KR102146077B1 - Construction method of top slab with opening for vertical shaft - Google Patents

Abstract

The present invention relates to a construction method of a vertical shaft with an opening part on an uppermost slab which must have an opening part used for a purpose such as a vent on a slab installed on the upper most side of a vertical shaft. After a vertical shaft inner wall construction step of constructing an inner wall of a vertical shaft, while leaving an opening part after installing a support beam crossing an entrance of the vertical shaft on the upper end of the inner wall, a precast slab is mounted in a space between the support beam and the inner wall of the vertical shaft. A plurality of support beams can be used if the vertical shaft has a large cross section. The construction method includes a step of installing a first support beam crossing the entrance of the vertical shaft and a second support beam separated from the first support beam to cross the entrance of the vertical shaft on the upper end of the inner wall. A precast slab is mounted in a space between the first support beam and the inner wall of the vertical shaft and a space between the second support beam and the inner wall of the vertical shaft. While leaving the opening part, a precast slab is mounted between the first support beam and the second support beam.

Description

Construction method of top slab with opening for vertical shaft}

The present invention relates to a method of constructing a vertical sphere having an opening in the uppermost slab, which is used when the slab installed on the uppermost side of the vertical hole must have an opening used for the same purpose as a ventilation hole.

In recent years, as the construction of deep tunnels using urban underground spaces or common wards accommodating public facilities has been increasing for the three-dimensional development of cities, a vertical shaft is used as a construction passage during construction, a maintenance passage after construction, and a ventilation port. Construction cases are increasing.

Such a vertical hole excavates the excavation hole in the vertical direction from the ground, pours concrete on the bottom of the excavation hole to form the bottom surface, and then installs a formwork along the inner circumferential surface of the excavation hole from the bottom of the excavation hole and pours concrete. It is constructed in the order of forming a vertical wall by repeating the process.

In forming the vertical wall of the vertical sphere, in the past, the formwork was installed at the location where the vertical wall was formed, and after concrete was poured, the formwork was dismantled, reassembled and installed at the next working location, and then concrete was poured. Was used, but recently the slip foam method is widely used.

Slip form refers to a form applied to the construction method of completing a structure by continuously assembling reinforcing bars and pouring concrete while raising the formwork upward when the strength of concrete becomes more than the strength that can stand on its own after pouring concrete. The slip foam is generally composed of an upper workbench, an intermediate workbench, and a lower workbench, and a vertical wall is constructed while moving vertically by a hydraulic jack arranged on the main surface.

In addition, Patent Publication No. 10-2001526 discloses a top-down vertical hole construction device and method. According to this, a vertical hole press-fitting device is prefabricated so that the installation of the vertical sphere is excavated and the construction of the vertical sphere wall is carried out by concrete pouring or Using precast concrete walls, it is done in a top-down manner at the same time.

At the top of the vertical sphere constructed in this way, a slab structure covering the vertical sphere is constructed, and the uppermost slab is provided with an opening used as a working passage or a ventilation hole. 1 is a cutaway perspective view of a vertical sphere having an opening in an uppermost slab. Such slab structures have been constructed by installing formwork and placing them on site. However, slab construction by on-site casting has to go through the process of installing temporary facilities such as scaffolding and copper bars, installing formwork, reinforcing reinforcing bars, connecting rebars, placing concrete, curing, and dismantling formwork and temporary facilities to install the formwork inside the vertical hole. Therefore, there is a problem that the risk of safety accidents increases as the construction period and manpower are relatively large, and materials required for on-site placement may fall below the vertical hole.

Registered Patent Publication No. 10-1679180 Construction method of vertical ventilation Registered Patent Publication No. 10-1584361 Ventilation facilities for safety maintenance of underground public areas Registered Patent Publication No. 10-1262969 Foldable safety ladder of ventilation port for tunnel maintenance Registered Patent Publication No. 10-2026571 Embedded slab bracket for vertical sphere and construction method

The present invention is to secure the simplicity and speed of construction of the vertical sphere by constructing the slab structure covering the uppermost end of the vertical sphere by means of a support beam and a precast slab.

In particular, even when an opening must be formed in the uppermost slab, the part except the opening is closed using a precast slab manufactured in advance, so that the vertical hole functions as a maintenance passage or ventilation hole.

In addition, the support beams on which the precast slab is mounted can be stably fixed to the inner wall of the vertical hole, while the movement of the precast slab is restricted after the precast slab is placed on the support beams and the inner wall, thereby improving the stability of the structure. Let's do it.

In addition, by forming a finished slab on the top of the precast slab by casting on-site, it aims to improve the watertightness of the slab structure while seeking structural integrity between the vertical sphere and the slab.

In addition, by providing a stepped portion on the main surface of the opening formed in the uppermost slab, it is intended to prevent material or manpower from falling through the opening.

This object of the present invention is, after the vertical sphere inner wall construction step of constructing the inner wall of the vertical sphere, after installing a support beam crossing the entrance of the vertical sphere at the top of the inner wall, between the support beam and the inner wall of the vertical sphere while leaving an opening It is achieved by occluding the space with a precast slab.

When the vertical sphere has a large cross-section, a plurality of support beams can be used.A first support beam crossing the entrance of the vertical sphere at the upper end of the inner wall, and a second support crossing the entrance of the vertical sphere separated from the first support beam Installing a beam, mounting a precast slab that closes the space between the inner wall of the first support beam and the vertical sphere, and the space between the second support beam and the inner wall of the vertical sphere, and leaving the openings It is achieved by including the step of mounting a precast slab between the two support beams.

As a method of fixing the support beam to the inner wall of the vertical sphere, in the vertical sphere inner wall construction step, a support beam recess is formed in which the end of the support beam is inserted into the uppermost end of the inner wall, and the end of the support beam is formed in the step of installing the support beam. The support beam is fixed by inserting it into the support beam recess of the inner wall, or a bracket is formed to protrude at the uppermost end of the inner wall so that the end of the support beam can be mounted in the vertical hole inner wall construction step, and supported in the step of installing the support beam Support beams can be installed by mounting and fixing the end of the beam to the bracket. By providing a protrusion in the longitudinal direction at the upper center of the support beam, it is possible to limit the movement of the precast slab to be seated later.

In addition, by further comprising the step of constructing the finished slab by placing concrete on the top of the precast slab on-site, the structural integrity of the vertical sphere and the slab are secured and watertightness is improved.

In addition, by providing a stepped portion on the main surface of the opening, it is possible to prevent a material or manpower from falling through the opening, thereby preventing a safety accident.

The present invention can secure the simplicity and speed of construction of the vertical sphere by constructing the slab structure covering the uppermost end of the vertical sphere by means of a support beam and a precast slab.

In particular, even when an opening is to be formed in the uppermost slab, the part excluding the opening is closed using a precast slab prepared in advance, so that a maintenance passage or ventilation hole of the vertical hole can be easily constructed.

In addition, not only the support beams for mounting the precast slab are stably fixed to the inner wall of the vertical hole, but also the structural integrity of the vertical sphere and the slab and the watertightness of the slab structure can be secured by forming the finished slab by casting on-site on the top of the precast slab. have.

In addition, by providing a stepped portion on the main surface of the opening formed in the uppermost slab, there is an effect of preventing the occurrence of a safety accident by falling of materials or personnel through the opening.

1 a cutaway perspective view of a vertical sphere having an opening in the uppermost slab
Figure 2 Construction state diagram of the top slab according to an embodiment of the present invention
Figure 3 Construction state diagram of the top slab according to another embodiment of the present invention
Fig. 4a A plan view and a perspective view of the main parts in a state in which the support beam is formed at the end of the inner wall
Fig. 4b a plan view and a perspective view of main parts in a state in which a support beam mounting bracket is formed at an end of an inner wall
Figure 5 A cross-sectional view of an embodiment of a support beam according to the present invention
Fig. 6 Cross-sectional view of an embodiment of a vertical hole inner wall, a precast slab and a finished slab coupling relationship
7 Construction sequence plan view according to the present invention

The vertical sphere construction method having an opening in the uppermost slab of the present invention includes a vertical sphere inner wall 11 construction step of constructing the inner wall of the vertical sphere; Installing a support beam 100 crossing the entrance of the vertical sphere at the upper end of the inner wall; And mounting the precast slab 200 for closing the space between the support beam and the inner wall of the vertical sphere while leaving the opening.

In FIG. 2, after the vertical sphere inner wall 11 is constructed, one support beam 100 is installed across the entrance of the vertical sphere, and the space between the support beam and the vertical sphere excluding the opening is precast slab 200. Mounted and closed state is shown. The precast slab 200 is divided into appropriate sizes in consideration of the convenience of manufacturing and transportation according to the size of the vertical section. In FIG. 2, a precast slab of 200a to 200e is mounted in the space between the beam 100 and the vertical sphere wall 11 in which no opening is formed, and the precast slab of 200f to 200g is mounted adjacent to the opening. However, the appropriate number of precast slabs can be changed in consideration of the cross-sectional size of the vertical sphere to be constructed and the size of the opening. In addition, for convenience of explanation, precast slabs are only indicated as 200a ~ 200g, and this does not mean the construction order of the precast slabs.

On the other hand, when the cross section of the vertical sphere is relatively large, it is advantageous to increase workability to construct using a plurality of support beams. A vertical sphere construction method having an opening according to another embodiment of the present invention, as using a plurality of support beams crossing the entrance of the vertical sphere, the vertical sphere inner wall construction step of constructing the inner wall of the vertical sphere; Installing a first support beam crossing the entrance of the vertical sphere and a second support beam spaced apart from the first support beam and crossing the entrance of the vertical sphere at an upper end of the inner wall; Mounting a precast slab to block a space between the first support beam and the inner wall of the vertical sphere and the space between the second support beam and the inner wall of the vertical sphere; It may include; mounting the precast slab between the first support beam and the second support beam while leaving the opening.

Mounting a precast slab to block the space between the first support beam and the inner wall of the vertical sphere, and the space between the second support beam and the inner wall of the vertical sphere, and the first support beam and the second support beam while leaving openings. The step of passing the precast slabs between them is a parallel configuration, and the order may be changed or may be performed simultaneously.

3, after the vertical sphere inner wall 11 is constructed, a first support beam crossing the entrance of the vertical sphere and a second support beam spaced parallel to the first support beam and crossing the entrance of the vertical sphere are installed, A precast slab is mounted to block the space between the first support beam and the inner wall of the vertical sphere, and the space between the second support beam and the inner wall of the vertical sphere, and between the first support beam and the second support beam while leaving an opening. A state in which the precast slab is mounted is shown.

The precast slab 200 is divided into appropriate sizes in consideration of the convenience of manufacturing and transportation according to the size of the vertical section. In FIG. 3, it is shown that the space between the first support beam and the vertical sphere wall is closed with a precast slab of 200a to 200e, and the space between the second support beam and the vertical sphere wall is closed with a precast slab of 200f to 200j. The appropriate number of precast slabs can be changed in consideration of the cross-sectional size and constructability of the vertical sphere to be constructed. In addition, it is shown that the opening 30 is left in the space between the first support beam and the second support beam, and is closed with a precast slab of 200k ~ 200n, but considering the separation distance between the support beams and the cross-sectional size of the vertical sphere, The number can be changed and configured. In addition, for convenience of explanation, precast slabs are only indicated as 200a to 200n, and this does not mean the construction order of the precast slabs.

In the present invention, a case in which the plane cross section of the vertical sphere is circular is described as an example, but is not limited thereto.

The inner wall is provided with a support beam support means so that the support beam 100 can be installed. The support beam support means is in contact with the support beam 100 to fix the end of the support beam 100 and transmits the load received from the support beam 100 to the vertical sphere inner wall 11.

As shown in FIG. 4A, the support beam support means may be a support beam depression 13 formed so that the end of the support beam is inserted into the uppermost end of the inner wall in the vertical hole inner wall construction step. In the step of installing the support beam, the support beam installation is completed by inserting the end of the support beam into the support beam recess 13.

The support beam support means may be a bracket 14 installed at the uppermost end of the inner wall so that the end of the support beam can be mounted in the vertical hole inner wall construction step, as shown in FIG. 4B. As for the embedding of the bracket in the vertical sphere wall, a detailed description is omitted since it is disclosed in Korean Patent No. 10-2047997. However, since the support beam must transmit the load transmitted from the upper precast slab 200 and the finished slab 400 to the vertical sphere wall, it is common in this technical field that the bracket on which the support beam is mounted must be formed to have sufficient strength. It is self-evident to someone with knowledge of. After mounting the end of the support beam to the bracket 14, the end of the support beam is fixed to the bracket 14 so that the support beam does not move.

The support beam 100 may be an H-beam or a T-beam, and as shown in FIG. 5A, the H-beam or T-beam is positioned at the center thereof and may be a precast beam reinforced with a buried reinforcing bar. In addition, as shown in FIG. 5B, it may be a precast beam reinforced with reinforcement along the outer peripheral surface of the cross section.

As shown in FIG. 5C, the support beam 100 may further include a protrusion 120 in the longitudinal direction at the upper center. If the protrusion 120 is provided, the side of the protrusion is free when mounting the precast slab. Since the end of the cast slab comes into contact, the operation becomes convenient and there is an effect of limiting the movement of the precast slab.

Although not shown, in the case of using a plurality of support beams, if the separation distance between the first support beam and the second support beam is long, after installing additional horizontal beams between the first support beam and the second support beam Precast slabs can also be mounted.

6 shows various embodiments of a state in which the precast slab 200 is mounted between the vertical sphere wall 11 and the support beam 100. 6(a) shows a state in which the precast slab 200 is placed on the top of the vertical sphere wall. 6(b) and 6(c) show that a stepped step is formed along the main surface inside the upper end of the vertical sphere wall so that the precast slab 200 can be seated, and one side of the precast slab 200 is the top of the beam. And the other end is seated on a stepped jaw formed along the main surface inside the upper end of the vertical sphere wall. 6(d) is a precast slab 200 mounting bracket 15 installed on the inside of the vertical sphere wall 11, so that one side of the precast slab 200 is placed on the top of the beam and the other end is a vertical sphere. It shows a state seated on the bracket 15 provided inside the upper end of the wall.

After seating the precast slab 200, the gap between the precast slab 200, the gap between the precast slab 200 and the vertical wall 11, and between the precast slab 200 and the support beam It improves watertightness by filling the gaps with a filler such as mortar.

The vertical sphere construction method according to the present invention may include the step of further constructing the finishing slab 400 through on-site concrete pouring on the precast slab. The finishing slab 400 may be constructed such that the vertical sphere wall and the precast slab 200 are covered.

The finishing slab 400 can be constructed by installing a formwork so that the vertical sphere wall and the entire precast slab are covered and concrete is poured into the formwork.For reinforcement of the finishing slab 400, reinforcing reinforcing bars are placed in the formwork. If concrete is poured after fixing with the vertical reinforcing bars (not shown) of the direct ball wall, the vertical ball and the slab are structurally integrated and the watertightness of the slab structure can be secured.

In addition, a more robust slab can be formed by forming the precast slab 400 so that the fixing reinforcing bar protrudes upward and then connecting it to the reinforcing bar for construction of the finishing slab 400.

In the step of constructing the finishing slab, a stepped portion may be provided on the main surface of the opening to prevent falling through the opening. The stepped portion may be assembled by disposing the precast stepped block 300 on the main surface of the opening.

The stepped block 300 may serve as a formwork when constructing the finishing slab, and although not shown in the drawing, the stepped part on the finished slab is connected to the reinforcing bar for the construction of the finishing slab 400 by protruding the reinforcing bar outside the block. It can be formed integrally.

Since the stepped part is provided on the main surface of the opening, the existence of the opening can be easily recognized by the operator, preventing a fall accident, and even when additional work is performed on the upper part of the slab, materials, etc., cannot easily cross the stepped part. It can also prevent material from falling through the opening.

7 shows the construction sequence of the uppermost slab of the vertical sphere according to the present invention. In the step of constructing the inner wall of the vertical sphere, a support beam support means on which the support beam is seated is provided (FIG. 7A). In Fig. 7a, it is shown that the support beam has a recess at the upper end of the inner wall as the support beam support means, but as described above, the support beam support means is a bracket installed at the uppermost end of the inner wall so that the end of the support beam can be mounted. It may be (14). Next, the support beam 100 is seated on the support beam support means (Fig. 7b). In Fig. 7b, it is shown that two support beams are installed, but it is possible to install one support beam or two or more support beams according to the size of the vertical section. Then, the space excluding the openings is closed by placing precast slabs divided into a plurality of pieces (Fig. 7C). It is described above that the number of divisions of the precast slab can be adjusted in consideration of the convenience and constructability of work. In the case of forming a stepped portion on the main surface of the opening, a precast stepped block is assembled and installed along the main surface of the opening (Fig. 7D). Finally, the construction of the slab is completed by further constructing the finished slab through on-site concrete pouring on the precast slab (FIG. 7e).

Thus, although the preferred embodiment of the present invention has been described above with reference to the drawings, the present invention is not limited to the above-described embodiment, and those of ordinary skill in the art to which the present invention pertains do not depart from the spirit of the present invention. It can be modified within the scope, and such modifications will also belong to the scope of the present invention.

It can be used for construction of a vertical hole that must have an opening used for the same purpose as a ventilation hole in the slab installed at the top of the vertical hole.

10: vertical sphere 11: vertical sphere inner wall
13: depression 14: support beam support bracket
15: precast slab support bracket 20: slab
30: opening 100: support beam
110: main body 120: protrusion
200: precast slab 300: stepped block
400: finishing slab

Claims (10)

Vertical sphere inner wall construction step of constructing the inner wall of the vertical sphere;
Installing a support beam crossing the entrance of the vertical sphere at the upper end of the inner wall;
Closing the space between the support beam and the inner wall of the vertical sphere with a precast slab while leaving an opening;
A vertical sphere construction method for forming an opening in the uppermost slab, comprising the step of constructing a finished slab by placing concrete on-site on the top of the precast slab. Vertical sphere inner wall construction step of constructing the inner wall of the vertical sphere;
Installing a first support beam crossing the entrance of the vertical sphere and a second support beam spaced apart from the first support beam and crossing the entrance of the vertical sphere at an upper end of the inner wall;
Closing the space between the first support beam and the inner wall of the vertical sphere, and the space between the second support beam and the inner wall of the vertical sphere through a precast slab;
Mounting a precast slab between the first support beam and the second support beam while leaving an opening;
A vertical sphere construction method for forming an opening in the uppermost slab, comprising the step of constructing a finished slab by placing concrete on-site on the top of the precast slab. Vertical sphere inner wall construction step of constructing the inner wall of the vertical sphere;
Installing a first support beam crossing the entrance of the vertical sphere and a second support beam spaced apart from the first support beam and crossing the entrance of the vertical sphere at an upper end of the inner wall;
Mounting a precast slab between the first support beam and the second support beam while leaving an opening;
Blocking the space between the first support beam and the inner wall of the vertical sphere, and the space between the second support beam and the inner wall of the vertical sphere by mounting a precast slab;
A vertical sphere construction method for forming an opening in the uppermost slab, comprising the step of constructing a finished slab by placing concrete on-site on the top of the precast slab. The method according to any one of claims 1 to 3,
The support beam is installed by forming a support beam recess into which the end of the support beam is inserted into the uppermost end of the inner wall in the construction of the vertical wall inner wall, and inserting the end of the support beam into the support beam recess of the inner wall in the step of installing the support beam. A vertical sphere construction method having an opening in the uppermost slab, characterized in that. The method according to any one of claims 1 to 3,
In the vertical hole inner wall construction step, a bracket is formed to protrude from the uppermost end of the inner wall so that the end of the support beam can be mounted, and in the step of installing the support beam, the support beam is installed by mounting and fixing the end of the support beam to the bracket. Characterized in that, vertical ball construction method having an opening in the uppermost slab. The method according to any one of claims 1 to 3,
The vertical ball construction method having an opening in the uppermost slab, characterized in that the support beam is provided with a protrusion for restricting the movement of the precast slab in a longitudinal direction at an upper center of the support beam. The method according to any one of claims 1 to 3,
The precast slab is a vertical ball construction method having an opening in the uppermost slab, characterized in that divided into one or two or more for mounting. delete The method according to any one of claims 1 to 3,
The finishing slab is a vertical ball construction method having an opening in the uppermost slab, characterized in that the precast slab and the end of the wall are integrated. The method according to any one of claims 1 to 3,
A vertical ball construction method having an opening in the uppermost slab, characterized in that the stepped portion is further provided on the main surface of the opening to prevent material or personnel from falling through the opening.

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