KR101384685B1 - Method for blasting the vast hole using blast pressure effusion inhibition device - Google Patents

Abstract

The present invention blocks the entrance of the armed pharmacy during long blasting by blasting a long hole while maximizing the blasting power while reducing the scattering of crushed rock in the blasting, dramatically reducing the occurrence of noise, vibration and dust It relates to a high efficiency long-blast blasting method using an innovative explosion-proof jet suppression device to reduce.
The present invention is to prevent the excessive outflow of the blasting gas to the outside during the blasting work by installing a blast blowing ejection suppression device at the entrance of the armed pharmacy in the state of loading and repeating the explosives and the coloring matters alternately in the medicinal holes Of course, it is possible to prevent scattering of the crushed rock and to reduce vibration, noise and dust generation, and to effectively form a second free surface in the armed medicine hole to increase the blasting efficiency.

Description

Method for blasting the vast hole using blast pressure effusion inhibition device

The present invention blocks the entrance of the armed pharmacy during long blasting by blasting a long hole while maximizing the blasting power while reducing the scattering of crushed rock in the blasting, dramatically reducing the occurrence of noise, vibration and dust It is about innovative technology to reduce.

The most common method of blasting rocks in mines or civil engineering is to drill small holes in the rocks and fill them with explosives. This is called blasting. Among them, the method of blasting through a particularly long hole is called blasting. If the cloth mill is usually 4.5m or more, it can be considered as blasting.

Such long blasting has the advantage that the amount of rocks destroyed by one blasting is higher than that of using a short blasting hole, but it requires not only a skilled technique such as a method of drilling a long hole and the performance of the explosive used. In order to ensure smooth blasting work, it is necessary to securely cope with vibrations, noises, and casualties associated with blasting.

The conventional technique for the above-mentioned long blasting method is a method in which all the holes are drilled in parallel with the free surface perpendicular to each other, and drills the armed holes in a lattice shape at intervals, and has a long length of holes between the armed holes. Will be perforated. At this time, the armed pharmacy is utilized as a second free surface when the medicated hole is detonated, the crushed rock moves to the armed pharmacy, and smooth blasting is made.

However, in the conventional long blasting method, the armed holes drilled to form the second free surface are directly opened with the external drilling direction free surface, so that the powerful blasting gas accompanying the blasting work is leaked to the outside, and the blasting power is significantly weakened. At the same time, as the crushed rock is scattered to the outside, it damages the facilities (H beams, cables, electric wires, etc.) and surrounding buildings installed at the work site, and may cause problems such as worker injuries and casualties.

In addition, due to the spread of vibration, noise and dust accompanying blasting to the outside more seriously, environmental damage may occur, as well as civil complaints complaining of the damage, which may cause delays in construction. Long-term blasting is not actively performed in the art.

The present invention is to actively solve all the problems of the conventional blasting method described above, the blast blast injection device at the inlet of the armed pharmacy in the state of loading while loading and alternating the explosives and coloring matters alternately As a solution of the invention, it is possible to prevent the excessive outflow of blasting gas to the outside during blasting work by installing color after installation, and to prevent scattering of crushed rock and to reduce vibration, noise and dust generation. It is to increase the blasting efficiency by forming the surface effectively.

The present invention seeks a technique for implementing a pressure-induced jet suppression apparatus through a technical configuration of integrally connecting the stopper line to the upper end of the air ball stopper formed air inlet as a means for solving the above problems.

In addition, the present invention comprises the steps of drilling the armed medicament and the medicinal holes in the rock, and repeatedly loading and refilling the explosives and chromosome to the medicinal holes, the step of injecting air into the air ball stopper, and the air The present invention provides a technique for implementing a hole blasting method, including installing and closing a ball stopper at an entrance of an armed pharmacy, applying a color to an upper portion of the air ball stopper, and blasting an explosive loaded in the Loader. do.

According to the present invention, by preventing the inlet of the armed drug open to the outside during the blasting using the explosion-injection suppression device to prevent the outflow of the pressure through the armed drug to the outside to provide the effect of further maximizing the blasting efficiency, of course Prevents crushed rock from scattering and minimizes damage to facilities and surrounding buildings.

In addition, since the second free surface is more effectively formed in the armed medicine, the blasting efficiency is further improved.

In addition, it greatly reduces the spread of vibration, noise and dust accompanying blasting to the outside, which is environmentally friendly and provides the effect of minimizing civil complaints.

1 is a plan view of the armed medicinal and medicinal holes according to the present invention perforated in the rock
2 is a sectional view taken along the line AA in Fig. 1
Figure 3 is a longitudinal sectional view of the explosion-proof jet suppression apparatus to which the present invention is applied;
Figure 4 is a longitudinal cross-sectional view of the air filled state in the air ball stopper of the present invention
Figure 5 is a longitudinal cross-sectional view of the pumping tube is inserted into the armed medicine of the present invention
Figure 6 is an enlarged cross-sectional view of the casing is installed on the top of the armed medics and medics of the present invention
7 is a block diagram sequentially showing a long blasting method according to the present invention

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Looking at the overall technical configuration of the explosion-pressure jet suppression apparatus (D) according to the preferred embodiment of the present invention based on the accompanying drawings, an air ball stopper (10) formed with an air inlet (11) on one side; It can be seen that the organic coupling configuration of the plug 20 is connected to the top of the air ball plug 10 is installed.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

The present invention is characterized in that to prevent the inlet of the armed medicament (40) by using a pressure-injection jet suppression device (D) during the blasting (hole) blasting by drilling a long hole in the rock, the air The ball stopper 10 is formed by the air inlet 11 on one side to supply air therein, so that when the air is injected, the inlet of the armed medicine hole 40 can be blocked by maintaining the shape of the circular ball.

The air inlet 11 formed in the air ball stopper 10 is partially integrated and fixed to open and close the blocking plate 11-1 that is temporarily opened when air is injected into the inner end, and the air inlet is formed at the outer end. Since the inlet stopper 11-2 connected to one side is integrally installed at 11, air can be easily injected after opening the inlet stopper 11-2.

When the air ball stopper 10 is injected into the armed medicine hole 40 at the upper end of the air ball stopper 10, a stopper line 20 that can be supported by the worker from the outside is integrally installed.

The stopper line 20 is the color scale expressed in various colors so that the operator can easily check the exact position of the air ball stopper 10 is installed in the entrance of the armed medicine 40 as shown in FIG. 21), it is possible to install the pressure-injection jet suppression device (D) in the position of the exact depth desired by the operator.

Therefore, by using the explosion-injection pressure suppression device (D) injecting the air as described above to block the inlet of the armed medicine hole 40 as shown in FIG. It can be effectively prevented to maximize the blasting efficiency, prevent the rock from scattering, and provide a special effect of minimizing vibration, noise and dust.

Next, a high-efficiency long hole blasting method for blasting long holes using the above-mentioned pressure-injection spray suppressing device (D) will be described.

1) Perforation step ( S100 )

First of all, the basic requirements of the blasting blasting holes (30) and armed medicament holes 40 having a larger diameter than the jangcheong 30 is drilled in the form of long holes in the rock as shown in FIG.

To this end, a plurality of armed holes 40 are drilled in a lattice shape on the rock, and a plurality of armed holes 30 are drilled between the armed holes 40.

At this time, the drilling direction should be constructed in parallel or various angles depending on the site conditions and circumstances, the arming medicament 40 is more effective to drill larger than the size of the medicinal hole 30, the armed medicament (40 ) And when the medicinal holes 30 are the same size, it is effective to drill several armed medicinal holes 40.

In addition, the present invention after the punching the armed medicine 40, the armed medicine 40 to the pumping pipe 51 connected to the external pumping pump 50 to reach the bottom to the interior of the armed medicine 40 All the rockwater that has soaked in is drained to the outside, and this drainage continues until the blasting phase is completed.

This is because the armed medicine 40 is perforated to a depth of long length there is a risk that underground rock water penetrates into the armed medicine 40, in this case, the armed medicine 40 properly serves as a second free surface This is a measure to prevent this because it cannot be done.

On the other hand, the present invention is a phenomenon in which the sand layer or clay layer located in the upper part of the rock breaks down to block the upper part of the armed medicinal holes 40 and medicinal holes 30 when the blast blasting of a special area, such as a rock in the tidal flat or the sea Additional techniques are incorporated to take this into account.

To this end, a sand layer or a clay layer is formed by inserting a casing 60 in close contact with the upper inner diameters of the armed medicine 40 and the loaded medicine 30 as shown in FIG. It provides a special effect to prevent the collapse and maintain the shape of the hole.

2) Explosives loading stage (S200)

Since the charge hole 30 is punctured into a very long length, when the explosives are blasted all at once, it is preferable to load the explosives 70 in a form capable of jetting the explosives because the vibration or the pressure is very strong.

To this end, the charge hole 30 is loaded while alternately repeating the explosives 70 and the chromosome 80 alternately, and the primer line of the primer connected to each explosive 70 is to the outside of the charge hole 30 Exposure to ensure smooth blasting.

3) Air injection step (S300)

By injecting air into the air ball stopper 10 of the pressure-injection jet suppressing device (D), the air ball stopper 10 is formed in the form of a circular ball while expanding, the air ball stopper 10 is armed medicine 40 It is to have a volume that can sufficiently block the entrance of).

4) Installation step of the explosion suppression device (S400)

The air injection stopper 10 of the air injection is completed is installed on the upper portion of the armed medicine hole 40, while the operator checks the color scale 21 while fixing the stopper line 20 exposed to the outside desired Push the air ball stopper (10) to the position of the depth to be installed.

5) Armed Pharma Coloration Stage (S500)

When the installation of the pressure-induced jet suppression device (D) is completed, the colored material such as sand or clay to prevent vibration, noise and scattering in the armed medicine hole 40 between the air ball stopper 10 and the outside (80) )).

6) Blasting step (S600)

When the color is completed in the armed medicine hole 40, the explosives 70 are blasted in a place far away by the electric blasting or the blast line.

At this time, each of the primers connected to the plurality of explosives 70 loaded in the charge hole (30) to prevent the strong vibration or pressure at once by detonating sequentially with a time difference.

Therefore, the blast gas and the blast pressure accompanying the blasting can not be discharged to the outside by the blast ejection suppression device (D) to concentrate in the armed medicine 40, maximizing the blasting efficiency and the rock can be broken into smaller particles. .

D: blast blowing suppression device 10: air ball plug
11: air inlet 11-1: blocking plate
11-2: inlet plug 20: plug line
21: Color scale 30: Scholar
40: armed medicine 50: pumping pump
51: pumping pipe 60: casing
70: explosive 80: a color material

Claims (7)

delete delete delete A punching step (S100) of punching a plurality of armed holes 40 in a lattice shape on the rock, and a plurality of armed holes 30 between the armed holes 40;
A charge-loading-loading step (S200) for loading while repeatedly loading the explosives 70 and the color material 80 in the charge-hole 30;
An air injection step (S300) of injecting air into the air ball stopper 10;
The pressure-ballot suppression device installation step (S400) of blocking the air ball stopper 10 to the inlet of the armed medicine hole 40 in a state in which the stopper line 20 of the air ball stopper 10 is exposed and fixed to the outside. ;
Arming medicine filling step (S500) for filling the filling material in the arming medicine hole 40 between the air ball stopper 10 and the outside;
High efficiency long-blast blasting method using the explosion-proof jet suppression device characterized in that it comprises a blasting step (S600) for blasting the explosives loaded in the charge hole (30).
5. The method of claim 4,
After blasting the armed medicament 40 and the armed medicament 40 to the pumping pipe 51 connected to the pumping pump 50 to the floor to blast the operation to drain the rock water in the armed medicament 40 to the outside High efficiency long-blast blasting method using the explosion-proof jet suppression device characterized in that it continues until the completion.
5. The method of claim 4,
In the drilling step (S100), the casing 60 is inserted into the upper inner diameter of the charge hole 30 and the armed medicine hole 40 at the time of the blasting of the rock or the underwater rock, and the sand layer or the clay layer of the upper rock is blurred. High efficiency long-blast blasting method using the explosion-proof jet suppression device, characterized in that to maintain the shape of the hole while preventing the phenomenon of blocking the charge hole (30) and armed medicine hole (40).
5. The method of claim 4,
Blasting step (S600) is a high-efficiency long-blast blasting method using the explosion-proof jet suppression device, characterized in that to sequentially detonate each primer connected to the plurality of explosives 70 loaded in the charge hole (30) with a time difference.

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