KR101257367B1 - Slope guard construction method using bended connector - Google Patents

Abstract

When the road or tunnel is to be formed on the slope, the construction method of the protection facility that can protect the rock fall when rock fracture by slope excavation, etc., the construction method is the H-beam along the stationary ground around the slope One side end of the lower pedestal toward the inclined surface is installed in a plurality spaced apart in parallel, the lower flange of the H-shaped lower pedestal is installed so as to contact the upper surface of the ground and one side end of the H-shaped steel extending toward the inclined surface An anchor penetrating the upper flange and the lower flange in the ground is fixed to the ground, and the outer plate portion extending in contact with the flange outer surface of the end connection surface of the inclined butt and bent toward the flange back side of the post plate integrally with the outer plate portion Position the bending joint including the hook portion formed so as to be vertically positioned along the post support. As it moves, the inclined butt and the post butt are connected to each other by bolts and nuts.

Description

Construction method of protection facility using bending connector {SLOPE GUARD CONSTRUCTION METHOD USING BENDED CONNECTOR}

The present invention relates to a method for constructing a protective facility using a bending connecting rod. More specifically, the present invention relates to a method of constructing a protection facility that can protect the rock from falling in the event of rock crushing due to slope excavation when a road or tunnel is to be formed on a slope.

In order to construct a structure such as a tunnel or a road on a slope such as a mountain according to the site conditions, a construction is required to excavate and arrange the inclined surface of the original ground A as shown in FIG. 1A so that the planned cut slope B is formed.

However, when the inclined skin such as a mountain is removed, the interior is often made of rock, so when the slope is excavated and stopped using equipment such as a backhoe, a protective facility 10 is installed so that the crushed rock does not roll down. The safety accident should be prevented.

Therefore, since the protection facility 10 should be constructed as a stable structure so that the rock and the like does not fall even when the impact is rolled off, conventionally, the bottom of the post structure 11 is stopped after the ground is stopped flat and horizontally around the inclined surface. Stopped ground (C) to be buried, but after installing a plurality of the post structure 11 at regular intervals along the suspended ground,

The post structure 11 was constructed in such a way that a wall portion 12 such as a channel or a wire mesh was constructed.

That is, it can be said that the post structure 11 with the lower part embedded in the ground resists the load caused by the rock etc. which fell to the wall part.

Accordingly, the H-shaped steel used as the post structure 11 is installed by driving the ground using the driving machine, or the bored ground C is formed by a perforator, and the post structure 11 is inserted into the drilling hole. I have been using a grouting method.

However, if the construction method is followed, large structures such as cruisers and perforators must be put into the site, and in order to put such large equipment on the site, sufficient working radius must be secured in consideration of rotation radius.

However, it is very difficult to secure such a sufficient working radius in cut slopes, and even if it can be secured, it was inconsistent in terms of construction cost.

In particular, the protection facilities installed on the inclined surface were able to secure stable economics and secure economic feasibility, and the construction method of the protection facilities that was easy to install was desperately required.

Figure 1b shows an example that can be installed prefabricated as a protective facility, but not for rock fracture protection facilities.

That is, the H-shaped steel (1) is used as a post structure, the lower surface of the H-shaped steel (1) to be supported by the lower channel member (3), the H-shaped steel (1) and the lower channel member (3) is also a channel member A prefabricated protection facility for supporting the inclined channel 5 is introduced.

Therefore, it is understood that the horizontal bar 4 is installed so that the H-shaped steel 1 and the lower channel member 3 are integrated with each other, and a wall portion 2 such as a c-channel member is formed between the H-shaped steel 1. Can be.

Since these protective facilities are manufactured in a prefabricated manner, the connection of the H-shaped steel 1 and the lower channel member 3 and the connection of the inclined channel 5 are all connected using the L-shaped channel using mechanical fasteners such as bolts and nuts. Method is used.

However, such a prefabricated protection facility is very easy to manufacture and construction, but if you use the one formed in a constant length in the production and installation of the inclined channel (5) connecting the H-shaped steel (1) and the lower channel member (3) According to the site, various inclined channels are needed, and when manufacturing the inclined channel accordingly, the processing cost and the work in the field were very inconvenient.

In addition, the protection facility has a problem that it is impossible to use as a rock crushing protection facility on the cut slope because the protection is so self-installed only to the lower channel member (3) so that there is a great risk of falling when the impact is applied.

Therefore, the present invention is more structurally stable, such as a rock crushing protection facility, does not require large equipment in the installation, but can be installed in a prefabricated manner to adjust the installation location, spacing, etc. of the components according to the site conditions, depending on the work environment The technical problem to be solved is to provide a method for constructing a protection facility using an applicable bending connecting rod.

The present invention

In the method of constructing a rock fracture protection facility comprising a post support on the upper surface of the lower support, comprising an inclined support installed between the post support and the lower support,

One side of the lower base of the H-beams is installed to be spaced apart in parallel along the stationary ground around the inclined surface, and the bottom surface of the lower flange of the H-beams of the lower base is in contact with the upper surface of the ground. An anchor penetrating the upper flange and the lower flange at one end of the H-beam extending toward the inclined surface is fixed to the ground,

Install H-shaped post support on the lower support,

Install an inclined butt H-shaped steel on the upper surface of the lower support from the flange of the post support,

Including a wall portion including a U-shaped channel between the post pedestal,

The connection between the inclined butt and the post butt

A bending connector including an outer plate portion extending in contact with the flange outer surface of the end connection surface of the inclined support and the engaging portion formed to be bent and extended toward the rear surface of the flange of the post support integrally with the outer plate portion to position vertically along the post support It provides a method of constructing a protection facility using a bending connecting rod to be made by connecting the inclined butt and the post butt by bolts and nuts while moving.

In other words, by fixing the lower support base to the ground by using an anchor, and freely modify the installation position of the inclined support so that the protection facilities can be more stable and efficient construction.

In addition, preferably the connection between the inclined butt support

The bending connector including the outer plate extending in contact with the flange outer surface of the connection surface of the inclined support and the engaging portion formed to be bent and extended toward the rear surface of the flange of the post support integrally with the lower support to move the position horizontally It provides a method of constructing a rock fracture protection facility using a bending connecting rod to be made by connecting the inclined support and the lower support by bolts and nuts.

Also preferably the lower support

The length extending toward the rock fracture surface relative to the post support is formed longer than the length extending toward the rear surface of the post support;

Construction method of rock crushing protection facility using a bending joint to extend only to the rock fracture surface based on the post support, and to anchor anchors penetrating the upper flange and the lower flange to the ground in addition to the other end of the lower support H-beam Will be provided.

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Protective facilities according to the present invention can be installed in a prefabricated according to the site conditions it is easy to manufacture, install and dismantle, not only advantageous to shorten construction air and reduce construction costs, but also structurally very stable installation is possible If the protection facility is replaced, it is possible to secure very economical and constructability.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Figure 1a is a cross-sectional view of the construction of the protective facilities in the conventional cut slope,
Figure 1b is an exploded perspective view of a conventional prefabricated protective facility,
Figure 2a and Figure 2b is a cross-sectional view and installation perspective view of a rock fracture protection facility using a bending connecting rod according to the present invention,
3a and 3b is a connection configuration of the pedestal using the bending connecting rod according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

<Protection facility 100 using the bending connecting rod of the present invention>

The protection facility 100 of the present invention is largely composed of a lower support 110, a post support 120, an inclined support 130, a wall portion 140, an anchor 200 and a bending connector 300.

First, the lower support 110 is to use the H-beam and consists of the upper flange 111, the abdomen 112 and the lower flange 113, the lower flange is set to contact the ground (C) the bottom of the stop. .

The lower support 110 is installed so that one side end (D1) of the lower support 110, which is H-shaped along the stationary ground (C) around the inclined surface toward the inclined surface (S), spaced apart in parallel. It will be installed in accordance with the extension of the protective facility.

At this time, the anchor 200 penetrating the upper flange and the lower flange to one side end (D1) of the H-beam extending toward the inclined surface is installed to be fixed to the ground (C).

The anchor 200 allows the lower support 110 to be securely fixed to the ground, so that the impact load by the rock or the like is transmitted to the post support 120 and the wall portion 140 connected to the lower support 110. Even if the case has a post function 120 and the wall portion 140 has an important function to prevent the conduction.

Accordingly, the anchor 200 is installed by forming an insertion hole in the ground (C) using a small drill and inserting an anchor rod into the insertion hole. Such a small drill is not bulky, so the work required in a relatively narrow space is required. It is very advantageous for the construction and enables the constructability and field application as compared to the case of using a large-scale conventional equipment.

The post pedestal 120 is installed to extend vertically on the upper surface of the lower pedestal 110, the post pedestal 120 also uses the H-beam. The upper flange 121, the abdomen 122 and the lower flange 123 is composed of one side facing the inclined surface (S) side is installed on the lower pedestal 110.

At this time, the lower portion of the post pedestal 120 and the connection portion of the lower pedestal 110 is to be fixed to each other by a bolt and nut using the L-shaped channel 150.

The inclined pedestal 130 is an H-beam formed inclined downward between the lower pedestal 110 from the front and back of the post pedestal 120 also to the upper flange 131, the abdomen 132 and the lower flange 133 What is formed is used.

The top of the inclined pedestal 130 is connected to the post pedestal 120, and the lower end is to be connected to the lower pedestal 110, which is introduced to each of the connection by Figure 3a and 3b.

First, according to Figure 3a is shown the connecting portion of the inclination butt 130 and the post pedestal 120, this connection means is to use the bending connector 300.

The bending connector 300 is integrally formed with the outer plate 310 and the outer plate 310 extending in contact with the outer surface (E1) of the flange 131 of the end connecting surface of the inclined support 130 and the post support 120 It is formed to include a locking portion 320 is formed to be bent and extended toward the rear surface (E2) of the flange 121.

Accordingly, the bending connecting unit 300 is set on the upper end of the inclined support 130 so that the outer plate portion 310 is fixed to the fastener 160 such as bolts and nuts in advance, and the locking portion 320 is post-supported. It can be seen that it is possible to freely adjust the setting position of the end connection surface of the inclined support 130 while being disposed to move up and down along the rear surface (E2) of the flange 121 of 120.

In addition, the inclined pedestal 130, which is inclined downward from the rear surface of the post pedestal 120 to the lower pedestal, is installed in the same manner by using the bent connecting rod 300 to install the post pedestal 120.

In this way, the setting position of the inclined support on the post support can be freely changed by the form of the bending connector of the present invention, and it is easy to install using the fastener 160, and the connection configuration is simple enough to ensure sufficient connection rigidity. It can be seen.

Next, according to Figure 3b is shown the connecting portion of the inclined support 130 and the lower support 110, such a connection means is also used for the bending connection 300.

In addition, the bent connecting member 300 is integrally connected with the outer plate portion 310 and the outer plate portion 310 extending in contact with the outer surface (E1) of the flanges (131, 133) of the end connection surface of the inclined support (130) It is formed to include a locking portion 320 formed to be bent and extended toward the rear surface (E2) of the flange 111 of 110.

Accordingly, the bending connector 300 is set at the bottom of the inclined support 130 so that the outer plate portion 310 is fixed to the fastener 160, such as bolts and nuts, in advance, the locking portion 320 is the lower support It can be seen that it is possible to freely adjust the setting position of the end connecting surface of the inclined support 130 while being disposed to move horizontally along the rear surface (E2) of the flange 111 of (110).

Next, the wall portion 140 is installed in a manner of stacking up and down between the abdomen of the post pedestal 120 using, for example, a c-shaped channel.

Therefore, if the rock rolls down the inclined surface, the impact load is first transmitted to the wall portion 140 so that the post support 120 supporting both ends of the wall portion 140 receives a load to be conducted.

Since the lower part of the post support 120 is directly supported by the inclined support 130 and the lower support 110, such a load is dispersed, the lower support 110 and the inclined support 130 is fixed to the ground (C) by the anchor ) And the bending connector 300 can sufficiently resist the load.

At this time, although not shown, in the case of the lower pedestal 110, the length can be adjusted so as not to extend in the opposite direction to the inclined plane based on the post pedestal 120, which can be applied when the secured area of the ground (C) is very small. It can be seen that the post support material in addition to the pedestal is installed in an inverted L shape.

The anchor is installed on the lower support 110 so that the lower support can be supplemented as the length becomes shorter.

<Method of constructing protection facility 100 using bending joint of the present invention>

The construction method will be described with reference to FIG. 2A.

First, a construction is performed in which a planned cut slope B is formed while cutting the ground while cutting the inclined surface S using a backhoe or the like.

As a result, it can be seen that a stationary ground C having horizontal flatness is formed, and the protection facility 100 of the present invention is installed in the ground C.

The ground (C) can have a variety of positions according to the formation height of the inclined surface.

Accordingly, the protection facility 100 is not installed in a state of being assembled, but each component is divided and once transported near the ground (C), will be installed directly assembled.

In this order, first to determine the position to install the anchor 200 in the ground (C) to form an insertion hole.

Therefore, the insertion hole is to be constructed with a small drill, and will form a plurality in a row along the ground (C), which will be determined according to the installation position of the lower support.

Accordingly, the lower base 110, which is an H-shaped steel having a through hole corresponding to the insertion hole, is installed first, and an anchor rod is inserted into the through hole to set the lower end of the anchor rod to extend into the insertion hole of the ground.

Next, the mortar or the like is injected into the insertion hole so that the anchor rod is completely fixed to the ground, and the upper end of the anchor rod is fixed to the upper surface of the lower base 110 by a fastening nut.

As a result, it can be seen that the lower support 110 can be securely installed on the ground (C).

Next, by using the L-shaped channel 150 and the fastener, the post pedestal 120 is installed vertically on the upper surface of the lower pedestal 110.

Next, in the state in which the outer plate portion 310 of the bending connector 300 is fastened by using bolts and nuts in advance on the upper and lower ends of the inclined pedestal 130, the post pedestal 120 of the inclined pedestal 130. And so that the engaging portion 320 is disposed on the inner surface of the flanges of the lower supporter to mount the inclined supporter 130 to the post supporter 120 using the final bolt and nut.

The inclination butt 130 may be installed with various inclination angles according to its extension length, and if it is necessary to adjust it according to the site, loosen the bolt and nut fastening the bending connector 300 of the present invention and position By setting it again, the installation position of the inclined feet can be easily set.

Next, by installing the wall portion 140 which is a U-shaped channel member horizontally stacked up and down between the abdomen of the post pedestal 120, the construction of the protection facility 100 according to the present invention can be completed.

After the final cut slope is completed and the desired structure is constructed, the protection facility 100 of the present invention is removed. In this case, each member is separated by releasing bolts and nuts, and then stored for reuse.

100: protective facilities
110: lower stand
120: post stand
130: Tilt Stand
140: wall portion
200: anchor
300: bending connector

Claims (4)

In the method of constructing a rock fracture protection facility comprising a post support on the upper surface of the lower support, comprising an inclined support installed between the post support and the lower support,
One side of the lower base of the H-beams is installed to be spaced apart in parallel along the stationary ground around the inclined surface, and the bottom surface of the lower flange of the H-beams of the lower base is in contact with the upper surface of the ground. An anchor penetrating the upper flange and the lower flange at one end of the H-beam extending toward the inclined surface is fixed to the ground,
Install H-shaped post support on the lower support,
Install an inclined butt H-shaped steel on the upper surface of the lower support from the flange of the post support,
Including a wall portion including a U-shaped channel between the post pedestal,
The connection between the inclined butt and the post butt
A bending connector including an outer plate portion extending in contact with the flange outer surface of the end connection surface of the inclined support and the engaging portion formed to be bent and extended toward the rear surface of the flange of the post support integrally with the outer plate portion to position vertically along the post support Construction of rock fracture protection facility using a bending connecting rod characterized in that made by connecting the inclined butt and the post butt by a bolt and nut while moving. The method of claim 1, wherein the connection between the inclined support and the lower support
The bending connector including the outer plate extending in contact with the flange outer surface of the connection surface of the inclined support and the engaging portion formed to be bent and extended toward the rear surface of the flange of the post support integrally with the lower support to move the position horizontally Construction of a rock fracture protection facility using a bending connecting rod, characterized in that made by connecting the inclined support and the lower support by bolts and nuts. The method of claim 1, wherein the lower support
The length extending toward the rock fracture surface relative to the post support is formed longer than the length extending toward the rear surface of the post support;
Construction method of rock crushing protection facility using a bending joint to extend only to the rock fracture surface based on the post support, and to anchor anchors penetrating the upper flange and the lower flange to the ground in addition to the other end of the lower support H-beam . delete

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