KR100965522B1 - Reinforcement material for slope ditch and slope ditch structure using the same - Google Patents

Abstract

PURPOSE: A reinforcing material for a side ditch in a slope and a side ditch structure in a slope using the same are provided to prevent surface water from permeating through the ground by efficiently draining the surface water. CONSTITUTION: A reinforcing material for a side ditch in a slope comprises a lower plate(210), two side plates(220), multiple drainage slits(230), and a filter(240). The lower plate is curved in an L-shape, and is attached on top end of a side ditch(100). The side plates are inclinedly formed in both ends of the top of the curved part of the lower plate. The drainage slits are attached between the side plates. The filter is formed in the bottom of the drainage slits.

Description

Reinforcement material for slope slope and reinforcement material for slope slope using it {Reinforcement Material For Slope Ditch And Slope Ditch Structure Using The Same}

The present invention relates to a reinforcement for the inclined side surface and the inclined side surface structure using the same, which is installed in the conventional inclined side surface as it is to induce a smooth drainage of rainwater and surface water, etc. It relates to a reinforcing material for the inclined side surface and the inclined side surface structure using the same.

In general, when the road is newly installed and expanded, the road is opened by cutting the mountain. Rainwater and surface water flow from the natural slope above the incision, and scour or erosion occurs or the collapse occurs on the slope surface. Therefore, in order to protect the slopes from the surface water flowing from the upper side, slope side openings are installed around the slope to block the inflow of surface water and guide it safely.

Such inclined side openings are very useful for preventing soil loss of slopes and consequent collapse of incised slopes, which can occur when rainwater flows down to slopes.

Such inclined side holes are excavated a part of the incision site, and then (1) concrete construction (hereinafter referred to as 'in-place casting') or (2) pre-fabricated concrete It is constructed by a method of connecting synthetic resin structures such as plastic or polyethylene (hereinafter referred to as 'assembled').

(2) In the case of the assembled type, since the ready-made product manufactured in the factory is used, the backfill layer is formed by backfilling the space between the excavation surface and the drainage with earth and sand.

However, even in the case of the backfill layer, no matter how tightly compacted, there is not enough compaction compared to the ground before the excavation, so when the surface water flows in, the penetration pressure acts to cause the backfill layer to settle and the drainage channel formed by the slope side slope or settlement Bending may occur between the connections between the side openings. Therefore, the normally drained water penetrates between the connecting portions, and the surrounding soil including the lower part of the drainage is easily eroded.

In addition, the drainage channel formed by the side surface of the inclined surface is generally used for collecting and inducing drainage of water flowing from the upper slope, and the water flows into the drainage channel in the direction of the slope of the upper slope and the direction of gravity in the upper slope, and the drainage channel and the upper ground of the drainage channel. Scour and erosion occurring at the boundary of is likely to occur on the excavation surface, especially when the drainage channel is formed higher than the ground due to the settlement of the backfill layer or the compaction is poor.

If ground subsidence occurs due to the infiltration pressure caused by the inflow of surface water in the backfill layer, or if there is a height difference between the drainage channel and the surface boundary surface formed by the slope side opening, the scour and erosion gradually progress as the surface water flows into the construction boundary surface between the drainage channel and the ground. Therefore, the following problems occur.

First, the function of the drainage channel is lost. Because a gap caused by scour and erosion occurs in the upper part of the drainage channel, water such as surface water flowing in from the upper part does not flow into the drainage channel and flows out into the gap.

Therefore, when the outflow of water accumulates, the soil erosion occurs, and the eroded soil is transported with water as it flows into the water, and the drainage function is lost in the long term as it flows into the drainage, manhole, etc. located downstream. In addition, as surface water continuously penetrates into the ground along the gap generated by scouring, there are a number of cases in which tensile cracking occurs and causes slope failure.

1 is a conceptual diagram showing the action of the surface water flow and the resulting force in the conventional slope side opening.

As shown in FIG. 1, the slope side opening is not a problem when the weight is large, such as a concrete structure, but a synthetic resin structure such as plastic or polyethylene having a low weight is horizontal in the slope side surface by surface water and groundwater due to rainwater, etc. The horizontal force and the buoyancy force in the vertical direction are large.

Therefore, the scour due to rainwater or the like occurs on the slope of the side surface of the inclined side surface, resulting in the loss of the soil of the inclined surface, which causes the destruction of activity of the inclined surface, which causes the drainage path of the inclined side surface to be blocked by the soil. .

In addition, the horizontal force and buoyancy cause problems such as leaving the position where the inclined side opening is installed or cracking occurs.

Therefore, it is urgent to prepare a countermeasure for reducing horizontal horizontal force and vertical buoyancy acting on the side surface of the slope by rainwater and groundwater due to rainwater and preventing soil loss.

The present invention is proposed to solve the conventional problems as described above. The purpose is as follows.

First, to prevent the sedimentation and erosion of the soil at the slope side surface and the surface boundary surface by rainwater, etc., to provide a reinforcement for the stable slope side surface from the flow of surface water and the slope side structure using the same.

Second, to prevent scour and erosion caused by surface water flow, and to enable efficient drainage of surface water, the reinforcement for slope side opening minimizes the penetration of surface water into the ground and the slope side opening structure using the same.

Thirdly, by simply assembling the prefabricated member to the existing inclined side opening, it provides reinforcement material for the inclined side opening that can shorten the air, economical and easy construction, and secure the construction quality more than a certain quality even for the unskilled workers. I would like to.

In order to solve the above technical problem, the present invention is a reinforcing material used for the inclined side opening 100,

A lower plate 210 having a vertical surface that is bent in a shape bent in a letter as a whole, is attached to the outer side of the upper side of the inclined side opening 100; Two side plates 220 formed to be inclined upward at both ends of the bent portion of the lower plate 210; A plurality of slits for drainage 230 having both ends attached between the two side plates 220 in a bent form of a plate; And a filter 240 attached to the plurality of drainage slits 230. It provides a reinforcement 200 for the inclined surface side, characterized in that configured to include.

In addition, a plurality of collecting plates 250 installed on the lower plate 210 as a form of the plate as a whole; provides a reinforcement 200 for the inclined surface side, characterized in that it further comprises.

In addition, it provides an inclined side surface structure using the reinforcement 200 for the inclined surface side.

According to the present invention, the following effects are expected.

First, it provides a reinforcement for stable slope side from the flow of surface water and a slope side structure using the same by preventing sedimentation and erosion at the surface side of the slope and the surface boundary by storm water.

Second, it provides a reinforcement for the inclined side opening to minimize the penetration of the surface water by preventing the scour and erosion due to the surface water flow and at the same time to enable efficient drainage of the surface water inflow, and the slope side opening structure using the same.

Thirdly, by simply assembling the prefabricated member to the existing inclined side opening, it provides reinforcement material for the inclined side opening that can shorten the air, economical and easy construction, and secure the construction quality more than a certain quality even for the unskilled workers. do.

1 is a conceptual diagram showing the action of the surface water flow and the resulting force in the conventional slope side opening.
Figure 2 is a combined perspective view of the reinforcing material for the inclined side opening of the present invention.
Figure 3 is a combined perspective view of the inclined side surface structure using the reinforcing material for the inclined side surface of the present invention.
4 is a cross-sectional view taken along line AA ′ of FIG. 3.
5 is a conceptual diagram showing the flow of surface water and groundwater in the reinforcement for the inclined side surface of the present invention and the inclined side surface structure using the same.

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

1 is a conceptual diagram showing the action of the surface water flow and the resulting force in the conventional slope side opening. As described above, it is not a problem when the inclined side opening is large in weight, such as a concrete structure, but a synthetic resin structure such as plastic or polyethylene having a low self weight is vertical in the inclined side opening due to surface water and groundwater due to rain, etc. Buoyancy in the direction is large. Therefore, the scour due to rainwater or the like occurs on the slope of the side surface of the inclined side surface, resulting in the loss of the soil of the inclined surface, which causes the destruction of activity of the inclined surface, which causes the drainage path of the inclined side surface to be blocked by the soil. . In addition, the horizontal force and buoyancy cause problems such as leaving the position where the inclined side opening is installed or cracking occurs.

Figure 2 is a combined perspective view of the reinforcing member for the inclined side opening of the present invention, Figure 3 is a perspective view of the inclined surface side opening structure using a reinforcing member for the inclined side opening of the present invention.

4 is a cross-sectional view taken along line AA ′ of FIG. 3, and FIG. 5 is a conceptual diagram illustrating the flow of surface water and groundwater in a reinforcement for an inclined side opening of the present invention and an inclined side opening structure using the same.

The reinforcement 200 for the inclined side opening of the present invention is a reinforcing material used for the inclined side opening 100,

A lower plate 210 having a vertical surface that is bent in a shape bent in a letter as a whole, is attached to the outer side of the upper side of the inclined side opening 100; Two side plates 220 formed to be inclined upward at both ends of the bent portion of the lower plate 210; A plurality of slits for drainage 230 having both ends attached between the two side plates 220 in a bent form of a plate; And a filter 240 attached and installed below the plurality of drainage slits 230.

In addition, the reinforcing member 200 for the inclined side surface of the present invention of the present invention, a plurality of water collecting plate 250 is installed on the lower plate 210 in the form of a plate as a whole; may be configured to further include the lower plate A plurality of bolt holes may be further formed in the upper or bent vertical surface of 210.

The lower plate 210 is bent in the form of a plate as a whole bent vertical surface is attached to the outside of the top of the inclined side opening 100, so that the inclined surface side opening 100 and the inclined surface can be installed as bolts and anchors, respectively A plurality of bolt holes may be further formed on the upper or bent vertical surface of the lower plate 210.

The side plate 220 is formed to be inclined upward at both ends of the bent portion of the lower plate 210, serves to secure the following drainage slit 230 at both ends and the reinforcing material 200 for the inclined side opening of the present invention ) Facilitates mutual coupling.

The drainage slit 230 is attached to the plurality of ends at a predetermined interval between the two side plates 220 in the form of a plate bent in the letter "A". The drainage slit 230 is installed for the purpose of preventing scour due to the surface water flowing in at a right angle to the drainage direction.

The filter 240 is installed below the plurality of drainage slits 230 and may use a nonwoven fabric or geotextile. As shown in FIG. 5, the filter 240 prevents soil from flowing into the drainage path of the inclined side by rainwater and the like and passes only rainwater.

The collection plate 250 is installed in the form of a plate as a whole, a plurality is installed on the lower plate 210, induces the flow of rainwater, etc., when installed on the inclined surface inclined surface of the present invention together with the lower plate 210 when installed on the inclined surface The reinforcement 200 for the side opening is firmly fixed to the inclined surface as a whole. When the scrub plate 250 is scoured between the drainage channel and the ground due to the nature of the drainage channel installed on the inclined surface, since the scour occurs in the longitudinal direction (parallel with the drainage channel) while water flows in parallel with the drainage installation direction, Is installed.

The lower plate 210, the side plate 220, the drainage slit 230 and the collecting plate 250 are preferably made of a single material, and can be made lightweight using non-ferrous metals or synthetic resins.

The inclined surface side opening structure using the reinforcing material for the inclined surface side opening of the present invention is to construct the inclined surface side opening 100 on the inclined surface,

An inclined side hole 100 installed to excavate an inclined surface; And a reinforcing member 200 for a plurality of inclined side openings which are attached to each other in a line in contact with each other in a line on an outer side of the top of the inclined surface side opening 100, and using a bolt or an anchor. It is fixedly installed on the inclined side opening 100 or inclined surface.

The reinforcement material for the inclined side surface of the present invention and the inclined side surface structure using the same reduce the horizontal and vertical buoyancy acting on the inclined side surface by surface water and groundwater due to rainwater, and the like. And by simply assembling the prefabricated member to the existing inclined side opening, the air is short, economical, easy to construct, and even unskilled workers can secure construction quality above a certain quality. In addition, maintenance is easy.

Although the present invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the gist of the present invention, and can be used in various fields.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

100: slope side opening
200: reinforcement for the inclined side opening of the present invention
210: bottom plate
220: side plate
230: drainage slit
240: filter
250: sump

Claims (9)

As a reinforcing material used for the inclined side opening 100,
A lower plate 210 having a vertical surface that is bent in a shape bent in a letter as a whole, is attached to the outer side of the upper side of the inclined side opening 100;
Two side plates 220 formed to be inclined upward at both ends of the bent portion of the lower plate 210;
A plurality of slits for drainage 230 having both ends attached between the two side plates 220 in a bent form of a plate; And,
A filter 240 attached to the plurality of drainage slits 230;
Reinforcement for the inclined surface side, characterized in that comprises a (200).
In claim 1,
Reinforcing material for the inclined side surface 200, characterized in that the configuration further comprises; a plurality of collecting plate 250 is installed on the lower plate 210 in the form of a plate as a whole.
The method of claim 1 or 2,
Reinforcement for inclined side surface 200, characterized in that a plurality of bolt holes are further formed in the upper or bent vertical surface of the lower plate 210.
The method of claim 1 or 2,
The filter 240 is a reinforcement for the inclined side surface, characterized in that the nonwoven fabric or geotextile (200).
4. The method of claim 3,
The filter 240 is a reinforcement for the inclined side surface, characterized in that the nonwoven fabric or geotextile (200).
In order to construct the inclined surface side opening 100 on the inclined surface,
An inclined side hole 100 installed to excavate an inclined surface; And,
Reinforcing member 200 for the inclined surface side of the plurality of claim 1 or 2 side by side contact with each other in a line on the top outside of the inclined surface side opening (100);
Slope side mouth structure using a reinforcement for the inclined side surface, characterized in that comprising a.
In order to construct the inclined surface side opening 100 on the inclined surface,
An inclined side hole 100 installed to excavate an inclined surface; And,
Reinforcing material for a plurality of side slopes of claim 3 attached to the side in contact with each other in a line on the outside of the top side of the inclined surface side opening (100);
Slope side mouth structure using a reinforcement for the inclined side surface, characterized in that comprising a.
In order to construct the inclined surface side opening 100 on the inclined surface,
An inclined side hole 100 installed to excavate an inclined surface; And,
Reinforcing member 200 for the inclined surface side of the plurality of claim 4 is attached to the outer side in contact with each other in a line on the outside of the top side of the inclined surface (100);
Slope side mouth structure using a reinforcement for the inclined side surface, characterized in that comprising a.
In order to construct the inclined surface side opening 100 on the inclined surface,
An inclined side hole 100 installed to excavate an inclined surface; And,
Reinforcement for the plurality of inclined surface side openings of claim 5 which is attached to the side of the inclined side surface in contact with each other in a row on the top side of the inclined side (100);
Slope side mouth structure using a reinforcement for the inclined side surface, characterized in that comprising a.

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