KR101915189B1 - Temporary retaining wall structure - Google Patents

Abstract

The present invention seeks to provide a retaining structure possible to form bending points at various angles while generating the same supporting force as when both ends of an earth plate are in surface contact with a flange even if the earth plate is installed using only one H pile at the bending point. According to an embodiment of the present invention, the retaining structure comprises: a plurality of H piles; a plurality of earth plates; and a connecting unit.

Description

{TEMPORARY RETAINING WALL STRUCTURE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an earth retaining structure, and more particularly, to a retaining structure provided in a complex type terraced area where a bending point is formed.

In general, as part of the foundation work in performing buildings and other works, the earthworks work and excavation work are alternately performed.

Known piling methods include H pile wall method, Sheet pile method, SMP method, CIP method, SCW method and so on.

H pile wall construction method is a general construction method which is a method of forming a wall by inserting a H file at regular intervals and inserting a plate into a H file while advancing a tile and a sheet pile method is a method of forming a wedge shaped steel file The SMP method is a non-vibration, noiseless, self-sustaining system that can be used in port structures and earth structures, and is reusable and environmentally friendly. It is possible to construct without any ground conditions by hydraulic indentation method which presses file or H file. It is possible to construct more precisely than general construction method and it is a construction method with high speed. CIP method is less in noise and dust generation during construction The equipment is small and easy to handle, but the gravel and rock layers are difficult to perforate. And a difficult management method, SCW method can solve the problem and this problem of chasubyeok installation according to the excavation during construction toryubyeok in soft ground, the method being urban underground earth retaining Ltd. When used primarily.

In the conventional conventional soil-retaining work by H-file wall construction method, H files are installed on the ground at regular intervals along the boundary of the ter- minator area, and a retaining structure is installed by sandwiching a timber between the H files. It is based on the method of filling the soil.

On the other hand, in the case where the earthquake structure is a complex shape of a polygonal or irregular structure that is not a rectangle or a square, a bending point is provided so that an angle is formed between adjacent soil plates.

More specifically, in the case where the boundary region S has a complex shape as shown in FIG. 1, various types of bending points a to d are formed. At this time, as one of the methods of installing the soil plate at the bending points (a to d), there is a method of installing the soil plate 20 after installing only one H file 10 as shown in FIG. However, if the soil plate 20 is installed through one H file 10 at the bending points a to d as described above, both ends of the soil plate 20, as in point A in Fig. 2, The space S1 is formed between the flange 12 and the current plate 20 so that the flange 12 and the end plate of the current plate are in line contact without surface contact. That is, the soil plate 20 provided on the H-file 10 in the same horizontal line in the left and right direction is in surface contact with the inside of the flange 12 to support the earth pressure, The dust plate 20 installed in the H file 10 is provided in a line contact with the flange 12 so that a concentrated load is applied to a point where the flange 12 and the dust plate 20 make a line contact when a load is generated according to the earth pressure Compared with a state in which both ends of the current plate 20 are in surface contact with the flange 12, the current plate 20 is damaged.

As another method of installing the soil board at the bending points a to d, the interval of the H files 10 installed at the bending points a to d is set to be longer than the interval of the H files 10 installed in a straight line And the both end portions of the soil plate 20 are arranged so as to extend over the flange 12, as shown in Fig. This method is advantageous in that no space is formed between the flange 12 of the H file 10 and the opposite end of the current plate 20, as shown in Fig. However, since the contact area between the flange 12 and the current plate 20 is small, there is a problem that the current plate 20 is detached from the H file 10 as shown in the photograph of FIG. 4 when a load is generated by the earth pressure .

Recently, in order to solve the above-mentioned problem, a plurality of H files 10 are inserted into the ground at angled points at the bending points a to d, and then the soil plate 20 is installed A method was proposed. However, in the method of forming a plurality of H files 10 at the bending points a to d, the both ends of the flange 12 and the soil plate 20 are in contact with each other to secure the supporting force of the soil plate 20 according to the earth pressure However, there is a problem in that the number of H files 10 to be installed on the ground increases, the number of H files 10 to be installed on the ground increases, and the H files 10 formed at the bending points a to d are adjacent to each other, It is not used in actual construction site because it is troublesome due to the high degree of difficulty of operation.

Korean Patent No. 10-1384753 (published Oct. 18, 2013)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a clutter structure in which a clutching point is formed, To provide a retaining force that is the same as that at which both ends of the flange are in surface contact with each other, and at the same time to form bending points at various angles.

According to an embodiment of the present invention, there is provided an earth retaining structure for installation in a complex terraced area where a bending point is formed, wherein the boundary of the terraced area is embedded at a predetermined distance in the ground along a point, A plurality of H files formed by a pair of flanges formed in a direction perpendicular to both sides of the web; A plurality of soil plates inserted and laminated between the plurality of H files; A plurality of support brackets spaced apart from each other by a predetermined distance along the longitudinal direction of the web and spaced apart from the flange of the H file embedded at the bending point and having a cross section of 'a' or 'b'; A plurality of connecting pipes inserted between a flange and a supporting bracket of the H file embedded at the bending point and supported by the flange and the supporting bracket and inserted into the slide plate, And a cover coupled to an upper end of the uppermost connecting pipe, wherein the connecting pipe includes a pipe structure having a polygonal cross section, A plurality of insertion holes formed on the one surface of the plate so as to have a width corresponding to the thickness of the plate, a plurality of spaced-apart insertion holes spaced apart from each other by the width of the insertion holes, A pair of support plates in surface contact with both side surfaces, And an alignment hole formed on both sides with respect to the insertion hole at positions spaced apart from each other by a predetermined length in a central direction along the longitudinal direction at both ends of the connection pipe, Wherein the connection member is formed to have a length longer than the length between the alignment holes formed in the connection pipes which are formed to be flat and adjacent to each other so that the inner surface can be brought into close contact with the outer surface of the connection pipe, And a pair of insertion pins protruding from an inner surface of the connection flange and spaced apart from each other by an interval equal to an interval between the alignment holes of the connection flange formed at a diameter corresponding to the alignment hole, When the pin is inserted into the alignment hole, the pin is formed to be in contact with the reinforcing plate, And the slope is formed to be inclined with respect to the side surface.

Even if a soil plate is installed using only one H file at the bending point in the installation of the earth retaining structure in the complex trench structure where the bending point is formed, the earth retaining structure according to the present invention can prevent the both ends of the soil plate from being in surface contact with the flange So that the same supporting force can be generated and the bending point of various angles can be formed.

In addition, compared with the conventional method in which a plurality of H files for forming the bending point are installed, there is no problem of increasing the necessary materials and workload for installing the retaining structure, Since the degree of difficulty is not high, the applicability and practicality in actual construction can be excellent.

FIG. 1 is an exemplary view showing a complex type teraclizer region.
FIGS. 2 and 3 are views showing an installation mode of a retention structure at a bending point using one H file as an example of the prior art.
FIG. 4 is a photograph showing a case where the soil plate is detached in a state where the soil retaining structure is installed at the bending point as shown in FIG. 3 as an example of the prior art.
FIG. 5 is a view showing an installation form of a retention structure at a bending point using a plurality of H files as another example of the related art.
6 is a perspective view of a retaining structure according to the present invention.
7 is an exploded perspective view showing a part of the retaining structure according to the present invention.
8 and 9 are views for explaining various installation examples of the earth retaining structure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following detailed description of the operation principle of the preferred embodiment of the present invention, if it is determined that a detailed description of known functions or configurations related to the related art may unnecessarily obscure the gist of the present invention, do. In addition, the same or corresponding components or regions as those of the prior art are given the same reference numerals to facilitate understanding.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals refer to like elements throughout.

6 is a perspective view of a retaining structure according to the present invention. 7 is an exploded perspective view showing a part of the retaining structure according to the present invention.

6 and 7, the retaining structure 100 according to the embodiment of the present invention is installed in order to prevent the collapse of the earth and sand due to the concurrent operation with the foundation work for foundation and civil engineering work. The retaining structure 100 according to an embodiment of the present invention has a main purpose of stably installing the soil plate 20 at the bending points a to d formed in a complex tearing area.

The earth retaining structure 100 according to the present invention includes a plurality of H files 10, a plurality of soil plates 20, and a plurality of connection units 30.

 The H file 10 is typically used for installation of a general earth retaining structure 100 and includes a central web 11 and a pair of flanges 12 formed in a direction perpendicular to both sides of the web 11, . However, the support bracket 13 is additionally formed in the H file 10 installed at the bending points a to d.

The support brackets 13 are provided at predetermined intervals along the longitudinal direction of the center web 11 to support the connection unit 30 and are formed of steel angles having a cross section of 'a' or 'b'. The first surface 13a of the support bracket 13 is fixed to the web 11 and the second surface 13b perpendicular to the first surface 13a is disposed parallel to the flange 12, 11, the flange 12, and the support bracket 13, and the connection unit 30 is inserted and arranged in such a space so as to be in contact with the second surface of the flange and the support bracket.

The supporting bracket 13 has a first surface 13a which is fixed to the web 11 and has a free length and a coupling hole for engaging with the web 11 through a coupling member such as a bolt is formed And the second surface 13b are preferably formed in a range exceeding a half of the diameter of the connecting pipe 31 constituting the connecting unit 30, Lt; / RTI > The limitation of the length of the second surface 13b is that it is difficult to stably support the connecting pipe 31 when the length of the second surface 13b is 1/2 or less of the diameter of the connecting pipe 31, 31, the angular range in which the current plate 20 connected to the connection pipe 31 can be installed is narrowed, so that it is not easy to form the bending points a to d. The second surface 13b may be formed to be inclined at a predetermined angle in the direction of the flange 12 forming the space portion so that the connecting pipe 31 located in the space portion is fixed by the second surface 13b to a predetermined level And can be fixed.

The soil plate 20 is made of wood and is used in a conventional soil-retaining method, and a detailed description related thereto will be omitted.

The connection unit 30 is formed between the flange 12 and the second surface 13b of the support bracket 13 installed in the H file 10 at the bending points a to d as described above And is composed of a connecting pipe 31, a connecting member 32, and a cover 37. The connecting pipe 31 and the cover 37 are arranged in the longitudinal direction of the H-

The connection pipe 31 is formed in a polygonal pipe structure and has an insertion hole 33 in which one or more surfaces are cut out along the longitudinal direction at a width corresponding to the thickness of the current plate 20, A pair of support plates 34 may be formed so as to have an interval equal to the width of the insertion hole.

At this time, the connection pipe 31 may be formed in a polygonal shape, and may be formed in an octagonal or octagonal shape that is in contact with the second flange 12 and the second face 13b of the support flange, even if the direction of the insertion hole is changed . At this time, in this embodiment, the connecting pipe 31 is formed into a twelve-angled shape capable of forming various angles, and the connecting pipe having an octagonal or twelve angle may be selectively formed depending on the forming angle of the bending point Can be applied in combination.

The supporting plate 34 may be formed to have a simple bent structure from the insertion hole 33. However, since the area of the supporting plate 34 may be limited, the supporting plate 34 may be separately manufactured The supporting plate 34 may be formed in a shape that is connected to one side of the insertion hole 33 by welding or the like and the connecting plate 31, The other end near the inner side of the connecting pipe of the supporting plate is not fixed to the inner side of the connecting pipe 31. Thus, The side plates 20 are stacked in the longitudinal direction of the connecting pipe 31 along the insertion holes 33 and both ends of the ends of the current plate 20 inserted in the insertion holes 33 are supported in surface contact with the supporting plate 34.

The support plate 34 may further include a reinforcing plate 35 vertically protruding from the support plate 34 and formed adjacent to the inner surface of the connection pipe 31. One end of the reinforcing plate 35 is integrally fixed to the supporting plate 34 in a vertical direction, but the other end is slightly spaced apart from the inner surface of the connecting pipe 31. This is basically because when the connecting pipe 31 is manufactured, the other end of the reinforcing plate 35 including the supporting plate 34 is not only difficult to weld on the inner surface of the connecting pipe 31 by welding or the like, There is no need to fix it through.

' 와 같이 곡선 형태로 변형되어 토류판(20)의 양단(끝단)이 직선형태가 아니게 된다. 이때, 지지판(34)이 탄성이 없다면 반드시 양단이 직선형태로 반듯한 구조의 토류판만이 삽입될 수 있으며, 미세한 변형이 있는 토류판의 삽입 설치는 불가능하게 된다. 그러나, 지지판(34)이 탄성(유연성)을 가지게 되면 지지판(34)과 삽입공(33)의 연결지점을 중심으로 지지판(34)의 끝단측이 좌우 방향으로 어느 정도 (휨)변형 가능함에 따라 변형된 토류판의 삽입 설치가 가능할 수 있음으로써 삽입되지 못할 정도로 심하게 변형 또는 파손된 것을 제외한 대부분의 토류판이 사용될 수 있게 된다.The other end of the supporting plate 34 and the reinforcing plate 35 is disposed close to the inner surface of the connecting pipe 31 but is not fixed so that the supporting plate 34 can have elasticity. That is, the soil plate 20 used in the field is finely deformed in the process of supporting the earth pressure at the center side in a state where both ends are supported on the H file 10,

'So that both ends (ends) of the current plate 20 are not in a straight line shape. At this time, if the support plate 34 is not elastic, only the current plate having a straight structure with both ends straight can be inserted, and it is impossible to insert the current plate with a minute deformation. However, when the support plate 34 has elasticity, the end side of the support plate 34 can be deformed to some extent (warp) around the connection point between the support plate 34 and the insertion hole 33 It is possible to insert a deformed soil plate, so that most soil plates can be used, except that they are severely deformed or damaged so as not to be inserted.

The connecting pipe 31 may be divided into a plurality of pieces and may be arranged in a plane around the insertion hole 33 so that the insertion holes 33 are aligned on the same line when the divided connection pipes 31 are connected. The hole 36 is machined. At this time, the alignment holes 36 are formed at positions spaced apart by a predetermined length in the central direction along the longitudinal direction at both ends of the connection pipe 31, and may be formed on both sides with respect to the insertion hole 33.

The connection member 32 is inserted into the alignment hole 36 of the divided connection pipe 31 and connects the divided connection pipe 31 to the connection flange 31a and the pair of insertion pins 32b, As shown in FIG.

The connection flange 32a may be formed flat such that the inner surface of the connection flange 32a can be brought into close contact with the outer surface of the connection pipe 31, or may be partially bent (refer to FIG. And is formed to have a length longer than the length between the alignment holes 36 that are machined in the adjacent connecting pipes 31 in length.

The insertion pin 32b is formed to have a diameter corresponding to the alignment hole 36, and a pair is formed on the inner side surface of the connection flange 32a on the upper side and the lower side. At this time, the interval of the pair of insertion pins 32b is the same as the interval of the alignment holes 36 of the connection flange 31 to be connected. The length of the insertion pin 32b may be formed such that the insertion pin 32b inserted into the alignment hole 36 does not naturally fall out. Preferably, the length of the insertion pin 32b is set so as to be in contact with the reinforcing plate 35 And a magnet 32c may be additionally formed at an end of the insertion pin 32b in contact with the reinforcing plate 35. [ The insertion pin 32b is formed to be inclined with respect to the inner surface of the connection flange 32a so as to be parallel to the support plate 34 when the insertion pin 32b is inserted into the alignment hole 36. [ The end of the insertion pin 32b inserted into the alignment hole 36 is brought into contact with the reinforcing plate 35 and can be fixed to the reinforcing plate 35 by the magnet 32c formed at the end of the insertion pin 32b . Of course, the fixing strength of the reinforcing plate 35 and the insertion pin 32b by the magnet 32c is detachable through the operator.

 Therefore, when the connecting pins 32b of the connecting member 32 are inserted into the aligning holes 36 to connect the connecting pipes 31, the inserting pins 32b are relatively hermetically inserted into the aligning holes 36, The end of the inserted insertion pin 32b is fixed to the reinforcing plate 35 by the magnetic force so that the connecting member 32 is not separated from the connecting pipe 31 and the connected connecting pipes 31 are prevented from being mutually twisted And the insertion holes 33 of the connecting pipe 31 to be connected are aligned in the same line.

The cover 37 is coupled to the upper end of the connection pipe 32 to cover the upper end of the connection pipe 32 to prevent inflow of rainwater or the like. At this time, the cover 37 may be formed in a shape corresponding to the shape of the cross section of the connecting pipe 32 (the cross section of the cover 37 when the connecting pipe 32 is a hexagonal shape) And may be formed in a circular shape that can be engaged at the same time.

8 and 9 are views for explaining various installation examples of the earth retaining structure according to the present invention.

Hereinafter, the installation of the earth retaining structure according to the present invention will be described with reference to FIGS.

8, when the soil retaining structure 100 is installed, the H file 10a fixing the soil plate installed horizontally in parallel to the soil plate 20 at the bending point, and a bending point The forming H files 10b and 10c are installed. The support bracket 13 and the connection unit 30 are installed in the H files 10a, 10b, and 10c in order to install the dust plate 20 at the point where the bending point is formed. In this case, the H files 10a, 10b, and 10c may be installed together with the installation of the H files in consideration of the angle with respect to the H files installed adjacent to the H pipes 10a, 10b, and 10c, The connecting pipes 32 may be installed so that the directions of the insertion holes 33 correspond to the installation angles of the H files 10a, 10b and 10c after collectively installing the files 10a, 10b and 10c.

Accordingly, the forming range of the bending angle by the H files 10a, 10b, and 10c forming the bending point can be formed relatively broadly. As shown in FIG. 8, the position of the H file 10c is P1- The both ends of the current plate 10 can be stably supported on the flange 11 of the H file 10c through the connection unit 30. [

9, even when the angle and direction of the bending point of the soil plate 20 provided by the connection unit 30 are variously formed at the bending point, the both ends of the soil plate 20 and the H file 10 A problem that the dust plate 20 is separated from the H file 10 due to the earth pressure does not occur and the dust plate 20 is prevented from being damaged by the earth pressure, And the connecting pipe 32 is also in surface contact with the flange 11 so that both ends of the current plate 20 are connected to the flange 11 11) can be realized. Moreover, the deformation of the connecting pipe 32 by the earth plate 20 pressed by the earth pressure by the structure of the connecting pipe 32 can also be minimized.

As described above, according to the present invention, even when a soil plate is installed by using only one H file at the bending point in the installation of the earth retaining structure in a complex terraced area where bending points are formed, It is possible to form a bending point at various angles while generating the same supporting force as that of the surface contact.

In addition, since one file for forming a bending point is applied, there is no problem that the necessary materials and workload for installing the related retaining structure are increased, and the work difficulty for forming the H file at the bending point is not high, The applicability and applicability in the field can be excellent.

In addition, when the soil board is installed at the bending point, it is possible to install the soil board by inserting the soil board into the connection unit in a simple slide manner, and the respective connecting pipes are not fixed by a separate fixing member (bolt screw or the like) The simple connection of the simple connection member can separate the connecting pipe and thus the flow plates, and the overall construction of the retaining structure can be facilitated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The present invention is not limited to the drawings, and all or some of the embodiments may be selectively combined so that various modifications may be made.

10: H File 20: Tourist board
30: connection unit
31: connecting pipe 32: connecting member
33: insertion hole 34: support plate
35: reinforcing plate 36: alignment hole
37: cover

Claims (2)

A retaining structure for installation in a complex terraced area where a bending point is formed,
A plurality of H files embedded in the ground along the boundary of the terahertz region at a predetermined interval and formed of a pair of flanges formed in a direction perpendicular to both the center web and the web;
A plurality of soil plates inserted and laminated between the plurality of H files;
A plurality of support brackets spaced apart from each other by a predetermined distance along the longitudinal direction of the web and spaced apart from the flange of the H file embedded at the bending point and having a cross section of 'a' or 'b';
A plurality of connecting pipes inserted between a flange and a supporting bracket of the H file embedded at the bending point and supported by the flange and the supporting bracket and inserted into the slide plate, And a cover coupled to an upper end of the uppermost connecting pipe, wherein the connecting unit comprises:
Wherein the connection pipe is a pipe structure having a polygonal cross-section, the insertion hole being cut along a longitudinal direction on one surface with a width corresponding to the thickness of the counter-current plate, and spaced apart from the insertion hole by an interval equal to the width of the insertion hole, A reinforcing plate formed vertically protruding from the support plate and formed close to an inner surface side of the connecting pipe, and a pair of reinforcing plates formed on both ends of the connecting pipe, And an alignment hole formed on both sides with respect to the insertion hole at a position spaced apart by a predetermined length in the central direction along the longitudinal direction,
Wherein the connecting member has a connecting flange formed to have a length longer than the length between the alignment holes formed in the connecting pipes formed to be flat and formed adjacent to each other so that the inner surface can be brought into close contact with the outer surface of the connecting pipe, And a pair of insertion pins protruding from an inner surface of the connection flange, the insertion pins being spaced apart from each other by an interval equal to the interval between the alignment holes of the connection flange,
Wherein the insertion pin is formed to have a length that can be in contact with the reinforcing plate when inserted into the alignment hole, and is formed to be inclined with respect to the inner surface of the coupling flange so as to be parallel to the supporting plate. The method according to claim 1,
Wherein the insertion pin is formed with a magnet such that an end of an insertion pin contacting the reinforcing plate is fixed to the reinforcing plate by a magnetic force.

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