KR102670860B1 - Structure of Self-Stand Retaining Wall for Rigidity Reinforcement Type - Google Patents

Abstract

The present invention relates to a rigidly reinforced self-supporting earth retaining structure in which a reinforcing member is formed on a pile that prevents soil collapse, preventing deformation of the pile and simultaneously reinforcing its rigidity. Specifically, it relates to a rigid reinforcement type self-supporting earth retaining structure that can reinforce the pile inserted into the ground. In the rigidly reinforced self-supporting earth retaining structure that prevents the collapse of the soil, it is installed at equal intervals on one side of the earth plate and the earth plate that prevents the collapse of the soil, and is connected to a pile member whose end is inserted into the ground and a pile member, It is provided with a reinforcing member to prevent deformation due to pressure.

Description

Rigidity-reinforced self-supporting retaining wall structure {Structure of Self-Stand Retaining Wall for Rigidity Reinforcement Type}

The present invention relates to a rigidly reinforced self-supporting earth retaining structure in which a reinforcing member is formed on a pile that prevents soil collapse, thereby preventing deformation of the pile and reinforcing its rigidity.

Patent Document 001 includes a panel body made of concrete on one side of which a nail hole for bonding a soil nail is formed; Fitting grooves and fitting protrusions provided at the upper and lower parts of the panel body, respectively, so that they are stacked in a mutually fitting manner; A reinforcement panel made of FRP material assembled on the front of the panel body; A technology including a reinforcing coating layer formed on the rear surface of the panel body is proposed.

Patent Document 002 consists of a wall section consisting of a plate-shaped bottom plate prefabricated as a precast type, a front wall, and a plurality of buttress walls integrally formed on the rear of the front wall, and the upper surface of the body of the bottom plate constituting the bottom plate has the front wall. A shear key groove in which the wall is seated is formed, and when assembling the retaining wall, the lower end of the front wall constituting the wall portion is inserted into and coupled to the shear key groove, and the ends of the main reinforcing bars provided inside the plurality of buttress walls are formed to protrude from the lower part of the buttress wall. Head anchors are provided integrally connected, and anchor holes are formed in the bottom plate body at positions corresponding to the head anchors and are tapered so that the cross-sectional area increases from the top to the bottom through the bottom body. In the assembly process at the construction site, the head anchor is assembled to be inserted into the anchor hole, and then the base plate portion and the wall portion are fastened to each other by filling the interior space of the anchor hole with mortar and hardening it.

Patent Document 003 includes a concrete panel provided to extend in the vertical direction in front of a slope, a rear end inserted into a drilling hole formed in the slope, a reinforcing material fixed to the concrete panel at the front end, and a lower part of the space between the slope and the concrete panel. It includes a concrete filler filled in and an earthen filler filled on an upper side of the concrete filler, wherein a through hole is formed in the concrete panel through which the reinforcing material penetrates, and a front end of the reinforcing material penetrates the through hole of the concrete panel. In the cut panel type retaining wall construction structure inserted and fixed to there is.

Patent Document 004 refers to an embankment formed by filling and compacting soil; A panel portion forming the front of a retaining wall by stacking a plurality of panels; A technology including a panel support that connects the fill portion and the panel portion to fix and support the panel portion is proposed.

KR 10-2428476 B1 (July 28, 2022) KR 10-2290220 B1 (August 10, 2021) KR 10-2137563 B1 (July 20, 2020) KR 10-2395328 B1 (May 2, 2022)

The present invention relates to a rigidly reinforced self-supporting earth retaining structure in which a reinforcing member is formed on a pile that prevents soil collapse, thereby preventing deformation of the pile and reinforcing its rigidity.

It is intended to solve the problems of prior inventions, and the present invention relates to a rigidly reinforced, self-supporting earth retaining structure that prevents collapse of the soil by reinforcing piles inserted into the ground (10). In the rigidly reinforced, self-supporting earth retaining structure, Earth plate (100) to prevent soil collapse; Pile members 200 are installed at equal intervals on one side of the earth plate 100 and have one end inserted into the ground 10; A reinforcing member 300 is coupled to the pile member 200 and prevents deformation due to pressure.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); A connecting member 110 formed on the front surface of the earth plate 100 and connecting a plurality of the pile members 200 is added to the invention consisting of the reinforcing member 300.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); The invention consists of a reinforcing member 300; an insertion portion 210 formed on the pile member 200 and inserted into the ground 10; A support portion 220 is exposed at the top of the insertion portion 210 and supports the earth plate 100.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); A fixing part 230 formed on the pile member 200 and formed in a hole drilled in the ground 10 and surrounding the insertion part 210 is added to the invention consisting of the reinforcing member 300.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); The invention consists of a reinforcing member 300; a first reinforcing part 310 formed on the reinforcing member 300 and installed in the insertion part 210; A second reinforcement part 320 is formed to be spaced apart from the first reinforcement part 310 and is installed on the support part 220.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); In the invention consisting of the reinforcing member 300, the first reinforcing part 310 is formed so that one end is inserted into the fixing part 230 and the other end is exposed to the outside.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); The invention consists of a reinforcing member 300; an extension plate 330 formed on the reinforcing member 300 and protruding outward from both sides of the pile member 200; A connecting plate 340 that connects the plurality of extension plates 330 and prevents deformation of the pile member 200 is added.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and includes the earth plate 100 presented above; Pile member (200); The invention consists of a reinforcing member 300; a filling member 350 formed on the reinforcing member 300 and filled inside the extension plate 330 and the connecting plate 340; A reinforcing member 360 is formed on the filling member 350 and reinforces strength.

In the present invention, reinforcing members are formed on the flanges of pile members facing each other to prevent sagging due to pressure of soil.

In the present invention, stiffness can be increased by forming reinforcing members at the bottom and top of the pile member, respectively.

The present invention allows the pile member to be reinforced more effectively by filling the inside of the reinforcing member with a filling member.

The present invention can prevent deformation of the pile member by seating a seating member on the top of the pile member and the earth plate.

The present invention allows a plurality of pile members to penetrate through holes formed in a seating member to prevent deformation of the pile members.

1 to 2 are exemplary diagrams of a rigidly reinforced self-supporting earth retaining structure of the present invention.
3 to 4 are cross-sectional views of the rigidly reinforced self-supporting earth retaining structure of the present invention.
Figure 5 is a perspective view of a rigidly reinforced self-supporting earth retaining structure of the present invention.
Figures 6 to 7 are exemplary views of a rigidly reinforced self-supporting earth retaining structure in which the seating member of the present invention is formed.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to enable those skilled in the art to easily practice the present invention.

Numbers cited in the examples below are not limited to the objects of citation and can be applied to all examples. An object that has the same purpose and effect as the configuration presented in the examples is an equivalent replacement object. The high-level concept presented in the examples includes low-level concept objects that are not described.

(Example 1-1) The present invention is a rigidly reinforced self-supporting earth retaining structure that prevents collapse of soil by reinforcing piles inserted into the ground (10). Earth plate (100) to prevent; Pile members 200 are installed at equal intervals on one side of the earth plate 100 and have one end inserted into the ground 10; It includes a reinforcing member 300 that is coupled to the pile member 200 and prevents deformation due to pressure.

(Example 1-2) In Example 1-1, the rigidly reinforced self-supporting earth retaining structure of the present invention includes, wherein the earth plate 100 is formed of one selected from metal, wood, synthetic resin, and concrete.

(Example 1-3) In Example 1-2, the rigidity-reinforced self-supporting earth retaining structure of the present invention is that the pile member 200 is formed of an H beam inserted by drilling the ground 10; Includes.

(Example 1-4) In Example 1-3, the rigidity-reinforced self-supporting earth retaining structure of the present invention is formed on the front surface of the earth plate 100 and includes a connecting member connecting the plurality of pile members 200. Includes (110);

(Example 1-5) In Example 1-4, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes, wherein the connecting member 110 is formed of L-beam steel.

The present invention relates to a rigidly reinforced self-supporting earth retaining structure. Specifically, the rigidly reinforced self-supporting earth retaining structure prevents soil collapse after excavation before constructing a building. Referring to FIG. 1, this rigidly reinforced self-supporting retaining structure prevents the inflow of soil water after excavation and at the same time prevents the retaining structure from being damaged by the pressure of the soil. At this time, the earth retaining structure is formed with an earth plate 100 to prevent soil collapse on the outside of the excavation, and the earth plate 100 is made of metal, wood, synthetic resin, concrete, etc. to prevent groundwater from flowing in along with the soil.

And pile members 200 are formed on one side of the earth plate 100 at equal intervals and are formed to be perpendicular to the earth plate 100. The pile member 200 is inserted by drilling the ground 10 and is formed as an H beam, and is formed to be inserted up to the lower end of the foundation where excavation is performed. In addition, connecting members 110 are formed on both sides of the plurality of pile members 200 to horizontally fix the trench, and the connecting members 110 are made of L-beam steel and are disposed at equal intervals on the earth plate 100.

In addition, reinforcing members 300 are coupled to the plurality of pile members 200 to prevent deformation due to pressure generated in the pile members 200, and it is preferable that the reinforcing members 300 are formed in plural.

Therefore, in the rigidly reinforced self-supporting retaining structure of the present invention, a reinforcing member 300 is formed in the pile member 200 that is inserted by boring into the ground 10 to prevent the pile member 200 from being deformed by the pressure of the soil. It has properties that prevent it.

(Example 2-1) The present invention relates to a rigidly reinforced self-supporting earth retaining structure. In Example 1-1, an insertion portion 210 formed on the pile member 200 and inserted into the ground 10 ); It includes a support part 220 that is exposed at the top of the insertion part 210 and supports the earth plate 100.

(Example 2-2) In Example 2-1, the rigidly reinforced self-supporting earth retaining structure of the present invention includes that the insertion portion 210 is inserted into the ground 10 on which excavation has been completed.

(Example 2-3) In Example 2-2, the rigidity-reinforced self-supporting retaining structure of the present invention is formed in the pile member 200 and is formed in a hole drilled in the ground 10 to be inserted. It includes a fixing part 230 surrounding the part 210.

(Example 2-4) In Example 2-1, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes, wherein the fixing portion 230 is formed of concrete.

The present invention relates to a pile member 200, and specifically, the pile member 200 is formed of an H beam and is inserted into the outside of the foundation for excavation to secure a plurality of earth plates 100. Referring to FIGS. 1 to 3, this pile member 200 is formed of an H beam formed of a plurality of flanges and a web connecting the plurality of flanges, and is inserted perpendicular to the ground 10. At this time, the pile member 200 may be formed in one row on the front of the earth plate 100 or between a plurality of earth plates 100, or may be formed in a plurality of rows to be spaced apart from the earth plate 100.

In addition, the pile member 200 is formed with an insertion part 210 that is inserted into the ground 10 on which the excavation has been completed, and a support part 220 is formed on the upper part of the insertion part 210 and exposed. In addition, the insertion part 210 is inserted at a predetermined depth to prevent deformation from occurring due to the pressure of the earth plate 100, and a fixing part 230 made of concrete is poured into the drilled hole where the insertion part 210 is inserted. do. Accordingly, the insertion part 210 prevents the pile member 200 from being inserted into the ground 10 by external pressure as the fixing part 230 is cured and prevents the verticality from changing.

In addition, the support part 220 exposed above the insertion part 210 and the fixing part 230 preferably has one end formed at the same position as the top of the earth plate 100 and the upper ground 10. In addition, the position of the support part 220 is adjusted by the plurality of connecting members 110, but the reinforcing member 300 is coupled to prevent deformation such as sagging and bending due to the pressure of the soil.

Therefore, the pile member 200 of the present invention has the characteristic of fixing the earth plate 100 by being inserted at equal intervals before excavation.

(Example 3-1) The present invention relates to a rigidly reinforced self-supporting earth retaining structure, and in Example 2-1, a first structure formed on the reinforcing member 300 and installed in the insertion portion 210 Reinforcement part 310; It includes a second reinforcement part 320, which is formed to be spaced apart from the first reinforcement part 310 and is installed on the support part 220.

(Example 3-2) In the rigidly reinforced self-supporting retaining structure of the present invention, in Example 3-1, the reinforcing member 300 is installed on the front and rear of the pile member 200, respectively. Includes.

(Example 3-3) In the rigidly reinforced self-supporting earth retaining structure of the present invention in Example 3-1, one end of the first reinforcing part 310 is inserted into the fixing part 230 and the other end is exposed to the outside. It includes; being formed to be exposed.

(Example 3-4) In Example 3-3, the rigidly reinforced self-supporting earth retaining structure of the present invention includes, wherein the second reinforcement part 320 is formed on the upper part of the support part 220. .

The present invention relates to a reinforcing member 300, and specifically, the reinforcing member 300 is coupled to the pile member 200 to prevent deformation of the pile member 200. Referring to FIG. 4, these reinforcing members 300 are installed in the insertion portion 210 and the support portion 220 of the pile member 200, respectively, to prevent the pile member 200 from sagging due to the pressure of the soil. At this time, the reinforcing member 300 includes a first reinforcing portion 310 installed in the insertion portion 210 and a second reinforcing portion 320 installed in the support portion 220. The first reinforcing portion 310 and The second reinforcement portion 320 is formed on the outside of the flanges formed on the front and rear surfaces of the pile member 200, respectively. And the first reinforcement part 310 and the second reinforcement part 320 are each formed at the same position on the flange facing each other, and one end of the first reinforcement part 310 is inserted into the fixing part 230 and the other end is external. to be exposed. Accordingly, one end of the first reinforcing part 310 is fixed as the fixing part 230 is cured. In addition, the reinforcing member 300 is joined to the flange of the pile member 200 by welding, but may be bolted using a separate fixing plate. And the second reinforcing part 320 is formed on the upper part of the support part 220, and the second reinforcing part 320 is formed between the front surface of the earth plate 100 and the plurality of earth plates 100, and is formed between the earth plate 100 and the earth plate 100 by the pressure of the soil. Prevents (100) from being pushed to the front.

Therefore, the reinforcing member 300 of the present invention is formed in the insertion portion 210 and the support portion 220 of the pile member 200, and has the feature of preventing deformation of the pile member 200 and increasing rigidity at the same time. have

(Example 4-1) The present invention relates to a rigidly reinforced self-supporting earth retaining structure. In Example 3-1, it is formed on the reinforcing member 300 and extends from both sides of the pile member 200 to the outside. A protruding extension plate 330; It includes a connection plate 340 that connects the plurality of extension plates 330 and prevents deformation of the pile member 200.

(Example 4-2) In Example 4-1, the rigidly reinforced self-supporting earth retaining structure of the present invention includes that the reinforcing member 300 is formed with a ‘ㄷ’-shaped cross section.

(Example 4-3) In Example 4-2, the rigidly reinforced self-supporting earth retaining structure of the present invention includes, wherein the reinforcing member 300 is formed by bending a metal plate.

(Example 4-4) In Example 4-2, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes that the extension plate 330 and the connection plate 340 are formed to have different thicknesses. do.

The present invention relates to a reinforcing member 300, and specifically, the reinforcing member 300 is installed on the front and rear of the pile member 200, respectively, to reinforce the deflection and rigidity due to the pressure acting on the pile member 200. will be. Referring to FIG. 5, this reinforcing member 300 has an extension plate 330 that protrudes outward from both sides of the flange formed on the front and rear sides of the pile member 200, and the extension plate 330 has a predetermined shape. The spacing member that protrudes in length and connects the earth plate 100 and the pile member 200 is prevented from protruding. In addition, the plurality of extension plates 330 are connected on the outside by a connection plate 340, and the cross section of the reinforcing member 300 formed by the extension plate 330 and the connection plate 340 is formed in a 'ㄷ' shape. do. In addition, the extension plate 330 and the connection plate 340 may be formed to have different thicknesses, and the thickness of the extension plate 330 is formed thicker than the connection plate 340 to more effectively prevent the deformation of the pile member 200. If the thickness of the extension plate 330 is formed to be thinner than the connection plate 340, bending or buckling of the pile member 200 can be prevented. Additionally, the extension plate 330 and the connection plate 340 may be formed by bending a single metal plate or a plurality of metal plates may be joined to each other by welding.

Therefore, the reinforcing member 300 of the present invention is formed in a 'ㄷ' shape on the outside of the flange of the pile member 200, and has the feature of preventing deformation of the pile member 200 and increasing rigidity at the same time.

(Example 5-1) The present invention relates to a rigidly reinforced self-supporting earth retaining structure. In Example 4-1, it is formed on the reinforcing member 300, and includes the extension plate 330 and the connection plate ( A filling member 350 filled within the 340); It includes a reinforcing member 360 formed on the filling member 350 and reinforcing its strength.

(Example 5-2) In Example 5-1, the rigidity-reinforced self-supporting earth retaining structure of the present invention is formed at the lower end of the connection plate 340 and the extension plate 330, and the pile member 200 ) includes a coupling plate 370 coupled to the.

(Example 5-3) In Example 5-2, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes, wherein the filling member 350 is formed of concrete.

(Example 5-4) In Example 5-3, the rigidly reinforced self-supporting earth retaining structure of the present invention is formed on the reinforcing member 360 and includes a guide positioned inside the filling member 350. Includes plate;

(Example 5-5) In Example 5-1, the rigidly reinforced self-supporting earth retaining structure of the present invention includes, wherein the reinforcing member 360 is formed of one selected from reinforcing bars and wires.

The present invention relates to a reinforcing member 300, and specifically, the reinforcing member 300 is filled in the interior of a plurality of extension plates 330 and a connection plate 340 connecting the plurality of extension plates 330 to form a reinforcing member. It is to increase the intensity of (300). Referring to FIG. 5, this reinforcing member 300 is a filling member 350 filled inside an extension plate 330 and a connecting plate 340 formed in a 'ㄷ' shape. The filling member 350 is made of concrete. is formed by The filling member 350 is preferably made of concrete, but may be made of various materials with high strength.

In addition, a coupling plate 370 is formed at the bottom of the plurality of extension plates 330 and the connecting plate 340 so that the filling member 350 can be accommodated inside the reinforcing member 300, and the coupling plate 370 is coupled to the pile member 200 and the filling member 350 is filled into the reinforcing member 300 and the pile member 200. At this time, a reinforcing member 360 made of reinforcing bars, wires, etc. is inserted vertically into the filling member 350, and the strength of the hardened filling member 350 is improved by the reinforcing member 360.

In addition, the reinforcing member 360 is formed with a guide member that guides the reinforcing member 300 and the pile member 200 so as not to contact them. The guide member is made of synthetic resin, metal, etc. to prevent deformation.

(Example 6-1) The present invention relates to a rigid reinforced self-supporting earth retaining structure, and in Example 5-1, a seating member formed on the top of the pile member 200 and seated on the ground 10 (400); It is formed in the seating member 400 and includes a through hole 430 through which each of the plurality of pile members 200 passes.

(Example 6-2) In Example 6-1, the rigidity-reinforced self-supporting retaining structure of the present invention includes a fixing plate 410 formed on the seating member 400 and on which the through hole 430 is formed. ; It includes a drainage plate 420 formed on one side of the fixing plate 410 and inserted into the ground 10 to discharge rainwater.

(Example 6-3) In Example 6-2, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes, wherein the drainage plate 420 is formed in the shape of a semicircle.

(Example 6-4) In Example 6-3, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes a fixture in which the through hole 430 fixes the pile member 200.

(Example 6-5) In Example 6-3, the rigidity-reinforced self-supporting earth retaining structure of the present invention includes, wherein the seating member 400 is formed of one selected from precast concrete and metal.

The present invention relates to a seating member 400, and specifically, the seating member 400 fixes the positions of the plurality of pile members 200 and simultaneously discharges rainwater to the outside. Referring to FIGS. 6 and 7, this seating member 400 is seated on the upper part of the plurality of pile members 200, and the upper ends of the plurality of pile members 200 penetrate through each. At this time, the seating member 400 is formed with a fixing plate 410 in which a through hole 430 is formed, and a drainage plate 420 is formed on one side of the fixing plate 410 to discharge rainwater.

The seating member 400 is made of precast concrete, metal, etc., and through holes 430 through which the pile member 200 passes are formed at equal intervals in the fixing plate 410. At this time, a fixture to which the upper part of the pile member 200 is fixed is formed in the through hole 430, and the seating member 400 is not lowered by the fixture but is attached to the top of the pile member 200 and the earth plate 100. is formed And the drain plate 420 is inserted into the ground behind the earth discharge plate 100 and is formed in the shape of a semicircle, and is formed to be inclined to one side so that rainwater and groundwater are guided and discharged.

Therefore, the seating member 400 of the present invention is formed through a plurality of pile members 200 and formed on the upper part of the earth plate 100 to prevent deformation of the pile member 200 and at the same time prevent rainwater from flowing in. has

10: Ground 100: Earth plate
110: connection member 200: pile member
210: insertion part 220: support part
230: Fixing part 300: Reinforcing member
310: first reinforcement part 320: second reinforcement part
330: extension plate 340: connection plate
350: Filling member 360: Reinforcing member
370: Coupling plate 400: Seating member
410: Fixing plate 420: Drainage plate
430: Through hole

Claims (8)

In a rigidly reinforced self-supporting earth retaining structure that prevents collapse of soil by reinforcing piles inserted into the ground (10),
Earth plate (100) to prevent soil collapse;
Pile members 200 are installed at equal intervals on one side of the earth plate 100 and have one end inserted into the ground 10;
It includes a reinforcing member 300 that is coupled to the pile member 200 and prevents deformation due to pressure,
It includes a connecting member 110 formed on the front surface of the earth plate 100 and connecting a plurality of the pile members 200,
An extension plate 330 formed on the reinforcing member 300 and protruding outward from both sides of the pile member 200;
It includes a connecting plate 340 that connects the plurality of extension plates 330 and prevents deformation of the pile member 200,
At the top of the pile member 200,
A seating member 400 seated on the ground 10;
It is formed in the seating member 400 and includes a through hole 430 through which the plurality of the pile members 200 respectively pass.
In the seating member 400,
A fixing plate 410 on which the through hole 430 is formed;
A rigidly reinforced self-supporting earth retaining structure comprising a drainage plate (420) formed on one side of the fixing plate (410) and inserted into the ground (10) to discharge rainwater.
delete In claim 1,
An insertion portion 210 formed on the pile member 200 and inserted into the ground 10;
A rigidly reinforced self-supporting earth retaining structure comprising a support part 220 that is exposed at the top of the insertion part 210 and supports the earth plate 100.
In claim 3,
A rigid reinforced self-supporting retaining structure comprising a fixing part 230 formed on the pile member 200 and formed in a hole drilled in the ground 10 and surrounding the insertion part 210.
In claim 4,
A first reinforcement part 310 formed on the reinforcement member 300 and installed in the insertion part 210;
A rigidly reinforced self-supporting retaining structure comprising a second reinforcing part 320, which is formed to be spaced apart from the first reinforcing part 310 and is installed on the support part 220.
In claim 5,
The first reinforcing part 310 is formed so that one end is inserted into the fixing part 230 and the other end is exposed to the outside.
delete In claim 1,
A filling member 350 formed on the reinforcing member 300 and filled inside the extension plate 330 and the connecting plate 340;
A rigidly reinforced self-supporting earth retaining structure comprising a reinforcing member 360 formed on the filling member 350 and reinforcing strength.