KR102102593B1 - constructing level tunnel connecting part of vertical structure and apparatus thereof - Google Patents

Abstract

The present invention relates to an apparatus for forming a horizontal tunnel connection part of a vertical sphere structure applied to a top-down method of descending a vertical sphere wall of a predetermined height from the ground to a lower vertical sphere at the same time as excavation of the vertical sphere through concrete pouring in the field.
The apparatus for forming the horizontal tunnel connection part of the vertical sphere structure according to the present invention includes a temporary structure 100 installed on the floor, a concrete formwork 200 including a formwork panel 230 that is removably installed on the temporary structure, and the A falling induction member 230 installed in a concrete formwork and descending a wall of a vertical sphere structure formed through a concrete formwork, and installed between the temporary structure 100 and the concrete formwork 200 to install the formwork panel 230 The lifting member 300 for elevating the concrete formwork 200 included, the concrete panel 200 for the horizontal tunnel connection formwork located in close contact with the inside of the concrete formwork 200, and the concrete through the descending induction member 230 It is installed inside the formwork 200 and includes a support 270 to support the horizontal tunnel connection formwork panel 400 to a predetermined height; The descending induction member 230 includes a plurality of outer vertical supports 210 supported vertically on the temporary structure 100, and a plurality of supported vertically connected to the outer vertical supports inside each outer vertical support. An inner vertical support 220, a lower hydraulic jack 261 fixed in a vertical state between each outer vertical support 210 and an inner vertical support 220, and a falling jack rod 262 coupled to the descending hydraulic jack , Consisting of a lower bracket 263 fixed to the lower end of the descending jack rod; The elevating member 300 has a rising hydraulic jack 310 fixed vertically to an outer portion of each outer vertical support 210, which is a component of the descending induction member 230, and a lower structure supported by the lifting hydraulic jack on a temporary structure. It is characterized in that it consists of a lifting jack rod 320 coupled to the state.

Description

Forming device for horizontal tunnel connecting part of vertical sphere structure

The present invention relates to a horizontal tunnel connecting part forming apparatus of a vertical sphere structure applied to a top-down method of descending a vertical sphere wall of a predetermined height from the ground to a lower vertical sphere at the same time as excavation of the vertical sphere through concrete pouring in the field.

In general, in order to prevent the air in the underground tunnel and the platform from being polluted by various harmful gases and fine dust contained in the wind generated during the operation of the train during the construction of the subway line, the underground tunnel is used for each section along each subway station and underground line. And a vertical sphere structure that essentially serves as a passage for discharging air from the platform to the ground or supplying ground air to the underground tunnel and platform.

These vertical sphere structures are constructed through a traditional method that builds and builds from the bottom to the top of the basement while installing a temporary barrier wall on the outer part after digging and supporting the load on the temporary barrier wall as a support, but often Because of the traffic jam caused by the stop of the construction vehicle and damage to the surrounding area, there are many problems in applying the above method when the building is located close to the site boundary, such as a large city, and when installing a temporary mud wall The props installed together in the construction process have many problems such as process complexity, work risk, and waste generation due to the construction of the structure, and recently, the air is fast, economical, and structurally safe. Many construction methods have been proposed.

As an example of these new construction methods, a top-down method is known.

The top-down method is to construct a basement outer wall (underground continuous wall: slurry wall) and a bored pile before excavation, and then repeat it downward for the basement slab and earthwork step by step. It is a method of forming structures.

Such a top-down construction method is also called a downward method, a reverse method, or a top down method because it is constructed downward from the lower side to the traditional construction which is built up from the lower side. The top-down construction method is stable for excavation of large cross-sections and large depths that are difficult to plan with the existing open cut method, and since the floor on the first floor is pre-constructed, it is possible to secure an early work place, so that it can be constructed during rainfall and snowfall. In terms of all-weather construction method, it is spotlighted as a construction method suitable for downtown construction. In particular, the ground and the basement can be carried out at the same time, it can also treat the effect of air shortening.

The applicant has proposed the construction method and apparatus of the vertical sphere structure using the above-described top-down method through patent application No. 10-2017-0041727.

According to the construction method and apparatus of the vertical sphere structure using the top-down construction method, after installing the temporary structure on the ground, while the concrete formwork is installed in the temporary structure, the vertical sphere is excavated inside the temporary structure and at the same time, the concrete The vertical sphere wall is formed through a formwork, and after the vertical sphere wall is lowered to a certain depth inside the vertical sphere through a descending induction member installed in the concrete formwork, the concrete formwork is used by using a lifting member fixed to the temporary structure. It is designed to perform reinforcement work on the top of the vertical wall for connecting the horizontal tunnel by raising it.

Then, the concrete formwork is lowered to form the upper vertical wall on the top of the vertical wall, and then the construction is performed while repeating the process of descending the upper vertical wall together with the vertical wall.

On the other hand, the vertical structure is provided with a horizontal tunnel so that a number of underground facilities users can escape to the ground through the vertical structure when an emergency evacuation situation such as a fire occurs in the underground structure. After completion, the construction is carried out by sending the excavator down into the vertical structure.

However, when a horizontal tunnel is constructed in this way, an impact occurs on the vertical structure in the process of crushing a part of the wall of the vertical sphere structure that the excavator has already completed to form the horizontal tunnel connection. A serious problem arises in that the structural safety of the structure is significantly reduced.

In addition, since the finishing work for the connection part of the horizontal tunnel has to be additionally performed, there is a problem in that air is delayed.

The present invention has been devised to solve the above-mentioned problems, and it is a vertical sphere structure that improves work efficiency by quickly performing a series of work processes for a horizontal tunnel connection without affecting the structural safety of the vertical structure. The aim is to provide a horizontal tunnel connection forming device.

In order to achieve the above object, the apparatus for forming the horizontal tunnel connection part of the vertical sphere structure of the present invention includes a temporary structure installed on the floor, a concrete formwork including a formwork panel, which is removably installed on the temporary structure, and the concrete formwork. A descending induction member installed to descend the wall of the vertical sphere structure formed through the concrete formwork, and a lifting member installed between the temporary structure and the concrete formwork to elevate the concrete formwork including the formwork panel, and the interior of the concrete formwork It includes a formwork panel for horizontal tunnel connection that is located in close contact with, and is installed inside the concrete formwork through the descending induction member to support the horizontal tunnel connection formwork panel to a predetermined height; The descending induction member includes a plurality of outer vertical supports supported vertically to the temporary structure, a plurality of inner vertical supports supported vertically to be connected to each outer vertical support inside the outer vertical supports, and each outer vertical It consists of a descending hydraulic jack fixed vertically between a support and an inner vertical support, a descending jack rod coupled to the descending hydraulic jack, and a lower bracket fixed to the lower end of the descending jack rod; The elevating member is composed of an elevating hydraulic jack fixed vertically to an outer portion of each outer vertical support, which is a component of the descending induction member, and an elevating jack rod coupled with the lower end of the elevating hydraulic jack supported on a temporary structure.

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In addition, the formwork panel for connecting the horizontal tunnel is formed to be divided up and down. In this case, it is preferable that a plurality of strength reinforcement support frames are installed inside the formwork panel for connecting the horizontal tunnel.

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The present invention configured as described above is to continuously form a vertical tunnel wall for horizontal tunnel connection by placing concrete in the formwork panel for horizontal tunnel connection inside the concrete formwork and then pouring concrete between the concrete formwork and the formwork panel for horizontal tunnel connection. Therefore, during the concrete curing process for forming the horizontal tunnel wall, which is a vertical sphere structure, the work of forming the next wall is continuously performed without waiting for curing to be completed. It has the effect of being able to complete the entire work in a short time, including the work of connecting the horizontal tunnel of the vertical sphere structure.

1 is a perspective view showing a temporary structure and a concrete formwork installed on the ground according to the present invention.
Figure 2 is a cross-sectional perspective view of Figure 1;
3A and 3B are cross-sectional perspective views respectively showing a process in which a vertical wall for vertical tunnel connection is formed according to the present invention.
4A and 4B are cross-sectional perspective views showing a process in which a central wall for vertical tunnel connection is formed according to the present invention, respectively.
5A and 5B are cross-sectional perspective views respectively showing a process in which the vertical wall for vertical tunnel connection is formed according to the present invention.
6A and 6B are cross-sectional perspective views showing a process in which a vertical sphere wall is integrally formed on the top of a vertical sphere wall for horizontal tunnel connection according to the present invention, respectively.
7 is to the target depth according to the invention A cross-sectional view showing a vertical sphere wall installed.

Features and advantages of the present invention will become more apparent from the detailed description of the following preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the specification and claims are based on the principle that the inventor can appropriately define the concept of terms in order to best describe his or her invention in the technical spirit of the present invention. It must be interpreted as a match meaning and concept.

Hereinafter, an exemplary embodiment of the present invention will be described in detail with reference to the drawings. The same reference numerals are used for the same components, and only the different portions that are not duplicated as much as possible are mainly described for clarity.

The method for forming a horizontal tunnel connection part of a vertical sphere structure according to the present invention is performed in the following order.

1 and 2, the temporary structure 100 is installed on the ground, and then the concrete formwork 200 is installed on the temporary structure 100.

The concrete formwork 200 includes an outer vertical support 210 installed on the top of the temporary structure 100, an inner vertical support 220 connected to the outer vertical support 210, and the outer vertical support 210. It has a formwork panel 230 coupled to the inner vertical support 220, it may be further provided with a safety worktable (240,250) that can be elevated to the inside of the vertical sphere. Since the concrete formwork 200 is roughly the same as the conventional one, detailed description is omitted.

In addition, the concrete formwork 200 is provided with a descending induction member 260 for descending the molded vertical sphere wall, and the temporary structure 100 is provided with a lifting member 300 for elevating the concrete formwork 200. do.

The descending induction member 260 is fixed to the lower end of the descending jack rod 262 and the descending jack rod 262 coupled to the descending hydraulic jack 261 and the descending hydraulic jack 261 installed in the concrete formwork 200. Consists of a bracket 263, the lifting member 300 is coupled to the lifting hydraulic jack 310 and the lifting hydraulic jack as the descending induction member 260, the lower lifting jack rod 320 supported on the temporary structure 100 ).

As shown in Figure 3a, when the installation of the concrete formwork 200 to the temporary structure 100 is completed, between the formwork panel 230 in a state of lifting the concrete formwork 200 using the lifting member 300 The support 270 is installed.

The support 270 is a vertical and horizontal member fixed vertically at regular intervals on the upper end of the lower bracket 263 of the descending induction member 260, and then the formwork panel for horizontal tunnel connection inserted between the formwork panels 230 The outer surface of 400 is supported. Therefore, the support 270 is formed in different heights and lengths along the outer surface of the formwork panel 400 for horizontal tunnel connection.

In addition, the support 270 may be installed between the formwork panel 230 to improve the strength of the vertical sphere wall (A) reinforcement bar (A), in this case, the support 270 are reinforcement bar (A) It can be part of.

As described above, when the installation of the support 270 is completed, the horizontal tunnel connection formwork panel 400 is seated on the support 270, and then the concrete formwork 200 is lowered to its original position using the elevation member 300. Order.

The horizontal tunnel connection formwork panel 400 is manufactured in a cylindrical shape along the shape of the horizontal tunnel entrance. When the entrance size of the horizontal tunnel is large, it is difficult to handle and construct the horizontal tunnel connection formwork panel 400. As it is shown, as shown in the figure, it is divided and formed in the vertical direction and the work is progressed while being inserted step by step inside the concrete formwork 200. In this embodiment, the horizontal tunnel connection formwork panel 400 is illustrated and described as an example in which the lower formwork panel 400a, the middle formwork panel 400b, and the upper formwork panel 400c are divided into three.

In addition, support frames 410 for strength reinforcement may be installed inside the lower formwork panel 400a, the middle formwork panel 400b, and the upper formwork panel 400c to withstand the load applied from the outside. Although not illustrated, auxiliary frames for supporting the support frames 410 between the support frames 410 may be further installed. In this case, the auxiliary frames are preferably installed to be stretchable through a cylinder so as to vary the support height according to the distance of the support frame 410.

The support frame 410 and the auxiliary frames may be installed step-by-step inside the formwork panels 400a, 400b, 400c for horizontal tunnel connection whenever the formwork panels 400 for horizontal tunnel connection are inserted step by step. For convenience and shortening of the air, it is preferable to be supplied to the site in a pre-assembled state in the formwork panels 400a, 400b, 400c for connecting the horizontal tunnel.

As shown in Figure 3b, when the installation of the lower formwork panel (400a) is completed, by inserting equipment such as a fork lane (not shown) into the interior of the temporary structure 100, while performing the excavation of the vertical sphere at the same time the concrete formwork (200) ) And cast the concrete between the lower formwork panel (400a) to form a vertical sphere lower wall (B1) for horizontal tunnel connection in the field. As described above, the present invention can greatly shorten the air because concrete pouring and curing are performed during the excavation of the vertical sphere.

And, as shown in Figure 4a, the intermediate formwork panel 400b is seated on the upper part of the lower formwork panel 400a, and then the middle formwork panel 400b and the lower formwork panel 400a are securely fixed and connected to a horizontal tunnel. When the installation of the support 270 on the upper portion of the lower wall (B1) for the vertical installation is completed, as shown in FIG. 4B, the support 270 and the middle between the formwork panels 230 using the descending induction member 260. After accompanying the formwork panel 400b, concrete is poured between the concrete formwork 200 and the intermediate formwork panel 400b to form a vertical sphere intermediate wall B2 for horizontal tunnel connection in the field.

And, as shown in Figure 5a, the upper formwork panel 400c is seated on the upper side of the intermediate formwork panel 400b, and then the upper formwork panel 400c and the middle formwork panel 400b are securely fixed and connected to a horizontal tunnel. When the installation of the support 270 on the upper portion of the intermediate wall (B2) for the vertical sphere is completed, as shown in FIG. 5B, the support 270 and the upper part between the formwork panels 230 using the descending induction member 260. After descending the formwork panel (400c), concrete is poured between the concrete formwork (200) and the upper formwork panel (400c) to form a vertical sphere upper wall (B3) for horizontal tunnel connection in the field. This completes the vertical sphere wall for the horizontal tunnel connection where the horizontal tunnel connection portion of the vertical sphere is formed.

And, as shown in Fig. 6a, the reinforcement (A) for the reinforcement is installed on the top of the vertical sphere wall for the completed horizontal tunnel connection, as shown in Fig. 6b, using a descending induction member 260 horizontal The vertical sphere wall for tunnel connection is lowered, and then concrete is poured into the concrete formwork 200 to form a vertical sphere wall (B4) integrally on the top of the vertical sphere wall for horizontal tunnel connection in the field.

On the other hand, while forming the vertical sphere wall and the vertical sphere wall (B4) for the horizontal tunnel connection, the excavation of the vertical sphere continues. Normally, the drilling speed of the vertical sphere is faster than the molding speed of the vertical sphere wall and vertical sphere wall (B4) for horizontal tunnel connection, so the molding of the vertical sphere wall and vertical sphere wall (B4) for horizontal tunnel connection affects the excavation of the vertical sphere. It can be performed continuously without receiving.

In addition, when the vertical sphere wall for the horizontal tunnel connection descends, the concrete panel for the horizontal tunnel connection is demolished and the support frame 410 for strength reinforcement and the auxiliary frame are dismantled and taken out to the ground while the concrete poured over the top is cured.

As shown in FIG. 7, the horizontal tunnel connection part (part A of FIG. 7) is repeated until the vertical sphere for horizontal tunnel connection reaches the bottom of the target vertical depth while repeating this series of processes. Construction of the formed vertical sphere structure (part B in FIG. 7) is completed.

On the other hand, when the construction of the vertical sphere structure in which the horizontal tunnel connection is formed is completed, concrete is poured on the floor of the vertical sphere to construct the floor surface (D), and then an excavator (not shown) is inserted into the vertical sphere to excavate the horizontal tunnel. .

According to the present invention, since the horizontal tunnel connection portion is already formed on the vertical sphere wall for horizontal tunnel connection, the horizontal tunnel excavation can be performed immediately without crushing the completed vertical sphere structure (B).

Therefore, even if the horizontal tunnel excavation process is continuously performed in the state in which the work of the vertical sphere structure is completed by the present invention, there is no external force applied to the vertical sphere structure, so there is no impact on structural stability, and the horizontal tunnel connection part No finishing is required at all, which significantly reduces air.

As described above, preferred embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-described embodiments, and those skilled in the art to which the present invention pertains deform without departing from the spirit of the present invention. It is possible, and such modifications will fall within the scope of the present invention.

100 ... temporary structure 200 ... concrete formwork
210 ... outer vertical support 220 ... inner vertical support
230 ... formwork panel 260 ... descending induction member
261 ... Down hydraulic jack 262 ... Down jack rod
263 ... Lower racket 270 ... Support
300 ... Elevating member 310 ... Elevating hydraulic jack
320 ... lift jack rod 400 ... formwork panel for horizontal tunnel connection
400a ... lower formwork panel 400b ... middle formwork panel
400c ... Upper formwork panel 410 ... Support frame for strength reinforcement
A ... Reinforcing bar for reinforcement

Claims (5)

delete delete The temporary structure installed on the floor,
A concrete formwork that is installed to be elevated on the temporary structure and includes a formwork panel,
A descending induction member installed on the concrete formwork and descending a wall of a vertical sphere structure formed through the concrete formwork;
A lifting member installed between the temporary structure and the concrete formwork to elevate the concrete formwork including the formwork panel;
A formwork panel for horizontal tunnel connection, which is located in close contact with the inside of the concrete formwork,
It is installed inside the concrete formwork through the descending induction member and includes a support for supporting the formwork panel for horizontal tunnel connection to a certain height;
The descending induction member includes a plurality of outer vertical supports supported vertically to the temporary structure, a plurality of inner vertical supports supported vertically to be connected to the outer vertical supports inside each outer vertical support, and each outer vertical It consists of a descending hydraulic jack fixed vertically between a support and an inner vertical support, a descending jack rod coupled to the descending hydraulic jack, and a lower bracket fixed to the lower end of the descending jack rod;
The elevating member is composed of an elevating hydraulic jack fixed vertically to an outer portion of each outer vertical support, which is a component of the descending induction member, and an elevating jack rod coupled with the lower end of the elevating hydraulic jack supported on a temporary structure. Forming device for horizontal tunnel connection of vertical sphere structure. delete delete

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