KR970002570B1 - Drilling machine and drilling method of shaft - Google Patents

Abstract

A conical piece(11) is attached on the top part of the pile venting pipe(1) to guide the punched remains to be flowed into the lower part of the pile venting pipe. Further on the lower part of this conical piece(12), the top part is fixed, having the plural arms(12) arranged in the part where the circumference of the pile venting pipe(1) is equally divided, thereby the plural cutters(14) from the fixed bracket(13) are installed to be capable of being folded by the pivot(15).

Description

Expansion method and device of vertical shaft

1 is a perspective view of the expansion device.

2 is a cross-sectional view of the state in which the tip of the column discharge pipe is fitted into the wedge cylinder.

3 is an illustration of a vertical shaft drilling operation.

4 to 7 is an expansion work flow chart.

8 to 10 is a construction work flow chart of the tip bearing capacity strengthening.

* Explanation of symbols for main parts of the drawings

1: column discharge pipe 2: rock crushing device

3: nettle 11: hat

12: arm 13: bracket

14: cutter 15: pivot

16: protrusion 17: air supply pipe

31: inward jaw 32: projection groove

33: protrusion hanger

The present invention relates to a method and a device for expanding a pit of a vertical drilling shaft, and more particularly, to a method and a device for expanding a vertical shaft of a vertical shaft, which is capable of promptly carrying out necessary work by selectively installing a vertical shaft drilling device and an expansion plant at the tip of a functional discharge pipe. will be.

In deep-flowing, deep-flowing grounds, and in the construction of unsupported reversal structures, the extremely large tip bearing capacity and the piercing conditions of the large-diameter on-site casting piles, which are excellent for buckling, are due to the hard rock layers, such as hard rock, that is hard rock. Tofu has a large tip area at the bottom of the pit that has been drilled in the cavities, and the upper part requires the use of an economic gang section corresponding to buckling.

In order to secure a larger tip area in the hard rock layer with impact drilling equipment, the same cross-sectional area is pushed into the hammer grab by pressing the upper soft layer into the collapse-proof steel pipe from the beginning, and the lower rock layer is rotated by the rotary lock bit. Perforation method to shave was until now myth. The deep-depth gang of this method is a big problem in the cost of drilling and long-term air.

In addition, the rock hammer bit is discharged to the ground by using extruded air after drilling a large diameter gang or expanding and drilling a large diameter gang and drilling a large diameter steel pipe. While still staying in the bottom of the steel pipe and the stiffness has been consistently blown into the compressed air and discharged into the remaining space between the steel pipe and the gang.

The problem is that the amount of blown compressed air is enormous because the residue discharge space is too large. This not only resulted in excessive energy consumption, but also caused a great loss of time, and the noise pollution caused by dust pollution was enormous.

Therefore, the present inventors in particular put a method and apparatus that can significantly reduce the time required for compressed air for drilling at the same time, and also in the case of large diameter drilling excavation, and also cast concrete in the gang where the shaft is expanded In constructing piles, we have developed and filed piles that are special for strengthening bearing capacity as force in enlarged gang floors while using piles as vertical steels.

This prior art is the impact drilling method using the compressed air, the large diameter gang end expansion cloth factory selects the economically appropriate cross-sectional area corresponding to the upper buckling, presses the steel pipe for preventing the collapse of the soft ground, and compressed air impact crushing After drilling and drilling the drill to the predetermined depth with the drill, the drill rod of the rock impact crusher is raised to the predetermined height, and the second expansion work is additionally performed.Then, the crusher drill is secured. In the state of staying in the crushing the top of the shaft, leaving only a small diameter discharge port, the compressed air amount, such as when the rock crushing puncture can be discharged in a short time in the same time and less compressed air at the same time.

In addition, the pile is particularly suitable for the expanded gangbang, a plurality of wings that are installed horizontally or near the horizontal by drilling a long hole at the end of the joint of the H-pile and installing a lifting wedge thereon, and a synergistic action of the wedge above the long hole. The bearing capacity of the pile can also be strengthened by pivoting so that the wing can exert its full ground plane for the concrete cast in the shaft.

However, in the above-described invention of the applicant, the driving device for opening and retracting the cutter of the expansion device is a hydraulic cylinder, and this alone complicates the structure of the expansion device. It is economical.

The present invention solves the advantages. In the present invention, at the distal end of the column discharge pipe to blow the compressed air to the bottom of the gangbang when the discharge of the drilling residues, the hatch and folding cutter and rock-cracking device mounting bracket for inducing the entire hydraulic pressure to the bottom of the column discharge pipe There is a separate protrusion at the bottom of the column discharge pipe, which is fixedly mounted. It also includes a separate wedge tube.

Therefore, when drilling the vertical shaft, the rock crusher device is mounted on the bracket of the column discharge pipe, and only the excavation is carried out. After the vertical shaft has been excavated to the design depth, the rock crusher is taken out to the ground and removed, and then the column is ejected. Insert the wedge tube at the bottom of the tube, and the projection of the column discharge pipe to prevent the upper jaw of the inner surface of the wedge cylinder is caught, and then lowered to the bottom of the shaft while rotating the column discharge pipe to spread the work to expand.

After finishing the expansion work, lower the wedge from the tip of the column discharge pipe, fold the cutter to the threshold value, lift it to the ground, put the pile with the wings spread by the wedge into the vertical shaft, and then spread the wings and cast concrete. It is to strengthen the tip bearing capacity of the piles in the bottom.

EMBODIMENT OF THE INVENTION Hereinafter, the Example of this invention is described concretely.

In FIG. 1, the hatshade 11 which guides the perforated residue to flow into the lower end of the column discharge pipe 1 is attached to the distal end of the column discharge pipe 1, and the hatshade 11 has an arm (on the bottom). The top of 12) is fixed. These several arms 12 are radially arrange | positioned in the equal division of the circumference of the column discharge pipe 1. These arms 12 are for suspending the known impact rock crushing device 2 and have elements such as ball holes required for mounting the rock crushing device 2.

A plurality of cutters 14 are foldable by the pivots 15 in the brackets 13 which are also radially arranged and fixed directly below the hatch 11 in the column discharge pipe 1. These folding cutters 14 are widened when the gang of the vertical shaft is expanded, and are retracted after expansion so that they can be lifted to the ground without touching the gang wall above the shaft, and the artificial diamond bits are totally embedded on the surface. have.

In addition, a plurality of outward projections 16 protrude from the tip outer peripheral surface of the column discharge pipe 1. These protrusions 16 are used to hang the wedge tube 3 fitted to the tip of the column discharge pipe 1 so as not to fall out.

In addition, the wedge cylinder 3 serves to extend and fold the cutter 14. The upper end of the wedge (3) has an inward jaw (31), to form a projection groove 32 in the same position and the same position as the projection (16) to form a wedge at the tip of the column discharge pipe (1) 3) Allow the protrusion (16) to slide in and out.

A protruding hook 33 is also formed near the bottom of the inner circumferential surface of the wedge tube 3. The protrusion hanger 33 is for locking the protrusion 16 of the pillar discharge pipe 1, the locking direction is the excavation direction of the cutter 14, the unlocking direction for the projection 16 is the excavation direction The opposite is true.

2 is a state in which the wedge cylinder 3 is inserted and locked at the tip of the column discharge pipe 1, first, the projection 16 is fitted to the projection groove 32, and then slightly twisted to one side and left as it is. (3) sags down because of its own weight. Then, since the inward jaw 31 is caught by the projection 16, it does not fall down.

Thereafter, the pillar discharge pipe 1 is lowered as it is and then twisted in the direction of the arrow D. The protrusion 16 is caught by the protrusion hanger 33. When the column discharge pipe 1 is rotated in the direction to expand the work, this state is maintained even when the column discharge pipe 1 is lifted while the expansion work is performed. Therefore, even when the expansion work is finished, the cutter 14 maintains the open position and finishes the predetermined expansion work.

3 is a view showing a state when drilling the vertical shaft by mounting the rock crushing device (2) at the tip of the arm (12) of the column discharge pipe (1). The rock crushing device 2 is attached to the arm 12. At this time, the wedge cylinder 3 is in the air on the ground.

While the vertical shaft is being drilled, compressed air sent from the ground to the air supply pipe 17 is blown out by a hole drilled in the center of the rock crushing device 2. The perforated residues floating by the compressed air are gathered into the hatshade 11 through the space remaining between the inner circumferential surface of the vertical shaft a and the outer circumferential surface of the rock crushing device 2, and the hatshade 11 discharges the puncture residues from the column. Guides to the bottom of the pipe (1) to help discharge to the ground,

4, the vertical shaft is drilled to the design depth in the above-described manner, and then the column discharge pipe 1 is lifted to the ground and lowered to the magnetic surface from which the rock crushing device 2 is removed from the arm 12, and the column discharge pipe 1 The bottom of the wedge (3) is sandwiched between the situation that shows the situation.

Since the opening radius of the cutter 14 is much larger than that of the vertical shaft a, the cutter 14 cannot be inserted into the vertical shaft. Therefore, the wedge (3) must fold the cutter (14) when lowered. Folding the cutter 14 is simple. That is, when placing the wedge cylinder 3 under the lower end of the column discharge pipe 1 raised to the ground and fitting the projection groove 32 to the projection 16, the cutter 14 is the upper edge of the wedge cylinder (3) It's a little bit open by itself. Then, after the projection 16 crawled into the projection groove 32, the pillar discharging pipe 1 or the wedge tube 3 was slightly twisted to one side, so that the inward jaw 31 was caught on the projection 16. Later, when released from the wedge (3) sag down because of its own weight. At this time, the cutter 14, which has slightly opened, is retracted.

In this way, if the column discharge pipe (1) is lowered in the vertical shaft, the wedge cylinder (3) will not go down any more when the bottom touches the bottom of the shaft, but the column discharge pipe (1) will have its wedge ( Try to go a little further until it reaches the bottom of the inner surface of 3). At this time, the cutter 14 is about to open. When the column discharge pipe 1 is turned in the expansion work direction in this state, the gang wall near the bottom of the gang is reduced by the cutter 14 and gradually widens, and the angle of deployment of the cutter 14 is gradually increased.

When the angle of deployment of the cutter 14 reaches its maximum, the tip of the column discharge pipe 1 touches the bottom of the wedge tube 3. At this time, the protrusion 16 is folded into the protrusion hanger 33 of the wedge cylinder 3 as the column discharge pipe 1 continues to rotate in the expanding operation direction.

After changing to this state, the wedge cylinder 3 will inevitably follow the column discharge pipe 1. Therefore, from this time, even when the column discharge pipe 1 is raised, the cutter 14 can be rotated in a fully open position to cut the gang wall (FIG. 6).

After completion of the expansion work on the gang wall of the bottom of the shaft, the column discharge pipe 1 is lowered to the bottom again, and the column discharge pipe 1 is slightly turned in the opposite direction. The projection 16 then comes out of the keyway 33. Then, when lifting the column discharge pipe (1), the wedge cylinder (3) sags downward due to its own weight, the inward jaw (31) is caught on the projection (16) and the cutter (14) retracts before the expansion work. . Thus, the narrow tunnel is smoothly exited.

On the other hand, during the excavation work and the expansion work of the vertical shaft (Figs. 3 to 7), the shaft is disintegrated with the shaft sealing device 4 except for the supply pipe 17 of the column discharge pipe 1. do. In this way, the discharge pressure of the compressed air discharged through the rock crushing device 2 can be prevented from being lowered, and the drilled residue can be efficiently discharged through the column discharge pipe 1 having a smaller diameter.

The shaft sealing device 4 comprises, for example, a substrate 41, a rotating plate 42, and a tube 43. Insert the column discharge pipe 1 into the hole drilled in the center of the substrate 41 so as not to hinder its rotation, and seal it in the hole so that the compressed air in the shaft below the substrate 41 is completely sealed. . The rotating plate 42 is mounted on the substrate 41 to serve as a branch of the column discharge pipe 1 on the non-rotating substrate 41.

In addition, the tube 43 is arranged to seal the shaft sealing device 4 in the shaft, and is easy to withdraw from the shaft after the work is finished, and also the periphery of the substrate 41 to enhance the adhesion with the shaft inner surface. Attached to the shaft, the air is injected and inflated after being installed in the shaft to seal the shaft, the air is removed from the tube 43, and then loosened, and then removed from the shaft, the installation and removal work is easier. In addition, the seal member has a structure capable of rotating and shangdong of the column discharge pipe (1) to rotate by applying the lubricating oil packing-flange fastening method.

8 to 10 show a scene in which a steel pile is put into a steel shaft and the concrete is poured. The pile 5 drills the long holes 52 at the top and bottom of the joints 21 of the steel pile, and opposes the variable wedges 53 on opposite sides of these long holes 52 so as to oppose each other. ) Is inserted into the wedge plate so as to penetrate the long hole 52, and the end is fixed by coating or the like, and the bracket 56 attached to the upper portion of the wedge 53 has a wing 55 subordinate to the wedge 53. At the same time pivot support, the flat base surface of the bracket 56 serves as a stopper to limit the spread angle of the wing 55 to the horizontal level.

If the pile 5 is placed vertically in the air, it is as shown in FIG. That is, the wedge 53 sags downward because of its weight. Thus, the wings 55 are also independent of the wedge 53 and are also folded down because of their weight. Then, if the lower end of the wedge 53 reaches the bottom of the shaft, it does not go down any more, but the pile 5 goes down by the allowance of the long hole 52 to reach the bottom of the shaft. At this time, the wings 55 are widened by the action of the wedge 53 which is upside down or no different (FIG. 9).

Thus wide wings (55) acts as a transverse steel for the concrete (6) that is later placed in the vertical shaft, and the pile (5) acts as a longitudinal reinforcement to further strengthen the tip strength of the pile of the expanded vertical shaft Will be given.

In summary, the present invention relates to a method and apparatus for efficiently ejecting punched residues by injecting compressed air into a large-diameter gang having a deep depth and punching it through a shock and then leading to a recovery path. In order to carry out simple drilling by installing the device, and to expand the drilled hole, lift the impact rock crushing device to the ground and detach it. Then, assemble the wedge for folding the cutter of the expansion device and drop it on the vertical shaft. As the expansion work is carried out while removing the rock shredding device that adds only unnecessary load during the ascending and expanding work, there is less mechanical flock in the column discharge pipe and the work can be progressed more quickly and lightly. As the rotational load of the motor is greatly reduced, the power used for the motor for column discharge pipe is also greatly reduced. come.

Claims (3)

A hatshade for guiding puncture residue discharge induction at the distal end of the column discharge pipe 1, which is rotatable in the excavation direction and the reverse direction, and is provided with an air supply pipe 17 for supplying compressed air from the ground to the rock crushing device 2. 11) is attached and the folding type cutter 14 for expansion is installed directly under the hatshade 11, and the wedge tube 3 for folding the cutter 14 is placed on the outer peripheral surface of the distal end of the column discharge pipe 1. At the same time, a plurality of arms 12 for hanging the rock crushing device 2 are attached to the bottom of the hatshade 11 while providing a plurality of projections 16 to be fitted therein. Vertical shaft expansion device that combines the wedge (3) to the tip to expand and collapse the gangster expansion cutter (14). The wedge tube (3) according to claim 1, wherein the wedge (3) has a projection groove (32) for clamping the projection (16) of the column discharge pipe (1) on the inwardly facing jaw (31) of the upper end, and also has an inner peripheral surface bottom. The vertical gang expansion device is formed in the vicinity of the projection 16 is formed by locking the projection hook to be locked down. When drilling and expanding the vertical shaft, the shaft is disintegrated to block the pressure leakage in the shaft, and the compressed air injected into the shaft flows into the bottom of the column discharge pipe together with the puncture residue and discharges it to the ground. The arm crushing device is installed on the tip arm of the column discharge pipe equipped with a folding expansion cutter in the hole, and after drilling the vertical shaft, the rock crushing device is lifted down to the ground and the cutter folding wedge is placed on the tip of the column discharge pipe. A method of expanding a vertical shaft, comprising assembling and lowering the shaft to the design, and then lowering the shaft to the ground and folding the cutter.