JP2692711B2 - Concrete sheet pile and press fitting method of the sheet pile - Google Patents

Description

The present invention relates to a concrete sheet pile and a method for press-fitting the sheet pile.

(B) Conventional technology Conventionally, in civil engineering works such as revetment and protection, a method in which a pile sheet made of Conrete or steel is built in the ground by a vibrating pile driver or a press-fit machine is generally adopted. There is.

Depending on the hardness of the ground, the preceding piles (so-called dummy piles or pilot piles) may be driven in advance to make a hole in the ground, and a sheet pile may be driven into the hole, or the outer wall of the sheet pile may be lengthened in the longitudinal direction. A method is adopted in which a water pipe is piped along the pipe, high-pressure water is ejected from the water pipe, and the sheet pile is driven while cutting the ground.

(C) Problems to be Solved by the Invention However, the method of driving a sheet pile with a vibrating pile driver has problems such as noise and vibration, especially in an urban area.
In such urban areas, the method of press-fitting a sheet pile with a press-fitting machine is preferred, and the sheet-pile is also made of concrete that is inexpensive and has no problem of corrosion, but such a concrete sheet pile is press-fitting with a press-fitting machine. In the method, the cross-sectional area of the concrete sheet pile becomes large in order to be able to withstand earth pressure, and therefore, even if the preceding pile is driven in advance or the ground is cut using the water conduit, it will go deep into the ground. There was a problem that it could not be pressed.

(D) Means for Solving the Problems In the present invention, therefore, a flat sheet-pile base portion extending in the up-down direction and a sheet-pile projecting portion projecting to the left and right side end portions of the sheet-pile base portion have a substantially U-shaped cross section. Of the sheet pile main body of concrete is provided with a pair of left and right high pressure water supply passages extending in the vertical direction in the sheet pile protrusion, the upper end opening of each high pressure water supply passage, a sheet pile base and a sheet pile protrusion. And a lower end opening for ejecting high-pressure water is provided at the lower end of each high-pressure water supply passage, and
A pair of left and right compressed air supply passages extending in the vertical direction are provided in the left and right side end portions of the sheet pile base, and the upper end openings of the compressed air supply passages are formed in a concave space formed by the sheet pile base and the sheet pile protrusion. A concrete sheet pile with a lower end opening for ejecting compressed air at the lower end of each compressed air supply passage is pressed into the ground by the following construction procedure. To do.

A high pressure water supply pipe and a compressed air supply pipe are connected to the upper end openings of the high pressure water supply passage and the compressed air supply passage provided in the concrete sheet pile, respectively.

The press-fitting machine is installed near the press-fitting position of the concrete sheet pile.

The concrete sheet pile is installed at the press-fitting position, and the press-fitting machine is chucked on the sheet pile.

High-pressure water and compressed air are injected into the high-pressure supply channel and compressed air supply channel, respectively, and high-pressure water and compressed air are jetted from the lower end openings of each supply channel. Press in.

Further, the present invention is a flat sheet-pile base portion extending in the vertical direction, a sheet-pile projecting portion projecting from the left and right side end portions of the sheet-pile base portion toward the front outer side respectively, and a tip portion of each sheet-pile projecting portion. The sheet pile main body is made of concrete by the sheet pile connection portions that are projected substantially outward in parallel with the sheet pile base portion, respectively, and vertically in the left and right side end portions of the sheet pile base and in the sheet pile connection portion, respectively. A supply pipe that extends is provided, and each supply pipe has an inner-outer double structure consisting of an inner pipe and an outer pipe, forms a high-pressure water supply passage in the inner pipe, and forms an outer peripheral surface of the inner pipe and an outer pipe. A compressed air supply path is formed between the inner peripheral surface and the upper surface of each supply path, and an upper end opening for ejecting high pressure water and compressed air is provided at the upper end of each supply path while a high pressure is applied at the lower end of each supply path. The lower end openings for ejecting water and compressed air respectively There is provided cents concrete sheet pile, characterized in that digit.

Further, the present invention is to provide a method for press-fitting the concrete sheet pile into the ground according to the following construction procedure.

A high pressure water supply pipe and a compressed air supply pipe are connected to the upper end openings of the high pressure water supply passage and the compressed air supply passage provided in the concrete sheet pile, respectively.

The press-fitting machine is installed near the press-fitting position of the concrete sheet pile.

The concrete sheet pile is installed at the press-fitting position, and the press-fitting machine is chucked on the sheet pile.

High-pressure water and compressed air are injected into the high-pressure supply channel and compressed air supply channel, respectively, and high-pressure water and compressed air are jetted from the lower end openings of each supply channel. Press in.

(E) Action / Effect According to the present invention, the following actions and effects occur.

That is, when press-fitting a concrete sheet pile into the ground by a press-fitting machine, inject high-pressure water through the high-pressure water supply pipe from the upper end opening of the high-pressure water supply passage provided in the concrete sheet pile. , By ejecting the same high-pressure water from the lower end opening and injecting compressed air from the upper end opening of the compressed air supply path through the compressed air supply pipe, and ejecting the compressed air from the lower end opening, While cutting the ground located at the lower end surface of the sheet pile with the same high-pressure water, a cutting piece mixed with water is pushed upward along the side wall of the sheet pile by compressed air, and the concrete sheet pile is deep underground ( It can be pressed in smoothly (up to around 20 m).

At this time, the concrete sheet pile has a sheet pile main body formed in a substantially U-shaped cross section by a sheet-like sheet pile base portion extending in the vertical direction and sheet pile projecting portions projecting to the left and right side end portions of the sheet pile base portion. It has a cross-sectional shape that can withstand earth pressure, and a high-pressure water supply channel is provided in the sheet pile protrusion that is susceptible to ground resistance when press-fitting a concrete sheet pile, and the lower end opening is provided at the lower end of the sheet pile protrusion. Since high pressure water can be jetted to cut the ground, the resistance of the ground can be reduced and the concrete sheet pile can be smoothly press-fitted.

Moreover, a compressed air supply path is provided in the left and right side end portions of the sheet pile base portion, which are positions near the side walls of the sheet pile base portion and the left and right side sheet pile protrusions, and compressed air is supplied from the lower end opening provided at the lower end of the sheet pile base portion. From this point as well, it is possible to eject the jets, which are cut by high-pressure water and mixed with water, and push up upwards along the side walls of the sheet pile base and the left and right side sheet pile protrusions. A concrete sheet pile can be press-fitted.

Even when the sheet pile main body is formed of the sheet pile base portion, the left and right side sheet pile projecting portions, and the left and right side sheet pile connection portions, and has a cross-sectional shape that can withstand earth pressure, the resistance of the ground when press-fitting the concrete sheet pile is reduced. A high pressure water supply passage and a compressed air supply passage are formed in an inner-outer double structure at the left and right ends of the sheet pile base, which are easily received, and the sheet pile connection portion, respectively. Since the air and the air can be jetted separately, the concrete sheet pile can be smoothly press-fitted.

By adjusting the pressure and flow rate of high-pressure water and compressed air, and the pressure input of the press-fitting machine according to the characteristics of the formation, the sheet pile is pressed into the ground with low noise pollution, high capacity, and high efficiency. In addition, it is possible to ensure the safety of the ground and the independence of the concrete sheet pile.

Moreover, since the sheet pile itself is made of concrete, there is no fear of being corroded unlike steel sheet piles.

Also, after press-fitting such a sheet pile, grout is injected through the high pressure water supply passage and the compressed air supply passage, and the grout leaks from the lower end opening around the lower end of the sheet pile, so-called root circumference. By doing so, the strength around the root of the sheet pile can be increased.

The concrete sheet pile is relatively shallow (around 14 m)
When press-fitting, just by injecting / jetting only high-pressure water without injecting compressed air, smooth press-fitting can be achieved as in the above case.

(F) Example An example of the present invention will be described below with reference to the drawings.

First, a prestressed concrete sheet pile (hereinafter referred to as “PC sheet pile”), which is an example of a concrete sheet pile, will be described with reference to FIGS. 1 to 8, and then FIG. A brief explanation will be given with reference, and thereafter, a method for press-fitting PC sheet piles into the ground using the same press-fitting machine will be described in Section 9.
This will be described with reference to the drawings.

(A) shown in FIG. 1 and FIG. 2 is a PC sheet pile,
As shown in FIGS. 3 and 4, the sheet pile (A) includes a sheet-like sheet pile base portion (1e) extending vertically and a sheet pile base portion (1e).
The sheet pile protrusions (1f) (1f) that protruded from the left and right side edges of e)
As a result, the sheet pile main body (1) having a total length of about 20 m and a substantially U-shaped cross section is formed of prestressed concrete.

Moreover, a pair of left and right high pressure water supply passages (2) and (2) extending in the vertical direction are provided in the sheet pile protrusions (1f) and (1f), and the high pressure water supply passages (2) and (2) are Top opening (3)
(3) is opened in the concave space (S) formed by the sheet pile base (1e) and the sheet pile protrusions (1f) (1f), and the lower end of each high pressure water supply passage (2) (2) Is provided with lower end openings (4) (4) for ejecting high pressure water.

Further, a pair of left and right compressed air supply passages (2 ') extending vertically are provided in the left and right ends of the sheet pile base (1e).
(2 ') is provided, and the upper end openings (3') (3 ') of the compressed air supply paths (2') (2 ') are connected to the sheet pile base (1e) and sheet pile protrusions (1f) (1f). Concave space (S) formed by
Each compressed air supply path (2 ')
Lower end openings (4 ') and (4') for ejecting compressed air are provided at the lower end of (2 ').

In FIG. 1, (1a) is a tapered surface formed on the lower right end of the sheet pile body (1).
During the process of driving the PC sheet pile (A) into the soil, the soil pressure that constantly pushes the PC sheet pile (A) to the left side is applied. This is to drive adjacent PC sheet piles (A) into the soil in a connected state.

Further, (1b) is a connection fitting convex portion, (1c) is a connection fitting concave portion, and (1d) is a hanging hole.

FIG. 3 is a sectional view of the upper end portion of the PC sheet pile (A), and FIG. 4 is a sectional view of the center portion of the PC sheet pile (A), in which (5) is a piano wire or the like. Steel materials for PC, (6) and (7) are reinforcing bars, and (8) is an upper reinforcing plate.

Further, the high pressure water supply passage (2) and the compressed air supply passage (2 ′) are provided by embedding the supply pipe (9) shown in FIG. 5 in the sheet pile body (1). 9) is formed inside.

As shown in FIG. 5, the supply pipe (9) has a lateral pipe (10) having one end protruding outward from the upper portion of the concave outer wall of the sheet pile body (1), and the lateral pipe (10). A socket (11) for communicating with one end of the lateral pipe (10), an elbow (12) for communicating with the other end of the horizontal pipe (10), and a first end for communicating an upper end with a lower end of the elbow (12). A vertical pipe (13), a second vertical pipe (15) having an upper end communicated with the lower end of the first vertical pipe (13) through a first socket (14), and a second vertical pipe (15). A third connecting the upper end to the lower end via the second socket (16)
The vertical pipe (17), the nozzle (19) attached to the lower end of the third vertical pipe (17) through the third socket (18), and the nozzle (1
It is composed of a jet guide sleeve (20) connected to 9).

Moreover, a pipe for supplying high-pressure water or compressed air is connected to the socket (11), and the high-pressure water or compressed air is ejected from the nozzle (19) located at the lower part of the sheet pile body (1). It is designed to be jetted below the sheet pile body (1) through the sleeve (20) for use.

The supply pipe (9) is arranged on the left and right side portions where the lower end surface of the PC sheet pile (A) receives a large resistance from the ground or the like at the time of driving.

Here, the manufacturing procedure of the PC sheet pile (A) laterally formed as described above will be described below.

Place the steel material for PC (5) and tighten it.

Arrange the reinforcing bars (6) (7).

Pour concrete into the formwork.

Cure concrete.

Pre-stress is introduced into the sheet pile body (1) by loosening the tension of the steel material (5) for PC.

Inspect and test strength etc.

6 and 7 show the arrangement of the supply pipe (21) as another embodiment, and the supply pipe (21) has a four-pronged branch pipe (21) at the lower end. ′ A) is provided, and four nozzles (22) can be attached to the tip of the branch pipe (21′a).

The supply pipe (21), as shown in FIG.
It has an inner-outer double structure consisting of an inner pipe (21a) and an outer pipe (21b), forms a high pressure water supply passage (2) in the inner pipe (21a), and also has an outer periphery of the inner pipe (21a). Face and outer tube (2
A compressed air supply passage (2 ') is formed between the inner peripheral surface of 1b).

Moreover, a central communication passage (22a) communicating with the high pressure water supply passage (2) is provided in the central portion of the nozzle (22), and the compressed air supply passage (2) is provided on the outer peripheral portion of the central communication passage (22a). ′) A peripheral communication passage (22b) communicating with the peripheral communication passage (22b)
The lower end opening (22'b) of b) opens to the side,
The cutting pieces mixed with water can be smoothly raised along the side wall of the PC sheet pile (A) by the compressed air ejected laterally from the lower end opening (22'b).
(1g) is a nozzle mounting recess provided at the lower end of the sheet pile body (1). Next, the PC sheet pile (A) configured as described above.
Fig. 9 (a) for the press-fitting machine (50) that press-fits the ground into the ground.
This will be described with reference to FIG.

The press-fitting machine (50) is equipped with a reaction force stand (60) and
A clamp part (50a) for clamping the PC sheet pile (A), a press-fitting machine body (50b) mounted on the clamp part (50a) slidably in the front-rear direction, and a vertical direction on the press-fitting machine body (50b). It consists of a chuck part (50c) that is slidably mounted and chucks the PC sheet pile (A).

And this press-fitting machine (50) can be operated remotely, and later
It is self-propelled as described in the explanation of the construction procedure for press-fitting the PC sheet pile (A).

Further, the reaction force platform (60) described above is for supporting the press-fitting machine (60) in a fixed state on the ground, and when the PC sheet pile (A) is press-fitted, the PC sheet pile (A) is removed from the ground. The press-fitting machine (A) itself is prevented from floating due to the resistance force received, so that the PC sheet pile (A) can be securely press-fitted.

Next, the procedure for press-fitting the PC sheet pile (A) into the ground by the press-fitting machine (50) configured as described above will be described with reference to FIG. 9 as follows.

A hose (70) for supplying high-pressure water or a hose (71) for supplying compressed air is connected to the socket (11) of each supply pipe (9) protruding above the PC sheet pile (A).

The injection test of the supply pipe (9) is performed, and the nozzle (19) is attached.

The reaction force stand (60) is fixed near the press-fitting position of the concrete sheet pile, and the press-fitting machine (50) is installed on the reaction force stand (60) (see FIG. 9 (a)).

The PC sheet pile (A) is hung by a hoist, the PC sheet pile (A) is installed at the press-fitting position, and the chucking portion (50c) of the press-fitting machine (50) is chucked.

High pressure water and compressed air are injected into each supply pipe (9) and ejected from the nozzle (19), and the chuck part (50c) of the press-fitting machine (50) is slid downward to make a PC sheet pile (A). Press into the ground.

At this time, the pressure and flow rate of the high pressure water and compressed air and the pressure input of the chuck section (50c) are adjusted according to the characteristics of the formation.

After press-fitting the PC sheet pile (A) to a predetermined depth (for example, 20 m), the supply of high-pressure water and compressed air is stopped, and the slide operation of the chuck portion (50c) is stopped.

Remove the high pressure water supply hose (70) and the compressed air supply hose (71) from the socket (11).

After press-fitting the first PC sheet pile (A) to a predetermined depth as described above, the press-fitting machine (A) is self-propelled.

That is, while the second PC sheet pile (A) is chucked at the position of FIG. 9 (c) by the chuck part (50c), the clamp part (50a) and the press-fitting machine body (50b) are chucked (50).
Slide it upward with respect to c) to raise it from the reaction force stand (60), and start self-propelling of the press-fitting machine (50).

At the raised position as above, clamp (50
Slide a) forward with respect to the press-fitting machine body (50b) (see FIG. 9 (d)).

Slide the clamp part (50a) and the press-fitting machine body (50b) downward with respect to the chuck part (50c),
Clamp the reaction force base (60) and the first PC sheet pile (A) by a) to complete self-propelled, then chuck part (50c)
The second PC sheet pile (A) is press-fitted to a predetermined depth by sliding down (see FIG. 9 (e)).

By repeating the above steps 1 to 3, the third and fourth PC sheet piles (a) are press-fitted to a predetermined depth (see FIG. 9 (f)).

After press-fitting a predetermined number of PC sheet piles (A) (for example, 5 sheets), the PC sheet piles (A) after press-fitting are clamped by the clamp part (50a) instead of the pressure rack (60), and the above procedure is repeated. (See FIG. 9 (g)). At this time, the reaction force stand (60) is unnecessary and should be removed.

The above is the press-fitting construction procedure for the PC sheet pile (A). According to this press-fitting construction method, the PC sheet pile (A) is about 20 m even on hard ground with an N value of 50 or more in the standard penetration test method according to Japanese Industrial Standards. It can be press-fitted.

Further, it is possible to use the supply pipe (9) to inject grout into the lower end portion of the PC sheet pile (A) to solidify it for reinforcement.

That is, following the above-mentioned press-fitting construction procedure, the following construction procedure is performed.

Connect grout supply hose to socket (11).

Operate the grout pump, inject the grout into the supply pipe (9) through the grout supply hose, and
9) Eject from.

At this time, a nozzle with a check valve is used as the nozzle (19).

After injecting a predetermined amount of grout, stop the grout pump and remove the grout supply hose.

In this way, since the root consolidation work can be performed easily, the efficiency and certainty of the sheet pile press-fitting work can be improved at the same time.

Next, another embodiment of the above-mentioned PC sheet pile (A) is shown in FIGS.
This will be described with reference to FIG.

FIG. 10 and FIG. 11 show PC sheet piles (B) and (C) as another embodiment.

The PC sheet piles (B) and (C) are similar to the PC sheet piles (A) in that the number and arrangement position of the supply pipes (21) are determined by the sectional shape of the PC sheet piles (B) (C). There is.

That is, at the lower end surface of the PC sheet piles (A) (B) (C), the high pressure water can be jetted from a location that receives a large resistance such as ground at the time of driving, so that the supply pipe (9)
The number and arrangement position of (21), and further the number and arrangement position of the nozzles (19) are determined.

Here, the PC sheet pile (C) is a sheet-like sheet pile base portion (1e) extending in the vertical direction, and sheet pile projecting portions that are protruded from the left and right side end portions of the sheet pile base portion (1e) toward the front outside. (1
f) (1f) and the sheet pile connecting parts (1h) (1h) that are projected from the tip of each sheet pile protrusion (1f) (1f) to the left and right outer sides substantially parallel to the sheet pile base (1e) respectively. The sheet pile body (1) is molded with concrete by and the sheet pile base (1e)
Supply pipes (21) (21) (21) (2) extending vertically in the left and right side end portions of the sheet pile and in the sheet pile connection portions (1h) (1h), respectively.
1) is provided.

Further, FIGS. 12 to 14 show PC sheet piles (D) (E) (F) as another embodiment.

The PC sheet pile (D) is formed in a rectangular tubular shape, and the lower end opening (22'b) of the peripheral communication passage (22b) of the nozzle (22) attached to the lower end of the supply pipe (21) is connected to the PC sheet pile (D). ), And the compressed air jetted inward from the lower end opening (22'b) smoothly cuts the water-mixed cutting piece along the inner wall of the PC sheet pile (D). So that it can be raised to.

Also, the PC sheet pile (E) has a U-shaped cross section, and
The sheet pile (F) is formed in an H-shaped cross section so that a rectangular space is formed between adjacent sheet piles.
The lower end opening (22'b) of the peripheral communication passage (22b) of the nozzle (22) attached to the lower end of the supply passage (21) of (F) is also the above PC.
Like the sheet pile (D), it is opened inward so that the cutting pieces mixed with water can be smoothly raised along the inner wall of each PC sheet pile (E) (F). There is.

Further, FIGS. 15 and 16 show a leading pile (G) to be driven before driving the PC sheet pile (E), and the leading pile (G) is the outer surface of the inner plate (30). The supply pipe (21)
Similarly to the above, a large number of double-structured supply pipes (31) having a high-pressure water supply passage (2) and a compressed air supply passage (2 ') are piped by a stay (32), and each supply pipe ( The nozzle (22) is attached to the lower end of 31). (30a) is a chucking part, (31a) is an inner pipe, (31b) is an outer pipe,
(33) is a high pressure water injection pipe, and (34) is a compressed air injection pipe.

With such a structure, the preceding pile (G) can be driven deep into the ground (20 m or more), and by driving the preceding pile (G) and then the PC sheet pile (E), the PC sheet pile can be driven. (E) can be easily driven deep into the ground (20 m or more).

In the present embodiment, the sheet pile made of prestressed concrete has been described, but the sheet pile made of reinforced concrete is not limited to the sheet pile made of prestressed concrete.

[Brief description of the drawings]

FIG. 1 is a front view of a PC sheet pile according to the present invention. FIG. 2 is a sectional view taken along line II of FIG. FIG. 3 is a sectional view of the upper part of the PC sheet pile. FIG. 4 is a sectional view of the center portion of the PC sheet pile. FIG. 5 is an exploded view of the supply pipe. FIG. 6 is an explanatory view of a front mounting state of a supply pipe as another embodiment. FIG. 7 is an explanatory view of a bottom surface mounting state of the supply pipe. FIG. 8 is a partial cross-sectional view of the lower end portion of the PC sheet pile. FIG. 9 is an explanation of a press-fitting construction procedure for a PC sheet pile according to the present invention. 10 and 11 are sectional views of a PC sheet pile as another embodiment. 12 to 14 are plan views of a PC sheet pile as another embodiment. FIG. 15 is a perspective view of the leading pile. Fig. 16 is a sectional view of the preceding pile. (A): PC sheet pile (1): Sheet pile body (2): High pressure water supply channel (2 '): Compressed air supply channel (3) (3'): Top opening (4) (4 '): Bottom Aperture

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Gosaku Mizuta 86-5 Otonohara, Chikushino, Fukuoka Prefecture (72) Haruki Yasuda Inventor Haruki Yasuda 3-17-24, Mugino, Hakata-ku, Fukuoka 306 Sanjo Heights 306 ( 56) References JP-A 64-21119 (JP, A) JP-A 2-120410 (JP, A)

Claims (3)

(57) [Claims] 1. A flat sheet-pile base (1) extending vertically.
The sheet pile main body (1) having a substantially U-shaped cross section is molded from concrete by using e) and the sheet pile projecting portions (1f) (1f) projecting to the left and right side end portions of the sheet pile base (1e), and the sheet pile projecting is performed. A pair of left and right high pressure water supply passages (2) and (2) extending vertically are provided in the portion (1f) (1f), and each high pressure water supply passage (2)
The upper end openings (3) and (3) of (2) are opened in the concave space (S) formed by the sheet pile base (1e) and the sheet pile protrusions (1f) (1f), and each high pressure water Supply path (2)
Lower end opening (4) for high pressure water ejection at the lower end of (2)
(4) is provided, and a pair of left and right compressed air supply passages (2 ') (2') extending vertically in the left and right ends of the sheet pile base (1e).
And the upper end openings (3 ′) and (3 ′) of the compressed air supply paths (2 ′) and (2 ′) are formed by the sheet pile base (1e) and the sheet pile projections (1f) (1f). The opening is made in the concave space (S), and the lower end opening (4 ') for ejecting compressed air is provided at the lower end of each compressed air supply passage (2') (2 ').
A method of press-fitting a concrete sheet pile having (4 ') into the ground according to the following construction procedure. High pressure water supply channel (2) on concrete sheet pile
(2) and the high pressure water supply pipe and the compressed air supply pipe at the upper end openings (3), (3), (3 ') and (3') of the compressed air supply passages (2 ') and (2'), respectively. Connect. The press-fitting machine is installed near the press-fitting position of the concrete sheet pile. The concrete sheet pile is installed at the press-fitting position, and the press-fitting machine is chucked on the sheet pile. High-pressure water and compressed air are injected into the high-pressure supply channel and compressed air supply channel, respectively, and high-pressure water and compressed air are jetted from the lower end openings of each supply channel. Press in. 2. A flat sheet-pile base portion (1) extending vertically.
e), and the sheet pile protrusions (1f) (1f) that are protruded from the left and right side end portions of the sheet pile base portion (1e) toward the outer front side, respectively.
The sheet pile connecting portion (1h) (1h), which is projected from the tip of each sheet pile protruding portion (1f) (1f) to the left and right outer sides substantially parallel to the sheet pile base portion (1e), and the sheet pile main body (1) Is formed by concrete, and the supply pipes (21) (21) (21) (21) extending vertically in the left and right ends of the sheet pile base (1e) and in the sheet pile connection portions (1h) (1h), respectively. ) Is provided, each supply pipe (21) has an inner-outer double structure consisting of an inner pipe (21a) and an outer pipe (21b), and a high pressure water supply passage (2) is provided in the inner pipe (21a). At the same time, the compressed air supply path (2 ') is formed between the outer peripheral surface of the inner tube (21a) and the inner peripheral surface of the outer tube (21b), and the compressed air supply path (2') of each supply path (2) (2 ') is formed. An upper end opening for ejecting high pressure water and compressed air is provided at the upper end, while high pressure water and compressed air are ejected at the lower end of each supply channel (2) (2 '). Concrete sheet pile, characterized in that a lower opening for. 3. A method for press-fitting the concrete sheet pile according to claim 2 into the ground according to the following construction procedure. High pressure water supply channel (2) on concrete sheet pile
(2) and the high pressure water supply pipe and the compressed air supply pipe at the upper end openings (3), (3), (3 ') and (3') of the compressed air supply passages (2 ') and (2'), respectively. Connect. The press-fitting machine is installed near the press-fitting position of the concrete sheet pile. The concrete sheet pile is installed at the press-fitting position, and the press-fitting machine is chucked on the sheet pile. High-pressure water and compressed air are injected into the high-pressure supply channel and compressed air supply channel, respectively, and high-pressure water and compressed air are jetted from the lower end openings of each supply channel. Press in.