KR101230320B1 - Soft ground improvement method excavating rod of ground excavating device - Google Patents

Abstract

The present invention relates to a soft ground improvement method and an excavation rod of the ground excavation apparatus for the same, and a connecting rod connected to the bottom of the auger machine and the gear box and the gear box, and the excavating rod connected to the lower end of the connecting rod In the soft ground improvement method for improving the soft ground while discharging the cement grass through the excavation rod even when the operation of excavating the ground with the excavation rod using the ground excavation device equipped with In the case of drilling the ground with the excavation rod, the ground is excavated while discharging the cement paste only through the lower discharge hole formed at the bottom of the excavation rod lower than the stirring blades protruding on the outer periphery of the excavation rod, After completing the ground excavation work with the excavation rod to draw the excavation rod to the ground When raising the sea, the lower discharge hole formed at the lower end of the drilling rod blocks the discharge of the cement paste, while the upper portion formed on the cement pool discharge blade protruding horizontally at a position higher than the stirring blades formed on the outer periphery of the drilling rod. As the excavation rod is raised while discharging the cement paste only through the discharge hole, the cement paste discharged from the upper discharge hole of the cement paste discharge blade is evenly applied to the soil by stirring operation of the stirring blades rising while rotating below the cement paste discharge blade. The invention is characterized in that to improve the soft ground by stirring to be mixed.

Description

Soft ground improvement method excavating rod of ground excavating device

The present invention relates to a soft ground improvement method and an excavation rod of the ground excavation device for this purpose, and more particularly, is connected to the lowermost side of the connecting rod assembled in a multi-stage at the lower portion of the auger machine to transfer the rotational power from the auger machine. When the ground is excavated through the bottom discharge hole formed at the bottom of the excavation rod equipped with the excavation bit that excavates the ground while rotating in the forward and reverse directions, the cement pool is discharged and the excavation rod is completed after the excavation work is completed. When drawing to the ground, it is possible to discharge the cement paste through the upper discharge hole formed in the stirring blade attached to the upper end of the drilling rod to improve the soft ground layer that is excavated and stirred in the drilling hole excavated by the drilling rod more reliably. Of soft ground improvement method to make it possible and excavation rod of ground excavation device for it The.

In general, construction for improving the soft ground or constructing continuous wall of underground water barriers on the soft ground is carried out by forcing and injecting cement paste into the ground while excavating the ground using a ground excavation device.

In the prior art, a method and apparatus for forcibly injecting cement paste or the like into the excavated soil by excavating the ground by rotating the connecting rod, the stirring rod, and the excavating rod, which are assembled and connected in multiple stages to the auger machine of the ground excavation device. It was previously proposed by the inventor of the invention and introduced in the patent registration Nos. 142486 and 451962.

The former patent registration No. 142486 is to allow the cement paste to be discharged from the bottom of the excavation rod when excavating the ground, and to remove the cement paste from the middle portion of the excavation rod when drawing the excavation rod after the excavation work is completed It is configured to improve the soft ground by drawing the excavating rod while the stirring blade rotating at the lower side of the discharge hole for discharging the cement paste in the middle portion of the excavating rod while stirring the cement paste discharged from the discharge hole with the soil. As,

The former patent registration has a structure in which the excavating rod is separated into upper and lower rods, and then welded and connected to a discharge device having a double tube structure between the upper rod and the lower rod. The discharging device is assembled with the insertion rod welded to the lower end of the upper rod of the excavating rod is fitted to be movable up and down to the hanging rod welded to the upper end of the excavating rod, and the excavation rod is lowered to excavate the ground. The upper guide passage formed at the center of the upper rod by connecting the upper and lower guide passages formed at the centers of the upper rod and the lower rod of the excavating rod to move up and down. While the cement paste is supplied to the discharged from the bottom of the excavating rod through the lower guide passage formed in the center of the lower rod During the excavation operation, when the excavation rod is raised to draw the ground after completion of the excavation operation, the guide rod and the lower guide passage of the upper rod as described above are moved downward while the upholstery rod is moved up with the insertion rod wrapped. Blocking the lower guide passage of the rod and at the same time it is configured to discharge the cement paste supplied to the upper guide passage of the upper rod through the discharge hole formed in the outer periphery of the ruled rod.

However, the aforementioned patented technology is provided between the outer surface of the insertion rod and the inner surface of the anchor rod when the anchor rod, which is assembled to surround the insertion rod of the discharge device connecting the upper rod and the lower rod of the drilling rod, moves up and down. The soil is stuck, and the up and down movement of the hanging rod is not smooth, and the cement pool is not properly discharged when excavating the ground or drawing to the ground. When the drilling rod is raised to draw to the ground, the cement pool discharged to the discharge hole formed in the outer peripheral rod of the discharge rod is not discharged in a state that spreads widely to the outer peripheral of the drilling rod, but flows down along the outer surface of the anchor rod. Because it is discharged to the stirring operation of the stirring blades rotating in the lower side of the discharge device It is also pointed out that the cement paste is not widely spread around the excavation rod, and thus the cement paste discharged through the discharge device cannot be mixed and stirred evenly on the soil.

The latter patent registration No. 451962 is proposed to solve the problems in the former patent technology, one cement pool outlet passage for discharging the cement paste is formed in the center of the excavation rod and the cement described above A cement pool discharge hole is formed for discharging the cement pool supplied through the pool outflow passage, and each of the two drilling bits projecting in the symmetrical direction among the plurality of drilling bits projecting in all directions at the bottom of the drilling rod is pneumatic. A discharge hole and a chemical discharge hole are formed, and the pneumatic discharge passage and the chemical discharge passage connected to each of the pneumatic discharge hole and the chemical discharge hole are formed in the excavation rod to excavate the ground with the excavation rod, and the excavation rod is ground. The cement paste, pneumatics and chemicals (such as a fastener) are added to the soil layer excavated and stirred when drawing A is configured to be implanted.

However, the latter patented technology can be expected to have the advantage of making the stirring well with the cement paste by weakening the cohesiveness of the soil lumps by pneumatic pressure injected at the excavation and stirring soil layer with a strong injection pressure. , The cement paste is discharged only through the cement pool discharge hole formed at the bottom of the excavation rod, the pneumatic and chemical are two excavation in a position symmetrical with each other among the plurality of excavation bits protruding in all directions from the bottom of the excavation rod As it is discharged only through the pneumatic discharge hole and the chemical discharge hole formed in the bit, the problem that the cement pool, pneumatic and chemicals discharged from the bottom of the excavation rod does not mix well with the soil when the excavation rod is moved upward to draw the ground. It is pointed out. Because, when the excavation rod is moved up and down, the cement paste or pneumatic and chemicals discharged from the cement pool discharge hole, pneumatic discharge hole, and chemical discharge hole respectively formed at the bottom of the drilling rod are rotated by stirring blades protruding to the outer periphery of the drilling rod. There is a problem that the mixing and stirring with the soil is not made because it is discharged from a position that is not affected by any.

In addition, the former and the latter patented technologies are not only uniformly mixed with the excavated soil to be excavated through the excavation strata, but also are not injected into the soil. In this case, the injection rate of the grass is increased. In this case, the efficiency of improving the soft ground is much lower than that of the cement pool, and the increased amount of cement is discharged to the ground along the excavation rod where the pool is drawn. It is pointed out that it causes a problem to be caused.

The present invention was created in view of the above-mentioned problems in the prior art, and when excavating the ground to discharge the cement paste through the cement pool discharge hole formed in the bottom of the excavation rod, after completing the excavation work When raising the excavating rod to pull out to the ground, the cement paste may be discharged from the cement paste discharge blade protruding from the upper portion of the excavating rod at a position higher than the agitating blades protruding at regular intervals up and down on the outer periphery of the excavating rod. The invention has been invented for the purpose of providing a soft ground improvement method and a drilling rod of the ground excavation device for this purpose to be able to mix and stir the cement paste evenly in the excavated soil layer.

The present invention, as a means for realizing the above object,

Soft ground improvement method of the present invention,

An auger machine which is installed to reciprocate up and down along a leader installed vertically on the ground, and a gear box formed at the bottom of the auger machine to receive rotational power from two motors that are the power sources of the auger machine; Left and right drive gears rotatably mounted in the gearbox while being fixed to the deceleration output shaft of the planetary gear reducer formed in each of the two motors entered into the gearbox, and left and right drive gears in the gearbox. Each of the front and rear left interlocking gears and the front and rear right interlocking gears, which are mounted to rotate in opposite directions by receiving rotational power from each other, and the front and rear left interlocking gears and the front and rear right interlocking gears, respectively, A male joint protruding toward the bottom of the gear box and a male joint to allow rotational operation of each of the male joints. It is installed so as to surround the multi-swivel is formed by two injection holes for supplying the cement paste supplied from the outside, connecting rods are assembled and connected to at least one of each of the male joint, and are assembled and connected to the lower end of each of the connecting rods The lower discharge formed at the bottom of the excavation rod when the excavation rod proceeds to excavate the ground or draws the excavation rod to the ground by using a ground excavation device having an excavation rod having one excavation bit formed at the bottom thereof. In the soft ground improvement method of improving the soft ground while discharging the cement paste through the ball,

When the excavation rod proceeds to excavate the ground, the lower discharge hole formed at the bottom of the excavation rod lower than the stirring wings that are projected at regular intervals toward the four sides while maintaining a constant interval up and down on the outer periphery of the excavation rod Excavate the ground while discharging cement paste only through

After completing the ground excavation work with the excavation rod, when the excavation rod is raised to draw to the ground, the lower discharge hole formed at the lower end of the excavation rod blocks the discharge of cement pool, while stirring the protrusion formed on the outer periphery of the excavation rod. Stirring operation of stirring blades rising while rotating below the cement paste discharge blade by raising the excavation rod while discharging the cement paste only through the upper discharge hole formed in the cement paste discharge blade protruding horizontally from the position higher than the wings. The method is characterized in that the soft ground is improved by agitating the cement paste discharged from the upper discharge hole of the cement paste discharge blade evenly mixed with the soil.

And the excavation rod of the ground excavation device of the present invention,

An auger machine which is installed to reciprocate up and down along a leader installed vertically on the ground, and a gear box formed at the bottom of the auger machine to receive rotational power from two motors that are the power sources of the auger machine; The ground for improving the soft ground by having a connection rod is connected to one or more connected to each of the male joints formed on the bottom of the gear box, and an excavation rod that is connected to the lower end of each of the connecting rods to excavate and stir the ground In the excavator,

The excavation rod,

Cement formed so as to project horizontally symmetrically from each other at a position higher than the stirring blades formed in multiple stages while maintaining a predetermined interval up and down on the upper side of the lower discharge hole formed to discharge the cement paste from the bottom of the drilling rod Pool discharge wings;

A discharge guide passage formed horizontally on each of the cement pool discharge vanes to guide the discharge of the cement pool;

The cement pool is discharged into each of the discharge guide passages formed in each of the cement pool discharge vanes while being located at both left and right sides of the center discharge passage formed at the center of the excavating rod to discharge the cement pool to the lower discharge hole. The upper and the left and the right discharge passage is connected to the left and right connection passages formed in the connecting rod and the lower end is connected to the discharge guide passage;

An upper discharge hole connected to an end of the discharge guide passage in a longitudinal direction of each of the cement pool discharge vanes so as to discharge the cement pool to the outside;

It is characterized by further comprising.

In addition, upper and lower arm joints are disposed between upper and lower arm joints between the male joints formed at the bottom of the gear box and the male joints formed at the upper end of each of the connecting rods in order to connect the connecting rods connected to the gear box. It is characterized in that each of the connection rods formed are connected and connected.

According to the present invention, when the excavation work of the soft ground in order to improve the soft ground to excavate the ground while discharging the cement paste only through the bottom discharge hole formed in the bottom of the excavation rod soil sediment discharged to the bottom discharge hole excavated The ground can be excavated while stirring to mix evenly, and when the excavating rod is raised to draw the excavating rod to the ground after completion of excavation work to the desired depth, the bottom discharge hole formed at the bottom of the excavating rod is a cement paste. Blocking the discharge and by raising the excavating rod while discharging the cement paste only through the upper discharge hole formed in the cement paste discharge blade formed on the upper portion of the excavating rod formed in a multi-stage at a lower position than the cement pool discharge wing As stirring blades rotate, they rise When the cement pool discharged through the upper discharge hole formed in the cement pool discharge wing to be stirred with the earth and sand to improve the soft ground in the state of mixing the cement pool evenly mixed with the soft ground layer excavated by the excavation rod. So that there is an effect to improve the soft layer in the range of the excavation hole excavated by the excavation rod to a uniform strength, and also when excavating the ground with the excavation rod excavated cement pool discharged to the bottom discharge hole When the excavating rod is raised and mixed, the cement paste discharged to the upper discharge hole can be evenly mixed and stirred on the soil. Therefore, the cement paste can be efficiently mixed and stirred on the soft ground, and the cement paste is excessively injected. With the effect of improving the soft ground without It provides the effect that the ground of the work site can be contaminated by the cement paste in advance, and furthermore, the underground water film to be built in the basement of the soft ground allows the continuous wall to be built with uniform strength. Can also be provided.

1 is an installation state diagram of a ground excavation device for constructing a soft ground improvement method to explain the present invention,
2 is an auger machine installation state diagram of the ground excavation device of the present invention,
Figure 3 is a cross-sectional configuration of the gear box formed integrally with the auger machine of the present invention,
4 is a cross-sectional view of the connecting rod for connecting the connection rod and the male joint formed on the gearbox bottom of the present invention,
5 is a cross-sectional view taken along the line AA of FIG.
6 is a cross-sectional view of the connecting rod is assembled in a multi-phase connection to the bottom of the gearbox of the present invention,
7 is a cross-sectional view taken along the line BB of FIG.
8 is a front installation state of the drilling rod of the present invention,
9 is a cross-sectional view of the installation state of the lower discharge hole formed in the bottom of the drilling rod of the present invention,
10 is an installation state diagram of the cement paste discharge blade formed on the upper end of the drilling rod of the present invention,
11 is a plan view showing the arrangement and rotation state of the drilling rod of the present invention.

According to the accompanying drawings, a detailed embodiment of the soft ground improvement method according to the present invention and the excavation rod of the ground excavation apparatus for this will be described in detail.

Reference numeral 1 denotes a ground excavation device, and the ground excavation device 1 moves up and down along the leader 11 fixed to the ground vertically by a crawler crane 10 installed on the ground. In this possible auger machine (2), a gear box (3) receiving power from the auger machine, a connecting rod (4) which is assembled and assembled in multiple stages at the bottom of the gear box and the lower end of the connecting rod The drilling rod 5 which is connected and assembled is provided.

The auger machine (2) is a lifting body (21) installed to be able to move up and down along the leader (11), and two motors (22) (23) fixed side by side fixed to the left and right sides of the lifting body. Although each of the motors 22 and 23 has a planetary gear reducer for reducing the rotational output, it is configured to be integrally coupled.

The gear box 3 is mounted on the lower part of the auger machine 2, and the gearbox 3 has a deceleration output shaft 24 of the planetary gear reducer for decelerating the rotational output of the motors 22 and 23. Left and right drive gears 31a and 31b to which 25 is connected, respectively, and front left and right interlocking gears 32a and 32b spaced apart at regular intervals from each of the left and right drive gears, Rear left and right interlocking gears 33a and 33b installed in direct engagement with each of the left and right drive gears 24 and 25, the left drive gear 31a and the front left interlocking gear 32a, and the Left and right idle gears 34a and 34b for connecting the right drive gear 31b and the front right interlocking gear 32b are rotatably mounted, and the left and right idle gears 34a ( 34b) Each is installed in engagement with each other (see Fig. 3).

In addition, a plurality of male joints 35 are formed at the bottom of the gear box 3, and each of the plurality of male joints 35 is interlocked with the front left and right sides rotatably installed in the gear box 3. Each of the gears 32a and 32b and the rear left and right interlocking gears 33a and 33b is formed so as to protrude downward one by one (see Fig. 2).

In addition, a plurality of swivels 36 are formed on the upper surface of the gear box 3, and each of the plurality of swivels has the front left and right interlocking gears 32a and 32b and the rear left and right interlocking gears 33a. Each of the plurality of male joints 35 extending upward from each of the 3333b is mounted one by one (see Fig. 2).

In addition, centers of the front left and right interlocking gears 32a and 32b and rear left and right interlocking gears 33a and 33b are respectively connected to the swivels 36 at the centers of the plurality of male joints 35. The central passage 37 which penetrates is formed one by one (refer FIG. 2).

In addition, each of the plurality of male joints 35 protruding from the bottom of the gear box 3 is equipped with a multi-swivel 38, the multi-swivel 38 is allowed to rotate the external joint while allowing the male joint (35) Two injection holes 38a and 38b are formed to inject the cement paste supplied from the two, and each of the plurality of male joints 35 has two injection holes 38a and 38b formed in the multi-swivel 38. Left and right inflow passages (39a, 39b) is formed through which the cement paste supplied through the inflow is formed, the left and right inflow passages (39a), (39b) are respectively at the left and right sides based on the center passage (37) (See Fig. 2).

The connecting rod 4 is connected to each of the plurality of male joints 35 protruding from the bottom of the gear box 3 by one or more, the upper joint of the connecting rod 4 is formed with a male joint 41 The lower joint has a structure in which an arm joint 42 is formed.

Therefore, in order to connect the connecting rod 4 to the male joint 25 formed at the bottom of the gear box 3, a connecting rod 6 having female joints formed at upper and lower ends thereof is used.

Upper and lower female joints 61 connected to the male joints 37 protruding from the bottom of the gear box 3 and the male joints 41 at the upper ends of the connecting rods 4 are respectively provided on the upper and lower ends of the connecting rods 6. The lower arm joint 62 to be connected is formed.

Center passages 43 and 63 are formed at the center of each of the connecting rod 4 and the connecting rod 6 so as to communicate with the central passage 37 connected to the swivel 36. Each of the connecting rod 4 and the connecting rod 6 is connected to each of the left and right inflow passages 39a and 39b connected to each of the inlets 38a and 38b of the multi-swivel 38. Right connection passages 44 and 64 and 45 and 65 are formed (see FIGS. 4 and 6).

A plurality of excavating rods 5 are connected to each of the lower ends of the connecting rods 4 connected to the lowermost side of the plurality of connecting rods connected to at least one bottom of the gear box 3, and the excavating rods ( 5) At the upper end, a male joint 51 for connecting to the lower arm joint 42 formed at the lower end of the connecting rod 4 is formed, and at the lower end, an excavation bit 52 for drilling the ground is formed.

In addition, the excavation rod 5 has an excavation wing 53 for excavating the ground together with the excavation bit 52 is formed directly on the excavation bit 52 formed at the bottom, the upper side of the excavation wing 53 A plurality of stirring blades 54 are formed in multiple stages so as to maintain a constant interval up and down.

The cement pool discharge blades 55 are further formed on the upper side of the excavating rod 5 at a position higher than the stirring blades positioned at the uppermost side of the plurality of stirring blades 54 formed at regular intervals up and down.

In addition, the upper end of the center discharge passage 56 formed in the inner center of the drilling rod 5 is connected to the center connection passage 43 formed in the center of the connecting rod 4, the lower end of the center discharge passage 56 It is connected to the lower discharge hole 57 formed on the lower side of the excavating rod (5), the left and right of the center discharge passage 56, the upper end of the left and right connection passage 44 of the connecting rod (4) The left and right discharge passages 58 and 59 connected to the 45 and connected to the discharge guide passage 55a formed at the bottom of the cement paste discharge blade 55 are formed.

In addition, the cement pool discharge blade 55 is formed with an upper discharge hole (55b) to discharge the cement paste at a predetermined distance from the outer surface of the excavation rod (5), the upper discharge hole (55b) It is connected to the end of the discharge guide passage (55a) formed in the longitudinal direction inside the cement pool discharge blade 55 is formed in a structure for discharging the cement pool to the outside of the cement pool discharge blade (55).

Therefore, the cement pool discharged through the left and right discharge passages (58) and (59) are discharge guides respectively formed in both sides of the cement pool discharge blades (55) protruding symmetrically to the upper end of the excavating rod (5). It is transported along the passage 55a and is discharged to the outside through the upper discharge hole 55b (see FIG. 10).

Referring to the construction method and the action of the excavation rod 5 to improve the soft ground by using the ground excavation device 1 of the present invention configured as described above are as follows.

First, the method for improving the soft ground by using the ground excavation device 1 of the present invention will be described.

The ground excavation device 1 is connected to the connection rod 6, the connecting rod 4, the excavating rod 5, which is connected to the plurality of male joints 35 protruding from the bottom of the gear box 3, the gear box (3) Receives rotational power from the front left and right interlocking gears 32a and 32b and the rear left and right interlocking gears 32c and 32d mounted therein, the left motor being installed in the auger machine 2 Assuming that the deceleration output shaft 24 on the (22) side rotates counterclockwise with the decelerated output, and the deceleration output shaft 25 on the right motor 23 side rotates clockwise with the decelerated output, front left interlocking The gear 32a and the rear right interlocking gear 32d rotate counterclockwise, and the front right interlocking gear 32b and the rear left interlocking gear 33a rotate clockwise. Reference)

Therefore, a total of four axes of excavating rods 5 connected to rotate in the same direction as each of the interlocking gears 32a, 32b, 32c, and 32d are biaxial excavating rods formed on the front left and right sides as shown in FIG. 5a, 5b: In the case of the representative description, the excavation rod 5a on the front left side of the excavation rod 5a rotates in the counterclockwise direction to excavate the ground, and the excavation rod 5b on the front right side. Is to excavate the ground while rotating in the clockwise direction, the two axis excavation rod (5c, 5d formed on the left, right) (represented by the sign '5' when representatively described) are the front left and right excavation rod The ground is excavated while rotating in opposite directions with respect to each of (5a, 5b). That is, each of the front left drilling rod 5a and the rear left drilling rod 5c rotates in the clockwise direction, and the front right drilling rod 5b and the rear right drilling rod 5d each rotate counterclockwise. It will be excavating the ground.

As described above, each of the plurality of swivels 36 protruding from the upper surface of the gear box 3 when the ground is to be excavated while improving the soft ground while simultaneously rotating the four-axis drilling rods 5 counterclockwise and clockwise. While supplying the cement paste through, the plurality of multi-swivel 38 formed in the bottom of the gear box (3) blocks the supply of cement paste.

Therefore, when the four-axis drilling rods 5 are excavated while rotating in a predetermined direction, the cement paste supplied from each of the plurality of swivels 36 is the central passage 37 and the connection rod 6 of the male joint 35. While being sequentially introduced along the center connection passage 63 and the center connection passage 43 of the connection rod 4, the center discharge passage 57 is discharged to the lower discharge hole 57 formed at the bottom of the center discharge passage 56 of the excavation rod 5. At this time, the cement paste discharged into the lower discharge hole 57 is mixed and agitated in the earth and sand excavated by the rotary operation of the excavation bit 52 for excavating the ground, and then the excavation blade 53 directly above the excavation bit 52. After mixing and stirring again in the earth and sand excavated by a) and then continuously stirred by a plurality of stirring blades 54 and cement paste discharge blades 55 formed in multiple stages above the excavation blade 53 and the lower portion Cement paste discharged into the discharge hole 57 It is mixed with the earth and sand by being stirred together with the earth and sand excavated by the excavation rod (5), while the cement excavation is supplied through a plurality of swivel 36 formed on the upper surface of the gear box 3 during the ground excavation By discharging the cement paste through the lower discharge hole 52 formed in each lower end of the plurality of drilling rods 5 to proceed the excavation work to a set depth.

When the ground excavation work to the depth set by the excavation operation of the plurality of excavation rods 5 is completed as described above, the excavation operation is stopped and the plurality of excavation rods 5 are drawn to the ground. While blocking the supply of the cement paste supplied through the plurality of swivels 36 formed on the upper surface of the gear box 3, while wrapping the plurality of water joints 35 protruding to the bottom of the gear box 3 The cement paste is supplied through the injection holes 38a and 38b of each of the installed multi swivels 38.

Therefore, the cement paste supplied to the injection holes 38a and 38b of each of the multi-swivels 38 is formed by the left and right inflow passages 39a and 39b formed in the plurality of water joints 35 and the connection rods 6. Through the left and right connecting passages 64 and 65 and the left and right connecting passages 44 and 45 of the connecting rod 4 to the left and right discharge passages 58 and 59 of the excavating rod 5. It is introduced, but is connected to the discharge guide passage (55a) of the cement paste discharge blade (55) formed at the upper end of the excavation rod (5) at the ends of the left and right discharge passages (58) (59). Cement paste supplied through the multi-swivel 38 is discharged through the upper discharge hole (55b) of the cement paste discharge blades 55 formed on the upper end of each of the four-axis drilling rod (5).

As described above, each of the four-axis drilling rods 5 rotates in the set direction while simultaneously discharging the cement paste through the upper discharge hole 55b of the cement paste discharge blade 55 formed at the upper portion thereof, and moves upwards. A plurality of stirring blades 54 formed in the multi-phase below the cement pool discharge blade 55 is raised while stirring the cement pool discharged from the upper discharge hole (55b) with the soil.

Therefore, the cement pool discharged to the upper discharge hole (55b) formed in the cement pool discharge blade 55 is excavated by a plurality of stirring blades (54) rising while rotating in the lower side of the cement pool discharge blade (55) By stirring together with the soil layer of the excavation hole excavated by the four-axis excavation rod (5) is to improve the cement paste evenly mixed.

On the other hand, the present invention can not only improve the soft ground by using the four-axis excavation rod 5 as described above, but also when the underground water barrier continuous wall is built in the basement of the soft ground, the cement water is evenly distributed on the continuous wall of the underground water barrier. It is possible to build a uniform strength by stirring and mixing.

1: Ground Excavator 10: Tracked Crane
11: Leader 2: Augusta Machine
21: lifting body 22,23: motor
24,25: Reduction output shaft 3: Gear box
31a, 31b: Left and right drive gears 32a, 32b: Front left and right interlocking gears
33a, 33b: Rear left and right interlocking gear
34a, 34b: Children gear 35: male joint
36: swivel 37: central passage
38: multi-swivel 38a, 38b: injection hole
39a, 39b: left and right inflow passage 4: connecting rod
41,42: male joint and female joint 43: center connection passage
44,45: Left and right connecting passage 5: Excavation rod
51: male joint 52: drilling bit
53: excavation wing 54: stirring blade
55: discharge blade of cement paste 55a: discharge guide passage
55b: upper discharge hole 56: central discharge passage
57: lower discharge hole 58,59: left and right discharge passage
6: connection rod 61,62: upper and lower female joint
63: center connecting passage 64,65: left and right connecting passage

Claims (3)

The gearbox is formed at the bottom of the auger machine so as to receive rotational power from two motors, the auger machine being installed to enable reciprocating movement up and down along the leader installed vertically on the ground, and the power source of the auger machine. And left and right drive gears rotatably mounted in the gearbox while being fixed to the deceleration output shaft of the planetary gear reducer formed in each of the two motors entered into the gearbox, and the gearbox is driven left and right. The front and rear left interlocking gears and the front and rear right interlocking gears mounted to rotate in opposite directions by receiving rotational power from the gears, respectively, and the front and rear left interlocking gears and the front and rear right interlocking gears, respectively. The male joint protruding toward the bottom of the gear box and the male joint to allow rotation operation of each of the male joints. It is installed so as to surround the multi-swivel is formed by two injection holes for supplying the cement paste supplied from the outside, connecting rods are assembled and connected to at least one of each of the male joint, and are assembled and connected to the lower end of each of the connecting rods At the bottom, the excavation rod discharges the cement paste through the excavation rod when the excavation rod proceeds to excavate the ground by using the excavation rod having an excavation rod having one excavation bit formed thereon, or when drawing the excavation rod to the ground. In the soft ground improvement method of improving the soft ground while
When the excavation rod proceeds to excavate the ground, the lower discharge hole formed at the bottom of the excavation rod lower than the stirring wings protruding at regular intervals toward the four sides while maintaining a constant interval up and down on the outer periphery of the excavation rod Excavate the ground while discharging cement paste only through
After completing the ground excavation work with the excavation rod, when the excavation rod is raised to draw to the ground, the lower discharge hole formed at the lower end of the excavation rod blocks the discharge of cement pool, while stirring the protrusion formed on the outer periphery of the excavation rod. Stirring operation of stirring blades rising while rotating below the cement paste discharge blade by raising the excavation rod while discharging the cement paste only through the upper discharge hole formed in the cement paste discharge blade protruding horizontally from the position higher than the wings. Soft ground improvement method characterized in that to improve the soft ground by stirring the cement grass discharged from the upper discharge hole of the cement pool discharge blade to be mixed evenly in the soil.
An auger machine which is installed to reciprocate up and down along a leader installed vertically on the ground, and a gear box formed at the bottom of the auger machine to receive rotational power from two motors that are the power sources of the auger machine; The ground for improving the soft ground by having a connection rod is connected to one or more connected to each of the male joints formed on the bottom of the gear box, and an excavation rod that is connected to the lower end of each of the connecting rods to excavate and stir the ground In the excavator,
The excavation rod,
Cement formed so as to project horizontally symmetrically from each other at a position higher than the stirring blades formed in multiple stages while maintaining a predetermined interval up and down on the upper side of the lower discharge hole formed to discharge the cement paste from the bottom of the drilling rod Pool discharge wings;
A discharge guide passage formed horizontally on each of the cement pool discharge vanes to guide the discharge of the cement pool;
Cement glue as each of the discharge guide passages formed in each of the cement pool discharge wing while located on both left and right sides of the center discharge passage formed in the center of the excavation rod to discharge the cement paste to the lower discharge hole of the excavation rod An upper and lower discharge passages connected to the left and right connection passages formed at the connection rods and the lower ends connected to the discharge guide passages so as to discharge them;
An upper discharge hole connected to an end of the discharge guide passage in a longitudinal direction of each of the cement pool discharge vanes so as to discharge the cement pool to the outside;
Excavation rod of the ground excavation device, characterized in that further comprises a.
The method of claim 2,
Upper and lower arm joints are respectively formed at the upper and lower ends between the water joints formed at the bottom of the gear box and the water joints formed at the top of each of the connection rods in order to connect the connecting rods connected to the gear box by at least one. Excavation rod of the ground excavation device, characterized in that the connection rod is connected.

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