KR0142486B1 - Foundation sheet pile working method and foundation sheet pile working machine - Google Patents

Abstract

The present invention relates to a method for constructing a continuous wall of underground using a rotator assembled to receive power from an organo drive unit suspended from a reader device of a crawler driving device, and a device having a screw installed at an output connection part of the rotator. Attach the connecting rod to drill the excavation hole by discharging part of the soil during excavation operation, and discharge the cement mortar or air to the head of the stirring rod or discharge it directly from the middle of the stirring rod in the middle of the stirring rod. The device is installed so that the cement mortar can be discharged to the Oga head from the time when the excavation operation needs to be excavated by the length of the stirring rod, and from the time of starting to raise the stirring rod after completion of the excavation operation, Stirring with rising stirring blade while directly discharging cement mortar The cement mortar provides a method of evenly mixing with the earth and sand so that the cement continuous mortar can be constructed without the end of the cement mortar discharged to the ground.

Description

Method and apparatus for building underground continuous wall using rotator

1 and 2 are front and side views showing an embodiment in which the present invention is applied to a stirring rod of a three-axis rotator.

3 and 4 are front and side views showing an embodiment in which the present invention is applied to a stirring rod of a biaxial rotator.

5 is a partially enlarged view showing the configuration of the stirring rod equipped with the cement mortar discharge device which is the main part of the present invention;

6 is a partial cross-sectional view of the cement mortar discharge device that is the main part of the present invention

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

8 is a cross-sectional view showing the main operating state of the present invention of FIG.

10 and 11 are partially enlarged views showing the main part of the present invention mounted on a three-axis and two-axis stirring rod.

12 to 15 are front and side views showing a method of constructing a continuous wall using a conventional three-axis and two-axis rotator and the configuration of the stirring rod

(A) (b) (c) of FIG. 16 is a plan view showing the construction of underground continuous walls using rotators

* Explanation of symbols for main parts of the drawings

1,101: crawler driving device 2,102: support arm

3,103: reader device 4: top sheave

5,104: Oga Drive Unit 6,100: Rotator

7: Output connection 8,107: Connection rod

9: screw 10: stirring blade

11,108: stirring rod 12: discharge device

12a: insert 12b: hanging member

13,109: Oga head 14a, 14b: outer, inner hexagonal part

15a, 15b: Binding pin 16a, 16b: Binding groove

17: supply passage 17a, 17b: branch passage

18: mounting bracket 19: packing

20a, 20b: discharge hole 21a, 21b: guide passage

22: discharge passage

The present invention relates to a method for building underground continuous walls using a rotator receiving a driving force by an organo device, and an apparatus thereof, and to excavating the ground as a stirring rod composed of three axes, two axes, or a single axis to the rotator. To allow the soil to be discharged, and when the raising of the stirring rod after completion of the excavation hole is carried out while injecting cement mortar (or construction material such as bentonite), the soil remaining in the excavation hole is uniformly stirred on the cement mortar. The purpose of the present invention is to provide a method for allowing the continuous wall to be built in the ground to be given the designed strength. For this purpose, the cement mortar discharge device is installed at a suitable position in the middle of the stirring rod, but the discharge device is When excavating the excavation hole, the cement mortar can be discharged through the Oga head, and the excavation work of the excavation hole When the stirring rod is moved up after completion, the cement mortar is discharged from the discharging device itself so that the cement mortar can be uniformly stirred together with the earth and sand, so that the cement mortar filled in the excavation hole is discharged to the ground. It is to be able to rescue with set intensity.

In general, the construction method of underground continuous wall to improve the soft ground or to form in situ piles is mainly using rotators. As a representative example, as shown in FIGS. As shown in (a) of FIG. 16, the three-axis continuous wall as the three pillars are combined. As the two-axis rotator, the two-axis continuous wall as the two pillars are combined as shown in (b) of FIG. As shown in (c), a single continuous wall was formed in which one pillar was formed continuously.

The rotator 100 for constructing a continuous wall continuously constructed on the ground as described above is attached to the support arm 102 of the crawler traveling device 101 as shown in FIGS. Is connected to an organo device, ie, an auger drive unit (104) which is a power source suspended on a wire cable suspended on a suspension pulley above the reader device 103 is configured to receive a rotational power, the Rotator 100 such as is usually formed three output connecting portion (100a), connecting the multi-stage assembled connecting rod 107 which is guided through the lower and lower diaphragm 105 and the intermediate diaphragm 106 and then of the connecting rod In a method of connecting the stirring rod 108 to the lower part, the stirring rod was installed as a single shaft or assembled in three or two axes, and a continuous wall was built on the ground.

However, in the conventional method of constructing the continuous wall of the underground using the rotator 100 as described above, when the continuous wall is rescued, cement mortar, bentonite, air, etc., which are supplied to the interior of the connecting rod 107 and the stirring rod 108 are used. Since the Oga head 109 was discharged only, the continuous wall could not be given a strength suitable for the design. For this reason, the thin cement mortar injected through the Oga head 109 and stirred with the soil was leaked to the ground. The reason for this is described in more detail. In the case of the three-axis rotator shown in FIGS. 12 and 13, each connecting rod 107 is simply configured in a cylindrical shape, and each stirring rod 108 Since the spiral stirring blades 110 are formed at intervals, the earth and sand excavated by the excavation operation of each orga head 109 is not discharged to the ground, but is a spiral stirring blade. Only the action stirred by the dog 110 proceeds. Therefore, the cement mortar discharged from the lower end of each Oga head 109 is mixed with the earth and sand excavated by the rotation operation of the Oga head, but at this time, the mixing action is uneven and stirred evenly by the stirring operation by the stirring blade, so excavation The cement mortar that is agitated with the excavated soil is continuously discharged until the Oga head completes the excavation hole, while the excavated soil is not discharged to the ground. In addition, due to the amount of cement mortar injected, the inside of the excavation hole is oversaturated, and the excavated soil and cement mortar overflow. Since cement mortar is usually a very thin state, the cement mortar has better permeability and fluidity than the soil. The overflow is more cement mortar than earth and sand for excavation The amount of cement mortar agitated with the soil is much reduced, which causes the problem that the continuous wall cannot have the strength according to the design and thus shows the defect that the underground continuous wall is poorly constructed, and also has a large amount of ground. The discharged cement mortar not only contaminated the construction site, but also caused many problems in the environmental pollution, such as surrounding rivers being contaminated by washing the contaminants at the construction site.

Also, in the case of the two-axis rotator as shown in the examples of FIGS. 14 and 15, the cement mortar is discharged only through the lower end of the orga head 109, so that the injected cement mortar is not evenly discharged with the soil. Because of the stirring, the cement mortar injected into the excavation hole is discharged to the ground as in the conventional continuous wall construction method such as the three-axis rotator. There was a flaw.

Therefore, the present invention eliminates all the drawbacks of the method of constructing the continuous wall without discharging excavated soil as in the prior art, and furthermore gives design strength to the continuous wall constructed in the ground and simultaneously causes environmental pollution by cement mortar. It was created with the purpose of excluding the oil, and in order to achieve this purpose, it adopted the method of discharging the excavated soil during the excavation work, so that the case of cement mortar injected into the excavation hole leaked to the ground perfectly. Also, when entering the excavation hole, while injecting a small amount of cement mortar through the Oga head, stirring it with soil and sand, and increasing the rotator after completion of the excavation hole, Inject, fill and replenish as much soil as you need It was intended to provide a construction method capable of providing a steel-making is also based on the design of underground continuous wall and the device, or less if therefore be described in detail in the accompanying drawings an embodiment of the present invention is given hereunder.

1 and 2 show an embodiment of a three-axis rotator, a top sheave (4) installed on an upper end of a reader device (3) placed vertically high on a support arm (2) of a crawler traveling device. In order to suspend the up and down operation by hanging the organ drive unit (5) using a wire cable, and the rotator (6) is assembled to the output of the organ drive unit (5) to the three-axis output connection (7) Each of the three connecting rods (8) was connected to each other, but the connecting rods in the middle portion were cylindrical without screws, and the left and right connecting rods were attached with screws (9).

At the lower end of each of the three connecting rods 8, the stirring rods 10 are attached and assembled in multiple stages as usual, and the middle portions of these stirring rods are connected as discharge devices 12, respectively. Let's do it.

The discharge device 12 is provided with two discharge passages in order to allow the cement mortar and air to be discharged through the Oga head 13 when excavating the ground to evenly mix a small amount of cement mortar in the soil. When the rotator 6 is moved up after the completion of the excavation work, the cement mortar is injected into the excavation hole and replenished by discharging the cement mortar and air from the discharge device 12 itself. It is possible to stir the cement mortar supplemented with the stirring blade formed in the evenly while stirring the cement mortar supplied to the excavation hole while raising the stirring rod 11, so that the strength of the cement mortar as a set amount without waste of mortar It is to provide a construction method to build a high continuous wall.

On the other hand, in the case of the three-axis rotator (6), the connecting rod (8) located in the middle of the three connecting rods by supplying the air supplied from the compressor (not shown) while the organ head attached to the stirring rod (11) in the center ( 13), as well as the air discharged from the discharge device (12) attached to itself, the oga head (13) attached to the stirring rods on the left and right, and the cement mortar supplied from the discharge device (12) This is to stir well, which is to allow the air to penetrate into the lumped soil and to break it so that the cement mortar and the soil can be evenly mixed and mixed.

3 and 4 illustrate an embodiment of a biaxial rotator, in which the screw 9a and 9b are attached only to the left and right sides of the triaxial output connection 7 of the rotator 6. The rod 8a, 8b and the two connecting rods were connected to the stirring rods 11a, 11b having the discharge device 12, and the earth and sand excavated similarly to the three-axis rotator described above was Excavation work while discharging, and after completion of excavation work, while supplying and replenishing the cement mortar with the discharging device, it is possible to stir and mix the cement and the soil as the stirring blades 10, so that the appropriate level of strength is given to the design. It is a construction method that can rescue walls.

Looking at the configuration of the discharging device 12 that can be constructed in the underground continuous wall in a manner that does not discharge the cement mortar to the ground by using a three-axis or two-axis rotator, as shown in Figures 5 to 7 As described above, the stirring rod 11 connected to the lower end of the connecting rod 8 is usually divided into an upper end portion 11a, an intermediate portion 11b, and a lower end portion 11c, or is composed of a single body or four or more stages. Can be assembled.

The discharge device 12 is welded to the upper end portion 11a and the middle portion 11b of the stirring rod 11. The discharge device 12 is composed of an insert 12a welded to the upper end 11a and a ruler 11b welded to the intermediate portion 11b, the outer hexagonal portion 14a of the insert 12a. Is inserted into the inner hexagonal portion (14b) of the rubbing member (12b) is bound by two binding pins (15a, 15b) is configured to rotate together.

The binding pins 15a and 15b penetrate half of both the outer hexagonal portion 14a and the inner hexagonal portion 14b by penetrating up and down positions, so as to maintain the binding state. The outer body portion 14a of the sieve has a configuration in which the binding grooves 16a and 16b to which the binding pins are long formed are inserted into the fixed body 12b. I was able to move up and down.

In the insert 12a, a supply passage 17 for supplying cement mortar or air is formed vertically, and branch passages 17a and 17b which are divided at both ends of the supply passage are formed. At the lower end of the insert 12a, a packing 19 is installed to maintain the airtightness in the branch passages 17a and 17b by the attachment bracket 18 attached to the bowl. The packing is a laminate of a plurality of V-shaped made of a plastic or urethane material excellent in airtightness and durability.

Directly below the inner hexagonal portion 14b of the ruled body 12b, the discharge holes 20a and 20b are drilled to both sides, and the induction passages 21a and 21b formed under the discharge hole are discharge passages 22. The cement mortar or air supplied to the discharge passage 22 is configured to be collected at the bottom of the organ head 13 through a pipe in the middle portion 11b of the stirring rod 11.

The present invention with such a member will be described the operation state of the method and apparatus for building underground continuous wall.

Three or two axes on the output connection portion 7 of the rotator 6 installed to receive power from the OGA drive unit 5 suspended as a wire cable on the upper side of the reader device 3 of the crawler traveling device 1. Attach the connecting rod (8) with screw (9), and assemble the stirring rod (11) with the discharge device (12) at the bottom of each connecting rod, and then lower the rotator so that the organ head (13) Under the condition of initiating the excavation work by touching, the insert 12a, which is the upper end of the discharge device 12, is pressed by the self-weight of the organo drive unit 5, the rotator 6, and the connecting rod 8, The sieve descends to a state where the upper end of the binding grooves 16a and 16b is caught by the binding pins 15a and 15b, and at this time, the branch passage 17a formed in a symmetrical state on the lower end side of the supply passage 17. 17b are to coincide with the guide passages 21a and 21b of the hanging member 12b.

When the excavation work proceeds in the above state, the stirring rod 11 itself does not discharge soil, but only the stirring operation, and the connecting rod 8 of the upper portion of the stirring rod starts to enter the drilling hole from the screw (9). ) Excavated excavated soil, and in the case of the 3-axis rotator, there is no screw in the connecting rod installed in the middle, so the excavated soil is not discharged but only a proper amount is discharged. Since the screw is spaced to some extent, this will also excrete excavated soil only a certain amount. The reason why only a part of the excavated soil is excavated is to enable continuous cement to be continuously stirred and mixed with the soil.

When the excavation work is carried out as described above and reaches the position where the excavation rod 11 needs to be further excavated, the cement mortar is supplied to the left and right connecting rods 8 to which the screw 9 is attached. Cement mortar passes through the supply passage (17), branch passage (17a) (17b), guide passage (21a) (21b) and discharge passage 22 in order to be discharged to the oga head (13) and stirred by continuous excavation operation It is stirred with the excavated soil sand by the stirring operation of the wing (10).

As described above, the depth at which the excavation work is carried out while injecting the cement mortar into the excavation hole is carried out until just before the screw 9 of the connecting rod 8 carries out the excavation work. 6) to raise the orga head gradually with the end of the excavation work in the manner of lifting operation, the pressure applied to the insert (12a) of the discharge device 12 during the excavation operation is released during the lifting operation of the rotator On the other hand, the weight of the middle portion (11b) and the lower portion (11c) of the stirring rod 11 and the organ head 13 acts on the locking member (12b), so that the locking member is a binding pin (15a) ( 15b) is lowered until it is caught by the lower end of the binding groove (16a) (16b), the branch passages (17a) (17b) of the insert (12a) is a ruled In communication with the discharge holes 20a and 20b of the retardation 12b, the supply passage 17 The supplied cement mortar is discharged to both of the discharge holes 20a and 20b, and the cement mortar thus discharged is evenly distributed with the soil by the stirring blades 10 formed in the middle portion 11b and the lower portion 11c of the stirring rod. It can be stirred and mixed.

Therefore, the excavation operation can be stirred while replenishing the amount of soil discharged as a screw during the ascending operation of the stirring rod 11, so that the underground continuous wall can be constructed with a strength appropriate for the design.

On the other hand, the present invention is mounted to the stirring rod assembled in the connecting rod without the screw (9) and the method of stirring the cement mortar while supplying the ground when raising the stirring wing is stronger than the conventional method You can build a continuous wall.

In the present invention as described above, in order to improve the soft ground or to form a pile pile, the stirring rod is lowered to operate the cement mortar supplied from the Oga head without the excavation work of earth excavation, which is excavated as in the conventional method. Invented to completely solve the problem of stirring while the present invention is attached to the screw to the connecting rod and the discharge device is attached to the middle portion of the stirring rod and then excavation work when the excavated soil without supplying cement mortar The excavation work was carried out by discharging part of the soil, and when the excavation work was almost finished, the cement mortar was supplied through the Oga head to be mixed evenly with the soil. How to stir the cement mortar supplied from the discharge device together with the soil As a continuous wall can be constructed, it is possible to give steel strength to the continuous wall constructed in the ground. Also, as in the conventional method, cement mortar does not flow out to the ground, thereby causing environmental pollution by cement mortar. It is an invention that can build economical and high-strength underground continuous wall by eliminating waste of resources together with the side effect of preventing the perfection.

Claims (5)

In the assembly of the rotator to the OGA drive unit suspended on the upper part of the reader device of the crawler running device, to attach the connecting rod to the output connection of the rotator and to excavate the ground as the Oga head at the bottom of the stirring rod, Attach the screw to discharge part of the soil during excavation work, and equip the middle part of the stirring rod with the ejection device that forms the discharge hole, and disperse the cement mortar to the bottom of the Oga head until the end of excavation work. When the stirring rod is lifted up after the excavation work is completed, the ground continuous soil is continuously mixed by stirring with the stirring blade while supplying the cement mortar equivalent to the amount of soil discharged by the screw during the excavation work from the middle of the stirring rod. Underground continuous wall sphere using rotator, characterized in that the building wall Axis method. The method of claim 1, wherein the agitating rod equipped with the discharge device is attached to a screwless connection blade to supply cement mortar when the stirring rod is raised after completion of the excavation operation. Method for constructing a continuous underground wall using a rotator characterized in that the cement mortar is stirred and mixed with the soil while raising the cement mortar discharged from the middle portion of the stirring rod through the discharge device. Coupling the rotator to the existing Oga drive unit above the reader, and attaching the stirring rod with agitating blades to the bottom side of the screwless connection rod assembled to the output connections of the rotator. In the underground continuous wall construction device is to discharge the cement mortar through the installed Oga head while lowering the excavation operation and stirring operation, connecting and assembling the connection rod with a screw to at least one output connection of the rotator In the middle of each of the stirring rods attached to the bottom of the connecting rod is equipped with a discharge device to discharge a portion of the excavated earth and sand as a screw of the stirring rod without supplying the cement mortar to the drilling hole at the beginning of the excavation operation Composition; Before reaching the end of the excavation operation, the cement mortar is supplied through the Oga head to be stirred with the soil. Then, when the connecting rod and the stirring rod are operated up after the completion of the excavation operation, the intermediate part of the connecting rod is discharged through the discharge device. And discharging the cement mortar in the mixture so that the cement mortar discharged while the stirring blades in the lower portion of the discharge device rises and is mixed with the earth and sand; The continuous continuous wall building apparatus using a rotator, characterized in that evenly mixed with the earth and sand in the excavation hole without discharging the cement mortar, which is supplied supplemented by the amount of soil discharged by the screw. According to claim 3, The discharge device mounted to the middle portion of the stirring rod, the supply passage and the insert is formed with a branch passage branched to both ends thereof; A discharge hole and an induction passage selectively matched with the supply passage are formed separately, and the induction passage is configured by a combination of a ruler connected to one discharge passage, and is supplied into the stirring rod during the stirring rod lowering operation. Cement mortar or air is discharged to the orga head via the induction passage and the discharge passage through the supply passage of the insert, and when the stirring rod ascending operation, the cement mortar or air is discharged directly to the discharge hole through the supply passage. Underground continuous wall construction device using a rotator characterized in that. According to claim 3, wherein the insertion groove is inserted into the main body of the discharge device to form a binding groove of the insert which is bound by the binding pin vertically long in the stirring rod lowering operation, the insert is lowered when the binding pin is the upper end of the binding groove. It is configured so that the branch passage of the supply passage coincides with the induction passage, and on the contrary, during the ascending operation of the stirring rod, the anchor member is lowered by the weight of the hanging member and the assembled one, and the binding pin is caught by the lower end of the binding groove. The underground continuous wall construction apparatus using a rotator, characterized in that the branch passage is configured to match the discharge hole.