KR20120025776A - Direct boring bit - Google Patents

Abstract

PURPOSE: A direct boring bit is provided to efficiently discharge slime to the inside a pipe through a discharge path without blockage. CONSTITUTION: A direct boring bit comprises an outer bit(10) and an inner bit(20). The outer bit has a coupling hole(11), two pairs of linear grooves(12,13), and a hanging protrusion. The coupling hole is formed on the inner surface of the outer bit in a circumference direction. The linear grooves are formed on the inner surface of the outer bit in a longitudinal direction. The inner bit has a pair of coupling protrusions(22), a protruded ring(25), and a pair of discharge grooves(26). The coupling protrusions are formed on the outer surface of the inner bit in an L-shape. The protruded ring is formed in the rear end of the head part(21) of the inner bit. The discharge grooves are formed from the front end of the head part to the rear end of the protruded ring.

Description

Direct Hole Bits {DIRECT BORING BIT}

The present invention relates to a direct drilling bit used when boring the ground for grouting, and more particularly, it is possible to easily form the mounting groove and the linear groove of the outer bit by lathe work, high productivity, and When the inner bit is coupled, the straight groove of the outer bit and the discharge groove of the inner bit are facing each other, and relates to a direct bored bit to form a large discharge passage.

Republic of Korea Patent No. 10-0912720 (registered on August 11, 2009) "direct drilling bit" is introduced.

The direct drilling bit is formed with a mounting groove for mounting the C ring at the lower end of the inner circumferential surface of the bushing, a locking jaw is formed at the upper end of the inner circumferential surface of the bushing to be coupled with the tip of the direct drilling rod, and the bushing is connected to the outer bit by the C ring. The inner bit disposed inside the outer bit is detachably coupled to the outer bit, and the outer bit is coupled to the outer circumferential surface between the tip mounting portion on which the tip is mounted and the coupling portion engaged with the inner bit. A groove is formed.

However, the direct boring bit has a structure in which the outer bit and the bushing are coupled by the C ring, and the discharge groove is discharged because the discharge groove for discharging the slime on the outer bit is discharged only to the discharge tunnel formed in the inner bit. Since the water sprayed from the inner bit is not sufficiently discharged into the discharge tunnel, there is a risk that the perforated surface may be collapsed by the water during the tunnel construction.

Accordingly, an object of the present invention is to easily form the mounting grooves and the linear grooves of the outer bit, such as the lathe work, the productivity is high, when the outer bit and the inner bit is combined, the linear grooves of the outer bit and the discharge groove of the inner bit By facing each other, a large diameter discharge passage is formed, and the slime mixed with water and cutting soil is discharged well into the steel pipe without clogging through the discharge passage, thereby solving the problem of the discharge load on the bit portion. Is to provide a direct punch bit.

The present invention for achieving the above object in the perforated bit having a structure in which the outer bit (inner bit) and the inner bit (inner bit) is detachably coupled, the coupling groove is formed in the circumferential direction on the inner peripheral surface of the outer bit And two pairs of linear grooves are formed on the inner circumferential surface of the outer bit in the longitudinal direction, and a locking step is formed at the rear end of the inner circumferential surface of the outer bit.

The inner bit is a pair of engaging projections formed in a "b" shape on the circumferential surface of the head portion is disposed symmetrically, a projection ring is formed on the rear end of the head portion, a pair of discharge grooves formed between the engaging projections head portion Characterized in that it is formed from the front end to the rear end of the projection ring.

In addition, the outer bit is characterized in that it has a length that can cover the projection ring of the inner bit.

In addition, the inner bit has perforated water injection holes) formed at the side of the vertical portion of the engaging projection, and a slime discharge groove is formed in the protrusion ring, so that the slime discharge groove is aligned with the perforated water injection holes in the longitudinal direction of the head. Characterized in that it is located.

Thereby, the perforated bit according to the present invention can easily form the mounting groove and the linear groove of the outer bit by lathe work, etc., the productivity is high, and when the outer bit and the inner bit are combined, the straight groove of the outer bit and The discharge grooves of the inner bits face each other to form a large diameter discharge passage, so that the slime mixed with water and the cutting soil is discharged well into the steel pipe without clogging through the discharge passage. It is effective to solve the problem.

1 is an exploded perspective view showing a perforated bit according to the present invention
FIG. 2 is a partially cutaway perspective view of the outer bit of FIG. 1. FIG.
3 is a partial side cross-sectional view showing a state in which an outer bit and an inner bit are combined;
4 is a plan view illustrating a state in which an outer bit and an inner bit are combined;

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

Referring to FIG. 1, the perforated bit according to the present invention has a structure in which an outer bit 10 and an inner bit 20 are separated from each other.

1 and 2, the outer bit 10 has a coupling groove 11 formed in an circumferential direction on an inner circumferential surface thereof, and two pairs of linear grooves 12 and 13 formed in a longitudinal direction on an inner circumferential surface thereof, and an inner circumferential surface thereof. At the rear end of the engaging jaw 14 is formed.

Referring to FIG. 1, the inner bit 20 has a pair of coupling protrusions 22 formed in a circumferential surface of the head portion 21 in a symmetrical manner, and symmetrically disposed at a rear end of the head portion 21. A protruding ring 25 is formed, and a pair of discharge grooves 26 formed between the engaging protrusions 22 are formed from the front end 27 of the head portion 21 to the rear end of the protruding ring 25.

As a result, the engaging projection 22 of the inner bit 20 is applied to the outer bit 10 until the projection ring 25 of the inner bit 20 is caught by the locking step 14 of the outer bit 10. The coupling protrusion 22 is inserted into the pair of linear grooves 13 of the two pairs of linear grooves 12 and 13 formed, and the inner bit 20 is rotated in the coupling direction relative to the outer bit 10. The coupling portion 24 of the outer bit 10 is coupled to the coupling groove 11 of the outer bit 10, the remaining pair of linear grooves 12 formed in the outer bit 10 is the discharge groove 26 of the inner bit 20 Is matched with

Direct drilling bit according to the present invention configured as described above can be easily formed by the coupling groove 11 and the linear grooves 12, 13 of the outer bit 10 by the lathe work, etc., it is possible to increase the productivity.

Referring to FIGS. 3 and 4, when the outer bit 10 and the inner bit 20 are coupled to each other, the straight hole 12 and the inner bit 20 of the outer bit 10 may be formed. Discharge grooves 26 face each other to form a large diameter discharge passage 30, so that the slime mixed with water and cutting soil through the discharge passage 30 to the inside of the steel pipe 50 without clogging. It is well discharged, it is possible to solve the problem that the discharge load is taken from the outer bit 10 and the inner bit 20.

Referring to FIG. 3, the outer bit 10 has a length L1 that can cover the protruding ring 25 of the inner bit 20. That is, when combined with the outer bit 10 and the inner bit 20, the head end 27 of the inner bit 20 protrudes from the tip 16 of the outer bit 10 on which the cutting tip 15 is formed. However, the outer bit 10 is caught by the protruding ring 25 of the inner bit 20 so that the rear end 17 of the outer bit 10 can cover the protruding ring 25 of the inner bit 20. An extension section L2 is provided between the locking jaw 14 (see FIG. 2) and the rear end 17.

As a result, the outer bit 10 does not require a bushing (a component combined with the outer bit), which has been required in the conventional direct drilling bit, and the steel pipe 50 for the slime (mixed with the cutting soil and water). It can lead to the inside of.

1, 3, and 4, the inner bit 20 has a punched water injection hole 28 formed at the side of the vertical portion 23 of the engaging protrusion 22, and is slime at the protrusion ring 25. A discharge groove 29 is formed so that the slime discharge groove 29 is located in line with the punched water injection hole 28 in the longitudinal direction of the head.

As a result, as shown in FIGS. 3 and 4, water is injected from the punched water injection hole 28, so that the engaging projection 22 of the inner bit 20 is connected to the engaging groove 11 of the outer bit 10. By combining the coupling portion 24 of the), to prevent the slime introduced into the space (13a (see Fig. 4)) formed in the linear groove 13 of the outer bit 10 to fill the space (13a), When the inner bit 20 is separated from the outer bit 10, slime is filled in the space 13a, thereby preventing the separation of the inner bit 20 from being interfered by the slime. That is, in the process of drilling the ground, slime is introduced into the space 13a, but water is injected from the punched water injection hole 28, and the slime of the space 13a is injected into the slime discharge groove 29 by the injected water. By being discharged to), after the ground drilling is completed, slime does not remain in the space 13a, and the inner bit 20 can be rotated in the opposite direction to be separated from the outer bit 10.

10: outer bit 11: coupling groove
12, 13: straight groove 14: locking jaw
20: inner bit 21: head portion
22: engaging projection 25: projection ring
26: discharge groove

Claims (4)

In the perforated bit having a structure in which the outer bit (10; outer bit) and the inner bit (20; inner bit) are detachably combined,
The outer bit 10 has a coupling groove 11 formed in the circumferential direction on the inner circumferential surface, and two pairs of linear grooves 12 and 13 are formed in the longitudinal direction on the inner circumferential surface, and the locking jaw 14 at the rear end of the inner circumferential surface. The perforated bit which is formed.
The method of claim 1,
The inner bit 20 has a pair of engaging projections 22 formed in a “a” shape on the circumferential surface of the head portion 21 to be symmetrically disposed, and a protruding ring 25 is formed at the rear end of the head portion 21. And a pair of discharge grooves (26) formed between the coupling protrusions (22) are formed from the leading edge (27) of the head portion (21) to the trailing edge of the protrusion ring (25).
The method of claim 1,
The outer bit 10 is a perforated bit, characterized in that it has a length (L1) that can cover the projection ring (25) of the inner bit (20).
The method of claim 2,
The inner bit 20 has a punched water injection hole 28 formed at the side of the vertical portion 23 of the engaging protrusion 22, and a slime discharge groove 29 is formed at the protrusion ring 25, thereby discharging the slime. And the groove 29 is located in line with the punched water injection hole 28 in the longitudinal direction of the head.

Images