KR101729989B1 - the method of water-proofing and reinforcing of ground - Google Patents

Abstract

The present invention relates to a new method of reinforcing ground water-proofing, which can reinforce the ground while effectively performing water-proofing. According to the present invention, in a method of reinforcing ground water-proofing, after an insertion hole (2) is formed in a cut surface (1), high pressure urethane (3) is injected into the inside of the insertion hole (2) to harden the ground for water-proofing. Therefore, a portion in which underground water leaks can be effectively water-proofed. Moreover, as the urethane (3) is introduced into the inside of a crack connected to the insertion hole (2), a space portion, or the inside of a hole in addition to the inside of the insertion hole (2) to seal the ground, water-proofing can be more effectively performed. At the same time, the ground can be reinforced by the urethane (3).

Description

The method of water-proofing and reinforcing of ground,

The present invention relates to a new geotechnical reinforcement method which can obtain an effect of reinforcement of the ground while effectively taking orders.

Generally, when constructing a structure such as a building, the foundation must be constructed by excavating the ground.

On the other hand, when excavating the ground in this way, the groundwater is drained from the excavated surface of the excavated ground.

Accordingly, various order methods and construction methods have been developed and widely used as shown in many prior documents including those of Japanese Patent No. 10-1067707 and Japanese Patent No. 10-1076823.

On the other hand, even when the incision surface is formed by using such a method, a portion in which the groundwater flows out can not be perfectly formed.

In the meantime, if the groundwater leaking area occurs after the order, the groundwater leaking area should be closed, but the developed method could not effectively prevent the groundwater leaking area. In the past, in the case where the outflow of groundwater occurred at a site where the order was made, a method of discharging the groundwater leaking out by using a pump or the like was inevitably used.

Therefore, there is a need for a new method of solving such problems and effectively preventing the leakage of groundwater.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new geotechnical reinforcement method capable of effectively reinforcing a ground while taking orders effectively.

According to an aspect of the present invention, there is provided a method of manufacturing a metal mold, comprising the steps of: forming an insert hole in a cut surface; inserting a press fit bolt into the insert hole; A caulking step of sealing a gap between the outer circumferential portion of the bolt B and the insertion hole 2 and connecting the urethane injector C to the outer end of the press fitting bolt B, And an injection step of injecting urethane (3) into the insertion hole (2) through the insertion hole (2), wherein the injection bolt (B) has an injection hole (11) penetrating the front and rear ends thereof, The urethane injector C is connected to the injection hole 11 and supplies the urethane 3 to the inside of the injection bolt B through the injection hole 11, Characterized in that the urethane (3) is discharged into the insertion hole (2) through the discharge hole (12) to seal the insertion hole (2) This method is provided.

According to another aspect of the present invention, the outer circumferential surface of the press fitting bolt (B), which is provided on the outer side of the rear end of the press fitting body (20), is in close contact with the inner circumferential surface of the insertion hole (2) Wherein the discharge hole 12 is formed to the front of a position where the sealing member 14 is coupled to the circumferential surface of the press-fitting bolt A A reinforcement method of the ground reinforcement is provided.

According to another aspect of the present invention, the press-fitting bolt (B) includes a press-in hole (11) extending in the front-back direction and having the injection hole (11) formed therein, A tubular body 20 and a fixing mechanism provided at a rear end portion of the press fitting body 20 so that an outer circumferential portion thereof is brought into close contact with an inner circumferential surface of the insertion hole 2 to fix the press fitting tube 20 to the inside of the injection A sealing cap 60 which is coupled to the outside of the press-fitting tube 20 so as to be positioned behind the fixing mechanism 50 and blocks the inlet portion of the insertion hole 2; And a nut member (70) coupled to the outside of the press-fitting tube body (20) so as to be positioned behind the press fitting tube (20).

According to another aspect of the present invention, a threaded portion 22 is formed on the outer peripheral surface of the rear end of the press fitting body 20 and is positioned behind the engaging protrusion 21, ) Is provided with a support ring body (51) coupled to the outer side of the rear end of the press fitting body (20) so as to be engaged with the engagement protrusion (21) A fixing bar 52 formed with a tight contact portion 52a which is in close contact with the inner circumferential surface of the insertion hole 2 and a fixing bar 52 slidable in the front and rear direction on the outer side of the press fitting tube 20, A connecting bar 54 hinged to the outside of the auxiliary ring body 53 at one end and hinged to the intermediate portion of the fixing bar 52 at the other end, Is coupled to the outside of the press-fitting tube body (20) so as to be positioned between the sealing ring (53) and the sealing cap (60) (52) is inserted into the insertion hole (2), the outer end of the fixing bar (52) is inserted into the inner peripheral surface of the insertion hole (2) And the pushing bolt B is inserted into the insertion hole 2 so that the sealing cap 60 is inserted into the mouth portion of the insertion hole 2 and then the nut member 70 is inserted into the insertion hole 2, The fixing bar 52 is rotated outward and brought into close contact with the inner circumferential surface of the insertion hole 2 so that the press fitting tube 20 is inserted into the insertion hole 2, And the sealing cap (60) is brought into close contact with the inlet portion of the insertion hole (2) to seal the insertion hole (2).

According to the present invention, after the insertion hole 2 is formed in the incision surface 1, the high-pressure urethane 3 is injected into the insertion hole 2, , It is advantageous that the portion where the ground water flows out can be effectively treated.

The urethane 3 is introduced not only into the inserting hole 2 but also into a crack or a space or a hole connected to the inserting hole 2 to seal the inserting hole 2 more effectively, (3), the effect of reinforcing the ground can be obtained.

1 to 4 are side cross-sectional views illustrating a method of reinforcing a ground reinforcement according to the present invention,
5 is a side cross-sectional view of a press-fit bolt used in a second embodiment of the method of reinforcing a ground according to the present invention,
6 is a side cross-sectional view showing a second embodiment of a method for reinforcing a ground reinforcement according to the present invention,
FIG. 7 is a side view of a press-fit bolt used in a third embodiment of the method of reinforcing a ground according to the present invention,
FIG. 8 is an enlarged view of a substantial part of a press-fit bolt used in a third embodiment of the method of reinforcing a ground according to the present invention,
9 is a side cross-sectional view illustrating a press-fit bolt used in a third embodiment of the method of reinforcing the ground according to the present invention,
10 is a side cross-sectional view showing a disassembled state of the press-fit bolt used in the third embodiment of the method of reinforcing the ground according to the present invention,
11 and 12 are side cross-sectional views showing a third embodiment of the method of reinforcing a ground according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 illustrate a ground reinforcement method according to the present invention. The method includes a drilling step of forming an insertion hole 2 in the incision surface 1, (C) is connected to an outer end of the press-fit bolt (B), and a step of attaching the urethane injector (C) to the outer end of the press- And an injection step of injecting urethane (3) into the insertion hole (2) through the press-fitting bolt (B).

As shown in FIG. 1, the perforating step is performed by inserting an insert hole (not shown) for inserting the press-fit bolt B into a portion where groundwater flows out from the incision surface 1 by using a perforator A 2).

At this time, the insertion hole 2 is formed so as to extend sufficiently long inside the incision surface 1 through a portion through which the groundwater flows out.

2, after the insertion hole 2 is formed by using the perforator 80, the perforator 80 is removed from the insertion hole 2, and the insertion hole 2 is inserted into the insertion hole 2, And inserting the press-fitting bolt (B).

The press-fit bolt B is formed in a tubular shape extending in forward and backward directions and having an injection hole 11 penetrating the front and rear ends thereof. The circumferential surface of the press-fit bolt B is provided with a plurality of discharge holes (12), and a connection tab (13) to which the urethane injector (C) is connected is provided at a rear end thereof.

3, the caulking step is carried out by inserting the press-fitting bolt B into the insertion hole 2, and then, between the rear end portion of the press-fitting bolt B and the inlet of the insertion hole 2, The step of injecting the caulking material 4 with a separate injector into the gap and curing the calking material 4 may be performed by sealing the gap between the press-fitting bolt B and the insertion hole 2, 3 are prevented from flowing out to the outside of the insertion hole 2.

The caulking material 4 uses foamed urethane or various other kinds of foamable materials.

4, the urethane injector C is connected to the connection tab 13 provided at the rear end of the press-fit bolt B which is inserted into the insertion hole 2 and the peripheral portion thereof is caulked, And then injecting the urethane 3 into the injection hole 11 of the press-fitting bolt B, as shown in FIG.

The urethane injector C is connected to the connection tab 13 of the press-fitting bolt B through a supply pipe 80 and is inserted into the injection hole 11 of the press-fitting bolt B, The urethane 3 injected into the injection hole 11 is supplied to the interior of the insertion hole 2 through the discharge hole 12 and hardened so that the whole of the insertion hole 2 is watertight Lt; / RTI >

The urethane injector C compresses the urethane 3 to a high pressure and supplies the urethane injector C to the press-fitting bolt B so that cracks or other voids or holes through which the groundwater flows in the periphery of the insertion hole 2 are formed , The urethane (3) flows into the crack, the space or the inside of the hole and hardens.

When the urethane 3 is injected into the inserting hole 2 as described above, the urethane injector C can be separated and the construction can be completed.

According to this type of ground reinforcement method, after the insertion hole 2 is formed in the incision surface 1, the high-pressure urethane 3 is injected into the insertion hole 2 to cure it, There is an advantage in that it is possible to effectively take out a region where the liquid is discharged.

The urethane 3 is introduced not only into the inserting hole 2 but also into a crack or a space or a hole connected to the inserting hole 2 to seal the inserting hole 2 more effectively, (3), the effect of reinforcing the ground can be obtained.

In the present embodiment, the caulking step is performed by injecting the caulking material 4 into a gap between the rear end of the press-fit bolt B and the inlet of the insertion hole 2 to cure the caulking material 4, Various methods including a method of attaching a separate stopper or the like to the gap between the rear end portion of the press-fit bolt B and the inlet of the insertion hole 2 can be used.

5 and 6 illustrate another embodiment according to the present invention. The outer circumferential surface of the press fitting bolt B is provided on the outer side of the rear end of the press fitting body 20, and the outer circumferential surface thereof is in close contact with the inner circumferential surface of the insertion hole 2 Is provided.

As shown in FIG. 6, when the press-fitting bolt B is inserted into the insertion hole 2, the circumferential surface of the fitting member 30 is inserted into the insertion hole 2 2 to form a caulking portion 5 on the rear side of the press-fitting tube body 20.

At this time, the discharge hole 12 of the press-fitting bolt B is formed on the circumferential surface of the press-fitting bolt B to the front of the position where the sealing member 14 is engaged.

6, the press fitting bolt B is inserted into the insertion hole 2, and the caulking material 4 is inserted into the gap between the press fitting bolt B and the insertion hole 2, The caulking material 4 is injected only into the caulking portion 5 formed by the sealing member 14 and is not filled in front of the sealing member 14. [

According to such a ground reinforcement method, when the caulking material 4 is injected into the gap between the press-fitting bolt B and the insertion hole 2, the caulking portion 5 formed at the rear of the sealing member 14, The caulking material 4 injected into the space between the press-fit bolt B and the insertion hole 2 flows backward through the discharge hole 12 of the press-fitting bolt B, There is an advantage that the injection hole 11 of the press-fit bolt B can be prevented from being clogged by flowing into the injection hole 11 of the press-fit bolt B and hardening.

That is, in the case of the above-described first embodiment, when the operator injects the caulking material 4 into the gap between the press-fit bolt B and the insertion hole 2, if the caulking material 4 is excessively injected, There is a problem that the ash 4 flows back into the discharge hole 12 of the press-fit bolt B and flows into the injection hole 11 of the press-fit bolt B to close the injection sheath 11. However, It is possible to prevent the injection hole 11 of the press-fit bolt B from being clogged by the caulking material 4 because the caulking material 4 does not flow in front of the sealing member 14 .

7 to 12 illustrate a third embodiment according to the present invention in which the press-fitting bolt B is extended in the front-rear direction and the injection hole 11 is formed therein, And the outer circumferential portion of the press fitting tube 20 is in close contact with the inner circumferential surface of the insertion hole 2 so that the press fitting tube 20 A fixing mechanism 50 for fixing the inside of the injection hole 2 to be fixed to the inside of the injection hole 2 and a sealing cap 50 for sealing the inlet portion of the insertion hole 2, And a nut member 70 coupled to the outside of the press-fitting tube 20 so as to be positioned behind the sealing cap 60.

For this purpose, a thread 22 is formed on the outer peripheral surface of the rear end portion of the press-fitting tube 20 at the rear of the stop 21 and the stop 21.

The protruding rim 21 is formed to protrude in the form of a ring on the major surface of the press-fitting tube 20.

The fixing mechanism 50 includes a supporting ring body 51 coupled to the outside of the rear end of the press fitting body 20 so as to be engaged with the engaging shoulder 21, A fixing bar 52 hinged to be extended from the support ring body 51 so as to extend from the support ring body 51 and having an adhering portion 52a formed at an outer end thereof to be in close contact with the inner circumferential surface of the insertion hole 2, And the other end of which is hinged to the outside of the auxiliary ring body 53 and the other end of which is hinged to the intermediate portion of the fixing bar 52 A compression coil spring (not shown) which is coupled to the outside of the press fitting body 20 and elastically presses the auxiliary ring body 53 forward so as to be positioned between the auxiliary ring body 53 and the sealing cap 60 55).

At this time, a bracket 51a on which the fixing bar 52 is rotatably hinged is provided on the outer circumferential surface of the supporting ring body 51, and the bracket 51a is provided with an angle And a stopper 51b for restricting the stopper 51b.

The tightening part 52a of the fixing bar 52 extends rearward from the end of the fixing bar 52. The barbs 52b are formed on the outer side of the tightening part 52a, And the outer surface of the tight contact portion 52a is firmly coupled to the inner circumferential surface of the insertion hole 2. [

The sealing cap 60 is formed in a cone shape having a larger diameter toward the rear, and a through hole 61 through which the press-fitting tube 20 is coupled is formed at the center so as to pass through the front and rear surfaces.

The nut member (70) is screwed into the thread (22) of the press fitting body (20).

8, the auxiliary ring body 53 is urged forward by the compression coil spring 55, so that the fixing bar 52 (see Fig. 8) is pushed forward by the connecting bar 54, Is pushed forward and pivoted outward.

8 and 11, when the press-fitting bolt B is inserted into the insertion hole 2, the outer end of the fixing bar 52 is caught by the insertion hole 2, The auxiliary ring body 53 is pushed rearward by the connecting bar 54 so that the compression coil spring 55 is compressed.

11, when the worker tightens the nut member 70 in a state where the press-fitting bolt B is inserted so that the sealing cap 60 is fitted into the mouth portion of the insertion hole 2, The presser tube 20 is pulled rearward by the action of the thread 22 as shown in Figure 12. At this time, in consideration of the elasticity of the compression coil spring 55, the auxiliary ring body 53 The fastening bar 52 is pushed outward so that the fastening portion 52a of the fastening bar 52 is caught by the inner peripheral surface of the insertion hole 2 so that the press fitting tube body 20 is not pulled backward And is fixed inside the insertion hole 2.

When the operator further fastens the nut member 70 in a state where the press fitting tube 20 is fixed as described above, the sealing cap 60 is more strongly adhered to the inlet section of the insertion hole 2.

According to such a ground reinforcement method, when the nut member 70 is tightened after inserting the press-fit bolt B into the insertion hole 2, the push-in tube body 20 is inserted by the fixing mechanism 50 And the sealing cap 60 closes the inlet portion of the insertion hole 2 to complete the caulking operation.

Therefore, there is an advantage that the caulking work for sealing the gap between the press-fitting bolt (B) and the insertion hole (2) becomes very easy.

1. Incision surface 2. Insertion hole
3. Urethane 4. Caulking material
A. Insertion Bolt B. Urethane Injector

Claims (4)

A drilling step of forming an insertion hole (2) in the incision surface (1)
An insertion step of inserting a press-fitting bolt (B) into the insertion hole (2)
A caulking step of sealing a gap between the outer circumferential portion of the press-fitting bolt (B) and the insertion hole (2)
And an injection step of connecting a urethane injector (C) to an outer end of the press-fitting bolt (B) and injecting urethane (3) into the insertion hole (2) through the press-fitting bolt (B)
The press-fitting bolt (B) is provided with an injection hole (11) passing through the front and rear ends thereof, and a plurality of exhaust holes (12)
The urethane injector C is connected to the injection hole 11 to supply the urethane 3 into the press-fitting bolt B through the injection hole 11, (12) to the inside of the insertion hole (2) to seal the insertion hole (2) in a watertight manner.
The press-fit bolt (B)
A press-fitting tube 20 extending in the front-back direction and having the injection hole 11 formed therein, and a circumferential surface formed with the discharge hole 12,
A fixing mechanism 50 provided at a rear end portion of the press fitting body 20 and having an outer circumferential portion closely attached to an inner circumferential surface of the insertion hole 2 to fix the press fitting tube 20 to the inside of the injection,
A sealing cap 60 which is coupled to the outside of the press-fitting tube 20 so as to be positioned behind the fixing mechanism 50 and closes an inlet portion of the insertion hole 2,
And a nut member (70) coupled to the outside of the press fitting body (20) so as to be positioned behind the sealing cap (60)
The fixing mechanism (50)
A support ring body 51 coupled to the engagement protrusion 21 on the outer side of the rear end side of the press fitting body 20,
A fixing bar 52 hinged to the outer circumferential surface of the supporting ring body 51 so as to extend in the radial direction and having an adhering portion 52a which is in close contact with the inner circumferential surface of the insertion hole 2 at its outer end,
An auxiliary ring body (53) slidably coupled to the outside of the press fitting body (20) so as to be positioned behind the support ring body (51) in the front - rear direction,
A connecting bar 54 hinged to the outside of the auxiliary ring body 53 at one end and hinged to the intermediate portion of the fixing bar 52 at the other end,
And a compression coil spring 55 coupled to the outside of the press fitting body 20 so as to be positioned between the auxiliary ring body 53 and the sealing cap 60 to elastically press the auxiliary ring body 53 forward In addition,
When the press-fit bolt (B) is inserted into the insertion hole (2), the outer end of the fixing bar (52) is engaged with the inner peripheral surface of the insertion hole (2) and is elastically rearwardly pivoted, The press fitting bolt B is inserted into the insertion hole 2 so as to be fitted into the insertion hole of the insertion hole 2 and then the nut member 70 is tightened so that the press fitting tube 20 is inserted into the insertion hole 2 The fixing bar 52 is pivoted outward so as to be brought into close contact with the inner circumferential surface of the insertion hole 2 to fix the push fitting tube 20 so as not to be pulled out of the insertion hole 2, ) Is brought into close contact with an inlet portion of the insertion hole (2) to seal the insertion hole (2).
The method according to claim 1,
(5) which is provided outside the rear end of the press fitting body (20) of the press-fitting bolt (B) and whose outer circumferential surface is in close contact with the inner circumferential surface of the insertion hole (2) to inject the caulking material (4) Further comprising a member (14)
Wherein the discharge hole (12) is formed to the front of a position where the sealing member (14) is coupled to the circumferential surface of the press-fitting bolt (B). delete delete

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