CN107143358A - Opposite-pulling anchor cable structure for controlling tunnel bias deformation and construction method thereof - Google Patents

Abstract

The invention discloses a split anchor cable structure for controlling bias deformation of a tunnel and a construction method. The invention mainly reduces the bias load borne by the bias tunnel through the miniature steel pipe pile, and avoids the conditions of damage and instability of the tunnel structure caused by the serious bias state of the tunnel.

Description

Control tunnel biased deformation to drawing anchor cable structure and its construction method

Technical field

The present invention relates to Geotechnical Engineering field, more particularly to a kind of control tunnel biased deformation to draw anchor cable structure and its Construction method.

Background technology

Unsymmetrial loading tunnel refers to that the pressure from surrounding rock of tunnel support structure both sides differs larger or unsymmetrical loading effect tunnel. In the shape of a hoof as vcehicular tunnel section, due to factors such as landform is asymmetric, geological formations, constructions, tunnel structure two is caused Area load is asymmetric, is formed bias.The one of the main reasons that bias effect is tunnel deformation, caved in, therefore tunnel is in During serious bias state, it should take measures to avoid tunnel structure from occurring disease, unstability.The disease of construction period is mainly bias one Lateral pressure is big, easily produces large deformation, the unstable easy landslide of country rock, pneumatically placed concrete can produce cracking, fall fast, serious generation Cave in.Operation stage, due to being biased against the influence of load, tunnel structure easily produces the diseases such as cracking, seepage.

The method both at home and abroad to bias slope reinforcement processing mainly has following several at present：

(1) slope drainage is cut

This method is by slackening bias side slope to mitigate sliding force, so as to reduce shadow of the side slope bias to Tunnel Stability Ring.But the regulation effect of this method is closely related with excavating scope.If it is small to excavate scope, then on the one hand it can not play well Regulation effect, on the other hand may then cause the hidden danger of new round Slope Sliding；If it is excessive to excavate scope, then not only add Construction costs, and leverage surrounding environment.

(2) surface grouting method

When Tunnels in Shallow Buried and stratum very loose crushing, easily occur it is extensive cave in or during unstability, surface grouting can be used Reinforce.This method is convenient, timely, and the workload of input is relatively small.But, grouting amount estimation and control are relatively difficult to handle Hold, actual regulation effect is limited.

(3) supporting and retaining system measure

According to the property of bias slopes, supporting and retaining system measure can use antiskid retaining wall, friction pile, prestress anchorage cable (bar), steel pipe Bias slopes are renovated by the supporting and retaining system structure such as stake and anchored pile, framed anchor, control bias.Resist as friction pile has The big advantage of sliding ability, but dirty number amount is big, and cost is of a relatively high, influences construction speed.

Therefore, it is necessary to provide a kind of retaining structure that can effectively prevent unsymmetrial loading tunnel from deforming and method, and it can simplify Construction procedure, quickening speed of application, reduction financial cost.

The content of the invention

The present invention for prior art drawbacks described above there is provided a kind of control tunnel biased deformation to draw anchor cable structure and Its construction method, it mainly reduces the Eccentric Load suffered by unsymmetrial loading tunnel by miniature steel pipe pile, it is to avoid because tunnel is in sternly Disease, the situation of unstability occur for tunnel structure caused by weight bias state.

The technical solution adopted for the present invention to solve the technical problems is：

There is provided a kind of control tunnel biased deformation to drawing anchor cable structure, it includes being arranged to unsymmetrial loading tunnel application Steel-pipe pile in the side massif of larger bias load, the steel-pipe pile is used for the side mountain for applying larger bias load The rock mass of body is reinforced.

It is preferred that, the steel-pipe pile includes：

Steel floral tube；It is arranged at least one retainer ring coaxial inside the steel floral tube and with the steel floral tube；And set At least one reinforcing bar for being placed in inside the steel floral tube and being fixedly connected with the fixed ring outer surface.

It is preferred that, some injected holes are offered on the steel floral tube, for carrying out grouting and reinforcing to periphery rock mass.

It is preferred that, described pair is drawn anchor cable structure also to include the rock for being arranged at the side massif for applying larger bias load Internal Guan Liang；It is fixed at the top of the steel-pipe pile in the Guan Liang.

It is preferred that, described pair is drawn anchor cable structure also to include at least one to drawing anchor cable, one end of each described pair of drawing anchor cable It is fixedly connected with the Guan Liang, the other end and the unsymmetrial loading tunnel, the close side massif for applying larger bias load First branch structure be fixedly connected.

It is preferred that, the Guan Liang includes：

Concrete main body；And the anchor pier being fixedly connected with the concrete main body upper surface；The one of described pair of drawing anchor cable End is fixedly connected through the concrete main body and anchor pier by steel pad pier with the anchor pier.

It is preferred that, a diameter of 50-1000mm of steel-pipe pile is arranged using quincunx or pattern mode, and cloth Spacing is put for 0.3-5m.

On the other hand, a kind of construction method to drawing anchor cable structure of control tunnel biased deformation is also provided, it is included such as Lower step：

S1, prefabricated steel-pipe pile；

S2, the steel-pipe pile is arranged in the side massif for applying larger bias load to the unsymmetrial loading tunnel；And it is right Steel-pipe pile periphery rock mass carries out grouting and reinforcing.

It is preferred that, step S2 includes：

S21, in the rock mass of the side massif for applying larger bias load Guan Liang is set, by the top of the steel-pipe pile Portion is fixed in the Guan Liang, and the steel-pipe pile is arranged to the side for applying larger bias load to the unsymmetrial loading tunnel with this In massif；

S22, first time slip casting：The cement mortar of first time grouting is irrigated from bottom to top；

S23, secondary grouting：After first time slip casting 10-12 hours, prefabricated fracture grouting pipe, and by the fracture grouting pipe It extend into the steel-pipe pile, and fracture grouting is carried out to the steel-pipe pile.

It is preferred that, in addition to S3, the one end for drawing anchor cable will be fixedly connected with the Guan Liang, the other end and the bias tunnel The first branch structure of road, the close side massif for applying larger bias load is fixedly connected.

The beneficial effect of technical solution of the present invention is：

(1) present invention uses miniature steel floral tube pile, can reduce tunnel bias lotus with the rock-soil layer of supporting file tunnel massif side Carry, prevent tunnel from biased deformation and destruction occur；

(2) the miniature steel floral tube pile that the present invention is used, itself has higher strength and stiffness, the work with friction pile With while steel floral tube can make steel floral tube and periphery rock-soil layer collectively constitute one and resist to periphery rock-soil layer progress grouting and reinforcing It is sliding overall, the consolidation effect significantly improved；

(3) the technical solution adopted by the present invention, engineering method is succinct, and speed of application is fast, and financial cost is relatively low.

Brief description of the drawings

Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing：

Fig. 1 is the structural representation to drawing anchor cable structure of control tunnel biased deformation in embodiments of the invention one；

Fig. 2 is the schematic cross section of steel-pipe pile in embodiments of the invention one；

Fig. 3 is the vertical section schematic diagram of steel-pipe pile in embodiments of the invention one；

Fig. 4 is the structural representation of Guan Liang in embodiments of the invention one；

Fig. 5 is the connection diagram to drawing anchor cable and Guan Liang in embodiments of the invention one；

Fig. 6 is the structural representation to drawing anchor cable in embodiments of the invention one；

Fig. 7 is the structural representation of isolating frame in embodiments of the invention one；

The sectional view of steel pad pier in Fig. 8 embodiments of the invention one；

The top view of steel pad pier in Fig. 9 embodiments of the invention one；

The construction process figure to drawing anchor cable structure of the anti-biased deformation of unsymmetrial loading tunnel in Figure 10 embodiments of the invention two；

The structural representation of fracture grouting pipe in Figure 11 embodiments of the invention two.

Embodiment

In order that the purpose of the present invention, technical scheme and advantage are more clearly understood, below in conjunction with drawings and examples, The present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used for explaining this hair It is bright, it is not intended to limit the present invention.

Embodiment one：

Fig. 1 show the present invention control tunnel biased deformation to draw anchor cable structure, it includes steel-pipe pile 1, the steel Pile tube 1 is located at along the unsymmetrial loading tunnel 100 and applies the side massif of larger bias load for the unsymmetrial loading tunnel 100 Interior, the steel-pipe pile 1 is used to before excavation reinforce the rock mass of the side massif for applying larger bias load.This reality Apply in example, the parameter such as diameter, spacing, length, wall thickness of the steel-pipe pile 1 can be watery according to edpth of tunnel, wall rock condition, underground The influence factors such as state, stability of the hill are determined, as long as can ensure that the stabilization of tunnel massif side rock mass.Here, the steel The a diameter of 50-1000mm of pile tube 1, is arranged using quincunx or pattern mode, and horizontal, the vertical spacing of arrangement is 0.3- 5m (preferably spacing is 1.0m).

Specifically, as Figure 2-3, the steel-pipe pile 1 includes：

Steel floral tube 10 (being preferably seamless steel pipe)；It is arranged inside the steel floral tube 10 and same with the steel floral tube 10 At least one of axle (as shown in figure 3, i.e. described retainer ring 12 has the vertical central axis Y of identical with the steel floral tube 10) is consolidated Determine ring 12, the preferably circular retainer ring of the retainer ring 12, a diameter of 40-45mm (preferably a diameter of 42mm)；And retainer ring 12 When having multiple, its according to spacing (as shown in figure 3, herein " spacing " be the adjacent horizontal center line axis X of two retainer ring 12 between away from From the horizontal center line axis X is vertical with the vertical central axis Y ') between 80-120mm (preferably spacing be 100mm) is uniform Every being arranged on inside the steel floral tube 10；And be arranged inside the steel floral tube 10 and solid with the outer surface of retainer ring 12 Surely at least one reinforcing bar 11 connected；In the present embodiment, a diameter of 10-50mm of the reinforcing bar 11 (preferably a diameter of 30mm), and Outer surface uniform intervals around the retainer ring 12 are set, the vertical central axis Y ' of the reinforcing bar 11 with the steel floral tube 10 vertical central axis Y is parallel, and reinforcing bar 11 is fixedly connected by welding manner with the outer surface of the retainer ring 12.

In addition, also being opened up on globality, strength and stiffness in order to improve the periphery rock-soil layer of steel-pipe pile 1, the steel-pipe pile 1 There are some injected holes 13, for carrying out grouting and reinforcing to periphery rock mass, it is preferred that a diameter of 6-10mm of the injected hole 13 (preferably a diameter of 8mm).Simultaneously as steel-pipe pile 1 will bear shearing resistance effect in slope rock mass, in order to reduce 13 pairs of injected hole The infringement of steel floral tube 10, injected hole 13 on the steel floral tube 10 helically arrange by formula, and the steel floral tube 10 is same transversal Only one of which injected hole 13 on face, also, in vertical central axis Y-direction, the spacing of the injected hole 13 is 10-20cm, Particularly preferably 15cm.

Further, as shown in figure 1, described pair is drawn anchor cable structure also to include being arranged at the side for applying larger bias load Guan Liang 2 in the rock mass of massif, specifically, depending on the set location of Guan Liang 2 can be according to factors such as massif tendencies, the present embodiment In, domatic tendency of the Guan Liang 2 along the side massif for applying larger bias load is set；The top of the steel-pipe pile 1 It is fixed in the Guan Liang 2, the bottom of the steel-pipe pile 1 is stretched into the drilling (not shown) being drilled with advance, thus, the steel pipe The position of the top and bottom of stake 1 can effectively be fixed, it is ensured that the intensity of total；And at least one to draw anchor Rope 3, it is each described pair drawing anchor cable 3 one end be fixedly connected with the Guan Liang 2, the other end with it is the unsymmetrial loading tunnel 100, close The first branch structure 4 of the side massif for applying larger bias load is fixedly connected, it is necessary to illustrate, " is leaned in the present embodiment The first branch structure 4 " of the nearly side massif for applying larger bias load is referred in Fig. 1 positioned at the unsymmetrial loading tunnel 100 The first branch structure 4 on the tunnel center line A left sides.

Specifically, as shown in figure 4, the Guan Liang 2 includes：

The concrete main body 23 being made up of C30 armored concrete, the concrete main body 23 can be cuboid or square, Its width W can be 2-8m (be preferably 4m), or the uniform solid in other longitudinal sections, and the thickness of the concrete main body 23 H is 0.2-2.0m (being preferably 0.4m)；And as shown in Figure 5, the anchor being fixedly connected with the upper surface of concrete main body 23 Pier 21；One end of described pair of drawing anchor cable 3 passes through steel pad pier 31 and the anchor pier 21 through the concrete main body 23 and anchor pier 21 It is fixedly connected, meanwhile, for ease of the stability of enhancing structure, the surface of the anchor pier 21 is additionally provided with hard layer 22 (can be done by M40 Rigid pre contract mortar is made), the concrete main body 23 is passed through with after anchor pier 21, passing through steel pad pier 31 to the one end for drawing anchor cable 3 The anchor pier 21 is fixed on the hard layer 22.It is preferred that, it again may be by steel pad pier 31 ' and draw anchor cable 3 by described pair The other end be fixed on the unsymmetrial loading tunnel 100, first branch structure 4 close to the side massif for applying larger bias load On.

Further, as shown in fig. 6, described pair is drawn anchor cable 3 to include：

Steel pipe 32；At least one isolating frame 33, each isolating frame 33 is arranged inside the steel pipe 32, and along described The axially spaced-apart of steel pipe 32 is fixed, the form fit of the shape of the isolating frame 33 and the steel pipe 32, in the present embodiment, it is described every It is circle from frame 33；And through at least one reinforcement rope 34 of the isolating frame 33, the reinforcement rope 34 preferably twists for steel Line.

Specifically, as shown in fig. 7, the isolating frame 33 includes：

It is arranged at the first through hole 331 at the center of isolating frame 33；

Some second through holes 332 set around the uniform intervals of first through hole 331；The first through hole 331 and/or Second through hole 332 is used to pass through for the reinforcement rope 34, and the fixed position for strengthening rope 34；

At least one passage 333 and at least one steel pipe injected hole 334；The steel pipe injected hole 334 is used to supply steel Pipe Grouting Pipe 351 (as shown in Figure 6) is passed through, and extend into the inside of the steel pipe 32 progress slip casting；The passage 333 is used for When carrying out slip casting to the inside of steel pipe 32, air supply source enters, to adjust the air pressure inside of steel pipe 32.

On this basis, as Figure 8-9, the steel pad pier 31,31 ' includes：

Upper padding plate 311；The underlay of (can relatively described upper padding plate 311 be arranged in parallel) is oppositely arranged with the upper padding plate 311 Plate 312；The upper padding plate 311 is fixedly connected with the lower bolster 312 by connector 313, and the connector 313 can be tubular Part, and be made up of Steel material；Also, it is described further to strengthen the bonding strength between upper padding plate 311 and lower bolster 312 Between upper padding plate 311 and lower bolster 312, around the connector 313 be provided with some ribs 314, the ribs 314 it is upper The end connection upper padding plate 311, bottom connects the lower bolster 312, specifically, the ribs 314 can be right-angled trapezium, and The parallel edges that the ribs 314 of the right-angled trapezium is short connects the upper padding plate 311, and long parallel edges connects the lower bolster 312, hypotenuse is away from the connector 313.

Further, slip casting, the connector are carried out inside 351 pairs of the steel pipe Grouting Pipe steel pipe 32 to coordinate At least one Grouting Pipe manhole appendix 315 is offered on 313；The center of lower bolster 312 is offered to be connected with the steel pipe 32 Fourth hole 316；The steel pipe Grouting Pipe 351 passes through the Grouting Pipe manhole appendix 315, fourth hole 316 and isolating frame It is extend into after 33 through hole 332 of first through hole 331 and/or second in the steel pipe 32 and carries out slip casting.By to described pair of drawing anchor The inside slip casting of steel pipe 32 of rope 3, can greatly strengthen the structural strength to drawing anchor cable 3, and then strengthen to drawing anchor cable 3, Guan Liang 2 And the soundness between the first three of branch structure 4, play more preferable anti-biasing effect.

On this basis, it can also open up at least one for playing on more preferable fixed effect, the lower bolster 312 and be available for spiral shell The bolt fixing hole 318 that bolt 317 is passed through, described one end of bolt 317 is fixed after passing through the lower bolster 312 with the hard layer 22 Connection, the other end is fastenedly connected with nut 319, is fastenedly connected lower bolster 312 with the hard layer 22 with this.

Embodiment two：

As shown in Figure 10, the present invention additionally provides one kind on the basis of above-described embodiment one prevents unsymmetrial loading tunnel bias change The construction method of shape, it comprises the following steps：

S1, prefabricated steel-pipe pile 1；

S2, the steel-pipe pile 1 is arranged at the unsymmetrial loading tunnel 100 is applied in the side massif of larger bias load； And grouting and reinforcing is carried out to the periphery rock mass of steel-pipe pile 1.

Specifically, step S2 includes：

S21, as shown in figure 11, the setting Guan Liang 2 in the rock mass of the side massif for applying larger bias load, by institute The top for stating steel-pipe pile 1 is fixed in the Guan Liang 2, while drilling 308 can be also drilled with advance, by the spray of molten steel of the steel-pipe pile 1 The bottom of pipe 10 is stretched into the drilling being drilled with advance, steel-pipe pile 1 is arranged at along the unsymmetrial loading tunnel 100 with this and Apply for the unsymmetrial loading tunnel 100 in the side massif of larger bias load；

S22, first time slip casting：A small amount of clear water is pumped to the bottom hole of the drilling 308, for diluting 308 bottom hole mud of drilling Slag, and the body refuse is held out；

According to the ratio of mud 1:The cement mortar (can be using the configuration of P425 cement) of 1 configuration first time grouting, first time is noted The cement mortar of slurry since it is described drilling 308 bottom hole, be irrigated from bottom to top, using cement mortar buoyancy will drill The body refuse extrusion drilling 308 in 308；

S23, secondary grouting：After first time slip casting 10-12 hours, prefabricated fracture grouting pipe 300, and by the fracture grouting Pipe 300 is extend into the steel floral tube 10 of the steel-pipe pile 1, and carries out fracture grouting to the steel floral tube 10.

Injecting paste material can be various types of cement mortars or cement-sodium silicate double liquid in step S22, S23 And modified water glass slurry etc., as long as grouting and reinforcing can be carried out to rock mass.

Specifically, the step S23 includes：

After S231, first time slip casting 10-12 hours, as shown in figure 11, some section wall thickness 2.0-2.5mm, diameter 20- are produced (length of each section coating steel pipe 301 is determined according to displacement and depth, as long as making by 24mm, length 1.5-2.0m Every time during lifting fracture grouting pipe 300, it is ensured that pulp eye is 303 in position set in advance) coating steel pipe 301, and phase It is attached between adjacent coating steel pipe 301 with pipe joint 302, and on the coating steel pipe 301 of the section of bottom one, described in distance Some pulp eyes 303 of quincuncial arrangement in the range of the termination 0.5m of the coating steel pipe 301 of most next section, 303 holes of pulp eye Footpath is 3-8mm (preferably aperture is 5mm), to obtain the fracture grouting pipe 300；And will be divided into some inside the steel floral tube 10 Individual slip casting section；

S232, the fracture grouting pipe 300 extend into the steel floral tube 10 of the steel-pipe pile 1 and be deep into the brill Near the bottom hole in hole 308；

S323, the prefabricated slip casting sealing gland 304 for being available for the fracture grouting pipe 300 and blast pipe 306 to pass through, treat institute State fracture grouting pipe 300 and blast pipe 306 is both passed through after the slip casting sealing gland 304, the slip casting sealing gland 304 is covered The upper end of the steel floral tube 10 is located at, for being sealed to the steel floral tube 10；

As shown in figure 11, the slip casting sealing gland 304 is made of thickness 5mm steel plate, is diameter of phi 130mm disk Shape gland；Secondly, the through hole that two voltage supply bonnet bolts 305 are passed through, the bolt are arranged with the slip casting sealing gland 304 Hole 305 is used to be fastenedly connected the steel floral tube 10 and slip casting sealing gland 304, passes through the slip casting sealing gland 304 realization pair The sealing of the steel floral tube 10.Further, the middle part of slip casting sealing gland 304 is offered wears for the coating steel pipe 301 The first perforate crossed, while also also opening up the second perforate that discharge hoses 306 are passed through, institute on the slip casting sealing gland 304 Stating blast pipe 306 is used to be exhausted during to the slip casting of steel floral tube 10, and its The concrete specification can be according to exhaust needs Depending on, in the present embodiment, the length of the blast pipe 306 can be 20cm, a diameter of 22mm；

Specifically, when carrying out slip casting to the inside of the steel floral tube 10, the inside of the connection of blast pipe 306 steel floral tube 10 with External air, for the gas in steel floral tube 10 to be discharged, adjusts its internal pressure, after the completion of exhaust, passes through seal 3061 The upper end of sealing exhaust pipe 306, can such as be threaded in the upper end of the blast pipe 306, and seal 3061 is preferably bolt, After the completion of exhaust, it is threadedly coupled by bolt with the screw thread of blast pipe 306, tightens bolt to complete to the blast pipe 306 sealing.Further, to ensure sealing effectiveness, it is additionally provided between the slip casting sealing gland 304 and the steel floral tube 10 Sealing gasket, is cut into specifically, the sealing gasket can select thickness for 2mm~15mm hard rubber skin；

S324, the fracture grouting pipe 300 connected with high-pressure slip-casting pipe, open blast pipe 306, pass through high-pressure slip-casting pipe The gradually grouting under pressure into the steel floral tube 10, to complete the slip casting of the first slip casting section；

S325, the lifting fracture grouting pipe 300, carry out the fracture grouting of next slip casting section, until completing all slip castings The fracture grouting of section.

In step S324-S325, after the fracture grouting of slip casting section is completed, the slip casting sealing gland 304, inspection are opened Whether the injecting paste material looked into the coating steel pipe 301 condenses or blocks.If any then the coating steel pipe 301 being pulled down, with height Pressure water is rinsed, while diluting the heavy slurry in the steel floral tube 10, to ensure that Grouting Pipe is unobstructed and slurries spread, then again The slip casting sealing gland 304 is installed, the slip casting of remaining slip casting section is completed.

Further, can also be by being arranged on the pressure gauge 307 in 308 apertures of the drilling (such as in step S324-S325 Shown in Figure 11) observe, record grouting amount.

After the fracture grouting for completing all slip casting sections, the fracture grouting pipe 300 is rinsed with clear water, to prevent pipe entoplasm Liquid solidifies, it is ensured that pipeline is unobstructed.

In addition, also including S3, the one end that draw anchor cable 3 being fixedly connected with the Guan Liang 2, the other end and the bias tunnel The first branch structure 4 of road 100, the close side massif for applying larger bias load is fixedly connected.Using to drawing anchor cable 3 Tension resists the bias of tunnel massif side, so as to control the tunnel biased deformation of unsymmetrial loading tunnel 100, prevents tunnel support knot Bias destruction occurs for structure 4.

It should be noted that the technical characteristic in above-described embodiment one, two can be combined, the technology combined Scheme belongs to protection scope of the present invention.

In summary, the present invention is using miniature steel pipe pile as retaining structure, and it can be with the rock of supporting file tunnel massif side Soil layer, reduces tunnel Eccentric Load, prevents tunnel from biased deformation and destruction occur；Meanwhile, the steel-pipe pile has higher in itself Strength and stiffness, the effect with friction pile, can to periphery rock-soil layer carry out grouting and reinforcing, make steel floral tube and periphery rock-soil layer An antiskid entirety is collectively constituted, the consolidation effect significantly improved reduces the Eccentric Load suffered by unsymmetrial loading tunnel with this, it is to avoid Disease, the situation of unstability occur for tunnel structure caused by being in serious bias state because of tunnel；In addition, the skill that the present invention is used Art scheme engineering method is succinct, can greatly improve speed of application, reduces financial cost.

One of ordinary skill in the art will appreciate that realizing that all or part of step of above-described embodiment can be by hardware To complete, the hardware of correlation can also be instructed to complete by program, described program can be stored in a kind of computer-readable In storage medium, storage medium mentioned above can be read-only storage, disk or CD etc..

The foregoing is only presently preferred embodiments of the present invention, be not intended to limit the invention, it is all the present invention spirit and Within principle, any modification, equivalent substitution and improvements made etc. should be included in the scope of the protection.

Claims (10)

1. a kind of control tunnel biased deformation to draw anchor cable structure, it is characterised in that including being arranged to the unsymmetrial loading tunnel Apply the steel-pipe pile in the side massif of larger bias load, the steel-pipe pile is used to apply the one of larger bias load to described The rock mass of side massif is reinforced.

2. it is as claimed in claim 1 to drawing anchor cable structure, it is characterised in that the steel-pipe pile includes：

Steel floral tube；It is arranged at least one retainer ring coaxial inside the steel floral tube and with the steel floral tube；And be arranged at At least one reinforcing bar being fixedly connected inside the steel floral tube and with the fixed ring outer surface.

3. it is according to claim 2 to drawing anchor cable structure, it is characterised in that some slip castings are offered on the steel floral tube Hole, for carrying out grouting and reinforcing to periphery rock mass.

4. it is according to claim 1 to drawing anchor cable structure, it is characterised in that described pair is drawn anchor cable structure also to include being arranged at Guan Liang in the rock mass of the side massif for applying larger bias load；The Guan Liang is fixed at the top of the steel-pipe pile It is interior.

5. it is according to claim 4 to drawing anchor cable structure, it is characterised in that described pair is drawn anchor cable structure also to include at least one Root is to drawing anchor cable, and one end of each described pair of drawing anchor cable is fixedly connected with the Guan Liang, the other end and the unsymmetrial loading tunnel, lean on The first branch structure of the nearly side massif for applying larger bias load is fixedly connected.

6. it is according to claim 5 to drawing anchor cable structure, it is characterised in that the Guan Liang includes：

Concrete main body；And the anchor pier being fixedly connected with the concrete main body upper surface；Wear one end of described pair of drawing anchor cable The concrete main body and anchor pier are crossed, is fixedly connected by steel pad pier with the anchor pier.

7. according to claim any one of 1-6 to draw anchor cable structure, it is characterised in that a diameter of 50- of steel-pipe pile 1000mm, is arranged using quincunx or pattern mode, and arrangement spacing is 0.3-5m.

8. the construction method to drawing anchor cable structure of a kind of control tunnel biased deformation, it is characterised in that comprise the following steps：

S1, prefabricated steel-pipe pile；

S2, the steel-pipe pile is arranged in the side massif for applying larger bias load to the unsymmetrial loading tunnel；And to described Steel-pipe pile periphery rock mass carries out grouting and reinforcing.

9. method according to claim 8, it is characterised in that step S2 includes：

S21, in the rock mass of the side massif for applying larger bias load Guan Liang is set, the top of the steel-pipe pile is consolidated Due in the Guan Liang, the steel-pipe pile is arranged to the side massif for applying larger bias load to the unsymmetrial loading tunnel with this It is interior；

S22, first time slip casting：The cement mortar of first time grouting is irrigated from bottom to top；

S23, secondary grouting：After first time slip casting 10-12 hours, prefabricated fracture grouting pipe, and the fracture grouting pipe is stretched into Fracture grouting is carried out into the steel-pipe pile, and to the steel-pipe pile.

10. method according to claim 9, it is characterised in that also including S3, by the one end for drawing anchor cable and the Guan Liang It is fixedly connected, the first branch structure of the other end and the unsymmetrial loading tunnel, the close side massif for applying larger bias load It is fixedly connected.