KR100431951B1 - New Deck Charge method for minimizing the overbreak in tunnel blasting - Google Patents

Abstract

The present invention relates to a split charge blasting method for minimizing tunnel excavation.

The present invention for this purpose, after calculating the loading density of the vacant hole 100, the gunpowder is loaded into the ball, the step of loading the detonation drug 200, the detonation of the detonator with the primer inserted in the vacant hole; Installing a cylindrical separating rod 202 having a diameter of 20 to 25 mm next to the detonation drug; Installing a gunpowder 203 next to the separating rod, and continuously separating and loading the separating rod and the gunpowder according to the cloth mill and the loading density of the outer hole; Installing and maintaining the separation rod and the gunpowder at a predetermined interval in the outer hole and then using a message at the entrance of the outer hole (204); And exploding the gunpowder separately loaded in each outer hole by using a net bomb to explode adjacent gunpowder.

The present invention configured as described above is divided by using a specially manufactured separation rod with a strong gunpowder in the outer hole and then exploded by using a net blast to improve the fracture effect by excavating the tunnel section excavation schedule rock rock It is designed to cut smoothly.

Description

New Deck Charge method for minimizing the overbreak in tunnel blasting}

The present invention relates to a method of blasting the split charge for minimizing the tunnel excavation of the tunnel excavation section, and more specifically, after exploding by using a specially prepared separation rod using a specially manufactured separation rod to explode by virtuous violence By excellent crushing effect, it is possible to smoothly cut excavated tunnel section excavation rock.

As is well known, the main purpose of the controlled blasting method is to minimize the damage of the rock to be excavated in the tunnel by minimizing the impact of the blasting vibration and minimizing the impact of the blasting vibration. Techniques include line drilling, cushion blasting, smooth blasting, and presplitting.

However, the conventional technology as described above is a technology that was developed long ago in advanced foreign countries, the domestic technicians do not take into consideration the characteristics of the domestic punched state and the explosives unconditionally followed. As a result, over tunneling occurs severely, and in some cases, the lack of violence has resulted in the development of tailings.

When explaining the existing controlled blasting method in more detail, the line drilling (Line Drilling) is formed by artificially cracking the rock of the excavation schedule line by drilling at intervals of 2-4 times the diameter of the hole along the tunnel cross-section line It is to form. The artificial crack layer serves to block strong violence and vibration from propagating out of the excavation schedule during the blasting work, thereby making the tunnel section smooth and reducing vibration.

However, since the blasting method densely drills the gap between the line drills, the drilling costs are high due to the large number of drillings, and the drilling time is long. In addition, the tunnel cross section was not formed smoothly than expected, and the blast vibration reduction phenomenon was found to be low. Therefore, there was a problem that the tunnel construction in Korea was not applied except in a special case.

In addition, the cushion blasting (Cushion Blasting) is a puncture density by drilling the gunpowder along the planned tunnel cross-section line and placing the gunpowder at appropriate intervals using the dopant and tape without inserting the gunpowder less than the aperture diameter Blasting method to maintain.

However, the blasting method as described above is mainly used in the stepping blasting downwards because it is connected by loading the explosive lines at regular intervals, and the tunneling blasting horizontally is almost impossible to use because the charge and installation is not used.

In addition, the smooth blasting (Smooth Blasting) is a control blasting method for protecting the excavation section of the tunnel is the most widely used method in the country. In this blasting method, the outer hole is densely drilled along the tunnel cross-section line and charged to detonate two adjacent holes at the same time, so that the stress wave is emitted from each explosive and propagates radially, and the stress wave collides in the center of the ball. It is based on the principle that a break line is generated in the direction perpendicular to the line of perforation by deriving a tensile wave by interfering with each other. The cloth spacing is 0.8 times the minimum resistance line between the ball and the heating hole placed on the tunnel cross-section line. Also, it is a blasting method that loads precision explosives in the periphery to mitigate violence to prevent crushing of the rocks and to break the rock due to tensile fracture.

However, since this method narrows the space spacing than the general blasting method, the number of perforations increases, and therefore, the success or failure of the blasting depends on the proficiency of the drilling technician. In addition, the gunpowder installed in the pottery is a 17 mm diameter precision gun powder produced in Korea, as well as the decoupling effect is not only deteriorated, but the precision powder is unexploited, so that the tunnel section is not properly formed. Therefore, even if the drilling and blasting technology is perfect, the problem is that it is impossible to reduce the amount of overload due to the nature of the loaded state.

In addition, the pre-spliting (Presplitting) is to make a gap in the tunnel drilling schedule line artificially by drilling a very dense along the tunnel cross-section plan line and then detonated before the general blast hole. This method not only protects the excavation line by blocking the violence caused by blasting, but also prevents vibration transmission.

However, since the spacing is very dense, not only increases the number of perforations but also causes the pre-sputtering effect to be determined depending on the accuracy of the loading density because the number of perforations increases before the general blast hole. In general, this method fails in tunnel sites, which is very difficult to match the loading density for tunnels with severe geological changes, and the drilling conditions are very disadvantageous, resulting in poor drilling accuracy. In many cases, even if the pre-spliting effect appeared, the cracks progressed to the rock due to the subsequent general blasting vibration, which caused a problem that the excavation schedule was not kept smooth during pumice removal.

The present invention has been made in order to solve the above problems of the prior art, it is possible to minimize the overhang of the tunnel cross-section by exploding the gunpowder divided by the separation rod using the net bomb during tunnel blasting The second purpose is to increase the blasting efficiency and economic blasting by maintaining the loading density and spacing appropriately to the rock state by dividing the gunpowder into the outer hole. By changing the explosives used for controlled blasting from precision powder to general powder, the decoupling effect can be enhanced to keep the tunnel section smooth, thereby maximizing the effect of the controlled blasting. Provides charge blasting method.

In order to achieve the above object, the present invention provides a blasting method for minimizing tunnel excavation cross section to explode by loading a gunpowder inside the outer hole after drilling a plurality of outer holes arranged at equal intervals in the tunnel excavation schedule, Calculating the charge loading density of the outer hole and then separately loading the gunpowder into the ball, and loading the detonation drug having a primer inserted into the outer hole of the outer hole with a counter-aeration; Installing a cylindrical separating rod having a diameter of 20 to 25 mm next to the detonation drug; Installing a gunpowder next to the separating rod, and continuously separating and loading the separating rod and the gun powder according to the cloth mill and the loading density of the outer hole; Installing and maintaining the separation rod and the gunpowder at a predetermined interval in the outer hole and then using a message at the entrance of the outer hole to color; And exploding the gunpowder separately loaded in each outer hole by using a net bomb to explode adjacent gunpowder.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

1 is a view showing a state in which a plurality of perforations applied to the present invention at equal intervals

One schematic.

Figure 2 is an image that is loaded with gunpowder and separation rods sequentially in the outer hole applied in the present invention

Partial section showing the fetus.

Figure 3 is a perspective view of the separation rod applied to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: Outer Space 200: Detonation Drug

201: primer 202: separation rod

203: gunpowder 204: color

The split charge blasting method for minimizing the tunnel excavation section applied to the present invention is configured as shown in FIGS. 1 to 3.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, in order to minimize the overhang of the tunnel excavation cross-section of the present invention, a plurality of outer holes 100 are arranged at equal intervals on the tunnel excavation schedule line.

In addition, the present invention is characterized in that the gunpowder loading density of the outer hole 100 is calculated after the gunpowder is dividedly loaded into the hole as described below, and the primer 201 is inserted into the bottom of the outer hole 100. The detonation drug 200 is subjected to the step of loading the back aeration.

In addition, after the detonation drug 200 is to go through the step of installing a cylindrical separation rod 202 having a diameter of 20 to 25mm, the material of the separation rod 202 applied to the present invention is paper and plastic or It is preferable to manufacture with vinyl or the like.

In addition, after the separation rod 202 is installed, the gunpowder 203 is installed, and the split rod 202 and the gunpowder 203 are continuously divided and loaded according to the cloth mill and the loading density of the outer hole 100. Will go through.

The present invention is characterized in that the charge density of the outer hole 100 is made of 0.16 ~ 0.27kg / m based on the 45mm long hole diameter.

In addition, the present invention is installed by maintaining the separation rod 202 and the gunpowder 203 at a predetermined interval in the outer hole 100, and then go through the step of applying a color (204) to the inlet of the outer hole 100 using a message do.

The present invention is to blast the tunnel in the step of exploding the gunpowder 203 divided into each of the outer hole 100 by using a net bomb to explode adjacent gunpowder.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

When explaining the operation of the split-loading blasting method for minimizing the excavation of the tunnel excavation cross-section of the present invention configured as described above as follows.

First, when the blasting is carried out for the excavation of the tunnel, about 40cm of excavation is formed from the excavation schedule. This phenomenon also causes the increase in the amount of overload caused by the drilling error of the drilling equipment, but the biggest cause is the charge form and detonation state of the outer perforation. Table 1 below shows the allowances for the tunnel construction and actual cases of excavation in Korea.

Overload Limits and Actual Overflow Cases of Tunnel Construction in Korea division Application standard Oyster Status Remarks Construction Standard 10-20 cm - Yeongdong Expressway 10-20 cm 23-25 cm Dot Board Reel Perforation Reserve base (U-2) 12.5-17.5 30 cm " Gyeongchun Sunbok Construction Corporation 10-15 cm 30-40 cm "

This phenomenon can be seen to indicate the limitation of the control blasting method applied to minimize overbreak in the tunnel site in Korea.

Due to the limitation of the control blasting method as described above, the present invention is to explode the gunpowder 203 divided into the outer hole 100 using a net blast as described above.

In other words, the net explosive indicates the degree to which one explosive can be expelled to explode adjacent explosives at appropriate intervals. The maximum distance to explode in an open space is about three times the diameter of the explosive. However, in the sealed hole, the maximum net width is 1,000 mm, and the net separation effect of the present invention is 500 mm or less, so that the net width effect can be sufficiently expressed. The net loading distance for each divided rock of the present invention is shown in Table 2 below.

Based on net load distance of divided loading by rock quality Cancer Hallload density Net distance Outer space space Type -1 (hard cancer) 0.27 Kg / m 200 mm 700 mm Type -2 (usually cancer) 0.23 Kg / m 250 mm 600 mm Type -3 (soft rock) 0.18 Kg / m 400 mm 500 mm Type -4 (Weathered Rock) 0.16 Kg / m 500 mm 450 mm

Meanwhile, Table 3 below shows a comparison between the controlled blasting method applied in the domestic field and the present invention technology.

Comparison of characteristics and effects between the conventional blasting method and the present invention division Line Drilling (L. D) Cushion blasting (C. B) Smooth blasting (S. B) Presplit (P. S) The invention blasting method (N.D.C) Pill No charge Charge Charge Charge Charge Charge form - Partition charge Continuous charge Continuous charge Partition charge Detonation - Primer and dopant primer primer Primer and Net Mob Separation rod present none none none none existence Longevity (based on 45mm diameter) - 0.12-0.35 Kg / m 0.2-0.23 Kg / m 0.46 Kg / m 0.16-0.27 Kg / m Calculation of Loading Density by Cancer - Not considered Not considered Considered Considered Outer Space Gap (Domestic Average) 130 mm 1,000 mm (bench blasting) 600 mm 500 mm 450-700 mm Characteristic * Too many airborne outsourcing * Poor blasting effect when poor quality * Almost impossible to load when applied to tunnel blasting * Wide space * Decrease of precision explosive destructive power in hard rock * Blasting the PS ball before the main blasting method * Excellent cutting effect by splitting general gunpowder * Saving gunpowder cost by splitting gunpowder

As described above, the present invention provides a controlled blasting effect for minimizing tunnel overcasting because different types of gunpowder are loaded in the tunnel periphery compared to the prior art and the divided charges in the hole are adjusted to control the loading density for each rock. It can be improved. In addition, since the charge is divided into the outer perforations, the cost of the hall can be reduced, so that economic blasting can be performed.

As described above, the present invention is an outer hole split blasting method for minimizing the excavation of the excavation schedule line generated during the tunnel blasting, minimizing the tunnel excavation to shorten the air for tunnel excavation as well as economic blasting construction To be done.

The present invention is such an embodiment,

The expected effects of the construction of the Gyeongchun Line Railroad Expansion Construction Section 7 (Construction: LG E & C) are as follows.

1) Overload reduction

The current amount of overload is about 40 cm on average, but the application of the present invention can reduce the amount of overload up to 28 cm, which is about 30% reduced.

2) additional input cost reduction

In case of 40 cm of overbreak, the additional reinforcement cost when the tunnel section is 85cm2 than the original design reinforcement cost would be 650,000 won per m tunnel excavation, and when reduced to 28cm, it could be reduced to 350,000 won per m. .

3) Gunpowder cost reduction

The blasting method of the present invention has the effect of reducing the gunpowder gunpowder cost from 3,720 won to 2,850 won if the mill factory is 2,600mm because it is divided by the method of loading the gunpowder.

In addition, since the present invention can minimize damage to the tunnel rock, it is possible to prevent a fall accident during tunnel construction, and the blasting method of the present invention is expected to secure the tunnel reinforcement quality in the future. It can be very useful for blasting work.

As described in detail above, the present invention is to minimize the overload of the tunnel cross-section by exploding the gunpowder divided by the separation rod using the net bomb during the tunnel blasting, and by loading the gunpowder in the outer hole to the loading density By maintaining the space and space appropriately to the rock state, not only to increase the blasting efficiency but also to achieve economic blasting, and to increase the decoupling effect by changing the explosives used for control blasting from precision powder to general powder. It is a very useful invention to maximize the effect of the control blasting by allowing the cross section to be kept smooth.

Claims (2)

In the blasting method for minimizing the excavation of the tunnel excavation cross-section that is to explode by loading the gunpowder in the interior of the outer hole after the plurality of outer holes arranged at equal intervals on the tunnel excavation schedule line, Calculating the loading density of the perforated hole 100 and then separately loading the gunpowder into the ball, and loading the detonation drug 200 having the primer inserted into the periphery of the outer hole with the counter-eruption; Installing a cylindrical separating rod 202 having a diameter of 20 to 25 mm next to the detonation drug; Installing a gunpowder 203 next to the separating rod, and continuously separating and loading the separating rod and the gunpowder according to the cloth mill and the loading density of the outer hole; Installing and maintaining the separation rod and the gunpowder at a predetermined interval in the outer hole and then using a message at the entrance of the outer hole (204); And And blasting the gunpowder dividedly loaded at each outer hole by using a net bomb to explode adjacent gunpowder; split blasting method for minimizing tunnel excavation cross section. The method according to claim 1, The charge density of the outer hole is a split blasting method for minimizing the excavation of the tunnel excavation section, characterized in that consisting of 0.16 ~ 0.27kg / m based on the 45mm long hole diameter.