KR100939535B1 - Guide for execution of underground diaphragm wall - Google Patents

Abstract

PURPOSE: A guide for underground diaphragm wall construction is provided to secure the minute perpendicularity of a casing. CONSTITUTION: A guide for underground diaphragm wall construction comprises a casing guide and a pile guide. The casing guide comprises a main body(13) and a casing guiding hole(14). The main body is a beam structure form which is mixed with a beam and a metal plate. The main body includes an upper plate(10), a front panel(11) and a back plate(12). A casing guide hole is arranged on the body in a longitudinal direction. The pile guide comprises a flange, a guide plate and a secondary guide bar.

Description

Guide for execution of underground diaphragm wall

The present invention relates to an underground continuous wall construction guide, and more particularly, to a guide for inducing vertical progression of a casing and a pile when constructing a continuous wall by a continuous casing method in civil engineering such as foundation excavation.

Generally, in order to construct various structures such as apartments, buildings, or bridges, foundation excavation works are carried out to excavate the ground which is the foundation of the structure to a certain depth.

When groundwater or infiltration water is eluted through the excavated ground during the foundation excavation, the work becomes difficult, and there is a possibility that it will have a fatal adverse effect on the strength and safety of the structure to be constructed.

Therefore, before carrying out the foundation excavation work, a continuous wall must be constructed to prevent the inflow of soil to the inside of the foundation ground over the periphery of the improved ground and to prevent the groundwater and the infiltration water from being eluted.

For example, in various construction work or civil engineering work, the digging work is first performed to prepare the installation space of the structure. In such a digging work, the continuous ground is installed so that the surrounding ground does not fall into the installation space of the structure. It is common to endure earth pressure.

In addition, the continuous wall as well as the ability to withstand the earth pressure of the surrounding ground as well as the order function to prevent water flowing through the surrounding ground flow into the installation space of the structure at the same time.

In general, continuous wall is made of a continuum of pile formed by drilling a hole of a certain size in the ground and then filling concrete or mortar. Such a continuous wall is currently constructed by applying various types of construction methods. It is becoming.

Recently, after a pile hole having a predetermined diameter is drilled continuously into the ground by using an auger provided in the ground drilling equipment, a method of constructing a continuous wall by pouring concrete into the drilled pile hole is mainly used. .

For example, a plurality of casings having a tubular shape are inserted into the ground at a predetermined depth, and the casing serves as a formwork to inject pile forming materials such as concrete or mortar into the casing. After that, a method of solidifying to form a continuous wall of pile continuous bodies is mainly applied.

Such a conventional continuous wall construction method allows the piles formed by the casing to be in contact with a predetermined area so that no gap is generated between the piles which are connected to each other. While the continuous wall is formed while the pile is not formed vertically on the ground, there is a problem that a gap occurs between the piles.

If a gap occurs in the continuous wall in this way, the order function of the continuous wall is remarkably deteriorated, so that a method for allowing the casing to be inserted perpendicularly to the ground is required to prevent the gap from occurring in the continuous wall.

Accordingly, in the continuous wall construction method using a casing, there is a demand for the development of a continuous wall construction method which minimizes the verticality error of the casing inserted perpendicularly to the ground while preventing gaps between piles formed by the casing. It's happening.

Accordingly, the present invention has been made in view of the above, and when constructing a continuous wall using a casing, auger and hammer to drill, a new type of construction method for managing the verticality of the casing by using a casing guide By realizing this, it is possible to secure the precise verticality of the casing, thereby reducing the vertical error of the drilled pile hole as possible, such as to provide a guide for the construction of underground continuous wall construction that can be accurately installed and improve the construction properties The purpose is.

In addition, the present invention is not a method of placing concrete in the field after the drilling of the ground, but a new type of construction method that can effectively induce pile access while applying a method of pre-prepared concrete pile into pile file as it is It is another object of the present invention to provide a guide for constructing a continuous continuous wall, which can maintain the verticality of the pile accurately, and thus, there is no gap between the piles, thereby improving the ordering ability of the continuous wall.

In addition, the present invention can manufacture a guide in the form having a plurality of casing guide holes in one guide body can be a continuous construction of a plurality of casings, and also produced by manufacturing a guide in the form of a beam structure combining a beam and a metal plate It is another object to provide a guide for the construction of underground continuous walls, which is not only easy and easy to handle, but also maintains its function even in repeated reuse, thereby ensuring accurate construction and improving durability.

In order to achieve the above object, the guide for constructing a continuous underground wall according to an embodiment of the present invention is formed in a guide body made of a long rectangular structure in the form of an upper plate and a front plate and a back plate, and formed in the line along the main body length direction. It consists of a form including a plurality of casing guide holes arranged side by side, it characterized in that it is to guide the vertical progress of the casing when inserting the casing to drill the pile hole in the ground of the position where the pile is to be placed.

Here, in the case of the guide main body, it is preferable to configure the beam structure in the form of a beam structure in which the metal plate is combined, so that it can be easily manufactured and easily handled in the field.

On the other hand, the guide for the construction of the continuous underground wall construction according to another embodiment of the present invention to guide the circumferential surface of the pile inserted into the inner side guide plate of the predetermined length parallel to both sides of the guide plate, the guide plate Formed integrally with the upper end portion is made of a shape including a flange and the like supported over the upper end portion, characterized in that it is inserted into the casing to guide the vertical progress of the pile when entering the pile.

Underground continuous wall construction guide of the present invention provides the following advantages.

First, as the casing is positioned and inserted vertically into the ground, it is possible to improve the workability, such as to ensure the precise verticality of the casing.

Second, it is possible to maintain the verticality of the file by using the file guide when entering the file in the casing, thereby improving the order ability of the continuous wall, such that the file is not inclined to eliminate the gap between the files.

Third, it is easy to manufacture, easy to handle, and can be easily handled in the field, such as to maintain its function even when repeated reuse, enabling accurate workability and improve the durability.

Fourth, it is possible to manufacture in the form of overlapping piles and piles of the straight line and the curved line according to the construction drawings, there is an effect that can be widely used in a variety of fields as well as improving the workability of the straight section and the curved section.

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

1 is a perspective view showing a casing guide in the guide for the construction of continuous underground walls according to an embodiment of the present invention.

As shown in Fig. 1, the casing guide serves to ensure precise verticality of the casing by inducing accurate vertical construction of the casing when the casing is buried in the ground during the construction of the wall and the continuous wall for the order. It is a means to.

To this end, the guide body 13 of the casing guide is made of a long rectangular structure, the top surface is covered with a top plate 10, the front and back are closed with a front plate 11 and a back plate 12, respectively have.

The guide body 13 is preferably manufactured in the form of a beam structure combining the beam member and the metal plate.

For example, it is preferable to manufacture a rectangular frame with a c-beam, and then attach the top, front and back sides with a metal plate by welding or the like to produce a finished form.

The guide body 13 manufactured as described above may be formed in both sides and the bottom, and may be structurally reinforced by connecting a plurality of reinforcing beams.

As it is manufactured in the form of a beam structure, it can be easily manufactured. When repeated use in the field is repeatedly carried out in the soil and repeatedly dismantled, the durability can be exhibited. Even if it is applied, there is almost no change in form such as being damaged or deformed, so that even if it is reused over and over again, it can always function properly, thus providing an accurate construction.

In addition, it can provide convenience in terms of handling, such as easy to mount or move the heavy equipment when used in the field.

In order to guide the casing embedded in the ground, a plurality of casing guide holes 14 having a diameter corresponding to the diameter of the casing is formed in the upper plate 10, and the casing guide holes 14 are arranged in a line along the longitudinal direction of the main body. By arranging them side by side, one casing guide can be used to successively construct several casings at once.

Accordingly, one casing guide 100 may be used to sequentially construct a plurality of casings 110 one by one.

For example, when one casing guide is provided with about 8 to 10 casing guide holes 14, it is possible to drill in succession using about 8 to 10 casings at a time.

The casing guide hole 14 serves to guide the vertical progress of the casing when the casing is inserted to drill the pile hole in the ground where the pile is to be placed.

For example, when the casing is drilled, the casing is guided while being guided by the casing guide and inserted into the ground, thereby ensuring vertical accuracy of the casing and facilitating vertical error management of the casing.

That is, the casing is inserted into the ground in a state where the outer circumferential surface of the casing is in close contact with the casing guide hole 14 having a substantially circular shape. When the casing is inserted into the ground, the casing guide hole 14 is continuously By supporting the casing around, the casing is inserted into the ground exactly vertically without shaking or tilting, and thus the verticality error of the casing inserted vertically into the ground can be minimized.

Here, the casing guide hole 12 may be formed in such a way that the boundary portion between neighboring guide holes is partially overlapped so that the file and the pile can be attached to the construction as much as possible.

Accordingly, when the casing guide is not used, the disadvantage of overlapping the casing thickness generated by attaching the casing to the construction can be eliminated.

In addition, the guide body 13 may be manufactured in the form of a straight line or a curve according to the construction drawing.

That is, the casing guide may be manufactured in the form of a straight portion or a curved portion according to the construction drawing, whereby the construction section of the continuous wall can be accurately constructed any linear regardless of the straight portion or the curved portion.

Therefore, looking at the state of use of the casing guide is configured as follows.

2 and 3 are a perspective view and a cross-sectional view showing a state of use of the casing guide in the guide for construction of the continuous underground wall construction according to an embodiment of the present invention.

As shown in Fig. 2 and Fig. 3, first, the casing guide 100 is installed after breaking the ground of the position where the pile for the construction of the continuous wall will be placed.

Here, the casing guide, as well as the members of the casing, pile, pile guide, etc. to be described later can be performed using heavy equipment such as a crane when installed in a heavy relationship.

After reviewing the construction drawings, the casing guide 100 is manufactured using accurate measurement, and the casing guide 100 is excavated from the ground of the section where the casing guide 100 is to be installed, and then the casing guide 100 is firmly installed.

The casing guide 100 installed as described above may be fixed only by exposing only the top plate and being mostly dug in the soil.

After the casing guide is installed, the casing 110 may be inserted through the casing guide 100, and then a drilling operation may be performed using the casing 110 to a predetermined depth.

For example, the drilling of the ground to a predetermined depth may be performed by using the auger device, the hammer, the bit, and the casing 110.

That is, the casing 110 is mounted on the auger, and the up and down vibrations are applied with a hammer to excavate the ground while inserting the casing 110 into the ground to drill and continuously remove the casing 110 from the auger. Next, the earth and sand remaining in the casing 110 is discharged.

At this time, when the casing 110 is drilled using the casing 110 is guided by the casing guide 100 can be guided and inserted into the ground, thereby maintaining the vertical precision of the casing 110.

For example, when the casing 110 is inserted into the ground, the outer circumferential surface of the casing 110 is in close contact with the inner circumferential surface of the casing guide hole 14 having a substantially circular shape, and thus the circumference of the casing 110 is supported. 110 may be inserted into the ground exactly vertically without shaking or tilting, and thus the verticality error of the casing inserted vertically into the ground may be minimized.

On the other hand, the present invention provides a pile guide that can guide the vertical progress of the pile, for example, the concrete pile, which is incorporated in the casing as another example of the guide for the construction of the underground continuous wall.

Figure 4 is a perspective view showing a pile guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention.

As shown in Fig. 4, the pile guide is a means for guiding a pile entering the inner side of the casing, and for mounting the guide plate 15 and a guide plate 15 of a predetermined length parallel to both sides. The flange 16 is formed integrally with the upper end of the guide plate 15 by welding or the like.

The guide plate 15 is inserted into and installed into the casing, and serves to guide and guide the circumferential surface of the pile inserted into the inside thereof, and the flange 16 has a tubular shape having a diameter larger than that of the casing. It is made so as to cover the upper end of the casing when the guide plate 15 is inserted, serves to support the entire pile guide.

In addition, in the case of the guide plate 15 may have a cross-sectional shape corresponding to the cross-sectional shape of the pile in order to closely contact the pile.

For example, in the case of a pile having side-by-side flat portions along the length of the pile on both sides, the guide plate 15 may also be provided side by side along the length of the guide at intervals suitable for the width of the pile. Not only can the file be accurately guided in the file guide, but also the turning direction of the file can be precisely adjusted because the phenomenon that the file is turned by both guide plates 15 does not occur.

In addition, the flange 16 of the guide plate 15 is provided with a pair of auxiliary guide bar 17 parallel to each other at a predetermined interval, so that when the file is initially inserted into the file guide, the auxiliary guide bar The insertion direction can be easily adjusted using (17).

At this time, the direction of the auxiliary guide bar 17 is preferably aligned in a direction parallel to each other in conjunction with the direction of the guide plate (15).

Therefore, the usage state of the file guide configured as described above is as follows.

5 and 6 are a perspective view and a cross-sectional view showing a state of use of the pile guide in the guide for construction of the continuous underground wall construction according to an embodiment of the present invention.

5 and 6, the casing 110 is first inserted into the ground using a casing guide 100 installed on the ground, and then drilled to a predetermined depth using the casing 110. To dispose of the earth and sand remaining in the casing 110, and the like.

Next, the pre-fabricated pile 120 is inserted into the casing 110, and the casing 110 is drawn after maintaining the linear shape.

At this time, when entering the file 120, the file guide 130 is used, that is, insert the file guide 130 made of a circular steel pipe as a whole inside the casing 110, the inserted file The file 120 is entered using the guide 130.

For example, the guide plate 15 of the pile guide 130 is inserted into the casing 110 from above, and the flange 16 at the upper end of the guide plate 15 extends over the upper end of the casing 110. When placed, the installation of the pile guide 130 may be completed. The pile 120 may be mounted on equipment such as a crane, and then the auxiliary guide bar 17 on the flange 16 may be mounted in a vertically lifted state. By injecting the file 120 while adjusting the direction of the file 120, all of the file access operations can be completed.

Accordingly, since the file 120 is entered according to the guide of the file guide 130 when the file 120 is entered, the linearity of the file 120 may be maintained.

At this time, in the case of the file guide 130, it may have a form corresponding to the shape of the file 120, for example, in the case of a file having a flat surface side by side along the longitudinal direction of the file on both sides, the file guide accordingly Both sides of the 130 may be provided with side-by-side planar portions along the guide longitudinal direction, and thus, the pile 120 may be accurately guided in the pile guide 130.

Since the phenomenon such as the turning of the pile 120 does not occur due to the matching between the planar portions, the approaching direction of the pile 120 may also be accurately matched.

After completing the approach of the file 120, after the file guide 130 and the casing 110 is drawn out, the file 120 and the file 120 which are laid in the ground such as maintaining the file linearity, drilling, mortar filling, etc. Connect to each other to perform the construction and integration.

Thus, by reviewing the construction drawings and constructing them with a casing method using guides made through accurate measurement, it is possible to obtain economic advantages and shorten the air, and above all, to maintain the precise verticality of the casing or pile As a result, it is possible to obtain an advantage that accurate construction is possible.

In the above, certain preferred embodiments according to the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and a person of ordinary skill in the art may vary without departing from the spirit of the technical idea of the present invention described in the claims below. Will be able to carry out the change.

1 is a perspective view showing a casing guide in the guide for the construction of the continuous underground wall according to an embodiment of the present invention

Figure 2 is a perspective view showing the state of use of the casing guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention

Figure 3 is a cross-sectional view showing a state of use of the casing guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention

Figure 4 is a perspective view showing a pile guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention

Figure 5 is a perspective view showing a state of use of the pile guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention

Figure 6 is a cross-sectional view showing a state of use of the pile guide in the guide for the construction of continuous underground wall according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

10: top plate 11: front panel

12: rear panel 13: guide body

14 casing guide hole 15 guide plate

16: flange 17: auxiliary guide bar

Claims (7)

A guide body 13 having a long rectangular structure of the top plate 10, the front plate 11, and the back plate 12 in the form of a beam structure combining a beam and a metal plate, and formed on the top plate 10 to have a body length. Casing guide 100 for guiding the vertical progress of the casing when inserting the casing for drilling the pile hole in the ground of the position where the pile is to be placed, including a plurality of casing guide holes 14 arranged in parallel in a direction )Wow, The flange 16 which is supported across the upper end of the casing, the guide plate 15 for contacting and guides the circumferential surface of the pile inserted in parallel to the vertical in both sides of the flange 16, and the upper end of the flange 16 Including a pair of auxiliary guide bar (15) to orient the initial insertion of the pile including a pile guide 130 is inserted into the casing to guide the vertical progress of the pile when entering the pile to form a continuous continuous wall Underground continuous wall construction guide, characterized in that the construction. delete The guide of claim 1, wherein the casing guide hole (14) is formed in such a way that a boundary portion between neighboring guide holes is partially overlapped so as to allow the file and the pile to be attached to each other as much as possible. The method according to claim 1, wherein the guide body 13 is made in the form of a straight line or curve, corresponding to the construction of the continuous underground wall structure, characterized in that the row of the casing guide hole 12 is also arranged in the form of a straight line or curve. guide. delete According to claim 1, The guide plate 15 is a guide for the construction of underground continuous wall, characterized in that it has a cross-sectional shape corresponding to the cross-sectional shape of the pile for the close guidance of the pile. delete

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