KR101254090B1 - Guide apparatus for boring - Google Patents

Abstract

The present invention is a pair of side wall member 100 is formed with a plurality of guide member mounting portion 110 at intervals along the longitudinal direction; A plurality of guide members 200 mounted to the guide member mounting unit 110; And a support member 300 for supporting the pair of side wall members 100, and a casing 10 for drilling is inserted into an area between the pair of side wall members 100 and the plurality of guide members 200. By presenting the guide device of the drilling operation, characterized in that it is formed to be guided, so that the drilling path is not bent even if it meets the rock layer during the drilling work, so that the drilling hole or the base structure can meet the design purpose.

Description

Guide device for drilling work {GUIDE APPARATUS FOR BORING}

The present invention relates to the field of civil engineering, and more particularly, to a guide structure for drilling.

Drilling, or drilling, refers to the technique of drilling long holes in the ground, also called boring.

It is generally used for the construction of foundation structures by piles of piles. In addition, it is carried out for the detailed investigation of the internal conditions of the earth's crust such as underground geological structure and distribution of rock species or deposits of mines in mines. It is also widely used for drilling oil and natural gas, developing geothermal or hot springs, and drilling holes used for aeration, drainage, pumping, and blasting.

The diameter and depth of the hole are also varied, and various drilling machines are used, which are divided into impact type and rotary type (rotary type) according to the drilling method.

Impact drilling is used for relatively shallow drilling within hundreds of meters by breaking the ground and drilling the hole vertically downward by repeatedly hitting the bottom of the hole by freely dropping the bit at the end of the wire rope at a constant height.

By 1803, I.M. The steam cloth drill invented by Singer is the first machine of its kind.

Rotary drilling is the most widely used method today and can be drilled in any direction.

A steel pipe called an oyster pipe is lengthened appropriately according to the depth of the hole, and it is drilled by cutting the ground by pushing and rotating the bit fixed at the end of the hole to the bottom of the hole. It reaches 8000m.

By 1910, British mechanical engineer R. Trevisik first made this type of steam drill.

For bits used in rotary drilling, metal bits, rock bits, and diamond bits are selected according to the hardness of the ground to be drilled.

The metal bit is the cemented carbide at the blade tip, and the rock bit is used for hard rock. It is composed of several conical rollers with many projections, and is used to fracture the rock by the wedge action of the projection when rotating on the bottom of the hole. It is.

Diamond bits are used for hard rock and cemented rock, which are used for cemented carbide, with diamond eggs embedded in the blade edge and vacuum sintered mixtures of fine grained diamond and metal powder as blade edges. .

Both are crushed using the abrasive effect of rocks by diamond eggs. Drilling using diamond bits is called diamond drilling.

Rotary drills for geological surveys often use a core bit that breaks into a round ring shape and leaves a round rod-shaped core in the center.

The core is a sample of the rock, and is used for precise investigation of the composition and the properties of the rock. This is called core boring.

A vessel called a core tube is connected between the gore bit and the oyster tube to keep the core safe.

In rotary drilling, the muddy water is injected into the hole through the oyster tube, and then spouted from the end of the bit and circulated for cooling the blade tip, draining out of the dug, and protecting the hole wall.

In the drilling of the collapsible layer or the water and water layer, a thin steel pipe called a casing pipe is inserted to protect the hole.

There is also a method called shortball drilling, which uses a small grain of chilled steel balls (shortballs) in the muddy water to help fracture the hard rock by interacting with the shortballs.

Recently, a tunnel excavator and a granular excavator using rotary large diameter drilling have been developed.

Especially for tunnel construction, reinforcement of the surrounding ground, construction of apartment buildings, reinforcement of the ground, construction of structures such as the subway, reinforcement of the surrounding ground, or the formation of earthen walls and water barriers. Needs to be.

By the way, the ground to be drilled or drilled is divided into soil and rock, which is easy to drill in the case of soil, but not easy in the case of rock.

And the ground is usually a mixture of soil layer and rock layer has a problem that the perforation path may be bent by the rock layer during the drilling.

That is, in the case of drilling the ground including the rock layer, in the case of earth and sand layer, the perforation path does not occur, but when the bit meets the rock layer, the perforation path may be formed out of the design condition by the strength of the rock layer. There is a problem.

In particular, in order to block the flow of water, such as groundwater, there is a problem that the gap between the neighboring piles is opened and the work to separately fill it.

The present invention has been derived to solve the above problems, even when encountering a rock layer during the drilling work so that the drilling path is not bent, so that the drilling hole or the base structure to meet the design purpose of the drilling guide device Its purpose is to present.

In order to solve the above problems, the present invention is a pair of side wall member 100 formed with a plurality of guide member mounting portion 110 at intervals along the longitudinal direction; A plurality of guide members 200 mounted to the guide member mounting unit 110; And a support member 300 for supporting the pair of side wall members 100, wherein a casing 10 for drilling is provided between the pair of side wall members 100 and the plurality of guide members 200. It proposes a guide device for drilling operations, characterized in that formed to be inserted into the guide.

The guide member mounting portion 110 preferably includes a mounting groove 111 formed with a slit on the upper side so that the guide member 200 is fitted from the top.

The guide member mounting portion 110 preferably includes a coupling hole 112 formed to insert the guide member 200.

The guide member 200 is preferably a rod-shaped structure.

It is preferable to further include a reinforcement support part 120 formed on the outer side of the side wall member 100.

The side wall member 100 and the reinforcement support part 120 are formed by the H beam 100a, and the side wall member 100 is preferably formed by the flange of the H beam 100a.

The support member 300 is preferably installed in front and rear of the pair of the H beam (100a).

The support member 300 preferably has an H beam structure.

The present invention provides a guide device for drilling work so that the drilling path is not bent even when encountering the rock layer during the drilling work, so that the drilling hole or the base structure can meet the design purpose.

Figure 1 below shows an embodiment of the present invention,
1 is a perspective view of a first embodiment.
2 is a use state diagram of the first embodiment;
4 is a partial side view of the first embodiment;
5 is a partial side view of a second embodiment;
6 is a perspective view of a third embodiment;

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

As shown in Figure 1, the guide device of the drilling operation according to the present invention basically, a pair of side wall member 100 formed with a plurality of guide member mounting portion 110 at intervals along the longitudinal direction; A plurality of guide members 200 mounted to the guide member mounting unit 110; It comprises a; support member 300 for supporting a pair of side wall member (100).

Here, the casing 10 for the drilling operation is characterized in that it is formed to be inserted into the guide between the pair of side wall member 100 and the plurality of guide member 200.

That is, in the drilling operation using the casing 10 in which the impact or rotary drilling bit is inserted therein, the drilling casing 10 is not directly placed on the ground and the drilling operation is performed. The casing 10 is inserted and guided between the pair of side wall members 100 and the plurality of guide members 200 to perform the drilling operation by the bit 20 (FIGS. 2 and 3).

This has the following effects.

First, since the casing 10 is guided by the pair of side wall members 100 and the plurality of guide members 200, the drilling operation is performed, so that the drilling path is not bent even when the rock layer is encountered during the drilling operation. However, the base structure may be suitable for the design purpose.

For example, in the case of the drilling work for the formation of the underground wall by laying the pile, the verticality of the pile is excellent, so that the possibility of leakage through the gap between piles is reduced, thereby obtaining a stable underground water barrier wall.

Second, when the length of the side wall member 100 is formed long to the length corresponding to the diameter of the plurality of casing 10, it can be drilled by the guide of the plurality of casing 10 with one guide device. Therefore, the perforation hole can be formed along a certain row.

Guide member mounting portion 110 formed on the side wall member 100 may be implemented by a variety of structures.

First, the guide member mounting portion 110 may take a structure including a mounting groove 111 is formed in the upper portion so that the guide member 200 is fitted from the top (Fig. 4).

This is because the guide member 200 can be easily mounted and detached with respect to the mounting groove 111, there is an advantage that workability is excellent.

Second, the guide member mounting portion 110 may take the structure of the coupling hole 112 formed to insert the guide member 200 (Fig. 5).

This has the advantage that the guide member 110 can be inserted into the coupling hole 112 from the side to achieve a stable structure.

Guide member 200 is preferably to take the rod-shaped structure for convenience of work and stability of the structure.

In particular, taking a rod-shaped structure having a circular cross section is more preferable in terms of minimizing friction with the casing 10.

Only a pair of side wall member 100 and the support member 300 can fully achieve the object of the present invention, but if a separate reinforcement support 120 is formed on the outside of the side wall member 100 to achieve a more stable structure There is an advantage that it can (Fig. 6).

The side wall member 100 and the reinforcement support part 120 are formed by the H beam 100a, and the side wall member 100 takes the structure formed by the flange of the H beam 100a by using a general material. It is preferable in terms of easily achieving the structure according to the present invention (Fig. 6).

The support member 300 for supporting the pair of side wall members 100 is preferably installed in front and rear of the pair of the H beam (100a) for structural stability.

Furthermore, this support member 300 can achieve a more stable support structure when taking the H beam structure (Fig. 6).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: side wall member 100a: H beam
110: guide member mounting portion 111: mounting groove
112: coupling hole 120: reinforcement support
200: guide member 300: support member

Claims (8)

A pair of sidewall members 100 having a plurality of guide member mounting portions 110 spaced along the longitudinal direction;
A plurality of guide members 200 mounted to the guide member mounting unit 110;
And a rod-shaped support member 300 for supporting the pair of side wall members 100.
The casing 10 for the drilling operation is formed to be inserted and guided in an area between the pair of side wall members 100 and the plurality of guide members 200,
The guide member mounting portion 110
It characterized in that it comprises a mounting groove 111 is formed in the upper portion so that the guide member 200 is fitted from the top, or the coupling hole 112 is formed so that the guide member 200 is inserted coupling. Guide device for drilling work. delete delete delete The method of claim 1,
Guide device for drilling, characterized in that it further comprises a reinforcement support portion 120 formed on the outside of the side wall member (100). The method of claim 5,
The side wall member 100 and the reinforcement support part 120 are formed by the H beam 100a, and the side wall member 100 is formed by a flange of the H beam 100a. . The method according to claim 6,
The support member 300 is a guide device for drilling operations, characterized in that installed in front and rear of the pair of the H beam (100a). The method of claim 7, wherein
The support member 300 is a guide device for drilling work, characterized in that the H-beam structure.

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