KR20200053891A - One-sided Camber-type Composite File for Retaining Wall and Method for manufacturing this same and Method for constructing Retaining Wall using this same - Google Patents

Abstract

The present invention relates to a one-sided camber type synthesis pile, and a method for constructing a temporary sheathing facility using the same, and more particularly, to a one-sided camber type synthesis pile, which is manufactured in a soil pressure-customized type (one-sided pre-flexion shape) to serve as a pile of a temporary sheathing facility to generate an effective support force against other soil pressure for each depth so as to prevent the collapse of the ground and a burying accident. According to the present invention, the one-sided camber type synthesis pile comprises: a concrete pouring part (10) formed by a steel pipe member in which both sides in a longitudinal direction and a part of the circumference are opened; and an insertion part (20) including a beam member of an H- and I-shaped cross section, and coupled to the opened circumference of the steel pipe member to close the circumference of a concrete pouring part. The concrete (30) is poured and cured in the concrete pouring part in a state where only one of both sides in a longitudinal direction is cambered. According to the present invention, the one-sided camber type synthesis pile comprises: a concrete pouring part (10) formed by a steel pipe member in which both sides in a longitudinal direction and a part of the circumference are opened; a blocking plate (40) for closing the circumference of the concrete pouring part; and an insertion part (20) formed of an H- or I-shaped cross section, and coupled to the blocking plate. The concrete (30) is poured and cured in the concrete pouring part in a state where only one of both sides in a longitudinal direction is cambered.

Description

One-sided Camber-type Composite File for Retaining Wall and Method for manufacturing this same and Method for constructing Retaining Wall using this same}

The present invention relates to a pile, and more specifically, it is used for a mudguard facility, a cantilever-type deck (walkway, bicycle bridge, etc.), and a one-side camber-type composite file corresponding to a load (earth pressure, load, etc.) according to a location and a method for manufacturing the same And it relates to a method for constructing a mudguard using the same.

This part provides background information related to the contents of the present application, but is not necessarily prior art.

 The mudguard facility is a facility to prevent surrounding soil or groundwater from entering the excavation ground during excavation when making direct foundations, pile foundations, underground structures, etc. It is used during construction and is demolished after construction is completed. It is used temporarily to build

Conventional mudguard facilities are composed of a number of piles installed along the space for the construction of the structure, earth plates installed between the piles, and support beams that are connected to neighboring piles while traversing the space.

H-beams are usually used for piles of mudguard facilities, and recently, there are props that have introduced prestress as a technology to secure a large support against earth pressure.

Among the struts for the temporary provisions for mudguards according to the prior art, the struts having introduced prestress are installed with tension members having both sides of the H beam in the longitudinal direction (both sides up and down based on the installation state) as a fixing end (fixed end), so that the beam is bent like a bow. Because it is one, the largest bracing force is generated in the middle part between the upper and lower parts. On the other hand, since the earth pressure is the largest load on the lower part, it is impossible to secure a stable bracing force against the earth pressure, and severely, the disturbance of the soil in the central part having a large bracing force There is also a problem that induces collapse.

On the other hand, in the case of cantilever-type decks (extended sidewalks, bicycle roads, etc.), the greater the distance from the existing road (ground), the greater the deformation due to the load.Therefore, there is no countermeasure, and a large beam is used.

Registered Patent No. 10-1660952

The present invention is to solve the above-described problems, and provides a one side camber-type composite file for generating effective bracing force for different soil pressures according to depth by manufacturing a file of a mudguard temporary facility by customizing the soil pressure, and a method of constructing a mudguard temporary facility using the same I'm trying to do that.

One side camber-type composite file according to the present invention is made of a concrete pour part formed by a steel pipe member in which both sides and a circumferential portion of the longitudinal direction are opened, and a beam member having an H-type or I-shaped cross section, and the opened steel pipe member is opened. It is made of an insert that is coupled to the circumferential portion and closes the circumferential portion of the concrete pouring portion, and is characterized in that concrete is poured into the concrete pouring portion in a state where only one of the sides in the longitudinal direction is cambered.

One side camber-type composite file according to the present invention, a concrete pour portion formed by a steel pipe member in which both sides and a circumferential portion of the longitudinal direction are opened, a blocking plate closing the circumference of the concrete pour portion, and an H-shaped or I-shaped cross-section It is made of an insertion portion that is coupled to the blocking plate and is characterized in that concrete is poured and cured in the concrete pouring portion in a state where only one of the sides in the longitudinal direction is cambered.

According to the camber-type composite file according to the present invention and a method for constructing a mudguard using the same, a large compressive stress acting on concrete by pouring concrete in a state where only one side of the file (lower part based on the installation state) is cambered By using it, there is an effect of effectively preventing the collapse of the ground and preventing a worker's burial accident.

In addition, when applied to an extended road, there is an effect of improving the durability of the extended road because a large force is generated at a distance from the existing road (ground).

1 is a perspective view of a camber-type composite file according to the present invention.
Figure 2 is an exploded perspective view of a camber-type composite file according to the present invention.
Figure 3 is a manufacturing process of one side camber-type composite file according to the present invention.
4 and 5 is another exemplary view of a camber-type composite file according to the present invention.
6 to 9 are cross-sectional views of a camber-type composite file according to the present invention, respectively.
10 is a perspective view showing another example of a camber-type composite file according to the present invention.
11 is an exemplary view to which a tension material is applied as another example of a camber-type composite file according to the present invention.

In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition should be made based on the contents throughout this specification.

1 and 2, the one side camber-type composite file 100 according to the present invention is a structure having a concrete placing portion 10 and an inserting portion 20 of a ground plate (such as a pedestrian deck), and FIG. 3 As shown in the process diagram of the, the preflex-type pile filled with the concrete 30 in the concrete pouring part 10 in the state where only one side of both sides in the longitudinal direction was cambered, and described as an example of a pile applied to a temporary mudguard facility .

The concrete pouring section 10 is made of a steel pipe member having a space for pouring concrete inside, for example, by cutting a circular steel pipe in half, cutting a semi-circular cross section with one side open, a square square tube (box) Therefore, one side is an open cross section.

The insertion portion 20 is preferably made of a ready-made beam member of H-beam and I-beam, and these beams have a space to insert the earth plate.

As shown in FIG. 2, the concrete placing portion 10 and the inserting portion 20 are each separately and fix the facing portion by welding.

The present invention has the advantage of pouring only the necessary parts without pouring the concrete 30 into the concrete pouring part 10 as a whole space, and as shown in FIG. 4, the beam having the insertion part 20 and the concrete pouring part ( Before assembling the semi-circular tube forming 10), the circumference of the tube is open, and it is possible to insert and weld the concrete finishing plate 11 inside the tube in a wide working space.

Here, the position of the closing plate 11 is preferably a point where the camber starts, that is, it is possible to pour concrete 30 only where the camber is applied. Therefore, the position of the closing plate 11 is not limited to the position shown in the drawing.

After assembling the concrete finishing plate 11 to the concrete placing portion 10, assembling is completed by assembling the beam forming the insert 20 therein.

As described above, when the assembly is given with a camber on one side and concrete is poured into the concrete pouring unit 10, the concrete 30 is poured only from the opening on one side to the concrete finishing plate 11.

Figure 5 shows the installation state of the pile (100) according to the present invention (the concrete 30 is poured only on the lower part of the concrete finishing plate 11 in the concrete pouring section 10, the concrete finishing plate 11 of The upper part is an empty space without concrete.

Therefore, the (A) section on the upper side is a general file section, the (B) section on the lower side is a preflex file section, and the (B) section is gradually moving toward the lower section, and thus the camber is gradually larger to counter the external force while going to the lower section. Will show a great repulsion.

6 to 9 shows various cross-sections and structures of the pile 100 according to the present invention, and FIGS. 6 and 7 are concrete pouring parts 10 of a semi-circular cross section (half of a circular steel pipe), and FIG. 6 is inserted The part 20 is directly coupled, and FIG. 7 is closed with a separate blocking plate 40, and then the insertion part 20 is coupled, and FIGS. 8 and 9 are respectively square cross sections (half of a square square tube (box)) As the concrete pouring part 10 of FIG. 8, the insert 20 is directly coupled, and FIG. 9 is closed by a separate blocking plate 40 and then the insert 20 is coupled.

Through the application of the concrete finishing plate 30, the pile 10 was divided into (A) section and (B) section, where (A) section may be configured not to be intentionally affected by the load, For example, one or more stiffeners 21 in the section corresponding to the (A) section from the concrete finishing plate 11 of the concrete pouring section 10 to the other end of the section of the insertion section 20 (see FIG. 10) Install it.

The stiffener 21 is provided in the direction of exerting the reaction force against the load on both sides of the web 22 in the form of a plate, centered on the web 22 (direction balanced with the web 22 of the H beam).

The pile 100 according to the present invention is a combination of two steel members of different shapes, and the size of the combined state is preferably made of a size that does not exceed the size of a H beam and a circular steel pipe that are commonly used in mudguard facilities. Do.

As shown in FIG. 11, the present invention additionally includes a combination type of prestress using the tension member 50.

The tension member 50 is wired along the vertical direction in the beam member constituting the insertion portion 20, and the upper and lower portions are respectively fixed.

The construction method of the camber-type composite file according to the present invention is as follows.

1. Drilling a pile hole.

A number of pile holes are drilled along the design of the crane.

2. Install files.

One camber-type composite file 100 is inserted and installed in the pile hole.

3. Digging.

The space in the camber-type composite file 100 on one side is destroyed.

4. Earth plate installation.

The earth plate is installed between the camber-type composite files 100 on one side.

The present invention is not limited to a pile for temporary provision, but can be used for various purposes such as a cantilever type sidewalk beam.

10: concrete placing part, 11: concrete finishing plate
20: insert, 30: concrete
40: blocking plate, 50: tension material

Claims (6)

A concrete pouring part formed by a steel pipe member in which both sides and a circumferential portion of the longitudinal direction are opened, made of an H-shaped or I-shaped cross section, coupled to an open circumference of the steel pipe member, and inserted to close the circumference of the concrete pouring part One side camber-type composite file, characterized in that concrete is poured and cured in the concrete pouring part in a state in which only one of the sides in the longitudinal direction is cambered. Consists of a concrete pouring part formed by a steel pipe member in which both sides of the longitudinal direction and a part of the periphery are opened, a blocking plate for closing the periphery of the concrete pouring portion, and an H-shaped or I-shaped cross-section to be inserted into the blocking plate. One side camber-type composite file characterized in that concrete is poured and cured in the concrete pouring part in a state in which only one of the sides in the longitudinal direction is cambered. The method according to claim 1 or claim 2, One side camber-type composite file, characterized in that it comprises a concrete finishing plate that is coupled to the beginning of the camber as the interior of the concrete pour portion to give concrete only where the camber is applied. The method according to claim 3, One side camber characterized in that it comprises at least one stiffener installed in parallel to the web of the beam member constituting the insertion portion in the region where the concrete from the concrete finish plate to the other end is not placed. Mold compound file. An assembly having a concrete pouring part and an inserting part is prepared by preparing a beam member having a space for inserting the steel pipe member and the earth plate with a part of both sides and circumferential parts in the longitudinal direction open, and assembling the beam member on the periphery of the steel pipe member. A first step of manufacturing;
And a second step of applying a load to one side of both sides in the longitudinal direction of the assembly assembled through the first step to give a camber and pouring concrete into the concrete pouring part in this state and then removing the load through curing. Method of manufacturing a single-side camber-type composite file. A first step of drilling a pile hole in the ground;
A second step of inserting and installing a camber-type composite file according to claim 1 or claim 2 into a file hole formed by the first step;
A third step of exploding a space in the one-side camber-type composite file;
And a fourth step of installing the earth plate between the one-side camber-type composite files.

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