KR102493747B1 - Sheet Pile Construction Method - Google Patents

Abstract

The present invention comprises the steps of forming a perforation line in which three perforations are connected (S10); Driving a casing line composed of three casings communicating sideways with the perforation line to the perforation line (S20); Step (S30) of inserting a pair of body-connected sheet piles into the casing line so that peaks and valleys are formed in a semicircular cross section; drawing the casing line (S40); A step of backfilling only the perforation in which the sheet pile is embedded among the perforation lines (S50); It relates to a sheet pile construction method comprising the steps of repeating the steps S10 to S50 (S60).

Description

Sheet Pile Construction Method {Sheet Pile Construction Method}

The present invention relates to a construction method of a sheet pile.

In general, sheet piles, called 'river piles', are essential products in civil engineering, and are mainly used as water barriers and earth walls. Sheet piles can be classified into plastic sheet piles (PSP) and steel sheet piles (SSP) according to the material.

When using sheet piles for the purpose of blocking the spread of groundwater contamination, plastic sheet piles with excellent durability against groundwater contaminants are preferable to steel sheet piles that can be corroded by groundwater contaminants.

However, compared to steel sheet piles, plastic sheet piles may be difficult to construct depending on site conditions or soil characteristics, and the application range is limited due to limitations in construction depth and applicability.

As an example of the prior art, in Korean Patent Registration No. 10-1836416, an assembly formed by combining a plastic sheet pile and a guide pile for installation on the ground is press-fitted into the ground, and a plastic sheet pile is installed by drawing out the guide pile from the press-fit assembly. In the plastic sheet pile installation method, a plastic sheet pile installation method is proposed that can prevent the plastic sheet pile from being pulled out to the ground together with the guide pile when the guide pile is pulled out.

However, even in the case of the above technology, there may be a problem that its applicability is not sufficient due to site conditions, soil characteristics, etc., and there is a problem that the ease of connection construction between sheet piles is not sufficiently secured.

Republic of Korea Patent Registration No. 10-1836416

Therefore, the present invention was invented to solve the problems of the prior art described above, and it is possible to construct plastic sheet piles while being less affected by field conditions or characteristics of soil, easy to construct, and shorten the period of time It is to provide a sheet pile construction method.

As a means for solving the above problems, the sheet pile construction method according to the present invention (hereinafter referred to as "construction method of the present invention") includes the steps of forming a perforation line with three perforations (S10); Driving a casing line composed of three casings communicating sideways with the perforation line to the perforation line (S20); Step (S30) of inserting a pair of body-connected sheet piles into the casing line so that peaks and valleys are formed in a semicircular cross section; drawing the casing line (S40); A step of backfilling only the perforation in which the sheet pile is embedded among the perforation lines (S50); It is characterized by including; repeating the steps S10 to S50 (S60).

As an example, in the step S60, forming a continuous perforation line 3 such that the perforation 31 that is not backfilled in the step S50 overlaps (S61); Driving the casing line 2 to the perforation line 3 formed in the step S61 (S62); Step (S63) of typing the sheet pile (1) to be in contact with the sheet pile (1) previously installed on the casing line (2); drawing the casing line 2 (S64); It is characterized in that it includes; a step (S65) of backfilling only the perforation 31 in which the sheet pile 1 is embedded among the perforation lines 3.

As an example, in the step S62, the casing line having a communication hole formed on one side is driven, but the communication hole is characterized in that it faces the end of the pre-constructed sheet pile.

As an example, the sheet pile has fitting rings formed at both ends, and in the step S63, the sheet pile is typed so as to be in contact with the seat pile previously installed on the casing line, but the sheet pile is typed so that the fitting rings are engaged between the sheet piles. to be characterized

As an example, the fitting rings are configured to form a filling space in a state in which the fitting rings between the sheet piles are engaged, and in the step S63, the sheet piles are typed so that the fitting rings between the sheet piles and the sheet piles previously installed on the casing line are engaged. After that, it is characterized in that the sealing material is filled in the filling space.

As described above, the present invention has the advantage of being able to construct plastic sheet piles while being less affected by field conditions, soil characteristics, etc., easy construction, and shortening the construction period.

In addition, it is easy to backfill with perforations due to the shape of the sheet pile, and there are advantages in that settlement of the surrounding ground can be minimized and leak points can be minimized.

1 is a block diagram showing the construction method of the present invention,
2a to 2d are schematic views showing the construction method of the present invention,
3 is a plan view showing a sheet pile in the present invention,
4 is a partial view showing a casing line in the present invention;
5 is a view showing an example of a sheet pile in the present invention.

In describing the present invention, the terms or words used in this specification and claims are based on the principle that the inventor can appropriately define the concept of the term in order to best describe his or her invention. should be interpreted as a meaning and concept that corresponds to the technical idea of

The construction method of the present invention, as shown in Figure 1, forming a perforation line with three perforations (S10); Driving a casing line composed of three casings communicating sideways with the perforation line to the perforation line (S20); Step (S30) of inserting a pair of body-connected sheet piles into the casing line so that peaks and valleys are formed in a semicircular cross section; drawing the casing line (S40); A step of backfilling only the perforation in which the sheet pile is embedded among the perforation lines (S50); It is characterized by including; repeating the steps S10 to S50 (S60).

The present invention first has a step (S10) of forming a perforation line connecting three perforations. To this end, although not shown in the drawings, a three-axis auger is used to form a perforation line 3 connecting the perforation 31.

Next, it has a step (S20) of driving the casing line (2) consisting of three casings (21) communicating sideways with the perforation line (3) to the perforation line (3).

Preferably, the casing line 2 is composed of three casings 21 communicating sideways, as shown in FIG. 4, and preferably has a communication hole 22 formed on one side.

The reason why the communication port 22 is formed on one side of the casing line 2 in this way is that, as described below, it is easy to install the connection between the pre-constructed sheet pile 1 and the post-construction sheet pile 1 is to do it

In this case, as shown in FIG. 2A, when the first casing line 2 is typed, the casing line 2 is typed so that the communication hole 22 is located outside the perforation 31 where the sheet pile 1 is not poured. it is reasonable This is because even if soil disturbance occurs at the location where the communication hole 22 is formed, the perforation 31 is drilled again by the auger and the other casing line 2 is poured during the construction process.

Next, a step (S30) of inserting a sheet pile 1 connected by a pair of bodies 11 into the casing line 2 so that peaks and valleys are formed in a semicircular cross section.

As shown in FIG. 3, the sheet pile 1 is made so that a pair of bodies 11 form hills and valleys, and fitting rings 12 are formed at both ends to enable connection between adjacent sheet piles 1 will be.

The material of the sheet pile 1 is not limited, but is preferably made of plastic. For example, it may be made of biodegradable plastic.

The body 11 has a semicircular cross section so that the outer periphery of the body 11 is almost adjacent to the inner periphery of the hole 31 when the casing line 2 is pulled out, so that the hole 31 described below can be backfilled. It is easy and it is possible to minimize the disturbance of the ground.

In addition, since the sheet pile 1 is configured by connecting the body 11, the connection between the sheet piles 1 is reduced by that much to control the occurrence of leak points.

Next, there is a step (S40) of drawing the casing line 2.

Next, there is a step (S50) of backfilling only the perforation 31 in which the sheet pile 1 is embedded among the perforation lines 3. Only the perforation 31 in which the sheet pile 1 is embedded is backfilled using a backfill material 4 such as soil.

Next, as the step (S60) in which the steps (S10 to S50) are repeated is performed, a water order wall or the like is constructed.

The step S60 is described in more detail. In the step S60, forming a continuous perforation line 3 such that the perforation 31 that is not backfilled in the step S50 overlaps (S61); Driving the casing line 2 to the perforation line 3 formed in the step S61 (S62); Step (S63) of typing the sheet pile (1) to be in contact with the sheet pile (1) previously installed on the casing line (2); drawing the casing line 2 (S64); It is characterized in that it includes; a step (S65) of backfilling only the perforation 31 in which the sheet pile 1 is embedded among the perforation lines 3.

In step S60, there is a step (S61) of forming continuous perforation lines 3 so that the perforations 31 that are not backfilled in step S50 overlap each other. In this way, by forming continuous perforation lines 3 so that the perforations 31 that are not backfilled in step S50 overlap, a structure in which side surfaces of each perforation 31 are connected is formed. The reason for this configuration is to enable connection of each sheet pile 1 as described below.

Next, there is a step (S62) of driving the casing line (2) to the perforation line (3) formed in the step (S61). As shown in FIG. 2B, in step S62, the casing line 2 in which the communication hole 22 is formed on one side is driven, but the communication hole 22 faces the end of the pre-constructed sheet pile 1. It is characterized by aggression.

In this way, by driving the casing line 2, a structure is formed to communicate between the perforations 31 by the communication hole 22, and accordingly, the end of the other cast sheet pile 1 (fitting ring 12) It is to be exposed by the communication hole (22).

Next, as shown in FIG. 2C, there is a step (S63) of typing the sheet pile 1 so as to be in contact with the sheet pile 1 previously installed on the casing line 2, the sheet pile 1 is at both ends A fitting ring 12 is formed in the bar, and as seen above, one fitting ring 12 is exposed by the communication hole 22, and one side of the other sheet pile 1 is exposed to the fitting ring 12. It is to type so that the fitting ring 12 is engaged. That is, the connection construction is possible by the engagement of the fitting rings 12 between the sheet piles 1.

In addition, in the present invention, an example in which the watertightness is further doubled in the connection of the seat pile (1) by the structure of the fitting ring (12) is shown in FIG.

In this embodiment, the fitting ring 12 is configured to form a filling space 124 in a state in which the fitting ring 12 between the sheet piles 1 is engaged. As shown in the drawing, the fitting ring 12 is a body ( 11) is connected to the connecting portion 121, the connecting portion 121 forms an acute angle and is bent, the bent portion 122, and the bent portion 122 is composed of an engaging portion 123 bent.

In this way, when the fitting rings 12 are fastened, the engaging parts 123 are engaged, and the joint between the bent part 122 and the engaging part 123 is pressed against the connection part 121 of the other fitting ring 12 to be fastened. , The filling space 124 is formed by the engaging part 123 of each connection part 121 and the bent part 122 and the other fitting ring 12, and the sealing material 5 is formed in the filling space 124 thus formed. It is to be filled so that the watertightness is further doubled, and a more robust fastening is made.

Here, the type of sealing material 5 is not limited, but since it must be tightly filled to the bottom of the filling space 124, a material with excellent filling properties must be used.

Next, it has a step (S64) of drawing the casing line (2), and a step (S65) of backfilling only the perforation (31) in which the sheet pile (1) is embedded in the perforation line (3). When it is, as shown in Figure 2d, the connection construction of the two sheet piles (1) is completed.

If such step S60 is continuously performed, the order wall by the sheet pile (1) is constructed.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concept of the present invention defined in the following claims are also made according to the present invention. falls within the scope of the rights of

1: sheet pile 2: casing line
3: perforation line

Claims (5)

Forming a perforation line connecting three perforations (S10);
driving a casing line composed of three casings communicating sideways with the perforation line to the perforation line (S20);
Step (S30) of inserting a pair of body-connected sheet piles into the casing line so that peaks and valleys are formed in a semicircular cross section;
drawing the casing line (S40);
A step of backfilling only the perforation in which the sheet pile is embedded among the perforation lines (S50);
Repeating steps S10 to S50 (S60);
Sheet pile construction method comprising a.
In the step S60,
Forming a continuous perforation line so that the perforation not backfilled in step S50 overlaps (S61);
Driving a casing line on the perforation line formed in step S61 (S62);
Step (S63) of typing a sheet pile so as to be in contact with a pre-constructed sheet pile on the casing line;
drawing the casing line (S64);
A step of backfilling only the perforation in which the sheet pile is embedded among the perforation lines (S65);
Sheet pile construction method comprising a.
According to claim 2,
In the step S62, the casing line in which the communication hole is formed on one side is driven, but the communication hole is driven so as to face the end of the previously installed sheet pile.
According to claim 3,
The sheet pile is formed with fitting rings at both ends,
In the step S63, the sheet pile is typed so as to be in contact with the sheet pile previously installed on the casing line, but the sheet pile is typed so that the fitting rings between the sheet piles are engaged.
According to claim 4,
The fitting ring is configured such that a filling space is formed in a state in which the fitting ring between the sheet piles is engaged,
In the step S63, the sheet pile construction method characterized in that the sealing material is filled in the filling space after the sheet pile is typed so that the fitting ring between the sheet pile and the sheet pile previously installed on the casing line is engaged.

Images