CN108489350A - III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method - Google Patents

Abstract

It is division top bar excavation area, top bar excavation boundary, get out of a predicament or an embarrassing situation excavation area and excavation boundary of getting out of a predicament or an embarrassing situation on III level surrounding rock tunnel excavated section the invention discloses a kind of III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method；It is 2~3 times of distances of single cycle drilling depth to keep the appropriate distance between preliminary bracing structure and face；Speedy drivage photoface exploision is carried out for top bar excavation area；Damage using speedy drivage photoface exploision control sinking and blasting to tunnel surrounding.The present invention can effectively control damage of the sinking and blasting to tunnel surrounding, give full play to self, make to keep appropriate distance between preliminary bracing structure and face, peripheral light blast hole is avoided to be limited by preliminary bracing structure and generate out break phenomenon, set of tunneling construction efficiency is improved, engineering cost is reduced.

Description

III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method

Technical field

The present invention relates to the blasting construction methods in tunnelling works, more particularly to be used for III grade of country rock and integrality compared with Good tunnel top bar speedy drivage Smooth Blasting Construction method.

Background technology

Currently, mostly using benching tunnelling method for the excavation of III level surrounding rock tunnel, wherein top bar is using sinking and blasting, leave from office Rank forms tunnel using horizontal shallow hole explosion, since sinking and blasting causes to damage to tunnel surrounding, it is desirable that preliminary bracing is immediately following the palm Sub- face；But because being limited by preliminary bracing structure, the periphery hole arrangement of tunnel photoface exploision cannot be in completely level, and generation can not What is avoided backbreaks and owes digging phenomenon, and explosion profile concave-convex surface is not smoother；Wherein, backbreak part need increase gunite concrete Dosage owes to dig the sharp stone that part needs secondary benefit big gun to excavate protrusion, it is clear that because of the appearance of out break phenomenon, seriously affect construction Progress, and increase the quantities of preliminary bracing structure, therefore engineering cost increases.

Invention content

The present invention is that it is quick to provide a kind of III level surrounding rock tunnel top bar to avoid the problems of above-mentioned prior art Driving face explosive construction method improves tunnel boring efficiency, drop to effectively control the out break that tunnel photoface exploision generates Low engineering cost.

The present invention is to solve technical problem to adopt the following technical scheme that：

The characteristics of III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method of the invention is：

Top bar excavation area is divided on III level surrounding rock tunnel excavated section, top bar excavates boundary, excavation area of getting out of a predicament or an embarrassing situation Boundary is excavated with getting out of a predicament or an embarrassing situation；For top bar excavation area, using photoface exploision method, 2~3 cycles of driving tunnel rulers in advance so that It is the distance that 2~3 cycles tunnel ruler jc to maintain distance L, the distance L between supporting construction and face in the early stage.

The characteristics of III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method of the invention, lies also in：On described In bench excavation area, Cut Blasting hole and the auxiliary wedge shaped arrangement in Cut Blasting hole, wherein Cut Blasting hole and face it Between angle be 30 °~45 °, it is 55 °~80 ° to assist the angle between Cut Blasting hole and face, and the light on periphery is arranged The angle that face blast hole and top bar are excavated between boundary is 5 °~10 °, bottom plate blast hole and outermost layer sinking and blasting hole with Face is arranged vertically, and single cycle drilling depth jc is 1.5~3.5m.

The characteristics of III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method of the invention, lies also in：The slotting Blast hole, auxiliary Cut Blasting hole and sinking and blasting hole are all made of continuous charging structure, and the stemming length of blasthole mouth is not less than 0.8m；All kinds of blastholes 1. -6. millisecond detonating between row successively in order, short-delay time is 50ms between row；

Sequence is 1.：It is in the Cut Blasting hole at middle part；

Sequence is 2.：The auxiliary Cut Blasting hole adjacent with Cut Blasting hole；

Sequence is 3.：The internal layer sinking and blasting hole adjacent with auxiliary Cut Blasting hole；

Sequence is 4.：It is in the arch sinking and blasting hole at interior arch position；

Sequence is 5.：It is in the outermost layer sinking and blasting hole that top bar excavates the inner circumferential on boundary；

Sequence is 6.：After outermost layer sinking and blasting hole is detonated, delay 100ms while detonate photoface exploision hole and bottom plate Blast hole realizes III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction.

The characteristics of III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method of the invention, lies also in：The smooth surface Emulsion or 2# rock an-tnt explosive of the explosion using 11~15 × 100, it is 100g that powder stick, which is often rolled up, and each photoface exploision hole is adopted It is detonated with primacord, the fuse arming test experiment initiation is uniformly distributed powder stick and is bundled on detonation primacord, in blasthole mouth Stemming length be not less than 40cm；The detonation primacord in each photoface exploision hole is connected with the main biography primacord in aperture, detonating capsule It is arranged on main biography primacord.

Compared with the prior art, the present invention has the beneficial effect that：

1, the method for the present invention can effectively control the out break of Upon Blasting for Tunnel Driving generation, improve set of tunneling construction efficiency, Reduce engineering cost.

2, III level surrounding rock tunnel top bar is excavated using speedy drivage smooth Surface Blasting Technology in the method for the present invention, Damage of the sinking and blasting to tunnel surrounding can be effectively controlled, self is given full play to, makes preliminary bracing structure and area Appropriate distance is kept between face.

3, the method for the present invention is equally applicable to the preferable IV level surrounding rock tunnel top bar speedy drivage photoface exploision of integrality and applies Work.

Description of the drawings

Fig. 1 is the up/down steps division schematic diagram that the method for the present invention is applied to that III level surrounding rock tunnel excavates；

Fig. 2 is the preliminary bracing structure and the signal of area distance between the surface that the method for the present invention is applied to that III level surrounding rock tunnel excavates Figure；

Fig. 3 is the top bar blasthole facade arrangement schematic diagram that the method for the present invention is applied to that III level surrounding rock tunnel excavates；

Fig. 4 is the top bar blasthole horizontal layout schematic diagram that the method for the present invention is applied to that III level surrounding rock tunnel excavates；

Fig. 5 is the top bar hole charge schematic diagram that the method for the present invention is applied to that III level surrounding rock tunnel excavates；

Fig. 6 the method for the present invention is applied to the top bar firing order schematic diagram that III level surrounding rock tunnel excavates；

Fig. 7 the method for the present invention is applied to the peripheral light blast hole charge constitution schematic diagram that III level surrounding rock tunnel excavates；

Figure label：1 face, 2 preliminary bracing structures, 3 top bar excavation areas, 4 top bars excavate boundary, and 5 get out of a predicament or an embarrassing situation Excavation area, 6, which get out of a predicament or an embarrassing situation, excavates boundary；10 Cut Blasting holes, 11 auxiliary Cut Blasting holes, 12 outermost layer sinking and blasting holes, in 12a Layer sinking and blasting hole, the arch 12b sinking and blasting hole, 13 bottom plate blast holes, 22 photoface exploision holes, 40 main biography primacords, 41 detonations Primacord, 42 detonating capsules, 43 powder sticks.

Specific implementation mode

Referring to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction in the present embodiment Method is that top bar excavation area 3, top bar excavation boundary 4, excavation area of getting out of a predicament or an embarrassing situation are divided on III level surrounding rock tunnel excavated section 5 and get out of a predicament or an embarrassing situation excavate boundary 6；For top bar excavation area 3, using photoface exploision method, 2~3 cycles of driving tunnel ruler jc in advance, So that maintaining distance L between supporting construction 2 and face 1 in the early stage, distance L is the distance that 2~3 cycles tunnel ruler jc.

As shown in Figure 3 and Figure 4, in top bar excavation area 3, Cut Blasting hole 10 and auxiliary Cut Blasting hole 11 are in wedge Shape is arranged, wherein the angle between Cut Blasting hole 10 and face is that α is 30 °~45 °, auxiliary Cut Blasting hole 11 and the palm Angle β between sub- face is 55 °~80 °, is arranged between boundary is inwardly excavated in the photoface exploision hole 22 on periphery with top bar Angle is 5 °~10 °, and bottom plate blast hole 13 and outermost layer sinking and blasting hole 12 are arranged vertically with face, single cycle drilling depth jc For 1.5~3.5m, in the present embodiment, the radius of top bar is 5~7m, according to space size, in outermost layer sinking and blasting hole 12 Internal layer sinking and blasting hole 12a and arch sinking and blasting hole 12b is also distributed on position between auxiliary Cut Blasting hole 11, There is about 85 ° of angle between middle internal layer sinking and blasting hole 12a and face, arch sinking and blasting hole 12b hangs down with face Straight arrangement.

As shown in figure 5, for Cut Blasting hole 10, auxiliary Cut Blasting hole 11, sinking and blasting hole 12, internal layer sinking and blasting Hole 12a and arch sinking and blasting hole 12b is all made of continuous charging structure, continuous charging section y1 as shown in Figure 5, blasthole mouth Blocking section d1 length be not less than 0.8m.

Shown in Fig. 6, in construction, all kinds of blastholes 1. -6. millisecond detonating between row successively in order, short-delay time is between row 50ms：

Sequence is 1.：It is in the Cut Blasting hole 10 at middle part；

Sequence is 2.：The auxiliary Cut Blasting hole 11 adjacent with Cut Blasting hole 10；

Sequence is 3.：The internal layer sinking and blasting hole 12a adjacent with auxiliary Cut Blasting hole 11；

Sequence is 4.：The arch sinking and blasting hole 12b being at interior arch position；

Sequence is 5.：It is in the outermost layer sinking and blasting hole 12 that top bar excavates the inner circumferential on boundary；

Sequence is 6.：After outermost layer sinking and blasting hole 12 is detonated, delay 100ms while detonate photoface exploision hole 22 and bottom plate Blast hole 13 realizes III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction.

As shown in Figure 6 and Figure 7, in the present embodiment, photoface exploision uses the emulsion or 2# rocks of φ 11~15 × 100 AN-TNT containing explosive, it is 100g that powder stick 43, which is often rolled up, and each photoface exploision hole 22 is all made of primacord and detonates, and fuse arming test experiment initiation is by medicine Volume 43 is uniformly distributed and is bundled on detonation primacord 41, is not less than 40cm in the stemming length of blasthole mouth；Each photoface exploision hole 22 detonation primacord 41 is connected with the main biography primacord 40 in aperture, and detonating capsule 42 is arranged on main biography primacord 40.

As shown in Figure 3 and Figure 4, for top bar explosion specifically using following related blasting parameter：

Cut Blasting hole 10：

Aperture burden w1=0.7~0.9m；

Blasthole spacing a1=0.4~0.6m；

Blasthole array pitch b1=0.6~0.8m；

Blasthole aperture is away from T1=4~6m；

Blasthole bottom hole pitch t1=0.2~0.4m；

Blasthole ultra-deep h1=0.2~0.4m；

Dip angle of hole α=30 °~45 °；

Explosive specific consumption q=1.6~2.2kg/m³；

Single hole explosive payload：Q=1.6~2.2kg；

Assist Cut Blasting hole 11：

Blasthole spacing a2=0.4~0.6m；

Blasthole array pitch b2=0.6~0.8m；

Blasthole ultra-deep h2=0.2~0.4m；

Dip angle of hole β=55 °~80 °；

Explosive specific consumption q=1.0~1.2kg/m³；

Single hole explosive payload：Q=1.4~2.0kg；

Sinking and blasting hole 11：

Blasthole spacing a3=0.8~1.1m；

Blasthole array pitch b3=0.8~1.1m；

Explosive specific consumption q=0.8~1.0kg/m³；

Single hole explosive payload：Q=1.0~1.2kg；

Bottom plate blast hole 13：

Blasthole spacing a4=0.8~1.1m；

Explosive specific consumption q=0.8~1.0kg/m³；

Single hole explosive payload：Q=1.0~1.2kg；

Single hole explosive payload Q calculates true according to linear charging density ρ=120~150g/m (complete opening length average value) and hole depth It is fixed.

The method of the present invention has successfully met the tendency of the main projects pulp-water spring tunnel for prolonging engineering for South 2nd Ring Road South Road east of helping Among the construction in road, barrel penetrating ground is mainly upper Pleistocene series silty clay, the Ordovician system and Cambrian limestone, dolomitic limestone And biocalcarenite, surrounding rock mass classification are III grade, IV grade, V grade of country rock, tunnel uses separate structure pattern, left and right width At a distance of about 14-31m.For moon cavitation of constructing up to 160 meters, the duration carries the previous year than the design duration.

Claims (4)

1. III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method, it is characterized in that：

Top bar excavation area (3) are divided on III level surrounding rock tunnel excavated section, top bar excavates boundary (4), excavation of getting out of a predicament or an embarrassing situation Area (5) and excavation boundary (6) of getting out of a predicament or an embarrassing situation；For top bar excavation area (3), using photoface exploision method, driving 2~3 recycles in advance Tunnel ruler so that it is 2~3 cycles to maintain distance L, the distance L between supporting construction (2) and face (1) in the early stage Tunnel the distance of ruler jc.

2. III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method according to claim 1, it is characterized in that： In the top bar excavation area (3), Cut Blasting hole (10) and auxiliary Cut Blasting hole (11) wedge shaped arrangement, wherein Angle of the Cut Blasting hole (10) between face is 30 °~45 °, folder of auxiliary Cut Blasting hole (11) between face Angle is 55 °~80 °, and the angle being arranged between the photoface exploision hole (22) on periphery and top bar excavation boundary is 5 °~10 °, bottom Plate blast hole (13) and outermost layer sinking and blasting hole (12) are arranged vertically with face, and single cycle drilling depth jc is 1.5~3.5m.

3. III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method according to claim 2, it is characterized in that： The Cut Blasting hole (10), auxiliary Cut Blasting hole (11) and sinking and blasting hole (12) are all made of continuous charging structure, blasthole The stemming length of mouth is not less than 0.8m；All kinds of blastholes 1. -6. millisecond detonating between row successively in order, short-delay time is between row 50ms；

Sequence is 1.：It is in the Cut Blasting hole (10) at middle part；

Sequence is 2.：The auxiliary Cut Blasting hole (11) adjacent with Cut Blasting hole (10)；

Sequence is 3.：The adjacent internal layer sinking and blasting hole (12a) with auxiliary Cut Blasting hole (11)；

Sequence is 4.：It is in the arch sinking and blasting hole (12b) at interior arch position；

Sequence is 5.：It is in the outermost layer sinking and blasting hole (12) that top bar excavates the inner circumferential on boundary；

Sequence is 6.：Outermost layer sinking and blasting hole (12) detonate after, delay 100ms simultaneously detonate photoface exploision hole (22) and Bottom plate blast hole (13) realizes III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction.

4. III level surrounding rock tunnel top bar speedy drivage Smooth Blasting Construction method according to claim 3, it is characterized in that： Emulsion or 2# rock an-tnt explosive of the photoface exploision using 11~15 × 100, it is 100g, each light that powder stick (43), which is often rolled up, Face blast hole (22) is all made of primacord and detonates, and the fuse arming test experiment initiation is that powder stick (43) is uniformly distributed and has been bundled in On quick-fried primacord (41), it is not less than 40cm in the stemming length of blasthole mouth；The detonation primacord (41) of each photoface exploision hole (22) It is connected with the main biography primacord (40) in aperture, detonating capsule (42) is arranged on main biography primacord (40).