KR101472753B1 - The Reinforced Stiffness Self-supporting Temporary Structure And Method Of The Same - Google Patents

Abstract

The present invention reinforces the stiffness of the earth retaining member in the hypothetical construction for constructing the underground structure, thereby effectively preventing the deformation of the facility due to the earth pressure, reducing the construction cost and facilitating the construction calculation for constructing the hypothetical construction. The earth retaining structure being provided so as to support a wall surface of the underground excavation hole so as to support an external pressure by earth pressure, the earth retaining structure being vertically installed in the ground so as to support a wall surface of the excavation hole; A first wire member fixed on one side of the lower portion of the earth retaining member and extending on the opposite side to the ground; A reaction force supporting means fixed on the earth retaining member and supporting the first wire member and supported at a predetermined distance from the earth retaining member to generate a reaction force against the stress applied to the earth retaining member; The first wire member fixedly installed on the upper portion of the earth retaining member and extending in the vertical direction through the reaction force supporting means is tightened to tighten the rigidity to prevent deformation of the earth retaining member due to the earth pressure And a first tightening means for reinforcing the rigid structure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a self-supporting stiffness-reinforced stiffness structure,

More particularly, the present invention relates to a self-supporting torsional rigid structure with reinforced stiffness, and more particularly, to a torsional rigid structure for constructing an underground structure, The present invention relates to a stiffness-reinforced self-supporting type stiffening structure and a method of manufacturing the stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened stiffened structure.

In recent years, due to the lack of topographically lacking land area, the cost of land has been a major factor in the construction of the building. This is because the modern building structure builds a high building on the ground to ensure the maximum space within a certain area. Of course, in order to utilize the underground space, the underground is deeply excavated and the building is constructed. When the underground structure is constructed, the construction is carried out based on the underground construction.

Generally, the hypothetical field excavates the ground toward the underground, and reinforces the excavated wall to form the earth wall along the excavation area to support the external pressure such as earth pressure.

Conventionally, there is a strut support method using a brace which is most widely used, and an earth anchor method for constructing a toe wall without a brace.

The above-mentioned strut support method is to install a strut (for example, a sheet file, an H-file, etc.) which is a base column at a predetermined interval and to install a stratum in a space between the strut, In this case, it is necessary to install the bracing so as to maintain the calculated maximum value after repetitively calculating the earth pressure and the load acting on the bracing stage.

As a conventional technique disclosed in relation to the above-described strut support method, a Korean Patent Registration No. 646178 (2006.11.08.) Discloses a wall structure along a retaining wall or an excavation wall, and a wale band is installed on the wall A wall composition process; A piston which is formed in the wale band and has a flange at both ends thereof and has a sphere at one end thereof; a cylinder which accommodates the piston; and a cylinder which is connected to the flange of the one end and which is formed so as to correspond to the shape of the one end of the piston, And a hinge portion connected to the other end of the cylinder and a hinge portion connected to the flange of the other end portion and adapted to be connected to each other by a hydraulic jack, A steel pipe braiding reinstalling step of re-installing the steel pipe brazing re-installation step and a central steel pipe braiding re-installation step of connecting the opposed walls; And a post file installation step of vertically placing a post file at a predetermined interval on the side of the steel pipe to connect the steel pipes to each other, thereby supporting the wall securely.

However, in the above-mentioned conventional art, if the spacing is very tightly arranged within 2 ~ 3m of the wall body and a large excavation area is used, a large amount of braces are used, so that the construction cost is high and the working range in the excavation area The movement of the excavation equipment as well as the transportation of the excavated soil and materials interferes with various transportation operations to interfere with the smooth operation. This causes problems in the work of reinforcing bars or formwork of the structure, .

Meanwhile, the above-mentioned ground anchor method supports a steel material file (hereinafter referred to as a earth retaining member) by using an earth anchor instead of a bracket by a method of securing a work space of a stipulated construction from the problem of the bracket supporting method as described above. That is, a hole inclined toward the back ground of the earth retaining member is punctured and a wire or a steel bar is inserted and then fixed to the end of the steel bar by a mechanical method such as mechanical method or epoxy or cement grouting, The construction is made by fixing the earth retaining member.

However, in the case of the above-mentioned conventional anchor construction method, when the construction is performed in the downtown area, there are many limitations on the condition of the construction site, and there is a high possibility of complaints due to the infiltration of neighboring private land nearby. .

In order to solve the above problems, the PC strand and the short pedestal were used to construct a moment similar to that of the PC, and the tensile force of the PC strand with the prestress was applied to the load Method) has been proposed and is in use.

However, in the above-mentioned conventional construction method, it is difficult to calculate the structure of the accurate load value applied by the earth pressure due to the lack of workability due to interference between the pseudo-structure and the tie- There is a fear that the structure may be deformed due to the earth pressure, and when the displacement phenomenon occurs unexpectedly from the earth pressure, it is difficult to respond promptly and safety is poor during construction.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a means for connecting and fixing vertically and vertically the earth retaining members to improve the rigidity of the earth retaining members, And the upper and lower fixing points of the temporary restraining member are clearly defined, so that the structural calculation of the hypothetical structure by the earth pressure is easy, and the stiffness-reinforced self- It provides the method, and has its purpose.

Another object of the present invention is to provide a means for pulling the upper portion of the earth retaining member horizontally toward the opposite direction of the force acting by the earth pressure to effectively prevent the earth retaining member from being conducted, And to provide a method of constructing the structure.

Further, another object of the present invention is to provide a method and apparatus for constructing a concrete structure, which can provide a smooth and simple construction structure, facilitating excavation and material transportation work, Which is reinforced with rigidity, and a method of manufacturing the same.

The present invention provides a self-standing, self-supporting structure with reinforced rigidity, which is installed to support a wall surface of an underground drilling hole to support an external pressure due to earth pressure, An earth retaining member to be installed; A first wire member fixed on one side of the lower portion of the earth retaining member and extending on the opposite side to the ground; A reaction force supporting means fixed on the earth retaining member and supporting the first wire member and supported at a predetermined distance from the earth retaining member to generate a reaction force against the stress applied to the earth retaining member; The first wire member fixedly installed on the upper portion of the earth retaining member and extending in the vertical direction through the reaction force supporting means is tightened to tighten the rigidity to prevent deformation of the earth retaining member due to the earth pressure And a first tightening means.

Further, it is possible to further comprise an auxiliary tightening means provided on the first wire member and pulling the first wire member in a tensioned state to reinforce the rigidity of the earth retaining member.

The reaction force supporting means may be constituted by a plurality of upper and lower spacers disposed on the earth retaining member so as to support the first wire members by intervals.

The reaction force supporting means may have any one of a triangular shape, a circular shape, and a band shape.

Further, the reaction force supporting means may be provided with a distance adjusting means formed to adjust the distance from the earth retaining member to the supporting point of the first wire member.

The first tightening means is configured as a wedge type to receive and fix the first wire member inside and to tighten the first wire member by a turning operation in accordance with the screwing.

In addition, the first tightening means may be configured to be screw-jack-shaped so that the first wire member is received and fixed inside and the first wire member can be tightened according to a handle operation.

In addition, the first tightening means can be constituted as a winch type so that a plurality of the first wire members supporting the earth retaining member can be uniformly wound and fixed.

Further, the present invention may further comprise an upper strut fixedly installed to contact the inner surface of the upper portion of the earth retaining member and supporting the earth retaining member to suppress deformation of the earth retaining member due to the earth pressure.

In addition, the present invention may further comprise an upper fixing part connected to the upper portion of the earth retaining member so as to fix the upper portion of the earth retaining member to prevent the conduction of the earth retaining member due to the earth pressure.

The upper fixing part includes a second wire member fixed on one side of the upper portion of the earth retaining member and extending in the horizontal direction on the opposite side and a second wire member connected to one end of the second wire member, And the second tightening means.

Wherein the second wire member includes a fixing member provided on the opposite side of the first tightening means with respect to the earth retaining member to fix the upper side of the earth retaining member and the second wire member is fixed do.

In addition, the second wire member may be configured such that the second wire member surrounds and surrounds the wale of the first tightening means provided on the earth retaining member to fix the upper side of the earth retaining member.

And fixing means fixed to the ground and formed so that the second wire member can be connected in a tense state through the second tightening means.

The fastening means is provided at a distance from the upper circumference of the excavation hole, and a fastening portion is formed to fix the wire member.

The second wire member may be wrapped from the lower portion to the upper portion so as to be connected to the second wire member through the second tightening means. It is also possible to constitute a horizontal brace supporting the brace.

The horizontal brace may further include a grid brace formed in a grid shape on the upper portion across the excavation hole and having a guide member collecting a plurality of the second wire members as one group.

According to the present invention, there is provided a self-sustaining self-standing type reinforced stiffening method for reinforcing a wall surface of an underground drilling hole to support an external pressure by a earth pressure, ; Installing the earth retaining member in the ground so as to form a wall along the circumference of the excavation area; Excavating the ground surface along the excavation area to form an excavation hole in the ground; And fixing the earth retaining member to prevent the deformation of the earth retaining member due to the earth pressure by sufficiently pulling the first wire member to a tense state by using the first tightening means on the ground.

A step of firstly drilling the excavation hole at a predetermined depth in the step of forming the excavation hole, a step of installing a reaction force supporting means on one surface of the earth retaining member, .

Further, it is possible to further include a step of installing an upper strut on the inner surface of the upper portion of the earth retaining member when the excavation hole is formed.

Further, the present invention may further comprise the step of installing an upper fixing part on the upper portion of the earth retaining member installed in the ground.

Wherein the step of installing the upper fixing part is provided with fixing means on the ground at a distance from the upper circumference of the excavation hole, one of the second wire members is fixed to the upper side of the earth retaining member, The second tightening means is fixed to the fixing means so as to prevent the conduction phenomenon of the earth retaining member after the second wire member is pulled sufficiently to form a tense state.

According to the present invention, it is possible to suppress the change of the outer shape due to the external pressure and to continuously maintain the upper and lower ends of the earth retaining member, It is possible to increase the safety of the worker in the progressing construction process and to obtain the excellent construction quality of the building.

In addition, since the vertical fixed point of the vertically extending wire member is clear and the structure of the load value capable of supporting from the earth pressure can be easily calculated, the displacement phenomenon of the facility due to the earth pressure can be obtained. It is possible to prevent the unstable and maximize the structural safety of the trickery.

In addition, since the self-supporting torsional rigid structure and its construction according to the present invention are configured to fix the upper portion of the earth retaining member by pulling it horizontally, it is possible to prevent the conduction phenomenon of the earth retaining member by the earth pressure and to maximize the safety of the construction and the construction quality There is an effect.

In addition, the self-supporting torsional rigid structure and its method according to the present invention can prevent the wire member from sliding on the upper portion of the earth retaining member by fixing the wire members in the vertical direction and the horizontal direction of the earth retaining member It is effective.

In addition, according to the present invention, it is possible to increase the effectiveness of the construction without affecting the local conditions because the construction of the self-supporting type reinforced stiffened structure and the construction method according to the present invention is performed by excavation only in the area to be constructed, .

In addition, since the self-sustaining structure and the construction method according to the present invention have a simple and robust construction structure, it is possible to provide an economical construction by drastically reducing the construction cost, and to provide various types of equipment such as excavation equipment, This facilitates smooth construction work, which not only improves the efficiency of work through freely transporting work, but also greatly shortens the air and provides ease of installation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing an embodiment of a self-supporting type hypothetical structure according to the present invention. FIG.
FIG. 2 is a sectional view showing a structure in which auxiliary thrust means is constituted in an embodiment of the self-supporting type hypothetical structure according to the present invention; FIG.
3 is a cross-sectional view showing a plurality of reaction force supporting means in one embodiment of the self-supporting type hypothetical structure according to the present invention.
4 (a), 4 (b) and 4 (c) are partial enlarged views showing reaction force supporting means in one embodiment of the autonomous hypothetical structure according to the present invention, respectively.
FIG. 5 is a partially enlarged view showing a reaction force support provided with distance adjusting means in an embodiment of the self-supporting type hypothetical structure according to the present invention; FIG.
6 is a partially enlarged view showing a first embodiment of a first tightening means in an embodiment of the self-supporting type hypothetical structure according to the present invention.
7 is a partially enlarged view showing a second embodiment of the first tightening means in the embodiment of the self-supporting type hypothetical structure according to the present invention.
8 is a plan view showing a third embodiment of the first fastening means in an embodiment of the self-supporting type hypothetical structure according to the present invention.
9 is a cross-sectional view showing another embodiment of the self-supporting type hypothetical structure according to the present invention.
10 is a cross-sectional view showing a first embodiment in still another embodiment of the self-supporting type hypothetical structure according to the present invention.
11 is a cross-sectional view showing a second embodiment of another embodiment of the self-supporting type hypothetical structure according to the present invention.
Figs. 12 (a) and 12 (b) are partially enlarged views showing a first embodiment of a fixing means in still another embodiment of the self-supporting type hypothetical structure according to the present invention; Fig.
13 is a partially enlarged view showing a second embodiment of the fixing means in the self-supporting type hypothetical structure according to the present invention.
Figs. 14 (a) and 14 (b) are plan views showing a second embodiment of the fixing means in the self-supporting hypothetical structure according to the present invention, respectively.
15 is a block diagram showing an embodiment of a self-sustaining type hypothetical construction method according to the present invention.
16 is a block diagram showing another embodiment of the self-sustaining false construction method according to the present invention.
17 is a block diagram showing still another embodiment of the self-sustaining false construction method according to the present invention.
FIG. 18 is a process chart showing a process of installing a reaction force support in another embodiment of the self-supporting type temporary construction method according to the present invention; FIG.

The present invention relates to a hull structure for reinforcing a wall surface of an underground drilling hole to support an external pressure due to a earth pressure, the hull structure comprising: a earth retaining member vertically installed in the ground so as to support a wall surface of the drilling hole; A first wire member fixed on one side of the lower portion of the earth retaining member and extending on the opposite side to the ground; A reaction force supporting means fixed on the earth retaining member and supporting the first wire member and supported at a predetermined distance from the earth retaining member to generate a reaction force against the stress applied to the earth retaining member; The first wire member fixedly installed on the upper portion of the earth retaining member and extending in the vertical direction through the reaction force supporting means is tightened to tighten the rigidity to prevent deformation of the earth retaining member due to the earth pressure And a first tightening means, wherein the stiffness-reinforced self-supporting type hypothetical structure is a feature of the technical construction.

Further comprising an auxiliary tightening means provided on the first wire member and pulling the first wire member in a tensioned state to reinforce the rigidity of the earth retaining member, characterized in that the stiffness-reinforced self- do.

Also, the reaction force supporting means is provided with a plurality of vertically spaced spacers on the earth retaining members so as to support the first wire members by intervals.

Further, the reaction force supporting means is characterized by being a triangular, circular, or band-like shape and having a stiffness reinforced structure.

The resilient force supporting means includes distance adjusting means for adjusting the distance from the earth retaining member to the support point of the first wire member.

The first tightening means may include a wedge-shaped stiffened self-supporting structure for receiving and fixing the first wire member inside the first wire member and rotating the first wire member by screwing. It is a feature of technology construction.

The first fastening means may be a screw jack type so that the first wire member can be received and fixed inside and the first wire member can be tensed according to a handle operation. .

Further, the first tightening means is a winch type structure capable of uniformly winding and fixing a plurality of first wire members supporting the earth retaining member, wherein the first tightening means is reinforced with rigidity.

The present invention also features a stiffness-reinforced self-supporting type stiffening structure further comprising an upper strut fixedly installed to be in contact with the inner surface of the upper portion of the earth retaining member to support deformation of the earth retaining member due to earth pressure .

Further, according to the present invention, there is provided a stiffness-reinforced self-sustaining type stiffening structure further including an upper fixing part which is fixedly connected to the upper portion of the earth retaining member and acts to pull outwardly to prevent a conduction phenomenon of the retention member by earth pressure It is characterized by the constitution.

The upper fixing portion may include a second wire member fixed on one side of the upper portion of the earth retaining member and extending in the horizontal direction on the opposite side and a second wire member connected to one end of the second wire member, And a second tightening means for fixing the stiffness of the stiffened stiffening structure.

The second wire member may include a fixing member provided on the opposite side of the first tightening means with respect to the earth retaining member to fix the upper side of the earth retaining member so that the second wire member is fixed on the fixing member And the stiffness of the self-supporting structure is reinforced.

And the second wire member is configured to surround and fix the wale of the first tightening means provided on the earth retaining member so that the second wire member is fixed on the upper side of the earth retaining member. .

And a fixing means fixed to the ground and formed so that the second wire member can be connected in a tense state through the second tightening means.

Further, the fastening means is provided at a distance from the upper circumference of the excavation hole, and the fastening portion is formed to fix the wire member.

The second wire member may be wrapped from the lower portion to the upper portion so as to be connected to the second wire member through the second tightening means. And a horizontal stiffener for supporting the stiffening member.

The horizontal brace may further include a grid brace formed in a grid shape on the upper portion of the excavation hole and having a guide member collecting a plurality of the second wire members as one group, The structure of the exponential structure is a feature of the technical structure.

In addition, the present invention provides a method of reinforcing a wall surface of an underground excavation hole to support an external pressure by earth pressure, comprising the steps of: preparing a earth retaining member having one side of a first wire member fixed to a lower portion thereof; Installing the earth retaining member in the ground so as to form a wall along the circumference of the excavation area; Excavating the ground surface along the excavation area to form an excavation hole in the ground; And securing the earth retaining member to prevent deformation of the earth retaining member due to the earth pressure by sufficiently pulling the first wire member to the tension state using the first tightening means on the ground, As a feature of the technical configuration.

A step of firstly drilling the excavation hole at a predetermined depth in the step of forming the excavation hole, a step of installing a reaction force supporting means on one surface of the earth retaining member, And an excavating step of excavating the excavated concrete structure.

Further, the present invention is characterized by further comprising the step of installing an upper strut on the inner surface of the upper portion of the earth retaining member at the time of forming the excavation hole.

Further, the present invention is characterized in that the method further comprises the step of installing an upper fixing part on the upper portion of the earth retaining member installed in the ground.

In the step of installing the upper fixing part, fixing means is provided on the ground at a distance from the upper side of the excavation hole, one of the second wire members is fixed to the upper side of the earth retaining member, And the second tightening means is fixed to the fixing means so as to prevent a conduction phenomenon of the earth retaining member after the second wire member is pulled sufficiently to form a taut state. .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of a self-supporting type stiffening structure with stiffness according to the present invention will be described in detail with reference to the drawings.

However, the embodiments of the present invention can be modified into various forms, and the scope of the present invention is not construed as being limited to the embodiments described below. The embodiments of the present invention are provided so that those skilled in the art can understand the present invention and the shapes and the like of the elements shown in the drawings are exemplarily shown to emphasize a clearer description. In the drawings, the same components are denoted by the same reference numerals, and repeated description thereof is omitted.

First, as shown in FIG. 1, an embodiment of the self-supporting type stiffening structure reinforced with stiffness according to the present invention is a stiffening structure provided to support a wall surface of an underground drilling hole 5 to support an external pressure by a earth pressure A first wire member 20, a reaction force supporting means 40, and a first tightening means 30. The first wire member 20,

As shown in Fig. 1, the earth retaining member 10 is the most basic structure of the present invention, and is structured so as to be vertically installed in the ground and to be held in contact with the wall surface of the excavation hole 5. [

The earth retaining member 10 is formed in a rod shape and serves as a supporting post. The earth retaining member 10 is formed to be longer than the depth of the excavation hole 5 and is embedded deeply into the ground.

The earth retaining member 10 is made of a material having a predetermined strength such as a sheet pile, H-pile, CIP, MIP, etc. to support the wall surface of the excavation hole 5. [ ).

A plurality of the earth retaining members 10 are embedded in the excavation hole 5 at predetermined intervals along the wall surface of the excavation hole 5 and are provided in the excavation hole 5 in plural.

It is a matter of course that a plurality of earth plates (not shown) are provided between the earth retaining members 10 so as to be fitted and fixed so as to form a dead earth wall.

And a coupling flange 11 having a structure capable of coupling one side of the first wire member 20 to the bottom of the earth retaining member 10 is preferable.

One end of the first wire member 20 is fixed to the lower portion of the earth retaining member 10 and the other end of the first wire member 20 is extended toward the ground to be fixed.

The first wire member 20 fixes the earth retaining member 10 and fixes the earth retaining member 10 so that a force pulling outward against an external pressure by earth pressure acting inward toward the excavation hole 5 acts, 10).

The first wire member 20 is preferably made of a steel having excellent corrosion resistance, heat resistance and flexibility.

The first wire member 20 is formed to have a sufficient length toward the ground in a state where one side is fixed to the coupling flange 11. That is, the first wire member 20 has a length longer than the upper end of the earth retaining member 10 and is formed so as to be easily fixed on the ground.

It is preferable that the first wire member 20 is formed by covering the outer surface of the first wire member 20 so as to protect it from harmful factors such as corrosion by various peripheral compositions (for example, concrete, soil, ground water, etc.).

The first wire member 20 can be formed by applying wire ropes of various structures and materials such as wire ropes and wire ropes used for civil engineering and building materials, and thus a detailed description thereof will be omitted.

The first wire member 20 may be provided on a plurality of the earth retaining members 10 so as to be more firmly supported.

As shown in FIG. 2, the first wire member 20 may further include an auxiliary tightening means 80 for reinforcing the rigidity of the earth retaining member 10.

The auxiliary tightening means 80 is installed on the first wire member 20 and performs a function of pulling the first wire member 20 in a tense state.

The auxiliary tightening means 80 is generally implemented by applying a turnbuckle or the like used when pulling or slowing the rope or the like.

The reaction force supporting means 40 is fixed on the earth retaining member 10 and supports the first wire member 20 and supports the earth retaining member 10 at a predetermined distance from the earth retaining member 10, So as to generate a reaction force against an applied stress.

The reaction force supporting means 40 has a structure that protrudes from one surface of the earth retaining member 10 toward the excavation hole 5 and guides the first wire member 20 toward the ground, .

The reaction force supporting means (40) is fixedly installed in the middle of the vertical line from the earth retaining member (10). That is, the reaction force supporting means 40 is basically constructed by installing one reaction force holding member 40 in the middle of the earth retaining member 10.

The reaction force supporting means 40 may be constituted by a plurality of upper and lower spacers on the earth retaining member 10 so as to support the first wire members 20 by intervals.

The reaction force supporting means 40 installed on the upper and lower sides of the earth retaining member 10 among the reaction force supporting means 40 are smaller than the reaction force supporting means 40 located in the middle of the earth retaining member 10, Size.

The reaction force supporting means 40 can be formed in any one of a triangular shape, a circular shape, and a band shape.

As shown in Fig. 4 (a), the reaction force supporting means 40 can be configured as a triangle-shaped triangle in which a plurality of frames extend from the earth retaining member 10 to one side and contact with each other.

The reaction force supporting means 40 has a structure in which a plurality of frames are connected to each other, and one ends of the reaction force supporting means 40 extending from the earth retaining member 10 are connected to each other by being in contact with each other.

The reaction force supporting means 40 is provided with a semicircular guide member 61 having a gently curved surface so that the first wire member 20 can be held in contact with the reaction force supporting means 40.

It is preferable that the guide member 61 is formed in a shape in which a gentle curved groove is formed so that the first wire member 20 can be easily accommodated.

The reaction force supporting means 40 may have a circular cross-sectional shape as shown in Fig. 4 (b).

The reaction force supporting means 40 is a circular steel member joined by a method such as welding or the like, and is installed to be long in the transverse direction so as to connect a plurality of the earth retaining members 10.

The reaction force supporting means 40 can be configured to provide a stable mounting relationship by providing a plate that can be supported up and down.

4 (c), the reaction force supporting means 40 may be formed in a band shape.

The reaction force supporting means 40 is provided with a wale band connecting the plurality of the earth retaining members 10 in the transverse direction and a gently curved guide member (not shown) for supporting the first wire member 20 61 are formed.

It is preferable that the reaction force supporting means 40 is structured so as to be stably supported by providing a plate at both the upper and lower portions of the belt-like shape.

When the reaction force supporting means 40 is formed in a circular shape and a band shape, since the structure is primarily connected between the plurality of the earth retaining members 10, the structure becomes more rigid and the reaction force supporting means 40 To support the force applied to the earth retaining member 10, whereby it is possible to suppress deformation of the reinforcing member more strongly.

5, the first wire member 20 is supported at a predetermined distance from the earth retaining member 10, and the first wire member 20 is supported by the reaction force supporting means 40, It is also possible to provide the distance adjusting means 45 so that the distance to the point can be adjusted.

The distance adjusting means 45 is configured such that one side of the reaction force supporting means 40 which is in contact with the first wire member 20 can be extended or narrowed in length so that the tension of the first wire member 20 It is possible to adjust.

The distance adjusting means 45 is generally implemented by applying a construction such as a screw jack or a hydraulic jack which is used to move a structure in forward and backward directions in a construction machine or a civil engineering machine A detailed description thereof will be omitted.

Although the distance adjusting means 45 is applied to only the band shape of the reaction force supporting means 40 in the drawing, it is obvious that the distance adjusting means 45 may be applied to the triangle and circular shape of the reaction force supporting means 40, respectively.

1 to 3, the first tightening means 30 is fixed to the upper portion of the earth retaining member 10 and is supported by the reaction force supporting means 40 at the lower end of the earth retaining member 10 The first wire member 20 extending in the vertical direction is fixed in a tensioned state.

The first tightening means 30 is fixedly installed on a wale band provided with a wale (for example, H beam or the like) on the upper portion of the earth retaining member 10. [

The first tightening means 30 reinforces the rigidity so as to prevent the deformation of the earth retaining member 10 due to the earth pressure by sufficiently pulling the first wire member 20 and tightly fixing the first wire member 20.

The first tightening means 30 pulls the first wire member 20 at a point where the first wire member 20 extends in the vertical direction to fix the wire member 20 in a tense state, As shown in FIG. That is, the first tightening means 30 is provided at a lower portion of the earth retaining member 10 when the first wire member 20 connected to the coupling flange 11 is extended in the vertical direction, The first wire member 20 is pulled up to a maximum tension and fixed.

As shown in FIG. 6, the first embodiment of the first tightening means 30 is configured to receive and fix the first wire member 20 inward, and to rotate the first wire member 20 It is possible to constitute a screw type wedge type which can be used for tensioning.

The first tightening means 30 is composed of a fixing block 31 and a wedge screw 33 so that the first wire member 20 can be tensed or relaxed according to the rotation direction.

For example, the wedge screw 33 is held on the fixing block 31, which is fixed on the upper side of the earth retaining member 10, and the wedge screw 33 is provided with the first wire member 20 are fixed and the wedge screw 33 is moved with respect to the fixed block 31 to fix the first wire member 20 in a tense state.

7, the first wire member 20 is received and fixed inside the first wire member 20, and the first wire member 20 (see FIG. It is also possible to constitute a screw jack type which can be used for tensioning.

In the second embodiment described above, the first wire member 20 is tilted or relaxed along the rotating direction of the handle 35 among the first tightening means 30 as in the first embodiment described above. .

As shown in FIG. 8, the third embodiment of the first tightening means 30 includes a winch-type structure in which a plurality of the first wire members 20 supporting the earth retaining member 10 are uniformly wound and fixed, As shown in FIG.

The first tightening means 30 includes a rotary drum 37 for winding the first wire member 20 and a driving motor 39 for transmitting a driving force to the rotary drum 37 .

The driving motor 39 is driven in a state in which the first wire member 20 is partially wound around the rotary drum 37 of the first tightening means 30 so that the first wire member 20 And is fixed in a tension state while being wound on the rotary drum (37).

The first tightening means 30 preferably includes a reduction gear 38 capable of setting a constant gear ratio between the rotary drum 37 and the drive motor 39.

Although not shown in the drawing, the first tightening means 30 may be implemented by selectively applying structures and configurations such as a turnbuckle or a jack (jockey) used as a connecting part when pulling or slowing a rope or the like It is possible.

When the first tightening means 30 is constructed as described above, the first wire member 20 is fixed in a tense state to reinforce the rigidity to prevent deformation of the earth retaining member 10 due to the earth pressure, and the earth retaining member 10 Of the first wire member 20 extending in a direction perpendicular to the lowest fixing point of the first wire member 20 connected to the coupling flange 11 of the first wire member 20 is clear, Calculation is easy.

As shown in FIG. 9, another embodiment of the self-supporting type stiffening structure according to the present invention is a stiffening type stiffening structure which is fixed to be in contact with the inner surface of the upper portion of the earth retaining member 10, Further comprising an upper strut (50) to support deformation.

The upper strut 50 further functions to reinforce the supporting force of the earth retaining member 10 from external earth pressure.

The upper struts (50) are positioned between the earth retaining members (10) positioned to correspond to each other and can be mutually supported.

In the other embodiments described above, the same configuration as that of the above-described embodiment can be employed, so that detailed description is omitted.

As shown in FIGS. 10 and 11, a still further embodiment of the self-supporting type reinforced stiffening structure according to the present invention has a structure in which an upper portion of the earth retaining member 10 is fixedly connected, And an upper fixing part (60) for preventing a conduction phenomenon of the earth retaining member (10).

The upper fixing part 60 includes a second wire member 61 fixed on the upper side of the earth retaining member 10 and extending in the horizontal direction on the opposite side and a second wire member 61 extending from the other end of the second wire member 61 And a second tightening means 63 connected to the second wire member 61 and fixing the second wire member 61 in a tensioned state.

The second wire member 61 is preferably made of a steel having excellent corrosion resistance, heat resistance, flexibility, and the like as in the case of the first wire member 20 so as to cover the outer periphery thereof so as to protect it from surrounding harmful elements Do.

The second tightening means 63 pulls the second wire member 61 extending in the horizontal direction from the earth retaining member 10 and fixes the second wire member 61 so as to form a tension state.

The second tightening means 63 has a structure in which the second wire member 61 is connected to one side and the other side is connectable to be fixed on a fixed object on the ground. .

The second tightening means 63 can be implemented by selectively applying structures and configurations such as a turnbuckle or a jack (jockey) used as a connecting part when pulling or slowing the support rope or the like .

10, the second fixing member 60 is fixed to the upper portion of the earth retaining member 10 by fixing the second wire member 61 to the fixing member 10, (65).

The fixing member 65 is installed on the opposite side of the first tightening means 30 with respect to the earth retaining member 10.

The fixing member 65 may be configured such that the second wire member 61 is fixed on the wale after the wale is provided on the earth retaining member 10, The second wire member 61 may be provided directly on the member 10 so that the second wire member 61 is fixed.

The second wire member 61 penetrates the earth retaining member 10 and fixes one end of the second wire member 61 on the fixing member 65.

11, a second embodiment of the upper fixing part 60 includes a first fixing part 60 fixed on the upper side of the earth retaining member 10 and a second wire member 61 fixed on the upper side of the earth retaining member 10, And the wristband of the first tightening means 30 is enclosed and fixed. That is, the second wire member 61 is provided with a wedge of the first tightening means 30 provided on the earth retaining member 10 so as to fix the upper side of the earth retaining member 10 And is wrapped and fixed.

Further, it is also possible to further include fixing means 70 for fixing the second tightening means 63 connected to one side of the second wire member 61 on the ground.

The fixing means 70 is fixed to the ground and the second wire member 61 can be connected in a tense state through the second tightening means 63.

As shown in Fig. 12, the first embodiment of the fixing means 70 is provided at a distance from the upper circumference of the excavation hole 5, and the second wire member 61 is fastened A portion 71 is formed. That is, the fastening portion 71 is provided in a ring shape so that the fastening portion 64 of the second fastening means 63 can be connected.

It is preferable that the fixing means 70 is embedded in the ground so as to form a strong supporting force on the earth retaining member 10. That is, it is preferable that the fixing means 70 is embedded at a sufficient depth in the ground to support and fix the load from the load applied to the earth retaining member 10 by using the second wire member 61.

12 (a), the fixing means 70 can be constructed by using force thumb piles having a predetermined length, and the fixing means 70 can be constituted by a predetermined It is also possible to apply a concrete block in the form of a block having an area.

The fastening means 70 may be formed so that the fastening portion 71 provided at the upper end thereof protrudes on the ground. It is also possible to form the structure in which the second tightening means 63 is fixed and buried in the ground.

The fixing means 70 is connected to the fastening portion 71 so as to smoothly carry out other transportation work on the ground so that the second fastening means 63 is connected to the fastening portion 71, It is preferable to fill it.

The fixing means 70 may be configured to be applied individually to the plurality of the earth retaining members 10 and the plurality of the retaining members 70 supporting the two or three of the earth retaining members 10 The second wire member 61 can be fixed.

13 and 14, the second embodiment of the fixing means 70 is provided on the open upper side of the excavation hole 5, and is supported on the supporting member 70 so that the second wire member 61 can be wrapped And a horizontal bracing member 75 for supporting the horizontal bracing member.

As shown in FIG. 13, the horizontal brace 75 supports the second wire member 61 so that it can be wrapped from the lower part to the upper part, and between the second wire members 61, And can be connected and fixed through the second tightening means 63. [

The horizontal strut 75 may be fixed to the ground, and after the construction of the area is completed, the horizontal strut 75 may be moved to another area and reused. That is, in the case of a hypothetical construction (for example, an underground driveway, etc.) in which the construction should proceed continuously, the horizontal bracing member 75 can be continuously moved along the construction direction, It is possible to do.

As shown in FIG. 14 (a), the horizontal braces 75 may be connected to each other by the second tightening means 63 for each of the second wire members 61 .

14 (b), a plurality of the second wire members 61 are connected to each other by the second wire member 61 as one group, It is also possible to further include a grid brace 77.

The lattice braces 77 are fixed to the horizontal braces 75 so as to be formed in a lattice shape on the upper portion across the excavation holes 5.

The grid brace 77 is provided with a guide member 78 for guiding the plurality of second wire members 61 so that the second wire members 61 can be smoothly gathered into one group.

The lattice braces 77 may be formed only in one direction at a predetermined interval according to the type of the installed construction, and may be formed so as to intersect with each other in two directions.

For example, in the case of constructing a horizontally parallel wall surface such as an underground driveway and the like, it is possible to construct a wall having only a pair of wall surfaces corresponding to each other, The lattice braces 77 are formed only in the horizontal direction and the lattice braces 77 are formed so as to have a structure in which the lattice braces 77 intersect with each other in the horizontal direction and the vertical direction when the wall surface having a slope such as a building or the like is installed.

In the other embodiment described above, the same configuration as that of the above-described one embodiment or other embodiments can be employed, so that detailed description is omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of the self-sustaining self-standing method with stiffness reinforcement according to the present invention will be described in detail with reference to the drawings.

First, as shown in FIG. 15, an embodiment of the self-sustaining type temporary reinforcement method according to the present invention is a temporary construction method in which a wall surface of an underground drilling hole 5 is reinforced to support an external pressure by a earth pressure, Step S10 of preparing the earth retaining member 10, step S20 of installing the earth retaining member 10, step S30 of forming the excavation hole 5, step of fixing the earth retaining member S40 ).

In step S10 of preparing the earth retaining member 10, a force such as a sheet file or an H file is cut to a length of a depth to which the earth retaining member 10 is to be embedded, and a plurality of the same are prepared.

The wire member 20 is fixedly installed on one side of the lower portion of the earth retaining member 10 so that the wire member 20 can be firmly engaged and connected.

In the step S20 of installing the earth retaining member 10, the earth retaining member 10 is installed toward an excavation region to which a temporary construction is to be applied.

In order to install the earth retaining member 10, the earth retaining member 10 is pushed or pulled out by using a mechanical device for putting the earth retaining member 10 toward the ground.

The earth retaining member 10 is continuously provided with a plurality of the earth retaining members 10 along the circumference of the excavation region.

When the earth retaining member 10 is installed, one of the first wire members 20 can be temporarily fixed on the ground.

In the step S30 of forming the excavation hole 5, the excavation hole 5 is formed by digging the ground surface along the excavation area partitioned by the earth retaining member 10 using an excavator or an auger .

When the excavation hole 5 is excavated, it is preferable that the inside wall surface is formed so as to have a constant vertical plane, and the bottom surface is formed to have a flat horizontal plane.

Preferably, the excavation hole 5 is excavated step by step with a predetermined depth, and the first wire member 20 is temporarily pulled by the first tightening means 30 at every step, and the excavation work is performed.

In the step S30 of forming the excavation hole 5, first excavation of the excavation hole 5 to a predetermined depth is performed, and a reaction force supporting means 40 is installed on one surface of the earth retaining member 10 (S35), and second drilling the drilling hole 5 to a designed depth.

The reaction force supporting means 40 is fixed to the earth retaining member 10 in the process of forming the excavation hole 5. That is, after the excavation hole 5 is firstly excavated to a predetermined depth, the reaction force supporting means 40 is installed and the excavation hole 5 is excavated again.

The reaction force supporting means 40 may be fixed to the earth retaining member 10 by a coupling means such as a bolt or the reaction force supporting means 40 may be joined by welding or the like.

When the plurality of reaction force supporting means 40 are provided, it is preferable that the excavation holes 5 are installed one by one while sequentially digging the excavation holes 5 at a predetermined depth. That is, the reaction force supporting means 40 repeatedly excavates the excavating hole 5 at a predetermined depth and then installs the reaction force supporting means 40, and the reaction force supporting means 40, the excavation hole 5, Are formed step by step.

In the step S40 of securing the earth retaining member 10, the first wire member 20 is sufficiently pulled on the ground by using the first tightening means 30 so as to form a tense state so that the earth retaining member 10, So as to prevent deformation of the earth retaining member (10).

16, an upper strut 50 is formed on the inner surface of the upper portion of the earth retaining member 10 when the excavation hole 5 is formed. In this embodiment, (Step S33).

The upper strut (50) is fixed to the upper inner surface of the earth retaining member (10) in the process of forming the excavation hole (5). That is, after the excavation hole 5 is firstly excavated to a predetermined depth, the upper strut 50 is installed and the excavation hole 5 is excavated again.

The upper strut 50 may be fixedly mounted on the earth retaining member 10 by using a coupling means such as a bolt or the upper strut 50 may be fixed by welding or the like.

17 and 18, the upper fixing part 60 is installed on the upper portion of the earth retaining member 10 installed in the ground, Step S50.

In the step S50 of installing the upper fixing part 60, fixing means 70 is provided on the ground at a distance from the upper circumference of the excavation hole 5, and on the upper side of the earth retaining member 10, It is possible to fix one side of the wire member 61 and pull the wire member 61 sufficiently to make the second wire member 61 tense using the second tightening means 63 so as to prevent the conduction phenomenon of the earth retaining member 10 And the second tightening means (63) is fixed to the fixing means (70).

The fixing means 70 can be installed in a structure having a sufficient depth in the ground.

One of the second wire members (61) is connected to the fixing means (70) by the second tightening means (63).

In order to fix the second wire member 61 to the earth retaining member 10, a fixing member 65 may be provided on the earth retaining member 10 to fix one side of the second wire member 61 Do.

The second wire member 61 may be fixed to the earth retaining member 10 so as to surround the first tightening means 30 fixed on the earth retaining member 10.

In addition, the fixing means 70 may be fixedly installed on the open upper side of the drilling hole 5 so that the second wire member 61 can be wrapped.

When the fixing means 70 is constituted as described above, the second wire members 61 contacting with each other in the direction corresponding to each other are connected through the second tightening means 63 to maintain the fixed state.

That is, according to the present invention, since the stiffening type self-supporting type stiffening structure according to the present invention and the method of the present invention constructed as described above are constructed so that the stiffening member, It is possible to improve the safety of the worker in the continuous construction process and to achieve the excellent construction quality of the building.

In addition, since the vertically extending fixing points of the vertically extending wire members are evident, it is possible to calculate the structure of the load value that can be supported from the earth pressure, so that the displacement of the facility due to the earth pressure can be prevented and the structural safety of the temporary structure can be maximized Do.

Further, since the present invention is configured to fix the upper portion of the earth retaining member by horizontally pulling it, it is possible to prevent the conduction phenomenon of the earth retaining member due to the earth pressure and to maximize the safety of the construction and the construction quality.

Further, according to the present invention, it is possible to prevent the wire member from sliding on the upper portion of the earth retaining member by fixing the wire members respectively in the vertical direction and the horizontal direction of the earth retaining member.

In addition, the present invention makes it possible to improve the effectiveness of the construction without affecting the local conditions, because it is constructed by excavation only in the area to be constructed, and does not invade neighboring private land nearby.

Further, since the present invention has a simple and robust construction structure, it provides a cost-effective construction by greatly reducing the construction cost and facilitates the construction work by facilitating the transportation of various excavation equipments and materials required for construction. It is possible not only to increase the efficiency of the work, but also to greatly shorten the air and provide convenience of construction.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And this is also within the scope of the present invention.

5: drilling hole 10: earth retaining member 11: engagement flange
20: first wire member 30: first fastening means 31: fastening block
33: wedge screw 35: handle 37: rotary drum
38: reduction gear 39: drive motor 40: reaction force supporting means
45: distance adjusting means 50: upper strut 60: upper fixing portion
61: second wire member 63: second tightening means 64:
65: fixing member 70: fixing means 71:
75: horizontal strut 77: lattice brace 78: guide member
80: Secondary tightening means

Claims (22)

In which a wall surface of an underground excavation hole is reinforced to support an external pressure by earth pressure,
An earth retaining member vertically installed in the ground so as to support a wall surface of the excavation hole;
A first wire member fixed to the lower portion of the earth retaining member and connected to an upper portion of the earth retaining member on the opposite side;
At least one reaction force supporting means fixedly installed on the earth retaining member and supporting the first wire member to generate a reaction force against stress applied to the earth retaining member;
The first wire member fixedly installed on the upper portion of the earth retaining member and extending in the vertical direction through the reaction force supporting means is tightened to tighten the rigidity to prevent deformation of the earth retaining member due to the earth pressure And a first tightening means,
The reaction force supporting means may have a sectional structure of any one of a triangular shape, a circular shape, and a band shape,
The first tightening means may include a wedge type for receiving and fixing the first wire member inside and fixing the first wire member by tilting the first wire member by a turning operation by screwing, Wherein the first wire member is selected from a screw jack type for tensing the first wire member or a winch type for tensioning the first wire member by winding the first wire member.
The method according to claim 1,
Further comprising an auxiliary tightening means provided on the first wire member and pulling the first wire member in a tension state to reinforce the rigidity of the earth retaining member.
delete delete The method according to claim 1,
Wherein the reaction force supporting means comprises a distance adjusting means formed to adjust the distance from the earth retaining member to the supporting point of the first wire member.
delete delete delete delete The method according to any one of claims 1, 2, and 5,
Further comprising an upper fixing part connected to the upper portion of the earth retaining member to fix the upper portion of the earth retaining member and to prevent the conduction of the earth retaining member due to the earth pressure by acting to pull outward.
The method of claim 10,
Wherein the upper fixing portion includes a second wire member fixed on one side of the upper face of the earth retaining member and extending in the horizontal direction on the opposite side and a second wire member connected to one end of the second wire member, And a fastening means for fastening the second wire member to the second wire member so that the second wire member can be connected in a strained state through the second fastening means. This reinforced self - sustaining hypothetical structure.
The method of claim 11,
Wherein the second wire member has a fixing member provided on the opposite side of the first tightening means with respect to the earth retaining member to fix the upper side of the earth retaining member and the second wire member is fixed on the fixing member A stiffness-reinforced self-supporting hypothetical structure.
The method of claim 11,
And the second wire member is configured to surround and fix the wale of the first tightening means provided on the earth retaining member so that the second wire member is fixed on the upper side of the earth retaining member. .
delete delete The method of claim 10,
Wherein the upper fixing portion is composed of a horizontal strut which is installed across the opened upper side of the excavation hole and can be wrapped by both side second wire members fixedly connected to the upper portion of the earth retaining member, Characterized in that the wire members are configured so as to face each other and to face the upper portion of the horizontal braces via the lower ends of the both ends of the horizontal braces and the both side second wire members are mutually connected through the second tightening means at the upper portion of the horizontal braces This reinforced self - sustaining hypothetical structure.
18. The method of claim 16,
Wherein the horizontal brace further comprises a lattice brace formed on the upper portion of the excavation hole in a lattice shape and having a guide member collecting a plurality of the second wire members into one group. Reinforced self - sustaining hypothetical structure.
delete delete delete delete delete

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