KR101287456B1 - Apparatus for withdrawing excavating bit in excavation hole - Google Patents

Abstract

PURPOSE: An excavation bit drawing device drawing an excavation bit in an excavation hole is provided to correct a point of the excavation bit in the excavation hole and to draw the excavation bit to the outside of the excavation hole. CONSTITUTION: An excavation bit drawing device (100) drawing an excavation bit (3) in an excavation hole comprises a tip unit (110), a guide unit (120), a stop unit (130), and an excavation bit position fixing unit (140). The upper end of the tip unit is connected to the end of a rod, and the lower end of the tip unit comprises a connection unit (111) connected to the excavation bit. The guide unit is mounted on an outer circumference of the tip unit in order to slide in a longitudinal direction. The stop unit is integrally installed in the lower part of the tip unit and prevents the guide unit from being separated from the tip unit. The excavation bit position fixing unit matches the center of the excavation bit and the center of the tip unit.

Description

Excavation bit taking out device for extracting excavation bit in the excavation hole {APPARATUS FOR WITHDRAWING EXCAVATING BIT IN EXCAVATION HOLE}

The present invention relates to an excavation bit extracting apparatus, and more particularly, to an excavation bit extracting apparatus for engaging with an excavating bit in an upright state in a state in which an excavating bit broken or separated from a rod is pulled up and removed in an excavation hole. It is about.

In general, boring is the drilling of small holes with diameters suitable for the purpose in the earth's crust to understand the structure and properties of the strata. It is made to collect natural gas, hot springs and groundwater.

Depending on the purpose of use, there are various scales, ranging from several meters to thousands of meters in length and several millimeters to tens of centimeters in diameter. Today, large-scale drilling of several meters in diameter is carried out for use as a vertical shaft.

According to the excavation method, the impact type that impacts the drilling bit and breaks the rock and drills the drill type, and the rotary type that drills the hole by rotating the bit and tricon bit with the diamond and cemented carbide inserted at the end of the steel pipe (pipe) while pressing against the rock surface. There is this. The deepest borehole in the world is 8,000 meters perforated in the American oil field.

In the case of such a large-scale drilling, the length of the steel pipe (referred to as a steel pipe or less rod) becomes long, so that a certain length of rods are connected in order to extend the length. However, when inserting a 'casing' (called a casing under a thick cylindrical steel pipe) into an excavated hole to replace an excavation bit or to prevent borehole wall collapse or groundwater inflow, it is often necessary to lift the rod for various investigations. Lose.

To this end, large hoisting towers are to be installed, and around them, power plants or excavation equipment used for the purpose of removing the excavated material and preventing the collapse of the hollow walls are to be arranged.

Drilling is also an important task in mines against underground deposits. In mines, it may be used as a drainage hole or a ventilation hole, a passage through which ores and waste-rock pass, or for the purpose of passing an electric cable. It is common to conduct drilling for preliminary investigations before exploring the tunnel, such as exploration of geological or mineral deposits or advanced drilling.

In the rotary drilling, the rock can be extracted into the core of the rod of the planned diameter of the core called 'core', so that a good result can be obtained for the exploration of the quality of rock, dignity and deposit.

In impact drilling, it is possible to determine the quality and quality of rock by investigating the powder from the hole during drilling. Drilling to collect the 'core' is called core drilling (core boring), and drilling to collect the powder is called bunny drilling (sludge boring). Drilling is also used as a hole for investigating the structure and situation inside the crust because it can insert various measuring measuring instruments and experimental devices. Other uses include dam construction of power plants and basic surveys of buildings.

The drilling hammer drilling bit used for such drilling uses different types of hammer drilling bits according to the use or geological conditions. The types of hammer drilling bits for the direct drilling method and the hammer for the indirect drilling method are used. It is roughly classified as an excavation bit.

The hammer drilling bit for the direct drilling method is used in a manner in which the state of the ground layer is good or does not drill deeply, and the drilling bit housing mounted on the hammer drill without the casing rotates to drill the ground layer.

The hammer drilling bit for the indirect drilling method is used for drilling while embedding the steel pipe in the drilling hole.The drilling bit housing and the drilling bit mounted on the hammer drill drill the hole wider than the diameter of the steel pipe. It is pulled out through the tube.

The indirect drilling hammer drills have a large pressure increase as they go deeper into the ground, and the load caused by a lot of energy interferes with the hammer drilling bit, making the drilling difficult. In addition, the hammer drilling bit, which must excavate a hole wider than the diameter of the landfilled casing, will cause the casing to become stuck at the same time as the excavated amount. Not only is it difficult, but a lot of load is applied during the excavation, which causes breakage of the hammer drilling bit, and it becomes very difficult to remove the hammer drilling bit after the excavation.

Conventionally, if a drilling bit is broken or a problem such as a neck portion of a drilling bit housing or a drilling rod is broken, there is no technology or a device for lifting the drilling bit. There was a problem that can only be closed.

Also in the "excavation tool and excavation method" of Patent Publication No. 10-2007-0096885, the connection with the inner bit is released by the impact, the ring bit is dropped into the excavation hole, and the subsequent excavation itself becomes impossible. However, as a solution for this, it provides an excavation tool that does not cause the drop of the ring bit during excavation, and an excavation method using the excavation tool, and excavation to remove when the actual breakage or dropout occurs There is no disclosure of a technique for fetching bits.

In order to solve such a conventional problem, the excavation bit extraction apparatus capable of withdrawing the excavation bit in the excavation hole according to the present invention, the excavation bit is broken in the excavation hole during the excavation operation or dropped from the rod in the upright position The purpose is to be able to be pulled out of the excavation hole by combining with the excavation bit while correcting.

In order to achieve the above object, an excavation bit extraction apparatus for pulling out an excavation bit upright in an excavation hole according to an embodiment of the present invention, the upper end is coupled to the rod, the lower end is provided with an engaging portion to engage with the excavation bit A tip part, a guide part mounted on an outer circumferential surface of the tip part and slidably movable in a longitudinal direction, a stop part provided below the tip part, and a hollow truncated conical shape coupled to the guide part through an upper part to prevent the guide part from being separated It consists of a drilling bit position fixing portion for guiding the center of the drilling bit and the center of the tip portion.

In addition, the drilling bit extraction apparatus according to the present invention is characterized in that the end of the coupling portion is formed to be tapered.

In addition, the drilling bit extraction apparatus according to the present invention is characterized in that the thread is formed so that the coupling portion is screwed with the female screw formed on the upper end of the drilling bit on the outer peripheral surface.

In addition, the drilling bit extracting apparatus according to the present invention is characterized in that the drilling bit position fixing unit maintains the position of the drilling bit while the tip is screwed with the drilling bit by receiving the rotational force of the rod. do.

Excavation bit withdrawal method according to an embodiment of the present invention, the upper end is coupled to the rod, the lower end is coupled to the excavation bit with a tip portion, and the guide portion is mounted on the outer circumferential surface of the tip and slidable in the longitudinal direction And, provided in the lower portion of the tip, the stopper for preventing the separation of the guide portion and the hollow portion of the truncated conical shape that is coupled to the guide penetrates through the upper drilling guide for aligning the center of the drilling bit and the center of the tip portion A first step of preparing an excavation bit takeout device including a position fixing part, a second step of inserting the excavation bit takeout device into an excavation hole, and the position height so that the center of the excavation bit coincides with the center of the tip part A third step of fixing the position of the excavation bit by using a government, and a state of fixing the position of the excavation bit A fourth step of fixing the coupling part and the excavation bit provided in the tip part and a fifth step of drawing the excavation bit fixed in the tip part outward from the excavation hole while vertically moving the rod upwardly while maintaining it. It is characterized by including.

Excavation bit extracting apparatus according to the present invention is to withdraw the excavation bit broken in the excavation hole or dropped from the rod in the state of maintaining the upright state, the deeper the depth of the excavation hole, the deeper the water and the excavation process If the excavation is not possible due to the generated soil, the drilling bit inclined inside the drilling hole is erected and combined with the drilling bit to facilitate removal to the outside of the drilling hole to improve the efficiency of excavation work. It can be effected.

1 is a schematic view showing a general drilling rig.
2 is a schematic diagram showing an excavation bit position detector.
3 is a schematic view showing an excavation bit upright apparatus.
Figure 4 is a schematic diagram showing an excavation bit extraction apparatus according to an embodiment of the present invention.
5 is a perspective view showing the configuration of an excavation bit extraction apparatus according to an embodiment of the present invention.
Figure 6 is an exemplary view showing the fixing of the drilling bit by using the drilling bit lifting device according to the present invention.
7 is a flowchart showing a method of extracting an excavation bit using the excavation bit extracting apparatus 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. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present 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. Singular expressions include plural expressions unless the context clearly indicates 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.

1 is a schematic diagram of a general drilling rig according to the present invention.

As shown in Figure 1, using an excavation device, the excavation bit attached to the end is rotated to excavate the stratum, the excavation bit is inserted as the excavation hole is formed in the stratum, and meet the rock layer in the basement in the process In this case, the drilling bit is frequently broken and placed inside the drilling hole, and this is often impossible to remove.

2 is a schematic diagram illustrating an excavation bit position detector. As shown in FIG. 2, the drilling bit position detector 10 has an opening 30 formed at the bottom thereof, and includes a cylindrical housing 20 having a diameter somewhat smaller than that of the drilling hole 2.

The upper part is equipped with a coupling portion 40 that can be coupled to the rod (1). Male thread (not shown) is generally formed at the end of the rod 1 to connect a plurality of rods 1 to dig a deep drilling hole, so that the female part has a female thread to be coupled with the male thread. (Not shown) is formed.

According to the shape of the rod 1, the coupling part 40 may be configured in various forms correspondingly.

The cylindrical housing 20 has an opening 30 formed at a lower portion thereof, and has a hollow shape. For example, the filler 50 of any one of lead, gypsum, mud, silicon, and rubber is filled in the hollow. .

That is, in the case of lead, when the lead is inserted into the cylindrical housing 20 in the molten state and filled and cured therein, the inside of the cylindrical housing 20 is filled with lead, and the lead is a soft metal having low hardness, so that drilling of steel material is performed. Pressing over the bit 3 causes the shape of the drilling bit 3 to be stamped on the lead. In addition to lead, gypsum, mud, silicon, rubber, etc., because the hardness is low and soft material is filled and fixed in the cylindrical housing 20, and then inside the excavation hole (2) through the shape of the excavation bit stamped here It is possible to predict the shape of the excavation bit 3 lying in the.

In particular, the filler 50 including the plurality of holes 60 in the upper portion of the cylindrical housing 20 fills the voids between the fillers 50 while pressing the excavation bit 3, and then the fillers 50. When each of the particles of the continuous drilling bit (3) shape is not properly taken, there may be a limit to compression, so if the predetermined pressure or more through the hole 60, the filler 50 is discharged to the outside even at a smaller pressure The shape of the drilling bit 3 can be stamped on the filler 50.

3 is a schematic view showing an excavation bit upright apparatus.

As shown in FIG. 3, the drilling bit upright device 70 according to the embodiment of the present invention has an opening 71 formed at a lower portion thereof, and has a cylindrical drilling bit receiving part 72 having a diameter slightly smaller than that of the drilling hole 2. ) May be included.

An upper portion of the drilling bit receiving portion 72 is equipped with a coupling portion 73 coupled to and fixed to the rod 1, and the coupling portion 73 is a male screw thread (not shown) formed at the end of the rod 1. A female thread (not shown) is formed so as to be able to be combined with each other. Therefore, the rotational force of the rod 1 can be transmitted to the cylindrical drilling bit storage unit 72 through the coupling portion 73 detachably coupled to the rod 1.

The inner diameter of the cylindrical drilling bit receiving portion 72 is preferably formed slightly larger than the outer diameter of the drilling bit 3 in contact with the inner peripheral surface.

In addition, a plurality of threads 74 are formed on the inner circumferential surface of the excavation bit housing 72. Therefore, by transferring the centripetal force to the excavation bit 3 inclined while the excavation bit accommodating portion 72 rotates by the rotation of the rod 1, the inclined excavation bit 3 is made upright.

In addition, a plurality of holes 75 may be formed at an upper portion of the drilling bit storage unit 71. When there is foreign matter such as groundwater or mud in the excavation hole 2, the foreign matter or the like is discharged to the outside of the excavation bit accommodating part 72 through the hole 75, so that the rotational force by the rod 1 is more effectively excavated. 3) can be delivered.

Figure 4 is a schematic diagram showing a drilling bit lifting device according to the present invention, Figure 5 is a perspective view showing the configuration of the drilling bit lifting device according to the present invention, Figure 6, drilling bit using the drilling bit lifting device according to the present invention It is an exemplary figure which shows the fixation of as an example.

As shown, the drilling bit extraction apparatus 100 according to the present invention may include a tip portion 110, a guide portion 120, the stop 130 and the drilling bit fixing portion 140.

An upper end of the tip part 110 may be coupled to the end of the rod 1, and a coupling part 111 may be formed at the lower end thereof to be coupled to the drilling bit 3. For example, the end of the coupling portion 111 is tapered, the outer circumferential surface may be threaded to be screwed with the connection member (not shown) formed with a female thread on the upper end of the drilling bit (3). In particular, since the shape of the coupling 111 is tapered, it is possible to easily couple the connecting member formed on the drilling bit (3).

The guide portion 120 is mounted on the outer circumferential surface of the tip portion 110 to be slidably movable in the vertical direction, that is, in the longitudinal direction. In addition, a lower portion of the tip 110 may be integrally provided with a stop 130 to prevent the guide portion 120 from being separated from the tip 110.

The guide part 120 may be integrally coupled to the drilling bit position fixing part 140 that penetrates the upper portion and has a hollow truncated cone shape to guide the center of the drilling bit 3 and the center of the tip part 110 to coincide with each other.

Therefore, as shown in FIG. 6, while the tip 110 is screwed with the drilling bit 3 by receiving the rotational force of the rod 1, the drilling bit position fixing part 140 is positioned at the position of the drilling bit 3. Can be kept fixed.

In particular, even when the excavation bit 3 is positioned in an inclined state in the excavation hole 2, since the excavation bit position fixing part 140 has a truncated conical shape, the guide part 120 is the outer circumferential surface of the tip part 110. Sliding along it has a feature that can maintain the drilling bit (3) upright by the drilling bit position fixing part (140).

As described above, even if the depth of the excavation hole 2 is deeply formed and the excavation bit 3 in the excavation hole 2 is positioned in an inclined state, by using the excavation bit extracting apparatus 100 according to the present invention, Excavation bits (3) that are broken during the excavation or dropped from the rod (1) has a feature that can be easily combined withdrawal in the excavation hole (2).

7 is a flowchart illustrating a method of combining and extracting an excavation bit in an excavation hole using the excavation bit extracting apparatus of the present invention.

As shown in FIG. 7, the drilling bit withdrawal method according to the present invention includes a tip part 110 having an upper end coupled to the rod 1 and a lower end coupled with the excavation bit 3. And a guide part 120 mounted on an outer circumferential surface of the tip part 110 and movable in the longitudinal direction, and provided at a lower part of the tip part 110 to stop the guide part from being separated and the guide part 120. ) Is a hollow truncated truncated conical shape coupled to the upper portion of the excavation bit extraction device 100 including an excavation bit position fixing part 140 for guiding the center of the excavation bit 3 and the center of the tip 110. To prepare (S101).

Thereafter, the drilling bit taking out device 100 coupled with the rod 1 is inserted into the drilling hole 2 (S102), and the position fixing unit (M) is made to coincide with the center of the drilling bit 3 and the center of the tip 110. The position of the drilling bit 3 is fixed by using 140 (S103).

Next, while fixing the position of the drilling bit (3), that is, while maintaining the upright state, the coupling portion 111 and the drilling bit provided in the tip portion 110 is fixed by a screwing method (S105).

Finally, in the state in which the drilling bit 3 and the drilling bit takeout device 100 are coupled, the drilling bit 3 fixed to the tip 110 is moved by vertically moving the rod 1 upwards. ) Can be withdrawn from the outside (S105).

As described above, through the excavation bit withdrawal method according to the present invention, it is possible to easily take out the excavation bit broken or dropped from the rod during the excavation operation in the excavation hole. In particular, even if the drilling bit is located in the drilling hole in the inclined state, there is a feature that can be taken out by combining the drilling bit while maintaining the drilling bit in an upright state.

While the invention has been shown and described in connection with specific embodiments thereof, it is conventional in the art that various changes, modifications and variations are possible without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone who knows the knowledge of is easy to know.

1: Load
2: Excavator
3: excavation bit
100: excavation bit takeout device
110: tip portion
111: coupling part
120: guide part
130: stop
140: excavation bit position fixing portion

Claims (7)

A tip having a top coupled to the rod, the bottom having a coupling to engage with the excavation bit;
A guide part mounted on an outer circumferential surface of the tip part and movable in a longitudinal direction;
A stop part provided below the tip part to stop the movement of the guide part; And
And an excavation bit position fixing part configured to guide the center of the excavation bit and the center of the tip by being formed in a hollow truncated conical shape, the guide part penetrating through an upper portion thereof.
The method of claim 1,
Excavation bit extraction device, characterized in that the coupling end is tapered.
The method of claim 1,
The coupling part is a drilling bit extraction device, characterized in that the screw thread is formed on the outer circumferential surface to screw the female screw formed on the upper end of the drilling bit.
The method of claim 3, wherein
Excavation bit extraction device, characterized in that the drilling bit position fixing unit maintains the position of the drilling bit fixed while the tip portion is screwed with the drilling bit receiving the rotational force of the rod.
A tip part having an upper end coupled to the rod and having a lower end coupled with an excavation bit, a guide part mounted on an outer circumferential surface of the tip part and slidable in a longitudinal direction, and provided at upper and lower ends of the tip part, respectively, Excavation bit extracting device including a stop for stopping the movement of the guide portion and a drilling bit position fixing portion made of a hollow truncated conical shape coupled to the upper portion and guides the center of the drilling bit and the center of the tip portion Preparing the first step;
Inserting the drilling bit extracting device into a drilling hole;
A third step of fixing the position of the excavation bit by using the position fixing part to coincide with the center of the excavation bit and the tip portion;
A fourth step of fixing the coupling part and the drilling bit provided in the tip part while keeping the position of the drilling bit fixed; And
And a fifth step of drawing the excavation bit fixed to the tip portion from the excavation hole to the outside by vertically moving the rod upwardly. 2.
The method of claim 5, wherein
Excavation bit withdrawal method characterized in that the coupling end provided in the tip is tapered end.
The method according to claim 6,
In the fourth step, the coupling unit,
Drilling bit withdrawal method characterized in that the screw thread is formed on the outer circumferential surface to screw the female screw formed on the upper end of the drilling bit.

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