KR20100052381A - Arrangement of holes for cutting core part during tunnel construction in accordance with parallel hole cut method - Google Patents

Abstract

PURPOSE: A blasting hole disposition structure for the tunnel blasting by a horizontal blasting method is provided to reduce to dig a tunnel by reducing the necessary ventilation time. CONSTITUTION: A blasting hole disposition structure for the tunnel blasting by a horizontal blasting method comprises three smooth blasting holes(110), two first blasting holes, and a plurality of around blasting holes(120-160). The three smooth blasting holes are each other separated and located on the center of a central cut. A first blasting hole is respectively located between the three smooth blasting holes. The around blasting hole is arranged on the circumference of the smooth blasting and the first blasting hole. The hole which can connect the three smooth blasting holes is blasted by blasting the first blasting hole.

Description

Cardiac hole arrangement for tunnel blasting by parallel evaporation {ARRANGEMENT OF HOLES FOR CUTTING CORE PART DURING TUNNEL CONSTRUCTION IN ACCORDANCE WITH PARALLEL HOLE CUT METHOD}

The present invention relates to a cardiac hole arrangement structure for tunnel blasting by parallel cardiac method, and more specifically, to form a smaller number of holes and blast the explosives inserted therein, thereby effectively detecting the cardiac part. By making it possible, not only can you inexpensively carry out by using less air, but also reduce the number of gunpowder and detonators, and reduce the noise, vibration and storm pressure generated during the blasting process so that the tunnel can be environmentally friendly. It relates to a cardiac hole arrangement structure for tunnel blasting by a parallel cardiac method.

In order to allow drivers to drive comfortably, reduce unnecessary energy waste and reach their destinations in less time, it is most efficient for roads or railroads to be traveled by vehicles or railways as straight as possible toward their destinations. .

When mountainous areas block roads or railroads, roads or railroads were constructed by way of bypassing tunnels in the past, but in recent years, tunnels have been excavated in mountainous areas to improve energy efficiency and reduce the occurrence of safety accidents. Roads and railways are constructed in a straight line.

There are various ways to excavate a tunnel, but the excavation method by blasting explosives is widely used. In order to excavate the tunnel 1 as shown in FIG. 1, a hole in which the free surface is expanded by first blasting the core 10, which forms the central part of the tunnel 1, in a mountainous area composed of a rock 99, etc. After generating the, by blasting a plurality of peripheral holes 20, the outermost hole 30 and the bottom hole 40 disposed in the periphery it is possible to form a hole in the cross-sectional shape of the tunnel.

In other words, the first thing to be done for the excavation of the tunnel is to drill a hole in the heart portion 10 to extend the free surface. To this end, the heart portion 10 is a number of medicinal holes and a number of armed medicinal holes are properly disposed to insert the explosives into the blasting holes, these medicated holes are formed in a form inclined toward the free surface after the explosives therein Angled hole cut to form a hole in the heart part 10 by blasting and the charge hole is formed in a parallel shape toward the free surface and then exploding the explosives in the inside to form a hole in the heart part 10 The heart beat of the heart part 10 is performed by one of parallel hole cut methods. In general, the oblique heart drill method is used to blast weathered rock or soft rock because the diameter of each hole is different and it is difficult to apply to a small cross section, and it is difficult to drill using a machine. Cardiac methods are widely used for the blasting of hard and extreme cancers.

On the other hand, blasting for constructing a tunnel is characterized by the presence of only one free surface. For this reason, it is difficult to dig deep even when blasting using a lot of explosives, unless an additional free surface is formed so that the surrounding rocks can be broken by the blasting. For this reason, in the blasting process for constructing the tunnel, a step of blasting the core 10 first to form an additional second free surface is required.

FIG. 2 is a view illustrating a cardiac arranging structure of the cardiac unit 10 shown in Korean Patent Publication No. 10-395409. As shown in FIG. 2, the conventional cardiac hole arrangement structure of the core portion 10 for tunnel excavation has six first medicine holes 12 arranged so as to surround three armed holes 11 in a line at a central portion thereof. Four second medicine balls 13 arranged in a rectangle 13a surrounding the first medicine hole 12, and four third medicine balls arranged in a rectangle 14a surrounding the second medicine hole 13 14 and four fourth medicine holes 15 arranged at the vertex position of the square 15a where the third medicine hole 14 is located at the center of the side, and the fourth medicine hole 15 at the center of the side. It is composed of four fifth long holes 16 arranged at the vertex position of the square (16a) to form the outer surface of the heart hair 10. Then, by blasting the first charge hole 12, the free surface is extended in the direction of the reference 12d ', 12d "centered on the armed medicine hole 11, and then the second charge hole 13, the third charge The ball 14, the fourth medicine ball 15 and the fifth medicine ball 16 are sequentially blasted and the hole becomes larger and larger so that a deep hole is drilled in the heart portion 10 so that the free surface can be expanded. do.

Then, by blasting the peripheral hole 20, the outermost hole 30 and the bottom hole 40 of Figure 1 in order to further expand the expanded free surface to the size of the tunnel to be excavated, The construction of the tunnel takes place.

However, in the case of cardiac pore arrangement according to the conventional cardiac arthroplasty structure shown in FIG. 1, the number of charge holes increases more than necessary without sufficiently utilizing the armed holes which are relatively large in diameter and difficult to install. As a result, the heart is more costly to the heart and the time required for blasting, as well as the use of excessive explosives caused a problem that the noise and vibration increases. As a result, when constructing a tunnel in such a manner near a residential area, there is a problem that many complaints are generated and it is difficult to proceed with construction as scheduled.

In order to solve the problems described above, an object of the present invention is to allow the lower part of the cardiac part to be detected by a smaller number of plunge holes, thereby allowing the tunnel to be drilled by a lower cost and less airborne during the process. .

In addition, the present invention is to prevent the increase in the cost required for the construction according to the excessive use of the gun powder by reducing the use of unnecessary gunpowder by removing the number of unnecessary charges, at the same time noise and vibration generated by the use of excessive gunpowder It is another object to reduce the risk of environmental damage and to enable environmentally friendly tunnel drilling.

In addition, according to the present invention, as the number of charge holes is reduced and the amount of gunpowder used for blasting is reduced, blasting time is reduced, vibration, scattering, storm pressure, etc. are reduced, and construction time is reduced by venting after blasting. Another object is to shorten the time and allow the tunnel to be drilled in a short time.

In order to achieve the object as described above, the present invention is a cardiac hole arrangement structure for extending the free surface of the tunnel to be excavated by the cardiac part by the parallel cardiac method, the central portion of the cardiac part Three armed medicines arranged in a line apart from each other; Two first medicine balls respectively positioned between the three armed medicine balls; A plurality of peripheral charge balls disposed around the armhole and the first charge hole; It is configured to include, the explosives inserted into the first medicinal hole is blasted first to provide a tunnel cardiac hole arrangement structure characterized in that the first form of the hole connecting the three armed medicament to be generated first to be detected do.

In other words, in order to form a deep hole in the heart foot to expand the free surface for tunnel blasting, it is necessary to extend the free surface by arranging the masonry to surround the armed medicament or disorderly arranging the medicinal and the armed medicinal. Unlike the conventional heart-laying hole arrangement structure, which is inefficient, the present invention generally arranges armed medicines as the first medicines are blasted by arranging the first medicines one by one between armed medicines having a larger diameter as compared to the charges. As the free surfaces extend in two directions toward each other, the cross section expanded by the blasting of a single hole can be maximized, thereby maximizing the blasting efficiency.

Above all, in the present invention, the second medicinal holes of the surrounding medicinal holes are located one by one on each side spaced in a direction perpendicular to the straight line forming the three armed medicinal holes arranged in a line, and inserted into the second medicinal holes The second explosive is blasted, and is characterized in that the second hole is formed in the form of a second hole in connection with the straight hole connecting the three armed holes. That is, the present invention forms a hole in a straight line according to the blasting of the two first-load holes to form a hole in the form of a square in accordance with the blasting of the two secondary-load holes to minimize the minimum charge It is possible to extend the free surface to the maximum. At this time, the arming holes are preferably arranged in a line to be spaced farther away than in the prior art, the armed medicine ball and the second medicine ball located on the outside of the three armed medicine holes to form a rhombus with a constant distance from each other It is preferable.

In addition, the third chapter of the peripheral medicine ball is wrapped around the two second medicine ball and the three armed medicine ball, each of which is located at each of the four corners of the square so that the second medicine ball is located around the center of the side It is composed. Therefore, the explosives inserted into the third medicinal hole are blasted for the third time, so that the explosives inserted into the second medicinal hole can be blown while expanding the rectangular hole formed by the blasting of the explosives.

The term "wrapping" described in the present specification and claims is not necessarily limited to being located inside compared to the wrapping object, and also includes a case in which the wrapped object and the wrapping object have overlapping boundaries. It will be used as the term. Therefore, although the second medicine hole may be positioned inside the side of the rectangle in which the third medicine hole is disposed, the second medicine hole may be located on the rectangle in which the third medicine hole is disposed.

In other words, the present invention is a cardiac arranging structure of a cardiac portion for expanding a free surface of a tunnel which is promulgated by parallel cardiac extraction by a parallel cardiac method, wherein three cores arranged in a line are spaced apart from each other at a central portion of the cardiac portion. Armed medicine; Two first chapter medicine balls respectively positioned between the three arming medicine balls; Two second medicine balls arranged one on each side of the three armed medicine balls spaced at right angles from a straight line forming a line; Four third medicine balls each of which surrounds the two second medicine balls and the three armed medicine balls, one each positioned at a vertex position of a quadrangle such that the second medicine balls are positioned around the center of the side; Four fourth medicine balls each located at a vertex position of a quadrangle such that the four third medicine balls are positioned around the center of the side; And four fifth long holes each positioned at a vertex position of a quadrangle so that the four fourth long holes are located around the center of the side, and the first long holes and the second long holes are blasted sequentially. It provides a tunnel deep hole arrangement structure, characterized in that.

At this time, the armed holes are arranged spaced apart from each other at regular intervals, assisting to maximize the free surface when the blasting of the first long holes.

As described above, the present invention is a cardiac arranging structure of a cardiac portion for expanding a free surface of a tunnel which is to be drilled by a parallel cardiac portion and paralleled, and is spaced apart from the center portion of the cardiac portion. Three armed medicines arranged in a row; Two first medicine balls respectively positioned between the three armed medicine balls; Two second medicine balls each arranged on one side of the three armed medicine balls arranged in a line at a right angle from a straight line forming a row; A plurality of peripheral medicine balls arranged around the armoured medicine balls and the second medicine balls; It is configured to include, so that the explosives inserted into the first medicinal hole is first blasted, and the explosives inserted into the second medicinal hole is blasted a second time, so that a straight hole connecting the three armed medicinal holes is the most By first generating, and then by the blasting of the second charge hole to extend the free surface from a straight line to a rectangular shape, to arrange the charge hole to surround the armed medicine or to arrange the medicine and armed medicine disorderly Accordingly, unlike the conventional cardiac hole arrangement structure, which is inefficient in expanding the free surface, it provides a tunnel cardiac hole arrangement structure that can maximize the blasting efficiency by allowing the free surface to be maximized to the maximum with minimal charge holes.

That is, the present invention can be expanded to a wider free surface with the lowest number of medicinal holes by utilizing three armed medicinal holes, making the screening process cheaper, and the economical efficiency is excellent, but in a shorter construction period due to less labor Allow the tunnel to be drilled.

In addition, the present invention prevents an increase in the cost of construction due to excessive use of gunpowder by reducing the use of unnecessary gunpowder by removing the number of unnecessary charge workers, and at the same time, noise and vibration generated by the use of excessive gunpowder It is possible to reduce the risk of environmentally friendly tunnel excavation.

In addition, according to the present invention, as the number of charge holes and the amount of gunpowder used for blasting are reduced, blasting time is reduced, vibration, scattering, storm pressure, etc. are reduced, and construction time is reduced by venting after blasting. It saves time so that tunnels can be drilled in a short time.

Hereinafter, the tunnel deep hole arrangement structure 100 according to an embodiment of the present invention with reference to the accompanying drawings in detail. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

5 is a view illustrating an arrangement structure of a tunnel deep hole according to an embodiment of the present invention, FIG. 6 is a cross-sectional view taken along the cutting line VI-VI of FIG. 5, and FIG. 8 is an enlarged view of 'A' of FIG.

As shown in the figure, the tunnel deep hole arrangement structure 100 according to an embodiment of the present invention in order to extend the free surface by drilling a hole in the core portion 10 for tunnel excavation, Three first medicine holes 120, one spaced apart from each other, and spaced apart from each other along a vertical straight line at a central portion, arranged between the three armed medicine balls 110, Two second medicine balls 130 and two second medicine balls 130 and two armed medicine balls 130 each positioned one at each side spaced at right angles from a straight line arranged in a line are arranged. Four third chapter holes 140 and four third chapter holes 140 respectively positioned at the apex positions of the squares 140a to surround the center 110 of the side so that the second chapter holes 130 are positioned around the sides of the sides. Each at the apex position of the rectangle 150a so that 140 is located around the center of the side. Four fourth chapters 150, which are positioned one by one, and four fourth chapters 150, which are each positioned at the apex positions of the quadrangle 160a such that the four fourth chapters 150 are positioned around the center of the side. It is composed of

The armed medicine hole 110 is arranged at equal intervals in a straight line in the vertical direction, the armed medicine hole 111 is located in the center portion is approximately located in the center of the heart hair part (10). Arming holes 110 is formed to expand the free surface by the blasting of the surrounding holes (120-160), for this purpose, armed holes (110) is generally compared to the length of the charge holes (120-160) Formed much larger, forming the armholes 110, such as the rock 99, takes a higher cost than forming the mortars 120-160. Accordingly, the armed pharmacy is ideally to be able to detect with a minimum number.

The first medicine ball 120 is located one each in the space between the armed medicine ball 110 arranged at a predetermined interval in a straight line. Accordingly, as shown in FIG. 6, the first charging holes 120 are positioned between the central arming holes 111 and the outer arming holes 112, respectively, and are inserted into the first charging holes 120. When the explosives are blasted, the free surface is extended in a straight direction connecting the central armed medicine hole 111 and the outer armed medicine hole 112.

Here, the first charge hole 120 is constructed with a predetermined depth determined in the design, and as shown in FIG. 8, a relatively thick explosive 120c is formed at the deepest position as a base charge. Inserted into the intermediate position adjacent to the explosives (柱 裝 藥: relatively lower charge 120b) is inserted into the injecting drug (Bottom: Bottom Charge), the color portion 120a of the distance of the resistance line from the inlet of the first charge hole (120) As explosives are not inserted. As a result, when the explosives 120b and 120c inserted into the first charging hole 120 are blasted, a large explosive force is transmitted in the radial direction and a low storm pressure is discharged toward the inlet in the depth direction.

The second medicated hole 130 is formed one by one at a position spaced apart by the same interval in the transverse direction from a straight line of the longitudinal direction formed by the armed medicament 110. That is, the two first medicine holes 120 and the armed medicine holes 112 located at the outermost side form a rectangle 120d having a rhombus or quadrangular shape having a constant gap therebetween. Accordingly, as shown in FIG. 7, when the explosives inserted into the second charge hole 130 is blasted, the space between the second charge hole 130 of FIG. 7 is freed according to the blasting of the rock 99 or the like. Since it becomes a surface, a straight free surface formed as the first medicine hole 120 is blasted is in an expanded state in the shape of a square (120d) of the rhombus shape.

In other words, in the state in which the free surface is first formed in a straight line shape by the blasting of the first long hole 120 first, the straight line is formed by the blasting of the second long hole 130 spaced apart from the vertex to form a square plane shape. The free surface of can extend the free surface in a planar form. This is a planar shape of the same size with only the four holes 120 and 130 shown in FIG. 5, as compared with the free surface extending in a planar shape by the ten holes 12 and 13 shown in FIG. 1. That means you can expand to the free plane. Therefore, the cardiac hole arrangement structure 100 according to the embodiment of the present invention requires only six or fewer reduced number of holes to expand to the same size free surface as compared to the conventional, so that the total length through the tunnel Since the number of six reduced charge holes is reduced, the cost of tunnel drilling is reduced, and the amount of gunpowder is also reduced, so that the noise and vibration required for blasting can be greatly reduced.

The third charge holes 140 to fifth charge holes 160 are arranged similarly to the conventional tunnel deep hole arrangement structure shown in FIG. 1. That is, the third chapter medicine 140 is located at the vertex position of the square 140a surrounding the second chapter medicine 130, one of the fourth chapter medicine 150 is the third chapter medicine 140 is located at the center of the side Respectively located at the vertex position of the rectangle (150a), the fifth medicine hole 160 is located at the vertex position of the rectangle (160a) where the fourth medicine hole 150 is located in the center of the side. In addition, the third long holes 140 to the fifth long holes 160 are sequentially blasted, so that the free surface extended in a planar shape by the blasting of the second long holes 130 is widened, thereby making The heart portion 10 is to be heart beat.

Hereinafter, the blasting process of the tunnel deep hole arrangement structure 100 according to an embodiment of the present invention configured as described above will be described in detail.

Step 1 : First, as shown in FIG. 5, the cardiac cavities are arranged so that the armed holes 110 and the loaded holes 120-160 are disposed. At this time, the explosives inserted into the charge holes (120-160), as shown in Figure 8, the thick explosives (120c) is installed in the deep position, the thin explosives (120b) is installed in the central position and the explosives are installed in the inlet It is left as a full color portion 120a. In addition, the holes 120-160 are formed to a diameter of about 34mm ~ 51mm small, the armed holes 110 is formed of a diameter of about 64mm (approximately 102mm ~ 152mm) or more.

Here, the gap between the armed holes 110 is formed larger than the conventional armed holes 11 shown in FIG. That is, in the case of forming the heart hair 10 of the same size, the conventional armed medicine hole 11 is located in the central portion of the heart hair 10, but armed medicine 110 in one embodiment of the present invention Armed medicine hole 112 of the outside is spaced far enough to form a square with the second heart hole (12). Therefore, a long straight free surface may be formed by the blasting of the first medicine hole 120.

Step 2 : Then, the first medicament 120 is positioned between the central armed medicine 111 and the upper armed medicine 112, and subsequently, the center armed medicine 111 and the lower armed medicine 112 are located between. As the first blasting hole 120 located in the blasting, the crushed rock according to the blast is moved in the direction indicated by the reference numeral 120d is ejected toward the armed medicine hole 110, thereby connecting the outer armed medicine hole 112 Is formed extending to the free surface. At this time, the armed medicine hole 110 in one embodiment of the present invention is arranged more spaced than the conventional free form of the straight form is longer in the vertical direction than the conventional form.

Step 3 : Next, the second medicated holes 130 are blasted to be spaced apart on both sides from the straight free surface in the vertical direction. Accordingly, the crushed rock caused by the blasting in the second charge hole 130 is ejected toward the straight free surface while moving in the direction indicated by reference numeral 130d, whereby the free surface has a rectangular shape indicated by reference numeral 130a. Expands to That is, the rectangular free surface indicated by reference numeral 130a is similar in shape to the rectangular free surface indicated by the conventional reference numeral 13a of FIG. 1, and conventionally, explosive charges inserted into ten long holes 12 and 13 are provided. Although it was possible to form the free surface of the rectangular cross section by blasting, according to one embodiment of the present invention by forming a rectangular cross-sectional free surface of similar size by blasting the explosives inserted in only four charge holes (120,130) You can do it.

Therefore, considering that the explosive charges generally required for the piercing holes (120-160) of 4m depth is approximately 3.6kgf to 4.0kgf, compared with the conventional cardiac hole arrangement structure, the cardiac hole arrangement structure according to the present invention is As a result, the number of explosive charges of about 22kgf to 25kgf per 4m of tunnel depth is reduced as the number of six holes is reduced, and the explosion noise, vibration and storm pressure are also reduced. Therefore, the construction method using the tunnel deep hole arrangement structure 100 according to the present invention has an advantage that can be applied to the tunnel construction in the area difficult to be applied by civil complaints due to the blasting noise of explosives.

Step 4 : Then, the explosives inserted into the third medicine hole 140 are blasted so that the free surface extended in the plane shape indicated by 130a by the blasting of the second medicine hole 130 is in the rectangular shape indicated by the reference numeral 140a. To expand.

Step 5 : Then, the explosives inserted into the fourth medicine hole 150 are blasted so that the free surface expanded in the plane shape indicated by 140a by the blasting of the third medicine hole 140 in the rectangular shape indicated by the reference numeral 150a. To expand.

Step 6 : Next, the explosives inserted into the fifth medicine hole 160 are blasted, and the free surface extended in the planar shape represented by 150a by the blasting of the fourth medicine hole 150 is in the rectangular shape indicated by the reference numeral 160a. More expanded, the heart part 10 is in the extended free surface state with all the holes. Then, the crushed rock accumulated in the heart portion 10 is removed by blasting in multiple stages, and the plurality of peripheral holes 20, the outermost hole 30, and the bottom hole of FIG. 1 disposed around the heart portion 10. By blasting 40, the shape of the tunnel can be excavated through blasting.

After the core 10 is drilled until the tunnel is penetrated, the steps 1 to 6 of expanding the free surface are repeated, thereby completing the construction of the tunnel.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

1 is a distribution diagram of a charge for explaining a general tunnel blasting method

Figure 2 is a view showing the arrangement of the conventional tunnel deep hole

3 is a cross-sectional view taken along line III-III of FIG.

4 is a cross-sectional view taken along the line IV-IV of FIG.

5 is a view showing the arrangement of the tunnel deep hole according to an embodiment of the present invention

FIG. 6 is a cross-sectional view taken along the cutting line VI-VI of FIG. 5.

FIG. 7 is a cross-sectional view taken along the line VII-VII of FIG. 6

8 is an enlarged view of 'A' of FIG.

** Description of symbols for the main parts of the drawing **

100: heart hole placement structure 110: armed medicine

111: center armed drug 112: outer armed drug

120: Chapter 1 Pharmacy 130: Chapter 2 Pharmacy

140: Chapter 3 Pharmacy 150: Chapter 4 Pharmacy

160: Chapter 5

Claims (6)

A cardiac arranging structure of a cardiac section of a cardiac section for expanding a free surface of a tunnel which is formed by drawing a cardiac section by a parallel cardiac method. Three armed medicine balls arranged in a line and spaced apart from each other at a central portion of the heart claw; Two first medicine balls respectively positioned between the three armed medicine balls; A plurality of peripheral charge balls disposed around the armhole and the first charge hole; It is configured to include, the explosives inserted into the first medicinal hole is first blasted tunnel tunnel hole construction structure, characterized in that the first form of the hole connecting the three armed medicinal holes to be generated first. The method of claim 1, wherein the peripheral charge hole, Two second medicated balls arranged one on each side of the three armed holes spaced apart from each other in a direction perpendicular to a straight line forming a row; It is configured to include, the explosives inserted into the second medicinal holes are blasted for the second time, in connection with the straight-shaped holes connecting the three armed medicinal holes to form a second hole in the form of a second to be detected Tunnel deep hole placement structure characterized in. 3. The method of claim 2, The armored medicine hole and the second medicine hole located in the outer side of the three armored medicine hole tunnel structure, characterized in that to form a rhombus. The method of claim 2, wherein the peripheral charge hole, Four third medicinal balls wrapped around the two second medicinal holes and the three armed medicinal balls, each positioned at a vertex position of a quadrangle such that the second medicinal holes are located around the center of the side; It is configured to further include, the explosives inserted into the third medicinal hole is blasted by the third, characterized in that to be detected while expanding the hole in the form of a square formed by the blasting of the medicament inserted into the second medicinal hole Tunnel deep hole placement structure. A cardiac arranging structure of a cardiac portion of a cardiac portion for expanding a free surface of a tunnel which is formed by drawing a cardiac portion by a parallel cardiac method, Three armed medicine balls arranged in a row spaced apart from each other in the center portion of the heart; Two first chapter medicine balls respectively positioned between the three arming medicine balls; Two second medicine balls arranged one on each side of the three armed medicine balls spaced at right angles from a straight line forming a line; Four third medicine balls each of which surrounds the two second medicine balls and the three armed medicine balls, one each positioned at a vertex position of a quadrangle such that the second medicine balls are positioned around the center of the side; Four fourth medicine balls each located at a vertex position of a quadrangle such that the four third medicine balls are positioned around the center of the side; And Four fifth chapter holes each located at a vertex position of a quadrangle such that the four fourth chapter holes are positioned around the center of the side; Consists of, the first cardiac hole, the second cardiac hole is tunneled by the blasting sequentially characterized in that the tunnel deep hole arrangement structure. The method according to any one of claims 1 to 5, The armed medicine is a tunnel deep hole arrangement structure, characterized in that spaced at regular intervals arranged

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