KR100467483B1 - Sealing plug for covering a blasing hole - Google Patents

Abstract

The present invention relates to a method of blasting an underground rock mass by using a sealed stopper of the blasting hole for blasting the underground rock and the closed stopper, in particular, the closed stopper 10 of the blasting hole is slightly larger than the diameter of the blasting hole (1) The lower end is formed in a conical column shape inclined downward to be slightly smaller than the diameter of the blast hole (1), the longitudinal direction to the body so that the primer wire (4) for detonating the explosives (2) installed under the blast hole (1) Accordingly, at least one through hole 11 is formed, and is formed of an elastic material so as to closely close the blast hole at all times corresponding to the uneven blast hole diameter. And the explosive (2) and the primer (3) is mounted on the lower portion of the blast hole (1) perforated in the vertical direction of the underground rock, and the airtight cap (top) of the explosive layer or at regular intervals on the upper layer of the explosive (2) 10) to form an air layer 12 on the upper layer of the explosive (2), the explosive layer and the air layer is formed at least one set or more repeatedly, and the upper layer of the uppermost closure plug 10, sand, general It is a method of blasting underground rocks by exploding the explosives of the plurality of layers by coloring with a colorant such as soil and then detonating the primer 3 with the primer line 4.

Description

Rock Blasting Cap Sealer {SEALING PLUG FOR COVERING A BLASING HOLE}

The present invention relates to a blasting hole sealing plug and a rock blasting method using the same, which is installed to seal the blasting hole in the underground rock blasting hole to increase the specific surface area of the explosive force of the explosives exploding during blasting.

One conventionally known method of blasting underground rocks is to fill explosives 2 into blast holes 1 and to mount primers 3 in the bottom, middle and upper layer explosives of explosives 2, as shown in FIG. Then, the upper blasting hole (1) of the explosive (2) is colored with the chromosome (5), and when the explosive (2) is exploded, the explosion pressure is caused by the chromophor (5) blocking the top of the blasting hole (1). Since it does not leak out of (1), the explosive force is concentrated in the lower part of the rock, which not only increases the crushing force of the lower part, but also inefficiently transmits the blast to blast the rock.

As shown in FIG. 2, the blasting method by the dispersing agent known as another blasting method repeatedly stacks the explosive (2) and the primer (3) in a double layer inside the blasting hole (1) and disparages the explosives in the blasting hole (1). Leave and explode sequentially.

As another conventional blasting method, as shown in Figure 3, by connecting the explosives (2) with the blast line (7) to be loaded to form the explosives (2) and the space (S) alternately in the blasting hole (1) There is a pre-crack blasting method by blowing (3).

However, in the conventional blasting methods, as shown in FIG. 2, the full color layer is extended so that the explosives 2 and the primer 3 are erased in the lower part of the blasting hole 1 so as to be deeply loaded from the free surface F. There was a disadvantage that a large vibration occurs because the mass was generated when the explosion and the explosives concentrated in the lower part of the blast hole. In addition, the conventional blasting methods do not evenly act on the rock when explosives explode, causing secondary crushing and increasing vibration, and there is a disadvantage that additional work for secondary crushing is required due to mass formation.

In order to solve the disadvantages of the conventional blasting method, as shown in Figure 4, by placing an air tube 6 of synthetic resin material such as polyethylene or polypropylene between the explosive layer and the color layer inside the blasting hole (1) It has been known to develop a technique that increases the specific surface area of the explosive force acting on the rock by increasing the projected area of the rock while exploding together during the explosive explosion by blocking the explosive layer and the color layer from each other.

By the way, the rock blasting method using the air tube is loaded with the explosive charge close to the free surface, so that the explosive force can be increased even with a relatively small amount of explosive, and the air tube explodes by the explosive explosive and vibrates toward the free surface. Dispersion has the effect of reducing blast vibration. However, the rock blasting method using the air tube has a problem in that the explosive force of the explosive acts toward the upper free surface and diverges to the upper part of the blasting hole, so that a part of the explosive force is not used for blasting the rock and is converted into blasting to reduce the blasting force. Balls with water) can not be used.

Accordingly, the present invention is designed to solve the disadvantages or problems with the conventional rock blasting method, when the explosives explode strongly blocks the instantaneous pressure in the blasting hole to prevent co-phenomena, to maximize the instantaneous explosive power of the explosives to the rock It is an object of the present invention to provide a closure plug for a blast hole that can increase the blasting force by acting.

Another object of the present invention is to provide a rock blasting method that can increase the blasting power by using the blast hole closure plug.

1 is a schematic diagram of a conventional underground rock blasting method,

Figure 2 is another example of the conventional underground rock blasting method, a schematic diagram of the blasting method by the dispersion charge,

3 is another example of the conventional underground rock blasting method, a schematic diagram of a linear cracking blasting method,

Figure 4 is another example of the conventional underground rock blasting method, a schematic diagram of the blasting method using an air tube,

Figure 5a is a perspective view of the blast hole closure plug of the present invention,

Figure 5b is a perspective view of another embodiment of the blast hole closure plug of the present invention,

Figure 6 is a schematic diagram of a method for blasting underground rock mass using the blast hole closure plug of the present invention,

Figure 7 is a schematic diagram of another example of the underground rock blasting method using the blast hole closure plug of the present invention.

※ Explanation of code about main part of drawing ※

1: blaster 2: explosive

3: primer 4: primer

5: developer 6: air tube

F: free face 10: sealing plug

10a: body 10b: space part

10c: bottom 10d: primer

11: through-hole 12: air layer

The blast hole stopper of the present invention for achieving the above object is formed in a shape that gradually decreases in cross-sectional diameter from the top to the bottom to close the blast hole, at least one that can pass the primer line along the longitudinal direction The above primer penetrating holes are penetrated and made of rubber.

In addition, the rock blasting method of the present invention perforates the blasting hole in the vertical direction to the underground rock, installs the explosives and primers in the lower portion of the blasting hole, the explosive layer by inserting the blasting hole tightly closed at regular intervals with the upper layer of the explosives An air layer is formed between the airtight stopper and the primer wire through the airtight stopper and the explosive layer to connect the primer to the primer, and then the color is formed on the top of the airtight stopper.

According to the present invention configured as described above, the blasting hole closure plug forms an air layer between the explosive layer and the whole material (or the entire color layer) in the blast hole to instantly block the explosive pressure when the explosive material of the explosive layer explodes, thereby freeing the explosive force. By increasing the area projected to the rock on the side as much as possible, and delaying the time that explosive force of the explosive force acts on the free surface within the blast hole, it increases the explosive force inside the blast hole to crush the rock with a relatively small amount of explosive. In addition, the explosion vibration is distributed to several free surfaces to reduce the blasting vibration and at the same time reduce the length of the color layer, thereby solving the problem of mass rock formation caused by the increase in the thickness of the color layer. In addition, the closure plug is inclined downwardly with elastic rubber so that the blast hole can be tightly sealed at all times corresponding to the irregular diameter of the blast hole.

Hereinafter, an embodiment of a rock blast hole closure plug according to the present invention will be described in detail according to the accompanying drawings.

Figure 5a is a perspective view of the rock blast hole closure plug according to the present invention. As shown in Fig. 5a, the rock blasting hole closing cap 10 according to the present invention has a conical column shape inclined downward so that the upper end is slightly larger than the diameter of the blasting hole 1 and the lower end is slightly smaller than the diameter of the blasting hole 1. It has a body (10a), the body (10a) is at least one penetrating through the body in the longitudinal direction so that the primer wire (4) to detonate the explosive (2) is installed at the bottom of the blast hole (1) at the edge The hole 11 is formed, and is formed of an elastic material so as to closely seal the blast hole at all times corresponding to the irregular blast hole diameter.

The body 10a is formed in a cup shape by forming a space portion 10b having an upper portion and having a bottom surface 10c at a lower portion thereof, and having a primer line 4 penetrating the bottom surface 10c. 10d is formed.

On the other hand, the closure plug 10 may be formed in a shape as shown in Figure 5b.

And the blasting hole closure stopper 10 according to the present invention is formed of an elastic material, preferably a rubber material so as to always close the blasting hole in correspondence with the blasting hole having an irregular diameter.

6 is a cross-sectional view illustrating a method of blasting a rock using the blast hole closure cap 10 of the present invention. As shown in FIG. 6, the blast hole 1 is drilled in the vertical direction of the underground rock mass. Mounting the explosive (2) and the primer (3) from the lower portion of the blast hole (1), the airtight stopper of the present invention to form an air layer 12 at regular intervals from the upper surface of the explosive layer (2) 10) the blast hole (1) is sealed by inserting, and the upper layer of the closure plug (10) is colored with a chromosome (5), such as sand and general soil.

Then, when the explosives (2) explode, the closure plug (10) temporarily blocks the explosive force of the explosive (2) at the bottom of the closure plug (10), so the time that the explosive force acts on the free surface (F) is delayed and the blasting effect Maximize the, because the explosion of the explosives (2) at the moment of the explosion through the whole material (5) is to reduce the explosion.

On the other hand, Figure 7 is shown in cross-sectional view another method for blasting the rock using the blast hole closure cap 10 of the present invention.

The rock blasting method shown in FIG. 7 drills a blast hole 1 in the vertical direction in the underground rock, installs a primer 3 at the bottom of the blast hole 1, and then loads the explosives 2. Next, the airtight plug 10 of the present invention is closely inserted at regular intervals from the upper layer of the explosives 2 so as to form a constant air layer 12 on the explosives 2. Then, in the same manner, the explosives 2 and the air layer 12 are repeatedly provided with a plurality of layers of explosives 2 and a sealing plug 10, and then the uppermost part of the blasting hole 1 is colored with the whole material 5.

At this time, the primer wire (4) from the top of the blast hole (1) through the chromosome (5), the sealing plug 10, the air layer 12 in order to connect to the primer (3). Therefore, if the lowermost primer 3 is detonated through the primer line 4, the lowermost explosive 2 is first exploded, and the explosive 2 above is exploded sequentially by the explosive force, so that the explosives 2 exponentially explode on the free surface of the underground rock. It will deliver the explosive power.

In the underground rock blasting method according to the present invention, when the explosives explode, the closure plug 10 temporarily blocks the explosive force and increases the pressure inside the blast hole 1 so that the explosion pressure acts in the free surface F direction. It will improve the effect.

The air layer 12 formed by the closure plug 10 on the upper layer of the explosive 2 acts as a small free surface to reduce the blasting vibration when the explosive 2 explodes, as well as to delay the explosion speed of the explosive 2. It acts to attenuate vibration.

In the underground rock blasting method according to the present invention, the blast hole sealing plug forms an air layer between the explosive layer and the explosive layer when the explosive layer is exploded. In addition, the explosive force of explosives acts on the free surface within the blast hole to increase the explosive force inside the blast hole, so that the rock can be broken even with a relatively small amount of explosives, It is dispersed to reduce vibration.

In addition, the sealing plug prevents the explosive pressure from leaking upward through the color layer when explosives explode, so that a large color effect can be obtained even with a relatively small depth color layer, which can reduce the length of the color layer. It is possible to solve the problem caused by the increased thickness. Not only that, but you can also use ordinary soil to save money. In addition, by forming the plug inclined with elastic rubber, it is possible to seal the blast hole tightly at all times corresponding to the irregular diameter of the blast hole.

Claims (4)

delete The upper end has a conical pillar-shaped body 10a which is slightly inclined to be slightly larger than the diameter of the blasting hole 1 and slightly smaller than the diameter of the blasting hole 1, and the body 10a has a blasting hole 1 at the edge. At least one through-hole 11 is formed in the body in the longitudinal direction so that the primer wire 4 detonating the explosives 2 installed at the lower portion thereof is formed, and the blasting hole is always tightly corresponding to the uneven diameter of the blasting hole. It is formed of an elastic material so as to be sealed, and the body 10a is formed in a cup shape by forming a space portion 10b having an upper portion and having a bottom surface 10c at a lower portion thereof. Underground rock blasting ball closure plug, characterized in that the primer hole (4) through which the primer wire (4) penetrates. The method of claim 2, wherein the closure plug 10 is a underground rock blasting hole closure plug, characterized in that molded in rubber. delete