KR102268882B1 - Three-way thumb pile reinforcement type self-supporting soil barrier construction method - Google Patents

Abstract

The present invention relates to a three-way thumb pile reinforcement-type self-supporting soil barrier construction method, which is able to more easily form a soil barrier structure by using a sheet pile or one-side sheet pile, which is placed in three ways on a thumb pile, another-side sheet pile, fixer, auxiliary fixer, steel line, or steel rod, greatly reduce construction cost and construction period since it is not needed to additionally install a horizontal reinforcing material, perform a water-blocking function, remove and reduce a horizontal reinforcing material, remarkably reduce accidents on the construction and industrial sites, and avoid installing an earth plate which causes waste in forest resources and which has a considerable concern to have a negative environmental impact on the ground.

Description

Three-way thumb pile reinforcement type self-supporting soil barrier construction method

The present invention can more easily form a retaining structure using a sheet pile or one side sheet pile, the other side sheet pile and a fixture, an auxiliary fixture and a steel wire or a steel rod arranged in three directions on the thumb pile, as well as a separate horizontal reinforcing material. Since there is no need to install it, the construction cost can be reduced and the construction period can be significantly reduced. Furthermore, it is possible not only to have a water-repellent function, but also to significantly reduce safety accidents in the construction industry site by removing and reducing horizontal reinforcement, and, at the same time, It relates to a three-way thumb pile reinforcement type self-supporting retaining construction method that does not require the installation of earth plates, which cause waste and have a high risk of adverse environmental impact on the ground.

In general, as a retaining structure for supporting the back soil of a cut surface or a fill surface, the conventional form is made of a thumb pile and an earth plate.

In the conventional retaining structure composed of such thumb piles and earth plates, first, the thumb piles are penetrated into the ground, then the first excavation is done, and then a earth plate made of wood is sandwiched between the thumb piles, and soil is applied to the back of the earth plate After filling, additional excavation work, earth plate installation work between thumb piles in the excavated part, and soil filling work on the back of earth plate are repeatedly performed to the target excavation depth.

In relation to these retaining structures, recently, the retaining structure is constructed on the ground using thumb piles, but by preventing empty space from occurring on the back of the retaining structure, it prevents the subsidence of the rear soil and prevents the occurrence of cracks in the rear ground, A retaining structure and its construction method that can prevent in advance the occurrence of environmental problems caused by the presence of chemically treated wooden earth plates in the ground has been proposed as Korean Patent Registration No. 10-1858961.

However, in the case of the Korean Patent Publication No. 10-1858961, in order to prevent the sheet pile from being pushed in the front direction by the pressure from the ground on the back of the sheet pile, a separate horizontal reinforcement is provided on the front side of the sheet pile. In addition to the inconvenience of installation, there is a problem that a large construction cost and a large construction period are required.

Domestic Patent Publication No. 10-1858961

The present invention was created to solve the above problems, and using a sheet pile or one side sheet pile, the other side sheet pile and a fixture, an auxiliary fixture and a steel wire or a steel rod arranged in three directions on the thumb pile, more easily the retaining structure Not only can it be formed, but also because there is no need to install a separate horizontal reinforcement, the construction cost can be reduced and the construction period can be significantly shortened. Furthermore, the water-repellent function is also possible, and safety accidents are prevented at the construction site by removing and reducing the horizontal reinforcement. The purpose of this is to provide a three-way thumb-pillar reinforcement type self-supporting retaining method that can significantly reduce the need for installing earth plates, which can significantly reduce forest resources and cause environmental damage to the ground while causing waste of forest resources. .

The present invention for achieving the above object is a lower horizontal plate member, an upper horizontal plate member disposed in the upper direction of the lower horizontal plate member, and an intermediate number formed between the upper horizontal plate member and the lower horizontal plate member a thumb stake made of a direct plate member; One side sheet pile and the other side sheet pile respectively connected and fixed to one side and the other side of the thumb pile, and an upper sheet pile connected and fixed to the upper part of the thumb pile in a state perpendicular to the one side sheet pile and the other side sheet pile a sheet file to be; One side seating plate seated and fixed on the upper surface of one side of the lower horizontal plate member of the thumb pile, and one side locking ring member formed on an upper side of the one side seating plate to be hooked and fixed to the ring on the other side of the one side sheet pile; One side connector including a one-side protruding jaw which is formed in the upper center of the upper center of the one-side seating plate to a certain length in the upper direction of the one-side seating plate and is inclined downwardly inclined downwardly on one side of the one-side seating plate in the downward direction; The other side seating plate is seated and fixed on the upper surface of the other side of the lower horizontal plate member of the thumb pile, and the other side stopping ring member is formed on the other side of the upper side of the other side seating plate and is hooked and fixed to the ring of one side of the other side sheet pile; The other side connector including the other protruding jaw which is formed in the upper center of the other side seating plate to protrude by a predetermined length in the upper direction of the other side seating plate and to have an inclined surface that is inclined downward in the other downward direction of the other side seating plate on the other side; An upper seating plate seated and fixed on the upper surface of the upper horizontal plate member of the thumb pile, and an upper engaging ring member formed on an upper side of the upper seat plate to be caught by a ring on the front side of the upper sheet pile, and the upper part A three-way thumb pile reinforcement type self-support using a three-way thumb pile reinforcement type self-supporting retainer comprising a; an upper connector including an upper protruding jaw protruding to one side of the upper seating plate by a predetermined length on one side of the seating plate A method for constructing a soil retaining wall,
a) a thumb stake preparation step of preparing the thumb stake; b) a connector assembly step of assembling the one-side connector, the other-side connector, and the upper connector to the thumb stake;
c) a step of vertically reinforcing the plurality of thumb piles to which the one side connector, the other connector and the upper connector are fixed to the ground at regular intervals;
d) A plurality of one-side sheet piles and a plurality of other-side sheet piles are connected and fixed to each other in a zigzag form, respectively, vertically arranged between the plurality of thumb piles vertically rooted at regular intervals in the ground, and a plurality of the upper sheet piles are zigzag A plurality of the one side sheet pile, a plurality of the other side sheet pile and a plurality of upper sheet piles are perpendicular to the ground so as to be vertically connected and fixed to each other in the form of being disposed perpendicular to the rear direction of the plurality of thumb piles vertically rooted in the ground at regular intervals. a step of inserting the sheet pile into the piercing;
e) a ground excavation step of excavating the front of the plurality of thumb piles in a vertical state, the front of the one sheet pile in a vertical state, and the ground in front of the other side sheet pile in a vertical state;
i) After completion of the construction of the structure in the excavation section formed to a certain depth in the ground through the e) ground excavation step, the front side of the plurality of thumb piles, the front side of the one side sheet pile of the sheet pile, and the front side of the other side sheet pile and the structure Backfilling the excavation section backfilling the excavation section between the outer surface of the;
j) provides a three-way thumb pile reinforcement type self-supporting retaining method comprising the; j) a step of removing the thumb piles and sheet piles for removing the plurality of thumb piles and the sheet piles.

In addition, the present invention is a thumb pile comprising a lower horizontal plate member, an upper horizontal plate member disposed in the upper direction of the lower horizontal plate member, and an intermediate vertical plate member formed between the upper horizontal plate member and the lower horizontal plate member and; a sheet file comprising one side sheet file and the other side sheet file connected and fixed to one side and the other side of the thumb pile, respectively; One side seating plate seated and fixed on the upper surface of one side of the lower horizontal plate member of the thumb pile, and one side locking ring member formed on an upper side of the one side seating plate to be hooked and fixed to the ring on the other side of the one side sheet pile; One side connector including a one-side protruding jaw which is formed in the upper center of the upper center of the one-side seating plate to a certain length in the upper direction of the one-side seating plate and is inclined downwardly inclined downwardly on one side of the one-side seating plate in the downward direction; The other side seating plate is seated and fixed on the upper surface of the other side of the lower horizontal plate member of the thumb pile, and the other side stopping ring member is formed on the other side of the upper side of the other side seating plate and is hooked and fixed to the ring of one side of the other side sheet pile; The other side connector including the other protruding jaw which is formed in the upper center of the other side seating plate to protrude by a predetermined length in the upper direction of the other side seating plate and to have an inclined surface that is inclined downward in the other downward direction of the other side seating plate on the other side; a fixture which is provided on one side of the upper surface and the other side of the upper surface of the upper horizontal plate member of the thumb pile, respectively, and consists of a fixture on one side and a fixture on the other side each having a filling space filled with soil and sand inside; an auxiliary fixture provided in the fixture; A three-way thumb pile reinforcement type self-supporting retaining wall construction method using a three-way thumb pile reinforcement type self-supporting retaining retainer comprising a steel wire or a steel rod passing through the auxiliary fixture,
a) a thumb stake preparation step of preparing the thumb stake;
b) assembling a connector and a fixture and a steel wire or a steel bar for assembling the one side connector, the other connector, a fixture, an auxiliary fixture, and a steel wire or steel bar to the thumb stake;
c) a step of inserting the thumb piles perpendicular to the ground at regular intervals with the one connector, the other connector, the fixture, the auxiliary fixture, and a plurality of the thumb piles each having a steel wire or a steel rod fixed thereto;
d) a plurality of one side sheet piles and a plurality of the other side sheet piles are connected and fixed to each other in a zigzag form, respectively, so that the plurality of the one side sheet piles are vertically disposed between the plurality of thumb piles vertically rooted at regular intervals in the ground; A sheet pile rooting step of vertically rooting the other side of the sheet pile into the ground;
e) a ground excavation step of excavating the front of the plurality of thumb piles in a vertical state, the front of the one sheet pile in a vertical state, and the ground in front of the other side sheet pile in a vertical state;
i) After completion of the construction of the structure in the excavation section formed to a certain depth in the ground through the e) ground excavation step, the front side of the plurality of thumb piles, the front side of the one side sheet pile of the sheet pile, and the front side of the other side sheet pile and the structure Backfilling the excavation section backfilling the excavation section between the outer surface of the;
h) provides a three-way thumb pile reinforcement type self-supporting retaining construction method comprising a; h) a step of removing the thumb piles and sheet piles for dismantling the plurality of thumb piles and the sheet piles.

Here, between the e) excavation step and the step i) backfilling the excavation section, f) an order wall installation step of installing an order wall made of guide rails between the lower front sides of the plurality of thumb piles;
g) a concrete filling step of filling concrete between the guide rail forming the order wall and the plurality of one side sheet piles and between the guide rail forming the order wall and the plurality of the other sheet piles;
h) a concrete and order wall demolition step of demolishing the guide rail constituting the order wall together with the cured concrete after a certain period of time has elapsed; is preferably performed.

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The present invention is a thumb pile and a sheet pile installed on one side, the other side, and the upper part of the thumb pile, respectively, so as to be arranged in three directions, the other sheet pile and the fixture, the auxiliary fixture and the steel wire or steel rod. Not only can the retaining structure be more easily formed, but in particular, by the pressure of the ground pushed in the front direction from the rear surface of the thumb pile through the upper sheet pile installed on the top of the thumb pile to support the pressure from the ground It is possible to prevent the one side sheet pile and the other side sheet pile from being pushed in the front direction of the thumb pile with higher efficiency, and it is not necessary to install a separate horizontal reinforcement in the one side sheet pile and the other side sheet pile, saving construction costs and The construction period can be significantly reduced, and furthermore, it is possible not only to have a water-repellent function to prevent water leakage or flow, but also to significantly reduce safety accidents at the construction site by removing and reducing horizontal reinforcement, and, at the same time, waste of forest resources. There is an effect that there is no need to install an earth plate, which is likely to have an adverse environmental impact on the ground.

1 and 2 are block diagrams schematically showing a three-way thumb pile reinforcement type self-supporting retainer construction method according to an embodiment of the present invention;
Figure 3 is a combined perspective view schematically showing the coupling state of the thumb pile and the sheet pile,
Figure 4 is an exploded perspective view of Figure 3,
5 is an exploded cross-sectional view taken along line A - A of FIG. 4;
Figure 6 is a cross-sectional view of Figure 5,
7 is a partial Lissack view schematically showing a plurality of one-side connectors;
8 is a partial Lissack view schematically showing a plurality of other side connectors;
9 is a partial Lissack view schematically showing a plurality of upper connectors;
10 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on one side of the one-side connector;
11 is an enlarged cross-sectional view taken along line B - B of FIG. 10 schematically showing a state in which a reinforcing member is formed on the inner surface of the one-side engaging ring member of the one-side connector;
12 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on the other side of the other connector;
13 is an enlarged cross-sectional view taken along line C - C of FIG. 12 schematically showing a state in which a reinforcing member is formed on the inner surface of the other engaging ring member of the other connector;
14 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on the upper part of the upper connector;
15 is an enlarged cross-sectional view taken along line D - D of FIG. 14 schematically showing a state in which a reinforcing member is formed on the inner surface of the upper engaging ring member of the upper connector;
16 is a perspective view schematically showing a state in which an example of a reinforcement bar is formed on the upper locking ring member;
17 is an enlarged cross-sectional view taken along line E - E of FIG. 16;
18 is a perspective view schematically showing a state in which a reinforcement bar of another example is formed on the upper locking ring member;
19 is an exploded perspective view schematically showing a state in which the upper connector on which the auxiliary seating plate is formed is separated from the thumb stake;
20 is a combined perspective view of FIG. 19;
21 is a perspective view schematically showing a state in which perforated holes are formed at regular intervals in the ground;
22 is a plan view schematically showing a state in which perforation holes are sparsely formed at regular intervals in the ground;
23 is a plan view schematically showing a state in which perforated holes in the ground are formed at regular intervals while communicating with each other;
24 is a perspective view schematically illustrating a process in which a plurality of thumb stakes are inserted through drilling holes formed at regular intervals in the ground;
25 is a perspective view schematically illustrating a process in which a plurality of one-side sheet piles and the other-side sheet pile are vertically inserted through perforation holes formed at regular intervals in the ground around a plurality of thumb piles;
26 is a perspective view schematically illustrating a process in which a plurality of upper sheet piles are vertically inserted through perforation holes formed at regular intervals in the ground around a plurality of thumb piles;
27 is a perspective view schematically showing a state in which the drilling hole is backfilled;
28 is a plan view schematically showing an example of a gap preventing member,
29 is a plan view schematically showing another example of a gap preventing member;
30 is a perspective view schematically showing a state in which the ground has been excavated;
31 is a perspective view schematically showing a state in which guide frames are installed on the lower front side of a plurality of thumb pegs;
32 is a perspective view schematically illustrating a state in which an order wall made of a guide rail is installed between guide frames installed on the lower front side of a plurality of thumb piles;
33 is a perspective view schematically showing a waterproofing agent surrounding the water-blocking wall;
34 is a cross-sectional view taken along the line F - F of FIG. 33;
35 is a perspective view schematically showing a state in which concrete is filled between a plurality of one side sheet piles and an order wall and between a plurality of other side sheet piles and an order wall, respectively;
36 is a cross-sectional view taken along line G - G of FIG. 35;
37 is a cross-sectional view schematically showing a state in which the construction of the structure in the excavation section is completed;
38 is a cross-sectional view schematically showing a state in which concrete and order walls have been removed;
39 is a cross-sectional view schematically showing a state in which the excavation section is backfilled;
40 is a cross-sectional view schematically showing a state in which the thumb pile and the sheet pile are removed;
41 is a plan view schematically showing another example of a three-way thumb pile reinforcement type self-supporting retaining wall;
42 is a perspective view schematically showing the process in which the thumb stake of the three-way reinforcement type self-supporting retainer of another example is vertically inserted into the ground through the perforation hole;
43 is a perspective view schematically showing the process in which the sheet pile of the three-way thumb pile reinforcement type self-supporting retainer of another example is vertically inserted into the ground through the perforation hole;
44 is a perspective view schematically showing a state in which the drilling hole of FIGS. 42 and 43 is backfilled;
45 is a perspective view schematically showing a state in which the ground of FIG. 44 is excavated;
46 to 49 are test reports each showing the maximum load test results of the one-side connector, the other-side connector, and the upper connector.

Hereinafter, a preferred embodiment of the present invention will be described in more detail based on the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

1 and 2 are block diagrams schematically showing a method of constructing a three-way thumb-pile reinforcement type self-supporting retainer according to an embodiment of the present invention.

A three-way thumb pile reinforcement type self-supporting retainer construction method according to an embodiment of the present invention is a construction method using a three-way thumb pile reinforcement type self-supporting retaining retainer (1). Preparation step (hereinafter referred to as 'a) step'), b) connector assembly step (hereinafter referred to as 'b) step'), c) Thumb stake insertion step (hereinafter referred to as 'c) step'. ), d) Seat pile rooting step (hereinafter referred to as 'd) step'), e) Ground excavation step (hereinafter referred to as 'e) step'), i) Backfilling step for excavation section (hereinafter referred to as 'i) step ') and j) the step of removing the thumb pile and sheet pile (hereinafter referred to as the 'j) step').

Here, in order to further improve the water-ordering efficiency of the three-way thumb pile reinforcement type self-supporting retaining wall (1), as shown in FIG. 2 between the e) step and the i) step, f) the water barrier installation step (hereinafter, ' f) step.), g) concrete filling step (hereinafter referred to as 'g) step'), and h) concrete and barrier wall demolition step (hereinafter referred to as 'h) step') may be further carried out. have.

3 is a coupled perspective view schematically showing the coupling state of the thumb pile and the sheet pile, and FIG. 4 is an exploded perspective view of FIG. 3 .

First, the three-way thumb pile reinforcement type self-supporting retainer 1 is an example, and as shown in FIGS. 3 and 4 , the thumb pile 10, the sheet pile 20, one side connector 30, the other connector connector (40) and an upper connector (50).

First, the thumb pile 10 may be made of a plurality of H-type piles that are vertically erected and disposed at regular intervals on the ground.
The thumb pile 10, which may be made of an H-shaped pile, is large, as shown in FIG. 4, a lower horizontal plate member 101 and an upper horizontal plate member disposed in the upper direction of the lower horizontal plate member 101 ( 102) and an intermediate vertical plate member 103 formed between the middle portion of the lower horizontal plate member 101 and the middle portion of the upper horizontal plate member 102 .

Next, the sheet pile 20 is largely composed of one side sheet pile 210, the other side sheet pile 220, and the upper sheet pile 230 can be disposed perpendicular to the ground.

The other side opposite to one side of the one side sheet pile 210 may be connected and fixed to one side of the thumb pile 10 .

One side of the other side sheet pile 220 may be connected and fixed to the other side of the thumb pile 10 .

In a state where the upper sheet pile 230 is orthogonal to the one side sheet pile 210 and the other side sheet pile 220, the front side of the upper sheet pile 230 is connected and fixed to the upper part of the thumb pile 10. can be

The plurality of the one-side sheet piles 210 and the plurality of the other-side sheet piles 220 are connected and fixed to each other in a zigzag shape, respectively, and are vertically inserted between the thumb piles 10 arranged in a plurality in the ground at regular intervals. (See Fig. 27.)

A plurality of the upper sheet piles 230 may be connected and fixed to each other in a zigzag form, and the plurality of upper sheet piles 230 may be vertically inserted in the back direction of the thumb pile 10 disposed at regular intervals on the ground. (FIG. 27) Reference.)

5 is an exploded cross-sectional view taken along line A - A of FIG. 4, and FIG. 6 is a combined cross-sectional view of FIG.

Next, as shown in FIGS. 5 and 6 , the one side connector 30 may be configured to include one side seating plate 310 , one side locking ring member 320 and one side protruding jaw 330 .

The one side seating plate 310 may be seated and fixed to the upper surface of one side of the lower horizontal plate member 101 of the thumb pile 10 .

The one-side locking ring member 320 may be formed on one upper side of the one-side seating plate 310 .

The one-side locking ring member 320 may be formed point-symmetrically with the ring 211 of the one-side sheet pile 210 .

The other side of the one-side sheet pile 210 inside the one-side engaging ring member 320 in a state in which the ring 211 of the other side of the one-side sheet pile 210 is accommodated inside the one-side engaging ring member 320. The ring 211 may be hooked and fixed.

The one-side protruding jaw 330 is a hook 211 of the other side of the one-side sheet pile 210 that is caught on the inside of the one-side locking ring member 320 and is separated to the outside of the one-side locking ring member 320 . In order to prevent this from happening, it may be formed to protrude from the upper center of the one side seating plate 310 to an upper direction of the one side seating plate 310 by a predetermined length.

An inclined surface 331 may be formed on one side of the one-side protruding jaw 330 .

The inclined surface 331 of the one-side protruding jaw 330 may be inclined downward in the lower direction of one side of the one-side seating plate 310 from the upper portion of the one-side seating plate 310 to the downward direction.

The other side connector 40 may be largely configured to include the other side seating plate 410 , the other side locking ring member 420 , and the other side protruding jaw 430 .

The other seat plate 410 may be seated and fixed to the upper surface of the other side of the lower horizontal plate member 101 of the thumb stake 10 .

The other side locking ring member 420 may be formed on the other side of the upper side opposite to the upper side of the other side seating plate 410 .

The other side engaging ring member 420 may be formed point-symmetrically with the ring 221 of the other side sheet pile 220 .

One side of the other side sheet pile 220 inside the other side engaging ring member 420 in a state in which the ring 221 of one side of the other side sheet pile 220 is accommodated inside the other side engaging ring member 420 The ring 221 may be hooked and fixed.

The other protruding jaw 430 is a ring 221 of one side of the other side sheet pile 220, which is caught on the inside of the other side engaging ring member 420, is separated to the outside of the other side engaging ring member 420. In order to prevent this from happening, it may be formed to protrude from the upper center of the other seat plate 410 toward the upper side of the other seat plate 410 by a predetermined length.

An inclined surface 431 may be formed on the other side opposite to the one side of the other protruding jaw 430 .

The inclined surface 431 of the other protruding jaw 430 may be inclined downward in the lower direction of the other side opposite to one side of the other side seating plate 410 from the top of the other side seating plate 410 to the downward direction.

Next, the upper connector 50 may be largely configured to include an upper seating plate 510 , an upper engaging ring member 520 , and an upper protruding jaw 530 .

The upper mounting plate 510 is the upper horizontal plate of the thumb pile 10 so that the upper mounting plate 510 is seated and fixed in an eccentric state on the upper surface of the upper horizontal plate member 102 of the thumb pile 10 . It may be seated and fixed to one side of the upper surface of the upper horizontal plate member 102 or the other side of the upper surface around the center of the member 102 .

The upper locking ring member 520 may be formed on one upper side of the upper seating plate 510 .

The upper engaging ring member 520 may be formed point-symmetrically with the ring 231 of the upper sheet pile 230 .

The front side of the upper sheet pile 230 on the inside of the upper engaging ring member 520 in a state in which the ring 231 of the front side of the upper sheet pile 230 is accommodated inside the upper engaging ring member 520. The ring 231 may be hooked and fixed.

The upper protruding jaw 530 allows the upper seating plate 510 to be more stably seated and fixed to the upper surface of the thumb stake 10 over a wider area, and the upper locking ring member 520 of the In order to prevent the ring 231 of the front side of the upper sheet pile 230, which is caught on the inside, from being separated to the outside of the upper locking ring member 520, at one side of the upper seat plate 510, the A horizontal protrusion may be formed with a predetermined length in an outer direction of one side of the upper seating plate 510 .

An inclined surface 531 may be formed on the upper surface of the upper protruding jaw 530 .

The inclined surface 531 of the upper protruding jaw 530 may be inclined downward in the lower direction of one side of the upper seat plate 510 from the upper portion to the lower direction.

The one side connector 30, the other connector 40, and the upper connector 50 may be molded at once in various ways such as pultrusion molding, casting molding, etc. to extend a predetermined length in the front-rear direction of the thumb pile 10. .

7 is a partial Lissack view schematically showing a plurality of one-side connectors;

Next, in order to improve the ease of transport and storage of the one-side connector 30, the one-side connector 30 consists of a plurality as shown in FIG. 7 and is in contact with each other and the lower horizontal plate member of the thumb pile 10 ( 101) may be seated and fixed on the upper surface of one side.

And, in order to prevent the plurality of the one-side connector 30 from being displaced from each other by the pressure of the ground, fitting grooves 311 are formed on the front side of the one-side seating plate 310 of the plurality of the one-side connector 30, respectively. can

In addition, fitting protrusions 312 that are respectively fitted in the fitting grooves 311 of the plurality of one-side connectors 30 may be formed on the rear side of the one-side seating plate 310 of the plurality of one-side connectors 30 .

Fig. 8 is a partial Lissack view schematically showing a plurality of other side connectors;

Next, in order to improve the ease of transport and storage of the other connector 40, the other connector 40 is made in plurality as shown in FIG. 8 and the lower horizontal plate member of the thumb pile 10 is in contact with each other. (101) may be seated and fixed to the upper surface of the other side.

And, in order to prevent the plurality of the other side connector 40 from being displaced from each other by the pressure of the ground, fitting grooves 411 are formed on the front side of the other side seating plate 410 of the plurality of the other side connector 40, respectively. can

In addition, fitting protrusions 412 that are respectively fitted into the fitting grooves 411 of the plurality of other side connectors 40 may be formed on the rear side of the other side seating plate 410 of the plurality of other side connectors 40 .

9 is a partial lisa perspective view schematically showing a plurality of upper connectors;

Next, in order to improve the ease of transport and storage of the upper connector 50, the upper connector 50 is made up of a plurality of pieces as shown in FIG. 9 and the upper horizontal plate member of the thumb pile 10 is in contact with each other. It can be seated and fixed to the upper surface of (102).

And, in order to prevent the plurality of upper connector 50 from being displaced from each other by the pressure of the ground, fitting grooves 511 are formed on the front side of the upper connection plate 510 of the plurality of upper connectors 50, respectively. can

In addition, fitting projections 512 that are respectively fitted into the fitting grooves 511 of the upper connection plate 510 of the plurality of upper connectors 50 on the rear side of the upper connection plate 510 of the plurality of upper connectors 50 . ) can be formed.

10 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on one side of the one-side connector, and FIG. 11 is a perspective view schematically showing a state in which a reinforcing member is formed on the inner surface of the one-side engaging ring member of the one-side connector B - B of FIG. It is an enlarged cross-sectional view along a line.

Next, in order to prevent the one-side locking ring member 320 of the one-side connector 30 disposed perpendicular to the ground from being bent while being widened by the pressure of the ground, as shown in FIGS. 10 and 11, the one-side connector A reinforcing member 340 protruding by a predetermined length in the inner direction of the one-side locking ring member 320 on the inner surface of the one-side locking ring member 320 of 30 is constant in the front-rear direction of the one-side locking ring member 320 . A plurality may be formed at intervals.

For example, on one side of the one-side seating plate 310 of the one-side connector 30 , a plurality of pressing grooves 313 recessed to a predetermined depth inside the one-side locking ring member 320 by press molding are the one-side locking grooves 313 . A plurality of rings may be formed at regular intervals in the front and rear directions of the ring member 320, and due to the plurality of pressing grooves 313, the one-side locking ring member on the inner surface of the one-side locking ring member 320 of the one side connector 30. The reinforcing member 340 protruding in the inner direction of the 320 may be formed by a predetermined length.

12 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on the other side of the other connector, and FIG. 13 is a perspective view schematically showing a state in which a reinforcing member is formed on the inner surface of the other engaging ring member of the other connector. It is an enlarged cross-sectional view along a line.

Next, in order to prevent the other locking ring member 420 of the other side connector 40 disposed perpendicular to the ground from being bent while being widened by the pressure of the ground, as shown in FIGS. 12 and 13, the other side connector 40 A reinforcing member 440 protruding by a predetermined length in the inner direction of the other engaging ring member 420 on the inner surface of the other engaging ring member 420 of 40 is constant in the front and rear direction of the other engaging ring member 420 . A plurality may be formed at intervals.

For example, on the other side opposite to one side of the other side seating plate 410 of the other side connector 40, a plurality of pressing grooves 413 recessed to a predetermined depth inside the other side engaging ring member 420 by press molding. A plurality of the other engaging ring member 420 may be formed at regular intervals in the front and rear direction, and due to the plurality of pressing grooves 413, the other side engaging ring member 420 of the other side connector 40 is the inner surface of the The reinforcing member 440 may be formed to protrude by a predetermined length in the inner direction of the other side locking ring member 420 .

14 is a perspective view schematically showing a state in which a plurality of pressing grooves are formed on the upper part of the upper connector, and FIG. 15 is a perspective view schematically illustrating a state in which a reinforcing member is formed on the inner surface of the upper engaging ring member of the upper connector. It is an enlarged cross-sectional view along a line.

Next, in order to prevent the upper locking ring member 520 of the upper connector 50 disposed perpendicular to the ground from being bent while being spread by the pressure of the ground, as shown in FIGS. 14 and 15, the upper connector A reinforcing member 540 protruding for a predetermined length in the inner direction of the upper locking ring member 520 on the inner surface of the upper locking ring member 520 of 50 is constant in the front and rear direction of the upper locking ring member 520 . A plurality may be formed at intervals.

For example, in the upper portion of the upper engaging ring member 520 of the upper connector 50, a plurality of pressing grooves 513 recessed to a predetermined depth in the inner direction of the upper engaging ring member 520 by press molding are formed in the upper portion. A plurality of locking rings may be formed at regular intervals in the front and rear directions of the locking ring member 520 , and the upper locking ring is formed on the inner surface of the upper locking ring member 50 of the upper connector 50 due to the plurality of pressing grooves 513 . The reinforcing member 540 protruding to the inside of the member 50 by a predetermined length may be formed.

16 is a perspective view schematically showing a state in which a reinforcing bar is formed on the upper engaging ring member, FIG. 17 is an enlarged cross-sectional view taken along line E - E of FIG. 16, and FIG. 18 is a reinforcing bar of another example formed on the upper engaging ring member. It is a perspective view schematically showing the state.

Next, in order to more easily prevent the upper locking ring member 520 of the upper connector 50 disposed perpendicular to the ground from being bent while being spread by the pressure of the ground, as shown in FIGS. 16 and 17 , A reinforcing bar 550 from which the upper engaging ring member 520 protrudes to the outside by a predetermined length may be formed on the other lower side opposite to the lower one side of the upper engaging ring member 520 .

For example, one reinforcing bar 550 extending in a predetermined length in the front-rear direction of the upper locking ring member 520 may be formed on the other lower side of the upper locking ring member 520 .

Alternatively, as another example, as shown in FIG. 18 , the plurality of reinforcing bars 550 are formed at regular intervals in the front and rear direction of the upper engaging ring member 520 on the other lower side of the upper engaging ring member 520 . can

16 to 18 , an inclined surface 551 may be formed on the other side opposite to one side of the reinforcing bar 550 .

The inclined surface 551 of the reinforcing bar 550 may be inclined downward in the lower direction of the other side of the upper seat plate 510 from the upper portion of the upper seat plate 510 to the lower direction.

19 is an exploded perspective view schematically illustrating a state in which an upper connector having an auxiliary seating plate formed is separated from a thumb stake, and FIG. 20 is a combined perspective view of FIG. 19 .

Next, in order to allow the upper mounting plate 510 to be more stably positioned while seated on the upper surface of the upper horizontal plate member 102 of the thumb pile 10 with a wider area, FIG. 19 and 20, the auxiliary seating plate 560 protruding to the outside of the other side of the upper seating plate 510 by a certain length on the other side opposite to one side of the upper seating plate 510 is the upper seating plate. A plurality of 510 may be formed at regular intervals in the front-rear direction.

Then, the upper mounting plate 510 is placed on the upper seat plate 510 between the auxiliary seat plate 560 and the reinforcing bar 550 of the upper horizontal plate member 102 of the thumb stake 10 . A plurality of through-holes 7 through which the fixing member 5 for seating and fixing on the upper surface passes vertically may be formed at regular intervals in the front-rear direction of the upper seating plate 510 .

The fixing member 5 may include, for example, a fixing bolt 501 and a nut 502 .

The fixing bolt 501 is a portion of the upper horizontal plate member 102 of the thumb pile 10 facing the plurality of through-holes 7 and the plurality of through-holes 5 of the upper seating plate 510, respectively. It can penetrate vertically.

As shown in FIGS. 16 and 18 , in the lower portion of the reinforcing bar 550 adjacent to the plurality of through-holes 7 , there is a groove 552 horizontally depressed to a predetermined depth in one direction of the reinforcing bar 550 . can be formed.

The head portion 501a of the fixing bolt 501 vertically penetrates the plurality of through-holes 7 of the upper seating plate 510 due to the inclined surface 551 and the groove 552 of the reinforcing bar 501, respectively. may fall more easily in the upper direction of the upper seat plate 510 without being interfered with by the reinforcing bar 501 and be stably seated in a state of being in surface contact with the upper surface of the upper seat plate 510 . .

The nut 502 is a lower portion of the fixing bolt 501 vertically penetrating the plurality of through holes 7 of the upper seating plate 510 and the upper horizontal plate member 102 of the thumb stake 10, respectively. can be screwed with

On the other hand, as shown in FIGS. 4 to 6 , the one side seating plate 310 between the other side of the one side seating plate 310 of the one side connector 30 and the one side protruding jaw 330 also has a plurality of the through holes. (7) may be formed at regular intervals in the front-rear direction of the one side seating plate 310 .

The fixing bolt 501 of the fixing member 5 for seating and fixing the one side seating plate 310 on the upper surface of one side of the lower horizontal plate member 101 of the thumb pile 10 is the one side seating plate 310 ) of a plurality of through-holes 7 and a portion of one side of the lower horizontal plate member 101 of the thumb pile 10 facing the plurality of through-holes 7 may be vertically penetrated, respectively.

The nut 502 is the fixing bolt 501 vertically penetrating the plurality of through holes 7 of the one side seating plate 310 and one side of the lower horizontal plate member 101 of the thumb pile 10, respectively. can be screwed with the lower part of the

In addition, a plurality of the through-holes 7 are also provided in the portion of the other seat plate 410 between one side of the other seat plate 410 of the other connector 40 and the other protruding jaw 430, the other seat plate ( 410) may be formed at regular intervals in the front-rear direction.

The fixing bolt 501 of the fixing member 5 for seating and fixing the other seating plate 410 on the other upper surface of the lower horizontal plate member 101 of the thumb pile 10 is the other seating plate 410 . ) of the plurality of through-holes 7 and the other side portion of the lower horizontal plate member 101 of the thumb pile 10 facing the plurality of through-holes 7 may be vertically penetrated, respectively.

The nut 502 is the fixing bolt 501 vertically penetrating the plurality of through holes 7 of the other side seating plate 410 and the other side of the lower horizontal plate member 101 of the thumb pile 10, respectively. can be screwed with the lower part of the

Next, step a) is a step of preparing the thumb pile 10, which can be made of a plurality of H-shaped piles to be vertically disposed at regular intervals on the ground.

Next, step b) is a step of assembling the one side connector 30 , the other connector 40 , and the upper connector 50 to the prepared thumb stake 10 .

21 is a perspective view schematically illustrating a state in which perforated holes are formed at regular intervals in the ground.

Next, in step c), the one side connector 30, the other connector 40, and the plurality of thumb piles 10 to which the upper connector 50 is fixed, respectively, are vertically rooted at regular intervals on the ground. is a step

Step c) is, for example, largely _{referred to as c 1} ) drilling hole forming step (hereinafter, referred to as 'c ₁ ) step') and a ₂ ) thumb pile driving step (hereinafter, 'c ₂ ) step'. ) can be made.

Step c ₁ ) is a step of vertically forming the drilling holes 301 at regular intervals in the ground 3 to a predetermined depth using heavy equipment such as a drilling machine, as shown in FIG. 21 .

The perforation hole 301 may be largely formed of a first perforation hole 301a, a second perforation hole 301b, and a third perforation hole 301c.

The first drilling hole 301a may be vertically formed to a predetermined depth in plurality at regular intervals from one side of the ground 3 to the other.

The second perforation hole 301b may be vertically formed in a plurality of pieces at regular intervals from one side of the ground 3 to the other side at a predetermined depth in a portion of the ground 3 between the plurality of the first perforation holes 301a. .

The third drilling hole 301c is perpendicular to a predetermined depth in a plurality of pieces at regular intervals from the front side to the rear side of the ground 3 in the ground portion 3 in the rear direction, which is opposite to the front side of the first drill hole 301a. can be formed.

22 is a plan view schematically illustrating a state in which perforated holes are formed at regular intervals in the ground, and FIG. 23 is a plan view schematically illustrating a state in which perforated holes are formed in communication with each other at regular intervals in the ground.

The drilling holes 301 may be sparsely formed at regular intervals in the ground 3 as shown in FIG. 22 as the hardness of the ground 3 decreases.

Alternatively, in order to enable the thumb pile 10 and the sheet pile 20 to be more easily inserted into the ground 3 with high hardness, the drilling hole 301 is formed as the hardness of the ground 3 increases. As shown in FIG. 23, it may be formed at regular intervals to communicate with each other in the ground (3).

24 is a perspective view schematically illustrating a process in which a plurality of thumb stakes are inserted through drilling holes formed at regular intervals in the ground.

In _{step c 2} ), as shown in FIG. 24 , a plurality of thumb stakes 10 to which the one connector 30 , the other connector 40 , and the upper connector 50 are respectively fixed are drilled holes 301 . ), driving the upper portions of the plurality of thumb piles 10 in a vertical state in a state of being vertically accommodated in the first drilling hole 301a of the is a step

25 is a perspective view schematically illustrating a process in which a plurality of sheet piles on one side and a sheet pile on the other side are vertically inserted through perforation holes formed at regular intervals in the ground around the plurality of thumb piles.

Next, in step d), as shown in FIG. 25 , a plurality of one side sheet piles 210 and a plurality of other side sheet piles 220 are connected and fixed to each other in a zigzag form, respectively, between the plurality of thumb piles 10 . It is a step of vertically rooting the plurality of the one side sheet pile 210 and the plurality of the other side sheet pile 220 to the ground 3 so as to be vertically disposed.

To this end, the upper portions of the plurality of one-side sheet piles 210 respectively vertically accommodated in the second drilling holes 301b of the drilling holes 301 and the upper portions of the plurality of the other-side sheet piles 220, respectively, such as driving, etc. It can be driven by heavy equipment.

26 is a perspective view schematically illustrating a process in which a plurality of upper sheet piles are vertically inserted through perforation holes formed at regular intervals in the ground around a plurality of thumb piles.

In addition, in step d), as shown in FIG. 26 , the plurality of upper sheet piles 230 are connected and fixed to each other in a zigzag form so that the plurality of upper sheet piles are vertically disposed in the rear direction of the plurality of thumb piles 10 . It is a step of vertically rooting the sheet pile 230 in the ground (3).

To this end, the upper portions of the plurality of upper sheet piles 230 each vertically accommodated in the third perforation hole 301c of the perforation hole 301 may be driven through heavy equipment such as a driving machine.

27 is a perspective view schematically illustrating a state in which the drilling hole is backfilled.

As shown in FIG. 27 through step d), after the vertical insertion of the thumb pile 10 into the ground 3 and the vertical insertion of the sheet pile 20 are completed, the earth and sand in the drilling hole 301 can be backfilled.

As shown in FIG. 27 by using the sheet pile 20 in three directions respectively installed on one side, the other side, and the upper part of the thumb pile 10 and the thumb pile 10, the vertical rooting arrangement is placed on the ground 3 as shown in FIG. It is possible to more easily form a retaining structure.

In particular, the soil of the ground 3 may be filled inside the upper sheet pile 230 installed on the top of the thumb pile 10 and disposed perpendicular to the ground 3 , and such an upper sheet The thumb pile by the pressure of the ground 3 pushed in the front direction from the back surface of the thumb pile 10 in which the one sheet pile 210 and the other sheet pile 220 are in a vertical state through the pile 230. It is possible to prevent the pushing in the front direction of (10) with higher efficiency.

In addition, there is no need to install a cumbersome separate horizontal reinforcing material in the one sheet pile 210 and the other sheet pile 220, so that the construction cost can be reduced and the construction period can be greatly reduced, and furthermore, water leakage or flow is prevented. It is not only possible to have a water-repellent function, but it is also possible to significantly reduce safety accidents at the construction site by removing and reducing horizontal reinforcement. In addition, it is necessary to install earth plates, which are likely to have a negative environmental impact on the ground while causing waste of forest resources. will disappear

28 is a plan view schematically illustrating an example of a gap preventing member.

And, as shown in FIG. 28, through the steps c) and d), the pressure of the ground 3 that is pushed in the front direction from the rear surface of the thumb pile 10 disposed perpendicular to the ground 3 by the pressure of In order to more efficiently prevent the one side sheet pile 210 and the other side sheet pile 220 from being pushed and moved in the forward direction of the thumb pile 10, as shown in FIG. 28, the thumb pile 10 ) and one end of the one seating plate 310 and the other end of the thumb stake 10 and the other end opposite to one end of the other seating plate 410 are in the same vertical line (see the dotted line in FIG. 28 ). ) is better placed on the

On the other hand, in order to more easily remove the plurality of thumb piles 10 and the sheet pile 20 from the ground 3 through the step j) to be described later, the plurality of the The upper part of the thumb pile 10 and the upper part of the plurality of sheet piles 20 may be vertically exposed by a predetermined length in the upper direction of the ground 3 as shown in FIG. 27 .

In addition, a plurality of the one-side sheet piles 210 and a plurality of the one-side sheet piles 210 and the connection parts of the plurality of the one-side sheet piles 210, the connection parts of the plurality of the other side sheet piles 220 and the connection parts of the plurality of the sheet piles 230 A gap preventing member for preventing the plurality of the other sheet piles 220 from crossing each other in the front-rear direction of the ground 3 and preventing the plurality of upper sheet piles 230 from crossing each other in the left-right direction of the ground 3 . (9) can be fixed.

The gap preventing member 9 may be made of various types, and for example, as shown in FIG. 28 , the inner side of the ring 211 of the plurality of one side sheet piles 210, the plurality of the other side sheet piles 220, as shown in FIG. It may be made of various types of adhesives such as sealant applied to the inner side of the ring 221 of the and the inner side of the ring 231 of the plurality of upper sheet piles 230 .

Various types of adhesives such as sealant that can form the gap preventing member 9 are applied to the inner side of one side engaging ring member 320 of the one side connector 30 and the other side engaging ring member 420 of the other side connector 40 It may be applied to the inner side and the inner side of the upper engaging ring member 520 of the upper connector 50 .

29 is a plan view schematically showing another example of a gap preventing member.

As another example, as shown in FIG. 29 , the gap preventing member 9) may be made of a metal bar extending vertically for a predetermined length in the vertical direction of the ground 3 .

The cross-sectional shape of the steel bar may be formed in various shapes, such as a circular shape.

The bar that can form the gap preventing member 9 has a zigzag shape, and a gap formed around the ring 211 of the one side sheet pile 210 during the process of connecting and fixing the plurality of the one side sheet piles 210 to each other ( g ₁ , g ₂ ) can be fixed in various ways, such as welding and fixing in a state vertically accommodated.

In addition, during the process of connecting and fixing a plurality of the other side sheet piles 220 to each other in a zigzag shape, the bar that can form the gap preventing member 9 is formed around each ring 221 of the other side sheet pile 220 The gap (g ₃ , g ₄ ) can be fixed in various ways, such as welding fixing in a state vertically accommodated.

In addition, the bar that can form the gap preventing member 9 is formed around the ring 231 of the upper sheet pile 230 in the middle of the plurality of the upper sheet piles 230 are connected to each other in a zigzag shape. The gap (g ₅ , g ₆ ) can be fixed in various ways, such as welding fixing in a state vertically accommodated.

In addition, in the bar that can form the gap preventing member 9, the ring 211 of any one of the one-side sheet pile 210 is accommodated inside the one-side locking ring member 320 of the one-side connector 30. In this case, welding fixing in a state vertically accommodated _{in the gaps (g 7} , g ₈ ) respectively formed around the ring 211 of the one-side seat pile 210 and the circumference of the one-side locking ring member 320 , etc. It can be fixed in various ways.

In addition, in the bar that can form the gap preventing member 9, the ring 221 of the other side sheet pile 220 is accommodated inside the other side engaging ring member 420 of the other side connector 40. In this case, welding fixed in a state vertically accommodated _{in the gaps (g 9} , g ₁₀ ) respectively formed around the ring 221 of the other side holding ring member 420 and the other side of the sheet pile 220 . It can be fixed in various ways.

In addition, the bar which can form the gap preventing member 9 is to be accommodated in any one of the rings 231 of the upper sheet pile 230 on the inside of the upper engaging ring member 520 of the upper connector 50 . _{In this case, in a state vertically accommodated in the gaps (g 11} , g ₁₂ ) formed around the upper locking ring member 520 and around the ring 231 of any one of the upper sheet piles 230, such as welding fixing, etc. can be fixed in this way.

30 is a perspective view schematically illustrating a state in which the ground is excavated.

Next, in step e), as shown in FIG. 30 , the front of the plurality of thumb stakes 10 in a vertical state, the front of the one sheet pile 210 in a vertical state, and the other sheet pile 220 in a vertical state ) is a step of excavating the ground (3) in front to a certain depth through heavy equipment such as an excavator.

31 is a perspective view schematically illustrating a state in which guide frames are installed on the lower front side of each of the plurality of thumb stakes.

Next, step f) is a step of installing an order wall between the lower front sides of the plurality of thumb stakes 10 in order to further improve the water order efficiency of the three-way thumb stake reinforcement type self-supporting retainer 1 .

For example, first, as shown in FIG. 31 , the guide frame 11 may be vertically installed between the lower front sides of the plurality of thumb stakes 10 .

The guide frame 11 may include a rear vertical guide plate 111 and a front vertical guide plate 112 .

The rear vertical guide plate 111 may be vertically extended by a predetermined length in the vertical direction of the thumb stake 10 in a state in which it protrudes by a predetermined length in the front direction of the thumb stake 10 in a vertical state.

The rear side of the rear vertical guide plate 111 is fixed to the lower front side of the plurality of thumb piles 10 in various ways such as welding and fixing, and the lower portion of the rear vertical guide plate 111 is the step e). It can be seated on the bottom surface of the excavation section (I) formed to a certain depth in the ground (3) through the.

The front vertical guide plate 112 may be vertically extended by a predetermined length along the rear vertical guide plate 111 in a state orthogonal to the rear vertical guide plate 111 .

The middle portion of the front vertical guide plate 112 may be fixed to the front side of the rear vertical guide plate 111 in various ways, such as welding and fixing.

32 is a perspective view schematically illustrating a state in which an order wall made of a guide rail is installed between guide frames installed on the lower front side of a plurality of thumb piles.

As shown in FIG. 32, the order wall 12 may be formed of various types, such as guide rails extending vertically along the guide frame 11 while extending from one side of the ground 3 to the other by a predetermined length. .

One side and the other side of the order wall 12, which may be made of a guide rail, are positioned in the lower direction of one side and the lower direction of the other side of the order wall 12, respectively, the rear vertical guide plate 111 and the front side of the guide frame 11 are perpendicular to the front side. It may be inserted between the guide plates 112 .

33 is a perspective view schematically showing a waterproofing agent enclosing a water barrier wall, and FIG. 34 is a cross-sectional view taken along line F - F of FIG. 33 .

On the other hand, in order to improve the ease of later removal of the guide frame 11 and the order wall 12, as shown in FIGS. 33 and 34, a waterproofing agent 13 surrounding the outer surface of the guide rail that can form the order wall 12 ) may be provided.

The waterproofing agent 13 may be made of various types such as vinyl.

The front and rear sides of the waterproofing agent 13, which are in a state of covering the outer surface of the guide rail that can form the order wall 12, are on the bottom surface of the excavation section I around the lower front side and lower rear side of the order wall 12, respectively. can be seated

35 is a perspective view schematically illustrating a state in which concrete is filled between a plurality of one side sheet piles and an order wall and between a plurality of other side sheet piles and an order wall, respectively, and FIG. 36 is a cross-sectional view taken along line G - G of FIG. 35 .

Next, in step g), as shown in FIGS. 35 and 36 , a guide rail capable of forming the order wall 12 and the plurality of one-side sheet piles 210 and a guide capable of forming the order wall 12 . It is a step of filling the concrete (C) in the space (S) respectively formed between the rail and the plurality of the other sheet pile (220).

On the other hand, before the filling of the concrete (C), the upper part of the lower rear side of the waterproofing agent (13) located in the lower direction of the space (C) prevents the sliding of the guide rail that can form the water-blocking wall (12) and the concrete that is not cured. A support material 114 for preventing a portion of (C) from leaking outwardly on the front side of the water blocking wall 12 may be seated.

The support material 114 may be formed of various types of heavy materials such as sandbags.

37 is a cross-sectional view schematically illustrating a state in which the construction of the structure in the excavation section is completed.

In the excavation section (I) after the installation of the order wall 12 is completed, as shown in FIG. 37 , building structures 15 such as a pier foundation, an underpass, a buffer storage tank, and a building maintain a predetermined interval with the order wall 12 It can be built in one state.

38 is a cross-sectional view schematically illustrating a state in which concrete and order walls have been removed.

Next, in step h), as shown in FIG. 38 , the guide rails forming the guide frame 11 and the order wall 12 together with the concrete C cured after a certain time elapse is installed on the building structure 15 ) is a step of dismantling from the excavation section (I) after the construction is completed.

Various types such as a crane or a chisel installed in a large crane or a horizontal steel ball or a vertical steel ball suspended at the tip for the removal of the guide rail constituting the guide frame 11 and the order wall 12 together with the cured concrete (C) of heavy equipment can be used.

39 is a cross-sectional view schematically illustrating a state in which the excavation section is backfilled.

Next, the step i) is the completion of the construction of the building structure 15 into the excavation section (I) formed to a certain depth in the ground (3) through the ground excavation step e) and the curing through step h) After the removal of the guide rail constituting the guide frame 11 and the order wall 12 together with the concrete C is completed, as shown in FIG. 39 , the front side of the plurality of thumb piles 10, the sheet pile 20 It is a step of backfilling the soil of the ground (3) with the excavation section (I) between the front side of the one side sheet pile 210 and the front side of the other side sheet pile 220 and the outer surface of the building structure (15).

40 is a cross-sectional view schematically showing a state in which the thumb pile and the sheet pile are removed.

Next, step j) is a step of removing the plurality of thumb piles 10 and the sheet pile 20 from the ground 3 using heavy equipment such as a puller, as shown in FIG. 40 .

41 is a plan view schematically showing another example of a three-way thumb pile reinforcement type self-supporting retainer.

Next, in order to prevent a dispute from occurring as a part of the plurality of upper sheet piles 230 invades the ground 3 of private land other than the ground 3 of the installation place, the three-way thumb pile reinforcement type The self-standing retainer 1 is another example, as shown in FIG. 41 , the thumb pile 10 , the sheet pile 20 , the one side connector 30 , the other side connector 40 , the fixture 60 ), an auxiliary fixture 70 and a steel wire or steel bar 80 may be included.

The sheet pile 20 of the three-way thumb pile reinforcement type self-supporting retainer 1 of another example may be composed of the one side sheet pile 210 and the other side sheet pile 220 .

The fixture 60 of the three-way thumb pile reinforcement type self-supporting retainer 1 of another example is provided on one side of the upper surface and the other side of the upper surface of the upper horizontal plate member 102 of the horizontally laid thumb pile 10, respectively. It may be composed of a fixture on one side 610 and a fixture on the other side 620 .

Filling spaces 611 and 621 filled with soil may be formed inside the one side fixture 610 and the other side fixture 620 , respectively.

The auxiliary fastener 70 may be provided between one side fastener 610 and the other side fastener 620 of the fastener 60 .

The steel wire or the steel bar 80 may extend a predetermined length in the vertical direction of the thumb pile 10 that is perpendicular to the ground 3 to vertically penetrate the center of the auxiliary fixture 70 .

Since the fixture 60, the auxiliary fixture 70, and the steel wire or steel bar 80 are known through the Korean Patent Publication No. 10-1980134, the detailed description will be omitted below.

Step b) is another example, the one side connector 30, the other connector 40, the fixture 60, the auxiliary fixture 70, and the steel wire or steel rod 80 to the thumb pile 10. It may consist of a fixture and a steel wire or steel bar assembly step for assembling the .

42 is a perspective view schematically illustrating a process in which the thumb stakes of the three-way reinforcement type self-supporting retainer of another example are vertically inserted into the ground through a perforation hole.

In step c), the fastener 60, the auxiliary fastener 70, and the steel wire or steel rod 80 are drilled holes 301 formed in the ground 3 along the thumb pile 10 as shown in FIG. ) can be inserted into the ground (3) in a state accommodated in the first drilling hole (301a).

43 is a perspective view schematically showing the process in which the sheet pile of the three-way thumb-pile reinforcement type self-supporting retainer of another example is vertically inserted into the ground through the perforation hole, and FIG. It is a perspective view schematically showing a state, and FIG. 45 is a perspective view schematically showing a state in which the ground of FIG. 44 is excavated.

And, as shown in FIGS. 43 and 44, in the state in which the plurality of the one side sheet pile 210 and the other side sheet pile 220 are vertically inserted into the ground 3 in the step d) through the step e) As shown in FIG. 45 , the excavation section I may be formed in the ground 3 .

The present invention configured as described above is a sheet pile 20 or one-sided sheet pile installed on one side, the other side, and an upper portion of the thumb pile 10 so as to be arranged in three directions on the thumb pile 10 and the thumb pile 10 , respectively. (210), the other side sheet pile 220 and the fixture 60, the auxiliary fixture 70, and the steel wire or steel rod 80 can be used to form a retaining structure more easily.

46 to 49 are test reports each showing the maximum load test results of the one-side connector, the other-side connector, and the upper connector.

46 to 49 are test reports each showing the maximum load test results of the three-way thumb pile reinforcement type self-supporting retainer (1) of the present invention according to KS F 2405 (concrete compressive strength test).

10; thumb, 20; sheet file,
30; unilateral connector, 40; other connector,
50; upper connector, 60; fixture,
70; auxiliary fixture, 80; steel wire or steel bar.

Claims (3)

a thumb stake comprising a lower horizontal plate member, an upper horizontal plate member disposed in an upper direction of the lower horizontal plate member, and an intermediate vertical plate member formed between the upper horizontal plate member and the lower horizontal plate member; One side sheet pile and the other side sheet pile respectively connected and fixed to one side and the other side of the thumb pile, and an upper sheet pile connected and fixed to the upper part of the thumb pile in a state perpendicular to the one side sheet pile and the other side sheet pile a sheet file to be; One side seating plate seated and fixed on the upper surface of one side of the lower horizontal plate member of the thumb pile, and one side locking ring member formed on an upper side of the one side seating plate to be hooked and fixed to the ring on the other side of the one side sheet pile; One side connector including a one-side protruding jaw which is formed in the upper center of the upper center of the one-side seating plate to a certain length in the upper direction of the one-side seating plate and is inclined downwardly inclined downwardly on one side of the one-side seating plate in the downward direction; The other side seating plate is seated and fixed on the other upper surface of the lower horizontal plate member of the thumb pile, and the other side locking ring member is formed on the other side of the upper other side of the other side seating plate and is hooked and fixed to the ring of one side of the other side sheet pile; The other side connector including the other protruding jaw which is formed in the upper center of the other side seating plate to protrude by a predetermined length in the upper direction of the other side seating plate and to have an inclined surface that is inclined downward in the other downward direction of the other side seating plate on the other side; An upper seating plate seated and fixed on the upper surface of the upper horizontal plate member of the thumb pile, and an upper engaging ring member formed on an upper side of the upper seat plate to be caught by a ring on the front side of the upper sheet pile, and the upper part A three-way thumb pile reinforcement type self-support using a three-way thumb pile reinforcement type self-supporting retainer comprising a; an upper connector including an upper protruding jaw protruding to one side of the upper seating plate by a predetermined length on one side of the seating plate A method for constructing a soil retaining wall,
a) a thumb stake preparation step of preparing the thumb stake;
b) a connector assembly step of assembling the one-side connector, the other-side connector, and the upper connector to the thumb stake;
c) a step of vertically reinforcing the plurality of thumb piles to which the one side connector, the other connector and the upper connector are fixed to the ground at regular intervals;
d) A plurality of one-side sheet piles and a plurality of other-side sheet piles are connected and fixed to each other in a zigzag form, respectively, vertically arranged between the plurality of thumb piles vertically rooted at regular intervals in the ground, and a plurality of the upper sheet piles are zigzag A plurality of the one side sheet pile, a plurality of the other side sheet pile and a plurality of upper sheet piles are perpendicular to the ground so as to be vertically connected and fixed to each other in the form of being disposed perpendicular to the rear direction of the plurality of thumb piles vertically rooted in the ground at regular intervals. a step of inserting the sheet pile into the piercing;
e) a ground excavation step of excavating the front of the plurality of thumb piles in a vertical state, the front of the one sheet pile in a vertical state, and the ground in front of the other side sheet pile in a vertical state;
i) After completion of the construction of the structure in the excavation section formed to a certain depth in the ground through the e) ground excavation step, the front side of the plurality of thumb piles, the front side of the one side sheet pile of the sheet pile, and the front side of the other side sheet pile and the structure Backfilling the excavation section backfilling the excavation section between the outer surface of the;
j) three-way thumb pile reinforcement type self-supporting retaining wall construction method comprising a; j) a step of removing the thumb piles and sheet piles for removing the plurality of thumb piles and the sheet piles.
a thumb stake comprising a lower horizontal plate member, an upper horizontal plate member disposed in an upper direction of the lower horizontal plate member, and an intermediate vertical plate member formed between the upper horizontal plate member and the lower horizontal plate member; a sheet file comprising one side sheet file and the other side sheet file connected and fixed to one side and the other side of the thumb pile, respectively; One side seating plate seated and fixed on the upper surface of one side of the lower horizontal plate member of the thumb pile, and one side locking ring member formed on an upper side of the one side seating plate to be hooked and fixed to the ring on the other side of the one side sheet pile; One side connector including a one-side protruding jaw which is formed in the upper center of the upper center of the one-side seating plate to a certain length in the upper direction of the one-side seating plate and is inclined downwardly inclined downwardly on one side of the one-side seating plate in the downward direction; The other side seating plate is seated and fixed on the upper surface of the other side of the lower horizontal plate member of the thumb pile, and the other side stopping ring member is formed on the other side of the upper side of the other side seating plate and is hooked and fixed to the ring of one side of the other side sheet pile; The other side connector including the other protruding jaw which is formed in the upper center of the other side seating plate to protrude by a predetermined length in the upper direction of the other side seating plate and to have an inclined surface that is inclined downward in the other downward direction of the other side seating plate on the other side; a fixture which is provided on one side of the upper surface and the other side of the upper surface of the upper horizontal plate member of the thumb pile, respectively, and consists of a fixture on one side and a fixture on the other side each having a filling space filled with soil and sand inside; an auxiliary fixture provided in the fixture; A three-way thumb pile reinforcement type self-supporting retaining wall construction method using a three-way thumb pile reinforcement type self-supporting retaining retainer comprising a steel wire or a steel rod passing through the auxiliary fixture,
a) a thumb stake preparation step of preparing the thumb stake;
b) assembling a connector and a fixture and a steel wire or a steel bar for assembling the one side connector, the other connector, a fixture, an auxiliary fixture, and a steel wire or steel bar to the thumb stake;
c) a step of inserting the thumb piles perpendicular to the ground at regular intervals with the one connector, the other connector, the fixture, the auxiliary fixture, and a plurality of the thumb piles each having a steel wire or a steel rod fixed thereto;
d) a plurality of one side sheet piles and a plurality of the other side sheet piles are connected and fixed to each other in a zigzag form, respectively, so that the plurality of the one side sheet piles are vertically disposed between the plurality of thumb piles vertically rooted at regular intervals in the ground; A sheet pile rooting step of vertically rooting the other side of the sheet pile into the ground;
e) a ground excavation step of excavating the front of the plurality of thumb piles in a vertical state, the front of the one sheet pile in a vertical state, and the ground in front of the other side sheet pile in a vertical state;
i) After completion of the construction of the structure in the excavation section formed to a certain depth in the ground through the e) ground excavation step, the front side of the plurality of thumb piles, the front side of the one side sheet pile of the sheet pile, and the front side of the other side sheet pile and the structure Backfilling the excavation section backfilling the excavation section between the outer surface of the;
h) three-way thumb pile reinforcement type self-supporting retaining construction method comprising; a step of removing the plurality of thumb piles and the sheet piles for removing the thumb piles and the sheet piles.
3. The method of claim 1 or 2,
Between the e) excavation step and the step i) backfilling the excavation section, f) an order wall installation step of installing an order wall made of guide rails between the lower front sides of the plurality of thumb piles;
g) a concrete filling step of filling concrete between the guide rail forming the order wall and the plurality of one side sheet piles and between the guide rail forming the order wall and the plurality of the other sheet piles;
h) a concrete and order wall demolition step of demolishing the guide rail constituting the order wall together with the cured concrete after a certain time has elapsed; a three-way thumb pile reinforcement type self-supporting retaining construction method, characterized in that it is made.

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