KR100490675B1 - Frame for Free Moving - Google Patents

Abstract

The present invention relates to a free moving frame.

In particular, it is made of a configuration including a plurality of wire mesh formed in a plate of a certain standard and the interval maintaining member is installed so that the wire mesh is spaced at a predetermined interval.

Accordingly, when installing the lattice-shaped frame on the slope is not necessary for the concrete curing formwork is to reduce the installation cost and shorten the working time.

Description

Frame for Free Moving}

The present invention relates to a free-moving frame that is installed for slope stabilization in more detail, comprising a plurality of wire mesh formed in a plate of a certain standard and the interval maintaining member is installed so as to maintain a constant interval of the wire mesh The present invention relates to a free-moving frame for shortening the working time due to the need for concrete curing formwork when installing a lattice frame on a slope.

In general, slopes are generated during civil works such as roads, banks, and river site development, which are designed to harmonize with the surrounding environment and to prevent natural disasters such as landslides. The same separate members are interconnected to reinforce a slope having a certain area.

This slope reinforcement method is completed by assembling a plurality of blocks in which the space is formed in the center so that the vegetation zone can be formed by simply stacking them on the upper side of the ground. Of course, there is a disadvantage that increases the risk of accidents and labor costs of workers.

In order to compensate for the disadvantages of the slope reinforcement method using a block as described above, a slope construction method is disclosed in Patent No. 180072.

That is, the configuration includes the steps of arranging the sandwiching member 1 such as a ridged net on the slope; The mesh fence-shaped thing is bent into a U-shape, and a plurality of rectangular frame members 2 whose shape is maintained by the spacing member 5 are positioned so that the sides of each end are close to each other, so that the intersection 21 and the outside Fixing the standing position to form the space portion 22; Positioning the fixing member (3) corresponding to the crossing portion (21) so that the frame member (2) is kept in the crossed state; Casting the fixing member, the frame member (2) and the holding member (1) to a predetermined depth from the upper side of the fixing part by using the anchor bolt (4) on the surface of the slope; It is made as a step of gradually plastering with the surface of the frame member (2).

However, the sloped construction method as described above, the frame member and the shape holding member attached to the outer surface is fixed integrally to have a certain volume to have a certain volume during transport and storage, and the application force to irregular ground is reduced, There was a problem that the cross section became vulnerable.

An object of the present invention for improving this, to be easily applied to the ground in irregularities, to facilitate the transport and storage, to minimize the process according to the construction site, and to connect the reinforcing bar and wire mesh in the interval maintenance zone An object of the present invention is to provide a free-moving frame that allows for quick and easy operation.

The present invention to achieve the above object, a plurality of wire mesh formed in a plate having a certain standard; And,

It provides a free moving frame comprising a spacing member is installed so that the wire mesh is spaced at a predetermined interval.

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

As shown in Figures 3 to 7, the present invention is made of a wire mesh 100 and the space maintaining member 200 for supporting it.

The wire mesh 100 is formed to have a lattice shape having a predetermined area.

The spacing holder 200 connected to the wire mesh 100 is formed to maintain the spacing between the wire meshes, and the main body 210 and the spacer 220 connected to the bottom thereof and the main body 210. It is configured as a connector 230 for connecting the wire mesh.

The main body 210 is formed as a second body 210b inserted into and connected to the upper portion of the first body 210a having a C shape and the first body 210a.

The connector 230 is a first member 230a protruding inside the main body 210 to be fixed to the first member 230a to which the rebar 260 is fixed and fixed to the wire mesh 100 protruding from the outside of the main body 210. It consists of two members 230b.

The reinforcing bar 260 may be fixed to the first member 230a by a separate binding line 260a, and the contact piece 270a may be formed such that the interval of the reinforcing bar 260 is reduced so that the reinforcing bar 260 is elastically supported.

In addition, the second member 230b may be formed in an annular shape so as to move freely when connected to the wire mesh 100.

In addition, the second member 230b has a configuration in which a close contact piece 270b is formed in which a distance is reduced so as to move freely when connected to the wire mesh 100.

In addition, a connecting wire mesh 300 having a chamfer surface 300a is connected to an intersection of the wire mesh 100.

In addition, as shown in FIG. 7A, a spacing support 200 is formed as a connector 230 orthogonally connected to a straight main body 210 positioned in a vertical direction, and the connector 230 has an annular second ring. The main body 210 is welded and connected to the linear first member 230a in a configuration in which the member 230b and the linear first member 230a are integrally extended.

In addition, the plurality of wire meshes 100 maintain a predetermined shape through the gap holder 200 and the connecting wire mesh 300, etc., and shotcrete and handwork in the space 310 formed by the gap holder 200. By the concrete 320 is made of a configuration to form the slope reinforcing structure 400 through the pouring work.

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

3 to 7, the wire mesh 100 is formed to have a grid shape having a predetermined area and is formed in a size to prevent the discharge of gravel and the like contained in the concrete.

The wire mesh 100 is installed to be positioned in a vertical direction on the slope for forming the structure, the wire mesh 100 is spaced to form a predetermined space on the inside. The spacing holder 200 is fixed between the wire meshes 100 to form a predetermined space portion 310 between the wire meshes 100.

The wire mesh 100 is connected to each other to maintain a predetermined shape such as a lattice shape on a slope for installing the structure 400, and a chamfering surface 300a at an intersection of the wire mesh 100. Connection wire mesh 300 of the L-shape having a is connected to reinforce the connection.

At this time, the amount of concrete poured at the intersection by the chamfered surface is increased to prevent fatigue due to the stress concentration at the intersection.

In addition, the spacing holder 200 for interconnecting each of the plate-shaped wire mesh 100 is free to move by the connector 230 protruding on one side so that the wire mesh 100 can be overlapped with each other to store and It is easy to move.

In addition, when the connection by the spacing 200 to be freely up and down on the slope to improve the response to the slope is improved to prevent the lifting, such as when the completion of the construction is excellent in the response to the ground, and to completely reinforce the slope.

In addition, the spacing holder 200 is formed to maintain the spacing between the wire mesh, and has a structure corresponding to the strength of the structure 400 by the reinforcing bars 260 supported by the connector 230, respectively.

At this time, the main body 210 is composed of a first body 210a having a C shape and a second body 210b inserted into and connected to an upper portion of the first body 210a, and a whole of which is connected. The frame is formed, and when the reinforcing bar 260 is connected to each of the frame to form a frame.

The reinforcing bar 260 and the wire mesh 100 are connected to each other by the binding line 260a, welding, etc. in the spacing support 200.

In addition, the connector 230 is fixed to the first mesh member 230a protruding inside the main body 210 to fix the rebar 260 and the wire mesh 100 protruding from the outside of the main body 210. It is made as a second member 230b to be mutually folded of the wire mesh 100 connected thereto.

On the other hand, the first member (230a) is formed in the connector 230, the contact portion 270a to maintain a constant elasticity is formed integrally with the interval is reduced at the end of the reinforcing bar 260 is a separate binding It is elastically supported and fixed without a method.

In addition, the second member (230b) formed in the connector 230 is also formed at the end of the close contact piece (270b) to maintain a constant elasticity to reduce the gap is integrally formed so that the wire mesh 100 is a separate binding method It is elastically supported without fixing.

On the other hand, as shown in Figure 7a the connector 230 is connected to the orthogonal to the straight main body 210 located in the vertical direction as shown in FIG. The wire mesh 100 is arranged so as to be connected to each of the hook-shaped second members 230b to the wire mesh 100 while maintaining a predetermined interval.

It describes the installation state of the structure made of the above configuration.

First, the plurality of wire meshes 100 and the connecting wire meshes 300 are arranged in a predetermined state, and the space 310 is formed between the wire meshes 100.

In addition, the spacing holder 200 is fixed between the wire meshes 100 so that the space 310 maintains the spacing, and the rebar 260 is fixed to the spacing holder 200.

Subsequently, by pouring concrete 320 by shotcrete and handwork inside the space 310 maintaining a constant shape by the wire mesh 100, the spacing support 200 and the connecting wire mesh 300 by curing The structure 400 for slope reinforcement is completed on the upper side of the slope to reinforce the slope.

Thus, according to the free-moving frame of the present invention, to be easily applied to the irregular ground, to be easily carried and stored, there is an excellent effect to minimize the process according to the construction site.

In addition, the field response is excellent, and the resistance to the ground activity is improved, and the work of connecting the reinforcing bar and the wire mesh to the space maintenance is quick and easy.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as provided by the following claims. I would like to clarify that those who have knowledge of this can easily know.

1 is a perspective view showing a conventional frame

Figure 2 is a perspective view of the mounting state of the conventional frame

Figure 3 is a perspective view showing the assembled state of the free moving frame according to the present invention

Figure 4 is a perspective view showing the assembled state of the object frame according to the present invention

5 is a perspective view showing the assembled state of the frame according to the present invention;

Figure 6 is a construction state flowchart of the frame according to the present invention

7A and 7B are perspective views each showing a connection state of a frame according to another embodiment of the present invention.

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

100 ... wire mesh 200 ... spacing zone

220 ... Spacer 230 ... Connector

260 Rebar 270a, b

300 ... Connected Wire Mesh

Claims (5)

TT having a predetermined width by the wire mesh 100 formed to have a grid shape having a predetermined area and the spacing holder 200 composed of the main body 210 and the connector 230 so as to maintain a gap between the wire meshes. And a free-moving frame continuously forming a + shape, Connection wire mesh 300 having a chamfer surface (300a) is further connected to the corner portion of the wire mesh 100, the connector 230 is characterized in that the close contact pieces (270a) (270b) are respectively installed at both ends thereof. Free moving frame. delete delete delete delete