KR100424877B1 - Method for preventing noise, vibration and dust on crushing a rock - Google Patents

Abstract

The present invention relates to a method of dramatically reducing noise, vibration, and rock scattering in blasting rock or road construction, and the liquid phase inside the upper portion of the gunpowder capsule (3) inserted into the blast hole (2) drilled in the rock Inserting the sieve filled liquid tube (4), while filling the remaining space of the blast hole (2) with gravel (5) and the sealing material (6) and then ignited the powder capsule (3), the shock wave due to the explosion instantaneously It is delivered to the liquid tube 4 of the liquid to change the fluid pressure of the surrounding rock crushing, the noise due to the explosion is reduced, as well as the vibration is weak, the size of the crushed rock fragments Excavation becomes easy.

Description

Noise, Vibration, and Dust on crushing a rock}

The present invention relates to a method for preventing noise, vibration and scattering due to explosion sound in blasting rock by explosives, and in particular, when the blasting hole is injected into the blasting hole in the rock, the liquid is filled in the upper part of the powder capsule. The present invention relates to a method of preventing noise, vibration, and scattering by inserting a liquid tube and filling the remaining blasting hole with a filling material made of gravel, etc., to greatly reduce the explosion and vibration caused by the explosion of the powder capsule.

Powder blasting is often used to crush rock in building digs or road constructions. These blastings are made by drilling a blasting hole into a rock with a puncher, etc. .

However, such explosive blasting is not easy to cushion the impact caused by the crushing of the rock due to the blasting, such as the fragmentation of the rock fragments of the surface crushed during the blasting is common, and also due to the vibration and roar of blasting In addition to cracking and noise pollution in buildings and other facilities, there are many limitations to crushing rock by explosive blasting, especially in the case of excavation in the city center, subway construction, and livestock farming in rural areas.

In view of such circumstances, the Applicant inserts a liquid tube made of polyethylene filled with a liquid into the lower part of the gunpowder capsule inserted into the blasting hole, so that the blasting shock during blasting is absorbed into the lower liquid body and the fluid pressure Patent Document No. 89-19249 proposes a rock crushing method that significantly reduces the explosion, vibration, and scattering of crushed rock.

In addition, in connection with the patent application No. 89-19249, the present applicant charges a blasting unit consisting of a gunpowder capsule, a liquid tube, and a sandbag therebetween in a plurality of layers by drilling a blast hole deeply into a rock, and the gunpowder of the topmost blasting unit. Patent application No. 99-31686 proposes a rock crushing method in which the explosives of the plural blasting units at the bottom of the capsule are exploded serially with the impact of the explosion of the uppermost unit when the primer installed only in the capsule. As described below, the liquid tube is disposed below the gunpowder capsule to reduce the explosion, vibration and crushed rock scattering due to the explosion of the gunpowder.

However, the rock crushing method as described above can drastically reduce scattering, explosion, and vibration of crushed rock fragments, which have been a problem in conventional gunpowder blasting. Since noise and vibration problems are not completely solved, shatterproof measures such as covering the blasting area with felt should be applied, especially when the depth of blast hole for crushing rocks is shallow, considerable explosion sound and vibration It has been handed down to this ground and is still being severely restricted from construction work in the city center.

In addition, as described above, a method of crushing a rock by inserting a liquid tube into the lower part of the gunpowder capsule, and sand filled in the blast hole is ejected out, or the surface layer on the top of the gunpowder capsule is raised or cracked. There is a concern that the soil will be adversely affected, and there are still many improvements in terms of noise.

Accordingly, the present invention has been made in view of the above-mentioned problems, and greatly reduces the vibration during blasting, which is a problem in the conventional rock crushing, and also the crushing action due to the fluid pressure effect of the rock which is located above the powder capsule. The purpose of the present invention is to provide a method to further reduce the noise and vibration by crushing.

1 is an explanatory diagram showing a sectional view of an embodiment of the present invention;

FIG. 2 is an explanatory view showing the direction of crushing pressure applied to the rock in the embodiment of FIG.

The present invention for achieving the above object, by inserting a gunpowder capsule consisting of a gunpowder and a primer in the blast hole drilled to a rock to be broken to a predetermined depth, the diameter corresponding to the diameter of the blast hole on top of the gunpowder capsule After inserting a plastic liquid tube filled with a liquid body with a predetermined length and then filling the space of the remaining blasting hole with, for example, shredded gravel and a plastic cube, the explosive powder capsule is blasted.

In addition, the present invention in the blasting by inserting the liquid tube in the lower part of the gunpowder capsule, by inserting and blasting the liquid tube in the upper part of the gunpowder capsule, the noise caused by the blasting by the fluid pressure action of the upper liquid tube And vibrations are further reduced.

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

First, in order to implement the present invention, a plurality of blasting holes 2 having a diameter of approximately 50 mm to 105 mm and a depth of 2 to 5 m are drilled into the rock to be crushed 1 by the drilling means. The interval between the holes is made in the width and length of each 80cm ~ 200cm in accordance with the width of the rock 1 to be crushed. This means that when the liquid tube 4 is inserted into the upper portion in addition to inserting the liquid tube 7 only into the lower portion of the gunpowder capsule 3, the space between the blast holes 2 is up to two times or more, and the drilling depth is about 3 Because it can be doubled.

As shown in Fig. 1, in the state in which the blast hole 2 is drilled as described above, the liquid tube 7 having a length of about 40 cm in which the liquid is filled is first inserted into the inside, and then the outside of the gun Charge the gunpowder capsule (3) having a primer connected to the blasting switch (not shown), the charge of the gunpowder capsule (3) in the upper portion of the liquid tube (7) and all the space above the sand bag The blasting after filling is equivalent to Patent Application No. 89-19249.

Subsequently, the liquid tube 7 and the gunpowder capsule 3 are sequentially inserted into the blasting hole 2 as described above, and then the liquid tube 4 having a length of about 40 cm to 80 cm is placed on the top of the gunpowder capsule 3. After inserting the blast hole (2) with a filling material made of cracked gravel, etc., the blast preparation is finished.

Next, with respect to the action of the liquid tube 4 is inserted into the upper portion of the gunpowder capsule 3 as described above, it will be described along with the action when the liquid tube (7) is inserted into the lower portion of the gunpowder capsule (3) do.

Inserting the liquid tube (4) in the upper portion of the gunpowder capsule (3) and then filling the blast hole (2) with a filling material and igniting the gunpowder capsule (3), as shown in Figure 2 gunpowder capsule (3) itself If there is only another shock wave propagates in the angular range of approximately 45 degrees up and down to the explosion of the powder capsule (3), as shown by the dotted line in Figure 2, when the liquid tube (7) is inserted in the lower part, Most of the shock wave is instantaneously transferred to the liquid tube 7, and the shock wave breaks the liquid tube 7 by the fluid pressure action of the liquid in the liquid tube 7. 7) Evenly distributed in the orthogonal direction to the side wall in contact, so that the rock can be broken by a large pressure. In the method of inserting the liquid tube 7 only into the lower portion of the gunpowder capsule 3 as described above, the shock wave due to the explosion of the gunpowder capsule 3 is transmitted to the liquid tube 7 of the lower part to be changed into the fluid pressure. As a result, vibrations and noise caused by shock waves can be greatly reduced.

However, the liquid tube 7 and the powdered capsule 3 are inserted into the blasting hole 2 as described above, and then the liquid tube 4 having the same diameter as the liquid tube 7 in the lower portion is the powdered powder. When the capsule 3 is pressed to be pressed, it is possible to prevent more significant noise, vibration, and scattering of crushed rock, which are not seen in the conventional rock crushing method.

That is, as shown in Figure 2, when the liquid tube (7) is inserted only in the lower portion of the gunpowder capsule 3, the shock wave due to the explosion of the medicine capsule (3) by the lower liquid tube (4) Although it is greatly buffered, a part of the shock wave is also transmitted to the liquid tube 4 inserted in the upper portion so that the liquid body in the liquid tube 4 is subjected to the fluid pressure action, thereby the fluid pressure of the liquid tube 7 in the lower portion. Rock fractures, noise, vibration and shattering caused by the action can be more effectively achieved.

On the other hand, in the present invention, in filling the space of the upper blast hole (2) of the liquid tube (4), unlike the conventional method, instead of using a sand bag to fill with gravel (5) having a diameter of about 15mm ~ 20mm do. On the other hand, when filling the gravel (5) is inserted into the lozenge-shaped sealing material (6) having an inclined surface toward the center at the top and the bottom of the liquid tube 4 made of a plastic or the like at an interval of about 20cm. That is, once the gravel is injected about 20 cm, the sealing material 6 is inserted and then the gravel is injected again to fill the gravel 5 and the sealing material 6 in such a way that the blast hole 2 is completely filled. Here, the gravel (5) filled in the foam hole (2) is good to use the shredded gravel with a diameter of 15mm ~ 20mm, which can be more effectively sealed by the blast hole during the explosion by the action of the edge of the cracked gravel Because.

As described above, when the gravel 5 and the sealing material 6 are inserted and sealed in the upper portion of the liquid tube 4 inserted into the upper portion of the explosive capsule 3 in the blast hole 2, in the conventional method of inserting the sand bag The charging depth of the gunpowder capsule (3) can be as deep as 5m, which is about three times that of about 1.5m, and the blasting hole (2) is not only easy to work but also sealed by the action of the gravel edge. Since the material gravel 5 does not protrude out of the blast hole 2, a more effective sealing can be achieved.

In addition, when the sealant 6 is inserted into the gravel 5 filled in the blasting hole 2 as described above, the upward force due to the movement of the liquid tube 4 due to the explosion of the explosive capsule 3 is increased by the sealant ( 6) the direction is changed by the inclined lower surface, and the upper inclined surface of the sealing material 6 is lifted in the horizontal direction by the wedge action of the upper gravel 5, so that the powder capsule 3 Even the very small impact wave transmitted upward through the liquid tube 4 due to the explosion can be effectively changed into the horizontal rock crushing force by the action of the sealing material consisting of the gravel 5 and the sealing material 5. Therefore, the filling material filling the blasting hole 2 is not ejected out at the time of blasting, so that the sealing of the blasting hole 2 can be effectively performed.

On the other hand, although the blasting hole 2 is shown in the vertical direction in the drawings, in the case of tunnel rock excavation, the present invention can be carried out even when the blasting hole 2 is drilled in the horizontal direction or the downward inclination direction. Of course. In this case, it is important to inject the gravel 5 so that the liquid tube 4 is pressed against the inner wall surface of the blast hole (2).

Accordingly, the liquid tube 4 and the gravel 5 filled in the upper portion of the two-liquid tube 4 and the sealing material 6 inserted into the lower portion of the gravel 5 are inserted into the upper portion of the powder capsule (3). By the action of, the impact force due to the explosion of the explosive capsule is mostly changed to the vertical crushing force with respect to the side wall of the blast hole (2), so that the noise or vibration of the crushed rock due to rock blasting hardly occurs.

In addition, when the liquid tube is inserted into the upper and lower portions of the gunpowder capsule, the depth of the rock fracture can be up to three times higher than the case where the liquid tube is inserted only in the lower part of the gunpowder capsule of the same amount of gunpowder. In order to crush, it means that the amount of gunpowder is one third, so that a small amount of gunpowder is charged or the depth of gunpowder is charged to reduce the explosion sound and vibration transmitted to the ground.

As described above, according to the present invention, the liquid tube 4 inserted into the upper portion of the explosive capsule 3 and the gravel 5 filled in the upper portion of the liquid tube 4 and the lower portion of the gravel 5 Due to the action of the sealing material 6 inserted in, the impact force due to the explosion of the explosive capsule is changed to a vertical force with respect to the side wall of the blasting hole, so that noise or vibration of the crushed rock hardly occurs due to rock blasting. Therefore, even if the present invention is used when constructing a building infrastructure or subway construction in a city center or a road construction in a rural area, all problems caused by noise, vibration, blasting, or scattering of crushed rock Can be completely eliminated.

Claims (3)

Insert the plastic tube (4) filled with the liquid in the upper or lower, upper and lower portions of the chemical capsule (3) inserted into the blast hole (2) drilled in the rock (1) in the state filled with the filling material By exploding, the shock wave resulting from the explosion of the explosive capsule 3 is changed to a force acting at right angles to the side wall of the blast hole 2 by the fluid pressure action of the liquid in the tube 4, and the explosion of the explosive capsule 3 In the noise, vibration and scattering prevention method at the time of rock crushing so that the noise caused by the noise and the vibration transmitted to the ground and the scattering of the crushed rock are greatly reduced, Noise and vibration during rock crushing, characterized in that the sealing material 6 having a cube is inserted into the lower end of the filling material made of the gravel 5 while the gravel 5 having a diameter of 15 mm to 20 mm is used as the filling material. And scattering prevention method. delete delete