KR100445459B1 - A gravity type retaining wall structure of corrugated steel plate - Google Patents

Abstract

The present invention relates to a retaining wall structure for securing a support base for artificially inclined surfaces due to naturally formed inclined surfaces, road works, railways, land development, etc. The technical configuration of the present invention is a gravity retaining wall structure using a corrugated steel sheet according to the present invention. Grooved steel installed vertically on the ground and a stringer having a corrugated cross section which is fastened to the flange of the grooved steel to form a transverse wall are joined by screws or welding.

In addition, the vertical connection member is vertically coupled with the grooved steel, and the spacer of the corrugated cross section for forming a vertical wall in the longitudinal direction of the vertical connection member is coupled to the gist by screw or welding.

Description

Gravity retaining wall structure using corrugated steel plate {A gravity type retaining wall structure of corrugated steel plate}

The present invention relates to a retaining wall structure for securing a support base of artificially inclined surfaces due to naturally formed inclined surfaces or road works, railways, land development, etc. In particular, after continuous fastening of a light corrugated steel sheet in the form of a closed section box, The present invention relates to a gravity retaining wall structure using corrugated steel sheets that can effectively respond to external loads by forming a single structure through soil filling.

In general, a known retaining wall is a structure for securing a support base to be carried out when there is a fear of destruction of the structure due to weak earth pressure supporting the structure or when an unequal settlement is expected.

The conventional retaining wall structure as described above is usually composed of retaining wall structure using reinforced concrete (RC) concrete, subsidence and ground subsidence in the area where the foundation ground is weak or there is a risk of erosion of the part adjacent to the banks of the sea, river and lake There is a disadvantage in that the crack of the concrete structure due to the relaxation and thereby the safety of the structure is lowered.

In addition, in the case of the retaining wall structure using the reinforced concrete as described above, there were many problems such as a long construction time due to the construction of the structure and a considerable amount of manpower consumption and construction cost.

The present invention has been made to solve the problems of the prior art as described above, the object is, after the continuous fastening in the form of a closed cross-section box in the field using a steel member comprising a thin, lightweight rigid corrugated steel sheet, Forming a single structure through the soil filling operation into the closed cross-section box, to flexibly cope with the load and back soil pressure to ensure the safety of the retaining wall, as well as to easily handle the structure by using a lightweight corrugated steel sheet It is to provide the gravity retaining wall structure using corrugated steel sheet that can shorten the assembly time and reduce the manpower and construction cost.

1 is an exploded perspective view showing a coupling state of the gravity retaining wall structure using a corrugated steel sheet according to the present invention.

2 is a perspective view showing a coupling state according to FIG.

Figure 3 is a plan view showing an assembled installation state of gravity retaining wall structure using a corrugated steel sheet according to an embodiment of the present invention.

Figure 4 is a side cross-sectional view according to the construction example of the gravity retaining wall structure using a corrugated steel sheet according to the present invention.

5 is a gravity retaining wall structure using a corrugated steel sheet according to another embodiment of the present invention.

<Code Description of Major Parts of Drawing>

10 ... grooved steel 12 ... flange

14 ... 16

20 ... Vertical connection member 30 ... Corrugated steel sheet

32 ... Stringer 34 ... Spacer

40.Stringer stiffener 50.Slope plate

The present invention as a technical configuration for achieving the above object, the groove is formed on the foundation ground and having a predetermined length in the longitudinal direction consisting of a flange and a slab formed grooves groove;

A vertical connection member coupled to the grooved steel at a vertical angle with the grooved steel;

A corrugated steel sheet including a spacer coupled to a stringer coupled to the flange of the grooved steel and a vertical connection member;

Stringer reinforcement for preventing twist and secure the coupling strength according to the flange and the stringer coupling; And

It is coupled to the groove-type steel bottom surface is characterized in that it comprises an inclined plate for securing a contact surface with the ground when the inclined surface of the structure.

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

1 is an exploded perspective view showing a coupling state of the gravity retaining wall structure using a corrugated steel sheet according to the present invention, Figure 2 is a combined perspective view showing a coupling state according to Figure 1, the gravity retaining wall structure using a corrugated steel sheet of the present invention is A groove 12 formed of a flange 12 having a predetermined length in the longitudinal direction and having a predetermined length in a longitudinal direction, the grooved steel 10 having a mounting groove 16 formed thereon, and a flange of the grooved steel 10; A stringer 32 having a corrugated cross section which is combined with 12 as a screw or a weld to form a transverse wall is provided.

In addition, the vertical connection member 20 is vertically coupled with the grooved steel 10 by the grooved steel 10 and the double plate 14, and the longitudinal cross-section of the corrugated section for forming a vertical wall in the longitudinal direction of the vertical connection member 20. Spacer 34 is coupled.

On the other hand, the flange 12 from the upper surface of the stringer 32 in order to prevent the twisting and deformation of the coupling portion due to the external load when the flange 12 and the stringer 32 of the grooved steel 10 is coupled or welded. Stringer reinforcement 40 is rolled up to the top surface, and the bottom surface of the grooved steel 10 is an inclined plate 50 to secure the contact area with the inclined surface ground according to the inclined surface of the grooved steel 10 It consists of a construction that is installed.

Referring to the operation and effect of the present invention made of such a configuration as follows.

As shown in Figures 1 to 4, the corrugated steel sheet 30 applied to the present invention has a high stiffness, such as a concrete retaining wall because it has a corrugated cross section of the thin plate in order to ensure flexibility to resist the load and back earth pressure To ensure stability against unforeseen small amounts of ground loosening and settlement, which are susceptible to damage to the structure.

In addition, hot-dip galvanizing treatment is performed over the entire surface of the corrugated steel sheet 30 to prevent corrosion caused by seawater or moisture contained in the ground surface.

On the other hand, the vertical connection member 20 is a member that is horizontally coupled with the plate 14 of the grooved steel 10 to be coupled to the spacer 34 of the corrugated steel sheet 30, using a corrugated steel sheet according to the present invention It serves as a coupling member for coupling the spacer forming the vertical wall of the gravity retaining wall structure.

The stringer stiffener 40, which is rolled up from the top surface of the stringer 32 to the top surface of the flange 12, is twisted and coupled due to the loading load when the flange 12 and the stringer 32 fastened to form the transverse wall are coupled. This is to secure the bonding strength to prevent deformation of the site.

On the other hand, the inclined plate 50 coupled to the bottom of the grooved steel 10 is a gravity-type retaining wall structure using the corrugated steel plate according to the present invention when the groove-type steel is ground to the ground when inclined to the inclined surface of the grooved steel 10 to secure the base of the inclined surface In order to prevent sedimentation, the grooved steel 10 is installed to secure a contact area with the ground.

On the other hand, as a fastening method between the structures for the structure partition so far, by using a fastening member such as screws and bolts, or by simply connecting or joining through welding, construction time and manpower consumption due to the coupling between the structures are reduced. Can be reduced.

Referring to the assembly process of the gravity retaining wall structure using the corrugated steel sheet as shown in Figures 1 to 2, the groove-shaped steel 10 is installed vertically installed on one side on the foundation ground vertically, the groove type The flange 12 of the steel 10 and the stringer 32 having a corrugated cross section are coupled in a horizontal direction to form a transverse wall.

From the top surface of the stringer 32 to the top surface of the flange 12 in order to secure the bonding strength of the coupling portion of the flange 12 and the stringer 32 of the grooved steel 10 forming the horizontal wall as described above The stringer reinforcement 40 is installed, and as the bottom of the grooved steel 10, an inclined plate 50 for securing a contact area with the ground according to the inclined surface of the grooved steel 10 is the bottom of the grooved steel 10. It is mounted on the flange 12.

On the other hand, after the vertical connecting member 20 is coupled to the plate 14 by a screw or welding in the horizontal direction with the plate 14 formed in the grooved steel 10, the spacer having a corrugated cross section with the vertical connecting member 20 34 is combined to form a vertical wall.

Accordingly, the gravity retaining wall structure using the corrugated steel sheet of the present invention produced through the assembly process as described above in the form of a closed cross-sectional box (closed-face box) as shown in the embodiment of FIG. Then, by forming a single structure through the soil filling operation, the weight of the box-like structure and the weight of the soil sand as the filling material are synthesized to function as a gravity retaining wall that resists the load and the back soil pressure.

On the other hand, the gravity retaining wall structure using a corrugated steel sheet according to the construction example applied to the present invention, as shown in Figure 4 additionally to protect the stable slope of the artificial inclined surface due to the inclined surface or road construction, railway, land development, etc. Partly sloped to the end of the inclined surface to secure the support base of the relative steep slope that avoids the cover soil, and inside the structure, it is possible to secure the safety of the soil load on the top of the slope by filling the soil (S) in the field. will be.

On the other hand, Figure 5 is a perspective view showing another embodiment of the gravity retaining wall structure using a corrugated steel sheet according to the present invention, a panel 60 is inserted between the grooved steel (10).

That is, by inserting the panel 16 into the installation groove 16 partitioned between the flange 12 of the front grooved steel 10 of the retaining wall, as shown in Figure 5 to improve the appearance and provide a user-centered structure There is an advantage to this.

Here, as the panel 60 inserted into the flange 12 as described above, it is preferable to use a panel having a beautiful appearance, such as concrete or wood or marble panels.

As described above, the gravity retaining wall structure using the corrugated steel sheet according to the present invention is a thin plate and uses a steel member including a lightweight rigid corrugated steel sheet to flexibly cope with the load and back earth pressure to secure the safety of the retaining wall. Of course, it is easy to handle and assemble by using a lightweight member, it is possible to complete the retaining wall structure through a simple fastening or welding operation to shorten the retaining wall assembly time it is possible to secure the economics by reducing the manpower and construction costs.

In addition, the structure according to the present invention can be used by simply repositioning to another place after several years of use in one place, or can be used to modify and extend to suit the conditions and conditions of the place of application is an environmentally friendly advantage.

What has been described above is just one embodiment for carrying out the gravity retaining wall structure using the corrugated steel sheet according to the present invention, the present invention is not limited to the above embodiment, as claimed in the utility model claims below Without departing from the gist of the present invention, those skilled in the art belong to the technical spirit of the present invention to the extent that various changes and implementations are possible.

Claims (3)

A grooved steel 10 which is arranged on the foundation ground and has a predetermined length in the longitudinal direction and is composed of a flange 12 and a double plate 14 formed with a mounting groove 16; A vertical connection member 20 coupled to the groove 14 of the grooved steel 10 at a vertical angle with the grooved steel 10; A corrugated steel plate 30 including a stringer 32 coupled to the flange 12 of the grooved steel 10 and a spacer 34 coupled to the vertical connection member 20; Stringer reinforcement (40) for preventing the twist and secure the coupling strength due to the coupling of the flange 12 and the stringer 32; And Gravity retaining wall structure using a corrugated steel plate is coupled to the bottom of the groove-like steel (10) and consists of a slope plate (50) for securing a contact surface with the ground during the inclined surface of the structure. The gravity retaining wall structure using a corrugated steel sheet according to claim 1, further comprising a panel (60) mounted to the mounting groove (16) of the grooved steel (10). 3. The gravity retaining wall structure of claim 2, wherein the panel is made of any one of concrete, wood, and marble.