KR101990349B1 - Device for Fixing the Steel Lattice Girder using a Section Steel - Google Patents

Abstract

Provide a temporary fixture for the steel support.
The present invention relates to an apparatus for temporarily fixing a steel stockpile disposed on a wall surface of a tunnel, comprising: a plurality of rock bolts inserted and fixed in a perforation hole formed at a predetermined depth on a wall surface of the tunnel; A plurality of rigid support plates fixed to the ends of the plurality of rock bolts; And at least one elastic support plate having one end connected to one of the plurality of rigid support plates and the other end connected to another adjacent rigid support plate so that the other end of the elastic support plate is interposed between the elastic support plate and the wall surface of the tunnel, Is tightly fixed to the wall surface of the tunnel by the restoring force of the elastic support plate.

Description

Technical Field [0001] The present invention relates to a temporary fixing device for a steel lumber using a steel material,

More particularly, the present invention relates to an apparatus for temporarily fixing a steel material by using a steel material, and more particularly to a method of temporarily fixing a steel material by using a rock bolt provided in a tunnel as a fixing point, The present invention relates to a temporary fixing device for a steel support material using a steel material which can safely and efficiently perform a process of continuously installing steel reinforcement materials.

In general, since the multi-layer tunnel is constructed in the metropolitan area, a branch division and a merging division that are connected to the main line are required for the convenience of the user to enter and exit smoothly.

Tunnels are planned in non-urban areas. In case of long-distance tunnels, it is possible to plan the connection in the form of an opening type by upgrading the route to the part close to the ground level by linear adjustment. However, It is not easy to plan the linearity derived from each branch point to the ground level.

Therefore, in order to plan the entrance and exit ramp connected with the mains tunnel to the tunnel, it is necessary to extend the branch section over the main tunnel. In this branch section, the main tunnel and the entrance and exit ramp tunnels are connected at the same time. A tunnel of a large surface is generated.

On the other hand, since the multi-layer tunnel is planned at a large depth, the rock condition can be better than the low depth, but only good rock conditions can not occur over the entire extension. Especially, since the urban area is developed mainly around rivers, tunnels can be planned on poor ground if the tunnels pass directly near the rivers or under the rivers. Even if the ground condition is relatively good, Steel reinforcing materials must be applied for the sake of safety.

That is, underground tunnel construction such as a large-scale tunnel is excavated by a certain distance beneath the ground through blasting and excavation, and then the tunnel is pushed to prevent sinking of the ground and falling of the rock, Install support materials.

Such a steel support material effectively supports the earth pressure generated around the tunnel, and a steel support material made of a generally lattice-shaped or H-shaped section-shaped steel material can be used.

(Patent Document 1) KR10-1591945 B1

Patent Document 1 discloses a steel reinforcing member which is formed at both ends of a fixing bar and which is engaged with a peripheral portion of a supporting bar, and which fastens the ring to the supporting bar.

This steel reinforcing material is put into the tunnel site in a state where it is manufactured in a predetermined size in the factory by the design drawing and is directly applied on the site. As shown in FIG. 1, the upper end of the tunnel is formed inside the tunnel T After the pair of left and right upper steel brackets 1a have been installed, the lower steel brackets 1b are joined to the ends of the upper steel brackets 1a after the ground is stabilized.

In other words, four steel supports 1a and 1b per section of the tunnel are separated and assembled at the factory, moved to the site, and then fastened to the connection portion using a fastening member 2 such as a bolt after tunnel excavation.

At this time, the connection order of the upper and lower steel support members 1a and 1b is such that the connection of a pair of left and right upper steel support members 1a disposed above the inner surface of the tunnel is completed with the fastening member And then the lower steel support 1b is connected to the end of the installed upper steel support 1a after excavating the other lower steel support.

However, when a large tunnel passes through a bad ground, it can be used as an effective support material. However, considering the work conditions in the tunnel, it is necessary to install the steel reinforcement in a large tunnel with large internal curvature, Due to the heavy weight of the steel supporting materials and the length of the steel supporting materials, construction is very difficult and involves the risk of safety accidents.

Accordingly, it is safe to install the steel reinforcing material after each divided section is installed. However, since it is difficult to install the steel reinforcing material after the excavation of the upper portion of the tunnel, It is advantageous to install steel reinforcement after excavation.

In this case, since the length of the steel support material installed on the upper half is more than 40m and the length of one steel material support before assembling is more than 20m when the assembly is considered, it can be temporarily fixed to the tunnel wall There is a desperate need for this.

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for temporarily fixing a steel girder by using a lock bolt provided on a wall surface of a tunnel installed together with the steel girder as a fixing point, The present invention provides a provisional temporary fixture using a steel material which can safely and efficiently perform the process of continuously installing the remaining steel stocks along the wall of the tunnel while temporarily fixing the steel stocks to the steel stock.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a specific means for achieving the above object, a preferred embodiment of the present invention is an apparatus for provisionally fixing a steel stockpile disposed on a wall surface of a tunnel, the apparatus comprising: A plurality of locking bolts; A plurality of fixed supports fixed to ends of the plurality of rock bolts; And at least one shaped steel member having one end connected to one of the plurality of fixed support members and the other end connected to another adjacent fixed support member, wherein the steel support member interposed between the shaped steel member and the wall surface of the tunnel The present invention provides a temporary fixture for a steel support using a shape material, which is tightly fixed to a wall surface side of a tunnel.

Preferably, the fixed support portion includes a fixed body formed with a through-hole through which the end portion of the lock bolt is inserted and fixed by a nut fastened to an end portion of the rock bolt exposed through the through hole, And a pair of left and right fixing plates extending outwardly from the outer surface and penetrating through the connecting holes to be connected to the ends of the steel.

Preferably, the fixed support portion includes a fixed body formed by being coupled with an end portion of the lock bolt by forming a through hole for engaging with an end portion of the lock bolt, and a fixed body extending outward from the outer face of the fixed body, And a pair of right and left fixing plates formed through the connecting hole so as to be connected to the ends of the steel material.

More preferably, the connection hole may be provided with a long hole.

More preferably, the fixing plate may include an arc plate detachably assembled to the outer surface of the fixture, and a vertical plate extending outward from the arc plate and forming the connection hole.

Preferably, the section steel material may include a pair of left and right sloping members extending in a slanting direction from both ends of the horizontal member, the pair of sloping members having a horizontal member on which the steel support material is lifted and an engagement hole corresponding to a connection hole formed at an end of the stationary support unit, have.

Preferably, the shaped steel member may be formed of a rectangular steel member bent at a right angle or may be formed of a steel member opened to one side.

Preferably, the shaped steel material may include a protruding jaw to prevent horizontal movement of the steel stock.

The present invention as described above has the following effects.

A plurality of rock bolts provided on a wall of a tunnel are used as fixed points to provide a fixed support portion, and both ends of a shaped steel member are connected between adjacent fixed support portions to temporarily secure the heavy steel support to the wall surface of the tunnel. It is possible to temporarily fix the steel reinforcing material continuously connected along the wall surface including the front face of the ceiling so that the steel reinforcing material as a heavy material is supported as a rigid reinforcing material while the other steel reinforcing materials are connected in a temporary fixing state safely And a series of operations for connecting a plurality of steel stocks to each other can be performed more efficiently, thereby improving work productivity.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view generally showing construction of a steel pipe support on a wall surface of a tunnel.
FIG. 2 is an exploded perspective view showing a temporary fixture of a steel material support using a steel material according to a preferred embodiment of the present invention.
3 is an overall perspective view showing a temporary fixture of a steel material support using a steel material according to a preferred embodiment of the present invention.
4A to 4C are block diagrams illustrating an embodiment of a stationary support applied to a temporary fixture of steel stock using a steel sheet according to a preferred embodiment of the present invention.
FIGS. 5A to 5C are views showing an embodiment of a steel sheet to be applied to a temporary fixing device for a steel support using a steel sheet according to a preferred embodiment of the present invention.
FIG. 6 is a cross-sectional view illustrating a state in which a temporary fixing device for a steel support is used using a steel material according to a preferred embodiment of the present invention,
(a) is a case where a grid type steel support is applied,
(b) shows the case where H-beam steel supports are applied.
FIG. 7 is a cross-sectional view showing the construction of a tunnel using a steel pipe temporary fixture using a steel material according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

2 to 7, the temporary fixture 100 for a steel pipe support according to a preferred embodiment of the present invention is constructed by connecting end portions of a steel pipe support 20 installed along a wall surface of a tunnel T to each other And may include a locking bolt 110, a stationary support 120, and a shaped steel 130 so that the steel support 20 can be temporarily fixed.

Most of the body is inserted and fixed in a perforation hole H formed in the wall surface of the tunnel T at a predetermined depth in the radial direction of the rock bolt 110. The end of the rock bolt 110 is exposed at a predetermined length from the wall surface of the tunnel, A plurality of bolt members having a predetermined length are provided at regular intervals along the wall surface of the tunnel.

The rock bolt 110 includes a rock bolt body inserted and fixed in a perforation hole formed in a wall of the tunnel to generate an anchor force, and a grouting material is filled and filled between the rock bolt body and the inner surface of the hole. And a nailing plate 119 and a nut 115 for fixing the rock bolt body to the ground around the perforation hole entrance while preventing the grouting material injected into the perforation hole from flowing down.

The fixed support portion 120 may be formed in a substantially rectangular plate shape fixed to the head portion of the lock bolt 110 fixed to the wall surface of the tunnel.

As shown in FIG. 4A, the stationary support 120 includes a through hole 122 formed to penetrate and connect the head portion of the rock bolt 110, and a lock bolt 122, which is exposed through the through hole 122, And a fixing body 121 fixed by a nut 115 fastened to an end of the fixing member 121. The fixing member 121 extends a predetermined length outwardly from the outer surface of the fixing body 121, And a fixing plate 123 formed to penetrate through the connecting hole 124 so as to be connected to an end portion of the steel plate.

As shown in FIG. 4B, the fixed support portion 120 coupled to the end portion of the rock bolt has a female screw portion formed on the inner surface thereof so as to be screwed with the male screw portion formed at the end of the lock bolt 110 And a fixing body 121 having a fastening through-hole 121a.

At this time, the connection hole 124 of the fixing plate 123 coupled with the coupling hole formed at the end portion of the shaped steel member and the bolt-shaped or pin-shaped coupling member may be formed in a circular hole shape, And a long hole 124a so as to be variable.

As shown in FIG. 4C, the fixing plate 123 may be integrally provided on the outer surface of the fixing member 121, or may be mounted on the outer surface of the fixing member 121 by a plurality of fixing members, The circular plate 123a may include a vertical plate 123b having a predetermined length extending outwardly from the arc plate 123a and formed through the connection hole 124 to be connected to the end of the steel plate, .

The coupling member 124 is coupled to the coupling holes 124 formed in the fixing plate 123 provided on both sides of the outer surface of the fixing body 121 through the coupling holes formed at both ends of the shaped steel member 130, So that both ends of the shaped steel 130 can be easily connected and disposed between a pair of fixed supports 120 that are fixedly assembled to the respective ends of the pair of adjacent rock bolts 110.

Here, the fixed support part 120 is fixed and assembled by a nut 115, which is screwed to the head of the rocking bolt, and a nut that is interposed between the rocking bolt and the rocking bolt, But it is not limited thereto and can be interposed and fixedly assembled between the nut 115 and another nut which is further separately fastened to the rear thereof.

The steel material 130 is connected at one end to one of the plurality of fixed support portions 120 and connected to another adjacent fixed support portion 120 so that the steel support material 20 is attached to the wall surface of the tunnel And may be made of a steel member which is held so as to be temporarily fixed while being closely attached.

5A, the shaped steel member 130 includes a horizontal member 131 having a predetermined length to which the steel support member 20 as a heavy material is raised. The horizontal steel member 130 includes left and right The slant member 132 includes a pair of slant members 132. The slant member 132 is provided at its end with a connection hole formed through a fixing plate of the fixed support 120 and a coupling hole The through hole 132a can be formed.

At this time, as shown in FIG. 5A, the section steel material may be formed of a steel material having a substantially rectangular cross-section, or may be formed of a steel material having substantially a cross section opened to one side as shown in FIG. 5B.

As shown in FIG. 5C, the upper surface of the horizontal member 131 may include a protruding protrusion 131a for preventing horizontal movement of the steel support 20, which is an object to be temporarily fixed while being supported.

Accordingly, when both ends of the shaped steel 130 are connected between the pair of fixed supports 120 assembled and fixed to the pair of adjacent rock bolts 110, a gap between the steel 130 and the wall surface of the tunnel Is temporarily fixed while being in close contact with the wall surface of the tunnel by the steel material.

6A and 6B, in order to assemble the steel support members such as the grid-like steel support member 10 or the H-shaped steel support member 20 continuously along the inner wall surface of the tunnel, In the operation of temporarily fixing the support material, the fixing support part 120 is fixedly assembled to the head part of the lock bolt by the nut 115 fastened to the head part of the lock bolt 110, The engaging hole 132a formed at one end of the inclined member of the reduced shape steel member 130 is engaged with the connecting hole 124 of the fixed plate 123 extending from the fixed body 121 of the fixed supporting portion 120, And one end of the shaped steel is firstly connected by the joining member to be joined.

The engaging hole 132a of the other inclined member 132 which is the other end of the shaped steel member 130 raised on the horizontal member 131 in the state of being supported by the fixed support member, The position of the fixed support portion to which both ends of the shaped steel member are coupled is determined by the position of the horizontal support member of the steel support member It is possible to temporarily fix the steel support material to the wall surface of the tunnel by the above-mentioned steel material, because it is closer to the wall surface of the tunnel than the contact position.

Accordingly, the steel support material 20, which is a heavy material, can be temporarily fixed temporarily to the ceiling surface, which is the wall surface of the tunnel, by the pair of left and right fixed support parts 120 and the one shaped steel material 130 connected between them. It is possible to safely perform the operation of connecting the ends of the steel stock to the ends of the other steel stocks while temporarily securing the stock.

Then, as shown in FIG. 7, after the steel reinforcing material is temporarily fixed to the wall surface of the tunnel while other steel reinforcing materials are successively connected to each other along the wall surface of the tunnel, The second and third shotcrete layers 42 and 43 are sequentially placed on the surface of the shotcrete layer 41 so that the rigid support plate and the elastic support plate temporarily fixing the steel support member 20 together with the shotcrete layer So that it is not buried and is not exposed to the outside from the inner surface of the tunnel.

In this case, a plurality of steel pipe supporting members connected to each other in an arc shape along the inner surface of the tunnel is embedded in the wall surface of the tunnel, so that the process of installing the waterproofing film, which is the next process performed after the steel pipe support, can be uniformly and smoothly performed .

At this time, the second shotcrete layer 42, which is additionally placed in order to embed the fixed support member and the shape material in the shotcrete layer together with the steel stock support, is formed by the first shotcrete layer 41, which is exposed to expose the head of the rock bolt, And the third shotcrete layer 43 is formed to have a layer thickness that is pushed up to a position that completely covers the shaped steel material 130 from the fixed support portion 120 .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

110: Rock bolt
115: Nuts
120: Rigid support plate
121:
122: second stop jaw
123: hanging ball
124: Fixing plate
130: shaped steel
131: Horizontal material
132:
132a: coupling ball

Claims (8)

delete An apparatus for provisionally fixing a steel stockpile disposed on a wall surface of a tunnel,
A plurality of locking bolts inserted and fixed in a perforation hole formed at a predetermined depth on a wall surface of the tunnel;
A plurality of fixed supports fixed to ends of the plurality of rock bolts; And
And at least one shaped steel member having one end connected to one of the plurality of fixed support members and the other end connected to another adjacent fixed support member,
And a steel support member interposed between the shaped steel member and the wall surface of the tunnel is tightly fixed to the wall surface side of the tunnel,
Wherein the fixed support portion includes a fixed body formed with a through hole through which the end portion of the lock bolt is inserted and fixed by a nut fastened to an end portion of the rock bolt exposed through the through hole, And a pair of right and left fixing plates formed to penetrate through the connecting holes so as to be connected to the ends of the steel sheet,
Wherein the fixing plate comprises an arc plate detachably assembled to the outer surface of the fixture and a vertical plate extending outward from the arc plate and forming the connection hole. Device. An apparatus for provisionally fixing a steel stockpile disposed on a wall surface of a tunnel,
A plurality of locking bolts inserted and fixed in a perforation hole formed at a predetermined depth on a wall surface of the tunnel;
A plurality of fixed supports fixed to ends of the plurality of rock bolts; And
And at least one shaped steel member having one end connected to one of the plurality of fixed support members and the other end connected to another adjacent fixed support member,
And a steel support member interposed between the shaped steel member and the wall surface of the tunnel is tightly fixed to the wall surface side of the tunnel,
Wherein the fixed support portion comprises a fixed body formed with a through hole for engaging with an end portion of the lock bolt and fixed to the end portion of the lock bolt and fixed to the end portion of the lock bolt, And a pair of right and left fixing plates formed to penetrate through the connection hole to be connected to the fixing plate,
Wherein the fixing plate comprises an arc plate detachably assembled to the outer surface of the fixture and a vertical plate extending outward from the arc plate and forming the connection hole. Device. The method according to claim 2 or 3,
Wherein the connecting hole is provided as a long hole. delete The method according to claim 2 or 3,
And the slab member includes a pair of left and right sloping members extending in a slanting direction from both ends of the horizontal member and having a coupling member corresponding to the coupling hole formed at the end of the supporting member, Temporary Fixing Device for Steel Reinforcement Using. The method according to claim 2 or 3,
Characterized in that the section steel member is formed of a steel frame member bent at right angles or is opened to one side. The method according to claim 2 or 3,
Wherein the steel material comprises a protruding jaw to prevent horizontal movement of the steel stock.

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