KR101520771B1 - H-pile composited with v-shape steel plate and reinforced concrete for open cut construction - Google Patents

Abstract

The present invention is to provide a reinforced-concrete composite H-pile on which a V-shaped steel sheet is attached for open cut construction capable of easily penetrating by piling, being reused due to excellent bending rigidity obtained by composing reinforced concrete, reducing a construction period by widening installation intervals in comparison with an existing pile, and remarkably reducing construction costs. To achieve the same, in the H-pile for open cut construction with a method fitting a soil retaining plate, the present invention is includes a head steel plate installed by a V-shaped form narrower than the width of a flange within a space formed by a lower web and the flange of the H-pile and a finish steel plate installed as a partitioning wall narrower than the width of the flange within a space formed by an upper web and the flange of the H-pile. The present invention is characterized in that reinforced concrete is integrally composed inside a space between the finish and head steel plates. According to the technical composition, the present invention is capable of easily penetrating by piling, being reused due to excellent bending rigidity obtained by composing reinforced concrete, reducing the construction period by widening the installation intervals in comparison with the existing pile, and remarkably reducing construction costs. For example, in case of huge excavating construction such as subway construction, the present invention is capable of reducing expenses for transferring and keeping the piles, expenses for piling, and expenses for taking out the pile as the number of the necessary H-pile is reduced by widening the installation intervals in comparison with the existing pile. In addition, the present invention is capable of economically constructing the H-pile by using the H-pile having a cross-sectional area smaller than the existing pile due to the excellent bending rigidity.

Description

H-pile composites with v-shape steel plate and reinforced concrete for open cut construction.

The present invention relates to a reinforced concrete composite type H-file to which a V-shaped steel plate for an installation facility is attached. More particularly, the present invention relates to a reinforced concrete composite type H- The present invention relates to a reinforced concrete composite type H-file having a V-shaped steel plate for an installation facility capable of drastically reducing a construction cost as well as a reduction in a construction period.

Generally, the ground is excavated to construct the foundations of the structure, the basement of the building, and the underground tunnel.

If there is sufficient notice around the site, the slope will be excavated by placing it on the slope, and if it can not be used like a downtown area, or where structures are in the surrounding area, it will be excavated vertically without slope.

At this time, in order to prevent the collapse of the adjacent ground, an excavation facility, which is a retaining wall, is installed on the excavation surface.

Most conventional installation facilities were constructed using H-piles.

For example, after installing the H. files at regular intervals, excavate the soil in the excavation area and sandwich the soil plate between the H. files.

In the above-mentioned facility installation work, the method of injecting the H. file is by the method of direct injection and the method of drilling the hole with the auger to insert the H. file.

At this time, since the H file has the H shape, the side pressure (earth pressure, water pressure) applied to the soil plate is directly transferred to the H. file. Therefore, the narrower the interval between the H. files, the more effective it is to cope with the side pressure.

Registration Utility Utility Model No. 20-0394945 (published on September 7, 2005) is an invention relating to the installation structure of the earth plate, which prevents leakage or collapse of the soil when the earthworks fence is constructed on the building or civil works site. A plurality of vertical beams spaced apart from each other by a predetermined distance and having a lower end embedded in the ground; A plurality of transverse beams having opposite ends fixed to adjacent vertical beams; And a soil plate which is formed of a plurality of steel plate members connected and fixed to each other and which is installed between adjacent vertical beams and is supported and fixed by a horizontal beam.

With reference to this publication, the above-described technique can effectively cope with the side pressure of the excavation surface by providing the earth plate composed of a plurality of steel plate members connected and fixed to each other between the vertical beams.

In addition, Patent Registration No. 10-0866162 (published on Oct. 30, 2008) discloses a method of constructing a chair-type self-supporting type earth retaining wall, wherein the earth retaining wall used for supporting an external force, such as earth pressure, The method comprising the steps of: forming a first pile column having a plurality of piles around an excavation region; A plurality of perforation holes are continuously formed at predetermined intervals around the excavation region at a position determined in the outward direction from the first pile column with respect to the excavation region, and after an H-beam is inserted, Forming a second pile column having a plurality of piles by filling the gaps in the space with a flow set material in an outer space of the flange of the H Beam; The first pile and the second pile are connected to each other by a connecting member so that the first pile and the second pile are fixed to each other. A configuration is shown to allow the formation of an underground earth retaining wall.

In this publication, the first and second pile columns are formed, and the first pile column and the second pile column are fixed by the connecting member, thereby effectively coping with the side pressure of the excavation surface.

However, in the case of a large-scale excavation work such as a subway, the above-mentioned conventional techniques use a larger amount of files (vertical beams, piles), so that costs for carrying and storing files, There is a problem that the construction period is lengthened and the construction cost is increased.

In addition, the above conventional techniques have been problematic in that when the gravel is mixed with the ground due to the bending stiffness of the steel at the time of close-up by the hitch, the reuse rate of the pile itself is lowered.

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a reinforced concrete structure, And to provide a reinforced concrete composite type H-file having a V-shaped steel plate for an installation facility capable of drastically reducing the construction cost.

In order to solve the above problems, the present invention provides an H-file for constructing an installation facility by sandwiching a soil plate, wherein a space formed by a lower web and a flange of the H- A finished steel plate which is attached in the form of a partition wall narrower than the flange width in the space constituted by the upper web and the flange of the HIS file and the reinforced concrete integrated into the compartment space between the finished steel plate and the head steel plate .

The above-described reinforced concrete is characterized in that it is integrally synthesized in an H. pile by placing a deformed reinforcing bar in a compartment space and pouring and curing concrete.

And a web or flange surface in the compartment space is characterized in that a shear connector is attached so that the concrete and the H-file resist the external force integrally.

And the reinforcing rib is padded on the finished steel sheet.

A through hole is formed in the web in the head steel plate, and a connecting reinforcing bar inserted in the through hole and supporting the both head steel plates is disposed.

According to the present invention, it is possible to reduce the construction cost and dramatically reduce the construction cost because it is easy to install by hanger and the reinforcing concrete is excellent in bending rigidity and can be reused, .

For example, in the case of a large-scale excavation work such as a subway, the arrangement interval can be widened compared to the existing file, so that the number of H. files required decreases, so the cost for carrying and storing the file, Therefore, it is possible to use an H-file having a smaller cross-sectional area than that of the existing file, so that the construction can be economically performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a reinforced concrete composite type H-file to which a V-shaped steel plate for an installation facility according to the present invention is attached,
FIG. 2 is a view illustrating an example of using a reinforced concrete composite type H-file to which a V-shaped steel plate for an installation facility according to the present invention is attached,
FIG. 3 is a perspective view showing the internal structure of a reinforced concrete composite type H-file having a V-shaped steel plate for an installation facility according to the present invention,
4 is a cross-sectional view of a reinforced concrete composite type H-file to which a V-shaped steel plate for an installation facility according to the present invention is attached.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a reinforced concrete composite type H-file to which a V-shaped steel plate for an installation facility according to the present invention is attached will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a reinforced concrete composite type H-file (hereinafter, referred to as 'H-file') having a V-shaped steel plate attached thereto according to an embodiment of the present invention, and FIG. 2 is an example of using an H-file according to the present invention.

FIG. 3 is a perspective view showing the inner structure of an H-file according to the present invention, and FIG. 4 is a cross-sectional view showing a H-file according to an embodiment of the present invention.

As described above, in order to prevent the collapse or the outflow of the gravel, the HIL 100 may be inserted at a predetermined interval to prevent the collapse or leakage of the gravel, for example, at the edge of the excavation part or in the cut- Which is an earth retaining wall for sandwiching the soil board 1.

The present invention relates to an H-file 100 for constructing an installation site in such a manner that the soil plate 1 is sandwiched between the lower web 10 of the H-file 100 and the flange 20 And the upper web 10 and the flange 20 of the H. pile 100 are provided in a space formed by the upper web 10 and the flange 20 in a V shape that is narrower than the width of the flange 20, The reinforcing concrete 60 is integrally combined with the finished steel plate 40 attached in the form of a partition wall narrower than the width of the flange 20 and the partition space 50 between the finished steel plate 40 and the head steel plate 30.

In the above technical arrangement, the H-file 100 is a section steel having an H-shape in cross section, and the portion corresponding to the horizontal plate of the H-shaped center is referred to as a web 10 and the portion corresponding to both vertical plates is referred to as a flange 20.

The flange 20 is formed to have a width smaller than the width of the flange 20 in a space formed by the web 10 and the flange 20 so that the bottom sheet steel sheet 30 can be easily pierced on the underside of the H. pile 100, .

The finish steel plate 40 is attached to the space formed by the web 10 and the flange 20 on the upper side of the HIL 100, for example, opposite to the head steel plate 30, do.

The reinforcing concrete 60 is integrally synthesized with the H. pile 100 by placing reinforcing bars 61 in the compartment space 50 between the toe steel plate 30 and the finished steel plate 40 and pouring and curing the concrete.

According to the above technical arrangement, since the V-shaped tofu steel plate 30 is attached to the lower side of the H. pile 100, the ground can be more easily digged when hitting the pile to improve workability.

Also, as the reinforcing concrete 60 is integrally combined with the partition space between the head steel plate 30 and the finishing steel plate 40, the HR file 100 further increases the flexural rigidity of the flange 20 against the bending moment do.

Therefore, it is possible to prevent the files from leaning during hunting, to increase the reuse rate, to widen the arrangement interval of the HI files 100, and to reduce the number of the HI files 100, In addition, it is possible to shorten the construction period and reduce the construction cost.

Since the finished steel plate 40 is attached on the upper side of the HIL 100 in the form of a partition wall, the clearance with the reinforced concrete 60 can be eliminated, and cracking (cracking) of the upper portion of the concrete due to the impact upon hitting can be suppressed .

Of course, a shock-absorbing rubber pad may be inserted between the reinforced concrete 60 surface and the finished steel sheet 40.

On the other hand, the head steel plate 30 and the finish steel plate 40 are formed to be narrower than the width of the flange 20 and are integrally combined with the partition space 50 formed by the head steel plate 30 and the finish steel plate 40, (60) is also formed to be narrower than the flange (20).

Therefore, when the soil plate 1 is sandwiched between the HI file 100 and the file 100, the flange 20 is well spread as in the conventional case.

Next, the reinforced concrete 60 is integrated into the HIS file 100 by placing the deformed reinforcing bars 61 in the compartment space 50 and pouring and curing the concrete.

More specifically, one end of the deformed reinforcing bar 61 is welded to the head steel plate 30, and the other end is welded to the finished steel plate 40 so that a plurality of deformed reinforcing bars 61 are arranged in the compartment space 50.

A stirrup (not shown) may be disposed at regular intervals surrounding the deformed reinforcing bars 61.

Therefore, when the concrete is poured and cured, it is integrated with the HEP file 100 to increase flexural stiffness compared to the existing pile, and sufficient strength can be ensured even after cracks occur in the concrete.

Next, on the surface of the web 10 or the flange 20 in the compartment space 50, a shear connector 70 is attached so that the concrete and the HIS file 100 resist the external force integrally.

The shear connection member 70 is formed on the surface of the web 20 or the flange 30 which is the compartment space 50 in which the concrete is placed in order to make the H. file 100 and the reinforced concrete 60 into one body. Respectively.

The shear connector 70 is made of a stud bolt and is welded to the surface of the web 20 or the flange 30 by a single point 71 or is formed in a pin shape so that a two point support 72 is provided between the flanges 20, Or three-point support 73 between the web 10 and the two flanges 20 in a V-shape.

Next, the reinforcing ribs 80 are attached to the finished steel plate 40. [

Specifically, the ribs 80 are attached at right angles to each other between the finished steel sheet 40 and the web 10 to prevent deformation of the finished steel sheet 40.

Therefore, it is possible to prevent the slip between the finished steel plate 40 and the reinforced concrete 60 by the attachment of the ribs 80, and to further suppress the crack (crack) of the upper portion of the concrete due to the impact at the time of hitting.

A through hole 11 is formed in the web 10 in the head steel plate 30 and a connecting reinforcing bar 62 inserted in the through hole 11 to support the head steel plate 30 is disposed.

According to the above technical configuration, the head steel plate 30 is attached in a V shape to the space formed by the lower portion of the H. pile 100, the web 10 and the flange 20, The rear ends of the both head steel plates 30 are joined together and supported in a triangular shape.

Therefore, it is possible to prevent the slip of the reinforced concrete 60 in the compartment space 50 by firmly attaching the concrete to the surface of the reinforcing bars by supporting the both head portions at a predetermined angle by the connection reinforcing bars 62 made of deformed reinforcing bars, It is possible to prevent the deformation of the tofu steel plate 30 when hitting.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims, I will make it clear to those who have.

1:
10: web
11: Through hole
20: Flange
30: tofu plate
40: Finished steel
50: compartment space
60: reinforced concrete
61: Reinforced steel bars
62: connection reinforcing bars
70: Shear connector
80: rib
100: H file

Claims (5)

An HIS file for constructing a facility facility by sandwiching a soil board,
A head steel plate supported by a connecting reinforcing bar inserted through the through hole at the lower side of the HIFF and attached to the space formed by the lower web and the flange in a V shape that is narrower than the width of the flange,
A finished steel plate attached to the space defined by the upper web and the flange of the H-file in a partition wall shape narrower than the width of the flange and having a reinforcing rib padded thereon,
The reinforced concrete is integrally synthesized so that the reinforced concrete is integrated with the reinforced concrete so that the reinforced concrete is resistant to external force by placing a deformed reinforcing bar in the partition space between the finished steel plate and the head steel plate and attaching a shear connector to the web or flange surface in the compartment space, Reinforced concrete composite type H-file with a V-shaped steel plate for an installation facility. delete delete delete delete

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