KR100846229B1 - Establishment Method of Soil Guard Structure - Google Patents

Abstract

The present invention relates to an earthquake structure and a method of installing the same, and more particularly, in a basement excavation work for various building constructions, the H-type steel provided with guide rails in the ground of the bare ground is disposed between the H-type steels. Insert earthen steel plate to install earthen structure in the ground and install underground structure to make ground by stabilizing the ground layer to stabilize the ground and prevent soil and groundwater from falling down due to instability of ground and the installation method and its installation method It is about.

Thus, the earthenware structure of the present invention and its installation method is H-type steel installation step of placing the H-type steel in the ground through the guide groove provided on the ground spaced at a predetermined interval; A metal sheet inserting step of inserting a metal sheet into the ground in the longitudinal direction of the H-type steel between the H-shaped steels placed in the ground; A ground destroying step of digging to have a height toward the lower side of the ground; Characterized in that it is performed, including.

In addition, the H-type steel pile is placed in the ground of the bare ground, and the earth block structure to prevent the stability of the ground and the inflow of groundwater by inserting a plurality of plate horizontally between the H-type steel pile,

The plate is a metal plate, and the H-type steel is characterized in that the guide rail is provided in the longitudinal direction of the H-type steel so that the metal plate can be inserted.

Accordingly, the present invention has the advantage of preventing the settlement of the ground due to poor filling of the earth structure by shortening the air by installing the earth block structure in the ground of the bare ground.

In addition, the members constituting the earthen structure has the advantage that can be recycled to reduce the construction cost.

Earthshade, trench, H type steel, guide rail, guide groove

Description

Establishment Method of Soil Guard Structure

1 is a perspective view of a conventional earthenware structure.

Figure 2 is a cross-sectional view showing a conventional earthenware structure installation.

Figure 3 is a perspective view of the earth structure of the present invention.

Figure 4 is a cross-sectional view showing the earthenware structure installation of the present invention.

5 is a perspective view of the H-shaped steel with a guide rail

6 is an exploded perspective view of an H-type steel and a metal sheet.

Figure 7 is a cross-sectional view showing the earth structure of the present invention.

8 is a perspective view showing the installation of the H-shaped steel.

9 is an exploded perspective view of the guide angle.

10 is a perspective view showing the installation of a metal steel sheet.

11 is a cross-sectional view of the H-type steel foamed treatment.

Figure 12 (a) is a perspective view showing a metal steel sheet provided with a reinforcing material.

Figure 12 (b) is a perspective view showing a metal plate with a conduit and injection nozzles.

Figure 13 is a step-by-step block diagram of the present invention.

** Description of the symbols for the main parts of the drawings **

10: H type steel 11: web

12: flange 20: guide rail

21: space part 22: foam gun

23: fastener 30: metal sheet

31: Stiffener 32: Conduit

33: injection nozzle 34: chamfer

40: guide angle 41: guide groove

42: first steel 43: second steel

44: third steel 45: auxiliary steel

50: Vibro Hammer 60: Drawing machine

61: hydraulic jack 62: vehicle

The present invention relates to an earthquake structure and a method of installing the same, and more particularly, in a basement excavation work for various building constructions, the H-type steel provided with guide rails in the ground of the bare ground is disposed between the H-type steels. Insert the steel plate as much as possible, install the earthquake structure in the ground, and then proceed to break the underground floor to stabilize the soil, and prevent the earthquake and groundwater from falling down due to instability of the soil and the installation of the earthquake structure and its installation. It is about a method.

In general, in order to build underground structures such as basement of the building or subway, the construction of a trench having a depth below the ground is carried out, and a protective wall is installed to prevent the soil wall from falling down due to earth pressure during the construction of the trench. In addition, the leveling work should be performed in parallel to prevent the groundwater from the ground flowing into the construction area.

Thus, as shown in Figs. 1 and 2 for the earthquake and the order, the trench is formed with a depth toward the bottom of the ground, and then the soil is prevented from entering the ground by ground pressure or groundwater at a predetermined interval. Arrange the shape steel 110 and insert the earth plate 130 made of wood between the H-shaped steel 110 to install the earthquake structure, and then fill the soil on the back of the earthquake structure formed space to stabilize the ground The construction method was mainly used.

However, such a method is a method of installing the earthquake structure consisting of H-type steel and wood earthen board and filling the soil behind the earthquake structure in which the empty space is formed while the trench construction is carried out to some extent, and the ground behind the earthquake structure is Ground stabilization and ground collapse are not easily stabilized, and a barrier wall is formed by using a plurality of earth plate 130 made of wood, thereby preventing the inflow of groundwater. And it is difficult to recycle the earth plate 130 made of wood after construction, there was a problem that the environmental pollution occurs by embedding in the ground.

Therefore, in order to overcome such a problem, the earthen board is installed by inserting the earth plate made of wood between the H-shaped steels. By inserting the earth plate in duplicate, the rigidity is reinforced to some extent, but there is a problem in that the material cost and the amount of work are increased and the degree of function is still reduced. And the earth block structure was installed using a concrete earth plate made of high-strength concrete instead of a wood earth plate, but there is a problem in that the efficiency is lowered as the earth plates are made individually one by one because the gaps between the H-shaped steels are different from each other. .

In addition, there is a problem in that the construction cost is increased as well as the workability is lowered by the installation of the earthquake structure during the excavation work and the ground stabilization work behind the earthquake structure in parallel.

The present invention has been made to solve the above problems, an object of the present invention is to insert a steel sheet to be placed between the H-type steel and the guide rail is provided in the ground of the bare ground, After installing the earthquake structure, the basement layer digging work is carried out to stabilize the ground to provide the earthquake structure and the installation method that prevents the ground due to instability of the ground and the soil or groundwater flow into the workplace.

In addition, by inserting a metal plate made of a single piece of steel between the H-shaped steel in the ground of the ground to install the earthquake structure to ensure rigidity, the safety is improved, the work is simplified to shorten the air structure and its installation method To provide.

In addition, by using a guide angle provided with a guide groove to provide an earthquake structure and the installation method for the H-type steel to be inserted correctly in the ground.

In addition, by using a member that can be recycled to reduce the environmental pollution and waste of resources, and also to provide a construction structure and the construction method of the construction cost is also saved.

An earthenware structure and a method of installing the same according to the present invention for achieving the above object include a H-type steel placing step in which H-type steel is placed in the ground through a guide groove provided on the ground at a predetermined interval; A metal sheet inserting step of inserting a metal sheet into the ground in the longitudinal direction of the H-type steel between the H-shaped steels placed in the ground; It is characterized in that it is performed, including ;; the ground dig step of digging to have a height to the lower side of the ground.

In addition, the guide groove is a substantially rectangular through-hole formed by a plurality of steel so that the H-type steel can penetrate, characterized in that formed by at least two or more combinations perpendicular to the ground.

Here, the guide groove is a step of disposing a pair of the first steel material to be parallel to the ground spaced apart by the width of the H-shaped steel material; One end of the second steel having a predetermined length is fixed to the first steel and disposing the second steel in a direction opposite to the ground; A third step of disposing the third steel to be fixed to the other end of the second steel to correspond to the first steel; Attaching auxiliary steels such that guide grooves are formed in the first and third steels; It characterized in that it further comprises.

The method may further include a guide groove removing step of removing the guide groove immediately before the metal sheet inserting step.

In addition, the guide rail attaching step of attaching the guide rail in the longitudinal direction of the H-type steel to the web of the H-type steel immediately before the H-type steel installation step further comprises.

At this time, the guide rail is characterized in that the steel having an L-shaped cross section.

The guide rail attaching step may further include applying a water-foaming agent to the space formed by the flange of the guide rail and the H-shaped steel.

The method may further include forming a chamfer at an edge of the metal sheet just before inserting the metal sheet.

In addition, the step of inserting the metal sheet is provided with a conduit interlocked with the waterjet in the direction in which the metal sheet is inserted into one side or both sides of the metal sheet, and further comprising a spray nozzle on the lower end of the conduit to spray water It characterized in that it further comprises.

In addition, the step of inserting the metal sheet in the metal sheet is characterized in that it further comprises a step of providing a reinforcing material having a reinforcing material in the direction in which the metal sheet is inserted into one side or both sides of the metal sheet.

In addition, an H-type steel pile is installed in the ground of the bare ground, and in the earth block structure which prevents the stability of the ground and the inflow of groundwater by inserting a plurality of plates horizontally between the H-type steel piles, the plate is a metal plate, The H-type steel is characterized in that the guide rail is provided in the longitudinal direction of the H-type steel so that the metal sheet can be inserted.

In addition, the H-type steel and the metal sheet is characterized in that it is poured on the bare ground by auger crane or vibrating hammer.

In addition, the H-type steel and the metal sheet is characterized in that it is pressed to the ground by a drawer.

Here, the drawer comprises a hydraulic jack to move up and down to insert the H-type steel or metal steel sheet or the like into the ground of the ground or pulled out of the ground, and a moving means disposed below the hydraulic jack to move the drawer It is characterized by.

In addition, the H-type steel and the guide rail, the metal steel sheet is characterized in that it is poured on the bare ground by auger crane or vibrating hammer.

In addition, the H-type steel and the guide rail, the metal sheet is characterized in that it is pressed into the bare ground by the drawer.

Hereinafter, with reference to the accompanying drawings, the earth retaining structure and the installation method according to the present invention having the configuration as described above will be described in detail.

Figure 3 is a perspective view of the earthenware structure of the present invention, Figure 4 is a cross-sectional view showing the installation of the earthenware structure of the present invention, Figure 5 is a perspective view of the H-type steel with a guide rail, Figure 6 is an H-type steel and metal material Figure 7 is an exploded perspective view of the steel plate, Figure 7 is a cross-sectional view showing the earthenware structure of the present invention, Figure 8 is a perspective view showing the casting of the H-type steel, Figure 9 is an exploded perspective view of the guide angle, Figure 10 is a casting of metal steel sheet 11 is a cross-sectional view of a water-foamed H-shaped steel, Figure 12 (a) is a perspective view showing a metal sheet with a reinforcing material, Figure 12 (b) is a metal sheet with a conduit and spray nozzles 13 is a perspective view showing a step-by-step block process of the present invention.

The earthquake structure and the installation method according to the present invention prevents the soil wall from collapsing due to earth pressure in the construction of a trench to build underground structures such as a basement or subway of a building, and the groundwater eluted from the ground flows into the construction area. As shown in FIG. 3 and FIG. 4, the H-type steel 10 is installed at a predetermined interval in the ground of the bare ground by blocking the work to be carried out, and the metal sheet between the H-type steels 10. Placing (30) installs a block structure in the ground. As such, after installing the earthquake structure in the ground, the basement dig construction for the underground structure is in progress.

6, 8, 10, 13 as shown in Figure 6, the installation method of the H-shaped steel in which the H-shaped steel 10 is placed in the ground through the guide groove 41 provided on the ground spaced at a predetermined interval step; A metal sheet inserting step of inserting a metal sheet 30 into the ground in the longitudinal direction of the H-shaped steel 10 between the H-shaped steels 10 placed in the ground; A ground destroying step of digging to have a height toward the lower side of the ground; It includes.

5 is a perspective view showing the H-shaped steel provided with a guide rail, as shown in the web 11 of the H-shaped steel 10, the guide rail 20 in the longitudinal direction of the H-shaped steel (10) Is attached. The guide rail 20 attached to the side of the H-shaped steel 10 is preferably used to have an L-shaped cross-section, the metal sheet 30 can be inserted between the H-shaped steel (10) The space 21 is formed between the H-shaped steel 10 and the guide rail 20.

The guide rail 20 attached to the web 11 of the H-shaped steel 10 is generally attached by the fastener 23, but may be attached by welding or other joining methods.

Figure 8 is a perspective view showing the installation of the H-shaped steel, Figure 9 is an exploded perspective view of the guide angle, as shown in the figure is roughly in the vertical direction of the ground so that the H-shaped steel 10 is placed in the ground spaced a predetermined interval Guide grooves 41 are formed by combining two or more rectangular through holes. The guide groove 41 is a step of disposing a pair of the first steel (42) spaced by the width of the H-shaped steel (10) parallel to the ground; A second step of fixing one end of the second steel material 43 having a predetermined length to the first steel material 42 and disposing the second steel material 43 in a direction opposite to the ground; A third step of disposing the third steel material 44 fixed to the other end of the second steel material 43 so as to correspond to the first steel material 42; And a fourth step of attaching the auxiliary steel material 45 to form the guide grooves 41 in the first steel material 42 and the third steel material 44.

The H-shaped steel 10 penetrates through the guide groove 41 formed in the guide angle 40 and is in the ground by vibrating hammer 50 or auger crane (not shown) as shown in FIG. It may be poured or pressed into the ground by the drawer 60 as shown in FIG. 8 (b).

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FIG. 6 is an exploded perspective view of the H-type steel and the metal sheet, and FIG. 7 is a cross-sectional view of the earthenware structure, and the space portion formed in the web 11 of the H-type steel 10 to which the guide rail 20 is attached. 21, the metal sheet 30 is inserted to form an earth barrier structure. Soil structure formed in this way serves to support the earth pressure in the excavation work to build the underground structure to prevent the earth and sand flow into the workplace, as well as block the inflow of groundwater so that the excavation work can proceed smoothly. do.

10 is a perspective view illustrating installation of a metal steel sheet. As shown in the figure, a metal plate 30 is installed between the H-shaped steel 10 placed in the ground through the guide angle 40 to form an earth structure. At this time, the metal sheet 30 is poured into the bare ground by vibrating hammer 50 or auger crane (not shown) as shown in FIG. 10 (a), or as shown in FIG. You are pressed into the ground by).

At this time, the drawer 60 is disposed on the lower side of the hydraulic jack 61 and the hydraulic jack 61 to move up and down to insert the H-shaped steel 10 and the metal sheet 30 in the ground or drawn out of the ground It consists of a moving means 62 to allow the movement of the drawer 60 to be free, and after moving to the working position through the moving means 62, by using the hydraulic jack 61, the H-shaped steel 10 and the metal material The steel sheet 30 is pressed to the ground.

Wherein the hammer (50) and the auger crane (not shown) is H-shaped steel material 10 and subjected to repeated shocks to the metal plate 30, the H-shaped steel material 10 and the metal plate 30 to the vibrator in the ground While pouring, the drawer 60 presses the H-shaped steel 10 and the metal sheet 30 in the ground by hydraulic pressure, so that vibration and noise are not generated, resulting in stabilization of surrounding structures and ground. It does not cause noise pollution.

Guide grooves 41 to 40 used for placing the H-shaped steel 10 should be removed before placing the metal sheet 30.

11 is a cross-sectional view of a water-foamed H-type steel, and a water-foaming material 22 is applied to the space portion 21 of the H-type steel 10 into which both ends of the metallic steel sheet 30 are inserted. As described above, the water-foaming material 22 applied to the space 21 reacts with water, including groundwater in the ground, to fill the gap of the space 21 to block the groundwater from entering the workplace.

12 is a perspective view showing a metal sheet provided with a conduit and an injection nozzle interlocked with the reinforcement to the waterjet. As shown in the figure, the metal sheet 30 is provided with a plurality of reinforcing members 31 in the direction in which the pressure is formed. At this time, the reinforcing material 31 is formed on one side or both sides of the metal sheet 30 to reinforce the strength of the metal sheet 30. In addition, one side or both sides of the metal sheet 30 is provided with a conduit 32 interlocked with a waterjet (not shown), and the injection nozzle 33 is provided at the lower end of the conduit 32. The injection nozzle 33 is provided in the metal sheet 30 to facilitate the pouring by spraying high-pressure water when the metal sheet 30 is placed.

The reinforcement 31 formed on the metal sheet 30 and the conduit 32 and the spray nozzle 33 interlocked with the waterjet (not shown) may be formed in one kind according to the working environment, or two may be mixed and used. have.

In addition, the chamfer 34 is formed at both edges of the metal sheet 30 in the direction in which the metal sheet 30 is inserted so that the metal sheet 30 is smoothly inserted when the metal sheet 30 is inserted into the space 21 of the H-shaped steel 10.

The earthenware structure consisting of the H-type steel 10 and the metal sheet 30 is installed in the ground of the ground before the earthquake of the underground floor for the construction of the underground structure, the ground is stabilized during the earthquake work of the underground layer made afterwards The air is shortened.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited, and the present invention is not departed from the gist of the present invention as claimed in the claims. Implementation will be possible.

As described above, according to the earthenware structure of the present invention and its installation method, after installing the earthenware structure in the ground of the bare ground using H-type steel and metal steel plate, and proceeding the basement trench, the ground caused by the poor filling of the earthenware structure It has the effect of preventing the sinking of.

According to the earthenware structure and the installation method of the present invention, by inserting a metal plate of a single piece between the H-shaped steel placed in the ground by installing the earthenware structure to ensure the rigidity, the safety is improved, the operation is simplified and air is It has the effect of being shortened.

According to the earthenware structure and the installation method of the present invention, by pressing the H-type steel and metal sheet in the ground using a drawer, it is possible to prevent the collapse of the surrounding structure and the ground due to vibration, causing pollution by noise There is no effect.

According to the masonry structure and the installation method of the present invention, the members constituting the masonry structure can be recycled to reduce the environmental pollution and waste of resources, and also has the advantage of saving construction costs.

Claims (16)

The guide angle is provided with a plurality of guide grooves formed at regular intervals by a combination of at least two steel materials positioned at a predetermined distance vertically from the ground to guide the H-shaped steel placed in the ground vertically. Guide angle arrangement step disposed in; The guide rail is attached to the web of the H-shaped steel in the longitudinal direction so that both ends of the metal steel plate placed in the ground are inserted and guided so that the H-shaped steel has a space portion between the guide rails through the guide groove. An H-type steel placing step which is placed in the ground by being placed in the ground by any one selected from auger crane, vibro hammer, and drawing machine ; A metal sheet guide step of inserting and guiding both side ends of the metal sheet to the space portion of the H-shaped steel sheet placed in the ground ; An upper portion of the metal sheet is poured and the metal sheet is guided to the space along the guide rail and inserted into the ground by any one selected from an auger crane, a vibrating hammer and a drawer ; And A ground exploding step of discharging to one side of the metal sheet placed in the ground; Earthquake structure installation method comprising a. delete delete delete delete delete delete delete delete delete delete delete delete delete The method of claim 1, And a water-repellent agent applying step of the water-repellent agent on the inner circumferential surface of the space formed between the H-type steel and the guide rail. The method of claim 1, And a water spraying step of spraying water on one side or both sides of the metal sheet with a conduit interlocked with the waterjet in a direction in which the metal sheet is inserted, and having a spray nozzle at a lower end of the conduit. How to install the earthen structure.

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