KR20110136062A - Joint method for h-beam and construction method for basement structure without temporary structure using the same - Google Patents

Abstract

PURPOSE: A connection method for an H-beam and a construction method for an underground structure without a temporary structure using the same are provided to remarkably reduce construction costs because the installation and dismantling works of a temporary structure are not required. CONSTITUTION: A connection method for an H-beam is as follows. An upper reinforcing plate(410) is coupled to the top surface of upper flanges of H-beams(400). A lower reinforcing plate is coupled to the bottom surface of lower flanges of the H-beams. A temporary space control member(20), which maintains a space between the H-beams, is removed.

Description

Joint method for H-beam and Construction Method for Basement Structure without Temporary Structure using the same

The present invention relates to the field of construction, and more particularly, to a method of connecting an H beam and a construction method of an underground structure using the same.

The construction method of the conventional underground structure can be divided into a smooth method and a reverse method.

The netting method is a universally applied method, and after excavating to the foundation plan by installing temporary walls by supporting means such as braces, anchors, rock bolts, nailing, rakers, tension beams, etc. In other words, it is a method of placing the basic structure, removing the bottom wall support, and repeatedly carrying out wall installation and temporary wall demolition.

The reverse drilling method is a top-down method that installs temporary supporting means such as earthen walls and braces, anchors, rock bolts, nailing, rakers, and tension beams to support them. The way to build up or down from the bottom.

This is a reinforced concrete structure or a steel reinforced concrete structure, it is necessary to install the earthquake barriers by CIP, SCW, H-beam, underground wall (Slurry Wall).

However, since all of the conventional forward and reverse drilling methods are based on the installation and dismantling of temporary equipment, the props must be installed step by step in order to resist the transverse pressure on the retaining wall, and the inconvenience of having to dismantle the structure after completion of the structure is inconvenient. There was a problem that the air is delayed, and the construction cost is excessive.

In extreme cases, temporary construction costs can account for more than 40% to 50% of the cost of construction.

Therefore, various studies have been attempted to reduce the effort and cost required for the installation and dismantling of temporary facilities.

The present invention has been derived to solve the above problems, the construction of a temporary facility underground structure to reduce the risks and costs of labor, safety accidents required by drastically omitting the process for the installation and dismantling of provisional facilities Its purpose is to present a method.

In order to solve the above problems, the present invention, the fixing plate 402 is installed at the end, and the H-beams on both sides temporarily spaced by the temporary interval adjusting member 20 installed in the fixing plate 402 ( A method for connecting 400 to a permanent structure while maintaining the spacing, comprising: an upper reinforcing plate coupling step of coupling an upper reinforcing plate 410 to upper surfaces of upper flanges of the H beams 400 on both sides; A lower reinforcing plate coupling step of coupling a lower reinforcing plate 420 to the lower flange lower surfaces of the H beams 400 on both sides; It proposes a method of connecting the H beam comprising a; removing the temporal interval adjusting member 20 to remove the temporal interval adjusting member 20.

Combining the central reinforcing plate coupling the central reinforcing plate 430 to the common contact with the central portion of the fixing plate 402, the upper reinforcing plate 410 and the lower reinforcing plate 420 of the H beam 400 of both sides It is preferable to further include.

It is preferable that the fixing plate reinforcing material 403 is welded to both the outer surface of the fixing plate 402 and both side surfaces of the web of the H beam 400 on both sides.

Reinforcing ribs 411 and 421 are preferably formed on the lower surface of the upper reinforcing plate 410 and the upper surface of the lower reinforcing plate 420 so as to be inserted into the gap between the H beams 400 on both sides.

Both ends of the reinforcing ribs 411 and 421 are inclined inward.

H beam bolt coupling holes 404 are formed at the upper flange and the lower flange of the H beam 400 at both sides, and the upper reinforcing plate coupling step and the lower reinforcing plate coupling step are the H beam bolt coupling holes 404. It is preferably made by bolting to.

Reinforcing plate bolt coupling holes 412, 413, 422, 423 are formed at both ends of the upper reinforcing plate 410 and the lower reinforcing plate 420 to achieve bolt coupling with the H beam bolt coupling hole 404, but the reinforcing plate bolts of both ends are formed. The bolt coupling holes 412 and 413 of one end of the coupling holes 412, 413, 422 and 423 are formed in advance, and the bolt coupling holes 413 and 423 of the other end are preferably formed after actual measurement in the field.

The center reinforcement plate 430 is formed in advance so that the height is the same as the height of the H beam 400 on both sides, and cut after the actual measurement in the field so that the width is equal to the distance between the H beam 400 on both sides It is preferable to join by welding.

The width of the upper reinforcing plate 410 is preferably formed wider than the width of the upper flange of the H beam 400 of both sides.

The present invention provides a method of constructing underground structures using the H-beam connection method, the outer wall installation step of forming the outer wall 100 of the underground structure by the construction of the underground wall; A pillar installation step of accessing the pillar member 200 formed by the rectangular steel pipe to form the pillar of the underground structure; Gulto step to pit the inner region of the outer wall body (100); An extension member installation step of installing an extension member 110 on an inner surface of the outer wall body 100; An outer wall supporting member installing step of installing the outer wall supporting member 300 along the transverse direction at the inner end of the extension member 110; A plurality of beams 400 having the structure of the H beam is installed between the outer wall support member 300 and the pillar member 200, but one beam member 200 has a plurality of beams in both directions. A beam installation step of allowing the 400 to be coupled and installing the temporary interval adjusting member 20 between the plurality of beams 400 to temporarily maintain a gap; The plywood wall 120 and the slab 401 are installed in the area between the outer wall body 100 and the outer wall support member 300 and the upper area of the beam 400 by reinforcement, formwork and concrete pouring. Plywood and slab installation step; Connecting the plurality of beams 400 in a permanent structure with the gap maintained by the upper reinforcing plate coupling step, the lower reinforcing plate coupling step, the temporary interval adjustment member removal step, and the central reinforcement plate coupling step. The present invention also proposes a method for constructing underground structures, which is characterized in that.

The plurality of beams 400 are installed between the outer wall support members 300 on both sides, and a plurality of the temporary spacing adjusting members 20 are installed between the plurality of beams 400 to temporarily maintain a gap. It is preferable to further include;

The present invention proposes a method for constructing underground structure of a temporary facility that can reduce the risk and cost of labor, safety accidents required for the installation and dismantling of the temporary facility.

Figure 1 below shows an embodiment of the H-beam connection method according to the present invention,
1 is a plan view of an H beam;
2 is a cross sectional view of an H beam;
3 is a front view of the fixing plate reinforcement.
Figure 4 is a plan view of the temporary interval adjusting member is installed.
Figure 5 is a cross-sectional view of the temporary interval adjusting member is installed.
6 is a plan view of the upper reinforcing plate.
7 is a front view of the upper reinforcing plate.
8 is a plan view of the lower reinforcement plate.
9 is a front view of the lower reinforcement plate.
10 is a plan view of the first embodiment;
11 is a cross sectional view of the first embodiment;
12 is a bottom view of the first embodiment;
13 is a front view of the center reinforcement plate.
14 is a plan view of a second embodiment;
15 is a cross sectional view of a second embodiment;
16 is a bottom view of the second embodiment;
17 to 26 is a process diagram of one embodiment of the method for constructing underground structures in the present invention.

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

As shown in FIG. 1 or less, the present invention basically has a fixing plate 402 installed at the end, and is temporarily spaced by a temporary interval adjusting member 20 such as a hydraulic jack installed at the fixing plate 402. The present invention relates to a method for connecting the H beams 400 on both sides, which are maintained in a permanent structure, with an upper reinforcement plate coupling the upper reinforcement plate 410 to the upper flange of the upper flanges of the H beams 400 on both sides. Combining step; A lower reinforcing plate coupling step of coupling the lower reinforcing plate 420 to the lower flange lower surfaces of both H beams 400; It is configured to include; a temporary interval adjusting member removing step of removing the temporary interval adjusting member 20.

This can be applied to the underground structure construction method that takes the following steps.

By constructing the underground wall, the outer wall 100 of the underground structure is formed (FIG. 17), and the pillar member 200 is inserted to form the pillar of the underground structure (FIG. 18).

The inner region of the outer wall 100 is excavated (FIG. 19).

An extension member 110 is installed on the inner surface of the outer wall body 100, and an outer wall support member 300 is installed along the transverse direction at the inner end of the extension member 110, and the outer wall support member 300 and the pillar member 200 are provided. The beam 400 taking the structure of the H beam is installed between the beams (Figs. 19 and 26).

At this time, a plurality of beams 400 are coupled to both pillars in one side member 200, and a temporary interval adjusting member 20 is installed between the plurality of beams 400 to temporarily maintain a gap.

As described above, in the case where the temporal interval adjusting member 20 is installed between the plurality of beams 400 installed on both sides of the pillar member 200, the pillar member ( Since the gap between the outer wall body 100 on both sides and 200 can be adjusted, the column member 200 can prevent the lateral displacement from occurring.

In some cases, a plurality of beams 400 may be installed between the outer wall support members 300 on both sides without placing the pillar member 200, and the plurality of temporary gap adjusting members may be disposed between the plurality of beams 400. 20) may be installed so that the gap is temporarily maintained.

When the underground structure is formed by a plurality of layers, the process of installing the above pit and member is repeated (FIG. 21).

In the area between the outer wall body 100 and the outer wall support member 300 and the upper area of the beam 400, the plywood wall 120 and the slab 401 are installed by reinforcement, formwork installation and concrete pouring ( 22,23,24).

If the underground structure is formed by multiple layers, the above process must be repeated, which can be done both in the forward and reverse modes.

When a separate ground structure is not constructed on the upper part of the underground structure, backfilling is performed by the earth and sand 10 (FIG. 25).

The underground structure construction method according to the present invention has the following effects.

First, since the outer wall body performs the function of barrier and order during construction, and after construction, it performs the waterproof function and the underground wall function of the structure by the plywood wall. The cost can be drastically reduced.

Second, since the pillar member performs the role of resisting the horizontal wall against lateral earth pressure by the beam during construction, and after the construction, it performs the role of the pillar of the structure, which not only reduces the construction period and cost, but also provides a stable earth structure. To enable safe construction.

That is, in the case of the conventional construction method, the temporary wall support body 300, such as the gimbal, struts, rakers, etc., in the case of the construction method according to the present invention, the outer wall support member 300 that is the structure of the structure of the outer wall corresponding to the wall construction structure Because the beam 400, the pillar member 200 is supported, because a much more stable structure can be obtained.

Third, in the conventional method, since the installation work of the pillars and beams of the structure is carried out together with the dismantling of the temporary facility in the air, the risk of safety accidents is high, but in the case of the method according to the present invention, the excavation step by step in the soil floor Since the installation work of the outer wall support member 300, the beam 400, the pillar member 200 of the present structure is carried out, there is no risk of a safety accident.

The method of connecting the H beam according to the present invention can be effectively applied to the construction method of the above-mentioned underground structure of the non-installation facility, and maintains the gap between the H beams 400 on both sides, so that the lateral displacement is harmful to the pillar member 200. In the state that does not occur, there is an effect of permanent structure of them by the combination of the upper and lower reinforcement plate.

Hereinafter, specific embodiments of the H beam connection method according to the present invention will be described.

The H beam 400, which is a premise of the connection method according to the present invention, has a configuration in which a fixing plate 402 is installed at an end (FIGS. 1 and 2).

During construction of the underground structure, the H beams 400 on both sides are temporarily spaced by a temporary interval adjusting member 20 such as a hydraulic jack installed in the fixing plate 402 (FIGS. 4 and 5).

When the construction of the underground structure reaches the end, the upper reinforcement plate 410 is coupled to the upper flange upper surface of the H beam 400 on both sides, and the lower reinforcement plate 420 on the lower flange lower surface of the H beam 400 on both sides. After combining, to form a permanent structure by removing the temporal adjustment member 20 (Figs. 10 to 12).

The H beams 400 on both sides may form a firm coupling by only the upper reinforcement plate 410 and the lower reinforcement plate 420, but the fixing plate 402, the upper reinforcement plate 410, and the lower reinforcement plate 420 may be formed. When combining the central reinforcing plate 430 to make common contact with the central portion of the), it can achieve a more robust coupling (FIGS. 13 to 16).

It is preferable to use a structure reinforced by the fixing plate reinforcing material 403 welded to both the outer surface of the fixing plate 402 and the web of the H beam 400 on both sides (FIGS. 1 to 3).

In order to prevent buckling of the upper reinforcement plate 410 and the lower reinforcement plate 420, the lower surface of the upper reinforcement plate 410 and the upper surface of the lower reinforcement plate 420 are inserted at intervals between the H beams 400 on both sides. It is preferable to take a structure in which the reinforcing ribs 411 and 421 protrude as possible (FIGS. 6 to 9).

Both ends of the reinforcing ribs 411 and 421 are preferably inclined toward the inside in terms of construction convenience and stability of the structure.

Since the upper flange and the lower flange of the H beam 400 on both sides and the upper reinforcing plate and the lower reinforcing plate can obtain a sufficient fixing area from each other, it is preferable to take a coupling structure by bolting.

Specifically, H beam bolt coupling hole 404 is formed in the upper flange and the lower flange of the H beam 400 on both sides, the upper reinforcing plate coupling step and the lower reinforcing plate coupling step is H beam bolt coupling hole 404 It is preferable that the coupling is performed by bolt coupling to the rod (Fig. 1,2).

It is necessary to form the reinforcing plate bolt coupling holes 412, 413, 422, 423 at both ends of the upper reinforcing plate 410 and the lower reinforcing plate 420 so as to form the bolt coupling with the H beam bolt coupling hole 404 (Fig. 6,8).

Specifically, the bolt coupling holes 412 and 413 of one end of the reinforcing plate bolt coupling holes 412, 413, 422 and 423 at both ends thereof are formed in advance by factory manufacturing, and the bolt coupling holes 413 and 423 of the other end are formed after actual measurement in the field. More preferred for the work.

The center reinforcement plate 430 is manufactured at the factory in advance so that the height is the same as the height of the H beams 400 on both sides, and the width is cut after welding in the field so as to be equal to the distance between the H beams 400 on both sides. It is desirable for the efficiency of the work to be taken in combination.

In order to prevent the deck plate installation work on the upper reinforcement plate 410 and to prevent leakage during the upper concrete placing, the width of the upper reinforcement plate 410 is wider than the width of the upper flange of the H beam 400 on both sides. It is desirable to be.

When the reinforcement structure for permanent structuring is completed, finish the finishing work such as regenerating the external coating damaged during construction and fireproof painting work according to the fire safety standard.

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.

100: outer wall 110: extension member
120: plywood 130: steel pipe
200: pillar member 300: outer wall support member
400: H beam, beam 401: slab
402: fixing plate 403: fixing plate reinforcement
404: bolt coupling hole 410: upper reinforcement plate
411: reinforcement rib 412,413: bolt coupling hole
420: lower reinforcement plate 421: reinforcement rib
422,423: Bolted hole 430: Center reinforcement plate

Claims (11)

The fixing plate 402 is installed at the end, and the H beam 400 of both sides temporarily spaced by the temporary interval adjusting member 20 installed in the fixing plate 402 is permanently maintained. As a method for connecting to the structure,
An upper reinforcing plate coupling step of coupling the upper reinforcing plate 410 to the upper flange upper surfaces of the H beams 400 on both sides;
A lower reinforcing plate coupling step of coupling a lower reinforcing plate 420 to the lower flange lower surfaces of the H beams 400 on both sides;
Temporary interval adjusting member removal step of removing the temporary interval adjusting member 20;
H beam connection method comprising. The method of claim 1,
Combining the central reinforcing plate coupling the central reinforcing plate 430 to the common contact with the central portion of the fixing plate 402, the upper reinforcing plate 410 and the lower reinforcing plate 420 of the H beam 400 of both sides H beam connection method further comprises. The method of claim 1,
Fixing plate reinforcement (403) is welded to the outer surface of the fixing plate (402) and both sides of the web of the H beam 400 of the both sides, the connecting method of the H beam. The method of claim 1,
H beam connection method characterized in that the reinforcing ribs 411, 421 protruding from the lower surface of the upper reinforcing plate 410 and the upper surface of the lower reinforcing plate 420 to be inserted into the gap between the H beam 400 of both sides. . The method of claim 4, wherein
Both ends of the reinforcing ribs (411,421) is inclined toward the inner side H-connection method. The method of claim 1,
H beam bolt coupling hole 404 is formed in the upper flange and the lower flange of the H beam 400 on both sides,
The upper reinforcing plate coupling step and the lower reinforcing plate coupling step is a method of connecting the H beam, characterized in that made by bolt coupling to the H beam bolt coupling hole (404). The method of claim 6,
Reinforcing plate bolt coupling holes 412, 413, 422, 423 are formed at both ends of the upper reinforcing plate 410 and the lower reinforcing plate 420 to achieve bolt coupling with the H beam bolt coupling hole 404,
The bolt coupling holes (412,413) of one end of the reinforcing plate bolt coupling holes (412,413,422,423) of the both ends are formed in advance, and the other bolt coupling holes (413,423) is formed after actual measurement in the field. The method of claim 1,
The center reinforcement plate 430 is formed in advance so that the height is the same as the height of the H beam 400 on both sides, and cut after the actual measurement in the field so that the width is equal to the distance between the H beam 400 on both sides , H beam connection method characterized in that the welding. The method of claim 1,
The width of the upper reinforcing plate (410) is connected to the H beam, characterized in that formed wider than the width of the upper flange of the H beam 400 of both sides. 10. A method of constructing an underground structure of a temporary facility using the H beam connection method according to any one of claims 1 to 9,
An outer wall installation step of forming the outer wall 100 of the underground structure by the construction of the underground wall;
A pillar installation step of accessing the pillar member 200 formed by the rectangular steel pipe to form the pillar of the underground structure;
Gulto step to pit the inner region of the outer wall body (100);
An extension member installation step of installing an extension member 110 on an inner surface of the outer wall body 100;
An outer wall supporting member installing step of installing the outer wall supporting member 300 along the transverse direction at the inner end of the extension member 110;
A plurality of beams 400 having the structure of the H beam is installed between the outer wall support member 300 and the pillar member 200, but one beam member 200 has a plurality of beams in both directions. A beam installation step of allowing the 400 to be coupled and installing the temporary interval adjusting member 20 between the plurality of beams 400 to temporarily maintain a gap;
The plywood wall 120 and the slab 401 are installed in the area between the outer wall body 100 and the outer wall support member 300 and the upper area of the beam 400 by reinforcement, formwork and concrete pouring. Plywood and slab installation step;
Connecting the plurality of beams 400 in a permanent structure with the gap maintained by the upper reinforcing plate coupling step, the lower reinforcing plate coupling step, the temporary interval adjustment member removal step, and the central reinforcement plate coupling step;
Underground facility construction method, characterized in that it comprises a. The method of claim 10,
The plurality of beams 400 are installed between the outer wall support members 300 on both sides, and a plurality of the temporary spacing adjusting members 20 are installed between the plurality of beams 400 to temporarily maintain a gap. To install the step;
Underground facility construction method characterized in that it further comprises.

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