 231,

The second inlet 362 is formed between the front side of the second back flange 230 and one side of the second girder web 210 to be positioned in a diagonal direction with the first inlet 361 .

11(a), (b), the injection material injected through the first inlet 361 is moved in the direction of the arrow, passes through the second pass through 231, and the second girder-type side pile 200 The injection material is filled inside the The injection material is filled on the outer surface of the flange 220 . When the injection material is injected into one injection hole, it is possible to check the state in which the inside of the side pile insertion tube 310 is tightly filled by observing that it overflows into the other injection hole.

A plurality of studs 370 are formed on one side of the inner side of the side pile insertion pipe 310 so that the second girder-type side pile 200 and the injection material inserted into the side pile insertion pipe 310 form one body.

The inlet stopper 380 is formed to block the first inlet 361 and the second inlet 362 of the upper reinforcing plate 360, and when the support pile part 300 is installed, the first inlet 361) and the second inlet 362 is installed in a closed state, and when the filling material is injected into the support pile part 300, the inlet stopper 380 is pulled out from the first inlet 361 and the second inlet 362. A liquid filling material such as cement milk is injected into the first inlet 361 and the second inlet 362 .

Referring to FIG. 8 , after installing the support pile part 300 , a pedestal is installed on the upper reinforcing plate 360 of the support pile part 300 , and the second front side of the second girder-type side pile 200 . The flange 220 is formed so that the foundation floor connection material 1700 meets, and the support pile connection material 1800 is installed in the space between the second girder-type side piles 200 connected to each support pile part 300, but , One side of the support pile connector 1800 is fastened to the second girder-type side pile 200 located on one side of the neighboring second girder-type side pile 200, and the second girder-type side pile located on the other side The other side of the support pile connector 1800 is fastened to the 200 . A plurality of support pile connectors 1800 are installed to connect adjacent support pile connectors 1800 through the first and second connector fastening parts 1810 and 1820 .

The foundation floor connection material 1700 is installed on one side of the support pile connection material 1800 and is formed to be perpendicular to the foundation floor connection material 1700 .

In addition, an underground structure support part 1600 is positioned at the lower portion of the foundation floor connection material 1700 to support the foundation floor connection material 1700 .

The concrete pouring unit 1900 is to form an underground structure, and after installing the support pile connecting material 1800 and the foundation floor connecting material 1700, reinforcing reinforcement and concrete are poured to form the floor surface of the basement floor of the structure.

The first retaining plate 400 is formed in an arc shape with one side concave to correspond to one side of the perforation hole, and is installed between the adjacent first girder-type side piles 100 and the second girder-type side piles 200. It is inserted between the first plate guide 140 of the first girder-type side pile 100 and the second plate guide 240 of the second girder-type side pile 200 to be installed.

12 is a view showing the appearance of the first retaining plate 400, and the first retaining plate 400 will be described in detail with reference to this.

The first retaining plate 410 is formed in a plate-like shape of a predetermined size, and one side is formed to have a concave shape. At the same time, the first plate guide 140 and the second plate guide 240 are inserted and installed while proceeding downward along the grooves.

The first retaining plate 410 has a concave portion 411 formed so as to correspond to one side of the perforated hole to be drilled, and a first fastening portion 412 is formed on one side of the concave portion 411 and is located on one side. The first plate guide 140 of the first girder-type side pile 100 or the second plate guide 240 of the second girder-type side pile 200 is fastened, and the second fastening part on the other side of the concave part 411 413 is formed so that the first plate guide 140 of the first girder-type side pile 100 located on the other side or the second plate guide 240 of the second girder-type side pile 200 is fastened.

In addition, the first retaining plate 410 includes a first stepped portion 414 formed to extend to one end and a second stepped portion 415 formed to extend to the other end, and a first stepped portion 414 . is accommodated in the groove of the first plate guide 140 of the first girder-type side pile 100 or the second plate guide 240 of the second girder-type side pile 200, the second stepped portion 415 is The first plate guide 140 of the first girder-type side pile 100 or the second plate guide 240 of the second girder-type side pile 200 is accommodated in the groove.

The first reinforcing bar 420 is formed to correspond to the shape of the width of the first retaining plate 410, and a predetermined number is installed at a predetermined interval inside the first retaining plate 410, and the first retaining plate 410 In addition to the width direction, it may be installed in the longitudinal direction.

The first reinforcing bar 420 is for reinforcing the first retaining plate 410 , and the spacing and number of installations may vary depending on the size of the first retaining plate 410 .

The second retaining plate 500 is installed between the second girder-type side piles 200 adjacent to each other, and the third plate guide 250 and the other side of the second girder-type side pile 200 located on one side. It is installed by being inserted into the third plate guide 250 of the second girder-type side pile 200 .

The second retaining plate 510 is preferably formed in a plate-like shape of a predetermined size, and if necessary, a second reinforcing bar 520 may be formed to serve as reinforcement of the second retaining plate 510 (Fig. 15 (Fig. 15). a) see).

Referring to FIG. 13 , the cardboard support 600 includes a board support member 610 formed in a plate-like shape of a predetermined size, but surrounds one side of the board support member 610 and is bent inwardly in the form of a preceding load material first connection part ( 620) and the other end of the first plate support member 610 and is formed including the preceding load material second connecting portion 630 bent inwardly.

One side of the first connecting part 620 of the preceding load material surrounds one side of the cardboard support member 610 and the other side has a through-hole formed so that the preceding load material 700 passes through it,

A through-hole is formed so that one side surrounds the other side of the first plate support member 610 on one side of the preceding load material second connection part 630 and the other side passes through the preceding load material 700 .

Referring to FIG. 14 , the cardboard support 600 may be additionally provided with a cardboard support reinforcing and fastening part 640 and a board support reinforcing bar 650 to reinforce the board support 600 .

A predetermined number of the cardboard support reinforcement and fastening parts 640 are formed at a predetermined interval on the lower surface of the plate-shaped cardboard support 600 , and a predetermined groove is formed so that the cardboard support reinforcement 650 is fitted and fastened. The cardboard support reinforcing bar 650 is fitted into the groove formed in the paper board support reinforcing replacement fastening part 640 and is formed to a predetermined length, and may be formed in the form of a wire such as a hollow tube or wire. Also, of course, the number of cardboard support reinforcement bars 650 may vary, such as two cardboard support reinforcement bars 650 are formed as shown in FIG. 14(b) as needed.

Referring to Figure 15, the cardboard support 600 may be additionally formed with a retaining plate connecting portion 670, the retaining plate connecting portion 670 is the lower surface of the second retaining plate 500 and the second plate support ( It is located between the upper surfaces of 600b) and serves to connect the two. Through this, there is an advantage that can be used stably by expanding the contact area between the second retaining plate 500 and the cardboard support 600 .

The cardboard support member first fixing part 680 is a second back surface of the first girder-type side pile 200 of one side of the preceding load member first connection part 620 and the portion on which the preceding load member first connection part 620 is seated. It is formed to surround one end of the flange 230 , and is preferably formed in a 'L' shape to fix the cardboard support member 610 .

The cardboard support member second fixing part 690 is the second back side of the first girder-type side pile 200 of one side of the preceding load member second connection part 630 and the part on which the preceding load member second connection part 630 is seated. It is formed to surround one end of the flange 230 , and is preferably formed in a 'L' shape to fix the cardboard support member 610 .

16 to 20 are views showing various shapes of the cardboard support 600 .

16 is a view of a first plate support member 600a according to the first embodiment, wherein the first plate support member 600a includes a first plate support member 610a formed in a concave shape, and the first plate support member ( 610a) is formed to extend to the inner surface of the cardboard support member 610a, the preceding load material third connecting portion 620a to which one side of the preceding load material 700 is connected, and the first plate support member 610a ) is formed to extend to the inner surface of the cardboard support member 610a and is formed to include a fourth connecting portion 630a of the preceding load member to which the other side of the preceding load member 700 is connected.

The preceding load material third connection part 620a includes a preceding load material first fastening hole 621a so that one side of the preceding load material 700 passes through and is fastened, and the preceding load material fourth connection part 630a is connected to the preceding load material 700 ) is formed including the preceding load material second fastening hole 631a so that the other side is passed through and fastened.

The third fixing part 680a of the cardboard support member is formed to surround one end of the second back flange 230 of the first girder-type side pile 200 located on one side, and is preferably formed in a 'L' shape. It serves to fix the first plate support member 610a so as not to be separated.

The fourth fixing part 690a of the cardboard support member is formed to surround one end of the second back flange 230 of the first girder-type side pile 200 located on the other side, and is preferably formed in a 'L' shape. It serves to fix the first plate support member 610a so as not to be separated.

17 is a view of the second plate support 600b according to the second embodiment, wherein the second plate support 600b includes a second plate support member 610b having a concave shape, the second plate support member The member 610b is formed as a first fastening part 611b so that one end is seated on the upper surface of the fifth connecting part 620b of the preceding load material, and the other end is seated on the upper surface of the sixth connecting part 630b of the preceding load material. It is formed as a fastening part (612b).

The second plate support 600b is provided with a fifth connecting portion 620b of a preceding load and a sixth connecting portion 630b of a preceding load, and the fifth connecting portion 620b of the preceding load is located on one side of the second girder-type side surface. It is seated on the second front flange 220 of the pile 200 so that the first fastening part 611b is positioned on the upper surface, and a hole of a predetermined shape is formed on one side so that the preceding load material 700 is fastened.

The preceding load material sixth connection part 630b is seated on the second front flange 220 of the second girder-type side pile 200 located on the other side so that the second fastening part 612b is located on the upper surface, and one side is A hole having a predetermined shape is formed so that the preceding load material 700 is fastened.

18 is a view of a third plate support 600c according to the third embodiment, wherein the third plate support 600c includes a third plate support member 610c formed in a concave shape, the third plate support member The member 610c is formed to include a preceding load material third fastening hole 611c and a preceding load material fourth fastening hole 612c, and one side of the preceding load material 700 is fastened to the preceding load material third fastening hole 611c. It is formed on one side of the third plate support 600c so as to be possible, and the preceding load member fourth fastening hole 612d is formed on the other side of the third plate support 600c so that the other side of the preceding load member 700 is fastened.

In addition, the third plate support (600c) further includes a second girder-type side pile first fastening part 620c and a second girder-type side pile second fastening part 630c, the second girder-type side pile first fastening The part 620c is seated on the second front flange 220 of the second girder-type side pile 200 and is fastened to one end of the third plate support member 610c, and the second girder-type side pile second fastening part (630c) is seated on the second front flange 220 of the second girder-type side pile 200 and is formed at the other end of the third plate support member 610c.

The seventh fixing part 680c of the cardboard support member is formed to surround one end of the second back flange 230 of the first girder-type side pile 200 located on one side, and is preferably formed in a 'L' shape. It serves to fix the third plate support member 610c so as not to be separated.

The eighth fixing part 690c of the cardboard support member is formed to surround one end of the second back flange 230 of the first girder-type side pile 200 located on the other side, and is preferably formed in a 'L' shape. It serves to fix the third plate support member 610c so as not to be separated.

19 is a view of a fourth plate support member 600d according to a fourth embodiment, wherein the fourth plate support member 600d includes a fourth plate support member 610d formed in a concave plate shape.

The fourth plate support (600d) is formed with a first connection member (620d) to be fastened to one side of the second girder-type side pile 200 and the preceding load material 700 located on one side, and located on the other side. A second connecting member 630d is formed so as to be fastened with the other side of the two girder-type side piles 200 and the preceding load material 700 .

The first connecting member 620d is configured to include a second girder-type side pile first fastening hole 621d, a third plate support first fastening hole 622d, and a preceding load material third fastening hole 623d, The second girder-type side pile first fastening hole 621d is formed in a predetermined groove shape to accommodate one side of the second front flange 220 of the second girder-type side pile 200 located on one side, and the third The cardboard support first fastening hole 622d is formed in a predetermined groove shape so that one end of the fourth board support member 610d is accommodated, and the preceding load material third fastening hole 623d is one side of the preceding load material 700 . It is formed in a predetermined hole shape so that the end is passed through and fastened.

The second connecting member 630d is configured to include a second girder-type side pile second fastening hole 631d, a fourth plate support second fastening hole 632d, and a preceding load material fourth fastening hole 633d, The second girder-type side pile second fastening hole 631d is formed in a predetermined groove shape to accommodate one side of the second front flange 220 of the second girder-type side pile 200 located on the other side, and the fourth The second fastening hole 632d of the cardboard support is formed in a predetermined groove shape to accommodate the other end of the fourth board support 600d, and the sixth fastening hole 633d of the preceding load is the other end of the preceding load member 700. It is formed in the shape of a predetermined hole so that it is passed through and fastened.

18 is a view of a fifth plate support member 600e according to a fifth embodiment, wherein the fifth plate support member 600e includes a fifth plate support member 610e having one concave shape.

The fifth plate support 600e is a third connection to be connected to one end of the fifth plate support member 610e, one end of the preceding load material 700, and a second girder-type side pile 200 located on one side. A member 620e is formed, the other end of the fifth plate support member 610e, the other end of the preceding load material 700, the fourth connecting member to be connected to the second girder-type side pile 200 located on the other side 630e is formed.

The third connecting member 620e is configured to include a second girder-type side pile third fastening hole 621e, a preceding load material seventh fastening hole 622e, and a fifth plate support first fastening hole 623e, The second girder-type side pile third fastening hole 621e is formed in a predetermined groove shape to accommodate one side of the second front flange 220 of the second girder-type side pile 200 located on one side, and the preceding load The second seventh fastening hole 622e is formed in a predetermined hole shape so that one end of the preceding load material 700 passes through and is fastened, and the fifth plate support first fastening hole 623e is a fifth plate support member 610e. It is formed in a predetermined groove shape to accommodate one end of the.

The fourth connecting member 630e is configured to include a second girder-type side pile fourth fastening hole 631e, a preceding load material eighth fastening hole 632e, and a fifth plate support second fastening hole 633e, The second girder-type side pile third fastening hole 621e is formed in a predetermined groove shape to accommodate one side of the second front flange 220 of the second girder-type side pile 200 located on the other side, and the preceding load The second eighth fastening hole 632e is formed in a predetermined hole shape so that the other end of the preceding load material 700 passes through and is fastened, and the fifth plate support second fastening hole 633e is a fifth plate support member 610e. It is formed in the form of a predetermined groove to accommodate the other end of the.

Of course, the present invention can be replaced with the form of the cardboard support 600 according to the first to fifth embodiments as shown in FIGS. 16 to 20 in addition to the cardboard support 600 of FIG. 11 .

In order to introduce the prestress of the paperboard support 600, one side of the preceding load material 700 is penetrated and fastened to the preceding load material first connection part 620, and the other side is penetrated through the preceding load material second connection part 630. will be concluded

The preceding load member 700 is preferably formed in the form of a wire rod, such as a steel bar, a screw rod, or a wire, and a first tension member 710 is formed on one side and a second tension member 720 is formed on the other side.

The first tension member 710 is located on one side of the preceding load member 700 and tensions it by pulling one side of the preceding load member 700 .

The second tension member 720 is located on the other side of the preceding load member 700 and tensions it by pulling the other side of the preceding load member 700 .

The first tension member 710 and the second tension member 720 may be formed in the form of a screw, a nut, a turnbuckle, etc., and perform a function of tightening the preceding load member 700 .

That is, as shown in FIG. 13 , both sides of the preceding load member 700 may be tightened by a screw method or the like by placing the first tension member 710 and the second tension member 720 , as shown in FIG. 21 . The preceding load introducing member 730 may be placed on one central side of the preceding load member 700 to tighten the preceding load member 700 by a turnbuckle method or the like.

That is, the preceding load introducing member 730 is formed in the same shape as the turnbutle method, and the preceding load is introduced by rotating the preceding load introducing member 730 with the preceding load introducing member 700 formed with threads opposite to each other. it is for

4,5 to 21 and 22, the brace 800 is one side of the first front flange 120 of the first girder-type side pile 100 or the second front side of the second girder-type side pile 200 It is installed on one side of the flange 220, and in principle, it is formed to be perpendicular to the installed girder-type side pile. .

One flange and the other flange of the brace 800 are each formed with a wale support fastening hole 800a, and the upper reinforcing plate 1020 and the lower reinforcing plate 1030 of the wale support 1000 are seated on each flange. After that, it can be connected by bolting.

In addition, the brace 800 is a brace 800 on the upper part of the brace support part 1200 after installing the brace support part 1200 on the first girder-type side pile 100 or the second girder-type side pile 200. can be raised to strengthen the girder-type side piles and braces.

In addition, the second reinforcing plate (800b) and the third reinforcing plate (800c) are respectively formed in order to install the wale support (1000) on one side and the other side of the brace (800), and its appearance can be confirmed through FIGS. have.

That is, the second reinforcing plate 800b is formed on one side of the flange to connect the flanges facing each other, and the third reinforcing plate 800c is formed on the other side of the flange to connect the flanges facing each other.

Referring to FIG. 22, the brace support 1200 is formed of a plate material bent in a 'L' shape when viewed from the side. Of course, although only two reinforcing bars 1210 are shown in the drawing, one or a plurality of reinforcing bars may be formed as needed. In addition, the brace support portion 1200 may be formed with a bolt fastening groove (510a) for fastening the bolt (refer to T in FIG. 20).

The wale 900 is formed of an H-shaped beam extending in one direction and is formed to be coupled with the brace 800 so that the flange portion of the H-shaped beam is directed in the vertical direction.

In addition, the wale 900 may be further formed with a fourth reinforcing plate 900a or a fifth reinforcing plate 900b on the side coupled to the brace 800, which is selectively formed as needed.

In addition, the wale 900 may be installed by forming a wide support support part 1200 as shown in FIG. 22 . The brace support part 1200 is formed in the shape of a triangular bracket, and one side is fastened to one side of the first girder-type side pile 100 or the second girder-type side pile 200, and the other side is a brace 800 and a wale (900). ) is fastened to one side of the lower surface (not shown).

A wale stiffener 930 may be formed on one side of the wale 900, and specifically, for reinforcement between the girder-type side pile and the wale, the position of the wale stiffener 930 is formed at a position where it meets the girder-type side pile. It is preferable (refer to FIGS. 4 and 5).

In addition, the band stiffener 930 may be formed at a position corresponding to the position of the band band support 1000 to withstand the pressure of the band band support 1000, as shown in FIG. 23. In addition, the position of the band band stiffener 930 may vary. Of course, it may be formed in a position.

23 (b) is a view related to the wale support 1000 of the present invention.

The wale support 1000 is transmitted to the first girder-type side pile 100 or the second girder-type side pile 200 through the earth pressure retaining boards and the cardboard support 600 of the back side, and the transmitted load is the brace After being transmitted through the 800 and the wale 900, it becomes the earth pressure support structure with improved safety so that the brace can receive all the load through the wale support 1000.

The wale support 1000 is located in the space between the brace 800 and the wale 900, but is formed in a triangular shape when viewed from the top, and the first wale support plate 1010, the upper reinforcement plate 1020. , is configured to include a lower reinforcing plate 1030, a wale clasp support reinforcing plate 1040, and a second wale clasp support plate 1050.

The first band support attachment plate 1010 is formed in a plate shape of a predetermined size so as to be fastened to one side of the band band 900 .

The upper reinforcing plate 1020 is formed to cover one side and the other side of the flange surface of one side of the brace 800, respectively.

The upper reinforcing plate 1020 has a first coupling hole 1021 formed at a position corresponding to the wale support fastening hole 800a formed in one flange of the brace 800, and the brace 800 and the upper reinforcing plate 1020. It should be fastened by this bolt.

The lower reinforcing plate 1030 is formed to cover one side and the other side of the flange surface of the other side of the brace 800, respectively.

The lower reinforcing plate 1030 has a second coupling hole 1031 formed at a position corresponding to the wale support fastening hole 800a formed in the flange of the other side of the brace 800, and the brace 800 and the lower reinforcing plate 1030. It should be fastened by this bolt.

The band support reinforcing plate 1040 is positioned between the upper reinforcing plate 1020 and the lower reinforcing plate 1030,

The wale jang support reinforcing plate 1040 has one side connected to the first band jang support plate 1010 and the other side is connected to the first band jang support plate 150 and is formed in a triangular shape, and the side piles, band jangs, and braces It serves to reinforce the strong mutual bond.

The second band support attachment plate 1050 is connected between the upper reinforcing plate 1020 and the lower reinforcing plate 1030 and is coupled to one side of the brace 800 .

The first and second band support attachment plates 1010 and 1050 are an upper reinforcing plate 1020, a lower reinforcing plate 1030, and a reinforcing band ( 1040) to form an integral body with the flange of the brace and the flange of the wale with bolts or welding.

The reaction force of earth pressure transmitted through the wale 900 in the first girder-type side pile 100 or the second girder-type side pile 200 by the wale support 1000 of the present invention is installed on the left and right sides of the brace 800 It becomes the band-jang support 1000 on both sides and bolts or welds so that the band-jang support 1000 and the band-jang 900, the band-jang support 1000 and the brace 800 are strong.

24 is a view of an anti-tilt device 1100, wherein the anti-tilt device 1100 is formed by cross-crossing arc-shaped wire rods of a predetermined size as shown in the drawing.

The tilt prevention device 1100 is formed on one side of the first front flange 120 of the first girder-type side pile 100 and one side of the first back flange 130 or the second girder-type side pile 200 of the It is formed on one side of the second front flange 220 and one side of the second rear flange 230 .

In addition, although it is shown in FIGS. 24 and 26 that only the first girder-type side pile 100 is formed with the anti-tilt 1100, the second girder-type side pile 200 also has the anti-tilt 1100 installed. is of course

The tilt prevention device 1100 prevents the first girder-type side pile 100 or the second girder-type side pile 200 inserted into the drilling hole 10 from being tilted by the empty space of the drilling hole 10 . has the effect of

Referring to FIG. 37, in the present invention, an interface guide plate 2000 is additionally formed, and the interface guide plate 2000 is a first girder-type side pile 100, a second girder-type side pile 200, and the second When the first retaining plate 400 and the second retaining plate 500 are installed, it is formed to be positioned between the first retaining plate 400 and the second retaining plate 500, and the first girder-type side pile 100 ) and located at the lower end of the first retaining plate 400, but formed in a shape corresponding to the lower surface, and formed between the adjacent second girder-type side piles 200, the first retaining plate 400 and the second It serves to separate the retaining plate (500).

Also, in the boundary guide plate 2000, a predetermined number of rebar through holes 2000a are formed with a predetermined interval, so that the reinforcing bars are installed vertically.

25 is a flowchart of a retaining plate construction method, side pile preparation step (S1), drilling hole forming step (S2), side pile construction step (S3), first retaining plate construction step (S4), drilling hole inner side pile Backfilling step (S5), excavating the first floor above the ground (S6), constructing the first floor above the ground (S7), digging the ground on the first floor (S8), the first installation step of braces and bands (S9), depth of water Digging step (S10), second retaining plate installation step (S11), cardboard support installation step (S12), back ground filling step (S13), brace and bandage second installation step (S14), slab formation step (S15) , Repeat from S7 to S16 according to the floor plan of the basement, including the wall pouring step (S16), the digging step from the foundation floor (S17), the supporting pile bushing construction step (S18), and the structure foundation floor construction step (S19). .

S1) Side pile preparation step

The side pile preparation step (S1) is a step of preparing by combining the support pile part 300 with the second girder-type side pile 200 so that the lower end of the second girder-type side pile 200 is inserted.

S2) Perforated hole formation step

The drilling hole forming step (S2) is to drill the ground to have a predetermined interval to insert the first girder-type side piles 100 and the second girder-type side piles 200 to make a predetermined number of drilling holes (10). It is a forming step.

S3) Side pile construction step

The side pile construction step (S3) is a second girder type in which the support pile part 300 is coupled through the first girder-type side pile 100 and the side pile preparation step (S1) in the drilling hole drilled at a predetermined interval. It is a step of alternately installing the side piles (200).

26 and 27 are views of the side pile construction step (S3), and in the side pile construction step (S3), the first girder-type side pile 100 is installed to the required depth of order, and the second girder-type side pile 200 ) is installed up to the depth of entry.

S4) First retaining plate construction step

The first retaining plate construction step (S4) is such that after the side pile construction step (S3), the first retaining plate 400 is located between the first girder-type side piles 100 and the second girder-type side piles 200. This is a step of inserting the first retaining plate 400 .

28 and 29 are views related to the first retaining plate construction step (S4), in which the first retaining plate construction step (S4) is to insert the first retaining plate 400 and then injecting a water leak prevention material to prevent water leakage. step may be included.

S5) Back filling step of the side pile inside the drilling hole

In the drilling hole inner side pile back filling step (S5), after the first retaining plate construction step (S4), the filling material is injected through the injection hole formed in the first retaining plate 400 and the second retaining plate 500 to inject the inner side of the drilling hole This is the stage of backfilling the pile.

By injecting the filler material into the back ground through the inlet of the retaining plates through the drilling hole inner side pile back filling step (S5), the loosened ground and overburden space on the back side of the retaining plate can be filled in a closed room to prevent subsidence of the back ground, so The influence of the surrounding environment can be minimized.

S6) Step of excavating the first floor above the ground

The first-floor excavation step (S6) is after the drilling hole inner side pile backfilling step (S5), excavating the first-floor floor (L1) to the depth of forming the floor in order to construct the floor of the first floor above the ground. is a step

The depth of forming the floor in the above-ground floor excavation step (S6) may vary depending on the size, scale, environment, etc. of the building, and this may be determined by the operator in consideration of various circumstances.

S7) Ground floor construction stage

The first floor floor construction step (S7) is a step of constructing the first deck plate 3100 on the first floor floor portion (L1) excavated through the first floor floor excavation step (S6).

Referring to FIG. 38 , it can be seen that the first deck plate 3100 is installed.

The first deck plate 3100 is constructed by a conventional deck plate construction method, and a detailed description of the construction method will be omitted.

S8) Step of digging the ground floor

The step of excavating the first basement level (S8) is a step of excavating as much as a predetermined depth of the first basement floor (L2) in order to construct the floor of the first basement after the first above-ground floor construction step (S7).

In the step of digging the ground floor (S), the depth of the first basement floor (L2) is determined according to the scale and size of the building (refer to FIG. 32).

S9) First installation stage of braces and bands

After installing the brace 800, the first installation step (S9) of the brace and wale is a step of installing the wale (900).

The brace and the wale jang first installation step (S9) is installed so that the brace 800 is located on one side of the first girder-type side pile 100 or the second girder-type side pile 200, and the installed brace 800 The wale (900) on the left and right is installed so as to be vertical.

S10) Destroying the depth of the water level

After the first installation step (S9) of the brace and wale, the digging step (S10) is a step of digging up to the depth of the order.

The digging step (S10) of the order depth level is a plate shape of a predetermined length to connect between the first girder-type side piles 100 and the second girder-type side piles 200 adjacent to each other after digging up to the order depth. A girder-type side pile connector 60 may be installed (refer to FIG. 30).

S11) 2nd retaining plate installation step

The second retaining plate installation step (S11) is a second girder-type side pile 200 so as to be located at the lower end of the second plate guide 240 of the second girder-type side pile 200 after the digging step (S10). ) coupling the third plate guide 250 to one end and the other end of the second rear flange 230, respectively, and installing the second retaining plate 500 to be fitted to the installed third plate guide 250. to be.

The second retaining plate installation step (S11) is the third plate guide 250 of the second girder-type side pile 200 located on one side and the third plate guide of the second retaining plate installation step (S11) adjacent to each other A second retaining plate 500 is installed between the 250 .

After the second retaining plate installation step (S11), the interface guide plate 2000 is formed between the first retaining plate 400 and the second retaining plate 500, and the first retaining plate 400 and the second retaining plate It is possible to secure stability by filling the empty space between (500).

S12) Board support installation step

In the cardboard support installation step (S12), the cardboard support 600 is installed in the ground excavated through the water-deep trenching step (S10), but the cardboard support 600 is installed between the adjacent second girder-type side piles 200. ) is installed so that it is located.

31 is a plan view of the cardboard support installation step (S11), and it can be seen that the second retaining plate 500 and the cardboard support plate 600 are installed. In addition, the cardboard support 600 of the present invention is of course replaceable in the forms of Figures 16 to 20.

36 and 37 are views in which the first girder-type side piles 100, the second girder-type side piles 200, the first retaining plate 400, the second retaining plate 500, and the cardboard support 600 are installed. It is three-dimensionally illustrated.

S13) Back ground filling step

The back ground filling step (S13) is a step of performing back filling by injecting a filler through the inlet formed in the first retaining plate 400 and the second retaining plate 500 after the cardboard support installation step (S12).

By injecting the filler material into the back ground through the inlet of the retaining plates through the back ground filling step (S13), the loosened ground and the overburden space on the back of the retaining plate are filled in a closed room to prevent subsidence of the back ground. impact can be minimized.

S14) Second installation stage of braces and bands

After the second installation step (S14) of the brace and the wale (S14), after the back ground filling step (S13), the brace (800) is installed on one side of the first girder-type side pile (100), and then the brace (800) on both sides of the band ( As a step of installing 900), the first girder-type side pile 100 and the brace 800 are vertical, and the brace 800 and the wale are installed to be vertical.

The brace and the wale of the second installation step (S14) is fixed to the position of the brace 800 to the first girder-type side pile 100 or the second girder-type side pile 200 position, and the wale in the step of S10 below (900) was to support the earth pressure transmitted through the first retaining plate 400 or the second retaining plate 500 by binding to the fixed point formed on the brace 800 after the installation of the brace 800.

The brace 800 is installed on one side of the first girder-type side pile 100 or the second girder-type side pile 200 , the first girder-type side pile 100 or the second girder-type side pile 200 and to be installed vertically,

In addition, due to the load of the brace 800 directly fixed to the first girder type side pile 100 or the second girder type side pile 200, the first girder type side pile 100 or the second girder type side pile 200 ), a first pile stiffener connecting the first front flange 120 and the first rear flange 130 of the first girder-type side pile 100 at the position where the brace 800 is installed in order to prevent the local buckling phenomenon of the (100a) is installed, and the structural stability of the first retaining plate 400 is greatly increased due to the change in the installation method of the brace 800 and the wale 900, thereby minimizing the displacement of the retaining facility and subsidence of the back ground. can be almost completely eliminated. In addition, the second pile stiffener 200a may be installed in the second girder-type side pile 200, and is formed in a position corresponding to the first pile stiffener 100a of the first girder-type side pile 100, and plays the same role. do

The first pile stiffener 100a is formed in one space and the other space between the first front flange 120 and the first back flange 130 of the first girder-type side pile 100. Specifically, the first It is to be formed in the portion of the first girder-type side pile 100 at a position corresponding to the position of the brace 800 installed on one side of the girder-type side pile 100.

The second pile stiffener 200a is formed in one space and the other space between the second front flange 220 and the second back flange 230 of the second girder-type side pile 200. Specifically, the second It is to be formed in the portion of the second girder-type side pile 200 at a position corresponding to the position of the brace 800 installed on one side of the girder-type side pile 200.

In addition, the brace 800 is a girder-type side pile after installing the brace support part 1200 on one side of the first girder-type side pile 100 or on one side of the second girder-type side pile 200 , and then raise the brace on the upper part and braces can be strengthened.

Referring to FIG. 22 , the brace support part 1200 is formed in a plate shape bent in a 'L' shape when viewed from the side, and a reinforcing bar 1210 is additionally formed on one side of the inside to reinforce the support bracket 810. Although only one reinforcing bar 1210 is shown in the drawing, it is of course that a plurality of reinforcing bars 1210 may be formed as needed. In addition, the support support portion 1200 may be formed with a bolt fastening groove (1200a) for fastening the bolt (refer to T in FIG. 20).

In addition, the portion marked with T is a portion showing the state in which the brace support 1200 is fastened by bolting, and of course, it may be fastened by other methods such as welding in addition to bolting.

In addition, after installing the brace 800, the wale 900 is installed on both sides of the brace 800, and the brace 800 and the wale 900 are installed so as to be vertical.

First, the band length 900 of the present invention is made of an H-beam extending in one direction and is coupled with the brace 800 so that the flange portion of the H-beam is directed in the vertical direction.

In addition, the wale 900 may be additionally installed with a wale support 920, the wale support 920 is formed in a triangular bracket shape, one side is fastened to one side of the girder-type side pile, and the other side is the wale pole 900. It is fastened to one side of the lower surface (not shown).

The wale support 920 is installed so that the wale 900 is placed thereon after the brace support 1200 is installed on the lower portion of the brace 800 installed in advance, so that the members are interconnected.

In addition, in the second installation step (S14) of the bracing and wale, after installing the wale 900, the wale support 1000 may be additionally installed between the brace 800 and the wale 900, so that the earth pressure on the back is a cardboard support The load acting on the first girder-type side piles 100 or the second girder-type side piles 200 through 600 and the first girder-type side piles 100 or the second girder-type side piles 200 After being transmitted through the brace 800 and the wale 900, it becomes an earth pressure support structure with improved safety so that the brace can receive all the load through the wale support 1000.

S15) slab formation step

The slab forming step (S15) is a step of forming a slab after the second installation step (S14) of the brace and wale.

Fig. 32 (a) is a view of the slab forming step (S15) of the first basement floor, and the step of pouring the slab in the slab forming step (S15) is a process in a general construction method, and a detailed description thereof will be omitted.

S16) wall casting step

The wall pouring step (S16) is a step of pouring the wall after the slab forming step (S15).

Figure 32 (b) is a view of the wall pouring step (S16) of the first basement floor, and horizontal and vertical reinforcing bars can be reinforced, and the wall can be formed by injecting ready-mixed concrete with a formwork or finishing material, the wall pouring step (S16) ), the step of pouring the wall is a process in the general construction method, and detailed description is omitted.

S16) Step of digging from the bottom of the foundation

The step of digging from the foundation floor (S17) is a step of performing excavation in order to install the next stage after the wall pouring step (S16).

After the excavation is carried out through the digging step (S17) from the foundation floor, the basement 2, 3, 4, ..., etc. can be formed by repeating the above processes.

That is, the steps s1 to s16 above are written based on the formation of the first above-ground and the first basement.

In the case of forming the second basement floor, as shown in FIG. 34, excavation proceeds to the depth of the second basement level (L4), and wall casting, braces, slabs, etc. can be placed,

In the case of further forming the third basement, the third basement may be formed in the form shown in FIG. 35 after the second basement is formed.

S18) Support pile bushing construction step

The support pile part construction step (S18) is a step of injecting a filling material to fix the support pile part after the worker proceeds to the desired depth after the digging step (S17) from the foundation floor.

Referring to FIG. 4 , a groove filling material 1300 may be formed on the front flange of the side pile to fill the empty space between the girder-type side pile and the wale (900).

The load jack 1500 is installed between the brace 800 and the brace 800 in order to improve the support function by applying a load after installing the brace 800 and in close contact with the front flange of the girder-type side pile. It may or may not be installed.

38 is an example of reinforcing reinforcing bars to construct the wall of an underground structure using the girder-type side pile space, and vertical reinforcing bars 2100 and It is a view showing what is possible to reinforcing the transverse reinforcing bar 2200, and it is a view illustrating what can be utilized as shown in the drawing.

S19) Structure foundation floor construction stage

The structure foundation floor construction step (S19) is a step of constructing the foundation floor of the structure after the support pile section construction step (S18).

The configuration shown in the embodiments and drawings described in the present specification as described above is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, so various equivalents and modifications that can be substituted for them It should be understood that there may be examples.

10 drill hole
20 infusion tube
30 grouting hole
60 side pile connector
100 1st girder-type side pile
100a 1st pile stiffener
110 1st girder web
120 First front flange
130 1st back flange
140 First Edition Guide
200 2nd girder-type side pile
200a 2nd pile stiffener
210 2nd girder web
220 2nd front flange
221 Passage 1
230 2nd back flange
231 Passport 2
240 Second Edition Guide
300 support pile
310 Side Pile Insertion Pipe
320 Lower reinforcing plate
330 pile end
330a 1st pile end plate
330b 2nd pile end plate
330c 3rd pile end plate
330d 4th pile end plate
331 Pile End Reinforcement
340 lower reinforcement bracket
340a 1st lower reinforcement bracket
340b 2nd lower reinforcement bracket
350 upper reinforcement bracket
350a 1st upper reinforcement bracket
350b 2nd upper reinforcement bracket
360 upper reinforcing plate
361 1st inlet
362 2nd inlet
363 Side pile through hole
370 stud
400 1st retaining plate
410 1st retaining board
411 concave
412 first fastening part
413 second fastening part
420 First Reinforcement
500 2nd retaining plate
510 2nd retaining board
510a bolted groove
520 Second Reinforcement
600 cardboard strips
610 Cardboard support member
620 Lead load material 1st connection part
630 Lead load material 2nd connection part
640 Reinforcement and replacement parts for cardboard support
650 Cardboard Reinforcement
670 retaining board connection part
680 Cardboard support member 1 fixing part
690 Cardboard support member 2nd fixing part

600a first plate support
610a first plate support member
620a Leading load material 3rd connection part
621a Prior load material 1st fastening hole
630a Leading load material 4th connection part
631a Preload material 2nd fastening hole
680a cardboard support member third fixing part
690a cardboard support member 4 fixing part
600b 2nd plate support
610b second plate support member
611b first fastening part
612b second fastening part
620b Leading load material 5th connection part
630b Preload member 6th connection part
680b cardboard support member 5 fixing part
690b cardboard support member 6th fixing part
600c 3rd plate support
610c third plate support member
611c Pre-load material 3rd fastening hole
612c Pre-load material 4th fastening hole
611c Pre-load material 3rd fastening hole
620c 2nd girder type side pile 1st fastening part
630c 2nd girder type side pile 2nd fastening part
680c cardboard support member 7 fixing part
690c cardboard support member 8th fixing part
600d 4th plate support
610d 4th plate support member
620d first connecting member
621d 2nd girder type side pile 1st fastening hole
622d 3rd plate support 1st fastening hole
623d Preload material 3rd fastening hole
630d second connecting member
631d 2nd girder type side pile 2nd fastening hole
632d 4th plate support 2nd fastening hole
633d Preload Material 4th Fastening Hole
600e 5th plate support
610e 5th plate support member
620e third connecting member
621e 2nd girder type side pile 3rd fastening hole
622e Preload material 7th fastening hole
623e 5th plate support 1st fastening hole
630e fourth connecting member
631e 2nd girder type side pile 4th fastening hole
632e Preload material 8th fastening hole
633e 5th plate support 2nd fastening hole
700 preload
730 Leading load introducing member
800 brace
800a first reinforcing plate
800b second reinforcing plate
800c 3rd reinforcing plate
810 support bracket
900 belt
930 band stiffener
1000 band support
1010 band support plate
1011 Belt support replacement part
1020 wale support reinforcing plate
1100 anti-tilt
1200 Brace Support
1200a bolted groove
1210 rib
1300 Homefill
1500 load jack
1600 Underground structure support part
1700 foundation floor connector
1800 support pile connector
1900 concrete pouring part
2000 boundary guide plate
2000a rebar through hole
2100 vertical rebar
2200 transverse rebar
3100 1st deck plate

Claims (8)

A first front flange 120 is formed on one side of the first girder web 110 formed in a girder shape to be installed up to the water depth during pile construction, and a first rear flange 130 is formed on the other side, but the first The first plate guide 140 is formed on both sides of the rear flange 130, the first girder-type side piles 100 to facilitate the reinforcement of the wall of the underground structure;
It is intended to be installed up to the depth of entry during construction of the side pile, and the second front flange 220 is formed on one side of the second girder web 210 formed in a girder shape, and the second rear flange 230 is formed on the other side. , The second girder-type side piles 200, the second plate guide 240 is formed on both sides of the second girder web 210 to facilitate the reinforcement of the wall of the underground structure;
Doedoe installed on one side of the first front flange 120 of the first girder-type side pile 100 or the second front flange 220 of the second girder-type side pile 200, the installed girder-type side pile and The brace 800 is formed to be vertical;
It is made of an H-beam extending in one direction and is formed to be coupled with the brace 800 so that the flange portion of the H-beam is directed in the vertical direction;

The first girder-type side pile 100 is
A first girder web 110 formed in a girder shape in the direction going from the upper side to the lower side, the portion forming the vertex in the girder form is formed as a first side plane 111;
It is located on one inner surface and the other inner surface of the first rear flange 130, but the first plate guide 140 for inserting the retaining plate; includes;
The second girder-type side pile 200 is
A second girder web 210 formed in a girder shape in the direction going from the top to the bottom, the portion forming the vertex in the girder shape is formed as a second side plane 211;
A second front flange 220 in which a first passage hole 221 is formed on one side of the part fastened to the support pile part 300 in order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened. );
In order to facilitate movement when the grout is injected into the part to which the support pile part 300 is fastened, it is located on one side of the part fastened to the support pile part 300, but located in a diagonal direction with the first passage hole 221 . a second rear flange 230 in which two passage holes 231 are formed;
It is located on one inner surface and the other inner surface of the second back flange 230, but is for inserting the retaining plate, and extends from the upper part of the second back flange 230 by a predetermined length to one side of the second back flange 230. The second plate guide 240 is formed up to;
On one side, a groove-shaped second back flange fastening groove 251 is formed so that one end of the second back flange 230 is accommodated, and the other side is a second plate guide so that one end of the second plate guide 240 is accommodated. A retaining wall system usable as an underground wall structure, characterized in that it includes; a third plate guide 250 in which the fastening groove 252 is formed. According to claim 1,
The second girder-type side piles 200, the lower one side is inserted so that the support pile part 300 having a predetermined space; further comprising,

The support pile part 300 is
A side pile insertion pipe 310 formed in a predetermined pipe shape so that the lower side of the second girder-type side pile 200 is inserted;
A lower reinforcement plate 320 located at the lower end of the side pile insertion pipe 310 but formed in a plate shape to correspond to the lower end of the side pile insertion pipe 310 in order to close the open lower end of the side pile insertion pipe 310 );
a pile end portion 330 connected to the lower reinforcing plate 320 and formed such that a predetermined number of triangular plates have a conical shape;
The lower reinforcement bracket 340 is installed on the upper surface of the lower reinforcing plate 320, a predetermined number is formed to support the second girder-type side pile 200 inserted into the side pile insertion pipe 310;
an upper reinforcement bracket 350 positioned at the upper end of the side pile insertion pipe 310 but formed in a predetermined number to support the second girder-type side pile 200;
By covering the upper surface of the side pile insertion pipe 310, the second girder-type side piles 200 are for passing, and the second girder-type side piles 200 are passed through the second girder-type side piles 200 ) Retaining wall system usable as an underground wall structure, characterized in that it comprises a; 3. The method of claim 1 or 2,
The first girder-type side piles are formed in an arc shape with one side concave so as to correspond to one side of the drilling hole, and are installed between the adjacent first girder-type side piles 100 and the second girder-type side piles 200 and located on one side. (100) the first plate guide 140 and the second girder-type side pile 200 of the second plate guide 240 is inserted between the installed first retaining plate 400;
Installed between the adjacent second girder-type side piles 200, the third plate guide 250 of the second girder-type side piles 200 located on one side and the second girder-type side piles 200 located on the other side ) of a second retaining plate 500 that is inserted into the third plate guide 250 and installed; 4. The method of claim 3,
It includes a plate support member 610 formed in a plate shape of a predetermined size, but surrounds one side of the cardboard support member 610 and is bent inwardly with a preceding load material first connection part 620 and a first plate support member 610) A cardboard support 600 formed including a second connecting portion 630 of the preceding load material that is bent inwardly surrounding the other end of the;
One side is penetrated and fastened to the preceding load member first connection part 620, and the other side is penetrated and fastened to the preceding load member second connection part 630. retaining wall system. 5. The method of claim 4,
But located in the space between the brace 800 and the wale 900, the wale support 1000 is formed in a triangular shape when viewed from the top;

Formed on one side of the first front flange 120 and the first back flange 130 of the first girder-type side pile 100, or the second front flange 220 of the second girder-type side pile 200 A retaining wall system usable as an underground wall of a structure, characterized in that it comprises;

6. The method of claim 5,
When the first girder-type side pile 100, the second girder-type side pile 200, the first retaining plate 400, and the second retaining plate 500 are installed, the first retaining plate 400 and the second A retaining wall system usable as an underground wall of a structure comprising a; boundary surface guide plate 2000 formed to be positioned between the retaining plates 500.
A side pile preparation step (S1) of preparing the second girder-type side pile 200 by coupling the support pile part 300 with the second girder-type side pile 200 so that the lower end of the pile 200 is inserted;
A drilling hole forming step (S2) of drilling the ground to have a predetermined interval to insert the first girder-type side piles 100 and the second girder-type side piles 200 to form a predetermined number of drilling holes 10 (S2) );
The first girder-type side piles 100 and the second girder-type side piles 200 to which the support piles 300 are coupled through the side pile preparation step (S1) in the drilling holes drilled at predetermined intervals are alternately alternating Side pile construction step to install (S3);
After the side pile construction step (S3), the first retaining plate 400 is positioned between the first girder-type side pile 100 and the second girder-type side pile 200. Inserting the first retaining plate 400 First retaining plate construction step (S4);
After the first retaining plate construction step (S4), the filling material is injected through the injection hole formed in the first retaining plate 400 and the second retaining plate 500 to perform the rear filling of the side stakes in the drilling hole. Back filling step (S5);
After the drilling hole inner side pile backfilling step (S5), the first floor excavation step (S6) of excavating the first floor floor portion (L1) to the depth of forming the floor portion to construct the floor portion of the first floor above the ground;
A first-floor construction step (S7) of constructing a first deck plate 3100 on the first-floor floor (L1) excavated through the first-floor excavation step (S6);
After the first-floor construction step (S7) above the ground, the first-floor excavation step (S8) of excavating as much as a predetermined depth of the floor of the first basement floor (L2) in order to construct the floor of the first basement floor (S8);
After installing the brace 800, the brace and wale first installation step (S9) for installing the wale 900. 8. The method of claim 7,
After the first installation step (S9) of the brace and wale, the step of digging the trench to the depth of the order depth (S10);
After the digging step (S10) of the second girder-type side pile 200, the second back flange 230 of the second girder-type side pile 200 to be located at the lower end of the second plate guide 240 of the second girder-type side pile 200 A second retaining plate installation step (S11) of coupling the third plate guide 250 to one end and the other end, respectively, and installing the second retaining plate 500 to be fitted to the installed third plate guide 250;
A paperboard support 600 is installed between the second girder-type side piles 200 adjacent to each other but installed in the ground excavated through the water-deep digging step (S10). installation step (S12);
After the cardboard support installation step (S12), the first retaining plate 400 and the second retaining plate 500 by injecting a filler through the inlet formed to proceed with the back filling step (S13);
After the back ground filling step (S13), the brace 800 is installed on one side of the first girder-type side pile 100, and then the braces 900 are installed on both sides of the brace 800. step (S14);
A slab forming step (S15) of forming a slab after the second installation step (S14) of the brace and wale;
a wall pouring step (S16) of pouring a wall after the slab forming step (S15);
After the wall pouring step (S16), a digging step (S17) from the foundation performing excavation to install the next stage;
A support pile part construction step (S18) of injecting a filling material to fix the support pile part after the worker proceeds to the desired depth after the digging step (S17) from the foundation floor;
After the support pile bushing construction step (S18), the structure foundation floor construction step (S19) of constructing the foundation floor of the structure;

Images