KR20120102281A - Earth retaining structure using steel plate and its construction method - Google Patents

Abstract

PURPOSE: An earth retaining structure using a steel plate and a construction method thereof are provided to maximally prevent ground subsidence and the inflow of underground water. CONSTITUTION: An earth retaining structure using a steel plate comprises H-shaped steel members(100), guide members(200), and steel plates(300). The H-shaped steel members are inserted into the ground at uniform intervals. Each H-shaped steel member is composed of a pair of flanges(102) and a web(101). The guide members are installed on both sides of the web of the H-shaped steel members. Each steel plate is composed of a horizontal plate member(310) and vertical wing members(320). The horizontal plate member is installed between the H-shaped steel members and prevents the inflow of earth or underground water. The vertical wing members are vertically formed on both ends of the horizontal plate member and are restricted by the guide members. The steel plates control the horizontal displacement of the horizontal plate members.

Description

Earth retaining structure using steel plate and its construction method

The present invention relates to an earth block structure using a steel earth plate and a construction method thereof, by stably restraining the H-type steel using both ends of the earth plate as a thumb pile, and mechanically connecting the earth plates stacked up and down mechanically. The present invention relates to an earthquake structure using a steel earth plate that prevents soil or groundwater from flowing into the soil and suppresses the occurrence of horizontal displacement of the earthquake structure by earth pressure, thereby preventing settlement of the surrounding ground.

In general, in order to build underground structures such as basement or subway of the building, it is necessary to carry out the excavation work to excavate the ground to the planned depth, and to install the earthquake structure to prevent the soil from falling to the excavation site during the excavation work. In addition, the leveling work should be carried out to prevent groundwater from the ground from entering the drilling site.

To date, many construction methods have been used to prevent soil and groundwater from entering the excavation site during the excavation work.However, before the excavation, H-type steels are formed on the ground at regular intervals. After inserting the earthen plate made of wood into the earthenware structure, the method of stabilizing the surrounding ground by filling the soil in the space formed on the back of the earthenware structure was mainly used.

However, such a method is because the earthwork behind the earthen board is not stabilized because the earthen board is installed in the state that the trench construction is carried out to some extent, and the empty space formed behind the earthen board is filled with loose soil. In addition, by forming a retaining wall using a plurality of earthen boards made of wood, there is a problem that the degree of function of preventing groundwater from flowing into the excavation site is reduced and the rigidity of the retaining wall is insufficient. In addition, it is difficult to recover and recycle the entire amount of wood soil plate after construction, which leads to an increase in construction costs and environmental pollution due to the grounding of some soil plates.

Meanwhile, conventionally, in order to solve such a problem, as shown in Korean Patent No. 0846229, an H-type steel provided with guide rails is installed on the ground, and after installing metal steel plates along the guide rails, the earthen board using a metal steel sheet for digging work is performed. The structure was developed.

However, as shown in FIG. 1, even when both ends of the metal steel plate 110 are fitted to the guide rails 130 installed on the H-shaped steel 100, both ends of the metal steel plate 110 are guide rails 130. Since it is not restrained by the earthquake and hydraulic pressure, it does not resist the horizontal displacement of the earthquake structure at the excavation site, and if the horizontal displacement of the earthquake structure is very large, the metal plate 110 is removed from the guide rail 130. Soil or groundwater may be introduced into the gap, and because the stiffness of the metal steel sheet 110 is insufficient, in order to stably install the metal steel sheet 110 on the ground, it is necessary to install the reinforcement material in the vertical direction in the metal steel sheet 110. There is a problem.

In addition, in order to improve the rigidity of such a metal steel sheet, as shown in Figure 2 to form a wing 120 of the vertical form on both ends of the metal steel sheet 110 as shown between the H-shaped steel 100, but also When both ends of the metal steel sheet 110 are not constrained, the metal sheet 110 does not resist the horizontal displacement of the earthquake structure due to earth pressure and water pressure, and when the horizontal displacement of the earthquake structure is large, the metal steel plate 110 is the guide rail 130. Soil or groundwater may flow into the gap from the gap, and more metal steel plates are used to excavate the same area than when using the metal steel sheet 110 having no wings at both ends as shown in FIG. 1. have.

In addition, when excavating the ground to a deep depth by using the earthen structure consisting of the H-type steel 100 and the metal steel sheet 110, a plurality of metal steel sheet 110 should be connected up and down, the metal steel sheet 110 The connection portion of the metal plate 110 should be of sufficient strength so as not to be damaged in the process of installing and recovering the ground and must be tightly connected so that soil or groundwater does not flow through the connection portion. However, it is not easy to apply the earthquake structure using the metal steel plate 110 and the H-shaped steel 100 when the deep drilling depth is not developed because the vertical connection method of the earthquake structure metal sheet 110 is not yet developed.

An object of the present invention for solving the problems described above, by installing the steel earth plate with the vertical wing member formed at both ends so that both ends are constrained between the H-type steel material to integrate the steel earth plate and the H-type steel plate by earth pressure Suppressing horizontal displacement of the structure to prevent the settlement or collapse of the ground behind the steel earth plate as much as possible, and when the depth of excavation is deep, it is possible to reliably connect the steel earth plate to be connected up and down through the earth plate connecting means coupled in wedge shape The present invention provides an earthquake structure using a steel earth plate and a construction method thereof.

The present invention to achieve the object as described above and to perform the problem for removing the conventional drawbacks, H-type steel is inserted into the ground at regular intervals; A guide member installed on both sides of the web of the H-shaped steel in a longitudinal direction to form a guide groove between the web; A horizontal plate member installed between the H-shaped steels to prevent the inflow of soil or groundwater, and vertically formed at both ends of the horizontal plate member so as to be inserted into the guide grooves and inserted into the guide grooves. Steel earth plate that can be integrated with the H-shaped steel consisting of a vertical wing member bound by; And a control unit.

In addition, when connecting the steel earth plate up and down, by tightening the steel earth plate in the upper and lower position using the wedge-shaped earth plate connecting means to improve the vertical tightening force of the steel earth plate to prevent the inflow of earth and sand through the connection portion of the earth plate Characterized in that the configuration further comprises a; earth plate connecting means for preventing damage to the earth plate connecting portion during recovery.

In addition, the earth plate connecting means, the first connector is installed on the lower one side or both sides of the steel earth plate and the insertion groove is formed at the bottom, the inclined surface at the top edge; A second connector installed at an upper side or both sides of the steel earth plate to correspond to the first connector, and having an insertion protrusion formed at an upper end thereof so as to be inserted into the insertion groove, and having an inclined surface formed at a lower edge thereof; The first connector and the second connector are fastened up and down, and the groove is formed in a concave shape in the inner side so that the upper and lower ends are engaged with the inclined surface to be coupled in a wedge shape, thereby pressurizing the first connector and the second connector. Letting cover plate; And a bolt that is fastened to the first connector and the second connector through the cover plate and presses the cover plate in the direction of the first connector and the second connector.

In addition, the earth plate connecting means, the first connector is installed on the lower one side or both sides of the steel earth plate and the insertion groove is formed at the bottom, the engaging jaw of the concave shape is formed at the upper edge; A second connector installed at an upper side or both sides of the steel earth plate to correspond to the first connector, and having an insertion protrusion formed at an upper end thereof so as to be inserted into the insertion groove, and having an inclined surface formed at a lower edge thereof; The first connector and the second connector is fastened up and down, the upper projection is formed so as to be caught on the locking jaw of the first connector, a concave groove is formed inside the lower portion is caught in the first connector A cover plate which contacts the inclined surface of the second connector and presses in a wedge shape to connect the first connector and the second connector; And a bolt that is fastened to the second connector through the cover plate and presses the cover plate in the direction of the second connector.

In addition, the insertion groove inlet portion of the first connector is configured so that a portion protrudes toward the bottom of the steel earth plate, the insertion protrusion of the second connector is configured so that a portion protrudes over the top of the steel earth plate, two steel connected up and down The earth plate is caught by the first connector and the second connector, characterized in that it is made so as not to move forward and backward.

In addition, the guide member, a fixed plate coupled to the web of the H-shaped steel; A guide plate attached to one side of the fixing plate so as to be spaced apart from the web at a predetermined interval so as to form a guide groove between the web and a guide plate for allowing the vertical wing member of the steel earth plate to be inserted and restrained. It is characterized by.

In addition, the upper portion of the guide plate is bent in a direction away from the web so that the vertical wing member of the steel earth plate can be easily inserted into the guide groove formed in the web of the H-shaped steel, the upper portion of the bent guide plate through the connecting plate It is characterized in that coupled to.

On the other hand, the present invention is the first step of forming a guide groove between the web by installing the guide member on both sides of the web of the H-shaped steel; A second step of inserting and installing the H-shaped steel having the guide groove formed in the ground at a predetermined interval; It is installed between the H-shaped steel installed in the ground, the ground plate is inserted into the guide groove along the guide plate on both ends of the horizontal plate member is formed by inserting the steel earth plate is formed on the ground behind the earth plate when ground excavation Or a third step of having a function of blocking groundwater outflow to the excavation site; It characterized in that it comprises a fourth step of excavating the ground to a predetermined depth after the steel earth plate is installed.

In addition, when the deep drilling depth in the third step when the construction while connecting the steel earth plate up and down, using the earth plate connecting means installed on the steel earth plate before installation of the steel earth plate is characterized in that for connecting the steel earth plate located in the upper and lower It is done.

In addition, the earth plate connecting means, the first connector is installed on the lower side of the steel earth plate and the inclined surface is formed on the upper edge, and is installed on the upper side of the steel earth plate combined with the first connector, the slope on the lower edge The second connector is formed, and the cover plate and the cover plate for connecting the first connector and the second connector in a wedge form by connecting the upper and lower ends to the inclined surfaces of the first connector and the second connector in a wedge shape. It comprises a bolt to pressurize the connector, it characterized in that the steel earth plate is strongly connected up and down.

In addition, the earth plate connecting means, the first connector is installed on one side of the lower surface of the steel earth plate and is formed in the upper edge of the engaging jaw, and is installed on the upper side of the steel earth plate combined with the first connector, the lower edge A second protrusion having an inclined surface and a locking protrusion formed at an upper portion thereof so as to be caught by a locking jaw of the first connector, and a recessed groove is formed at an inner side thereof so that the lower portion is inclined at the first connector. The cover plate which is pressed against the wedge shape and connects the first connector and the second connector, and the cover plate comprises a bolt for pressing the first connector and the second connector, to strongly connect the steel earth plate up and down It features.

As described above, according to the present invention, by restraining both ends of the steel earth plate through a guide member provided in the web of the H-type steel to form a guide groove between the web, the earth pressure by integrating the H-type steel and the steel earth plate, Suppresses the horizontal displacement of the earthquake structure and prevents the settlement or collapse of the ground behind the earth plate as much as possible and the inflow of groundwater to the maximum. By connecting the connecting portion is a very useful invention that can form a structure that is very stable structurally and functionally.

Figure 1 is an exemplary view showing a state in which the separation phenomenon of the metal steel plate and the H-type steel when the horizontal displacement of the earthquake structure caused by earth pressure when using a conventional metal steel plate in the earthquake structure,
Figure 2 is an exemplary view showing the separation phenomenon of the metal steel plate and the H-type steel when the horizontal displacement of the earthquake structure due to earth pressure when forming the wings at both ends of the metal steel sheet used in the earthquake structure,
Figure 3 is a perspective view of the earth structure according to the present invention,
Figure 4 is a cross-sectional view showing a clod structure according to the present invention,
5 is an exemplary view showing a state in which the inlet portion of the guide groove according to the present invention is expanded;
Figure 6 is a perspective view showing a state connecting the steel earth plate of the earthen structure according to the present invention up and down,
Figure 7 is an exploded perspective view showing the earth plate connecting means according to an embodiment of the present invention,
8 is a perspective view showing a coupling process of the earth plate connecting means according to an embodiment of the present invention,
9 is a sectional view showing the earth plate connecting means according to an embodiment of the present invention;
10 is an exploded perspective view showing the earth plate connecting means according to another embodiment of the present invention;
11 is a perspective view showing a coupling process of the earth plate connecting means according to another embodiment of the present invention,
12 is a cross-sectional view showing the earth plate connecting means according to another embodiment of the present invention.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Figure 3 is a perspective view of the earthenware structure according to the present invention, Figure 4 is a cross-sectional view showing the earthenware structure according to the present invention, Figure 5 is an exemplary view showing an expanded state of the inlet of the guide groove according to the present invention,

As shown in the drawing, the present invention is inserted into the ground at regular intervals and the H-shaped steel 100 consisting of a pair of flanges 102 and a web 101 connecting the center of the flanges 102 and the H-shaped steels The guide member 200 which is installed in both sides of the web 101 of the 100 in the longitudinal direction and forms the guide groove 230 between the web 101 and the H-shaped steel 100 is installed and excavated. Horizontal plate member 310 to prevent the inflow of soil or groundwater to the site, and formed in the vertical direction on the horizontal plate member 310 at both ends of the horizontal plate member 310 and inserted into the guide groove 230 guide It is composed of a steel earth plate 300 consisting of a vertical wing member 320 that is constrained by the member 200.

The steel earth plate 300 is reinforced with a rigid through the vertical wing member 320 formed on both ends to prevent deformation or damage of the steel earth plate 300 when installing or recovering the steel earth plate 300 on the ground and Resistance to earth pressure and water pressure is improved.

The guide member 200 is fixed plate 210 is coupled to both sides of the web 101 of the H-shaped steel 100 and the fixing plate (210) can be formed between the web 101 and the fixing plate ( It is attached to one side of the 210 is spaced apart from the web 101 at a predetermined interval and consists of a guide plate 220 for restraining the vertical wing member 320 of the steel earth plate 300 is inserted into the guide groove 230. .

The guide member 200 is fixed to the web 101 through the fixing plate 210, the bolt 450, may be coupled to the web 101 by welding or other bonding method.

In the present invention constituted as described above, a guide groove 230 is formed between the web 101 by the guide member 200, and the vertical wing member 320 of the steel earth plate 300 is formed in the guide groove 230. The steel earth plate 300 is installed between the H-shaped steels 100 while being guided through the guide member 200.

When earth pressure is applied to the steel earth plate 300 of the present invention installed as described above, the vertical wing member 320 is constrained by the guide plate 220 in the guide groove 230 to form the H type steel 200 and the steel earth plate. By being integral with 300, it is possible to prevent the earthquake structure from causing horizontal displacement in the direction of the excavation site, thereby preventing the sedimentation or collapse of the ground behind the steel earth plate 300 and the leakage of groundwater.

Meanwhile, when the steel earth plate 300 is installed, the inlet portion of the guide groove 230 may be widened so that the vertical wing member 320 may be easily inserted into the guide groove 230.

Preferably, as shown in FIG. 5, the upper part of the guide plate 220 is bent in a direction away from the web 101, and the upper part of the guide plate 220 is coupled to the fixing plate 210 through the connecting plate 240. The inlet of the groove 230 is configured to be wider.

That is, when the steel earth plate 300 is installed, when the vertical wing member 320 is fitted into the guide groove 230, the lower end of the vertical wing member 320 through the bent inclined surface formed on the upper portion of the guide plate 220 It can be easily inserted into the guide groove 230 while being guided.

Figure 6 is a perspective view showing the connection state of the steel earth plate used in the earthenware structure according to the present invention, when forming the earthenware structure using the steel earth plate 300, when the depth to be excavated deep steel earth plate 300 vertical Must be installed while connecting in the direction, the present invention is configured to further include a earth plate connecting means 400 for connecting the steel earth plate 300 is connected to the up and down.

Figure 7 is an exploded perspective view showing the earth plate connecting means according to an embodiment of the present invention, Figure 8 is a perspective view showing a coupling process of the earth plate connecting means according to an embodiment of the present invention, Figure 9 is an embodiment of the present invention As a cross-sectional view showing the earth plate connecting means,

Earth plate connecting means 400 according to an embodiment, as shown in the drawing, is installed on the lower side of the steel earth plate 300, the insertion groove 411 is formed at the bottom, the inclined surface 412 is formed at the top corner The first connector 410 is installed on one side of the upper portion of the steel earth plate 300 so as to correspond to the first connector 410, when the upper and lower connections of the steel earth plate 300 of the first connector 410 An insertion protrusion 421 is formed at an upper end to be inserted into the insertion groove 411, and a second connector 420 having an inclined surface 412 at a lower edge thereof, the first connector 410, and a second connector 410. The connector 420 is fastened up and down, but the upper and lower ends of the inclined surfaces 412 and 422 formed on the first connector 410 and the second connector 420 are concave inward so that they can be coupled in a wedge shape. The cover plate 430 is formed with a groove 431 of the form and is fastened to the first connector 410 and the second connector 420 through the cover plate 430 The cover plate 430 is configured to include a bolt 440 to fasten the first connector 410 and the second connector 420 by pressing.

The first connector 410 and the second connector 420 may be welded to one side or both sides of the steel earth plate 300 or may be coupled by a bolt 440.

Meanwhile, upper and lower grooves formed on the inner side of the cover plate 430 contact the inclined surfaces of the first connector 410 and the second connector 420 so that the first connector has a wedge shape when tightened through the bolt 440. The pressing surface 432 is formed to press the 410 and the second connector 420 up and down to be fastened.

A bolt hole 450 is formed in the cover plate 430, the first connector 410, and the second connector 420 so as to be fastened through the bolt 440.

The earth plate connecting means 400 according to an embodiment of the present invention configured as described above covers the outer side of the first and second connectors 410 and 420 coupled through the insertion groove 411 and the insertion protrusion 421. By installing the plate 430 and tightening with the bolt 440, the first connector 410 and the second connector 420 is pressed up and down by the cover plate 430 to be firmly assembled in a wedge shape. By minimizing the inflow of groundwater through the connection and maximizing the tensile strength of the earth plate connection, the earth plate connection becomes structurally very stable.

Meanwhile, FIG. 10 is an exploded perspective view showing the earth plate connecting means according to another embodiment of the present invention, FIG. 11 is a perspective view showing the coupling process of the earth plate connecting means according to another embodiment of the present invention, and FIG. 12 is another embodiment of the present invention. As a cross-sectional view showing the earth plate connecting means by,

Earth plate connecting means 400 according to another embodiment as shown in the drawing is installed on one side of the lower side of the steel earth plate 300, the insertion groove 411 is formed at the bottom and the locking jaw 413 of the concave shape at the top corner The first connector 410 is formed on the upper side of the steel earth plate 300 so as to correspond to the first connector 410, the first connector (410) when connecting up and down the steel earth plate (300) A second connector 420 having an insertion protrusion 421 formed at an upper end thereof, and having an inclined surface 422 formed at a lower edge thereof, so as to be inserted into the insertion groove 411 of the 410, and the first connector 410. The second connector 420 is fastened up and down, but a locking protrusion 433 is formed at an upper portion thereof so as to be caught by the locking jaw 413 of the first connector 410, and the groove 431 is concave inwardly. Is formed and the lower portion is inclined of the second connector 420 in the state of being caught by the locking projection 413 of the first connector 410 through the locking protrusion 433. The cover plate 430 coupled to the surface 422 and the cover plate 430 are fastened to the second connector 420 through the cover plate 430 to press the cover plate 430 to press the first connector 410 and the second. The connector 420 is configured to include a bolt 440 to be fastened in a wedge shape.

At this time, the inclination of the locking jaw 413 with respect to the horizontal is smaller than the inclination of the inclined surface 422 of the second connector 420, the lower side of the groove 431 formed on the inside of the cover plate 430 the second connector The inclined surface 432 in contact with the inclined surface 422 of the 420 to fasten the first connector 410 and the second connector 420 in the wedge shape when tightened through the bolt 440. Is formed.

In addition, the cover plate 430 and the second connector 420 is formed with a bolt hole 450 to be fastened through the bolt 440.

The earth plate connecting means 400 according to another embodiment of the present invention constituted as described above, the first and second connectors 410 and 420 coupled up and down through the insertion groove 411 and the insertion protrusion 421. The cover plate 430 is installed on the outside, but the locking protrusion 433 formed at the upper end of the cover plate 430 is hooked to the locking projection 413 of the first connector 410 and is formed at the lower side of the cover plate 430. By tightening the pressing surface 432 with the bolt 440 in contact with the inclined surface 422 of the second connector 420, the second connector 420 is urged upward by the cover plate 430 to be first. By assembling firmly with the connector 410, the earth plate connector is structurally very stable by minimizing the inflow of groundwater through the connector and maximizing the tensile strength of the earth plate connector.

In addition, the first and second connectors by tightening the bolt 440 with the second connector 420 in a state of easily hanging the locking projection 433 of the cover plate 430 to the locking jaw 413 of the first connector 410. 410, 420 can be firmly fastened construction can be made quickly.

Meanwhile, the first connector 410 and the second connector 420 of the earth plate connecting means 400 according to the above embodiments may be welded to one side or both sides of the steel earth plate 300 or may be coupled by bolts 440. have.

The insertion groove 411 is formed in the inlet portion is wider than the inside, the insertion protrusion 421 is formed to correspond to the shape of the insertion groove 411, the first connector 410 for the vertical connection of the steel earth plate 300 ) And the insertion protrusion 421 when the second connector 420 is coupled to the inside of the insertion groove 411 is configured to be easily coupled.

In addition, the inlet portion of the insertion groove 411 slightly protrudes below the lower end of the steel earth plate 300, and the insertion protrusion 421 is formed to protrude above the upper end of the steel earth plate 300, thereby connecting two steels up and down. The earth plate 300 is caught by the first connector 410 and the second connector 420 so as not to move forward and backward.

Referring to the construction method of the present invention configured as described above, first, the guide member 200 is installed on both sides of the web 101 of the H-shaped steel 100 to form a guide groove 230 between the web 101. Between the first step and the second step of inserting and installing the H-shaped steel 100 formed with the guide groove 230 in the ground at a predetermined interval, and is installed between the H-shaped steel 100 installed in the ground, The earth and sand by inserting the steel earth plate 300 is inserted into the guide groove 230, the vertical blade member 320 is formed on both ends of the horizontal plate member 310 so that it can be guided through the guide member 200 It comprises a third step to have a function of blocking the groundwater, and the fourth step of excavating the ground to a predetermined depth after the steel earth plate 300 is installed.

On the other hand, when the installation of the steel earth plate 300 is deep and the excavation depth to be installed is not possible to be constructed with a single steel earth plate 300, it should be installed while connecting the steel earth plate 300, in this case by Using the earth plate connecting means 400 is constructed while connecting the steel earth plate 300 up and down.

When the earth plate connecting means 400 is the earth plate connecting means 400 according to an embodiment, the insertion protrusion 421 of the second connector 420 is inserted into the insertion groove 411 of the first connector 410. When inserted into the first connector 410 and the second connector 420, the cover plate 430 is installed to the outside of the first connector 410 and the second connector 420 to tighten the bolt 440. The first connector 410 and the second connector 420 are pressed up and down by the cover plate 430, so that the steel earth plates 300 are vertically connected to each other.

At this time, even if the coupling position of the first connector 410 and the second connector 420 is not exactly matched by the shape of the insertion groove 411 and the insertion protrusion 421 is guided to the correct position and coupled.

When the pressing surface 432 of the cover plate 430 tightens the bolt 440 in contact with the inclined surfaces 412 and 422 of the first connector 410 and the second connector 420, the first connector 410 and the second connector 420 is pressed close to the upper and lower coupling force of the steel earth plate 300 is very improved, so that the connection is structurally stable when recovering the steel earth plate 300, the earth and ground water flowing into the workplace Will be blocked.

Meanwhile, when the earth plate connecting means 400 is the earth plate connecting means 400 according to another embodiment, the insertion protrusion 421 of the second connector 420 is the insertion groove 411 of the first connector 410. When inserted into the first connector 410 and the second connector 420 is connected to the cover plate 430 to the outside of the first connector 410 and the second connector 420 is installed.

At this time, the locking protrusion 433 formed on the upper portion of the cover plate 430 is hooked to the locking projection 413 of the first connector 410, and the lower portion of the cover plate 430 is formed by using the bolt 440. The first and second connectors 410 and 420 are fastened up and down by the cover plate 430 by tightening and coupling to the connector 420, so that the steel earth plates 300 are connected up and down.

One side of the cover plate 430 is hooked to the first connector 410 and the other side is fastened by assembling the steel earth plate 300 up and down by coupling the bolt 440 to the second connector 420. This can be done.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100: H type steel 101: web
(102): flange 110: metal steel sheet
120: wing 130: guide rail
200: guide member 210: fixed plate
220: Guide plate 230: Guide groove
240: connecting plate 300: steel earth plate
(310): horizontal plate member (320): vertical wing member
(400): earth plate connecting means (410): first connector
411: Insertion groove 412: Inclined surface
413: engaging jaw 420: second connector
421: Insertion protrusion 422: Slope
(430): cover plate 431: groove
(432): pressing surface 433: locking projection
(440): bolt 450: bolt hole

Claims (11)

H-type steels inserted into the ground at regular intervals;
A guide member installed on both sides of the web of the H-shaped steel in a longitudinal direction to form a guide groove between the web;
A horizontal plate member installed between the H-shaped steels to prevent the inflow of soil or groundwater, and vertically formed at both ends of the horizontal plate member so as to be inserted into the guide grooves and inserted into the guide grooves. Steel earth plate is made up of a vertical wing member that is restrained by the horizontal plate member to suppress the horizontal displacement of the horizontal plate member due to earth pressure; Soil structure using a steel earth plate, characterized in that comprising a.
The method of claim 1,
When connecting the steel earth plate up and down, by tightening the steel earth plate located in the upper and lower wedge shape to improve the up and down tightening force of the steel earth plate to prevent the infiltration of earth and sand through the connecting portion, and to increase the tensile strength of the connection portion Earth plate structure using a steel earth plate, characterized in that it further comprises; earth plate connecting means for making the recovery of the steel earth plate stable.
The method of claim 2,
The earth plate connecting means,
A first connector installed at one lower side or both sides of the steel earth plate and having an insertion groove formed at a lower end thereof, and having an inclined surface formed at an upper edge thereof;
A second connector installed at an upper side or both sides of the steel earth plate to correspond to the first connector, and having an insertion protrusion formed at an upper end thereof so as to be inserted into the insertion groove, and having an inclined surface formed at a lower edge thereof;
The first connector and the second connector are fastened up and down, and the groove is formed in a concave shape in the inner side so that the upper and lower ends are engaged with the inclined surface to be coupled in a wedge shape, thereby pressurizing the first connector and the second connector. Letting cover plate;
And a bolt fastened to the first connector and the second connector through the cover plate to press and fasten the cover plate in the direction of the first connector and the second connector.
The method of claim 2,
The earth plate connecting means,
A first connector installed at one lower side or both sides of the steel earth plate and having an insertion groove formed at a lower end thereof, and having a concave locking jaw formed at an upper edge thereof;
A second connector installed at an upper side or both sides of the steel earth plate to correspond to the first connector, and having an insertion protrusion formed at an upper end thereof so as to be inserted into the insertion groove, and having an inclined surface formed at a lower edge thereof;
The first connector and the second connector is fastened up and down, the upper protrusion is formed so as to be caught by the locking jaw of the first connector, the recessed groove is formed in the lower portion in the state caught by the first connector A cover plate which is pressed against the inclined surface of the second connector and connected in a wedge shape;
The earth block structure using a steel earth plate, characterized in that it comprises a; is fastened to the second connector through the cover plate to fasten the cover plate by pressing in the direction of the second connector.
The method according to claim 3 or 4,
The insertion groove inlet portion of the first connector is configured to protrude a portion toward the bottom of the steel earth plate, the insertion protrusion of the second connector is configured to protrude a portion over the top of the steel earth plate, two steel earth plate connected up and down The earth block structure using the steel earth plate, characterized in that the first connector and the second connector is caught so as not to move forward and backward.
The method of claim 1,
The guide member
A fixed plate coupled to the web of the H-type steel;
Attached to one side of the fixing plate so as to be spaced apart from the web by a guide groove formed between the web and the vertical wing member of the earth plate is inserted so that both ends of the steel earth plate to restrain the H-shaped steel Guide plate; earth block structure using a steel earth plate, characterized in that comprising a.
The method of claim 1,
The upper part of the guide plate is bent in a direction away from the web so that the vertical wing member of the steel earth plate can be easily inserted into the guide groove, and the upper part of the bent guide plate is coupled to the fixed plate through the connecting plate to the inlet of the guide groove. An earth block structure using steel earth plate, characterized in that the space is made larger.
A first step of forming guide grooves between the web by installing guide members on both sides of the web of the H-shaped steel;
A second step of inserting and installing the H-shaped steel having the guide groove formed in the ground at a predetermined interval;
It is installed between the H-shaped steel installed in the ground, and inserted into the steel earth plate with a vertical wing member formed at both ends of the horizontal plate member to be guided and inserted into the guide groove to have a function of blocking soil or groundwater. The third step;
Construction method of the earth block structure using a steel earth plate, characterized in that it comprises a fourth step of excavating the ground to a predetermined depth after the steel earth plate is installed.
The method of claim 8,
If the drilling depth is deep in the third step and the construction while connecting the steel earth plate up and down, the steel earth plate characterized in that connecting the steel earth plate located in the upper and lower by installing the earth plate connecting means to the steel earth plate before installation of the steel earth plate Construction method of used earth block structure.
The method of claim 9,
The earth plate connecting means, the first connector is installed on the lower side of the steel earth plate and the inclined surface is formed on the upper edge, and is installed on the upper one side of the steel earth plate, coupled with the first connector, the inclined surface on the lower edge The second connector is formed, and the cover plate and the cover plate for connecting the first connector and the second connector in a wedge shape by connecting the upper and lower ends to the inclined surfaces of the first connector and the second connector, and the first connector and the second connector. The construction method of the earth block structure using the steel earth plate, characterized in that it comprises a bolt to press the steel earth plate connected up and down.
The method of claim 9,
The earth plate connecting means, the first connector is installed on the lower side of the steel earth plate and is formed on the upper edge of the engaging jaw, the upper side of the steel earth plate is coupled to the first connector, the inclined surface at the bottom edge The second connector is formed, and a locking protrusion is formed at an upper portion so as to be caught by a locking jaw of the first connector. The cover plate for connecting by pressing in contact with the wedge shape and the cover plate comprises a bolt for pressing the first connector and the second connector, the earth soil structure using a steel earth plate, characterized in that connecting the steel earth plate up and down Construction method.

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