KR20030075643A - Two-face simultaneous cut blasting using air decking - Google Patents

Abstract

PURPOSE: A blasting method capable of performing blasting without cracks on country rock and raw stone by decking explosives having relatively low wind velocity in upper and lower parts inside blasting hole so that air layer is formed between two gun powders in two-face rock blast for collecting raw stone for building stone is provided. CONSTITUTION: In a stone-cutting blasting method using gunpowder, the two-face rock blasting method using air layer is characterized in that detonation is performed by forming an air layer between two gun powders after respectively charging explosives into bottom part and upper part, a position distanced about 1 m from the blasting holes, after drilling blasting holes, gun powders are charged into vertical holes in such a way that the vinyl bag is connected to adjacent holes with being tied by string after putting upper charging gunpowder into a vinyl bag or a similar material which does not have an effect on deterioration of explosion powder of explosives due to buffer action of the air layer, thereby charging the charging gunpowder in such a way that a pair of gun powders are suspended to the vertical holes with the string, and the charged gun powders are detonated by instantaneous detonator in such a way that rock blasting is performed without cracks on country rock and raw stone due to buffer action of the air layer by simultaneously blasting the whole blasting holes as well as charging gun powders decked in the upper and lower parts inside the respective blasting holes.

Description

Two-face simultaneous cut blasting using air decking}

The present invention relates to a double-sided blasting method using an air layer, and in detail, in the double-sided blasting for collecting stones for stone, relatively low-explosive explosives, such as draft explosives, are dispersed between the two medicines in the blasting hole. The present invention relates to a blasting method capable of blasting without causing cracks in the mother rock and gemstones by placing a layer of air in it.

The conventional blasting method is described as follows.

A) Quarry blasting method

The method of separating the stone for the stone from the mother rock includes (i) the method of using the heat by the jet burner which has been used for a long time, and (ii) the excessive noise and the loss of the gemstone caused by the jet burner method. Alternative technologies include diamond wire saws using mechanical force, and (iii) blasting using energy generated when gunpowder reacts. (Iv) Water jet using high pressure water flow in recent years. (water jet) and the like.

Among the quarrying methods described above, the explosive method is superior to the jet burner or other mechanical methods in terms of work process and economic feasibility.However, in Korea, the explosive expenditure is not very high. .

The most common type of quarrying work in Korea is the one-side blasting method in which a vertical free surface is formed by using a jet burner, and only the lower surface, which is difficult to apply the burner, is cut off using gunpowder blasting.

In some cases, when discontinuous surfaces such as joints are naturally formed, double or three-sided blasting may be performed with the joints as free surfaces.

1) One side blasting method

Conventional quarrying with one-side blasting uses jet burners to form free surfaces on both sides and back of the rock to be collected, and then only the bottom is blasted with black powder or draft explosives. It is a method of collecting. In this case, the back side of the rock generally has a large cutting surface, which takes a lot of time and personnel to form a free surface, and increases labor costs and fuel costs, as well as delays in the work process, causing a significant decrease in productivity.

In addition, the jet burner is a device that cuts rocks using flames, so the rocks are expanded by the emitted heat, and minute cracks occur. In severe cases, the rock near the cutting surface undergoes heat deformation, which is about 40% of the volume of the raw stones collected. Loss of can also occur. In a typical jet burner, the fuel consumption is about 40 to 60 l / hr, the cutting rate is about 1.1 m 2 / hr, but the cutting rate may be reduced to about 0.75 m 2 / hr depending on the skill of the operator.

2) Double sided blasting method

There are two types of double-sided blasting methods known as improved blasting methods applied to stone harvesting: the use of a detonation line and the combination of a detonation line and a precision explosive.

(a) Method using a detonating cord

In the blasting using the detonation line, both sides of the rock to be collected are first cut with a jet burner or a diamond wire to form a free surface, and both sides of the remaining rear surface and the bottom surface are simultaneously blasted using the detonation line. This blasting method has the advantage of detonating all blast holes simultaneously with only one primer per blast.

In this method, the spacing of the vertical and horizontal holes is generally about 20 to 36 cm, and the hole diameter is about 32 mm Ø and drilled parallel to each other. When loading the dopyeong line, one to three strands are charged for each hole, and at the bottom of the joint, about 0.3 to 1 m are bent depending on the chapter. 1 to 3 show examples of double-sided blasting by representative dopant ships currently used in Korea.

In general, the width of the dopant used for quarrying is 5 mm in diameter, the amount of explosive charge is 10 g / m, the core drug is PETN (pentaerythrite tetranitrate), and the speed of explosion is about 6,000 m / sec.

Since the detonation line is a chemical product using a high-explosive explosive, it is generally difficult to expect an effect that can be obtained at a static pressure such as gas pressure, an excessive peak pressure may be applied, and a failure plane may be difficult to control. There are disadvantages.

This problem is solved through decoupling. In general, the use of water colors improves the blasting efficiency due to the propagation of violence evenly into the rock due to the buffering effect of water.

When blasting using granules in granite, the specific charge is about 20 to 40 g / m 3 and decoupling is performed to achieve non-fragmentable blasting. Here, the spleen dose refers to the amount of gunpowder consumed per unit volume of the crushed rock mass, and is widely used as an index for blasting efficiency and economic efficiency. In addition, the detonation line is capable of detonating the charges that are separated from each other at about the same time, and can evenly distribute the blast pressure in the vertical hole or horizontal hole has the effect of equal charge.

The actual drilling and recharging methods depend on the conditions of the rock or the quarry. In the case of granite, the granules are generally blasted with a relatively small amount of cobalt charge while narrowing the space gap.

On the other hand, in neutral to coarse granite, it is common to increase the dosage of the space while increasing the space spacing, but even if the space spacing is too wide, the probability of failure increases.

(b) Method using combination of dopant line and precision explosive

Precision explosives used for quarrying are about 3,700 m / sec in speed and about 17mm in diameter, and they are widely used for smooth blasting in tunnels. The explosives are used for quarrying without causing cracks in the mother rock and gemstones because the amount of explosive gas is suitable for the extraction of gemstones and opening natural cracks.

In general, the precision explosives used for such applications are about 400mm in length and about 100g in weight, and because the medicine is made of plastic tube, it is water resistant, so water can be used as a color material as in the case of a doppler. In order to avoid concentrated concentration at any one point of blasting hole, precision explosives are tied with tape on one strand of the blast line and distributed evenly in the bottom, center and tool of the blasting hole so that the explosion pressure is generated evenly inside the blasting hole. do. The detonation is carried out by igniting a primer connected to the detonation line. When the detonation line explodes due to detonation of the detonator, the precision explosive connected to the detonation line also explodes at the same time. FIG. 4 shows an example of double-sided blasting in which the space is widened by 0.45m compared to the general blasting line by additionally applying precision explosives to the doping line.

B) Presplitting

Air decking using air layer is a technique that is applied as needed in the existing crack cracking method. This method is to put a layer of air on top of the explosives charged at the bottom of the line crack blast hole, a kind of concentrated charge (concentrated charge). This concept was known as early as the 1880s, but it did not begin to apply until the 1980s, a hundred years later.

The charge method loads the explosives at the bottom of the linear cracking blasting hole or the adjacent hole, and closes an appropriate point on the upper part of the blasting hole with an air bag or a plug to form a layer of air between the explosive and the stopper. The part corresponding to the upper part of the airbag or plug is not colored, and in some cases, it is filled with a colored material. 5 shows various dispersion charge techniques used for linear crack blast holes.

Dispersion charging method using air layer applied to the line crack blasting method is an excellent economical method, it is suitable to use when the rock is relatively massive (massive).

If there is no problem with air blast, ie noise pollution, it is usually a kind of decoupling by loading a small amount of bulk charge in the lower part of the blast hole and then leaving the upper part of the explosive as it is. (decoupling) effect is also obtained.

In other words, the upper part of the pre-cracked blast hole is left in contact with the atmosphere without being plugged with plugs or colorants, thereby reducing the borehole pressure (explosion pressure) and at the same time protecting the rock of the tool part. It is a way.

On the other hand, the more developed the rock, the greater the need to evenly disperse the explosive energy, in which case (i) deck charges in multiple stages, or (ii) low density, Low diameter weak explosives can be used for continuous charge, or (iii) detonating cords to maximize the decoupling effect. In the case of continuous charge compared to disperse charges, explosive charges cost a lot, but joints are developed and the conditions are worse, the better the effect. That is, the right side in Figure 5 may be said to be a more suitable method for rock conditions are bad.

However, in the conventional double-sided blasting method, a detonation line is used as an explosive or a precision explosive is combined with the depletion line.

Also, air decking using air layer is applied in presplitting, but in this case, only the bottom part is charged and no color is applied or the air bag or plug is placed on top of the blast hole in order to put a layer of air in the blast hole. They are fitted with plugs and explosives on them.

Therefore, in the case of vertical holes, when the lower and upper charges are simultaneously detonated, the buffering effect of the air layer against the expanding explosive gas may be limited by the stopper used to install the upper charges. Difficulties can arise when trying to locate them correctly.

An object of the present invention for solving the above problems is to disperse the relatively low-explosive explosives such as draft explosives to the top and bottom inside the blast hole in the double-sided blasting for stone extraction for stone between the two medicines By providing a layer of air, that is, by appropriately using air decking (air decking) using the air layer to provide a blasting method that can be blasted without causing cracks in the mother rock and gemstones.

The object of the present invention as described above is to place a layer of air between the two medicines by loading the explosives at the bottom and top (about 1m point of the tool) of all blast holes, respectively, in the vertical method in the charging method, Put it in a sack (or similar material) that does not have a significant effect on the detonation of the explosives by the cushioning of the air layer. Loading the medicine together in a hanging form, and detonation is carried out using a net primer, but by providing a method of simultaneously blasting all the blast holes as well as the charges dispersed in the upper and lower portions in each blast hole.

1 is an embodiment of a double-sided blasting using a conventional doptoum,

Figure 2 is an embodiment of the double-sided blasting using a conventional dopyeok,

3 is an embodiment of a double-sided blasting using a conventional dopyeok,

Figure 4 is an embodiment of a double-sided blasting using a combination of conventional dopyeokbu and precision explosives,

Figure 5 is an embodiment showing a variety of dispersion charges used in conventional prior crack blast holes,

Figure 6 is a perforation pattern in the air layer double-sided blasting of the present invention,

Figure 7 is a charge pattern in the air layer double-sided blasting of the present invention,

8 is an embodiment showing an upper charge loading in the air layer double-sided blasting of the present invention,

9 is a drilling operation of the conventional floor hole,

10 is a conventional diagrammatic wiring connection work,

11 is a conventional primer fastening diagram on the line

12 is a draft exploded view used in the present invention,

Figure 13 is a charge diagram of the draft explosives of the present invention,

14 is a front view of the rock mass according to the present invention,

In the present invention to achieve the object as described above and to perform the problem for removing the conventional drawbacks in the quarrying blasting method using gunpowder,

After drilling the blast hole, load explosives on the bottom and top (approximately 1m from the tool) and put a layer of air between the two medicines and detonate them. A similar material, which is made of a material that does not significantly affect the detonation of explosives caused by the buffering action of the air layer), and then tie the vinyl bag with a string or the like and tie it together with adjacent ones to tie a pair of medicines together The method of loading and detonation is carried out using a net detonator, but the blasting of all the blasting holes simultaneously as well as all the blasting holes distributed in the upper and lower parts in each blasting hole, and the blasting of the base layer without causing cracks in the rock and gemstones. It is characterized by how to.

The explosives loaded on the upper and lower parts are used in the same way as the draft explosives with a speed of about 3,500 m / sec and a diameter of about 28 mmØ.

The installation direction of the primer is to the detonation direction in the case of the upper medicament to the cooperative direction, in the case of the lower medicament characterized in that the detonation direction of the primer is mounted so that the tool direction.

The diameter of the drilling tool is 38mmØ in consideration of the approximate diameter 28mmØ of the draft width, and the space spacing is 0.3m, but at both ends of the rock narrows the space spacing about 0.2m so that the rock mass is cut along the planned surface. It is characterized in that the cutting.

Although only the upper part of the upper charge is carried out, when using a draft explosive having a strong absorbency, clay or sand is used as a colorant.

Hereinafter, the configuration and the operation of the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Double-sided blasting technology using the air layer of the present invention charges the low-explosive explosives such as draft explosives at the top and the bottom of each blasting hole to place a layer of air inside and detonate the upper and lower medicines at the same time to buffer the air layer. It is a new blasting method that can blast without causing cracks in the mother rock and gemstones.

In particular, when loading the medicine that is located in the upper part of the vertical blast hole, the bag of vinyl or similar material is tied with a string, etc., connected to the adjacent hole, and the two medicines are loaded together in the form of hanging, so it is easy to carry out the charging work in the field. This can greatly reduce the time and manpower required for work.

Materials such as vinyl bags are inexpensive and readily available and have little effect on the propagation of shock waves caused by explosive explosions.

In addition, the use of a vinyl bag makes it very easy to put the medicine in the field and tie it with a string, so that it is possible to perform the filling operation quickly and accurately, and therefore, there is an advantage that the contents of a given blasting design are reflected in the field construction.

The explosives applied to the present invention are draft explosives having a speed of about 3,500 m / sec, and those having a diameter of about 28 mm Ø are used.

Draft explosives are relatively slower than other explosives, so they are suitable for stone blasting.

On the other hand, the draft explosives are in the form of powder, and the draft (ammonium nitrate) itself has a strong absorbency, so that water is not used as a colorant, but is colored using clay or sand.

end. Perforated and loaded pattern

6 shows an example of the perforation pattern applicable to the double-sided blasting technique using the air layer. The drilling diameter is 38mm Ø in consideration of the approximate diameter 28mm Ø of the draft width, and the space spacing is 0.3m, but the space gap is narrowed to about 0.2m at both ends of the rock, so that the rock is cut along the planned cut. Be sure to The mill may vary depending on the size of the rock to be collected, but it should be within 10 meters. Similarly, the length of the mass can be set to an appropriate size depending on the site conditions, but it is better not to exceed approximately 40m.

As shown in FIG. 7, about 156 g corresponding to the weight of one drug of about 28 mm Ø draft is divided by the same amount in the upper and lower portions of the blast hole, and then charged by about 78 g. Since the detonation method uses simultaneous blasting, all charges are equipped with primers having the same delay or the same delay time. When the primer is installed in each blast hole, the detonation direction of the detonator should be directed to the co-bottom direction in the case of the upper charge, and in the opposite case, the detonation direction of the detonator should be mounted in the tool direction. Since the detonation direction of the explosive is determined by the detonation direction of the primer, when the primer is mounted in this way, the detonation direction of the explosive induced by the detonation of the primer is directed toward the air layer in the middle of the blast hole, thereby further improving the effect of the buffering action through the air layer. do.

The color is applied only to the upper part of the upper charge. When using a draft absorber with strong absorbency, clay or sand is used as the colorant. In the case of wiring, the upper and lower charges of each ball shall be connected first in series, then continue to be connected in series with adjacent balls, and then all blasts will be fired simultaneously.

I. Overload Charge

In the double-sided blasting method using this air layer, in order to put the air layer between the lower and upper charges in the vertical hole, the upper charge is loaded according to the following procedure.

① Insert the primer into the medicine to be used as the upper medicine.

② Put the primer in a plastic bag and tie the bag with a long string.

③ Tie a string with adjacent lengths and load a pair of bags in each ball.

④ Color using clay or sand on top of loaded explosives.

Figure 8 shows the state of the top-loaded loaded according to this procedure. As shown in the figure, the upper charges loaded in the vertical holes are each suspended in a blast hole.

Hereinafter are comparative examples and examples according to the present invention.

For the purpose of comparing the blasting efficiency between the blasting method by the detonation line and the blasting method using the air layer of the present invention, which is relatively well known as the double-sided blasting method applied to the stone collection, three test blastings were performed in the domestic D stone mine as follows. The results were considered.

⑴ Test Blasting Ⅰ: Double-sided Blasting Test Using Draft (Comparative Example)

발 Test blasting II: Double-sided blasting test 1 using air layer (Example)

파 Test blasting III: Double-sided blasting test 2 using air layer (Example)

Both sides of the target mass used for the test blasting were cut in advance using diamond wires.

9 is a state in which a horizontal hole is drilled at the bottom of the cut target rock in Test Blasting I, and FIG. 10 is a state in which a dopant is loaded in the perforated horizontal hole. 11 shows a working view of attaching a primer to a trunk line. 12 is a draft explosives used in the double-sided blasting test II and III using the air layer of the present invention, Figure 13 is a state of preparation work for loading the net explosive primer and the draft explosives in the blast hole.

end. Test Blasting I: Double-sided Blasting Test Using Draft (Comparative Example)

1) Specification of the rock to be cut

⑴ Length: Front 12.2 m, Rear 11.1 m

⑵ height: 8 m

⑶ width: 7 m

2) perforation pattern

⑴ Number of Holes: 38 Vertical Holes, 38 Horizontal Holes

격 Space: 0.3m vertical hole, 0.33m horizontal hole

3) charge pattern

공 Vertical hole: 2 strands / ball × 7.3m / strand = 14.6m / ball

공 Horizontal hole: 2 strands / ball × 6.3m / strand = 12.6m / ball

⑶ Connecting line: vertical hole 24m, horizontal hole 26m

Full color: water color

4) Spleen dose

⑴ Rock mass: (11.1 + 12.2) / 2 × 7 × 8 = 652.4㎥

장 Total dose: 1,084m × 10g / m = 10,840g

⑶ Spleen dose: 10,840g / 652.4㎥ = 17g / ㎥

I. Test blasting II: Double-sided blasting test 1 using air layer (Example)

1) Specification of the rock to be cut

⑴ length

▶ 1st rock: 21.5m in front, 20.0m in back

▶ 2nd mass: 6.5m in front, 5.0m in back

⑵ height

▶ 1st Mass: 4m

▶ 2nd Mass: 6m

⑶ width: 7 m

2) total drilling

공 Vertical hole: 64 holes

공 Horizontal hole: 68 holes

3) Spleen dose

암 total mass: (20.75 × 7 × 6) + (5.75 × 7 × 4) = 1,032.5㎥

장 Total dose: approx. 25.781㎏ draft width = 25,781g

⑶ Spleen dose: 25,781g / 1,032.5㎥ = 25.0g / ㎥

All. Test blasting III: Double-sided blasting test 2 using air layer (Example)

1) Specification of the rock to be cut

⑴ Length: Front 32m, Rear 29.6m (Average 31m)

⑵ height: left 6.2m, right 5.4m (average 5.8m)

⑶ width: left side 6.9m, right side 7.3m (average 7.1m)

2) total drilling

공 Vertical hole: 72 holes

공 Horizontal hole: 75 holes

3) Spleen dose

암 Total rock volume: 1,276.6㎥

⑵ Total dose: approx. 31.875㎏ = 31,875g

⑶ Spleen dose: 31,875g / 1,276.6㎥ = 25.5g / ㎥

la. Examination Results

1) Theoretical Dosing Method

Mancini et al. Proposed the following empirical formula by analyzing the relevant blast data statistically based on past cases that resulted in successful quarrying work by applying double-sided blasting by the detonation line.

Wherein c = specific dose (g / m 3), A = cutting area (m 2), V = cutting volume (m 3), d = displacement (m), and c ₁ , c ₂ , c ₃ are constants. Looking at the meaning of the above equation, the _first term c ₁ on the right side represents the minimum value of the effective reserve amount, item c ₂ A / V represents the destructive effect, and item c ₃ d represents the displacement effect. On the other hand, in the case of granite, the constants c ₁ , c ₂ and c ₃ in Eq. (1) are given by

c ₁ = 10.52 g / m 3, c ₂ = 26.47 g / m 2, c ₃ = 28.74 g / m ⁴

Equation (1) above is an empirical formula derived from the observed data, and is based on the concept of spleen dose. In terms of double-sided blasting, the spleen dose can be defined as the total expenditure consumed on the volume of the mass to be cut, that is, the amount of explosives consumed per volume of the mass, which is an important indicator of blasting efficiency and economy.

2) blasting results

The contents and results of the test blasting are summarized in Table 1 below. In the table, the moving distance of the rock mass is the average distance moved forward from the original position as the rock is cut as a result of double-sided blasting. In the blasting test I using the explosive line, the moving distance of the rock mass was 23 cm.

FIG. 14 shows the result of the test blast III, which shows that the target mass has been moved from the original position to the front of the bench by a certain distance, and also the scattered lines of the explosive primer used in the detonation of the draft explosive. As shown in this figure, the state of the posterior cut surface of the rock mass showed a relatively smooth rock surface with almost no cracks observed throughout the test blasting, but the part of the rock piece was observed to fall off at the upper edge portion. In this way, the phenomenon that the rock piece falls off at the upper edge of the rock is considered to be a result of tensile fracture on the free surface caused by the reflected wave or a latent crack generated in the last blasting. Properly adjusted spleen dose and full color can be minimized.

division Test Blasting Ⅰ Test Blasting Ⅱ Test Blasting III Cancer mass Length (m) 11.65 20.75 5.75 31.0 Width (m) 7.0 7.0 7.0 7.1 Height (m) 8.0 6.0 4.0 5.8 Surface area (㎡) 174.75 333.0 399.9 Volume (㎥) 652.4 1033.0 1276.6 Distance (m) 0.23 0.52 0.60 Spleen dose Dose amount (g) 10,840 25,781 31,875 Theoretical Spleen Capacity (g / ㎥) 24.1 34.0 36.1 Actual Spleen Amount (g / ㎥) 17.0 25.0 25.5

Mark Test Blasting Results

In order to evaluate the blasting efficiency for the double-sided blasting using the draft explosives, the theoretical specific loading c for the test blasting III was calculated. That is, the distance d = 0.60m after the actual blasting, and the numerical values related to the geometry of the rock mass, surface area A = 399.8㎡ and volume V = 1,276.6㎥.

Thus, by substituting these values and the constants c ₁ , c ₂ , and c ₃ for granite into Eq. (1), the theoretical specific loading c can be obtained as

Looking at the calculation results, it can be seen that the theoretical splenic dose in test blasting III is 36.1 g / m 3, while the actual splenic dose is 25.5 g / m 3, which is smaller. This result means that in order to make the moving distance of the rock mass 0.60m, theoretically, a spurious dose of 36.1g / ㎥ is required, but in reality, it is enough to blast with only 25.5g / ㎥ of spleen dose. It proves that the blasting efficiency of is very good.

Similarly, in case of test blasting Ⅱ, the theoretical loading amount was 34.0g / ㎥, but the actual loading amount was much smaller as 25.0g / ㎥, showing similar results to test blasting III.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Therefore, when the upper and lower medicines in the blast hole explode at the same time, each explosion shock wave generated from the upper and lower explosives enters the air layer, and the pressure is reduced first, and the impact pressure in the air collides with each other. The method of the present invention which can obtain a clean cut surface without causing cracks on the surface is equivalent to the blasting efficiency shown in double-sided blasting using the blasting line, which is known to have excellent blasting efficiency. And similar application blasting fields (eg, control blasting on slopes on slopes) may significantly contribute to improving the efficiency, economics and work efficiency of blasting.

In addition, the present invention is a control blasting mainly intended to protect the mother rock (including the stones collected in the quarry blasting), so in the case of quarry blasting can significantly reduce the loss of gemstones by reducing the blast cracking, control on the rock slope When applied to the blasting is a useful invention that is believed to be able to greatly improve the stability of the surface.

Claims (5)

In the quarrying method using gunpowder, After drilling the blast hole, load explosives on the bottom and top (approximately 1m from the tool) and put a layer of air between the two medicines and detonate them. A similar material, which is made of a material that does not significantly affect the detonation of explosives caused by the buffering action of the air layer), and then tie the vinyl bag with a string or the like and tie it together with adjacent ones to tie a pair of medicines together It is loaded in the form and detonation method is carried out using a net detonator.Both blasts are sprayed at the same time, as well as all the blast holes distributed in the upper and lower parts in each blast hole, and the blasting effect does not cause cracks in the mother rock and gemstones. Double-sided blasting method using an air layer characterized in that. The method of claim 1, The explosives loaded on the upper and lower sides are used, such as draft explosives, with a speed of about 3,500 m / sec and a diameter of about 28 mm Ø, and the upper and lower sides of the explosive are charged by 1/2 of the individual explosive weight. Blasting method. The method of claim 1, The installation direction of the primer is the detonation direction in the case of the upper medicament to the cooperative direction, and in the case of the lower pharmaceutical double side blasting method characterized in that the detonation direction of the primer is mounted so that the tool direction. The method of claim 1, The diameter of the drilling tool is 38mmØ in consideration of the approximate diameter 28mmØ of the draft width, and the space spacing is 0.3m, but at both ends of the rock narrows the space spacing about 0.2m so that the rock mass is cut along the planned surface. Double-sided blasting method using an air layer, characterized in that to be cut. The method of claim 1, Double-sided blasting method using the air layer, characterized in that the color is applied only to the upper portion of the upper charge, but when using a draft explosive having a strong absorbency, using clay or sand as the colorant.