KR200390760Y1 - Wall in series constructing device for damming water - Google Patents

Abstract

The present invention relates to a construction device for constructing a continuous wall of underground water barriers on a mound stack and a soft ground where a lot of stones or gravel is distributed or a rock layer, and the reciprocating movement is performed up and down by a leader installed vertically on the ground. An auger device that is installed to be possible, a three-axis gearbox that receives rotational force from the auger device, a plurality of connecting rods connected to and rotated to a plurality of output shafts formed under the three-axis gearbox, and each of the connecting rods In the underground water film continuous wall construction apparatus having a plurality of stirring rods connected to the lower end of the agitated excavated soil, and a plurality of excavating rods attached to the lower end of each stirring rod to excavate the ground,

Known excavation rods are mounted at the bottom of each of the stirring rods on the left and right sides of the three-axis stirring rods that are rotated by receiving the rotational force from the three-axis gearbox, and the intermediate stirring is provided between the stirring rods on both sides. The lower end of the rod is designed to be characterized by a hammer drill that breaks rocks and gravel or rock layers.

Description

Wall in series constructing device for damming water}

The present invention relates to a construction device for building a continuous wall of underground water barriers on the banks and the soft ground to block the leakage of the banks or to block the sewage and wastewater in the ground.

In general, in order to block the leakage of the dike or to prevent the sewage and wastewater that has leaked into the ground, a continuous wall of water is constructed in the dike or in the ground. Cement paste while discharging cement paste to the excavated soil by excavating the ground by rotating the excavation rod by rotating the excavation rod with an auger machine and a rotating rotator which receives the rotational power of the auger. Mixing and stirring the earth and sand to form a continuous wall of water film.

In the prior art, to improve the soft ground or to build a continuous wall of underground water barriers, a three-axis connecting rod is connected to a three-axis rotator receiving rotational force from the auger, and the lowermost side of the three-axis connecting rods is shown in FIG. 10. As it is connected to the three-axis excavation rod (100,200,300) by excavating the ground while mixing the cement pool to excavate the ground to form a structure of continuous wall of water film, the excavation rod (100,200,300) respectively In order to prevent the auger heads 110, 210, and 310 to which the plurality of drilling bits 400 are attached to each other do not collide with each other, the middle side drilling rod 200 has a shorter length than both side drilling rods 100 and 300, and thus the middle side drilling rod 200. Auger head 210 mounted at the bottom of the auger head (110,310) mounted at the bottom of each of the two excavation rod (100,300) during rotation operation It is possible to excavate the ground without crashing into).

However, the prior art as described above has been pointed out that the unexcavated portion (P) is generated under the auger head 210 of the intermediate side drilling rod 200 having a shorter length than the two side drilling rods (100,300).

Therefore, the applicant has proposed a patent 451962 (hereinafter referred to as the invention patent) in order to solve the disadvantage that the unexcavated portion (P) occurs as described above.

The invention patent described above does not excavate in the lump state of the soil excavated by simultaneously supplying the pneumatic pressure with cement paste to the excavated soil, while preventing the undigging portion (P) does not occur under the auger head of the intermediate drilling rod as in the prior art It is advantageous to build a continuous wall with strength by design while allowing the mixing and stirring with the cement paste to be well done without being chipped finely.

However, the prior art or the invention patent is the excavation work is possible in the case of a soft soil layer that can be excavated by the operation of rotating the excavation bit mounted to protrude downward on the auger head to build a continuous wall of underground water barrier However, it is pointed out that the excavation work is not possible when the ground to be excavated is formed of stones, gravel or rock layers.

Because the drilling bit protruding from the auger head has an excellent advantage in drilling soft soil layers, while it is not suitable for digging rocks or gravel layers, it is not only able to excavate rocks by breaking rocks, And the gravel causes an overload in the rotational operation of the excavating rod, which may cause problems in the whole construction device.

The present invention, in consideration of the above-mentioned matters appearing in the prior art, finely breaks rocks, awareness, and rock layers in the ground and mounds, which are formed of many layers of stones or gravel, or are formed of hard or rock layers. It was designed to provide a factory for constructing a continuous wall of underground water barriers by mixing and stirring broken stones, soil and cement paste.

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

Auger device that is installed to reciprocate up and down in a leader installed vertically on the ground, a three-axis gear box receiving the rotational force from the auger device, and connected to a plurality of output shaft formed in the lower portion of the three-axis gear box And a plurality of connecting rods rotating, a plurality of stirring rods connected to the lower ends of the respective connecting rods to agitate the excavated soil, and a plurality of drilling rods mounted on the lower ends of the respective stirring rods to excavate the ground. In the underground water barrier continuous wall construction device,

Known excavation rods are mounted at the bottom of each of the stirring rods on the left and right sides of the three-axis stirring rods that are rotated by receiving the rotational force from the three-axis gearbox, and the intermediate stirring is provided between the stirring rods on both sides. The lower end of the rod is characterized in that the hammer drill to break the rock and gravel or rock layers.

In addition, the hammer drill is a one-step male joint coupled to the small diameter female joint formed at the lower end of the intermediate stirring rod on the top, and the stirring hammer is assembled in the wrapped state of the hammer drill directly under the one-stage male joint Characterized in that the two-stage male joint is formed to couple the large diameter female joint formed on the top of the case.

In addition, the intermediate connecting rods installed in the middle of the three connecting rods are formed with a diameter larger than the diameters of the left and right connecting rods so as to have strength to withstand the hammering operation. It features.

In addition, the middle stirring rod installed in the middle of the three-axis stirring rod is formed with a diameter larger than the diameter of the left and right sides of the stirring rod in order to have a strength that can withstand the hammering operation of the hammer drill It features.

In addition, the upper and lower band fastening portion formed at the upper and lower ends of the middle side stirring rod is smaller than the diameter of the middle side stirring rod itself, in order to reduce the volume of the upper and lower fastening bands and is different from the diameters of the left and right side stirring rods. It is characterized by being formed to have approximately the same diameter.

Embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a front view and a side view of an embodiment for explaining the present invention, Figure 3 is an enlarged front view to show the assembling state and operating state of both the drilling rod and the hammer drill of the construction device of the present invention, 4 is an exploded view showing the assembled state of the hammer drill and the stirring hammer case which is the main part of the present invention, Figure 5 is a cross-sectional view taken along line AA of Figure 4, Figure 6 is a cross-sectional view taken along line BB of Figure 4, Assembled sectional view of the hammer drill and the stirring hammer case of the subject innovation, Figure 8 is a layout view for comparing the diameter of the three-axis stirring rod of the subject innovation, Figure 9 is a comparison of the diameter of the triaxial connecting rod of the subject innovation It shows the arrangement state for.

1 and 2 are views showing the installation state of the construction device for constructing the continuous wall of the underground water barrier, the front end support arm 11 of the crawler crane 1 on the ground and the stay 12 in the rear The leader 2 is fixedly installed vertically, and the auger device 3 is installed on the reader 2 so as to be movable up and down, and a three-axis gearbox is provided below the auger device 3. (4) is provided, the three-axis gear box (4) has three output shafts (41, 42, 43) that is deceleratingly rotated by receiving a rotational force from the auger device (3) protruding downward.

Three connecting shafts 5a, 5b, and 5c are connected to each of the three output shafts formed at the lower portion of the three-axis gearbox 4, and each of the three-axis connecting rods is stepped one by one according to the drilling depth. Assembled to extend the length.

And as described above, the lowermost end of each of the three-axis connecting rods 5a, 5b, 5c extending to be installed as a plurality of three-axis stirring rods (6a, 6b, 6c) is connected, and also the female joint at the lower end of each of the three-axis stirring rod (61,62,63) are formed, and the female joint (61,62) formed at the lower end of each of the stirring rods (6a, 6b) of the left and right sides of the above-described three-axis stirring rods, the two-axis drilling rod ( 7a) and 7b are mounted, the lower end of the intermediate stirring rod 6c is equipped with a hammer drill 8 (see FIG. 3), and performs a blow operation up and down at the lower end of the hammer drill 8. Strike head (8a) is installed so as to strike a stone or gravel or rock layer at a position slightly lower than the lower end of each of the left and right drilling rods (7a, 7b). Therefore, the excavation bits 71 and 72 formed at the lower ends of the excavation rods 7a and 7b on both sides are used to excavate at least the crushed stones broken by the striking head 8a together with the soil without directly excavating the rock layer.

4 is an exploded view for illustrating the assembly structure of the hammer drill 8, wherein the upper and lower two-stage water joints 81 and 82 are formed on the upper and lower two-stages of the hammer drill 8, respectively. There is a two-stage male joint 82 is assembled with a large diameter female joint 84 formed on the upper end of the stirring hammer case 83 assembled to surround the hammer drill 8, the first stage The male joint 81 is inserted and assembled into the female joint 63 formed at the lower end of the intermediate stirring rod 6c. The one-stage male joint 81 is assembled to the female joint 63 and then joined by a coupling pin. When the first stage joint 81 and the female joint 63 are combined, the hammer drill 8 is mounted on the lower end of the intermediate stirring rod 6c.

On the other hand, each of the three-axis stirring rod (6a, 6b, 6c) is a screw-shaped stirring blade and a rod-shaped stirring blade is formed alternately up and down, and the left and right drilling rods (7a, 7b) on both sides Each of the hammer case 83 for stirring is provided with a rod-shaped stirring blade.

And the upper left and right sides of the three-axis gear box (4) is provided with a swivel for supplying a cement pool to supply cement paste to the excavating rod (7a, 7b) on both left and right sides, the middle side of the upper end A pneumatic swivel for supplying air to the hammer drill 8 is installed.

The hammer drill (8) is to reciprocate the striking head (8a) up and down by the supplied pneumatic pressure, when the striking head (8a) is lowered to strike the stone, gravel or rock layer to rise and then rise Pneumatic is discharged, and the discharged pneumatic pressure pushes the broken crushed stone out of the hitting head (8a) and at the same time mixes the cement paste discharged from the excavating rods (7a, 7b) on both sides and the excavated excavation soil evenly. do.

In addition, the hammer drill 8 has a larger diameter than the excavation rods 7a and 7b on both the left and right sides because it has to have a strong hitting force because it must break a stone, gravel or rock layer, and also hits the hammer drill 8. As the impact of the head 8a is stronger, the impact vibration that is generated as a reaction is also very strong, so that the middle side stirring rod 6c and the middle side connecting rod 5c to which the hammer drill 8 is connected are hammer drill 8. It must have strength to withstand the striking vibration of). Therefore, in the present invention, the diameter φ ₂ of each of the intermediate connecting rod 5c and the intermediate stirring rod 6c is defined by the connecting rods 5a and 5b and the stirring rods 6a and 6b of both left and right sides. As a means for forming a diameter larger than the diameter φ ₁ to sufficiently withstand the impact vibration of the hammer drill (8).

For example, assuming that the diameters φ ₁ of each of the connecting rods 5a and 5b and the stirring rods 6a and 6b and the excavating rods 7a and 7b on both the left and right sides are about 216 mm, respectively, The diameter φ ₂ of the connecting rod 5c and the stirring rod 6c is formed to be about 273 mm.

The side of the large diameter intermediate the stirring rod (6c) of the (φ ₂₎ as described above, the image formed on the lower side, the lower band fastening portion (64,65) than the diameter (φ ₂₎ of the stirring rod (6c) Small and left and right sides were formed to have the same diameter as the diameter φ ₁ of the stirring rods 6a and 6b (see FIG. 8). The reason is that when the outer diameter of the upper and lower band fastening portions 64 and 65 is formed to have a large outer diameter such as the intermediate stirring rod 6c, the upper and lower bands of the respective stirring rods 6a, 6b and 6c are formed. The middle part of the upper and lower fastening bands 9a and 9b for holding the lower part together, that is, the diameter of the middle part holding the middle stirring rod 6c having a large diameter also becomes large, and thus the upper and lower fastening bands ( 64,65) because the volume is increased, the resistance is increased during the stirring operation may cause the phenomenon that each of the stirring rods are bent or broken. Therefore, in the present invention, in order to prevent such a phenomenon from occurring in advance, upper and lower band fastening portions 64 and 65 were formed to have small diameters such as stirring rods 6a and 6b on both sides.

The operation of the present invention configured as described above will be described.

When the auger device 3 is driven when excavating a rock or gravel ground or a rock layer, a three-axis connecting rod connected to each output shaft 41, 42, 43 of the 3-axis gearbox 4 5a, 5b, and 5c are rotated, wherein the intermediate connecting rod 5c rotates in the forward direction, while the left and right connecting rods 5a and 5b are rotated in the reverse direction. Triaxial stirring rods 6a, 6b, and 6c, which are connected to the lower end of the connecting rod of the shaft, are also in the forward and reverse directions. The hammer drill 8 mounted at the lower end of the intermediate stirring rod 6c is hitted. Pneumatic pressure discharged while breaking and breaking the stone, gravel or rock layer while reciprocating the head 8a up and down, pushes the broken crushed stone to the outside of the striking head (8a), stirring rods (6a) on both sides 6b) the two drilling rods 7a, 7b mounted on each side Excavating the crushed stone pushed out of the hitting head (8a) in the broken state by the reel (8), both excavation rods (7a, 7b) are excavated even if the rock or gravel is scattered a lot in the strata It will work smoothly.

And the middle side stirring rod 6c and the middle side connecting rod 5c on which the hammer drill 8 is mounted have diameters of the left and right side stirring rods 6a and 6b and the connecting rods 5a and 5b. It is formed with a diameter (φ ₂ ) larger than φ ₁ ) and has a strength that can withstand the impact shock caused by the hammering operation of the hammer drill (8), so that the hammer drill (8) has a strong impact force of stone or gravel or It will break the rock.

On the other hand, the pneumatic pressure discharged from the bottom of the hammer drill 8 and the impact head (8a) after the striking head (8a) of the hammer drill (8) acts to push broken drilling stones ( It is discharged toward the soil excavated by the excavation bits (71, 72) of 7a, 7b to destroy the cohesive force of the soil and the cement pool discharged from the bottom of the soil and crushed stone and the excavating rod (7a, 7b) can be mixed well Since the cement paste is evenly mixed and agitated, the underground water film having the strength according to the design can form a continuous wall.

According to the present invention as described above, assembling and assembling the three-axis connecting rod and the stirring rod to the three-axis gearbox in turn, and assembling the drilling rod to the three-axis stirring rod, the excavation rod on both sides of the left and right as in the prior art If the rod is mounted and the middle stirring rod is equipped with a hammer drill, the hammer drill mounted on the middle stirring rod may be a stone or gravel, even if a small stone, gravel or rock layer is formed in the bank or ground to be excavated. After breaking the rock layer, the excavating rods on both the right and left sides excavate the strata with the broken crushed stones, thus providing the effect of excavation of the ground formed of rock or gravel or rock layer, and also the hammer drill By expelling the pneumatics used to break the rock bed, the broken crushed stones can be quickly moved out of the striking head. At the same time, the cohesive force of the excavated excavated soil is destroyed by both excavating rods, so that the cement grass discharged from both excavating rods is evenly mixed with the soil and the crushed stone. It is a useful design that has the advantage of allowing the underground water film having a strength by design in the embankment or soft ground formed thereon to form a continuous wall.

1 and 2 are a front view and a side view of an embodiment for explaining the present invention.

Figure 3 is an enlarged front view to show the assembling state and the operating state of both the drilling rod and the hammer drill of the construction device of the present invention.

Figure 4 is an exploded view showing the assembled state of the hammer drill and stirring hammer case which is the main part of the present invention.

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

6 is a cross-sectional view taken along the line B-B in FIG. 4.

Figure 7 is a cross-sectional view of the hammer drill and stirring hammer case of the present invention.

8 is a layout view for comparing the diameter of the triaxial stirring rod of the present invention.

9 is a layout view for comparing the diameter of the triaxial connecting rod of the present invention.

10 is an operating state of the three-axis drilling rod of the prior art.

※ Explanation of code for main part of drawing

1: crawler crane 2: leader

3: auger device 4: 3-axis gearbox

41, 42, 43: output shaft 5a, 5b, 5c: connecting rod

6a, 6b, 6c: Stirring rod 61, 62, 63: Female joint

64,65: upper and lower band fastening parts 7a, 7b: excavating rod

71,72: Drilling Bit 8: Hammer Drill

81: 1st stage water joint 82: 2nd stage water joint

83: stirring hammer case 84: large diameter female joint

9a, 9b: Upper and lower fastening band

Claims (4)

Auger device that is installed to reciprocate up and down in a leader installed vertically on the ground, a three-axis gear box receiving the rotational force from the auger device, and connected to a plurality of output shaft formed in the lower portion of the three-axis gear box And a plurality of connecting rods rotating, a plurality of stirring rods connected to the lower ends of the respective connecting rods to agitate the excavated soil, and a plurality of drilling rods mounted on the lower ends of the respective stirring rods to excavate the ground. In the underground water barrier continuous wall construction device, Known excavation rods are mounted at the bottom of each of the stirring rods on the left and right sides of the three-axis stirring rods that are rotated by receiving the rotational force from the three-axis gearbox, and the intermediate stirring is provided between the stirring rods on both sides. At the bottom of the rod is a continuous wall construction device for embankment and soft ground underground water barrier, characterized in that the hammer drill to break stones and gravel or rock layers is mounted. The method of claim 1, The hammer drill is a first stage water joint coupled to the small diameter female joint formed at the lower end of the intermediate stirring rod on the top, and the stirring hammer case is assembled in the wrapped state of the hammer drill directly under the first stage water joint Dive stacks and soft ground underground water barrier continuous wall construction device characterized in that the two-stage male joint is formed to combine the large diameter female joint formed on the top. The method of claim 1, Among the three-axis connecting rods and stirring rods, each of the intermediate connecting rods and the intermediate stirring rods, which are installed in the middle, has a strength that can withstand the hammering operation of the hammer drill. Embankment stack and soft ground underground water film continuous wall construction device, characterized in that formed in a diameter larger than the diameter of. The method according to claim 1 or 3, The upper and lower band fastening portions formed at the upper and lower ends of the middle side stirring rod are smaller than the diameter of the middle side stirring rod itself in order to reduce the volume of the upper and lower fastening bands, and are almost equal to the diameters of the left and right side stirring rods. Dive stacks and soft ground underground water film continuous wall construction device characterized in that it has a diameter.