KR20130102751A - Apparatus for connecting lattice girders - Google Patents

Abstract

PURPOSE: A device for connecting lattice girders is provided to facilitate the construction of a spacer and the placing of shotcrete. CONSTITUTION: A device (20) for connecting lattice girders comprises a connection plate (21), a linkage (23), and a spacer (25). The connection plate is symmetrically installed on the lateral side of a lattice girder. The linkage is symmetrically attached to the surface of each connection plate. The both ends of the spacer are inserted to a side of the linkage where neighboring lattice girders face each other.

Description

Grid paper retaining connecting device {APPARATUS FOR CONNECTING LATTICE GIRDERS}

The present invention relates to a grid support material used in the tunnel method, and more particularly, the spacer is spaced vertically downward from the excavated surface of the tunnel so that the spacer is not interfered by uncut sections and adjacent to the membrane side. The fitting hole of the ring is related to the grid support material connection device that can proceed very easily and quickly the construction work of the spacer by minimizing blockage due to the casting of shotcrete.

Tunneling methods include various methods such as American Steel Supported Method (ASSM), New Austrian Tunnelling Method (NATM), Tunnel Boring Machine (TBM) and Shield Method.

Among them, the NATM method is widely used, and this NATM method is a method of excavating a tunnel after stabilizing the ground by fixing it with shotcrete and supporting material after fixing it with rock bolts using the support force of its own ground. . In particular, the NATM method adopts the principle of using the ground itself as a main treasure while maintaining the original strength of the original ground, and it is an adaptable method with good economic adaptability under general conditions due to its good adaptability to ground changes and a wide range of applications.

In this NATM method, construction of steel ribs, shotcrete, and rock bolts is integrated immediately after the excavation of the tunnel, thereby realizing high dynamic effects, thereby securing stability of the tunnel and surrounding rock. .

Immediately after the tunnel is excavated, after constructing a plurality of stiffeners on the excavation surface of the tunnel, the shotcrete is sprayed and attached to the inner circumferential surface of the tunnel. It must be constructed.

The stiffeners are formed in an arcuate structure corresponding to the excavated section of the tunnel and support the loads, and serve as temporary stiffeners, load distribution of shotcrete, supporting method for supporting method, and ground displacement suppression.

Types of steel support include H-shaped steel support, lattice girder, and U-shaped steel support.

H-beam support material is mainly used in the section that requires the initial stiffness when the ground and topographic conditions, such as shafts and fault zones are unfavorable, but the weight is heavy, there is a disadvantage that the construction cost is lowered and the construction cost increases.

In the case of lattice support material, it is mainly used in the section with better ground condition than H-beam support material, and it is lighter than H-beam support material, so construction property is good, and integration with shotcrete has better advantages in H-beam support material.

On the other hand, a plurality of lattice support material is constructed corresponding to the excavation surface of the tunnel, the plurality of lattice support material is spaced apart at regular intervals along the longitudinal direction of the tunnel, the plurality of lattice support material by a plurality of spacers (horizontal) By being connected along the longitudinal direction of the tunnel, the plurality of grating supports are firmly reinforced with their supporting stiffness. Deformed steel is mainly used as the spacer.

Meanwhile, the spacer is bent at both ends thereof, and each of the bent ends of the spacer is fitted to the fitting hole side of the connecting ring fixed to the grating support, so that the spacers are configured to connect the grating support.

However, according to the related art, when the shotcrete is placed in the space between the rear surface of the spacer and the excavation surface of the tunnel, the spacer of the grid support is positioned near the excavation surface of the tunnel, that is, the shotcrete surface of the tunnel. Due to the uneven section in the installation of the spacer is hindered, thereby causing a significant delay in the overall process, there was a disadvantage that the workability is greatly reduced.

In addition, according to the prior art, as the shotcrete is placed in the state in which the spacer is not yet installed on the fitting hole adjacent to the membrane side, a phenomenon in which the insertion hole of the connecting ring is blocked by the shotcrete frequently occurs, and thus the excavation of the membrane side After this is completed, as the spacer must be completely removed after the shotcrete buried in the fitting hole adjacent to the membrane side, the work process is not only very cumbersome but also delays working time, which greatly reduces the overall workability. There was a disadvantage.

In addition, according to the prior art, the space between the back surface of the spacer and the excavation surface of the tunnel is not enough, and as the spacer interferes with or interferes with the casting of the shotcrete, the shotcrete is not easily placed. When the shotcrete was placed on the rear side, a very large amount of shotcrete was consumed, and the construction cost thereof was increased. Also, there was a disadvantage in that a lot of voids were generated on the rear side of the spacer.

The present invention has been made in view of the above, the grid support material that can proceed very easily and quickly the construction work of the spacer material and the installation of shotcrete by spacing the spacer material vertically downward from the excavation surface of the tunnel The purpose is to provide a connection device.

The present invention for achieving the above object is a grid support member connecting device for connecting a plurality of grid supporters constructed to correspond to the excavation surface of the tunnel along the longitudinal direction of the tunnel,

A plurality of connecting plates symmetrically installed on the side of each grating support;

A plurality of connecting rings symmetrically attached to the surface of each connecting plate and having fitting holes; And

And a plurality of spacers each of which is individually fitted at both ends of the fitting hole side of the connection grid facing each other of the grid support members.

The connecting plate is installed to correspond to the cross-sectional shape of the grid support material, the connecting ring is arranged spaced apart at regular intervals (t) vertically downward from the top of the grid support material, the spacer is spaced at a predetermined interval from the excavation surface of the tunnel Characterized in that spaced apart.

The lattice support is one or more first rods (first rod), a pair of second rods (second rod) arranged in a diagonal direction spaced apart from the first rod (second rod), connecting the first and second rods Includes a spider,

As the pair of second round bars are disposed symmetrically with respect to the vertical center line of the first round bar, the first round bar and the pair of second round bars are arranged in a triangular structure, and the first round bar is disposed adjacent to the excavation surface of the tunnel. The second round rods may be disposed toward the inner space of the tunnel.

Each connecting plate is installed across each second round bar in the first round bar, characterized in that the connecting ring is attached to one side of the connecting plate.

The connecting ring and the spacer are characterized in that located in the range of 1/3 to 2/3 of the total height (s) of the grid paper support in the vertical direction from the top of the grid paper support.

According to the present invention, the spacer is spaced vertically downward from the excavation surface of the tunnel, and the construction of the spacer is very simple as the interference with the uncut section existing on the excavation surface of the tunnel is minimized or avoided during the construction of the spacer. And it proceeds quickly and the workability is greatly improved.

In addition, the present invention is to minimize the blockage of the insertion hole adjacent to the membrane by the casting of the shotcrete by spacing a predetermined distance vertically downward from the excavation surface of the tunnel through the connecting plate, through which There is an advantage that the construction work is more easily and quickly progress, the workability is greatly improved.

In addition, the present invention can avoid the interference or interference of the shotcrete by spacing the spacer vertically downward from the excavation surface of the tunnel, thereby facilitating the casting of the shotcrete and minimize the use of the shotcrete In addition, there is an advantage that the shotcrete on the spacer and the grid retainer side can effectively implement a more solid structure.

1 is a front sectional view showing a state in which the grating support device according to the present invention constructed on the excavated surface of the tunnel.
FIG. 2 is an enlarged view of a portion A of FIG. 1.
3 is a side cross-sectional view taken along line BB of FIG. 1.
FIG. 4 is an enlarged view of a portion C of FIG. 3.
FIG. 5 is a plan view viewed from the arrow D direction of FIG. 4.
6 is an exploded perspective view showing a lattice support member connecting device according to an embodiment of the present invention.

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

1 to 6 is a view showing a lattice support member connecting device according to an embodiment of the present invention.

As shown, the grating support member 20 according to the present invention connects a plurality of grating support member 10 constructed in correspondence with the excavation surface (2) of the tunnel 1 along the longitudinal direction of the tunnel (1) It is configured to.

As shown in FIG. 1, each grating support 10 is constructed in an arc shape adjacent to the excavation surface 2 of the tunnel 1, and as shown in FIG. 3, the grating support 10 is formed by a tunnel ( Spaced apart at regular intervals along the longitudinal direction of 1), the plurality of grid support 10 is the longitudinal direction of the tunnel (1) through the grid support member connecting device 20 of the present invention as shown in Figures 3 to 5 Connected along.

Grid holding member connecting device 20 according to the present invention is a plurality of connecting plate 21, each connecting plate 21 is installed symmetrically on the side of each grid supporting member 10, as shown in Figs. A plurality of connecting members 23 symmetrically attached to the surface of the plurality of spacers 25, the both ends 25a are individually fitted to the connecting ring 23 side of the adjacent grid support member 10 facing each other. It includes.

The pair of connecting plates 21 may be symmetrically installed on both left and right sides of the grating support 10, and each connecting plate 21 may be installed corresponding to the shape of the grating support 10.

Each connecting ring 23 is fixedly attached to one side of each connecting plate 21 by welding or the like, and a fitting hole 23a is formed at the center of each connecting ring 23, and the fitting hole 23a is provided. Both ends 25a of the spacer 25 are releasably fitted in the fitting.

The spacer 25 is preferably made of a deformed steel bar with protrusions formed on the surface thereof, and both ends 25a of the spacer 25 are bent, and each of the bent ends 25 of the spacer 25 is connected to each other. It can be easily fitted to the fitting hole (23a) side of the ring (23).

On the other hand, Figure 4 to Figure 6 is an exemplary form of the grid support 10 is used for the present invention is shown. As shown, the grid support 10 includes a first round bar (11) and a pair of second round bars (12, 13) symmetrically spaced diagonally from the first round bar (10), the first round bar 11 and the second round bar (12, 13) is firmly connected through a plurality of spider (14, spider). As the contact portion of the spider 14 is fixed by welding to the first round bar 11 and the second round bar 12 and 13, respectively, the first round bar 11 and the second round bar 12 and 13 are connected.

As the pair of second round bars 12 and 13 are symmetrically spaced from each other based on the vertical center line of the first round bar 11, the grid support 10 may have a triangular cross section.

The first round bar 11 is disposed close to the excavation surface 2 of the tunnel 1, and the second round bars 12 and 13 are disposed toward the inner space of the tunnel 1.

Each connecting plate 21 is fixed by welding across the upper round bar 11 and the lower round bars 12 and 13 of the grid support 10, whereby each connecting plate 21 is disposed to be inclined.

The connecting ring 23 is spaced apart by a predetermined distance t from the upper end of the grid support 10, that is, the first round bar 11 vertically downward by a predetermined interval t, so that the spacer 25 is the excavation surface 2 of the tunnel 1. It may be arranged to be spaced apart at a predetermined interval (t) in the.

As described above, according to the present invention, as the connecting ring 23 is spaced vertically downward from the top of the grating support 10 by a predetermined distance t, the shotcrete is placed on the fitting hole 23a side of the connecting ring 23 adjacent to the membrane. It is possible to minimize or avoid clogging due to, and thereby through the construction work of the spacer 25 more quickly and simply there is an advantage that can effectively improve the overall workability.

In addition, in the present invention, the spacing of the shotcrete by the connecting plate 21 and the connecting ring 23 is spaced apart from the excavation surface 2 of the tunnel 1 by a predetermined distance t vertically downward. Enough space is formed to proceed to this, by removing the interference or interference caused by the spacer 25 during the placement of the shotcrete can be carried out very efficiently the shotcrete, through which the spacer 25 and The shotcrete on the grid support 10 has an advantage that can effectively implement a structure more solidly integrated.

In particular, each of the linkages 23 and the spacer 25 is one-third vertically downward from the upper end of the grating support 10, in particular, from the first round bar 11 to the overall height s of the side of the grating support 10. Positioning of the shotcrete between the rear surface of the spacer 25 and the excavation surface 2 of the tunnel 1 is advantageously performed more efficiently by being located within the range t of ˜2 / 3 points. When the connecting ring 23 is located within 1/3 of the upper end of the grating support 10 at the overall height s of the side of the grating support 10, the spacer 25 is an excavation surface 2 of the tunnel 1. Since the state is too close to the) side, the fitting hole 23a of the membrane-side connecting ring 23 due to the shotcrete is blocked in the same way as in the prior art, or the installation of the spacer 25 may be obstructed in the unfolded section. When the shotcrete is not easy to be cast due to interference or interference of the spacer 25, and the connecting ring 23 is disposed at a point 2/3 or more above the upper end of the grid support 10, the spacer 25 is disposed. As the excessively spaced apart from the excavation surface 2 of the tunnel 1, the consumption of the shotcrete may be excessively increased during the pouring of the shotcrete. Accordingly, the connecting ring 23 and the spacer 25 is preferably disposed in the 1/3 to 2/3 range (t) vertically downward from the upper end of the grid support 10.

10: lattice paper holding 11: the first round bar
12, 13: Round 2 15: Spider
20: grid support connector
21: connecting plate 23: connecting ring
25: spacer

Claims (4)

A lattice support member connecting device connecting a plurality of lattice support members constructed to correspond to the excavation surface of the tunnel along the longitudinal direction of the tunnel,
A plurality of connecting plates symmetrically installed on the side of each grating support;
A plurality of connecting rings symmetrically attached to the surface of each connecting plate; And
And a plurality of spacers each of which is fitted at both ends separately on the side of the connecting ring facing each other of the grid support members.
The connecting plate is installed to correspond to the cross-sectional shape of the grid support material, the connecting ring is arranged spaced apart at regular intervals (t) vertically downward from the top of the grid support material, the spacer is spaced at a predetermined interval from the excavation surface of the tunnel Grid paper holding connecting device, characterized in that spaced apart. The method according to claim 1,
The lattice support is one or more first rods (first rod), a pair of second rods (second rod) arranged in a diagonal direction spaced apart from the first rod (second rod), connecting the first and second rods Includes a spider,
As the pair of second round bars are disposed symmetrically with respect to the vertical center line of the first round bar, the first round bar and the pair of second round bars are arranged in a triangular structure, and the first round bar is disposed adjacent to the excavation surface of the tunnel. And the second round bars are disposed toward the inner space of the tunnel. The method according to claim 2,
Each connecting plate is installed across the second round bar in the first round bar, characterized in that the connecting ring is attached to one side of the connecting plate of the grid support. The method according to claim 3,
The connecting ring and the spacer member is characterized in that the grid paper support device, characterized in that located in the range of 1/3 to 2/3 of the total height (s) of the grid paper support in the vertical direction from the top.

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