KR102510253B1 - Retaining wall having hinged joint raker and construction method thereof - Google Patents

Abstract

The present invention relates to a retaining structure installed to surround an excavation area 1 formed by excavation, comprising: a retaining wall 10; A raker member 100 installed with a downward slope so that the upper end is coupled to the upper portion of the retaining wall 10 and the lower end is coupled to the bottom of the excavation area 1; It is coupled to the central portion of the raker member 100 to resist the rising of the raker member 100, and is spaced inward from the retaining wall 10 and installed along the vertical direction, and the lower end is the excavation area 1 A tensile reinforcing member 200 buried in the bottom of the; A hinge coupling part 800 commonly coupled to the tensile reinforcing member 200 and the raker member 100 to allow hinge behavior of the tensile reinforcing member 200 and the raker member 100; By presenting a retaining structure equipped with a Raker hinge coupling structure, recycling of materials is possible, and safe and easy work is possible.

Description

Retaining structure having a Raker hinge coupling structure {RETAINING WALL HAVING HINGED JOINT RAKER AND CONSTRUCTION METHOD THEREOF}

The present invention relates to the field of construction, and more particularly, to a retaining structure having a raker hinge coupling structure and a construction method thereof.

Retaining structure means a temporary structure or permanent structure installed to surround the excavation area 1 formed by excavation for underground construction, and there are thumb pile soil plate method, C.I.P. method, S.C.W. method, etc.

When the excavation depth increases, reinforcing structures such as earth anchors, rakers, and struts are installed to increase the resistance of the earth retaining structure to earth pressure.

Earth anchors have the advantage of having little effect on the excavation area 1 formed by excavation, but when construction of earth anchors is impossible due to surrounding structures, rakers and struts are inevitably installed, which are formed by excavation There is a problem that it is exposed to the excavation area 1 to be and affects the work.

1 and 2 are configuration diagrams of a conventional raker method.

In order to support the retaining structure 10, the raker member 20 is installed obliquely, the upper end of the raker member 20 is coupled to the retaining structure 10, and the lower end is supported by a kicker block 40 supported

When the length of the raker member 20 is increased, a vertical member 30 is installed to prevent buckling, and for coupling the vertical member 30 and the raker member 20, the vertical member 30 A member 50 is installed, a horizontal member 51 is installed along the width direction so as to be supported by the support member 50, and a raker member is installed on the horizontal member 51 by an inclination adjusting member 52 (20) is supported.

The construction method of the conventional raker method is made by the following process.

A retaining wall 10 or a thumb pile is buried along the edge of the excavation area 1, and a vertical member 30 is buried.

An inclined surface (a) is formed by excavating a part of the excavation area 1 so that the installation position of the raker member 21 is secured.

A support member 50 is installed on the vertical member 30 on the inclined surface (a), and a horizontal member 51 is installed along the width direction so as to be supported by the support member 50, and the horizontal member 51 And installed so that the raker member 20 is supported by the inclination adjusting member 52.

A support block 40 is installed at the lower end of the inclined surface a, and the lower end of the raker member 21 is supported by the support block 40.

However, this conventional raker method had the following problems.

First, while the vertical member 30 is installed along the vertical direction, the raker member 20 has a different inclination depending on the conditions of the site (excavation depth, size of the background soil pressure, shape of the earth retaining structure, etc.). Since it has a fixed coupling structure by the support member 50, the horizontal member 51, the tilt adjusting member 52, etc., it is necessary to separately manufacture coupling members such as the tilt adjusting member 52 according to the coupling angle, and the manufactured coupling It is difficult to recycle materials to other sites.

Second, since the support member 50 and the horizontal member 51, which are structures for coupling the vertical member 30 and the raker member 20, are installed below the raker member 20, the inclined surface for their installation work (a) must be formed significantly lower than the installation position of the raker member 20 (over-excavation), and because of this, the raker member 20 must be installed at a position significantly higher than the inclined surface (a), making it difficult to work such as welding , it is difficult to ensure the stability of the operation.

Third, since the above work has to be performed by upward work (work performed by the worker looking upward), the workability is even worse.

The present invention was derived to solve the above problems, and the purpose of the present invention is to present a retaining structure having a raker hinge coupling structure and a construction method thereof that enable recycling of materials and enable safe and easy work to be

In order to solve the above problems, the present invention is a retaining structure installed to surround an excavation area 1 formed by excavation, comprising: a retaining wall 10; A raker member 100 installed with a downward slope so that the upper end is coupled to the upper portion of the retaining wall 10 and the lower end is coupled to the bottom of the excavation area 1; It is coupled to the central portion of the raker member 100 to resist the rising of the raker member 100, and is spaced inward from the retaining wall 10 and installed along the vertical direction, and the lower end is the excavation area 1 A tensile reinforcing member 200 buried in the bottom of the; In addition to enabling the downward coupling operation, the tensile reinforcing member 200 and the raker member 100 are commonly coupled to allow the hinge behavior of the tensile reinforcing member 200 and the raker member 100. Hinge coupling portion 800 ); Suggests a retaining structure having a raker hinge coupling structure, characterized in that it comprises.

The raker member 100 includes one side raker member 110 and the other raker member 120 spaced apart from each other, and the tensile reinforcing member 200 is the one side raker member 110 and the other raker member 110. 120, and the hinge coupling part 800 is on the inner surface, outer surface or both sides of the tensile reinforcing member 200 and the upper surface of the one raker member 110 and the other raker member 120 It is preferable that they are formed to be bonded in common.

The hinge coupling part 800 includes one side coupling part 811 coupled to one side surface of the tensile reinforcing member 200 and one side upper surface coupling part 812 coupled to the upper surface of the one side raker member 110 And, one side commonly coupled to the one side coupling portion 811 and the one side upper coupling portion 812 so that the coupling angle of the one side coupling portion 811 and the one side upper coupling portion 812 can be changed. One side hinge coupling portion 810 having a hinge portion 813; The other side surface coupling part 821 coupled to the other side surface of the tensile reinforcing member 200, the other side upper surface coupling part 822 coupled to the upper surface of the other raker member 120, and the other side surface coupling part 821 ) And the other side having the other side hinge portion 823 commonly coupled to the other side coupling portion 821 and the other side top coupling portion 822 so that the coupling angle of the other side top coupling portion 822 can be changed. It is preferable to include; hinge coupling part 820.

The one-side hinge part 813 includes a rotating shaft 813a extending from the one-side coupling part 811 to one side; It is preferable to include; coupled to the rotating shaft 813a and formed to rotate, as well as a rotating portion 813b formed on an upper portion of the upper surface coupling portion 812 on one side.

Preferably, the one side hinge part 813 further includes a rotation shaft support part 813c extending from the one side coupling part 811 to one side so as to support the end of the rotation shaft 813a.

The raker member 100 and the tensile reinforcing member 200 are H beams, and the raker member 100 is installed such that both flanges face upward and downward, respectively, and the tensile reinforcing member 200 has both flanges, respectively. It is preferable that the raker member 110 on one side and the raker member 120 on the other side are installed.

The hinge coupling portion 800 includes an inner surface coupling portion 831 coupled to the inner surface of the tensile reinforcing member 200, and one side upper surface coupling portion 812 coupled to the upper surface of the one side raker member 110, The coupling angle of the other upper surface coupling portion 822 coupled to the upper surface of the other raker member 120, the inner surface coupling portion 831, one upper surface coupling portion 812, and the other upper surface coupling portion 822 can be changed. An inner hinge coupling portion 830 having an inner hinge portion 832 commonly coupled to the inner surface coupling portion 831, one side upper surface coupling portion 812 and the other upper surface coupling portion 822; it is desirable

The inner hinge part 832 includes a rotating shaft 832a; Rotation shaft inserts formed on the inner surface of the inner surface coupling part 831, the upper surface of the one side upper surface coupling part 812, and the upper surface of the other upper surface coupling part 822 so that the rotation shaft 832a is inserted and rotated ( 832b);

The raker member 100 and the tensile reinforcing member 200 are H beams, and the raker member 100 is installed such that both flanges face upward and downward, respectively, and the tensile reinforcing member 200 has both flanges, respectively. It is preferable that they are installed so as to face inward and outward.

The raker member 100 and the tensile reinforcing member 200 are H beams, and the raker member 100 is installed such that both flanges face upward and downward, respectively, and the tensile reinforcing member 200 has both flanges, respectively. It is installed to face the inside and outside, and the hinge coupling part 800 includes one side area coupling part 841 coupled to the area between one side of both flanges of the tensile reinforcing member 200, and the one side raker member ( 110), the one side area coupling part 841 so that the coupling angle between the one side upper surface coupling part 812 coupled to the upper surface and the one side between area coupling part 841 and the one side upper surface coupling part 812 can be changed. and one side area hinge coupling part 840 having one side hinge drive unit 842 commonly coupled to the one side upper surface coupling unit 812; The other side area coupling part 851 coupled to the other side area between the flanges of both sides of the tensile reinforcing member 200, the other side upper surface coupling part 822 coupled to the upper surface of the other raker member 120, and the other side The other side hinge driving part 852 commonly coupled to the other side area coupling part 851 and the other upper surface coupling part 822 so that the coupling angle between the between area coupling part 851 and the other upper surface coupling part 822 can be changed. It is preferable to include; the other side region hinge coupling portion 850 having a).

The one-side region coupling portion 841 includes a pair of extension portions 841a coupled to flanges on both sides of the tensile reinforcing member 200, respectively; A rotational shaft coupling portion 841b having both ends coupled to the ends of the pair of extensions 841a; and the one-side hinge driving unit 842 includes a rotational shaft coupled to the rotational shaft coupling portion 841b to be rotatably driven ( 842a); In addition to being coupled to the rotating shaft 842a and formed to rotate, it is preferable to further include a rotating portion 813b formed on an upper portion of the upper surface coupling portion 812 on one side.

An intermediate reinforcing member 300 installed along an inclined or horizontal direction so that one end is coupled to the central portion of the retaining wall 10 and the other end is coupled to the raker member 100 or the tensile reinforcing member 200; further comprising it is desirable

The present invention is a construction method of the retaining structure, comprising: embedding the retaining wall 10 or the thumb pile along the edge of the excavation area 1; Excavating a part of the excavation area 1 so that the installation position of the tensile reinforcing member 200 is secured, and burying the tensile reinforcing member 200; Installing the raker member 100 while excavating a part of the excavation area 1 to form an inclined surface c so as to secure an installation position of the raker member 100; coupling the tensile reinforcing member 200 and the raker member 100 by installing the hinge coupling part 800 by a downward coupling operation on the inclined surface (c); Suggests a construction method of a retaining structure comprising the; step of excavating the rest of the excavation area (1).

The present invention is a construction method of the retaining structure, comprising: embedding the retaining wall 10 or the thumb pile along the edge of the excavation area 1; Excavating a part of the excavation area 1 so that the installation position of the tensile reinforcing member 200 is secured, and burying the tensile reinforcing member 200; Installing the raker member 100 while excavating a part of the excavation area 1 so that the installation position of the raker member 100 is secured; In addition to excavating a part of the excavation area 1 so that the installation position of the intermediate reinforcing member 300 is secured, the intermediate reinforcing member 300 is installed, and the other end of the intermediate reinforcing member 300 is placed in the raker. Joining the member 100 or the tensile reinforcing member 200; coupling the tensile reinforcing member 200 and the raker member 100 by the hinge coupling part 800; Suggests a construction method of a retaining structure comprising the; step of excavating the rest of the excavation area (1).

The present invention proposes a retaining structure having a raker hinge coupling structure and a method of constructing the retaining structure that enables recycling of materials and enables safe and easy work.

1 and 2 are configuration diagrams of conventional retaining structures.
3 or less shows an embodiment of a retaining structure according to the present invention,
3 is a configuration diagram of the first embodiment;
Fig. 4 is a configuration diagram of a second embodiment;
5 is a side view of a first embodiment of a hinge coupling part;
6 is a perspective view of a first embodiment of a hinge coupling part;
7 is a side view of a second embodiment of a hinge coupling part;
8 is a perspective view of a second embodiment of a hinge coupling part;
9 is a side view of a third embodiment of a hinge coupling unit;
10 is a perspective view of a third embodiment of a hinge coupling part;
11 is a side view of a fourth embodiment of a hinge coupling part;
12 is a perspective view of a fourth embodiment of a hinge coupling part;
Figure 13 is a configuration diagram related to the problems of the conventional retaining structure.
Fig. 14 is a configuration diagram of a third embodiment;
15 to 22 are process charts of the construction method of the retaining structure.

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

As shown below in FIG. 3, the present invention basically relates to a retaining structure installed to surround an excavation area 1 formed by excavation.

This is the retaining wall 10 by the thumb pile earth plate method, C.I.P. method, S.C.W. method, etc.; Raker member 100 installed with a downward slope such that the upper end is coupled to the upper portion of the retaining wall 10 and the lower end is coupled to the bottom of the excavation area 1; It is coupled to the central part of the raker member 100 to resist the rising of the raker member 100, is spaced inward from the retaining wall 10 and is installed along the vertical direction, and the lower end is buried in the bottom of the excavation area 1 Tensile reinforcing member 200; In addition to enabling downward coupling work, the tensile reinforcing member 200 and the raker member (the construction method of the earth retaining structure according to the present invention is made by the following process. A hinge coupling portion 800 commonly coupled to the raker member 100; is configured to include.

The construction method of the earth retaining structure according to the present invention is made by the following process.

The retaining wall 10 or the thumb pile is buried along the edge of the excavation area 1.

In addition to excavating a part of the excavation area 1 so that the installation position of the tensile reinforcing member 200 is secured, the tensile reinforcing member 200 is buried.

A part of the excavation area 1 is excavated to form an inclined surface c so that the installation position of the raker member 100 is secured, and the raker member 100 is installed.

By a downward coupling operation on the inclined surface (c), a hinge coupling portion 800 is installed to couple the tension reinforcing member 200 and the raker member 100, and the rest of the excavation area 1 is excavated.

This has the effect of:

First, while the tensile reinforcing member 200 is installed along the vertical direction, the raker member 100 has a different inclination depending on the site conditions (excavation depth, size of the background earth pressure, shape of the earth retaining structure, etc.). Since a hinge coupling structure is applied for coupling, a pre-manufactured product can be used even if the coupling angle is different, it can be recycled to other sites, and unnecessary harmful stress can be prevented.

Second, since the hinge coupling part 800, which is a structure for coupling the raker member 100 and the tensile reinforcing member 200, is installed on the upper part of the raker member 100, the inclined surface (c) for their installation work is It is sufficient if it is formed just below the installation position of the member 100, and since the installation work of the raker member 100 and the hinge coupling part 800 is performed on the inclined surface (c) formed in this way, welding work is easy, and the work stability is guaranteed.

Third, since the above work is performed by downward work (worker does the work looking down), the workability is more excellent.

Hereinafter, specific embodiments of the hinge coupling unit 800 according to the present invention will be described.

The raker member 100 includes one side raker member 110 and the other raker member 120 spaced apart from each other, and the tensile reinforcing member 200 is one side raker member 110 and the other raker member 120 It is preferable for a stable coupling structure and support structure to be installed between the.

In this case, the hinge coupling part 800 is formed to be commonly coupled to the inner surface, the outer surface, or both side surfaces of the tensile reinforcing member 200 and the upper surface of the raker member 110 on one side and the raker member 120 on the other side.

Hereinafter, as a case of using a general H beam as the raker member 100 and the tensile reinforcing member 200, a case in which both flanges of the raker member 100 are installed facing the upper and lower sides, respectively, will be described as an example.

Specific examples thereof are as follows.

First, the H beam, which is the tensile reinforcing member 200, is installed in the weak axis direction (the flanges on both sides of the tensile reinforcing member 200 are directed toward one side raker member 110 and the other raker member 120, respectively). ( 5,6)

Since this is a structure in which both flanges of the tensile reinforcing member 200 are disposed along the width direction of the retaining wall 10, it is somewhat disadvantageous in terms of structural stability, but has the advantage that the coupling operation by the hinge coupling part 800 is convenient. .

In this case, the hinge coupling portion 800 is specifically composed of one hinge coupling portion 810 coupled to one flange of the tensile reinforcing member 200 and the other hinge coupling portion 820 coupled to the other flange.

One side hinge coupling portion 810, one side coupling portion 811 coupled to one side surface of the tensile reinforcing member 200, one side upper surface coupling portion 812 coupled to the upper surface of the raker member 110, One side hinge portion 813 commonly coupled to the one side coupling portion 811 and the one side upper coupling portion 812 so that the coupling angle of the one side coupling portion 811 and the one side upper coupling portion 812 can be changed. ) is provided.

The other side hinge coupling portion 820 has a symmetrical structure with the above one side hinge coupling portion 810, and the other side coupling portion 821 coupled to the other side surface of the tensile reinforcing member 200 and the upper surface of the other raker member 120 The other upper surface coupling part 822 coupled to the other side surface coupling part 821 and the other side upper surface coupling part (821) and the other side upper surface coupling part ( 822 is provided with the other side hinge part 823 coupled in common.

The one-side hinge part 813 includes a rotating shaft 813a extending from the one-side coupling part 811 to one side; It is formed to rotate by being coupled to the rotating shaft 813a, and also includes a rotating portion 813b formed on the top of the one-side upper surface coupling portion 812, so that stable coupling and hinge behavior are possible.

To support the end of the rotation shaft 813a, the rotation shaft support portion 813c extending to one side from the one side coupling portion 811; In the case of taking a structure further including, the advantage is that both ends of the rotation shaft 813a are stably supported. Added.

The other side hinge part 823 is formed in a symmetrical structure with the one side hinge part 813 above.

Second, as a case where the H beam, which is the tensile reinforcing member 200, is installed in the strong axis direction (the flanges on both sides of the tensile reinforcing member 200 are directed inward and outward, respectively), it is supported by one rotational axis. ( 7 to 10)

Since this is a structure in which both flanges of the tensile reinforcing member 200 are disposed along the earth pressure direction of the retaining wall 10, the coupling operation by the hinge coupling part 800 is somewhat inconvenient, but has the advantage of excellent structural stability.

In this case, the hinge coupling portion 800 is constituted by the inner hinge coupling portion 830 .

The inner hinge coupling portion 830 is specifically, an inner surface coupling portion 831 coupled to the inner surface of the tensile reinforcing member 200, and one side upper surface coupling portion 812 coupled to the upper surface of the raker member 110, The coupling angle of the other upper surface coupling portion 822 coupled to the upper surface of the other raker member 120, the inner surface coupling portion 831, one upper surface coupling portion 812, and the other upper surface coupling portion 822 is changeable, An inner hinge part 832 commonly coupled to the inner surface coupling part 831, one upper surface coupling part 812 and the other upper surface coupling part 822 is provided.

The inner hinge part 832 includes a rotating shaft 832a; Rotation shaft inserting parts 832b formed on the inner surface of the inner surface coupling part 831, the upper surface of one side upper surface coupling part 812, and the upper surface of the other upper surface coupling part 822 so that the rotation shaft 832a is inserted and rotated. Since it is configured to include, it is possible to achieve a stable structure in which the raker members 110 and 120 on both sides hinge by one rotation shaft 832a.

A reinforcing rib 801 may be installed to reinforce the coupling strength between the inner surface coupling part 831, one side upper surface coupling part 812 and the other upper surface coupling part 822 and the rotation shaft insertion part 832b formed on the upper surface thereof. Yes. (FIG. 8)

Since the greatest stress occurs at the joint between the inner surface coupling portion 831 of the tensile reinforcing member 200 and the rotation shaft insertion portion 832b formed therein, it is preferable to install a larger number of reinforcing ribs 801. ( 9,10)

Third, as a case where the H beam, which is the tensile reinforcing member 200, is installed in the direction of the strong axis (the flanges on both sides of the tensile reinforcing member 200 are directed inward and outward, respectively), it is supported by two rotational axes. ( 11, 12)

Since this is a structure in which both flanges of the tensile reinforcing member 200 are disposed along the earth pressure direction of the retaining wall 10, the coupling operation by the hinge coupling part 800 is somewhat inconvenient, but the structural stability is excellent, the two Since the rotating shaft is applied, there are advantages such as that the generation of harmful stress can be reduced even if different deformations occur in the raker members 100 on both sides.

In this case, the hinge coupling part 800 is specifically, one side region hinge coupling part 840 coupled to the region between the flanges of one side of the tensile reinforcing member 200, and the other region hinge coupling part coupled to the region between the other flanges ( 850).

One side between-region hinge coupling part 840, one side between-region coupling part 841 coupled to the between-side region between both flanges of the tensile reinforcing member 200, and one side upper surface coupled to the upper surface of the one side raker member 110 Common to one side area coupling part 841 and one side upper surface coupling part 812 so that the coupling angle between the coupling part 812, the one side area coupling part 841 and the one side upper surface coupling part 812 can be changed. It is provided with one side hinge actuator 842 to be coupled.

The other side region hinge coupling portion 850 is coupled to the other side region coupling portion 851 coupled to the other side region between the flanges of both sides of the tensile reinforcing member 200, and the other side upper surface coupled to the upper surface of the other raker member 120 Common to the other interregion coupling portion 851 and the other upper coupling portion 822 so that the coupling angle between the coupling portion 822, the other coupling portion 851, and the other top coupling portion 822 can be changed. It is provided with the other side hinge actuator 852 coupled.

The one-side region coupling portion 841 includes a pair of extension portions 841a respectively coupled to both side flanges of the tensile reinforcing member 200; It is configured to include; a rotation shaft coupling portion (841b) in which both ends are coupled to the ends of the pair of extension portions (841a).

The one-side hinge driving unit 842 includes a rotating shaft 842a coupled to the rotating shaft coupling unit 841b so as to be rotatably driven; In addition to being coupled to the rotating shaft 842a and formed to rotate, a rotating portion 813b formed on one side of the upper surface coupling portion 812; is configured to include.

The other side region coupling part 851 and the other hinge driving part 852 form a symmetrical structure with the above.

This has the effect of forming a stable rotation coupling structure with respect to the region between the flanges on both sides of the tensile reinforcing member 200.

On the other hand, in the retaining structure according to the present invention, one end is coupled to the central portion of the retaining wall 10, and the other end is inclined to be coupled to the raker member 100 or the tensile reinforcing member 200, or an intermediate reinforcement installed along the horizontal direction. Member 300; may take a configuration further comprising. (FIG. 4)

The conventional Raker method had the following problems (FIG. 13).

First, the raker member 20 installed at an angle has to form a plurality of block-out portions 61 due to the collision during the slab operation of the underground structure, a part of the raker member is buried in the slab, and the remaining exposed portion is Since it must be cut, construction is difficult, material waste is large, and recycling of materials is impossible.

Second, since the inclined raker member conflicts with the installation position of the slab of the underground structure, it is difficult to arrange the slab, waterproof work, etc., and the possibility of defects is high.

Third, since the structure in which a plurality of raker members 21 and 22 are supported on one support block 40 and the structure in which a plurality of support blocks 40 and 41 are installed increases the contact area with the floor slab 70, It adversely affects the workability, structural stability, and waterproof performance of the floor slab.

Fourth, as the number of raker members to be installed increases, the working space of the lower part of the earth retaining structure becomes narrower, so the excavation work becomes more difficult.

That is, in the prior art, when the bearing capacity of one raker member is insufficient, as shown in FIG. 9, there is the above-described problem as a plurality of raker members having an inclined structure are installed, but in the present invention, a plurality of raker members are installed Instead, an intermediate reinforcing member 300 is installed.

However, in this way, when taking a structure in which one end of the intermediate reinforcing member 300 is coupled to the central portion of the retaining wall 10 and the other end of the intermediate reinforcing member 300 is coupled to the raker member 100, the intermediate reinforcing member 300 And there is a problem that the rising phenomenon may occur excessively in the coupling portion of the raker member 100.

Since the tensile reinforcing member 200 is a tensile pile structure and resists the rise of the raker member 100 as described above, the stability of the retaining structure as a whole can be maintained.

Since the intermediate reinforcing member 300, one end of which is coupled to the central portion of the retaining wall 10, is supported by the raker member 100 whose bearing capacity is increased by the reinforcement of the tensile reinforcing member 200, the other end thereof, the retaining wall 10 ) to prevent the central part of the stomach.

However, in this case, since the axial stress of the raker member 100 increases, it is necessary to increase the bearing capacity of the support block 40 installed at the lower end of the raker member 100.

The other end of the intermediate reinforcing member 300 is coupled to the raker member 100 or the tensile reinforcing member 200. This is preferable in terms of minimizing the generation of stress.

That is, in the present invention, when the bearing capacity of the simple support structure of the raker member 100 is insufficient, instead of installing an additional raker member as in the prior art, the tensile reinforcing member 200 is installed along the vertical direction, It takes a structure to reinforce by installing an intermediate reinforcing member 300 along an inclined or horizontal direction.

This has the effect of:

First, the intermediate reinforcing member 300 installed instead of the raker member can be installed to avoid the installation position of the slab 60 of the underground structure, thereby minimizing the block-out portion 61 of the slab 60. , Construction is easy, materials can be saved, and materials can be recycled by separating them after installing the slab (Fig. 14).

Second, since the intermediate reinforcing member 300 can be installed to avoid the slab installation position of the underground structure, it does not interfere with the slab reinforcement work and waterproofing work, so the workability is excellent and the possibility of occurrence of defects is small.

Third, only one raker member 100 can be supported on one support block 40, and the number of installed support blocks 40 can be reduced, resulting in contact between the support block 40 and the floor slab 70. Since the area is reduced, the workability, structural stability, and waterproof performance of the floor slab increase.

Fourth, since the number of raker members to be installed can be reduced, it is possible to sufficiently secure a working space adjacent to the lower part of the earth retaining structure 10, thereby facilitating the excavation work.

Hereinafter, the construction method of the earth retaining structure according to the present invention will be described.

A retaining wall 10 or a thumb pile is buried along the edge of the excavation area 1 (FIG. 15).

A part of the excavation area 1 is excavated so that the installation position of the tensile reinforcing member 200 is secured, and the tensile reinforcing member 200 is buried (FIG. 16).

To secure the installation position of the raker member 100, a part of the excavation area 1 is excavated to form an inclined surface c. (FIG. 17)

Install the support block 40 at the bottom of the inclined surface. (FIG. 18)

In addition to installing the raker member 100 so as to be supported by the support block 40, by installing the hinge coupling part 800 by downward coupling work on the inclined surface (c), the tension reinforcing member 200 and the raker member ( 100). (FIG. 19)

In the case of the embodiment of installing the intermediate reinforcing member 300, by excavating a part of the excavation area 1 so that the installation position of the intermediate reinforcing member 300 is secured, the same excavation surface as the inclination of the intermediate reinforcing member 300 (side flat or inclined plane). (FIG. 20)

An intermediate reinforcing member 300 is installed, and the other end of the intermediate reinforcing member 300 is coupled to the raker member 100 or the tensile reinforcing member 200. (FIG. 21)

The rest of the excavation area 1 is excavated (FIG. 22).

Since the above has only been described with respect to some of the preferred embodiments that can be implemented by the present invention, as noted, the scope of the present invention should not be construed as being limited to the above embodiments, and the scope of the present invention described above It will be said that the technical idea and the technical idea together with the root are all included in the scope of the present invention.

1: excavation area 10: retaining wall
100,110,120: raker member 200: tensile reinforcing member
300: intermediate reinforcing member 800: hinge joint
810: one side hinge coupling part 811: one side coupling part
812: one side upper surface coupling part 813: one side hinge part
813a: rotation shaft 813b: rotation unit
813c: rotation shaft support 820: other side hinge coupling part
821: other side coupling part 822: other side upper coupling part
823: other hinge part 830: inner hinge coupling part
831: inner coupling part 832: inner hinge part
832a: rotation shaft 832b: rotation shaft insertion part
840: hinge coupling portion between one side region 841: coupling portion between one side region
841a: extension part 841b: rotation shaft coupling part
842: one side hinge driving part 842a: rotation shaft
850: other side area hinge coupling part 851: other side area coupling part
852: other side hinge driving part

Claims (14)

In the retaining structure installed to surround the excavation area 1 formed by excavation,
Earth retaining wall (10);
A raker member 100 installed with a downward slope so that the upper end is coupled to the upper portion of the retaining wall 10 and the lower end is coupled to the bottom of the excavation area 1;
It is coupled to the central portion of the raker member 100 to resist the rising of the raker member 100, and is spaced inward from the retaining wall 10 and installed along the vertical direction, and the lower end is the excavation area 1 A tensile reinforcing member 200 buried in the bottom of the;
In addition to enabling the downward coupling operation, the tensile reinforcing member 200 and the raker member 100 are commonly coupled to allow the hinge behavior of the tensile reinforcing member 200 and the raker member 100. Hinge coupling portion 800 );
Retaining structure having a raker hinge coupling structure, characterized in that the hinge coupling portion 800 is installed on the top of the raker member 100. According to claim 1,
The raker member 100 includes one side raker member 110 and the other side raker member 120 spaced apart from each other,
The tensile reinforcing member 200 is installed between the one side raker member 110 and the other raker member 120,
The hinge coupling part 800,
Retaining structure having a raker hinge coupling structure, characterized in that formed to be commonly coupled to the inner surface, outer surface or both side surfaces of the tensile reinforcing member 200 and the upper surface of the one side raker member 110 and the other raker member 120 . According to claim 2,
The hinge coupling part 800,
One side coupling part 811 coupled to one side of the tensile reinforcing member 200,
One side upper surface coupling part 812 coupled to the upper surface of the one side raker member 110,
One side hinge portion commonly coupled to the one side coupling portion 811 and the one side upper coupling portion 812 so that the coupling angle of the one side coupling portion 811 and the one side upper coupling portion 812 can be changed. One side hinge coupling portion 810 having (813);
The other side coupling portion 821 coupled to the other side surface of the tensile reinforcing member 200;
The other upper surface coupling part 822 coupled to the upper surface of the other raker member 120;
The other side hinge portion commonly coupled to the other side coupling portion 821 and the other side top coupling portion 822 so that the coupling angle of the other side coupling portion 821 and the other side top coupling portion 822 can be changed. The other side hinge coupling portion 820 having (823);
An earth retaining structure having a Raker hinge coupling structure, characterized in that it comprises. According to claim 3,
The one side hinge part 813,
a rotating shaft 813a extending from the one-side coupling part 811 to one side;
In addition to being formed to rotate by being coupled to the rotation shaft 813a, a rotating portion 813b formed on the top of the one-side upper surface coupling portion 812;
An earth retaining structure having a Raker hinge coupling structure, characterized in that it comprises. According to claim 4,
The one side hinge part 813,
A rotation shaft support part 813c extending from the one side coupling part 811 to one side to support the end of the rotation shaft 813a;
Retaining structure having a raker hinge coupling structure, characterized in that it further comprises. According to claim 3,
The raker member 100 and the tensile reinforcing member 200 are H beams,
The raker member 100 is installed so that both flanges face the upper and lower sides, respectively,
The tensile reinforcing member 200 is a retaining structure having a raker hinge coupling structure, characterized in that both flanges are installed to face the one side raker member 110 and the other raker member 120, respectively. According to claim 2,
The hinge coupling part 800,
An inner surface coupling portion 831 coupled to an inner surface of the tensile reinforcing member 200;
One side upper surface coupling part 812 coupled to the upper surface of the one side raker member 110,
The other upper surface coupling part 822 coupled to the upper surface of the other raker member 120;
The inner surface coupling part 831, one side upper surface coupling part 812 and the other upper surface coupling part 831, one side upper surface coupling part 812 and the other side upper surface coupling part 831, one side upper surface coupling part 812 and the other side upper surface coupling part 822 can change their coupling angles. An inner hinge coupling portion 830 having an inner hinge portion 832 commonly coupled to the portion 822;
An earth retaining structure having a Raker hinge coupling structure, characterized in that it comprises. According to claim 7,
The inner hinge part 832,
rotation axis 832a;
Rotation shaft inserts formed on the inner surface of the inner surface coupling part 831, the upper surface of the one side upper surface coupling part 812, and the upper surface of the other upper surface coupling part 822 so that the rotation shaft 832a is inserted and rotated ( 832b);
An earth retaining structure having a Raker hinge coupling structure, characterized in that it comprises. According to claim 7,
The raker member 100 and the tensile reinforcing member 200 are H beams,
The raker member 100 is installed so that both flanges face the upper and lower sides, respectively,
The tensile reinforcing member 200 is a retaining structure having a raker hinge coupling structure, characterized in that both flanges are installed to face the inside and outside, respectively. According to claim 2,
The raker member 100 and the tensile reinforcing member 200 are H beams,
The raker member 100 is installed so that both flanges face the upper and lower sides, respectively,
The tensile reinforcing member 200 is installed so that both flanges face inward and outward, respectively,
The hinge coupling part 800,
One side area coupling part 841 coupled to the area between one side of both flanges of the tensile reinforcing member 200,
One side upper surface coupling part 812 coupled to the upper surface of the one side raker member 110,
One side hinge driving unit commonly coupled to the one side area coupling part 841 and one side upper surface coupling part 812 so that the coupling angle between the one side area coupling part 841 and the one side upper surface coupling part 812 can be changed. One side region hinge coupling portion 840 having 842;
The other side area coupling part 851 coupled to the other side area between the flanges of both sides of the tensile reinforcing member 200,
The other upper surface coupling part 822 coupled to the upper surface of the other raker member 120;
The other side hinge drive unit commonly coupled to the other side area coupling portion 851 and the other upper surface coupling portion 822 so that the coupling angle between the other side area coupling portion 851 and the other upper surface coupling portion 822 can be changed. The other side region hinge coupling portion 850 having (852);
An earth retaining structure having a Raker hinge coupling structure, characterized in that it comprises. According to claim 10,
The one side interregion coupling part 841,
A pair of extensions (841a) each coupled to both flanges of the tensile reinforcing member (200);
A rotation shaft coupling portion 841b having both ends coupled to the ends of the pair of extension portions 841a;
The one-side hinge driving part 842,
a rotational shaft 842a coupled to the rotational shaft coupling part 841b to be rotatably driven;
In addition to being formed to rotate by being coupled to the rotation shaft 842a, a rotating portion 813b formed on the top of the one-side upper surface coupling portion 812;
Retaining structure having a raker hinge coupling structure, characterized in that it further comprises. According to claim 1,
An intermediate reinforcing member 300 installed along an inclined or horizontal direction so that one end is coupled to the central portion of the retaining wall 10 and the other end is coupled to the raker member 100 or the tensile reinforcing member 200;
Retaining structure having a raker hinge coupling structure, characterized in that it further comprises. As a construction method of the retaining structure of any one of claims 1 to 11,
Embedding the retaining wall 10 or the thumb pile along the edge of the excavation area 1;
Excavating a part of the excavation area 1 so that the installation position of the tensile reinforcing member 200 is secured, and burying the tensile reinforcing member 200;
Installing the raker member 100 while excavating a part of the excavation area 1 to form an inclined surface c so as to secure an installation position of the raker member 100;
coupling the tensile reinforcing member 200 and the raker member 100 by installing the hinge coupling part 800 by a downward coupling operation on the inclined surface (c);
excavating the remainder of the excavation area 1;
Construction method of a retaining structure, characterized in that it comprises. As a construction method of the retaining structure of claim 12,
Embedding the retaining wall 10 or the thumb pile along the edge of the excavation area 1;
Excavating a part of the excavation area 1 so that the installation position of the tensile reinforcing member 200 is secured, and burying the tensile reinforcing member 200;
Installing the raker member 100 while excavating a part of the excavation area 1 to form an inclined surface c so as to secure an installation position of the raker member 100;
coupling the tensile reinforcing member 200 and the raker member 100 by installing the hinge coupling part 800 by a downward coupling operation on the inclined surface (c);
In addition to excavating a part of the excavation area 1 so that the installation position of the intermediate reinforcing member 300 is secured, the intermediate reinforcing member 300 is installed, and the other end of the intermediate reinforcing member 300 is placed in the raker. Joining the member 100 or the tensile reinforcing member 200;
excavating the remainder of the excavation area 1;
Construction method of a retaining structure, characterized in that it comprises.

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