KR101271573B1 - Setting device for explosive and setting method for explosive using the same - Google Patents

Abstract

According to the present invention, the container structure is formed to have a length longer than the width, and an accommodation space 111 of the explosive is formed therein so as to be inserted into the charge hole 20 having a longer length than the width of the hole. By presenting the explosives installation mechanism 100, characterized in that the main body 110 of the, so that the installation of the explosives for the charge hole can be easily and safely performed.

Description

Explosives installation mechanism and the explosives installation method using the same {SETTING DEVICE FOR EXPLOSIVE AND SETTING METHOD FOR EXPLOSIVE USING THE SAME}

TECHNICAL FIELD The present invention relates to the field of construction, and more particularly, to a method for installing explosives used in excavation of tunnels.

There are various types of methods for forming a conventional tunnel, among which a blasting method using explosives is performed by the following process.

After forming a plurality of charge holes 20 at a mutual distance along the boundary line 11 of the excavation hole 10, the explosives are inserted into the charge hole 20 and blasted (FIG. 1).

After blasting, shotcrete is poured on the boundary surface formed along the boundary line 11 of the excavation hole 10, reinforced with the supporting material, and then, lining concrete is poured.

Above charge hole 20 is effectively formed so that the explosive force of the explosive extends to the deep portion of the ground.

In addition, in order to reduce the effort required for drilling work of the charge hole 20, the width of the charge hole is generally as narrow as possible, so the charge hole 20 is formed to have a very long length compared to the width of the hole.

On the other hand, the explosive charges 200 generally take a configuration in which a plurality of charge portions 210 having a rod structure are formed to be long formed by the connection line 220 (FIG. 2).

However, it has been pointed out as a problem in that the installation of the explosives 200 having such a structure into the charge hole 20 formed with a very long length as compared to the width of the hole is not easy and dangerous in reality.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an explosives installation mechanism and explosives installation method using the same to facilitate the installation of the explosives for the masonry.

In order to solve the above problems, the present invention is formed to be longer than the width to be inserted into the charge hole 20 is formed longer than the width of the hole, and the storage space 111 of the explosive is formed therein It proposes an explosives installation mechanism 100, characterized in that the upper portion is provided with a main body portion 110 of the container structure.

It is preferable that the front end of the main body 110 is open.

The cross section of the main body 110 is preferably a semi-circular structure.

The present invention comprises the steps of storing the explosives (200) in the accommodation space 111 of the explosives installation mechanism (100); Inserting the explosives installation mechanism (100) into the charging hole (20) while the explosives (200) are accommodated; Turning over the explosives installation mechanism (100) so that the explosives (200) are installed inside the charge hole (20); Separating the explosives installation mechanism (100) outward of the charge hole (20); Presenting the explosives installation method comprising; blasting the explosives 200.

The present invention provides a charge hole forming step of forming a plurality of charge holes 20 at a mutual distance along the boundary line 11 of the excavation hole 10; Storing explosive charges (200) in the accommodation space (111) of the explosive charge installation mechanism (100); Inserting the explosives installation mechanism (100) into the charging hole (20) while the explosives (200) are accommodated; Turning over the explosives installation mechanism (100) so that the explosives (200) are installed inside the charge hole (20); Separating the explosives installation mechanism (100) outward of the charge hole (20); Presenting an excavation method including a; blasting the explosives 200.

The present invention is a tunnel method using the excavation method, wherein the charge hole forming step is characterized in that to form a plurality of charge holes 20 along the boundary line 11 of the excavation hole 10 for the formation of the tunnel. Present the tunnel technique together.

The present invention proposes an explosives installation mechanism and explosives installation method using the same to enable easy and safe installation of the explosives for the charge hole.

1 is a process diagram of a conventional tunnel construction method.
2 is a side view of the explosive.
3 or less shows an embodiment of the present invention,
3 is a perspective view of the explosives installation mechanism;
4 to 7 is a process chart of the explosives installation method.

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

As shown in Figure 3 below, the explosives installation mechanism 100 according to the present invention is basically formed longer than the width, so that the length is inserted into the charge hole 20 formed longer than the width of the hole, The interior of the container 110 is formed with an explosive storage space 111, and has a main body 110 having an open top.

The excavation method using such explosives installation mechanism 100 is comprised by the following process.

A plurality of charge holes 20 are formed at a distance along the boundary line 11 of the excavation hole 10, and the explosive charges 200 are stored in the storage space 111 of the explosive charge installation mechanism 100 (FIG. 4). ).

With the explosive charge 200 stored, the explosive charge installation mechanism 100 is inserted into the charge hole 20 (FIG. 5).

Although it is difficult to insert only the explosives 200 into the charge hole 20 having a very long length compared to the width, the explosives installation mechanism 100 in the state where the explosives 200 are stored in the explosives installation mechanism 100 in this manner. Inserting into the charge hole 20 can be easily and safely performed.

Turn over the explosives installation mechanism 100 so that the explosives 200 is installed inside the charge hole 20 (FIG. 6).

Since the upper part of the main body 110 of the explosives installation mechanism 100 is open, the explosives 200 are installed on the bottom of the charge hole 20 only by flipping it, and the explosives installation mechanism 100 is inverted. What is necessary is just to leave out of the charge hole 20 (FIG. 7).

Thereafter, the explosives 200 are blasted.

Therefore, when applying the explosives installation mechanism 100 and the explosives installation method according to the present invention, even if the length of the long hole compared to the width, there is an effect that can easily and safely install the explosives for the charge hole. .

When the width of the charge hole 20 is small, it is more preferable that the front end of the main body 110 of the explosive charge installation mechanism 100 is also opened.

This is because after the explosives installation mechanism 100 is turned upside down and the explosives 200 are installed, the explosives installation mechanism 100 can be detached as it is.

After the explosives 200 are installed in the charge hole 20, the explosives installation mechanism 100 needs to be turned upside down within the charge hole 20 in order to move the explosives installation mechanism 100 out of the charge hole 20 (half turn). It is preferable that the cross section of the main body 110 of the explosives installation mechanism 100 takes a semi-circular structure in order to easily perform this operation without touching the inner surface of the charge hole 20.

The above-described mechanism and method may be applied to any case in which explosives are required for long holes, which are longer than widths. This will be more effective.

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.

10: excavation hole 11: boundary line
20: loader 100: explosives installation mechanism
110: main body 111: explosive storage space
200: explosive

Claims (6)

The main body portion of the container structure is formed in the length of the container hole is formed longer than the width, the storage space 111 of the explosive is formed in the inside, so that the length is longer than the width of the hole is inserted into the charging hole 20 110, and
Inverting the main body portion 110, explosives installation mechanism characterized in that the explosives formed to be separated to the lower portion (100). The method of claim 1,
The explosives installation mechanism 100, characterized in that the front end of the main body portion 110 is opened. The method of claim 1,
Cross section of the main body portion 110 is explosives installation mechanism, characterized in that the semi-circular structure. Storing explosive charges (200) in the accommodation space (111) of the explosive charge installation mechanism (100) of any one of claims 1 to 3;
Inserting the explosives installation mechanism (100) into the charging hole (20) while the explosives (200) are accommodated;
Turning over the explosives installation mechanism (100) so that the explosives (200) are installed inside the charge hole (20);
Separating the explosives installation mechanism (100) outward of the charge hole (20);
Blasting the explosives 200;
Explosives installation method. A charge hole forming step of forming a plurality of charge holes 20 at a mutual distance along the boundary line 11 of the excavation hole 10;
Storing explosive charges (200) in the accommodation space (111) of the explosive charge installation mechanism (100) of any one of claims 1 to 3;
Inserting the explosives installation mechanism (100) into the charging hole (20) while the explosives (200) are accommodated;
Turning over the explosives installation mechanism (100) so that the explosives (200) are installed inside the charge hole (20);
Separating the explosives installation mechanism (100) outward of the charge hole (20);
Blasting the explosives 200;
Including excavation methods. As a tunnel method using the excavation method of claim 5,
The charge hole forming step is a tunnel method, characterized in that for forming a plurality of charge holes (20) along the boundary line 11 of the drilling hole (10) for the formation of the tunnel.

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