KR20180105100A - Vibration-free rapid excavation method using pilot tunnel in large-scale tunnel - Google Patents

Abstract

The present invention relates to a method of gradually blasting a pilot tunnel base ground between a pilot tunnel and a prearranged main tunnel excavation surface by excavating a pilot tunnel, boring an elongated hole from the prearranged main tunnel excavation surface to the tunnel base ground, inserting a pre-support into the elongated hole, grouting the ground to reinforce the ground, and charging an empty hole formed when the pre-support is inserted into the pilot tunnel base ground from the pilot tunnel and the prearranged main tunnel excavation surface and a radial hole additionally formed with explosive powder. The method of gradually blasting a pilot tunnel base ground comprises the steps of: excavating a pilot tunnel to be spaced apart from a prearranged main tunnel excavation surface in order to insert the pre-support into the tunnel and excavate the tunnel; inserting and grouting a pre-support material by forming an elongated hole in the tunnel base passing the main excavation surface of the prearranged main tunnel from the pilot tunnel; boring a plurality of main tunnel holes in the excavation surface of the prearranged main tunnel in a vertical direction; boring a radial charging hole in the base ground of the pilot tunnel in the vertical direction of the tunnel; connecting gunpowder and detonators by groups of sections, charging the charging hole with the connected gunpowder and detonators and connecting gunpowder and detonators to cross sections of empty holes formed when the pre-support is inserted and charging the empty hole with the connected gunpowder and detonators; gradually blasting the charging holes from a blind end of the tunnel in the vertical direction of the tunnel; removing pumice stones of the excavated surface formed by the blasting; and taking out generated muck and additionally supporting the excavated surface.

Description

[0001] The present invention relates to a Vibration-free rapid excavation method using a pilot tunnel in a large-scale tunnel,

In the present invention, the pilot tunnel is excavated or the pilot tunnel is excavated by the TBM method (machine), the slot is drilled through the excavation surface of the main tunnel to the tunnel base, and then the pre-beam is pushed to the tunnel excavation line The present invention relates to a micro-vibration rapid excavation method for blasting ground from a pilot tunnel excavation surface to a tunnel excavation surface after reinforcing the ground by grouting or pressure grouting.

Conventionally, in the method of excavating a large cross section tunnel, the larger the cross section is, the more the number of partitions is increased in accordance with the softness of the soft ground of the tunnel, and the excavation and support are performed. The excavation method was mainly excavated with manpower, excavated with a machine such as an excavator, or charged with gunpowder and blasting.

The excavation and mechanical excavation are mainly used when the soil and the rock are mixed, and since the self-standing time of the excavation is short during the excavation, many assistive techniques are applied to reinforce the excavation and the tunnel air is delayed and the reinforcement ratio is added. In the presence of rock mass, blasting excavation using gunpowder is performed, and pollution of noise vibration occurs, so that it is blasted with the minimum load that does not exceed the vibration regulation, so that air and azeotropy become excessive.

Shield TBM or Grip type TBM have recently been applied to solve the above problems. However, it is not economical if the length is not less than 4 ~ 7 Km, It was difficult to apply it to the limit of

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a tunnel tunnel for excavating a pilot tunnel or excavating a pilot tunnel using a TBM method, It can be drilled 2 to 4 times faster than the conventional method by forming a charge hole in a radial shape on the cross section of the pilot tunnel to the excavation surface of the main tunnel in the tunnel and sequentially charging the gunpowder in the longitudinal direction of the tunnel, It is another object of the present invention to provide a micro-vibration rapid excavation method for excavating a pilot tunnel original in a tunnel in a microscopic manner.

In order to accomplish the above object, according to the present invention, there is provided a tunnel tunneling method comprising the steps of: excavating a pilot tunnel at a distance from a main excavation surface of a main tunnel to excavate and tunnel the main tunnel; A step of drilling a long hole in the tunnel base through the excavation surface to insert and grouting the pre-support, and a step of inserting a radial loading hole in the longitudinal direction of the tunnel into the ground plate (9) of the pilot tunnel in the pilot tunnel at regular intervals The method of claim 1, further comprising the steps of: forming a perforation adjacent to the main excavation surface of the tunnel, and connecting the explosive and the primer by grouping each charge section into the charge hole, And charging the charge ball from the surface side of the tunnel to the longitudinal direction of the tunnel Primarily removing step and, pumice the excavated surface formed by the blasting of a blasting and is characterized in that the step of shaping the surface, out of the generated low-grade ore out and comprising a step of adding a gem excavated surface.

In another aspect of the present invention, there is provided a method of manufacturing a radar device, comprising the steps of: forming the radial charge hole; forming a main excavation surface of the predetermined tunnel, Further comprising the step of drilling a plurality of main tunnel main surfaces in the longitudinal direction on the excavation surface.

According to another aspect of the present invention, in the case where the accumulated vibrations do not occur even when the ground plates of the pilot tunnel are successively blasted, and the tunnel base sheet viewed from the pilot tunnel that has been constructed in advance is completely supported by the pre- In the actual construction, the tunnel is constructed by repeatedly performing the sequential blasting and supporting operation by setting a predetermined one-time excavation length in terms of safety and the process in the actual construction.

According to the blasting method of the present invention as described above, the pilot tunnel is excavated by the conventional method, the pilot tunnel is excavated by the TBM method, and the tunnel seen through the tunnel excavation surface in the pilot tunnel, If the pre-beaming is carried out before tunneling, it is possible to charge the gunpowder in the radial direction of the cross section between the pilot tunnel excavation surface and the tunnel excavation surface, in other words, when the pilot tunnel is extended to the tunnel, By blasting, it is possible to perform two times or more indefinite punching by one round of punching compared to the conventional method, thereby providing quick workability and preventing blasting vibrations from accumulating.

In the present invention, the pilot tunnel excavation surface pre-excavated before excavating the major tunnel in the underground mine tunnel serves as an additional free surface, so that it is possible to omit the deep hole, which is an important factor in the prior art, , The amount of load is reduced, and the maximum excavation effect is obtained with minimum loading, thereby providing an economical construction.

When the main tunnel of the tunnel is installed in advance and the pilot tunnel is enlarged and blasted, the main surface ball has an effect of reflecting or attenuating the blasting vibration.

It is possible to economically construct the tunnel by reducing the total number of piercing holes by blasting by using the pre-spiral vail generated by constructing the spiral nail on the ground of the large-scale tunnel.

In addition, since the excavation is carried out before the conventional post-excavation support , It is effective to reduce the occurrence of the relaxation area of the paper sheet.

FIG. 1 is a view showing a method of blasting according to an embodiment of the present invention; FIG. 1 is a schematic view of a blasting method according to the present invention, in which a main surface is first installed on an excavation surface of a tunnel, The drawing shows the blasting method, and the line drilling method is applied to the main surface.
FIG. 2 is a view showing a procedure of sequentially blasting excavation four times in the longitudinal direction at the time of performing excavation once in the blasting method according to the present invention.
FIG. 3 is a cross-sectional view showing a veneer formed when the pre-support material and the pre-support material are formed on the paperboard of the upper part of the charge space according to the present invention.
4 is a sectional view of upper and lower sectional regions of the blasting method according to the present invention.
FIG. 5 is a view showing a pre-cracking blasting method that performs prestressing on a main surface of a blasting charge method according to the present invention, and shows a sequential blasting of a radial charge after a pre-blasting on a main surface.
FIG. 6 is a view showing a blasting method of blasting successively blasting from a radial charge hole to a main surface charge by charging a precise powder of a diameter smaller than the perforation diameter of the main surface of the charge method in the blasting method according to the present invention.
7 is a view showing another method of blasting according to the present invention, in which the distance from the main surface of the tunnel to the tip of the radial loading hole is set to be longer than the radial loading gap length in the longitudinal direction, To the main surface of the main body.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

First, the term "paper sheet" refers to a ground for constructing a tunnel. More specifically, the outer ground of the tunnel is referred to as a tunnel base, and the outer ground of the pilot tunnel is referred to as a pilot tunnel ground.

The term "pilot tunnel" means a tunnel having a smaller cross section than that of the main tunnel formed inside the main tunnel, which is structurally formed by a conventional tunnel construction method and can secure safety easily. Firstly, It is a tunnel installed so that the planned excavation surface of the main tunnel to install the pre-supports and the excavation surface of the pilot tunnel are spaced apart so as not to have a structural effect on the tunnel or to cause a small degree of displacement.

Second, in the pilot tunnel, the explosion holes in the radial direction are secured so that the blasting efficiency is high.

Third, the size of the pilot tunnel is designed according to the conditions of the site with the minimum cross-sectional size for drilling work and mechanization construction inside the tunnel, and excavation should be done when local prefecture for soft ground is important There can be times.

"Tunnel" means the tunnel of the final object, which is used after completion of excavation and support. In the case where the pilot tunnel is installed inside the section of the tunnel and the pre-beam is made, it is economical in a large-section tunnel having a tunnel cross section equal to or higher than the road three lanes. Tunnels with a smaller cross section are subject to mechanized construction, which increases construction costs and air. In the present invention, the tunnel refers to the final object tunnel.

Nails that have been installed before excavating the tunnel are defined as "pre-support" when there is no increase or slight increase in displacement and stress on the ground of the tunnel. The prefabricated prefabricated prefabricated prefabricated prefabricated prefabricated nylon is a linear type of prefabricated nail,

 The material of the pre-support is high strength and elongation must be higher than the elongation rate until the collapse of the paperboard. All wire materials such as reinforcing steel, steel pipe, steel wire and GRP (Glass Reinforced Plastic) can be used.

The pre-support is drilled with drill, inserted and secured by grouting. The grouting material may be a resin capsule or a cementitious material, which is an inorganic material with little change in temporal chemistry, and micro cement or a solution type can be used according to the ground conditions when the main purpose is the ordering.

The perforation diameter of the prefabricated materials is 105mm ~ 200mm in the soft ground, and 35mm ~ 105mm in the rocky ground considering the shear strength of the injection material and paper.

"Plate-type support" refers to a type of plate-like member installed on the tunnel excavation surface attached to the excavation surface. It is a combination of steel fiber shotcrete or shotcrete and wire mesh and reinforced steel cage In addition, it is also called plate-type support in which pre-casting plate is fixed to the pre-support by a support plate and grouting between the excavation surface and the pre-casting plate by mortar or cement milk.

As an example of the method, a first shotcrete is attached to an excavation surface, and a reinforced steel cage is fitted to the first support material protruded on the shotcrete surface, .

Reinforced Steel Cage is a steel reinforced steel cage which is installed in a lattice and overlapped with one layer or several layers according to structural needs, and is buried in shotcrete.

"Longitudinal direction" refers to the tunnel excavation direction.

The "enlarged excavation part" of the pilot tunnel is defined as the area between the intended tunnel excavation surface and the pilot tunnel excavation surface, and is also referred to as the pilot tunnel ground section.

As shown in FIG. 3, the "sequential blasting" refers to blasting by giving a time difference so that vibrations do not overlap in sequence from the first blasting to the fourth blasting, and the blasting of the first blasting to the fourth blasting is referred to as one group And the time difference between the groups is set so as to ignite.

1, a pilot tunnel 2 having a diameter smaller than that of the main tunnel is excavated, which is spaced apart from the main excavation surface 1 of the main tunnel. The spacing distance is larger than the relaxation area distance due to the excavation of the pilot tunnel,

The pilot tunnel 2 can be excavated with a conventional excavation method or excavated with a TBM method (machine). In the pilot tunnel 2 excavated by any one of the above methods, a long hole is drilled through a main excavation surface 1 of a tunnel to be tunnelled by a perforator in the tunnel base plate, and the pre-supports 4 ), Grouting or pressurized grouting, so that the ground surface is integrated with the paperboard by providing ground improvement and order effect by grouting. Since the pre-supports 4 are inserted so as to protrude slightly below the main surface excavation surface 1 of the planned tunnel, the long holes are formed between the pilot tunnel 2 and the main excavation surface 1 of the planned tunnel, Will remain. Since the vacant space can be used as a loading space to charge a gunpowder when the ground block of the pilot tunnel is later blasted, it is possible to reduce the number of holes in the entire loading space. After the excavation of the ground plate of the pilot tunnel between the pilot tunnel 2 and the main excavation surface 1 of the planned tunnel in the future, the pre-supports 4 are integrated with the plate-like support.

In order to excavate the ground plate 9 of the pilot tunnel, the loading hole is drilled radially in the pilot tunnel. These charging holes are continuously constructed in the longitudinal direction of the tunnel from the viewpoint of the tunnel toward the end point of the tunnel. The blasting of the radial charge ball causes continuous excavation of the radial charge ball in the longitudinal direction of the tunnel by the excavation field which performs one excavation and support, and since the tunnel is self-sustained before excavation, Of the radial charge ball.

The perforation diameter of the long hole is about 105mm ~ 200mm in consideration of the shear strength of the injection material and the paper in the soft ground, and is drilled in the rock about 35mm ~ 105mm. The spacing of the prefabricated materials (4) is numerically analyzed according to the ground conditions such as soft ground and sandstone rock, and construction is carried out at intervals.

In FIG. 1, a plurality of main tunnel holes 5 are drilled on the main tunnel excavation surface 1 of the tunnel to be tuned. The main tunnel main surface hole 5 is perforated in the longitudinal direction, that is, the longitudinal direction of the tunnel.

The lateral spacing of the tunnel main surface 5 of the main tunnel is set differently according to the purpose.

First, in order to reduce the vibration during excavation of the tunnel, it is necessary to dispose the large diameter of 10cm or more as much as 30cm as possible to enable line drilling on the main tunnel surface so that the vibration energy is reduced or the wave is reflected when the pilot tunnel ground is blasted. do. When the diameter of the main hole is 10cm and the distance between the adjacent main hole is 30cm, the vibration transmitted to the main tunnel is reduced by about 30% of the blasting vibration of the ground of the pilot tunnel.

Second, for the purpose of blast cracking, the blast furnace is buried in the main surface and blasted so that the cracks are generated. Then, the pilot tunnel is sequentially blasted in the longitudinal direction, and such blasting is performed so that the burrows on the main tunnel surface are minimized Obtain smooth blasting results.

Third, blasting is carried out using fine powder of diameter less than the diameter of the perforation hole, and the order of blasting is to sequentially blast the radial charge ball of the pilot tunnel and then blast the main tunnel hole (5) .

Fourthly, when blasting with a net explosion, radial charge holes are spaced from the main tunnel hole, which is larger than the longitudinal charge gap, and radial charge holes are arranged. The order of blasting is the tunnel excavation face viewed from the pilot tunnel excavation face , And then blast the main tunnel hole (5).

In general design, the lateral gap of the main tunnel for vibration reduction is set to be the narrowest in the first line drilling and the largest gap in the net explosive blasting.

The spacing of the main tunnel holes is designed to be different according to the rock quality of the tunnel base or the type of soil.

The possible size of vibration control is that the line drilling can be designed to be the smallest, and when vibration control is performed considering the excavation surface, line blasting or smash blasting is applied to the ball.

 The spacing of the main surface of the main tunnel may be determined by designing it according to the allowable vibration value of the security object affected by the rock quality and vibration.

The design method should be based on the blast vibration estimation formula of the relevant ground and the vibration blocking rate according to the interval of the main surface of the ground.

1, the distance to the loading surface of the main tunnel of the main tunnel of the tunnel is relatively short because the main tunnel hole 5 of the main tunnel of the tunnel is not charged, When the charge is blasted, the line-drilled main surface becomes the excavation surface, and the blasting vibration is reflected or attenuated by the line drilling.

As shown in FIGS. 2 and 3, the charge ball is provided with a charge hole 6-3 using a hole of a long hole for pre-drilling the previously inserted hole, and a charge hole 6-3, (6-1, 6-2, 6-4). The radial charging holes 6-1, 6-2, 6-3 and 6-4 are repeatedly perforated in the longitudinal direction of the tunnel.

Excavation of the tunnels takes place in this perforation hole, and excavation surface scaling, buckling treated shotcrete support and prefabrication of the prefabricated plates are installed 3 ~ 4 times in succession as shown in Fig. 3 depending on the ground and support conditions. These operations are repeated to excavate the tunnel.

2, the charge ball is installed at an interval of 1 m, and the first, second, third, and fourth charge holes 6-1, 6-2, 6-3, and 6-4 are staggered sequentially, I can be pushed by each one. Accordingly, since the one-time bending length can be lengthened four times as compared with the conventional technology, rapid construction becomes possible.

At this time, the charge holes (6-1, 6-2, 6-3, 6-4) are grouped by each cross section, and the gunpowder and the primer are connected and charged.

Fig. 3 also shows the vents formed when the pre-supports 4 are installed together with the cross section to which these vias belong. Then, the charge holes 6-1, 6-2, 6-3, and 6-4 are sequentially blasted in the longitudinal direction from the tunnel side of the tunnel. Each of the charge waves successively blasted through the charge holes 6-1, 6-2, 6-3 and 6-4 is referred to as a longitudinal gap 13 of radial charge holes, The distance is called a bow.

As described above, when the ground plates of the pilot tunnel are sequentially blasted, the accumulated vibration does not occur. In addition, when the tunnel base is completely supported by the pre- war beam, it can be blasted in an infinite sequence from the tunnel to the longitudinal direction, and rapid construction is possible.

FIG. 4 is a bottom cross-sectional view of the blasting process shown in FIG. 1. FIG. The lower section areas 7 and 8 of Figs. 1 and 4 complete the upper section area 9 of Fig. 4 by the sequential blasting as described above and the cross section area perforations 7 and 8 of the left and right lower section areas 7 and 8 of Fig. Holes 10 are punctured in the longitudinal direction of the tunnel, charged with gunpowder, blasted, and discharged outward.

5 is a view showing a line cracking blasting method among the charging methods used in the blasting method according to the present invention. A plurality of main surfaces are drilled along the main surface immediately below the tunnel in the longitudinal direction of the tunnel, and the charge of the main surface is charged gradually. The spacing of the main surface spaces in the pre-cracking blasting method is set so that the amount of load between the main surface and the main surface is sufficient for the cracks to be generated. When radial loading is applied to the ground of the pilot tunnel, the tip of the charge hole in the ground of the pilot tunnel from the main tunnel hole is designed in accordance with the ground degree of the ground.

6 is a view showing a smash blasting blasting method among the charging methods used in the blasting method according to the present invention. In the smash blasting blasting method, all the surface balls are charged, and at this time, the fine powder having a diameter smaller than the diameter of the main surface balls is weakened. The ignition sequence of the blasting progresses from the excavation side of the pilot tunnel to the main tunnel side of the tunnel

We use smash blasting technique to reduce the damage of natural ground by blasting and to reduce the excavation and smoothly finish the excavation surface simultaneously. This method is less effective for hard rocks with less cracks and more advantageous for hard rocks and soft rocks with many cracks.

7 is a view showing another method of blasting according to the present invention in which the distance from the main surface to the tip of the radial loading hole is set to be longer than the radial loading gap in the longitudinal direction and the pilot tunnel is moved to the free surface in a sequential manner It is to blast. As can be seen from the figure, the explosion of charges in succession from the excavation surface of the pilot tunnel toward the main tunnel side is called net explosion method, and conversely, the explosion is counterbalanced. In tunnel, weft width method does not use well due to excessive damage and vibration. Since the charge tunnel is blasted sequentially from the pilot tunnel side to the tunnel side, the inside of the pilot tunnel becomes free side and the blasting is facilitated with a small charge.

The distance from the main tunnel main surface hole 5 to the tip of the loading ball on the ground surface of the pilot tunnel may be set at a distance of about 1 m to 2.0 m at a radial charge hole spacing or more in the longitudinal direction.

7, the distance from the main tunnel to the tip of the loading ball of the main tunnel of the main tunnel is designed to be relatively long, and the distance from the pilot tunnel excavation surface to the main tunnel of the tunnel So that efficient excavation can be carried out with a small amount of load. The order of explosion of the net explosion is that the radial charge holes (6-1, 6-2, 6-3, 6-4) are consecutively performed from the first blast to the fourth blast, .

As described above, according to the present invention, the line drilling method, line cracking method, smooth blasting method, and net explosion-proof method can be classified according to the distance between the rock material of the ground of the tunnel to be constructed and the security object If the excavation surface of the tunnel can be easily shaped without the blasting due to the weak ground such as weathered rock, the main surface is omitted and the radial perforation and charge are made, Can be excavated by the technical idea of.

As shown in FIG. 2 and FIG. 3, when the ground plates of the pilot tunnel are sequentially blasted, the accumulated vibration does not occur. In addition, when the tunnel base is completely supported by the pre-war beam, it can be blasted in an infinite sequence from the tunnel to the longitudinal direction, and rapid construction is possible. However, in the actual construction, the tunnel is constructed by repeating the sequential blasting and supporting operation by setting a certain one round of the safety and the process.

The technical idea of this specification is to use the self-standing time of the ground to make the excavation length longer than the conventional method, so that it is possible to reduce excavation preparation, ventilation, shotcrete installation time and repeat construction with constant excavation length, There is an advantage that it can be reduced.

Hereinafter, the method of the present invention will be described step by step.

A step of excavating the pilot tunnel 2 from the main excavation surface 1 of the planned tunnel to excavate and tunnel the tunnel,

Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)

6-2, 6-3 and 6-4 in the longitudinal direction of the tunnels to the ground plate 9 of the pilot tunnel in the pilot tunnel 2 at regular intervals Forming a perforation adjacent to the main excavation surface (1) of the main tunnel,

(6-1, 6-2, 6-3, 6-4) are grouped by each cross section to connect the gunpowder and the primer and charge the charge of the vents (12) generated in the installation of the pre- In the hole (6-3), a charge and a primer are connected and charged to a cross section to which the void 12 belongs,

(6-1, 6-2, 6-3, 6-4) sequentially from the surface side of the tunnel to the longitudinal direction of the tunnel,

Removing the pits of the excavation surface formed by the blasting and shaping the surface,

Taking out the generated buckling force and further supporting the excavation surface.

The invention according to another aspect of the present invention is characterized in that it comprises the steps of forming the radial charging holes 6-1, 6-2, 6-3 and 6-4 by perforating the radial charging holes 6-1, 6-2, 6-3 and 6-4, a main excavation surface (1) of the predetermined tunnel is formed and a plurality of excavation surfaces Further comprising the step of drilling the tunnel main surface hole (5).

According to another aspect of the present invention, there is provided a method of tunneling a tunnel, comprising the steps of: excavating a pilot tunnel (2) at a distance from a main surface excavation surface (1)

Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)

Drilling a plurality of main tunnel main surfaces (5) on the main surface excavation surface (1) of the predetermined tunnel,

6-2, 6 (6-1, 6-2, 6-3, 6-2, 6-3, 6-2, 6-3, 6-2, 6-3, 6-2, 6-4) radially in the longitudinal direction of the pilot tunnel 2, -3, 6-4)

The radial charge holes 6-1, 6-2, 6-3 and 6-4 are grouped in each cross section to connect the gunpowder and the primer to charge the radial charge holes 6, and the vents 12 formed in the installation of the pre- Connecting the explosive and primer to the cross section to which the vents 12 belong,

Charging a fine powder having a diameter smaller than a pore diameter in the plurality of main tunnel main surfaces;

Sequentially blasting the radial charging holes 6-1, 6-2, 6-3, and 6-4 from the surface side of the tunnel in the longitudinal direction of the tunnel,

Blasting the main tunnel main hole;

Removing the pits of the excavation surface formed by the blasting and shaping the surface,

Taking out the generated buckling force and further supporting the excavation surface.

In another aspect of the present invention, there is provided a method for constructing a tunnel, comprising the steps of: disposing and drilling a pilot tunnel (2) apart from a main surface excavation surface (1)

Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)

The ends of the radial charge holes 6-1, 6-2, 6-3, and 6-4 from the tunnel main surface 5 seen from the ground plate 9 of the pilot tunnel in the pilot tunnel 2, Forming a perforation to be equal to or greater than the longitudinal spacing 13,

Drilling a plurality of main tunnel main surfaces 5 along a main surface on the main surface excavation surface 1 of the predetermined tunnel so that the main excavation surface 1 of the predetermined tunnel is formed,

(6-1, 6-2, 6-3, 6-4) are grouped by each cross section to connect the gunpowder and the primer and charge the charge of the vents (12) generated in the installation of the pre- In the hole (6-3), a charge and a primer are connected and charged to a cross section to which the void 12 belongs,

Loading all of the plurality of main tunnel main surfaces 5,

(6-1, 6-2, 6-3, 6-4) sequentially from the surface side of the tunnel to the longitudinal direction of the tunnel,

Blasting the plurality of main tunnel main surfaces (5)

Removing the pits of the excavation surface formed by the blasting and shaping the surface,

Taking out the generated buckling force and further supporting the excavation surface.

1: excavation surface of main tunnel in planned tunnel 2: pilot tunnel
3: Origami paper 4: Prefabricated material
5: Main tunnel 6: 6-1 ~ 6-4: Radial charge
7: lower left section area 8: right lower section area
9: ground plate of pilot tunnel (pilot tunnel enlarging excavation part) 10: cross-sectional area drilling hole
12: Vacuum (void created after insertion of the beam) 13: Longitudinal distance of the radial load

Claims (4)

A step of excavating the pilot tunnel 2 from the main excavation surface 1 of the planned tunnel to excavate and tunnel the tunnel,
Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)
6-2, 6-3 and 6-4 in the longitudinal direction of the tunnels to the ground plate 9 of the pilot tunnel in the pilot tunnel 2 at regular intervals Forming a perforation adjacent to the main excavation surface (1) of the main tunnel,
(6-1, 6-2, 6-3, 6-4) are grouped by each cross section to connect the gunpowder and the primer and charge the charge of the vents (12) generated in the installation of the pre- In the hole (6-3), a charge and a primer are connected and charged to a cross section to which the void 12 belongs,
(6-1, 6-2, 6-3, 6-4) sequentially from the surface side of the tunnel to the longitudinal direction of the tunnel,
Removing the pits of the excavation surface formed by the blasting and shaping the surface,
And a step of taking out the generated buckling force and further supporting the excavation surface.
The method according to claim 1,
(6-1, 6-2, 6-3, 6-4) by drilling the radial charging holes (6-1, 6-2, 6-3, 6-4) A plurality of main tunnel boring holes 5 are formed in the longitudinal direction on the main tunnel excavation surface 1 of the predetermined tunnel so that the main tunnel excavation surface 1 of the tunnel is formed and the vibration is attenuated, Further comprising the steps of:
A step of excavating the pilot tunnel 2 from the main excavation surface 1 of the planned tunnel to excavate and tunnel the tunnel,
Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)
Drilling a plurality of main tunnel main surfaces (5) on the main surface excavation surface (1) of the predetermined tunnel,
6-2, 6 (6-1, 6-2, 6-3, 6-2, 6-3, 6-2, 6-3, 6-2, 6-3, 6-2, 6-4) radially in the longitudinal direction of the pilot tunnel 2, -3, 6-4)
The radial charge holes 6-1, 6-2, 6-3 and 6-4 are grouped in each cross section to connect the gunpowder and the primer to charge the radial charge holes 6, and the vents 12 formed in the installation of the pre- Connecting the explosive and primer to the cross section to which the vents 12 belong,
Charging a fine powder having a diameter smaller than a pore diameter in the plurality of main tunnel main surfaces;
Sequentially blasting the radial charging holes 6-1, 6-2, 6-3, and 6-4 from the surface side of the tunnel in the longitudinal direction of the tunnel,
Blasting the main tunnel main hole;
Removing the pits of the excavation surface formed by the blasting and shaping the surface,
And a step of taking out the generated buckling force and further supporting the excavation surface.
Placing and drilling the pilot tunnel 2 away from the main surface excavation surface 1 of the planned tunnel to excavate and tunnel the tunnel,
Inserting and grouting the pre-support material (4) by drilling a long hole in the tunnel base plate through the main tunnel excavation surface (1) of the planned tunnel in the pilot tunnel (2)
The ends of the radial charge holes 6-1, 6-2, 6-3, and 6-4 from the tunnel main surface 5 seen from the ground plate 9 of the pilot tunnel in the pilot tunnel 2, Forming a perforation to be equal to or greater than the longitudinal spacing 13,
Drilling a plurality of main tunnel main surfaces 5 along a main surface on the main surface excavation surface 1 of the predetermined tunnel so that the main excavation surface 1 of the predetermined tunnel is formed,
(6-1, 6-2, 6-3, 6-4) are grouped by each cross section to connect the gunpowder and the primer and charge the charge of the vents (12) generated in the installation of the pre- In the hole (6-3), a charge and a primer are connected and charged to a cross section to which the void 12 belongs,
Loading all of the plurality of main tunnel main surfaces 5,
(6-1, 6-2, 6-3, 6-4) sequentially from the surface side of the tunnel to the longitudinal direction of the tunnel,
Blasting the plurality of main tunnel main surfaces (5)
Removing the pits of the excavation surface formed by the blasting and shaping the surface,
And a step of taking out the generated buckling force and further supporting the excavation surface.

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