KR101244360B1 - Blasting method for preventing transmission of vibration - Google Patents

Abstract

The present invention relates to a blasting method for the vibration blocking to minimize the transmission of the vibration generated in the blasting area to the surroundings while easily realizing the vibration blocking area outside the blasting area. The disclosed blasting method provides a vibration blocking area along the boundary of the blasting area, and in the vibration blocking area, prepare armed holes spaced apart from each other by forming rows along the outer periphery to prepare a first dustproof layer, and a first dustproof layer In the position spaced apart from the blasting area along the circumference to form a second two-hole and one armed medicamentally spaced in order to form a second dustproof layer, at a position spaced toward the blasting projection from the second dustproof layer The third dustproof layer is prepared by sequentially forming four long holes and one armed medicine hole spaced in a row along the circumference, and a precision explosive is charged into each long hole of the second dustproof layer. Each explosive hole is provided with explosives, respectively, so as to be spaced apart from each other in the upper and lower portions, blast the precision explosives of the second dustproof layer first, and then explode the explosives of the third dustproof layer with a time difference. After the explosives of the dustproof layer are blasted, blasting of the blasting area is performed.

Description

BLASTING METHOD FOR PREVENTING TRANSMISSION OF VIBRATION

The present invention relates to a blasting method for the vibration blocking to minimize the transmission of vibration due to the blasting to the surroundings.

The blasting method is a method of removing obstacles such as rock by explosives in various civil works. Blasting method is a method of forming a plurality of charge holes in the rock with a punching machine, and then exploded after putting the explosives in the charge holes.

Blasting is very effective in removing obstacles such as rocks. However, blasting involves large vibrations, which can cause shaking or breakage of surrounding structures. Therefore, in recent years, various methods have been proposed to block the vibration generated during the blasting process to the surroundings.

Known is a line drilling method. The line drilling method is a method of forming a blasting hole in the blasting area and closely drilling an absorption hole for absorbing vibration by matching heat to the outside of the blasting area to form a vibration blocking area. This causes the shock wave due to the blasting to be attenuated by the absorbing holes in the vibration blocking area so that the vibration due to the blasting does not affect the buildings or structures around the construction site.

However, such a line drilling method has a problem in that the construction period for forming the vibration blocking region is long and the cost is greatly increased because the absorption holes must be formed densely at the boundary of the blasting region.

The present invention is to solve this problem, an object of the present invention can easily implement a vibration blocking area outside the blasting area, while the blasting method for the vibration blocking to minimize the transmission of vibration generated in the blasting area to the surroundings To provide.

The blasting method for the vibration blocking according to the present invention for achieving this object is provided with a vibration blocking area along the boundary of the blasting area, the vibration blocking area to form the armed weakly spaced apart by aligning the heat along the outer periphery The first dustproof layer is formed, and the second dustproof layer is sequentially formed by repeatedly forming two charge holes and one armless medicine hole spaced apart from each other in a row along the periphery at positions spaced from the first dustproof layer toward the blasting area. In addition, by forming a third dust-proof layer by sequentially forming four charge holes and one armed medicine hole spaced apart from each other by aligning the rows along the circumference at a position spaced toward the blasting zone from the second dustproof layer, and the second dustproof layer Charge the explosives in each charge hole of each, and install the explosives in each charge hole of the third dustproof layer so as to be spaced apart from each other at the top and bottom, the second room After blasting the precision explosive charge of the first layer with a time lag sikimyeo blasting the explosive charge of the third dust layer, and after the explosive charge to said third layer blasting dust characterized by performing the blasting of the blast area.

The separation distance of the armed medicine holes of the first dustproof layer, the separation distance of the first dustproof layer and the second dustproof layer, and the separation distance of the second dustproof layer and the third dustproof layer are respectively 500 to 700 mm, and the second And the separation distance between the medics and the armed medics of the third dustproof layer is 400 to 450 mm.

Armless holes of the first to third dustproof layer is a diameter of 85 ~ 90mm, the holes of the second and third dustproof layer is characterized in that the diameter of 40 ~ 45mm.

The first dustproof layer has an armed vacancy length of 5.5 to 6.0m, the second dustproof layer has an armed vacancy length of 3.4 to 3.6m, a long hole length of 2.5 to 2.7m, and the third dustproof layer has an armed length of arming Is 2.8 ~ 3m, the length of the hole is characterized in that 2 ~ 2.2m.

Armless medicine of each of the dust-proof layer is characterized in that the one or more materials selected from water, styrofoam, sponge, cotton for filling vibration and noise.

The second dustproof layer blasts the precision explosives of each charge hole at the same time, so that a crack occurs in the arrangement direction, and the third dustproof layer disposes the explosive charges charged in the upper and lower portions of four adjacent charge holes. The explosive force is controlled by blasting sequentially, so that a larger crack occurs in the arrangement direction than the second dustproof layer.

Since the blasting method according to the present invention forms a crack through the blasting of the second dustproof layer and the blasting of the third dustproof layer in a state in which the first dustproof layer is composed of armed holes, the vibration blocking region of the multistage is formed. The implementation of the blocking area is easy.

In addition, in the blasting method according to the present invention, when the blasting area is blasted, vibration is attenuated in three steps while passing through the third, second, and first dustproof layers. Can be minimized.

1 is a plan view showing an example of the vibration blocking region of the blasting method according to the present invention.
FIG. 2 is a plan view illustrating the vibration blocking area of FIG. 1 in detail.
3 is a cross-sectional view taken along line III-III ′ of FIG. 2.
4 is a cross-sectional view taken along line IV-IV 'of FIG. 2.
FIG. 5 is a cross-sectional view taken along the line VV ′ of FIG. 2.

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

1 is a plan view for explaining the vibration blocking region of the blasting site to which the blasting method according to the present invention is applied. In FIG. 1, the inside of the broken line A is a blasting area B, and the outside of the broken line A blocks the vibration of the blasting area B from being transmitted to the surroundings to protect surrounding buildings and the like. ) Is a vibration blocking area C provided along the periphery.

A plurality of charge holes 50 are drilled in the blasting area B, and these charge holes 50 are filled with explosives to be blasted and removed. As shown in FIG. 2, in the vibration blocking area C around the blasting area B, the first dustproof layer 10 and the second dustproof layer 20 are spaced apart from each other toward the blasting area B from the outer side thereof. , The third dustproof layer 30 is formed in this order.

The first anti-vibration layer 10 is provided with a plurality of armed holes 11 formed in a position spaced apart from each other along the periphery at the outermost edge of the vibration blocking region (C). These armed holes 11 is about 85 ~ 90mm in diameter, 5.5 ~ 6m in length, the distance between each other (L1) is about 500 ~ 700mm. In addition, the armed holes 11 of the first dustproof layer 10 may be filled with one or more materials selected from water, styrofoam, sponge, and cotton to absorb vibration and noise. The first dustproof layer 10 is to be able to absorb the shock or vibration caused by the blasting in the process of forming the second dustproof layer to be described later.

As shown in FIGS. 3 and 4, the second dustproof layer 20 is provided at a position spaced about 500 to 700 mm from the first dustproof layer toward the blasting area. In addition, generally formed in a row along the circumference so as to be parallel to the first dustproof layer 10, two medicinal holes 21 and one armed medicinal holes 22 are formed in a repeating sequence. Armless holes 22 of the second dustproof layer 20 is 85 ~ 90mm in diameter, 3.4 ~ 3.6m in length, the charge holes 21 of the second dustproof layer 20 is 40 ~ 45mm in diameter, 2.5 ~ length It is about 2.7m. In addition, the separation distance (L2) of the medics 21 and the arms 22 is about 400 ~ 450mm.

As shown in FIG. 4, the charge hole 21 of the second dustproof layer 20 has a precision explosive 24 having a lower explosive force than the explosives used in the third dustproof layer 30 to be described later. Charge to the height of approximately 1.5 m from the bottom. And the remaining part of the inlet side of the charging hole 21 is closed by sand (25). In addition, the precision explosives 24 accommodated in two adjacent charge holes 21 are arranged in a set so that the primer can be blasted at the same time. This is to induce cracks to be formed in the arrangement direction of the second dustproof layer 20, that is, the adjacent armless holes 22, through simultaneous blasting of the precision explosives 24. The armed holes 22 of the second dustproof layer 20 may also be filled with at least one material selected from water, styrofoam, sponge, and cotton to absorb vibration and noise.

The third dustproof layer 30 is aligned with the four charge holes 31 and one armed spaced apart from each other along the periphery at a position 500 to 700 mm apart from the second dustproof layer 20 toward the blasting area B again. The medicine hole 32 is formed repeatedly in order. Armless hole 32 of the third dust-proof layer 30 is 85 ~ 90mm in diameter, 2.8 ~ 3.0m in length, the charge hole 31 is 40 ~ 45mm in diameter, 2 ~ 2.2m in length. And the separation distance (L3) between the charge holes 31 or the separation distance (L3 ') between the charge hole 31 and the armed medicine 32 is about 400 ~ 450mm.

As shown in FIG. 5, each charge hole 31 of the third dustproof layer 30 is provided with explosive charges 33a to 33h of an emulsion series so as to be spaced apart from each other at an upper portion and a lower portion thereof, respectively. Fill the sand 34 in the space between the explosives of the explosive and the entrance of the charge hole (31). That is, eight explosives 33a to 33h are distributed and installed in the four charging holes 31 between two adjacent arming holes 32. And these explosives (33a ~ 33h) is connected to the primer so that they can be sequentially blasted with a time difference from one side. For example, as shown in FIG. 5, blasting is performed in the order of 33a, 33b, 33c, 33d, 33e, 33f, 33g, 33h. This minimizes the blasting vibration from being transmitted to the outside through the second dustproof layer 20 by controlling the explosive force, and generates a crack that is relatively larger than the second dustproof layer 20 in the arrangement direction of the third dustproof layer 30. This is to form a dustproof layer that can block the external transmission of vibration when blasting the blasting area (B) through this.

The following describes the blasting method.

Prior to blasting, a plurality of charge holes 50 are formed in the blasting area B, and explosives are installed in each charge hole 50. In addition, as described above, the first dustproof layer 10, the second dustproof layer 20, and the third dustproof layer 30 are provided around the blasting area B.

In the case of blasting, first, the second dustproof layer 20 of the vibration blocking area C is blasted first. That is, the two precision explosives 24 installed in the adjacent charge holes 21 are simultaneously blown up. In this case, the noise or vibration caused by the blasting is not so great. As shown in FIG. 2, only the cracks 27 occur in the arrangement direction of the second dustproof layer 20. Vibration caused by the blasting is also absorbed by the armed holes 11 of the first dustproof layer 10 on the outer side. Therefore, when blasting the precision explosives 24 of the second dustproof layer 20 has little effect on the surroundings.

When the blasting of the second dustproof layer 20 is completed, as shown in FIG. 2, cracks 27 are formed in the arrangement direction of the second dustproof layer 20 to form a substantial dustproof layer that can block transmission of the blasting vibration. do. In this case, the armed holes 22 of the second anti-vibration layer 20 not only absorb vibrations due to blasting but also induce the cracks 27 to occur in the arrangement direction of the second anti-vibration layer 20 to effectively prevent the vibration layer. To form.

After the blasting of the second dustproof layer 20 is performed, the blasting of the third dustproof layer 30 is performed. At this time, as shown in Figure 5, the explosives (33a ~ 33h) of the upper side and the lower side installed in the four charge holes 31 adjacent to each other so as to sequentially blast from one side. That is, the explosives are blasted in the order of 33a, 33b, 33c, 33d, 33e, 33f, 33g, 33h. This is to generate the crack 37 in the direction in which the charge holes 31 are arranged, as shown in FIG. 2, without controlling the explosive force to give excessive vibration and impact to the surroundings. At this time, a crack 37 that is relatively larger than the crack 27 of the second dustproof layer 20 is generated. The crack 37 serves to block the transmission of vibration due to the blasting to the outside when blasting of the blasting area in the future. In addition, the vibration generated in the process of blasting the third dustproof layer 30 is blocked by the crack of the second dustproof layer 20 formed in advance can prevent the vibration from being transmitted to the outside.

As described above, when the cracks are formed through the blasting of the second dustproof layer 20 and the blasting of the third dustproof layer 30, the blasting vibration generated when the blasting of the blasting area B is carried out in earnest is performed by the third dustproof layer ( 30 can be attenuated in three stages by the crack 37 of the second dustproof layer 20, the crack 27 of the second dustproof layer 20, and the armless holes 11 of the first dustproof layer 10. The vibration caused by the blasting in B) can be minimized.

In particular, in the present invention, in providing the vibration blocking area C around the blasting area B, the second dustproof layer 20 and the third dustproof layer 30 are provided by sequential blasting, respectively. Since the vibration blocking area C may not only be easily provided around the area B, but the dustproof layer may be configured in multiple stages, the vibration of the blasting area B may be more effectively blocked.

10: first dustproof layer, 11, 22, 32: armed medicine,
20: the second dustproof layer, 21, 31: the charge,
24: precision explosive, 27: crack of the second dustproof layer,
30: third dustproof layer 37: cracks in the third dustproof layer,
33a to 33h: explosive, B: blasting zone,
C: vibration blocking area.

Claims (6)

In order to block the blasting vibration, a vibration blocking area should be provided along the boundary of the blasting area.
In the vibration blocking region, armed holes spaced apart from each other are formed along the outer periphery to provide a first dustproof layer, and the rows are spaced apart from each other by aligning the rows along the circumference at a position spaced from the first dustproof layer toward the blasting region. The second two holes and one armed hole are repeatedly formed in order to provide a second dustproof layer, and the four medicine balls and one spaced apart from each other by aligning the rows along the circumference at positions spaced from the second dustproof layer toward the blasting area. Repeatedly forming the armed medicine in order to prepare a third dustproof layer,
Each explosive hole of the second dustproof layer is charged with precision explosives, and each explosive hole of the third dustproof layer is provided with explosives so as to be spaced apart from each other at the top and bottom thereof.
After the precision explosives of the second dustproof layer is first blasted, the explosives of the third dustproof layer are blasted with a time difference so that cracks are formed in the second and third dustproof layers along the arrangement direction, respectively, and the third After the explosives of the dustproof layer is blasted to perform the blasting of the blasting area,
The explosives installed in the holes of the third dustproof layer are formed in the hole of the second dustproof layer so that the cracks of the third dustproof layer are formed larger along the arrangement direction than the cracks of the second dustproof layer. Compared to using a relatively explosive force,
The second dustproof layer simultaneously blows up the precision explosives of each charge hole to cause cracking in the arrangement direction,
The third anti-vibration layer is exploded in sequence along the direction of the explosive charges charged in the upper and lower four charge holes adjacent to each other in the arrangement direction, the explosives of the upper explosives in the charge hole of the third dustproof layer Blasting method for the vibration blocking, characterized in that to control the explosion by first blowing up. The method of claim 1,
The separation distance of the armed medicine holes of the first dustproof layer, the separation distance of the first dustproof layer and the second dustproof layer, and the separation distance of the second dustproof layer and the third dustproof layer are 500 to 700 mm, respectively.
Blasting method for the vibration blocking, characterized in that the separation distance of the charge holes and the armed holes of the second and third anti-vibration layer is 400 ~ 450mm. The method of claim 2,
Armless holes of the first to third vibration-proof layer is 85 ~ 90mm in diameter, the blast holes of the second and third dustproof layer is 40 ~ 45mm in diameter, blasting method for the vibration blocking. The method of claim 3,
The first dustproof layer has a length of armed medicament 5.5 ~ 6.0m,
The second dustproof layer has an armed hole length of 3.4 to 3.6m, a length of 2.5 to 2.7m,
The third anti-vibration layer is a blasting method for the vibration blocking, characterized in that the armed hole length is 2.8 ~ 3m, the length of the charge hole is 2 ~ 2.2m. 5. The method according to any one of claims 1 to 4,
Arming medicine of each of the dust-proof layer is a blasting method for the vibration blocking, characterized in that at least one material selected from water, styrofoam, sponge, cotton for filling the vibration and noise. delete

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