CN109026015A - A kind of pre-grouting control method suitable for urban subway tunnel - Google Patents

Abstract

The invention discloses a kind of pre-grouting control methods suitable for urban subway tunnel, determine slip casting length of tube, the parameter of drilling and the arrangement of drilling of every circulation；Based on borehole pattern, the finite element analysis model about inlet well and geotechnological cloth bag diameter, grouting amount is established using numerical simulation means, different geotechnological cloth bag expansion rates are analyzed for the consolidation effect on stratum and corresponding displacement field, stress field, the distribution situation of plastic zone, determine optimal geotechnological cloth bag diameter and grouting amount；It is drilled using drilling machine along tunnel piercing direction, drilling should have certain extrapolation inclination angle；It will be put into drilling under the Grouting Pipe for being coated with geotechnological cloth bag processed；Slurries are injected in Grouting Pipe, high-strength geotextile bag is flowed by slurry outlet, expansion is filled to geotechnological cloth bag, final grouting amount is determined according to numerical simulation calculation result；Slip casting is carried out to Grouting Pipe by the way of being spaced bored grouting, ultimately forms lateral wall for grouting structure.

Description

A kind of pre-grouting control method suitable for urban subway tunnel

Technical field

The present invention relates to a kind of urban subway tunnel pre-grouting control method, it is particularly suitable for shallow embedding or pole shallow embedding is soft The earth's surface of urban subway tunnel and surrouding rock deformation control under weak formation condition.

Background technique

Currently, China's metro construction cause is just progressing into rapid development period.But due to subway tunnel buried depth Shallowly, the reasons such as City Buried Pipeline complexity easily cause landslide, ground settlement and line fracture etc. in the construction process and ask Topic, jeopardizes construction personnel and equipment safety, influences surrounding enviroment and the normal production and living of resident.

To ensure construction safety, influence of the construction to urban environment is reduced, generallys use the method for front pre-grouting over the ground Layer is reinforced.Slurries are injected in stratum before engineering excavation, by the filling, splitting, compaction of slurries, reach reinforcing The purpose on stratum.But due to the concealment of Grouting engineering, the diffusion process of slurries, range of scatter, slurries pair during slip casting The filling densification degree on stratum is difficult to control, and grouting amount is very few, and filling densification effect is undesirable, and slip casting effect is difficult to meet and want It asks, grouting amount is excessive, then it is excessive to easily cause surface uplift, and road surface, building destruction and underground utilities rupture etc. is caused to be asked Topic.

Summary of the invention

To solve the above-mentioned problems, the invention proposes a kind of pre-groutings suitable for urban subway tunnel to control skill Art.This method high reliablity and be widely used, short construction period and process is few, can reach support densification to stratum it is dual plus Gu effect, grout mixing is controllable, surface uplift can be effectively controlled while avoiding ground settlement, and then realize and apply The multiple effects such as work safety, construction benefit, urban infrastructure protection.

To achieve the goals above, the present invention adopts the following technical scheme:

A kind of pre-grouting control method suitable for urban subway tunnel of the invention, comprising the following steps:

Step 1: determining slip casting length of tube, the parameter of drilling and the arrangement of drilling of every circulation；

Step 2: based on borehole pattern, being established using numerical simulation means about inlet well and geotechnological cloth bag The finite element analysis model of diameter, grouting amount analyzes different geotechnological cloth bag expansion rates for the consolidation effect on stratum and corresponding Displacement field, stress field, the distribution situation of plastic zone, determine optimal geotechnological cloth bag diameter and grouting amount；

According to numerical simulation calculation as a result, different grouting amounts can make geotechnological cloth bag reach different diameters, to stratum Ground extruding effect and surface uplift influence difference, comprehensively consider excavation disturbance, ground settlement and surface uplift factor, really The fixed most suitable attainable geotechnological cloth bag diameter of grouting amount institute, is achieved the effect that best with the smallest cost.

Step 3: being drilled using drilling machine along tunnel piercing direction, drilling should have certain extrapolation inclination angle, i.e., along quasi- driving Tunnel contour line is outward at certain inclination angle；

Step 4: after the completion of drilling, it will be put into drilling under the Grouting Pipe for being coated with high-strength geotextile bag processed, It should be noted that the integrality of high-strength geotextile bag, avoids because of spillage running pulp caused by the reasons such as scratching in decentralization process；

Step 5: slurries are injected in Grouting Pipe by grouting equipment, high-strength geotextile bag is flowed by slurry outlet, it is right Geotechnological cloth bag is filled expansion, and final grouting amount is determined according to numerical simulation calculation result；

Step 6: slip casting being carried out to Grouting Pipe by the way of being spaced bored grouting, to squeeze to greatest extent to stratum Close reinforcing ultimately forms lateral wall for grouting structure.

Further, slip casting length of tube should be equal to or slightly less than drilling depth, and drilling depth excavates drilling depth according to every circulation It determines, it is generally the case that drilling depth should be greater than excavation drilling depth and be no less than 3m, to guarantee the stabilization of excavated surface earth layer in front Property；

It is equipped with grout stopping device in the Grouting Pipe front end, for preventing slurries from entering stratum from Grouting Pipe front end, to guarantee Slurries enter to the greatest extent in geotechnological cloth bag；Slurry outlet is set around the Grouting Pipe, determines pulp hole count as needed Amount, but at least should ensure that a slurry outlet makes slurries enter geotechnological cloth bag, fill cloth bag.

Further, the geotextiles bag length should be slightly shorter than slip casting length of tube.

Further, base area quality shape and load situation are different, and the bore arrangement mode is fan-shaped arrangement or half Circular arrangement；For tunnel upper formation only vault part or the only unstable condition in partial region, it is proposed that using fan-shaped arrangement； For the whole unstable condition of tunnel upper formation, it is proposed that using semicircle arrangement.

Further, in order to improve Grouting Pipe pulp rate and fill rate, the slurry outlet uses quincuncial arrangement, Pulp hole number can be arranged as needed, it is proposed that pitch of holes is 1.5m~2m.

Further, the drilling should have certain extrapolation inclination angle, i.e., along quasi- driving tunnel contour line outward at one Constant inclination angle.

Compared with prior art, beneficial effects of the present invention:

(1) Grouting Pipe of high-strength geotextile bag is coated with using face and posterior support as fulcrum, forms a beam type Structure, the two constitute the shell-like structure around tunnel profile, collapsing for soft stratum can be effectively suppressed, while geotechnological cloth bag is crowded Close effect can be effectively improved the physico-mechanical properties of soft stratum, enhance the self-bearing ability of soft stratum, reach the branch to stratum The close dual consolidation effect of bulging.

(2) the support crowd in-out effects of geotechnological cloth bag can effective strengthening stratum, reduction formation pore rate and infiltration after slip casting Property, improve the physico-mechanical properties of soft stratum, to reach certain water-stagnating effect.

(3) the technology grout mixing is controllable, while grouting amount designs based on numerical simulation calculation result, can Surface uplift is effectively controlled while avoiding ground settlement.

(4) it is intensively annular to propagate the chance filled high-strength geotextile bag of slurries for the explosion wave that face explosion generates By reflection, absorption or diffraction after hole slot, formation damage degree and range of disturbance caused by negative drawing wave are greatly reduced.

(5) technical operation is relatively easy, short construction period and process is few, is compared to the construction methods such as tube shed grouting, Its Grouting Pipe caliber is small, saves material, reduces cost, simultaneously because grout mixing is controllable, reduce because of the unordered expansion of slurries Dissipate and caused by waste, also reduce costs to a certain extent.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present application, and the application's shows Meaning property embodiment and its explanation are not constituted an undue limitation on the present application for explaining the application.

Fig. 1 (a) is present invention drilling hole location sector arrangement schematic diagram.

Fig. 1 (b) is present invention drilling hole location semicircle arrangement schematic diagram.

Fig. 2 is bore arrangement mode sectional view of the present invention.

Fig. 3 is schematic structural diagram of the device of the invention.

Fig. 4 is urban subway tunnel pre-grouting control technology flow chart of the invention.

Wherein, 1, tunnel；2, it drills；3, it is coated with the grouting device of high-strength geotextile bag；4, Grouting Pipe；5, high-intensitive Geotechnological cloth bag；6, slurry outlet；7, grout stopping device；8, slurries (Seed harvest)；9, sealing of hole disk.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

As described in background technology part, in the prior art due to the concealment of Grouting engineering, starched during slip casting The diffusion process of liquid, range of scatter, slurries are difficult to control the filling densification degree on stratum, and grouting amount is very few, fills densification Effect is undesirable, and slip casting effect is difficult to meet the requirements, and grouting amount is excessive, then it is excessive to easily cause surface uplift, leads to road surface, builds The problems such as building object destruction and underground utilities rupture；In order to solve this problem, the invention discloses one kind to be suitable for city underground The pre-grouting control method in tunnel.

As shown in Figure 3；Device 3 includes Grouting Pipe 4 and geotechnological cloth bag 5；Specific determination method for parameter is as follows:

(1) according to the design schemes such as geology exploration data and existing equipment and materials, excavation drilling depth, reasonable bore is determined 2 arrangement of hole, drilling 2 parameters (drilling depth, bore diameter), 4 length of Grouting Pipe etc.；

2 arrangements that drill determine that method is as follows, as shown in Fig. 1 (a) and Fig. 1 (b):

Base area quality shape and load situation are different, and the bore arrangement mode is fan-shaped arrangement or semicircle arrangement； For tunnel upper formation only vault part or the only unstable condition in partial region, it is proposed that using fan-shaped arrangement；For tunnel The whole unstable condition of upper formation, it is proposed that using semicircle arrangement.

2 parameters that drill include drilling depth, bore diameter；

Drilling depth is excavated drilling depth according to every circulation and is determined, it is generally the case that it is many that drilling depth should be greater than excavation drilling depth In 3m, to guarantee the stability of excavated surface earth layer in front, bore diameter is according to drilling machine model and Grouting Pipe model, drill bit Model determines that bore diameter is 30~50mm bigger than slip casting pipe diameter under normal conditions.

The determination method of 4 length of Grouting Pipe is as follows:

Wherein, slip casting length of tube should be equal to or slightly less than drilling depth, be greater than every circulation and excavate drilling depth, generally in shallow embedding pine Cyclic advance in stratum is dissipated to control for the sake of 12~17m, safety more, it is proposed that 4 length of Grouting Pipe should be 1~3m bigger than excavating drilling depth, It is recommended that slip casting pipe diameter is 30~50mm, the two circulation horizontal laps of splice of Grouting Pipe 4 should be not less than 1m, and specific length can be according to reality Border strata condition and excavation drilling depth situation are adjusted.

(2) based on the drilling design scheme of step 1, established using numerical simulation means about inlet well 2 and The finite element analysis model of geotechnological 5 diameter of cloth bag, grouting amount analyzes different geotechnological 5 expansion rates of cloth bag and the reinforcing on stratum is imitated Fruit and corresponding displacement field, stress field, the distribution situation of plastic zone determine optimal 5 diameter of cloth bag and grouting amount；And require soil 5 length of work cloth bag should be slightly shorter than 4 length of Grouting Pipe；

According to numerical simulation calculation as a result, different grouting amounts can make geotechnological cloth bag reach different diameters, to stratum Ground extruding effect and surface uplift influence difference, comprehensively consider excavation disturbance, ground settlement and surface uplift factor, really The fixed most suitable attainable geotechnological cloth bag diameter of grouting amount institute, is achieved the effect that best with the smallest cost

(3) grouting device is assembled

Geotechnological cloth bag 5 determined above is coated on the outside of Grouting Pipe 4, grout stopping device 7 is equipped in 4 front end of Grouting Pipe, for hindering Only slurries enter stratum from 4 front end of Grouting Pipe, to guarantee that slurries enter to the greatest extent in geotechnological cloth bag 5；The outer ring of Grouting Pipe 4 Slurry outlet 6 is opened up, slurry outlet 6 is in quincuncial arrangement, determines pulp hole number as needed, but at least should ensure that a pulp Hole 6 makes slurries enter geotechnological cloth bag 5, fills cloth bag.

(4) 2 when being drilled using drilling machine along tunnel piercing direction, drilling 2 should have certain extrapolation inclination angle, i.e., along quasi- driving Tunnel contour line is outward at certain inclination angle.Extrapolation inclination angle can neither be excessive, can not be too small.Angle too small, it would be possible to cause to infuse Slurry pipe distal end is hung down within tunnel excavation contour line, influences construction in later period；On the contrary, angle is excessive, Grouting Pipe is from outline excavation Linear distance is excessive, and the triangle soil body below Grouting Pipe, which collapses, brings very big difficulty to tunnel cutting supporting.In addition, should also be according to brill Situations such as machine studio space size and slip casting length of tube, comprehensively considers determination.In Practical Project suggest value be 3 °~ 20°.After the completion of 2 construction of drilling, sediment in flushing hole, so that drilling meets the decentralization of device 3 and requires.

(5) it after the completion of drilling 2, will be put into drilling under the Grouting Pipe 4 for being coated with high-strength geotextile bag 5 processed, It should be noted that the integrality of high-strength geotextile bag 5, avoids because of spillage running pulp caused by the reasons such as scratching in decentralization process.

(6) slurries 8 are injected in Grouting Pipe 4 by grouting equipment, high-strength geotextile bag 5 is flowed by slurry outlet 6, it is right Geotechnological cloth bag 5 is filled expansion, and final grouting amount is determined according to numerical simulation calculation result.

(7) slip casting is carried out to Grouting Pipe 2 by the way of being spaced bored grouting, stratum is carried out with to greatest extent compacted It reinforces, ultimately forms lateral wall for grouting structure.

Interval bored grouting mode described here refers to: as shown in Fig. 1 (a), drilling sequences are I sequence hole of subdrilling, to I sequence After the completion of the slip casting of hole, then bored grouting is carried out to II sequence hole；As shown in Fig. 1 (b), drilling sequences are I sequence hole of subdrilling, to I sequence hole After the completion of slip casting, then bored grouting is carried out to II sequence hole, bored grouting is carried out to III sequence hole again later；Drilling sequence number can basis Hole number specifically determines, it is generally the case that the division of sequence number is directly proportional to hole number, and hole number is more, then sequence number is more.

(8) in the present invention, the slurries type for filling geotechnological cloth bag 5 is ordinary portland cement slurries (it is recommended that the ratio of mud For 1:1), after grouting amount reaches design requirement, using rapid hardening plasmoid humor carry out sealing of hole (generally use cement --- waterglass is double Slurry).

(9) grout injection control and ending standard: a) reach design final pressure when grouting pressure, and be more than initial grouting pressure 1 After times；B) after grouting amount reaches design grouting amount；If grouting pressure not up to designs final pressure, by adjusting slurries gel time Reach design final pressure；C) two standards more than meet one of them and stop slip casting；D) after reaching final grouting pressure during slip casting, It is both needed to continue pressure stabilizing 5 minutes, and grouting amount is lower than 5L/min.

Above-mentioned, although the foregoing specific embodiments of the present invention is described with reference to the accompanying drawings, not protects model to the present invention The limitation enclosed, those skilled in the art should understand that, based on the technical solutions of the present invention, those skilled in the art are not Need to make the creative labor the various modifications or changes that can be made still within protection scope of the present invention.

Claims (7)

1. a kind of pre-grouting control method suitable for urban subway tunnel, which comprises the following steps:

Step 1: determining slip casting length of tube, the parameter of drilling and the arrangement of drilling of every circulation；

Step 2: based on borehole pattern, being established using numerical simulation means straight about inlet well and geotechnological cloth bag The finite element analysis model of diameter, grouting amount analyzes different geotechnological cloth bag expansion rates for the consolidation effect on stratum and corresponding Displacement field, stress field, the distribution situation of plastic zone determine optimal geotechnological cloth bag diameter and grouting amount；

Step 3: being drilled using drilling machine along tunnel piercing direction, drilling should have certain extrapolation inclination angle, i.e., along quasi- driving tunnel Contour line is outward at certain inclination angle；

Step 4: after the completion of drilling, will be put into drilling, transfer under the Grouting Pipe for being coated with high-strength geotextile bag processed In the process it should be noted that the integrality of high-strength geotextile bag, avoid because of spillage running pulp caused by the reasons such as scratching；

Step 5: slurries being injected in Grouting Pipe by grouting equipment, high-strength geotextile bag are flowed by slurry outlet, to geotechnique Cloth bag is filled expansion, and final grouting amount is determined according to numerical simulation calculation result；

Step 6: slip casting being carried out to Grouting Pipe by the way of being spaced bored grouting, to carry out compacted add to stratum to greatest extent Gu ultimately forming lateral wall for grouting structure.

2. being suitable for the pre-grouting control method of urban subway tunnel as described in claim 1, which is characterized in that the note Drilling depth should be excavated at least more than every circulation by starching length of tube；The Grouting Pipe front end be equipped with grout stopping device, for prevent slurries from Grouting Pipe front end enters stratum, to guarantee that slurries enter to the greatest extent in geotechnological cloth bag；It is set out around the Grouting Pipe Hole is starched, determines pulp hole number as needed, but at least should ensure that a slurry outlet makes slurries enter geotechnological cloth bag, fills cloth Bag.

3. being suitable for the pre-grouting control method of urban subway tunnel as described in claim 1, which is characterized in that described Geotextiles bag length should be slightly shorter than slip casting length of tube.

4. being suitable for the pre-grouting control method of urban subway tunnel as described in claim 1, which is characterized in that base area Quality shape and load situation are different, and the bore arrangement mode is fan-shaped arrangement or semicircle arrangement.

5. being suitable for the pre-grouting control method of urban subway tunnel as described in claim 1, which is characterized in that for tunnel Road upper formation only vault part or the only unstable condition in partial region, it is proposed that using fan-shaped arrangement；For tunnel top The whole unstable condition of layer, it is proposed that using semicircle arrangement.

6. as described in claim 1 be suitable for urban subway tunnel pre-grouting control method, which is characterized in that it is described go out It starches hole and uses quincuncial arrangement, can arrange pulp hole number as needed, it is proposed that pitch of holes is 1.5m~2m.

7. benefit require 1 described in be suitable for urban subway tunnel pre-grouting control method, which is characterized in that the drilling There should be certain extrapolation inclination angle, i.e., along quasi- driving tunnel contour line outward at certain inclination angle.