KR101511243B1 - Apparatus for raising damaged excavating bit in excavation hole - Google Patents

Abstract

The present invention relates to an excavating bit lifting device for effectively lifting an excavating bit that is broken in a drilling hole or removed from a rod during a drilling operation.
A drilling bit lifting device for lifting an excavating bit in an excavation hole according to the present invention comprises an excavating bit lifting portion provided with an engaging member engageable with a rod at an upper portion thereof and having an opening at a lower portion thereof, And an excavation bit fixing part which is accommodated in the inside of the excavation bit and accommodates and fixes a connecting member provided at the upper end of the excavation bit inside and has a truncated cone shape having a larger diameter at the lower end than the upper end .

Description

TECHNICAL FIELD [0001] The present invention relates to an excavation bit lifting apparatus for lifting a damaged excavation bit within a drilling hole,

The present invention relates to a drilling bit lifting device, and more particularly, to a drilling bit lifting device for effectively lifting an excavating bit that is broken in a drilling hole or removed from a rod in a drilling operation.

In general, boring is to drill a small hole with a diameter suitable for a purpose in a crust to obtain structure or property of the stratum, Natural gas, hot springs and ground water.

Depending on the purpose of use, there are various sizes, ranging from several meters to several thousand meters in length and several millimeters to several tens of centimeters in diameter. Today, large-scale drilling, up to several meters in diameter, is also carried out for the purpose of using vertical steamships.

It is classified into two types according to the excavation method: an impact type in which the excavation bit is impacted to crush the rock to be drilled, a bit in which diamond and cemented carbide are inserted into the end of the pipe (pipe), and a rotary type . One of the deepest boreholes in the world is the 8,000 m drilled hole in the US oilfield.

In the case of such a large-scale drilling, since the length of a steel pipe (hereinafter referred to as a steel pipe) is long, a rod of a certain length is connected in order to extend the length. However, when inserting a casing (called a "thick casing") into an excavated hole, it is necessary to lift the rod for various investigations in order to exchange excavation bits, prevent borehole wall collapse, Loses.

For this purpose, a large hoist tower must be installed, and excavation equipment used for the purpose of removing the power plant or excavated material and preventing collapse of the air wall should be arranged around the tower.

Drilling is also an important task in the mine against the underground deposits. In mines, it may be used as a drainage hole or a ventilation hole, as a passage for passing ore or waste stone, or for passing a cable for a wire. It is common to conduct drilling for preliminary investigations before exploration of geological and mineral deposits or advanced drilling.

In rotary drilling, rocks can be extracted as rod-like rocks of a planned shape called "core", so that good results can be obtained in the exploration of rock quality, quality, and mineral deposits.

In the impact type drilling, it is possible to judge the quality and quality of the rock by investigating the rock powder coming out from the hole during drilling. Drilling to collect the 'core' is called deep drilling (core boring), while drilling to collect rock mass is called drilling (sludge boring). Drilling can also be used as a hole for examining the structure and condition of the interior of the crust, because it is possible to insert various kinds of measuring instruments and experiment devices in the hole. It is also used for dam construction of the power plant and basic investigation of the building.

The hammer drill bit used for such drilling uses hammer drill bits of different standard and structure according to the application and the conditions of the geology. The hammer drill bit for direct drilling method and hammer drill for indirect drilling method And excavation bits.

Hammer excavation bits for direct excavation systems are used in such a way that the condition of the ground layer is not good or deep excavation, and excavation bit housings mounted on a hammer drill without a casing excavate the ground layer.

The hammer excavation bit for indirect excavation method is used in a method of excavating a steel pipe while filling a steel pipe in the excavation hole. The drill bit housing mounted on the hammer drill and the steel bit It is taken out through a pipe.

This type of indirect drilling hammer drill is greatly increased in pressure as it penetrates deep into the ground, and loads due to a large amount of energy interfere with hammer drilling bits, making drilling difficult. In addition, the hammer drill bit, which is required to excavate a hole wider than the diameter of the casing to be buried, is stuck at the same time as the amount of excavation. If the hole can not be widely drilled so that the steel pipe can easily enter, The hammer drilling bit is damaged due to a heavy load during drilling and it becomes very difficult to remove the hammer drilling bit after excavation.

In the past, when a problem such as a broken bit of an excavation bit or a problem of a neck portion of an excavation bit housing or a digging rod is broken, there is no technology or device for lifting it, And there is a problem that it is inevitable to process it.

In the "excavation tool and excavation method" of Japanese Patent Application Laid-Open No. 10-2007-0096885, it is pointed out that the coupling with the inner bit is released by impact and the ring bit is dropped into the excavation hole, and the subsequent excavation itself becomes impossible However, as a solution to this problem, an excavation tool that does not cause a drop of ring bit during excavation and an excavation method using the excavation tool is provided, and in order to remove it when actual breakage or dropout occurs, There is no description about a technique capable of lifting a bit that has been lost.

In order to solve such conventional problems, it is an object of the present invention to provide a digging bit lifting apparatus capable of effectively lifting excavated bits dropped from a rod during a drilling operation or a damaged bit during a drilling operation.

According to an aspect of the present invention, there is provided an excavating bit lifting device for lifting an excavating bit within an excavation hole, the excavating bit lifting device including a coupling member capable of engaging with a rod at an upper portion thereof, And an excavating bit fixing part accommodated inside the excavating bit lifting part through the opening and accommodating and fixing a connecting member provided at an upper end of the excavating bit inside and fixing the excavating bit, Is formed in a wider truncated cone shape.

The excavation bit lifting device according to the present invention is characterized in that the excavation bit lifting portion includes a receiving portion in which a receiving space is formed so that the excavating bit securing portion is accommodated in a sliding manner in a lower portion thereof, And a stopper formed to be stepped to stop the upper end of the stopper.

The excavating bit lifting device according to the present invention is characterized in that the excavating bit securing portion is formed in a truncated cone shape in which upper and lower portions are opened and includes at least one first incision portion formed on the upper portion and at least one second incision portion Wherein when the excavating bit fixing part is slidably received in the receiving part of the excavator bit lifting part, the first incision part is contracted and fixed in the excavating bit lifting part.

Further, in the excavation bit lifting device according to the present invention, when the excavating bit fixing part is slidably received in the receiving part of the excavator bit lifting part, the excavating bit fixing part contracts the connecting part of the excavating bit, And fixed.

The excavator bit lifting device according to the present invention is characterized in that the lower inner diameter of the excavator bit securing portion is formed to be larger than the outer diameter of the connecting member of the excavating bit.

The excavation bit lifting device according to the present invention is characterized in that the lower inner diameter of the excavator bit lifting portion is formed to be equal to the outer diameter of the connecting member of the excavating bit.

Further, the excavating bit lifting device according to the present invention is characterized in that the engaging member is formed in a female screw or a male screw so as to be engageable with the end of the rod.

According to an embodiment of the present invention, there is provided a method of lifting an excavation bit, comprising: a joining member capable of engaging with a rod at an upper portion thereof; an excavator bit lifting portion having a truncated conical shape with an opening at a lower portion; A first step of preparing an excavating bit lifting device accommodated inside the portion of the excavating bit holding portion and containing a connecting member provided at the upper end of the excavating bit to receive and fix the connecting member therein; A second step of inserting the excavating bit lifting device into the excavation hole in a state in which the excavating bit holding device is coupled to the excavator, And a step of vertically moving the rod upward to fix the excavation bit fixed to the excavation- And a fourth step of lifting the ball from the ball.

The excavation bit lifting device according to the present invention is for lifting excavating bits that are broken inside the excavation hole or removed from the rod. The deeper the depth of the excavation hole is, the darker it is, There is an effect that the damaged excavation bit can be easily lifted.

1 is a schematic view showing a general excavation apparatus.
2 is a schematic diagram showing an excavation bit position detector;
Fig. 3 is a schematic view showing a drilling bit uprising device. Fig.
4 is a schematic diagram showing an excavation bit lifting device according to an embodiment of the present invention.
5 is a perspective view showing the construction of a digging bit lifting device according to an embodiment of the present invention.
6 is an exemplary view showing a method of fixing a digging bit using a digging bit lifting device according to an embodiment of the present invention.
7 is a flowchart showing a method of lifting an excavating bit by using the excavating bit lifting device of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. It is to be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms of disclosure, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view of a conventional drilling apparatus according to the present invention;

As shown in FIG. 1, a drilling apparatus is used to excavate a stratum layer while rotating the excavation bit attached to its end, and a drill bit is inserted into the stratum, , The excavation bit is often damaged and is located inside the excavation hole, and it is often impossible to remove it.

2 is a schematic diagram showing an excavation bit position detector. As shown in Fig. 2, the excavation bit position detector 10 has a cylindrical housing 20 with a diameter slightly smaller than that of the excavation hole 2, with an opening 30 formed at the bottom thereof.

And a coupling portion 40 capable of engaging with the rod 1 is mounted on the upper portion thereof. A male thread (not shown) is generally formed at the end of the rod 1 so that a plurality of rods 1 are connected to each other to drill a deep drilling hole. Therefore, (Not shown) is formed.

Depending on the shape of the rod 1, the coupling portion 40 may be configured in various forms correspondingly.

The cylindrical housing 20 has an opening 30 formed at the bottom thereof and has an empty shape and filled with a filler 50 of any one of lead, gypsum, mud, silicone, and rubber, for example, .

That is, in the case of lead, when the lead is inserted into the cylindrical housing 20 in a molten state and filled therein, the lead is filled with lead, and the lead is a soft metal having a low hardness. When the bit 3 is pressed, the shape of the excavation bit 3 is drawn on the lead. Since the hardness of the gypsum, the mud, the silicone, the rubber, etc. is low and the material is soft, it is filled and fixed in the cylindrical housing 20, and then, through the shape of the excavating bit, It is possible to predict the shape of the excavation bit 3 lying on the excavation bit 3.

Particularly, an upper portion of the cylindrical housing 20 includes a plurality of holes 60 so that the filler 50 filled therein fills the gap between the fillers 50 while pressing the excavation bit 3, The shape of the excavation bit 3 may not be properly captured and may be compressed. Therefore, when the pressure exceeds the predetermined pressure through the hole 60, the filler 50 is discharged to the outside, So that the shape of the excavating bit 3 can be imprinted on the filler material 50. [

Fig. 3 is a schematic view showing a drilling bit uprising device. Fig.

3, the drilling bit uprighting device 70 according to the embodiment of the present invention includes an opening 71 formed at a lower portion thereof, and a cylindrical excavating bit accommodating portion 72 having a diameter slightly smaller than the excavating hole 2 ).

An engaging portion 73 is fixed to the upper portion of the excavating bit accommodating portion 72. The engaging portion 73 is formed with a male screw thread (not shown) formed at the distal end of the rod 1, A female thread (not shown) is formed so as to be able to engage with a female thread. Therefore, the rotational force of the rod 1 can be transmitted to the cylindrical excavation bit storage portion 72 through the engagement portion 73 detachably coupled to the rod 1.

It is preferable that the inner diameter of the cylindrical excavation bit storage portion 72 is formed to be slightly larger than the outer diameter of the excavating bit 3 contacting the inner circumferential surface.

A plurality of threads 74 are formed on the inner circumferential surface of the excavating bit storage portion 72. [ Therefore, the rotation of the rod 1 causes the excavation bit storage portion 72 to transmit the centripetal force to the excavation bit 3 tilted while being rotated, so that the inclined excavation bit 3 is erected.

A plurality of holes 75 may be formed in the upper portion of the excavation bit storage portion 72. Foreign matter or the like is discharged to the outside of the excavation bit storage portion 72 through the hole 75 to effectively transmit the rotational force of the rod 1 to the excavation bit 2 3).

FIG. 4 is a schematic view showing a digging bit lifting device according to the present invention, and FIG. 5 is a perspective view showing the construction of a digging bit lifting device according to the present invention.

As shown, the excavator bit lifting apparatus 100 according to the present invention may include a excavation bit lifting unit 110 and a excavation bit fixing unit 120.

The drill bit lifting unit 110 is provided with a coupling member 111 at an upper portion thereof so as to be able to engage with the rod 1, an opening portion (not shown) at a lower portion thereof, Shape.

The coupling member 111 may be in the form of a female screw or a male screw so as to be able to engage with the end of the rod 1, and may be configured in various forms so as to be able to engage with the rod 1.

The digging bit fixing section 120 is slidably moved in the receiving section 112 so that the digging bit fixing section 120 can be housed in a sliding manner in the lower part of the digging bit lifting section 110, The stopper 113 may be formed to be stepped so as to stop the upper end of the stopper 113. [

The drill bit fixing part 120 is formed in a truncated cone shape in which upper and lower parts are opened. A plurality of first incisions 121 are formed on the upper part and at least one second incision part 122 is formed on the lower part .

The excavation bit fixing part 120 has an outer diameter equal to or slightly larger than the inner diameter of the excavating bit lifting part 110 so that the excavating bit fixing part 120 is fixed to the receiving part 112 of the excavating bit lifting part 110, The first cutout 121 and the second cutout 122 formed in the excavation bit fixing part 120 may be retracted and fixed within the excavator bit lifting part 110 when slidably housed in the digging bit fixing part 120. [

6, the lower inner diameter of the excavating bit fixing portion 120 is formed to be slightly larger than the outer diameter of the connecting member 31 of the excavating bit 3, so that the excavating bit 3 When the rod 1 is moved downward in a state where the connecting member 31 of the excavator 10 is housed in the excavator bit securing portion 120, the excavator bit lifting portion 110 is moved downward to interlock with the excavator bit securing portion 120 may be slid to the position where the latching part 113 is formed in the storage part 112 of the digging bit lifting part 110 and stored.

At this time, the first incised portion 121 of the excavating bit fixing portion 120 is contracted and fixed to the excavating bit lifting portion 110, and the second incising portion 122 is contracted, It is possible to fix the drill bit 31 to the drill bit relief portion 110 while fixing the drill bit 31.

As described above, even if the depth of the excavation hole 2 is formed deep, by using the excavation bit lifting apparatus 100 according to the present invention, the excavation bit 3 that is broken at the time of excavation or dropped from the rod 1 There is a feature that it can be easily lifted in the excavation hole 2.

7 is a flow chart illustrating a method of lifting an excavating bit in an excavation hole using the excavating bit lifting device of the present invention.

7, the excavation bit lifting method according to the present invention is characterized in that an engaging member 111 is provided at an upper portion so as to be able to engage with the rod 1, an opening is formed at a lower portion thereof, A drilling bit fixing section 120 which is accommodated inside the excavating bit lifting section 110 through the lifting section 110 and the opening and accommodates and fixes the connecting member 31 provided at the upper end of the excavating bit 3 inside, The excavator bit lifting device 100 is prepared (S101).

The excavation bit lifting device 100 is inserted into the excavation hole 2 in a state where the coupling member 111 of the excavator bit lifting portion 110 and the rod 1 are engaged The rod 1 is vertically moved downward to fix the connecting member 31 between the excavation bit fixing part 120 and the excavating bit 3 (S103). At this time, the first incision portion 121 contracts and the excavation bit fixing portion 120 is fixed in the excavator bit lifting portion 110 and the second incision portion 122 contracts, (31) is fixed and fixed to the excavator bit lifting unit (110).

Thereafter, the drill bit 3 fixed to the drill bit fixing part 120 is lifted from the drill hole 2 by vertically moving the rod 1 upward (S104).

Thus, through the excavation bit lifting method according to the present invention, it is possible to easily lift the excavating bit that is broken or broken off from the rod in the excavation work.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes, modifications, and variations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with the knowledge of this will know easily.

1: Load
2: Excavation Balls
3: Excavation bit
100: Excavation bit lifting device
110: Excavation bit lifting section
111:
112:
113:
120: Excavation bit fixing section
121: First incision section
122: second incision section

Claims (10)

In a digging bit lifting device,
A digging bit lifting unit having a coupling member capable of engaging with the rod at an upper portion thereof and having an opening at a lower portion thereof; And
And an excavation bit fixing part accommodated inside the excavation bit lifting part through the opening and accommodating and fixing a connecting member provided at an upper end of the excavating bit inside,
Wherein the excavation bit lifting portion has a truncated cone shape having a lower diameter than the upper end,
Wherein the excavation bit fixing unit comprises:
And has a truncated cone shape in which upper and lower portions are opened,
At least one first incision portion formed on the upper portion and at least one second incision portion formed in the lower portion,
Wherein when the excavating bit fixing part is slidably received in the receiving part of the excavator bit lifting part, the first incision part is contracted and fixed in the excavating bit lifting part.
The method according to claim 1,
Wherein the excavation bit lifting portion comprises:
And a receiving space in which a receiving space is formed such that the excavating bit securing part is accommodated in a sliding manner; And
And an engaging part formed to be stepped to stop the upper end of the excavation bit fixing part slidably moved in the accommodating part.
delete The method according to claim 1,
When the excavating bit fixing part is slidably received in the receiving part of the digging bit lifting part,
Wherein the excavating bit anchor secures the connecting member of the excavating bit while the second incision is contracted.
5. The method of claim 4,
Wherein the lower inner diameter of the excavation bit fixing portion is formed to be larger than the outer diameter of the connecting member of the excavation bit.
6. The method of claim 5,
Wherein the lower inner diameter of the excavation bit lifting portion is formed to be equal to the outer diameter of the connecting member of the excavating bit.
The method according to claim 1,
Wherein the engaging member is in the form of female thread or male thread so as to be engageable with the end of the rod.
A drilling bit lifting portion formed in a truncated conical shape and accommodated in the inside of the excavating bit lifting portion through the opening portion and having a connection portion provided at an upper portion of the excavating bit, A first step of preparing a digging bit lifting device including an excavating bit securing part for receiving and fixing a member inside;
A second step of inserting the excavating bit lifting device into the excavation hole in a state where the coupling member of the excavating bit lifting portion and the rod are engaged;
A third step of vertically moving the rod downward on the excavation bit to fix the connection member of the excavation bit fixing part and the excavation bit; And
And a fourth step of vertically moving the rod upward to lift the excavating bit fixed to the excavating bit fixing section from the excavation hole,
The lower inner diameter of the excavation bit fixing part is formed to be larger than the outer diameter of the connecting member of the excavation bit,
The lower inner diameter of the excavation bit lifting portion is formed to be equal to the outer diameter of the connecting member of the excavation bit,
Wherein the excavating bit fixing part is formed in a truncated cone shape having upper and lower openings, at least one first incision part formed on the upper part and at least one second incision part formed on the lower part,
Wherein when the excavating bit fixing part is slidably received in the receiving part of the digging bit lifting part, the first incising part is contracted and fixed in the excavating bit lifting part, and the second incising part is contracted, To the excavation bit. delete delete

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