KR102079710B1 - Device for Fixing the Steel Lattice Girder using a Steel Wire - Google Patents

Abstract

Provide temporary fixing device for steel plate using steel wire.
The present invention is a device for temporarily fixing the steel retaining material disposed on the wall surface of the tunnel, a plurality of rock bolts are inserted into a fixed hole formed in a predetermined depth on the wall surface of the tunnel; A plurality of fixed support parts provided for each end of the plurality of rock bolts; And at least one steel wire rod having one end connected to one of the fixed support portions of the plurality of fixed supports and the other end connected to the other fixed support adjacent to each other, and being disposed between the steel wire and the wall surface of the tunnel. To the wall side of the tunnel.

Description

Device for Fixing the Steel Lattice Girder using a Steel Wire}

The present invention relates to a device for temporarily fixing the steel retainer using a steel wire rod, more specifically, temporarily fixing the steel retainer with a lock bolt installed in the tunnel as a fixed point, the rest of the retained steel retainer temporarily The present invention relates to a temporary fixing device for steel sheet using steel wire which can perform the process of installing the steel sheet successively more safely and efficiently.

In general, as a multi-layer tunnel is built in the metropolitan area, a plurality of branching and joining portions connected to the main ship are required for smooth entry and exit of users.

Tunnels are planned in the out-of-city area, and in the case of long-distance tunnels, the connection can be planned in an open manner by extending the line to the part close to the ground part by adjusting the vertical line, It is not easy to plan the linearity drawn to the ground level at each branch point.

Therefore, in order to plan the entrance and exit ramp to be connected to the main tunnel, the branch section which is extended from the main tunnel is needed.In this branch section, the pillar width and the entrance ramp tunnel are connected at the same time, so the pillar width of the main tunnel and the entrance ramp tunnel is In the case of minimizing the tunnel, a large cross section is generated.

On the other hand, since the duplex tunnel is planned at a large depth, the rock state may be better than the low depth, but only good rock conditions may not occur over the entire extension. In particular, since urban areas are mainly developed around rivers, tunnels can be planned in poor grounds when tunnels pass directly near rivers or under rivers, and stability is ensured due to the characteristics of large cross-section tunnels even when the ground conditions are relatively good. For this purpose, fringe compensation must be applied.

In other words, the construction of underground tunnels such as large section tunnels is excavated a certain distance below the ground through blasting and excavation, and then drills the tunnel to prevent the sinking of the ground and the falling of rocks, Install the support.

Such stiffeners effectively support the acupressure generated around the tunnel, and can be used stiffeners made of steel wire rods of a common lattice type or H type cross section.

(Patent Document 1) KR10-1591945 B1

Patent Document 1 discloses a rigid retaining material for forming a hook portion coupled to a circumference of a support bar at both ends of a fixed bar, and then fixing the hook portion to the support bar.

Such a steel reserve is to be put into the tunnel site in the state of pre-fabrication in a factory by the design drawings to be installed directly on the site, as shown in Figure 1, the upper end of the tunnel inside the tunnel (T) After the left and right pairs of upper stiffeners 1a were constructed, the ground was stabilized, and then the lower stiffeners 1b coupled to the ends of the upper stiffeners 1a were constructed at the lower ends.

That is, the four steel retainers (1a, 1b) per tunnel cross-section is manufactured in the factory and moved to the site after the tunnel excavation using the fastening member (2) such as bolts to the connection to the coupling.

At this time, the connection order of the upper and lower rigid retainers (1a, 1b), first connecting the connecting portion of the left and right pair of upper rigid retainers (1a) disposed on the upper surface of the tunnel in the state of completing the upper half excavation of the tunnel with the fastening member And, after excavating the remaining lower half is to proceed in the manner of connecting the lower stiffener (1b) and the end of the pre-installed upper stiffener (1a).

However, when the large section tunnel passes through the poor ground, the steel sheet may be used as an effective sheet. However, in large section tunnels with large internal curvatures such as branching sections, the installation of the steel sheet is considered to be strong when considering the working conditions in the tunnel. Due to the heavy weight of the supporting material and the excessive length of the supporting material, the construction is very difficult and involves the risk of safety accident.

Accordingly, it may be advantageous for safety to be installed after excavation of each divided section, but since the upper half is excavated in the tunnel construction, there is no left and right support point of the steel retainer, so it may be difficult to install the steel retainer. It is advantageous to install the stiffener after the excavation.

In this case, the length of the steel retainer installed in the upper half is more than 40m, and if the assembly is considered, the length of one steel retainer before assembly is also 20m or more. That way is desperately needed.

Accordingly, the present invention is to solve the problems described above, the object of the lock bolt is installed on the tunnel wall to be installed with the steel plate as a fixed point can be easily fixed to the steel plate temporarily temporarily, tunnel wall surface In the state of temporarily fixing the stiffeners, the present invention aims to provide a temporary fixing device for the stiffeners using steel wire which can safely and efficiently perform the process of continuously installing the remaining stiffeners along the tunnel wall.

Technical problems to be achieved in the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

In a preferred embodiment of the present invention as a specific means for achieving the above object, in the device for temporarily fixing the rigid retaining material disposed on the wall surface of the tunnel, the fixed hole is inserted into a hole formed in a predetermined depth on the wall surface of the tunnel A plurality of rock bolts; A plurality of fixed support parts provided for each end of the plurality of rock bolts; And at least one steel wire rod having one end connected to one of the fixed support portions of the plurality of fixed supports and the other end connected to the other fixed support adjacent to each other, wherein the steel rod is interposed between the steel wire and the wall surface of the tunnel. Provides a temporary retaining device for the steel reserve using the steel wire, characterized in that the close contact fixed to the wall side of the tunnel.

Preferably, the fixed support portion forms a through hole through which the end of the lock bolt is disposed through, the fixing body is fixed by a nut fastened to the end of the lock bolt exposed through the through hole, and the It may include a pair of left and right fixing plate extending through the outer surface from the outside to pass through the connection hole to be connected to the end of the steel wire.

Preferably, the fixed support portion is formed of a through hole through which the lock bolt is disposed, the rectangular fixing body is fixed by a nut fastened to the end of the lock bolt exposed through the through hole, and the rectangular fixing body It may include a pair of fixing plates extending through the outer surface from both sides to pass through the connection hole to be connected to each end of the pair of steel wires.

Preferably, the fixed support portion is formed by a fastening through-hole screwed to the end of the lock bolt is coupled to the end of the lock bolt fixed position and the through hole correspondingly inserted into the outer surface of the fixed support And an insert for forming a pair of left and right fixing plates formed through the connecting holes on the outer surface so as to be connected to the ends of the steel wires, and a screw nut screwed to the fixing support, the adjusting nut being in contact with the end of the insert. It may include.

Preferably, the steel wire includes a connecting portion connected to the connection hole provided in the fixed support portion at both ends of the wire rod of a predetermined length on which the steel plate is placed, the connecting portion of the end portion of the wire rod passing through the connection hole of the wire rod After bending to the center side and overlapping, the ring shape may be formed by a fixing unit that press-fixes the overlapping portion.

Preferably, the steel wire may include at least one contact member disposed on an outer surface corresponding to the steel retaining material and elastically contacting the steel retaining material.

More preferably, the contact member may be inserted into the outer surface of the steel wire, and may include a hollow cylinder pipe having an elastic force.

More preferably, the contact member may be a coating material coated with a predetermined thickness on the outer surface of the steel wire.

According to the present invention as described above has the following advantages.

The fixed support part is installed by using a plurality of rock bolts installed on the tunnel wall as a fixed point, and both ends of the steel wire are connected between the adjacent fixed support parts to temporarily fix the heavy steel material on the wall of the tunnel. Since it is possible to easily temporarily fix the stiffeners connected continuously along the wall including the ceiling surface, while supporting the heavy stiffeners as heavy wire rods that can adjust the length and tension between the adjacent bolts, they are temporarily fixed. It is possible to safely perform the task of connecting different stiffeners, and to increase the productivity of work by performing a series of tasks that connect a plurality of stiffeners to each other more efficiently.

1 is a cross-sectional view of constructing a steel retainer generally on the wall surface of the tunnel.
Figure 2 is an exploded perspective view showing a temporary retaining device for holding paper using a steel wire according to a preferred embodiment of the present invention.
3 is an overall perspective view showing a temporary retaining device for holding paper using a steel wire according to a preferred embodiment of the present invention
a) is the case where only steel wire is applied,
b) is the case where steel wire and contact member are applied at the same time.
4a to 4c is a configuration diagram showing an embodiment of a fixed support applied to the temporary holding device for holding a steel plate using a steel wire according to a preferred embodiment of the present invention.
Figure 5 is a cross-sectional view showing the installation state of the retaining steel temporary provision device using a steel wire according to a preferred embodiment of the present invention,
(a) is the case where the lattice-like brace is applied,
(b) is the case where H-beam steel supports are applied.
Figure 6 is a cross-sectional view of the completion of the tunnel construction using the steel plate temporary fixing device using a steel wire in accordance with a preferred embodiment of the present invention.

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. However, in describing in detail the structural principle of the preferred embodiment of the present invention, when it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may be further included, not to exclude other components unless specifically stated otherwise.

As shown in Figures 2 to 3b, the temporary retainer temporary fixing device 100 according to a preferred embodiment of the present invention, the ends of the rigid retainer 10, 20 installed along the wall surface of the tunnel (T) connected to each other It may include a lock bolt 110, the fixed support portion 120 and the steel wire 130 so as to temporarily fix the stiffener 20 in order to.

The lock bolt 110 is fixed to the majority of the body is inserted into the drilling hole (H) formed in the radial direction in the radial wall surface of the tunnel (T), the head end is exposed from the wall surface of the tunnel a predetermined length, It is a bolt member of a certain length that is installed in plural intervals along the wall surface of the tunnel.

The lock bolt 110 includes a rock bolt body that is fixed to a hole formed in the hole formed in the wall of the tunnel to generate anchoring force, and a grouting material is filled between the rock bolt body and the inner hole of the hole. It may include a pressure plate 119 and a nut 115 for fixing the rock bolt body to the ground around the inlet of the drilling hole while preventing the grouting material injected into the drilling hole to flow down.

The fixed support 120 is fixed to the head of the lock bolt 110 is fixed to the wall surface of the tunnel is connected to both ends of the steel wire 130 between the adjacent lock bolts.

As shown in FIG. 4A, the fixed support part 120 forms a through hole 122 so that the head, which is an end of the lock bolt 110, is disposed through and coupled to the rock bolt 110, and is exposed through the through hole 122. And a fixing body 121 which is fixed by a nut 115 fastened to an end of the fixing member, and extends outward from both outer surfaces of the fixing body to penetrate the connection hole 124 to form the steel wire 130. It may include a pair of left and right fixing plate 123 is connected to the connecting portion 132 provided at both ends of the.

In addition, the fixed support portion 120 coupled to the end portion of the head of the lock bolt 110, as shown in Figure 4b, the through-hole 122 through which the head portion of the end of the lock bolt 110 is disposed through. And a rectangular fixture 125 fixed by a nut 115 fastened to an end of the lock bolt exposed through the through hole, and extending outward from both outer surfaces of the rectangular fixture 125. It may include a pair of fixing plate 126 formed through the connection hole 124 to be connected to the connection portion provided at each end of the pair of steel wire 130.

At this time, the fixing plate 126 is provided in pairs from both side planar portions of the square fixing body 125 and connected to each connection part of the steel wires arranged in pairs so that the steel plate is tightly fixed to the tunnel wall between the adjacent bolts. In order to increase the number of installation of the steel wire 130 to support the heavy paper material to ensure a stable support force.

In addition, the fixing body 121 or the square fixing body 125 has a male thread and a screw formed on the head of the lock bolt by assembling through the center of the body to form a through hole corresponding to the head of the lock bolt. The fixing body 121 or the square fixing body 125 connected with the steel wire by the fastening direction rotation or the unwinding direction rotation of the nut 115 to be coupled may be raised or lowered along the lock bolt to adjust the position. .

Accordingly, both ends are respectively connected to the fixed support portions of the lock bolts adjacent to each other by height adjustment of the fixing body or the square fixing body by the forward or reverse rotation operation of the nut 115, and through the tunnel wall surface and the rigid retaining material. The tension of the steel wire in contact can be varied.

 And the fixed support portion 120 as shown in Figure 4c, through the fastening through-hole 127a having a female screw on the inner surface to be screwed with the end of the lock bolt 110 through the end of the lock bolt And a fixed support 127 coupled to and fixed to form a through hole 128a correspondingly inserted into an outer surface of the fixed support, and connected to a connection part provided at an end of the steel wire 130. And a insert 128 having a pair of left and right fixing plates 123 formed through the connecting hole 124 on an outer surface thereof, and screwed with a male screw portion formed on an outer surface of the fixed support. It may include a control nut 129 in contact with the end of the insert 128.

Accordingly, both ends are respectively connected to the fixed support portions of the lock bolts adjacent to each other by adjusting the height of the insert by moving the position of the insert assembled to the fixed support by the forward or reverse rotation operation of the adjusting nut. The tension of the steel wire that is in contact with the wall surface and the steel retaining material can be varied.

Here, the fixed support portion 120 is shown and described as being assembled by a nut that is interposed between the nut 115 and the pressure plate 119 screwed to the head of the lock bolt finally fastened to the lock bolt. The present invention is not limited thereto, and may be interposed and fixedly assembled between the nut 115 and another nut additionally fastened to the rear thereof.

The steel wire 130 is temporarily connected to one end of the fixed support 120 of any of the plurality of fixed support portion and the other end is connected to the other fixed support portion 120 adjacent to the steel retaining material in close contact with the wall surface of the tunnel It may include a wire rod 131 of a predetermined length to be fixed.

The steel wire 130 includes a connection portion 132 connected to the connection hole provided in the fixed support portion at both ends of the wire rod 131 of a predetermined length on which the heavy paper material is placed, the connection portion 132 is the connection A portion of the end portion of the wire rod 131 passing through the ball is bent to the center side of the wire rod to overlap a predetermined length, and then a ring shape is formed by the fixing unit 133 that compresses and overlaps the overlapping portion.

The fixing unit 133 has a U-shaped bolt 133a into which a part of the end of the wire rod is bent to the center side of the wire rod, and an overlapping portion is inserted therein, and penetrates a fixing hole through which the end of the U-shaped bolt penetrates. End of the wire rod overlapped to form an annular connecting portion 132 by fastening the nut member 133c to each end of the U-shaped bolt exposed to the outside through the fixing hole by the contact plate 133b coupled to the U-shaped bolt To squeeze the

In this case, the steel wire 130 may be made of a single wire wire having an outer diameter of a predetermined size, but is not limited thereto, and may be made of a wire rope formed by twisting a plurality of wires in a spiral manner.

On the other hand, the steel wire 130 is connected to both ends of the fixed support portion provided in a pair of adjacent bolts adjacent to each other, as shown in Figure 3a, the steel plate material and the outer surface of the target to be temporarily fixed directly contact Or as shown in Figure 3b, it may include at least one contact member 135 is disposed on the outer surface corresponding to the stiffeners and elastically contact the stiffeners.

The contact member 135 is inserted into the wire rod outer surface of the steel wire prior to forming the connection portion, and may be formed of a hollow cylindrical pipe having flexibility and elasticity, and the hollow pipe may be formed of the wire rod of the steel wire. The inner diameter is formed to be the same or relatively larger than the outer diameter may be moved in the longitudinal direction of the steel wire, but is not limited thereto, and may be fixed.

 In addition, the contact member 135 may be made of a coating material of a predetermined thickness that is coated with a resin material such as rubber on the outer surface of the steel wire.

In this case, the steel wire 130 is a heavy material to be temporarily fixed between the wall and the wall of the tunnel through the contact between the rigid material and the support member 135 to generate a frictional force at the same time to generate a frictional force to move the movement of the heavy paper material While minimizing and supporting stably and absorbing vibration, it is possible to reduce the deformation of the material by providing a buffering force between the paper holding material and the steel wire material.

That is, as shown in FIGS. 5A and 5B, the steel retainer, such as the lattice-like retainer 10 or the H-beam retainer 20, is continuously connected along the inner wall surface of the tunnel while being assembled into an arc shape. Temporary fixing of the support material, the fixing support 120 is assembled to the head of the end of the lock bolt by the nut 115 fastened to the head of the lock bolt 110, then the rigid support 20 is raised After passing through the connecting hole 124 of the fixing plate 123 of the wire rod end of the steel wire 130, and then forming a ring-shaped connecting portion 132 by the fixing hole 133 and the fixed support of the one-side lock bolt and the primary Connect.

Subsequently, the other end of the wire rod 131 of the steel wire rod 130 on which the steel rod 20 is placed is passed through another connection hole 124 of another fixed support adjacent to the fixed support, and then looped by another anchorage. If the secondary connection to the fixed support of the other side of the lock bolt is formed, the position of the fixed support to which both ends of the steel wire is connected is closer to the wall surface of the tunnel than the position where the steel retaining material is in contact with the wire of the steel wire The steel wire rod can be temporarily fixed while being closely attached to the wall of the tunnel.

At this time, the steel retaining material, which is a heavy material interposed between the wire rod of the steel wire and the wall surface of the tunnel, is mounted on the steel wire connected to each of the fixed support pairs adjacent to each other, the rotation operation or adjustment of the nut member fastened to the lock bolt. Since the connecting portion between the steel wire and the fixed support portion can be moved to the wall surface side of the tunnel by the rotation operation of the nut, it is possible to adjust the pressure-adhesive force for pressing the steel retaining material to the wall surface side.

Accordingly, by the pair of left and right fixed support portion 120 and the steel wire 130 is connected between both ends between them, it is possible to easily temporarily fix the heavy paper retaining material on the ceiling surface, which is the wall surface of the tunnel, and temporarily temporarily In the fixed state, the end of the stiffeners and the end of the other stiffeners can be safely performed on the ceiling surface of the tunnel.

Subsequently, after temporarily fixing one stiffener on the wall surface of the tunnel and connecting the other stiffeners continuously along the wall surface of the tunnel, as shown in FIG. 6, the head of the rock bolt is exposed so as to be exposed. By sequentially pouring the second and third shotcrete layers 42 and 43 on the surface of the first shotcrete layer 41, the wire rod 130 and the steel wire 130 for temporarily fixing them are buried by the shotcrete layer to be additionally poured. It is not exposed outside from the inner surface of the tunnel.

In this case, the plurality of stiff retainers connected to each other in an arc along the inner surface of the tunnel are embedded in the walls of the tunnel, so that the process of installing a waterproof membrane, which is the next process performed after the construction of the stiff retainers, can be performed uniformly and smoothly without protrusions. .

At this time, the second shotcrete layer 42, which is additionally placed in order to bury the fixed support part and the steel wire in the shotcrete layer together with the rigid support, is first shotcrete layer 41 which is additionally formed so that the head of the rock bolt is exposed. And the third shotcrete layer 43 is cast to a position covering the fixed support 120, and the third shotcrete layer 43 is cast from the fixed support 120 to a position completely covering the steel wire 130. It is preferably formed.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

10,20: Gangjibojae
110: rock bolt
115: Nut
120: fixed support
121: fixture
122: through hole
124: connector
130: steel wire
131: wire rod
132 connection
133: anchorage
135: contact member

Claims (8)

In the device for temporarily fixing the steel retaining material disposed on the wall surface of the tunnel,
A plurality of rock bolts inserted and fixed in the drilled holes formed at a predetermined depth in the wall surface of the tunnel;
A plurality of fixed support parts provided for each end of the plurality of rock bolts; And
At least one steel wire having one end connected to one of the fixed supports of the plurality of fixed supports and the other end connected to another adjacent fixed support,
Tightly and secure the steel retaining material interposed between the steel wire and the wall surface of the tunnel to the wall surface side of the tunnel,
The fixed support portion forms a through hole through which the lock bolt is disposed, and is fixed by a nut fastened to an end of the lock bolt exposed through the through hole, and is fixed to the end of both sides of the square fixture. A pair of fixing plates extending from the outside to penetrate the connection holes to be connected to each end of the pair of steel wires,
The steel wire includes a connecting portion connected to the connection hole provided in the fixed support portion at both ends of the wire rod of a predetermined length on which the steel plate is placed, the connecting portion bent a portion of the end of the wire rod passing through the connecting hole toward the center side of the wire rod Overlap and then form a ring shape by the anchorage that compresses and secures the overlapping portion.
The steel wire rod includes at least one contact member disposed on an outer surface corresponding to the steel rod material and elastically contacting the steel rod material, wherein the contact member is inserted into and disposed on an outer surface of the steel wire rod before forming the connection portion. A hollow hollow cylindrical pipe having an elastic force,
The position of the fixed support portion to which both ends of the steel wire are connected is closer to the wall surface of the tunnel than the position where the steel wire material is in contact with the steel wire, and thus the steel wire material is temporarily fixed while being closely adhered to the wall surface of the tunnel. Steel plate temporary fixing device using steel wire. delete delete delete delete delete delete delete

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