KR200244815Y1 - Underground blasting apparatus using paper-tubular tube - Google Patents

Abstract

The present invention provides various effects by installing at least one branch tube in a hole drilled underground, achieving all the effects of using a conventional air tube, reducing the failure rate, and assembling the branch tube directly in the field. It has the advantage of being able to cope with the work environment proactively and efficiently, speed up the work process and reduce the production cost.

Description

Underground blasting apparatus using paper-tubular tube

The present invention relates to an underground blasting apparatus, and more particularly, to an underground blasting apparatus characterized in that at least one branch tube is inserted into a charging hole.

In the conventional conventional underground blasting method, as shown in Figure 1a, a general blasting method of loading the explosive (2) and the primer (3) in the charge hole (1), and the blasting by colorizing with the chromic material (5), shown in Figure 1b As shown in the figure, the charge of explosives (2) and primer (3) in the charge hole (1) and the operation of alternately repeating the coloring with the chromium (5) are carried out in order to explode the explosives in the charge hole sequentially with a time difference. Blasting method by dispersing charge, as shown in Fig. 1C, connecting explosives 2 with a blast line and loading them to alternately form explosives 2 and spaces s in the charge hole to detonate the primer 3 There is a line crack blasting method such as to make a blast.

However, such a conventional blasting method, as shown in Figure 2, as the explosive (2) and the detonator (3) is loaded deeply from the free surface (F) to the lower side of the charge hole, greatly vibrating the ground vibration, At the time of explosion, the lump-producing part (A) on the lower side is broken into small rocks in the middle of the destruction boundary (L), but the upper part is the lump-producing part (B). There is a disadvantage, of course, that additional work for secondary shredding is required.

In order to solve this disadvantage, a technique for installing at least one sealed air tube made of synthetic resin such as polyethylene and polypropylene in the charging hole is known. By using such an air tube, when the explosive is exploded, the projected area to the rock can be enlarged to increase the specific surface area where the explosive force acts on the rock, and the explosive is loaded close to the free surface and exploded by a smaller amount of explosive. It is possible, and the vibration is dispersed toward the free surface has the effect of reducing the blasting vibration.

However, this air tube has to use the product which has been cut and supplied to a certain value (diameter and length) from the outside before the field work. If the length or diameter of the tube to be freely installed in accordance with this problem is difficult to cope with this. In particular, in the field of work, it is often pointed out that failure rate is generated such that the voltage force of explosion does not increase and the effect of vibration damping does not increase when uniformly using a constant length of air tube without considering the ambient conditions. In addition, in order to manufacture the air tube, there is a problem in that manufacturing costs such as injecting air into the tube by a separate machine and sealing it with a sheet, and installation costs such as transportation are increased.

Therefore, the present invention can be used to adjust the length and radius freely in the actual field in consideration of the above-described problems, by using a branch tube that is easy to manufacture and install, can flexibly and actively cope with a variety of variable explosion environment Of course, the purpose of the present invention is to provide an underground blasting apparatus using branch tubes that can reduce the failure rate and further reduce the cost.

1a to 1c is a view showing a conventional underground blasting method,

2 is a view showing an explosion situation of a conventional underground blasting method,

3 is a vertical sectional view of the underground blasting apparatus of the present invention,

Figure 4 is a perspective view showing a branch tube of the present invention, and

5 is a view showing various embodiments of the underground blasting apparatus of the present invention.

The present invention has a basic configuration of an underground blasting device in which at least one branch tube is inserted into a charging hole loaded with coloring matters and explosives in order to achieve the above technical problem.

According to the present invention, due to the artificial free surface formed by the branch tube tube when the explosion to the maximum of the projected area on the rock side of the free surface as possible to increase the maximum voltage force in the hole to crush the rock, explosive free surface Since it can be blasted with a small amount of charge by being charged close to it and exploding, it can be expected to reduce the blasting vibration because the blast vibration is dispersed in various free surfaces. In addition, the total explosion length of the charge hole can be increased by the length of the branch tube insertion, thereby increasing the explosive power of the explosive charge, and also by reducing the length of the deposit relatively, it can be expected to greatly reduce the occurrence of the deposit.

In particular, the tube tube of the present invention is formed of a thick cardboard or a paper material having a certain degree of stiffness, so that it can be produced and used conveniently in the field. It can be installed freely by changing the length and diameter to an appropriate size in consideration, there is an advantage that can be quickly and efficiently cope with any working environment.

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

Figure 3 shows a vertical cross-sectional view of the underground blasting device of the present invention. In the drawing, along the long hole drilled in the vertical direction underground, the whole material 5, the branch tube 10, the explosives 2, the branch tube 10, the explosives 2, and the primer 3 are installed in this order. . In addition to the free surface F on the ground, the artificial free surface F 'is formed along the longitudinal direction of the long hole by the branch tube 10 provided in the long hole. Therefore, the explosive force of the explosive is amplified and transmitted through these free surfaces free of load such as acupressure, so that the voltage force applied to the underground rock can be increased and the explosion effect can be greatly improved. By absorbing it to an extent, the effect of the overall explosion vibration damping can be expected. In addition, the fracture boundary L 'at the time of explosion rises to the upper side by the length l of the branch tube inserted into the long hole, thereby maximizing the projected area to the rock on the free surface F side as much as possible and breaking the rock. It can increase the force, and by reducing the length of the chromic material relatively short can be expected to reduce the size of the jeonseok during blasting. In addition, the effect of attenuating the vibration by delaying the explosives of the explosive by the length of the branch tube 10 can be expected.

Compared with FIG. 2, the superior boundary of the present invention described above can be confirmed from the fact that the breakdown boundary line L 'is increased and the nodule generating part A is also greatly increased while the nodular part B is significantly reduced. .

Figure 4 is a perspective view showing an example of the branch tube (10) used in the underground blasting apparatus of the present invention. As the material of the branch tube, for example, thick cardboard or paper having a certain rigidity is preferable, but any sheet material may be used as long as it is an elastic sheet-like material capable of maintaining a cylindrical tubular shape. The most representative material of the paper tube is kraft paper, which means rigid paper or thick paper. Sulfate-based wood pulp is used as a raw material. Unbleached products are often used as wrapping paper or shipping boxes. It is used. Both ends 11 and 12 of the branch tube are open to provide a free surface and a space layer with an air layer upon insertion into the long hole between the explosive and the explosive.

The branch tube may be cut into a predetermined length in consideration of various working elements in the field by being supplied with a length manufactured in advance, but may be easily manufactured in the field. In this case, of course, the length and diameter of the branch tube can be freely set in consideration of various factors such as the type, size, and ground pressure of the rock on the explosive perimeter and the free surface. The branch tube as described above is characterized by greatly improving the range of practicality by completely eliminating the problem of flexibility in the field adaptation of the conventional air tube and the resulting risk of failure rate.

5 is a view showing an application example of the underground blasting apparatus when using the branch tube of the present invention. Figure 5 (a) is an example in which one branch tube 10 is filled after the color material, explosives and primer, and Figure 5 (b) is filled with the branch tube 10 between the color material and explosives, the branch tube It is an example which inserted the rubber stopper 20 on the top. Using such a rubber stopper 20, it is advantageous in that it can more effectively block the explosion generated during the explosion. Figure 5 (c) is a view showing the line crack blasting by the branch tube, the explosives and the air layer of the branch tube are alternately arranged in layers, and the primer is loaded only at the bottom of the explosives to explode the explosives sequentially, It does not require a detonation line, so it can be expected to reduce the pollution and risk of binge drinking. It can be seen that the branch tube of the present invention can achieve the desired advantages described above even if arranged in any space between the deposits and explosives or explosives and explosives.

The present invention described above can achieve all the effects of using a conventional air tube, further reduce the failure rate, and can be actively and efficiently cope with various working environments by assembling and installing the branch tube directly in the field. It has the advantage of being able to speed up and reduce the production cost.

Claims (5)

Underground blasting apparatus using a branch tube, characterized in that at least one branch tube is installed in the hole drilled underground. The method of claim 1, At least one or more chromosome and explosives and primers are arranged in the charge hole, the branch tube is an underground blasting device using a branch tube, characterized in that installed between the explosives and explosives. The method of claim 1, The branch tube is an underground blasting apparatus using a branch tube, characterized in that both ends are open. The method according to any one of claims 1 to 3, The branch tube is an underground blasting device using a branch tube, characterized in that made of paper having a thick cardboard or a certain stiffness. The method according to any one of claims 1 to 3, The branch tube is an underground blasting apparatus using a branch tube, characterized in that the kraft paper.