KR20090092990A - Construction method for underground structure using prestressed beam and development structure, saddle used in the same - Google Patents

Abstract

A construction method for a long span non-excavation underground structure using a pre-stressed timbering hole and both ends mounting stand and a saddle used for the same are provided to improve construction application because construction of the middle wall is unnecessary. A construction method for a long span non-excavation underground structure using a pre-stressed timbering hole comprises: a steel pipe loop structure formation step for forming a steel pipe loop structure(1) along the outline of the underground structure to be installed, a timbering hole installation step for installing a timbering hole(100) inside of the steel pipe loop structure, a pre-stressing step for pre-stressing the timbering hole, a temporary facility installation step for installing the temporary structure inside the steel pipe loop structure, and a wall and slab installation step for forming a wall and slab inside the steel pipe loop structure.

Description

FIELD CONSTRUCTION METHOD FOR UNDERGROUND STRUCTURE USING PRESTRESSED BEAM AND DEVELOPMENT STRUCTURE, SADDLE USED IN THE SAME}

The present invention relates to the field of construction, and more particularly to a method of construction of underground structures by non-adhesive type.

In general, the construction of the structure in the ground can be divided into a detachable and non-attached.

The latter non-attached construction method requires installation of sewage rocks, underground roadways, tunnel structures, etc. across existing roads and railroads, making it difficult to transfer obstacles due to construction, obstacles to obstacles, and obstacles in vehicle communication. This applies to cases where it is impossible to attach.

In the non-adhesive structure construction method, the forward and the arrival base of the concept of the work area are essential on both sides of the crossing road and obstacles, and the typical non-adhesive underground structure construction methods include the pulley prosthesis method and the steel pipe loop method. have.

The ship prosthesis method is to press-through a steel pipe for supporting the housing about 600mm in advance from the forward base to the reach base in the ground through which the ship will pass, and then cross the ground from the reach base on the opposite side of the ship to be towed. After binding the PC steel wire to the manufactured enclosure on the site, it is towed to remove the internal soil in the enclosure and to repeat the towing and excavation work to install the structure in the ground.

In this method, the propulsion load of the enclosure or the gap between the propulsion vessel and the temporary steel pipe installed in the ground may cause settlement on the road or obstacles on the upper part of the enclosure. If the size of the larger the traction constraints and the larger size of the workplace is difficult to work in deep underground space.

In addition, there is a fear that water leakage may occur if the connection between the housings is insufficient treatment.

Due to the drawbacks of such a towing method, the current situation is that a lot of steel pipe loop method as described below as a non-removable underground structure construction method.

1 to 6 is a view for explaining a conventional steel pipe loop method.

Conventional steel pipe loop method is basically a method of press-connecting the steel pipe (1) in advance in the ground in which the structure is to be formed, forming a steel pipe loop, and removes all the internal soil inside the steel pipe loop, and then construction of underground structures Say

The upper or side loads generated during the excavation are supported by temporary members such as the transverse support beams 4 and the temporary columns 5.

The construction process of the steel pipe loop is as follows.

First, in consideration of the size of the sphere to be formed at the forward base base horizontally indented steel pipe (1) of about 600-800mm to the outer surface of the sphere and cast concrete in the steel pipe, to form a steel pipe loop (Fig. 2).

From the forward base, the structure is excavated inside the loop where the structure will be constructed. Excavation is excavated step by step downward from the upper part of the roof steel pipe considering the safety of the upper load and the side pressure.

The steel pipes 1 used in the loops are connected by mutual ring structures 2 and 3 (FIG. 3).

As the excavation proceeds, the already installed temporary column 5 is extended downward (5 ', 5 ") to complete the excavation of the earth and sand to the installation depth of the structure (FIGS. 4 and 5).

Subsequently, reinforcing bars and formwork for the upper slab 60, the wall 65, and the lower slab 80 are installed and concrete is poured to complete the underground structure (FIG. 6).

However, the underground construction method using the steel pipe loop method had the following problems.

As described above, the steel pipe 1 is simply connected by mutual ring structures 2 and 3, and this steel pipe loop structure 1 is supported by the transverse support beam 4 or the upper slab 60. Since there is a limit to widening the span (space between the two walls), if the span exceeds a certain width must be additionally constructed a central wall (70).

This has been pointed out as a problem that the traffic of the vehicle in the urban underground roadway, etc. is not smooth, and also inefficient in terms of workability.

The present invention has been made to solve the above problems, to form a long span structure without a central wall, to facilitate the passage of vehicles in urban underground roads, etc. for the purpose of presenting an underground construction method with excellent construction properties. do.

The present invention provides a steel pipe loop structure forming step of forming a steel pipe loop structure (1) along the outline of the underground structure to be installed in order to achieve the object as described above; Supporting installation step for installing the support hole 100 inside the steel pipe loop structure (1); A prestress introduction step of introducing prestress into the support hole 100; A temporary installation step of installing a temporary facility inside the steel pipe loop structure (1); It presents a long span non-adhesive underground construction method using prestress support, including; wall and slab installation step of forming a wall and a slab inside the steel pipe loop structure (1).

The prestressing step may include installing both ends of the fixing stand 110 at both ends of the support ball 100; And tensioning the tension member 10 to fix both ends of the tension member 10 to the both ends of the fixing stand 110.

The prestressing step may include installing the both ends of the fixing stand 110 on both ends of the support ball (100); Installing a saddle (120) at the bottom of the core hole (100); The tension member 10 is supported by the saddle 120, and fixing both ends of the tension member 10 to the both ends fixing unit 110.

The both ends fixing unit 110 is preferably installed in the steel pipe 11 of the upper both ends of the steel pipe loop structure (1).

The support hole 100 is preferably formed by coupling the flange portions of the plurality of I-beams.

The support hole 100 is preferably coupled to the reinforcing plate 101 on the upper and lower surfaces of the flange portion.

The prestressing step may include installing upper and lower fixing units 210 and lower fixing units 220 at upper and lower ends of the outer wall member 200, respectively; And tensioning the tension member 10 to fix the upper and lower ends of the tension member 10 to the upper fixing unit 210 and the lower fixing unit 220.

The prestressing step may include installing the upper fixing unit 210 and the lower fixing unit 220 at upper and lower ends of the outer wall member 200; Installing an inner saddle (230) inside the core portion of the outer wall member (200); And fixing the upper and lower ends of the tension member 10 to the upper fixing member 210 and the lower fixing member 220 so that the tension member 10 is supported by the inner saddle 230. Do.

The upper fixing unit 210 and the lower fixing unit 220 is preferably installed in the steel pipe 12 of the upper and lower sides of the steel pipe loop structure (1).

The present invention is the both ends fixing rod 110 used in the underground construction method, the body plate 111 is coupled to the upper surface of the support ball 100, the tension member through hole (111a) is formed in the core portion; Both ends of the body plate 111 and the reinforcing plate 112 provided on the side of the tension material through-hole (111a); both ends fixing stand 110 characterized in that it comprises a.

A plurality of tension member through-holes (111a) is formed, it is preferable that the reinforcing plate 112 is also provided in the region between the plurality of tension member through-holes (111a).

The reinforcing plate 112 is preferably formed to be inclined inward in the inner region of the body plate 111.

The present invention is the saddle 120 used in the underground construction method, the body plate 121 is coupled to the side of the support ball 100, the tension member through-hole (121a) formed in the core; It proposes a saddle 120, characterized in that it comprises a; reinforcing plate 122 installed on both ends of the body plate 121 and the side of the tension material through-hole (121a).

A plurality of tension member through-holes 121a may be formed, and the reinforcing plate 122 may be installed in a region between the plurality of tension member through-holes 121a.

The present invention forms a long span structure without a central wall, to facilitate the passage of vehicles in urban underground roadways, etc. and to propose an underground structure construction method with excellent workability.

1 to 6 are views for explaining a conventional steel pipe loop method,

1 is an overall schematic view.

2-6 is sectional drawing for demonstrating a process.

7 to 16 are views for explaining the underground structure method according to the present invention,

7 is a cross-sectional view according to the first embodiment.

8 is a conceptual diagram according to the first embodiment.

9 is a sectional view according to a second embodiment.

10 is a conceptual diagram according to a second embodiment.

11 is a front view of both ends of the fixing unit.

12 is a perspective view of both ends of the fixing unit.

13 is a front view of the birds.

14 is a side view of the jibo ball.

15 is a sectional view according to a third embodiment.

16 is a conceptual diagram according to the third embodiment.

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

1: steel pipe loop structure 11: steel pipe at both ends

12: steel pipe of the upper and lower sides of the side 100: jibo

101: reinforcement plate 110: both ends fixing stand

111: main body plate 111a: tension material through hole

112: gusset 120: saddle

121: body plate 121a: tension material through hole

122: reinforcing plate 200: outer wall member

210: upper fixing unit 220: lower fixing unit

230: inner saddle

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

As shown in Figure 7 below, the underground construction method according to the present invention is basically a steel pipe loop structure forming step of forming a steel pipe loop structure (1) along the outline of the underground structure to be installed; Supporting installation step for installing the support hole 100 inside the steel pipe loop structure (1); A prestress introduction step of introducing prestress into the support ball 100; Temporary installation step of installing the temporary facility inside the steel pipe loop structure (1); It is configured to include; wall and slab installation step of forming a wall and a slab inside the steel pipe loop structure (1).

That is, instead of providing a temporary facility such as the transverse support beam 4 inside the steel pipe loop structure 1 as in the related art, the support hole 100 having a permanent structure is provided, and prestress is applied thereto.

Since the support hole 100 supports the steel pipe loop structure 1 by the prestressing force, the support hole 100 can sufficiently resist the upper load of the steel pipe loop structure 1 even without the central wall 70 as in the prior art.

Therefore, it is possible to form a long span structure without the central wall, it is possible to smoothly pass the vehicle on the underground roadway in the city, it is possible to obtain the effect that the construction is also excellent because no construction of the central wall.

Hereinafter, the prestress related embodiment, which is a characteristic configuration of the present invention, will be described in detail.

As shown in Figure 7, 8, the prestress introduction step is the step of installing both ends of the fixing stand 110 on both ends of the support ball (100); And tensioning the tension member 10 to fix both ends of the tension member 10 to the both ends of the fixing stand 110.

This may be implemented by installing both ends of the fixing stand 110 on the lower end or side of the support ball 100, the tension member 10 is fixed by fixing.

As shown in Figure 9, 10, the prestress introduction step is the step of installing both ends of the fixing unit 110 on both ends of the jibo ball 100; Installing the saddle 120 in the lower portion of the deep hole 100; By allowing the tension member 10 to be supported by the saddle 120, fixing both ends of the tension member 10 to both ends of the fixing unit 110, it may be implemented.

This has the advantage of using the same length of the support hole 100, the same tension material 10, but by applying a larger prestress force than the above embodiment, a more advantageous stress distribution.

In this case, both ends of the fixing stand 110 is mounted on the upper surface of the jibo ball 100, for this purpose, as shown in Figure 9, the structure that is installed inside the steel pipe 11 of the upper both ends of the steel pipe loop structure (1) It is desirable to take

11 and 12, the both ends fixing unit 110 is coupled to the upper surface of the support ball 100, as well as the body plate 111 is formed with a through hole 111a in the core portion; It is preferable to take a structure including a reinforcing plate 112 provided at both ends of the main body plate 111 and the side of the tension member through-hole (111a) in terms of structural stability and ease of construction.

When the plurality of tension members 10 are fixed, a plurality of tension member through-holes 111a of the body plate 111 may be formed, and the reinforcing plate 112 may be provided in a region between the plurality of tension member through-holes 111a. .

In order to facilitate the fixing operation of the tension member 10, as shown in FIG. 12, the reinforcing plate 112 preferably has a structure formed to be inclined inward in the inner region of the main body plate 111.

Saddle 120 is installed in the lower portion of the core hole 100, also, as in the case of the both ends of the fixing unit 110, coupled to the side of the jibo ball 100, and the tension material through hole 121a is formed in the core portion Main body plate 121; It is preferable to take a structure including a reinforcing plate 122 provided at both ends of the main body plate 121 and the side of the tension member through-hole 121a (FIG. 13).

When the plurality of tension members 10 are fixed, a plurality of tension member through-holes 121a of the body plate 121 should also be formed, and the reinforcing plate 122 is also provided in an area between the plurality of tension member through-holes 121a. It is preferable.

The support hole 100 may be implemented by one I-beam, but as shown in FIG. 14, it is preferable to form a plurality of flange portions of the I-beams in terms of structural stability. When combined with the reinforcing plate 101 it is possible to obtain a more excellent effect.

As shown in FIGS. 15 and 16, the prestress introduction step includes installing upper and lower fixing units 210 and lower fixing units 220 at upper and lower ends of the outer wall member 200, respectively; Tensioning the tension member 10 to fix the upper and lower ends of the tension member 10 to the upper fixing unit 210 and the lower fixing unit 220.

This is because the prestress is applied not only to the upper support hole 100 but also to the outer wall member 200 forming the outer wall so as to resist not only the upper load but also the lateral earth pressure by the prestress force, so that the height of the underground structure is the same. The span can be further widened and a stable structure can be obtained.

15, the upper and lower ends of the outer wall member 200 are provided with upper and lower fixing units 210 and 220, respectively. Installing the inner saddle 230 inside the core portion of the outer wall member 200; By allowing the tension member 10 to be supported by the inner saddle 230, fixing the upper and lower ends of the tension member 10 to the upper fixing unit 210 and the lower fixing unit 220.

This has the advantage that a more favorable stress distribution can be obtained by applying a greater prestress force than the above embodiment while using the same length of the outer wall member 200 and the same tension member 10.

In this case, the upper fixing unit 210 and the lower fixing unit 220 is mounted to the outside of the outer wall member 200, for this purpose, as shown in Figure 15, the steel pipe of the upper and lower sides of the steel pipe loop structure (1) 12) It is preferable to take a structure installed inside.

Specific configuration of the upper fixing unit 210, lower fixing unit 220, the inner saddle 230 is preferably in accordance with the embodiment of the upper both ends of the fixing unit 110, saddle 120.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

Claims (14)

Steel pipe loop structure forming step of forming a steel pipe loop structure (1) along the outline of the underground structure to be installed; Supporting installation step for installing the support hole 100 inside the steel pipe loop structure (1); A prestress introduction step of introducing prestress into the support hole 100; A temporary installation step of installing a temporary facility inside the steel pipe loop structure (1); Wall and slab installation step of forming a wall and the slab on the inside of the steel pipe loop structure (1); Long span non-removable underground construction method using prestress support. The method of claim 1, The prestress introduction step Installing both end fixing units 110 at both ends of the support hole 100; Tensioning the tension member 10 to fix both ends of the tension member 10 to the both ends of the fixing stand 110; Long span non-removable underground structure construction method using a prestress support. The method of claim 2, The prestress introduction step Installing the both ends of the fixing stand (110) on both ends of the support ball (100); Installing a saddle (120) at the bottom of the core hole (100); Fixing the both ends of the tension member 10 to the both ends of the fixing unit 110 by allowing the tension member 10 to be supported by the saddle 120; Long span non-removable underground structure construction method using a prestress support. The method of claim 3, The both ends of the fixing unit 110 Long span non-seamless underground construction method using a prestress support, characterized in that installed in the steel pipe 11 of the upper both ends of the steel pipe loop structure (1). The method of claim 1, The support ball 100 is A long span non-adhesive underground construction method using prestress support, characterized in that formed by coupling the flange portions of a plurality of I-beams. The method of claim 5, The support ball 100 is Long span non-adhesive underground construction method using prestress support, characterized in that the upper and lower surfaces of the flange portion is coupled to the reinforcement plate (101). The method of claim 1, The prestress introduction step Installing upper and lower fixing units 210 and lower fixing units 220 at upper and lower ends of the outer wall member 200, respectively; Tensioning the tension member 10 to fix the upper and lower ends of the tension member 10 to the upper fixing unit 210 and the lower fixing unit 220; Long span non-removable underground structure construction method using a prestress support. The method of claim 7, wherein The prestress introduction step Installing the upper fixing unit 210 and the lower fixing unit 220 on upper and lower outer ends of the outer wall member 200; Installing an inner saddle (230) inside the core portion of the outer wall member (200); Fixing the upper and lower ends of the tension member 10 to the upper fixing member 210 and the lower fixing member 220 by allowing the tension member 10 to be supported by the inner saddle 230. Long span non-removable underground structure construction method using a prestress support. The method of claim 8, The upper fixing unit 210 and the lower fixing unit 220 The long span non-adhesive underground construction method using prestress support, characterized in that installed in the steel pipe 12 of the upper and lower sides of the steel pipe loop structure (1). As both ends of the fixing stand 110 used in the underground structure method of any one of claims 2 to 4, Body plate 111 is coupled to the upper surface of the support hole 100, the tension member through hole 111a is formed in the core portion; Reinforcement plate 112 provided at both ends of the body plate 111 and the side of the tension material through-hole (111a); Both ends of the fixing stand 110, characterized in that it comprises. The method of claim 10, The tension member through-hole 111a is formed with a plurality, The reinforcing plate 112 is fixed to both ends, characterized in that installed in the region between the plurality of tension material through-holes (111a). The method of claim 10, The reinforcing plate 112 is fixed to both ends, characterized in that formed inclined toward the inner side in the inner region of the body plate (111). As the saddle 120 used in the underground structure method of claim 3, A body plate 121 coupled to the side surface of the support hole 100 and having a tension material through hole 121a formed at a core portion thereof; Reinforcement plate 122 provided at both ends of the body plate 121 and the side of the tension material through hole (121a); Saddle 120, characterized in that it comprises. The method of claim 13, The tension member through-hole 121a is formed with a plurality, The reinforcement plate 122 is saddle 120, characterized in that also installed in the area between the plurality of tension material through-holes (121a).