KR102385242B1 - Rod for grouting equipment for direct drilling in ground above tunnel - Google Patents

Abstract

The present invention relates to a rod for a grouting device for directly drilling the ground above a tunnel. More specifically, a rotational axis of a rotating means, a rod bar and a drilling bit are connected to one another using a first and a second coupler (10) (20), and upper and lower separated bodies (11a, 11b) (21a, 21b), which are separated in a vertical direction by cutting groove parts (13) (23) in the middle of both sides of the first and the second coupler, are coupled to each other by a first coupling bolt (41) above the upper and lower separated bodies after inserting and combining an insertion part (5a) at the front-end and rear end of the rod bar (5) with insertion and combination holes (12) (22) of the first and the second coupler to fasten each other and to support the gap between the upper separated body and the lower separated body using a second coupling bolt (42), thereby being combined with each other to offset vibrations. Therefore, the rod is enabled to be connected and separated easily and the unfastening and deformation of a connection portion caused by vibrations during the ground drilling process are prevented, thereby facilitating the disassembly of the rod bar after a drilling operation and enabling reuse to improve workability and economic efficiency.

Description

Rod for grouting equipment for direct drilling in ground above tunnel

The present invention relates to a rod for a grouting device for directly drilling the ground above a tunnel, and more particularly, by simply connecting and separating by a coupler structure, and preventing loosening of the connection part due to vibration during the ground drilling process as well as preventing deformation. It relates to a rod for a direct drilling grouting device above a tunnel that can be easily dismantled and reused after a drilling operation.

In general, grout or grouting refers to injecting filler (grout material) into cracks and cavities in the ground for leak prevention work or soil stability in civil engineering works.

This grouting method is a method of making the steel pipe and the ground one body and increasing the shear strength of the soil and rock by installing a steel pipe in the ground, installing a packer inside the steel pipe, and then injecting and consolidating the grout material.

A conventional grouting device for implementing such a grouting method includes a steel pipe having a plurality of inlets for spraying grout material, a steel pipe shoe connected to the tip of the steel pipe, and inserted into the steel pipe as in Patent Registration No. 10-0467537, etc. It consists of a rod that transmits the power of the rotating means, and a drilling hole bit installed in front of the steel pipe shoe but coupled to the end of the rod. After insertion, the rod is uncoupled from the drill bit and separated, and grout material is injected and solidified inside the steel pipe to make the steel pipe and the ground one body, so that installation and construction can be performed easily.

In such a conventional grouting device, the front and rear of the rod are coupled to the rotation shaft of the rotating means and the perforated bit, and it consists of a structure for spirally coupling by forming a spiral portion directly on the front and rear of the rod. There was a problem that workability was very inconvenient.

In particular, during the process of the drilling bit drilling the ground by the rotational driving force of the rod, vibration shock is transmitted to the rod through the drilling bit, causing a problem in which the spiral coupling portion is loosened and damage to the spiral coupling portion occurs after the drilling operation There was a problem in that the separation operation of the rod became very difficult, and it was difficult to reuse the rod.

Of course, the coupler was coupled to the coupling part of the front and the rear of the rod, and the helical structure of the rod was excluded by coupling the rotation shaft and the perforation bit of the rotating means to the coupler, but the coupling part and the coupling part of the front and the rear of the rod Since the assembly hole of the coupler inserted into the device is force-coupled with a tapered structure, it is difficult to combine and the vibration impact transmitted to the rod through the drilling bit during the drilling process causes deformation in the force-coupled part. Of course, there was still a problem that the separation operation of the rod became very difficult and the reuse of the rod became difficult.

Registered Patent No. 10-0467537 (January 13, 2005) Registered Patent No. 10-0989818 (October 19, 2010) Registered Patent No. 10-1115783 (February 06, 2012) Registered Patent No. 10-1861120 (May 18, 2018)

The present invention was invented to solve all the problems of the prior art, so that the rotating shaft of the rotating means, the load bar, and the drilling bit are simply connected and separated by a coupler structure, and the connection part is loosened by vibration during the ground drilling process The purpose of this is to provide excellent workability and economic feasibility because it is easy to dismantle and reuse the load bar after drilling by preventing deformation as well as preventing it from being deformed.

The present invention is a coupler used to connect the rotation shaft of the rotating means, the load bar, and the perforated bit to each other, the first coupler forming an insertion coupling hole for inserting and coupling the insertion portion of the end of the load bar on one side of the body and a helical protrusion on the other side; It consists of an insertion coupling hole for inserting and coupling the insertion portion of the rod end on one side of the body, and a second coupler forming a spiral groove portion on the other side; On one side of the body of the first and second couplers, the center of both sides of the body having the insertion hole formed therein is cut in the longitudinal direction by the cut-out groove to form upper and lower separate body parts, and the upper and lower separate body parts are cut from both sides of the upper part By vertically fastening the fastening member to the fastening part formed in the groove position, it is characterized in that it is configured to press and fix the insertion part of the load bar inserted into the insertion coupling hole.

According to the present invention, the fastening portion includes an assembly step hole formed in a vertical step in the phase separation body portion, a first coupling portion penetrating the spiral hole vertically in the lower separation body portion, and a spiral formed in a vertical step in the phase separation body portion. At least one second fastening part passing through only the ball is alternately formed along the longitudinal direction of the upper and lower separation body parts, and the fastening member is formed of a first fastening bolt and a second fastening bolt to form the first fastening bolt. 1 By fastening the upper and lower separation body parts, the lower part of the second fastening bolt supports the upper part of the lower separation body part to cancel the vibration by fastening the second fastening bolt to the second fastening part. It is characterized in that it is configured to do so.

The present invention connects the rotating shaft of the rotating means, the load bar, and the perforated bit to each other using the first and second couplers, and after inserting the insertion parts of the front and rear ends of the load bar into the insertion and coupling holes of the first and second couplers At the upper and lower parts of the upper and lower separation body parts separated up and down by incision grooves in the center of both sides of the first and second couplers, the upper and lower separation body parts are fastened with a first fastening bolt and tightened with each other by a second fastening bolt By supporting the gap between the upper separation body and the lower separation body to cancel the vibration, the rod can be easily connected and disconnected, and the rod after drilling by preventing loosening of the connection part due to vibration during the ground drilling process as well as preventing deformation. Since the bar can be easily dismantled and reused, it has excellent workability and economy.

1 is a front view showing a rod to which the present invention is applied.
Figure 2 is a perspective view showing a rod of the present invention.
Figure 3 is an exploded perspective view showing a first coupler of the present invention.
Figure 4 is an exploded perspective view showing a second coupler of the present invention.
Figure 5 is a front view showing the first coupler of the present invention.
6 is a plan view showing a structure in which a rod is coupled in FIG. 5;
Figure 7 is a front view showing a second coupler of the present invention.
FIG. 8 is a plan view showing a structure in which a rod is coupled to FIG. 7 ;
Figure 9 is a side cross-sectional view showing a state before coupling the fastening member to the fastening portion of the first and second couplers of the present invention.
10 is a side cross-sectional view showing a state in which the fastening member is coupled to the fastening part of FIG. 9 .

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

The rod for the tunnel upper ground direct drilling grouting apparatus of the present invention is made to connect the rotation shaft of the rotating means 2, the load bar 5 and the perforation bit 6 to each other by a coupler as shown in FIGS. 1 to 10 will be.

The coupler consists of a first coupler 10 and a second coupler 20, wherein the first coupler 10 is an insertion coupling hole for inserting and coupling the insertion part 5a of the end of the load bar to one side of the body 11 (12) and a helical protrusion 18 is formed on the other side, and the second coupler 20 has an insertion coupling hole 22 for inserting and coupling the insertion portion 5a of the rod end on one side of the body 21, and the other side It is configured to form a spiral groove portion (28) in the.

Here, the first coupler 10 is inserted and coupled to the front of the load bar, and the perforated bit 6 is screwed to the spiral protrusion 18 of the first coupler. And the second coupler 20 is inserted and coupled to the rear of the load bar, and the spiral protrusion 18 of the first coupler is coupled to the spiral groove 28 at the rear of the second coupler, and the first coupler is rotated by means of a rotation means. However, connecting the rotating side of (2), the load bar is to be configured to connect two or more in plurality according to the depth of the ground drilling.

In particular, the center of both sides of the body in which the insertion coupling holes 12 and 22 are formed on one side of the body 11 and 21 of the first and second couplers are cut in the longitudinal direction by the incision grooves 13 and 23. The upper and lower separation body parts 11a, 11b) (21a, 21b) are formed separately, and the upper and lower separation body parts are fastened to the fastening part 30 formed in the position of the cut-out grooves 13 and 23 on both sides of the upper part. (40) is configured to press and fix the insertion portion (5a) of the load bar inserted into the insertion coupling hole (12) (22) by vertically fastening.

At this time, the fastening part 30 includes a first fastening part 31 penetrating through an assembly step hole 31a formed vertically in the phase separation body part and a spiral hole 31b vertically in the lower separation body part, The second fastening part 32 penetrating only the spiral hole 32a formed by a step vertically in the phase separation body part is formed so as to be alternately positioned at least one or more along the longitudinal direction of the upper and lower separation body part.

And the fastening member 40 is formed of a first fastening bolt 41 having a head and a second fastening bolt 42 not having a head, so that the first fastening bolt 41 is connected to the first fastening part 31 . The second fastening by fastening the second fastening bolt 42 to the second fastening part 32 while tightening the upper and lower separation body parts 11a, 11b, 21a, 21b by fastening to The lower end of the bolt is configured to support the upper end of the lower separation body portion (21a, 21b).

That is, the upper and lower separation body parts 11a, 11b, 21a, 21b are tightened by the first fastening bolt 31 to press and fix the insertion part 5a of the load bar, and the second fastening bolt 31 ) to support the gap between the upper and lower separation body parts 11a, 11b and 21a, 21b to offset the impact caused by vibration during the drilling process.

As unexplained reference numerals, 5b denotes a through hole formed inside the rod, and 19 and 29 denote the insertion and coupling holes 12 and 22 and the through hole passing through the inside of the first and second couplers, respectively.

Next, we will look at the operation and operation of the present invention configured as described above.

First, the insertion hole 12 of the first coupler 10 is inserted and coupled to the insertion portion 5a of the front of the load bar 5, and the drill bit 6 is inserted into the spiral protrusion 18 of the front of the first coupler. ) is helically joined.

In addition, the insertion hole 22 of the second coupler 20 is inserted into the insertion part 5a of the rear of the load bar 5, and the first coupler front of the spiral groove 28 of the rear of the second coupler is inserted. The helical projection 18 is helically coupled, and the rotation shaft of the rotating means 2 is helically coupled to the rear of the first coupler.

At this time, by fastening the fastening member 40 in the fastening part 30 of the first and second couplers 10, the insertion part 5a of the load bar is connected to press and fix.

To explain this in more detail, the first and second fastening bolts 41 and 42 are alternately fastened at the fastening portions 30 formed on both sides of the body 11 and 21 of the first and second couplers.

That is, the first fastening bolt 41 is screwed to the spiral hole 31b formed in the lower separation body portions 21a and 21b through the assembly step hole 31a formed in the upper separation body portions 11a and 11b. Since the upper and lower separation body parts 11a, 11b and 21a, 21b are tightened to each other, the insertion part 5a of the load bar is pressed and fixedly coupled.

At the same time, the second fastening bolt 42 is screwed into the spiral hole 32a formed in the upper separation body portions 11a and 11b, but the lower end of the second fastening bolt is the upper end of the lower separation body portion 21a, 21b. to join to support it.

The rod of the present invention connected in this way is the insertion part of the load bar ( 5a) to firmly maintain the coupled state by the first and second fastening bolts 41 and 42 fastened to the coupling portions 30 formed on both sides of the body of the first and second couplers 10 and 20 into which 5a) is inserted. Of course, it will prevent damage to the binding site.

This means that, as described above, the insertion portion 5a of the load bar is not directly helically coupled to the insertion and coupling holes 12 and 22 of the first and second couplers, but is formed on both sides of the first and second couplers in the longitudinal direction. 1 Assembly of the fastening part 31 Upper and lower separation formed by the cutout grooves 13 and 23 by the first fastening bolt 41 that is screwed to the stepped hole 31a and the spiral hole 31b. The body parts 11a and 11b (21a, 21b) are tightened to each other to press and fix the insertion part 5a of the load bar, and the second coupling part 32 is helically coupled to the helical hole 32a. 2 The lower end of the fastening bolt 42 supports the upper ends of the lower separation body parts 21a and 21b and maintains a gap between the upper and lower separation body parts 11a and 11b (21a, 21b) to prevent vibration transmitted during the drilling process. This prevents damage to the insertion part 5a of the load bar from being deformed by pressure as well as preventing damage to the first fastening bolt.

In this way, after the drilling operation, the first and second couplings 10 and 20 are separated from the load bar 5. Deformation damage to the fastening bolt and the insertion part 5a of the load bar is prevented and dismantled. The task is provided simply, and of course, it can be reused.

Therefore, in the present invention, after inserting and coupling the insertion portions 5a of the front and rear sides of the load bar 5 into the insertion coupling holes 12 and 22 of the first and second couplers, the center of both sides of the first and second couplers In the upper and lower separation body portions 11a, 11b, 21a, 21b, which are vertically separated by incision grooves 13 and 23 in By supporting the gap between the upper separation body part and the lower separation body part by the second fastening bolt 42 together with the zoom, it is coupled to cancel the vibration, so that the rod is simply connected and separated, and the connection part caused by vibration during the ground drilling process By preventing loosening and deformation, it is easy to dismantle the load bar after drilling and reuse it.

5: load bar 5a: insert
10, 20: first and second couplers 11, 21: body
11a, 11b, 21a, 21b: upper and lower separation body parts 12, 22: insertion coupling hole
13,23: cut-out groove 18: spiral protrusion
30: fastening part 31: first fastening part
31a: assembly step hole 31b: spiral hole
32: second fastening portion 32a: spiral hole
40: fastening member 41, 42: first and second fastening bolts

Claims (2)

In the rod for the tunnel upper ground direct drilling grouting device using the rotation shaft of the rotating means, the load bar, and the drilling bit connected to each other by a coupler,
The coupler includes a first coupler 10 forming an insertion coupling hole 12 for inserting and coupling the insertion portion 5a of the end of the rod bar on one side of the body 11 and a helical protrusion 18 on the other side,
It consists of an insertion coupling hole 22 for inserting and coupling the insertion portion 5a of the rod end on one side of the body 21, and a second coupler 20 forming a spiral groove portion 28 on the other side,
On one side of the body 11 and 21 of the first and second couplers, the center of both sides of the body in which the insertion coupling holes 12 and 22 are formed are cut in the longitudinal direction by the incision grooves 13 and 23 to form an image, Separately formed into lower separation body parts (11a, 11b) (21a, 21b),
The upper and lower separation body parts are inserted into the insertion coupling holes 12 and 22 by vertically fastening the fastening member 40 to the fastening part 30 formed at the position of the incision grooves 13 and 23 on both sides of the upper part. It is configured to press and fix the insertion part (5a) of the load bar,
The fastening part 30 includes an assembly step hole 31a that is vertically stepped on the phase separation body part and a first fastening part 31 that passes through a spiral hole 31b vertically on the lower separation body part, and phase separation. At least one second fastening portion 32 passing through only the spiral hole 32a formed by a step perpendicular to the body portion is alternately formed along the longitudinal direction of the upper and lower separation body portion,
The fastening member 40 is formed of a first fastening bolt 41 and a second fastening bolt 42 , and by fastening the first fastening bolt 41 to the first fastening part 31 , the upper and lower parts are separated. By fastening the body parts 11a and 11b (21a, 21b) and fastening the second fastening bolt 42 to the second fastening part 32, the lower part of the second fastening bolt is separated from the lower body part 21a. ,21b) A rod for a grouting device for direct drilling in the ground above the tunnel, characterized in that it is configured to offset the vibration by supporting the upper end. delete

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