KR20160033478A - Overburden bit - Google Patents

Abstract

The present invention relates to an overburden bit for boring ground to form a hole and expanding the hole. In more detail, a plurality of through holes are formed by passing through a lateral surface of a guide device having the shape of a hollow body and are spaced at predetermined intervals in a circumferential direction. A plurality of placing holes corresponding to the through holes of the guide device are formed on a lateral surface of a pilot bit inserted into the hollow part of the guide device in such a manner where the placing holes are directed upward to the inner center of the pilot bit. A wing bit capable of moving to the inside/outside of each placing hole is assembled with the replacing hole of the pilot bit. As the guide device is moved upward to the upper part and is moved downward to the lower part, the wing bit passes through the though holes of the guide device to protrude from or be inserted into the placing hole of the pilot bit while forming a radial shape. Accordingly, the overburden bit allows the wing bit to protrude from and be inserted into the inside. Therefore, when performing a hole expanding work, the overburden bit allows the wing bit to protrude from the inside to be proceeded, and when the overburden bit is intended to be taken out of the ground after completing the hole expanding work, the wing bit of the overburden bit is inserted into the inside to allow the overburden bit to easily and safely be pulled out through the hollow pipe.

Description

Overburden bit}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overburden bit, and more particularly to an overburden bit comprising a guide device, a political bit, and a wing bit protruding outward from a pilot bit The wing bit of the overburden bit is inserted into the inside of the pilot bit at the completion of the wiper operation and the wiper bit of the overburden bit is extracted to the outside through the hollow tube at the completion of the wiper operation will be.

The overburden bit is capable of expanding and contracting at the time of drilling. JP-A No. 2003-0065052 discloses a drill that is coupled to the lower end of a hammer drill inserted in a steel pipe and is supplied with pneumatic pressure and excavates a borehole while being vibrated For ball extended hammer bit; The upper end of the hammer drill is provided with a spline 32 and a ring groove 33 which are coupled to the lower end of the hammer drill. A plurality of fastening holes 34 are formed inwardly in the center of the body and a striking jaw 36 and a support projection 35 having an inner guide surface 35a are formed at the lower end thereof and a locking recess 39 is formed upward at the center of the lower end and a vertical A bit housing 30 having a pneumatic supply hole 31 formed therein; A fastening protrusion 22 for fitting the fastening recess 39 of the bit housing 30 is formed at the upper center thereof and a fastening hole 24 is formed on an extension of the fastening hole 34 and a pneumatic supply hole 21 and a pneumatic discharge hole 26 for discharging to the lower end surface of the bit housing 30 and a lower end surface of the locking protrusion 38 of the bit housing 30 are grounded, A plurality of pneumatic discharge holes 26b are formed in the lower end of the fastening protrusion 22 and a sliding groove 28 in the vertical direction and a crushing pin 29 having a high strength is formed on the lower end surface and the side surface A pairof bit (20) having a plurality of protrusions and protruding front ends; A guide protrusion 14 protruding from the upper end of the bit housing 30 is formed and a pin hole 12 is formed at the lower end of the guide protrusion 14 so that the guide pin 13 is fastened. A sliding wing bit 10 that is seated in the sliding groove 28 and slides along the sliding groove 28 due to friction during rotation and repositioned when reversely rotated; A lock king pin (40) fastened to the fastening hole (34) of the bit housing (30) and the fastening hole (24) of the pairobit bit (20) with a bar - shaped metal material; And a spacer (50) for filling the remaining portion of the rocking pin (40) with a bar-shaped synthetic resin material.

In addition, Japanese Patent Application Laid-Open Publication No. 10-2014-0048721 discloses a device body having an air hole passing along a central axis and having an upper shaft portion and a lower shaft portion formed around a piston portion protruding along a circumferential periphery, A guide device having a locking protrusion and a guide protrusion formed at a lower end of the lower shaft; Wherein a receiving groove for rotatably receiving the lower shaft portion is formed and a locking protrusion portion for restricting the rotation of the lower shaft portion by interaction with the locking protrusion portion is formed on the inner surface of the receiving groove, A pilot bit portion having a body and a plurality of first rotational bits rotatably mounted on a lower end of the bit body; And a wing body inserted into the wing for widening wing, wherein a guide groove is formed in the wing body for causing the wing body to be drawn out or drawn in through the opening for the wing by interaction with the guide projection, And an expansion wing having a second rotary bit rotatably mounted on a withdrawal portion of the wing body.

However, in the related art, the overburden bit can be expanded and contracted, the bit is enlarged during drilling, and the drilling progresses. When the hammer is pulled out of the hole axis when the drilling is completed, the overburden bit is reduced, But the structure is complicated and there is a disadvantage that there are many troubles.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is therefore an object of the present invention to provide an overburden bit that can protrude and be inserted into an overburden bit, When pulling out, the overburden bit of the overburden bit is inserted into the inside, and the overburden bit is provided to be easily and safely pulled out through the hollow tube.

The overburden bit of the present invention has a plurality of through holes penetrating the inside and outside of the guide device in the shape of a hollow body and spaced apart from each other by a predetermined distance in the circumferential direction, and the side surface of the pilot bit inserted into the hollow portion of the guide device Wherein a plurality of seating holes corresponding to the through holes of the guide device are formed so as to be upward in the inner center, and a wing bit capable of flowing to the inside and the outside of the seating hole is fastened to the seating hole of the pilot bit, The wing bit is radially protruded or inserted through the through hole of the guide device in the seating hole of the pilot bit.

Therefore, when the overburden bit is protruded and inserted into the inside of the overburden bit according to the present invention, the wing bit protrudes at the time of enlargement, So that it can be easily and safely extracted through the hollow tube.

1 is an exploded view of an overburden bit according to the present invention.
2 is an assembly view of an overburden bit of the present invention.
3 is a perspective view showing a guide device of an overburden bit according to the present invention.
4 is a perspective view showing a pilot bit of an overburden bit according to the present invention;
5 is a perspective view of a wing bit of an overburden bit of the present invention.
6 is a perspective view showing a fastening bolt of an overburden bit according to the present invention.
7 is a perspective view showing a ball bearing of an overburden bit according to the present invention.
8 is a state in which the pilot bit and the wing bit of the overburden bit of the present invention are fastened.
Fig. 9 is a view showing the wing bit of the overburden bit and the fastening state of the ball bearing.
10 is a view showing a relationship between a ball bearing and a fastening bolt fastened to a wing bit of an overburden bit according to the present invention.
11 is a state in which the wing bit of the overburden bit of the present invention is protruded.
FIG. 12 is an enlarged view of a portion of FIG. 11;
13 is a state in which the wing bit of the overburden bit of the present invention is inserted.
14 is a partially enlarged view of Fig.

The overburden bit 100 according to the present invention is characterized in that a plurality of through holes 111 passing through the inside and outside of the guide device 110 in the hollow body shape are formed spaced apart from each other by a predetermined distance in the circumferential direction, A plurality of seating holes 121 corresponding to the through holes 111 of the guide device 110 are formed on the side surface of the pilot bit 120 inserted into the hollow portion of the pilot bit 120, The wing bit 130 is fastened to the mounting hole 121 of the mounting hole 121 so that the wing bit 130 is lifted up and down by the guide device 110, And is radially protruded or inserted through the through hole 111 of the guide device 110 in the seating hole 121 of the pilot bit 120.

A seating lane 122 is formed on both sides of the seating hole 121 of the pilot bit 120 so as to be parallel to the upper and lower surfaces of the inclined seating hole 121. Both sides of the wing bit 130 protrude outward And the ball bearings 150 of the wing bit 130 are seated in the seating lane 122 of the seating hole 121 so that the wing bit 130 is separated from the seating hole 121 And is radially protruded or inserted.

The wing bit 130 is formed with a vertical hole 131 and a horizontal hole 132 perpendicular to the vertical hole 131 on the same surface. A pair of ball bearings 150 inserted by forcibly inserting the fastening bolts 160 through the vertical holes 131 are inserted through the horizontal holes 132 into the wing bit 130 are protruded on one side surface.

The overburden bit 100 may be widened by inserting the guide bit 110 along with the bit line 120 into the vertically installed hollow tube so that the pilot bit 120 is positioned on the ground The guide device 110 moves downward to protrude radially from the wing bit 130 which is seated in the seating hole 121 of the bit 120 and then proceeds.

After the overburden bit 100 is widened, the guide bit 110 is lifted up and the wing bit 130 is inserted into the seating hole 121, And the guide device 110 is withdrawn out of the ground through the inside of the hollow tube.

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

FIG. 3 is a perspective view showing a guide device of an overburden bit according to the present invention. FIG. 4 is a perspective view showing a pilot bit of the overburden bit according to the present invention. FIG. FIG. 5 is a perspective view showing a wing bit of an overburden bit of the present invention, FIG. 6 is a perspective view of a fastening bolt of an overburden bit of the present invention, and FIG. 7 is a perspective view of a ball bearing of the present invention.

The overburden bit 100 according to the present invention is characterized in that a plurality of through holes 111 passing through the inside and outside of the guide device 110 in the hollow body shape are formed spaced apart from each other by a predetermined distance in the circumferential direction, A plurality of seating holes 121 corresponding to the through holes 111 of the guide device 110 are formed on the side surface of the pilot bit 120 inserted into the hollow portion of the pilot bit 120, The wing bit 130 is fastened to the mounting hole 121 of the mounting hole 121 so that the wing bit 130 is lifted up and down by the guide device 110, The guide device 110 is radially protruded or inserted through the through hole 111 in the seating hole 121 of the pilot bit 120.

More specifically, the guide device 110 is formed in a hollow body shape whose upper surface is closed, and a plurality of through holes 111 penetrating the inside and the outside of the side surface are formed to be spaced from each other by a predetermined distance in the circumferential direction.

A pilot bit 120 having an outer circumferential surface identical to an inner circumferential surface of the guide device is inserted into the hollow portion of the guide device 110. A through hole 120 formed in a side surface of the pilot device 120 And a plurality of mounting holes 121 corresponding to the mounting holes 111 are formed so as to be upward in the inner center.

In other words, the seating hole 121 is inclined so that the upper surface and the lower surface thereof face the inner center of the pilot bit 120.

A wing bit 130 capable of flowing to the inside and the outside of the seating hole 121 is fastened to the seating hole 121 of the pilot bit 120.

The wing bit 130 is mounted in the seating hole 121 of the pilot bit 120 such that the guide device 110 can be radially protruded or inserted through the through hole 111.

Particularly, the wing bit 130 is easily moved to the inside and the outside of the seating hole 121 by the both side surfaces whose vertical cross section is inclined as a parallelogram, and the operation thereof will be described later.

FIG. 9 is a view showing the wing bit of the overburden bit of the present invention and the fastening state of the ball bearing, and FIG. 10 is a view showing the fastening state of the overburden bit of the overburden bit according to the present invention, Fig. 2 is a view showing the relationship between the ball bearing and the fastening bolt.

8, a seating lane 122 is formed on both sides of the seating hole 121 of the pilot bit 120 so as to be parallel to the upper and lower surfaces of the inclined seating hole 121, And the ball bearings 150 of the wing bit 130 are seated in the seating lane 122 of the seating hole 121 so that the wing bit 130 is inserted into the seating hole 121 without radially protruding or being inserted.

A guide lane 123 is vertically formed on the upper side of the pilot bit 120 and is fastened through an insertion hole 112 formed in an upper side of the through hole 111 of the guide device 110. [ The bolt 140 is inserted and the end of the fastening bolt 140 is inserted up to the guide lane 123 so that the pilot bit 120 can be vertically moved in the guide device 110 by the length of the guide lane 121 do.

In this case, the fastening bolt 140 is preferably a wrench bolt, the end portion is formed in a hemispherical shape, and the guide lane 123 is also formed as a hemispherical groove so that scratches are formed in the guide lane 123 of the pilot bit 120 .

The wing bit 130 is formed with a vertical hole 131 and a horizontal hole 132 perpendicular to the vertical hole 131 on the same surface. A pair of ball bearings 150 inserted by forcibly inserting the fastening bolts 160 through the vertical holes 131 after the bearings 150 are inserted are inserted through the horizontal holes 132 into the wing bit (Not shown).

At this time, the fastening bolt 160 is a wrench bolt, and the end portion of the fastening bolt 160 is formed into a wedge shape so that the pair of ball bearings 150 can protrude from both sides of the wing bit 130 through the horizontal hole 132 , So that it does not fall out easily.

11 is a state in which the wing bit of the overburden bit of the present invention is protruded, and Fig. 12 is an enlarged view of a portion of Fig.

11 to 12, the overburden bit 100 is widened by inserting the guide bit 110 together with the bit line 120 into a vertically installed hollow tube (not shown) The guide device 110 is lowered downward to protrude radially from the wing bit 130 which is seated in the seating hole 121 of the bit 120 in a state in which the pilot bit 120 is in contact with the ground surface .

That is, when the guide bit 110 is lowered while the pilot bit 120 is in contact with the ground, the upper surface of the through hole 111 of the guide device 110 presses the upper surface of the wing bit 130, 130 are easily protruded outward along the inclined surface of the seating hole 121 because the vertical section has a parallelogram shape.

FIG. 13 is a state in which a wing bit of the overburden bit of the present invention is inserted, and FIG. 14 is an enlarged view of a portion of FIG.

As shown in FIGS. 13 to 14, after the overburden bit 100 is widened, the wing bit 130 protruding from the lowered guide device 110 is inserted into the seating hole 121 The guide device 110 is pulled out of the ground through the inside of the hollow tube together with the pilot bit 120.

That is, when the guide device 110 is lifted and lowered after the end of the wiping operation, the lower surface of the through hole 111 of the guide device 110 contacts the lower surface of the wing bit 130, The bit 130 is retracted to the inside of the pilot bit 120 along the inclined surface of the seating hole 121 and inserted.

Therefore, when the overburden bit is protruded and inserted into the inside of the overburden bit according to the present invention, the wing bit protrudes at the time of enlargement, So that it can be easily and safely extracted through the hollow tube.

100. Overburden bit
110. Guide device 111. Through hole
112. Insertion hole
120. Pilot bit 121. Seated hole
122. Seat lane 123. Guide lane
130. Wing bit 131. Vertical hole
132. Horizontal hole
140. Fastening bolts
150. Ball Bearing 160. Clamping Bolt

Claims (3)

For the overburden bit to be drilled after drilling the ground,
The overburden bit 100 has a plurality of through holes 111 penetrating the inside and outside of the side surface of the guide device 110 in the shape of a hollow body and spaced apart from each other by a predetermined distance in the circumferential direction, A plurality of seating holes 121 corresponding to the through holes 111 of the guide device 110 are formed on the side surface of the pilot bit 120 inserted into the hollow portion of the pilot bit 120, The wing bit 130 is coupled to the seating hole 121 of the seating hole 121 so that the wing bit 130 is lifted up and down by the guide device 110, Characterized in that the overburden bit is radially protruded or inserted through the through hole (111) of the guide device (110) in the seating hole (121) of the bit (120).
The method according to claim 1,
A seating lane 122 is formed on both sides of the seating hole 121 of the pilot bit 120 so as to be parallel to the upper and lower surfaces of the inclined seating hole 121. On both sides of the wing bit 130, The wing bit 130 of the wing bit 130 is seated on the seating lane 122 of the seating hole 121 so that the wing bit 130 is not separated from the seating hole 121 The overburden bit is characterized by being radially protruded or inserted.
3. The method of claim 2,
The wing bit 130 has a vertical hole 131 and a horizontal hole 132 orthogonal to the vertical hole 131 on the same surface and a pair of ball bearings The pair of ball bearings 150 inserted by forcibly inserting the fastening bolts 160 through the vertical holes 131 are inserted through the horizontal holes 132 into the wing bits 130 ) Is mounted so as to protrude at one side thereof on both side surfaces of the overburden bit.

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