KR100496619B1 - beam for cut-off wall construction method - Google Patents

Abstract

An object of the present invention is to provide a water barrier wall construction method and a beam used in the method to block the infiltration of groundwater during the river dike or landfill pit construction, and to install a water barrier wall to block the outflow of leachate, which is a pollutant in a landfill or waste treatment plant. To provide.

The order wall construction method of this invention is a type process (A) which types the beam provided with the connection connection part and the injection pipe in the position to install a order wall to a predetermined depth with a navigator, The type by this type process A drawing / injection process (B) for drawing a beam into a drawing machine and simultaneously injecting an impermeable material into a beam-shaped space formed in the ground with a grouting pump; The beam used in this order wall construction method is a body portion 15 having a cross-sectional I shape and extending in the longitudinal direction, and formed so as to be connected to other beams which are formed in the longitudinal direction on both ends of the body portion and are located in adjacent positions. The connection connecting portion 17 formed by the water, the injection pipe 19 is installed in the longitudinal direction before and after the inner corners of both ends of the body portion to guide the injection of the impermeable material, the thickness of the order wall by the impermeable material injected into the injection pipe It is composed of a web portion 21 provided at the bottom of the body portion to increase.

Description

Beam for cut-off wall construction method

The present invention relates to a method for constructing a barrier wall and a beam used in the method, and more particularly, to install a barrier wall for blocking the infiltration line of the river bank and the underground aquifer (gravel sand layer) or the leachate of the landfill and waste treatment plant. It relates to a method for constructing a barrier wall and a beam used in the method.

In general, the open cut pit excavation works formed of aquifers adjacent to river embankments, rivers and seas and having a high permeability coefficient involves installation of a barrier wall to block infiltration water. In the case of river embankment, the main wall of clay is formed permanent permanent wall, and in the case of gulceum construction, it is used by sheet pile, grouting method, forced spray stirring method and SCW (Soil Cement Wall) to block groundwater infiltration. Successively, the order walls are formed.

In the case of a landfill and a waste disposal plant, a leachate order wall is provided outside the target site to prevent the spread of pollutants by leachate. In this case, the order wall is formed by SCW using a sheet pile, grouting method, slurry wall (Slurry Wall, Diaphragm Wall) and deep mixing method.

However, in the case of installing the order wall using the sheet pile, it is inconvenient to attach an impermeable expansion membrane to the connecting joint in order to prevent the outflow of permeate and leachate between the connecting joints connecting the adjacent sheet piles.

In the case of installing the order wall by the grouting method and the forced spray stirring method, it is difficult to secure the uniform thickness of the order wall and there is a high possibility of generating discontinuous surfaces between the perforations.

In the case of the SCW using the deep mixing method, the continuous piles can be formed by superimposing circular piles, but when the construction depth is deep and the maintenance of the vertical degree is not easy, the piles do not overlap each other.

In the case of slurry walls, the most reliable continuous order walls can be formed, but due to the size of construction equipment, there are many limitations in use, the slope activity is destroyed during construction of river banks, and the equipment is expensive.

Accordingly, the present invention solves the above drawbacks, and the water barrier wall construction method for installing a water barrier wall to block the infiltration of groundwater during the river bank or reclamation excavation, and to block the outflow of leachate that is a pollutant in the landfill or waste treatment plant And to provide a beam used in this method.

This order wall construction method is a type process in which a beam provided with a connecting connection portion and an injection pipe is installed to a predetermined depth by driving a rider at a position where the order wall is to be installed. At the same time as drawing, it is composed of drawing / injection process that injects impermeable material into the beam-shaped space formed in the ground with a grouting pump.

This type process and the drawing / injection process are respectively carried out on both sides of the order wall while maintaining a distance of 10 to 20 m, thereby minimizing the transmission of vibration generated in the beam type to the order wall formed by the impermeable material pre-injected.

The type process connects an injection pipe to a water jet pump to circulate the pressure water in the ground where the beam is typed, dispersing the tight sand gravel layer to make the beam easier.

The drawing / injection process draws the beam while vibrating with a vibration hammer mounted on the top of the beam, thereby making the impermeable material injected into the beam shape space formed in the ground more tight.

The water impermeable material is composed of a cement and bentonite mixture, a cement and bentonite mixture, and an emulsion asphalt mixture having a permeability coefficient of 1 × 10 ⁻⁷ cm / sec or less.

The beam used for this order wall construction method is

A body portion elongated in the longitudinal direction with a section I shape,

A connecting connection part formed of a female and a male so as to be connected to other eye beams which are formed in the longitudinal direction on both ends of the body part and are adjacent to each other;

An injection pipe installed in the longitudinal direction before and after inner edges of both ends of the body part to guide injection of an impermeable material

It is comprised by the web part provided in the lower end of a body part so that the thickness of the order wall by the impermeable material injected into this injection pipe may be increased.

Advantages and advantages of the present invention will be more apparent from the following detailed description based on the accompanying drawings.

1 is a process diagram of a method for constructing a barrier wall according to the present invention, while drawing a type process A and a type beam 1 to type the beam 1 into the ground G at the position where the barrier wall W is to be installed. It shows that the drawing / injection process (B) for injecting an impermeable material is in progress. This water impermeable material finally forms the order wall W. FIG. The beam 1 may be configured as an eye beam or an etch beam.

The type process A successively types the beam 1 with the driving machine 3 to form the order wall W in the ground G. As shown in FIG. As shown in FIG. 2, the beam 1 is typed into the ground G while interconnected with another beam 1a that is first typed. This beam 1 must be typed up to the depth of the ground G where the order effect is to be obtained.

In addition, the type process (A) can type the beam (1) in the ground (G) to a predetermined depth only by the operation of the driving machine (3), but the water jet pump in the ground (G) in which the beam (1) is typed The beam 1 may be typed while circulating the pressure water at (5).

The pressure water supplied from the water jet pump 5 is supplied through the one side of the beam 1 to the sand gravel layer 11 which is kept close to the bottom of the beam 1 to disperse the sand gravel layer 7. As a result, the type resistance at the tip of the beam 1 is reduced.

The drawing / injection process (B) is a process that proceeds following the type process (A), and the beam 1 typed on the ground G is drawn to the drawer 9 to make the ground where the beam 1 is located ( A beam-shaped space 11 is formed in G), and the impermeable material 13 is injected into this space 11.

In addition, the drawing / injection process (B) may simply draw the beam (1) with the drawer (9), but is provided with a vibration hammer (not shown) on the top of the beam (1), and the vibration of the vibration hammer It can also draw while applying to the beam (1).

The vibration transmitted from the vibration hammer to the beam 1 is transmitted to the water-impermeable material 13 injected into the beam-shaped space 11 formed in the ground G to close the water-impermeable material 13 to finally seal the order wall W. ) Will increase the strength.

As a result, after the beam 1 is typed into the ground by the type process A, the water impermeable to the spot where the beam 1 is drawn while drawing the beam 1 from the ground G in the drawing / injection process B is performed. By filling the material 13, the ground wall G is formed with the order wall W as shown in FIG.

The impermeable material 13 forming this order wall W may be made of a cement and bentonite mixture, a cement and bentonite and an emulsion asphalt mixture. The water permeability coefficient of this water impermeable material 13 is 1x10 <^-7> cm / sec or less. If the permeability coefficient exceeds this value, the order effect of the order wall (W) is reduced.

In addition, only the type process (A) is carried out at the beginning of the process, and if this type process (A) proceeds for a predetermined time, the type process (A) and the drawing / injection process (B) are simultaneously performed, and at the end of the process, the drawing / injection process is performed. As only (B) is advanced, the order wall W is formed in the ground G. As shown in FIG.

Thus, if the type process (A) and the drawing / injection process (B) proceeds at the same time work efficiency is improved, but the transmission of the beam (1) type to the ordered wall (W) that is already constructed should be minimized.

To this end, the type process (A) and the drawing / injection process (B) are performed while maintaining a distance of 10 to 20 m as shown in FIG. 1. If the distance l is less than 10 m, the vibration of the punching step A is transmitted to the order wall W formed by the impermeable material 13 injected therein, thereby lowering the order performance of the order wall W. If l) is more than 20m, it takes too long to start the drawing / injection process (B) after starting the punching process (A), thereby reducing work efficiency.

4 is a perspective view of a beam used in the above-described order wall construction method, which is composed of a body portion 15, a connection connecting portion 17, an injection pipe 19, and a web portion 21.

The body portion 15 has an I-shaped cross section and is elongated in the longitudinal direction. This body portion 15 should have a durability that can maintain a stable state without being deformed by the blow force of the driving machine 3 and the pull force of the drawer 9. The length of the body portion 15 is appropriately set according to the depth of the order wall W to be constructed.

The connection connecting portion 17 connects the neighboring beams 1 and 1a integrally with each other when successively installing the plurality of eye beams 1 and 1a in order to construct the order wall W in the ground G. Therefore, this connection connection part 17 is formed in the longitudinal direction in the both ends outer side of the body part 15, respectively. The female connection connection part 17a is formed in one side, and the male connection connection part 17b is formed in the other side, respectively. That is, as shown in FIG. 2, the female connecting portion 17a of the beam 1 is coupled to the male connecting portion 17a of the neighboring beam 1a.

The injection pipe 19 is configured to guide the injection of the impermeable material 13 in accordance with the drawing of the typed eye beam 1. In addition, the injection pipe 19 is connected to the water jet pump 5 as described above, and before and after the inner edges of both ends of the body portion 15 so as to circulate the pressure water in the ground G where the beam 1 is typed. Is installed in the longitudinal direction.

The beam 1 having the connecting portion 17 and the injection pipe 19 in the body portion 15 has a web portion 21 at one end thereof. As shown in FIG. 5, the web portion 21 is formed to be inclined at a lower end, an upper end, and a side end so that the body 15 is smoothly typed into the ground G by the striking force of the driving machine 1.

In addition, the web portion 21 determines the type plane of the beam 1 to determine the thickness of the order wall W by the impermeable material 13 injected into the injection pipe 19. That is, when the flat cross-sectional area of the web portion 21 is increased, the thickness of the order wall W becomes thick. On the contrary, when the flat cross-sectional area of the web portion 21 is reduced, the thickness of the order wall W becomes thin.

FIG. 6 is a plan view illustrating a connection state of a beam according to another embodiment of the present invention, and illustrates a connection connection unit 23 different from the connection connection unit 17 of FIGS. 2 to 5.

That is, the beam 1 connection connecting portion 17 of FIGS. 2 to 5 is composed of a circular female and male connection connecting portions 17a and 17b. The connection connecting portion 23 of FIG. It is comprised by the connection connection part 23a, 23b.

Accordingly, the beam 1 of FIGS. 2 to 5 having a circular connecting connection 17 can be easily used for installation of the ordered wall W formed in a curved shape, and FIG. 6 having a rectangular connecting connection 23. The beam 1 of can be easily used for installation of the order wall W formed in a straight line.

In addition, the connection connectors 17 and 23 may be formed in various shapes as well as circular and rectangular.

When the connection connecting portions 17 and 23 form a closed cross section of a hollow structure, such as a circle or a square, the pressure water is circulated before the drawing of the beam 1 to remove the torticles around the connection connecting portion 17 to reduce the order wall W. To ensure continuity.

This order wall construction method consists of a type process using a beam as described above and a draw / injection process. In the type process, a beam having a connection connection part and an injection pipe is typed to a predetermined depth, By drawing the beam and injecting the impermeable material into the beam-shaped space formed in the ground at the same time, constructing the barrier wall, it is possible to eliminate the inconvenience of attaching the impermeable expansion membrane to the connecting connection when using the sheet pile, grouting method and forced spray bridge Difficulties in securing the uniform thickness of the order wall caused by the semi-construction method and the possibility of generating discontinuities between the perforations can be eliminated, and it is difficult to maintain the verticality at the deep construction depth generated in the case of SCW using the deep mixing method. In the lower part, the piles can be prevented from overlapping each other. It is possible to prevent the destruction of slope activities that occur during the construction of a pharmaceutical factory in use and rivers are subjected due to the scale of non-banks.

1 is a process chart of the order wall construction method according to the present invention.

Figure 2 is a plan view of the connection state of the beam according to the present invention.

Figure 3 is a plan view of the order wall constructed with the present invention.

Figure 4 is a perspective view of the beam used in the order wall construction method of the present invention.

5 is a cross-sectional view taken along the line A-A of FIG.

Figure 6 is a plan view of the connection state of another embodiment according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: beam 3: driving

5: water jet pump 7: sand gravel layer

9: drawer 11: beam-shaped space

13: impermeable material 15: body part

17, 23 connection connection part 17a, 23a: female connection connection part

17b, 23b: male connection connection 19: injection pipe

21: Web Part G: Underground

W: Order wall

Claims (6)

A body portion 15 having a cross-sectional I shape and extending in the longitudinal direction; A connection connecting portion (17) formed in a lengthwise direction on both ends of the body portion (15) and formed of a male and female having a closed cross section of a hollow structure so as to connect with other beams of a type adjacent to each other; An injection pipe 19 installed in a longitudinal direction before and after inner edges of both ends of the body part 15 to guide injection of an impermeable material; And a web portion (21) provided at the lower end of the body portion (15) to increase the thickness of the order wall by the impermeable material injected into the injection pipe (19). delete delete delete delete delete