CN212296395U - Tunnel initiative supporting construction - Google Patents

Abstract

A prefabricated tunnel active supporting structure comprises a supporting frame and an anchor rod, wherein the supporting frame is installed in a tunnel, the outer side of the supporting frame is attached to a primary sprayed concrete surface of the inner wall of the tunnel, the anchor rod is distributed between the supporting frame and the primary sprayed concrete surface, one end of the anchor rod extends into the primary sprayed concrete surface, and the other end of the anchor rod is connected to the supporting frame through a base plate; the support frame comprises lattice type unit components and reinforcing limbs, the support frame is spliced into an annular structure by the lattice type unit components, and the reinforcing limbs are respectively arranged at two longitudinal ends of the lattice type unit components; when the two lattice type unit assemblies are spliced along the longitudinal direction, the adjacent reinforcing limbs are fixedly connected to form reinforcing ribs; the lattice type unit component comprises a steel bar mesh and open steel bars, and the open steel bars are arranged on the periphery of the steel bar mesh respectively. The constructed anchor rod penetrates through the mesh openings of the reinforcing mesh, and prestress is applied through the free end, so that the base plate of the anchor rod is tightly connected with the lattice type unit, and the active supporting effect of the prefabricated assembly type structure on the tunnel surrounding rock is realized.

Description

Tunnel initiative supporting construction

Technical Field

The utility model relates to a tunnel engineering construction technical field, concretely relates to tunnel initiative supporting construction.

Background

The support system commonly used for tunnel surrounding rock at present consists of a composite surrounding rock structure and a composite support structure. The composite surrounding rock structure consists of original rock, deep surrounding rock and shallow surrounding rock, and the composite supporting structure consists of primary support and secondary lining.

The key of the control of the stability of the surrounding rock of the tunnel is the control of the stability of the surrounding rock of the peripheral shallow layer of the tunnel after excavation. The surrounding rock pressure needs the surrounding rock and the supporting structure to bear together, but the surrounding rock is the main body of bearing. The deformation of the surrounding rock is controlled through monitoring and measuring, and the self-stability capability of the surrounding rock is brought into full play.

For a composite supporting structure, primary supporting generally comprises anchor-shotcrete supporting consisting of one or more of supporting materials such as anchor rods, shotcrete, steel frames, reinforcing meshes and the like, and secondary lining generally comprises cast concrete. In the construction process, a secondary lining is constructed by using a field monitoring and measuring means after the primary support is deformed stably. Generally, primary supports and surrounding rocks bear most of the load during construction, and secondary lining serves as a safety reserve.

During the construction process of tunnel engineering, the surrounding rock and the primary support are allowed to deform to a certain degree, and the self-supporting capacity of the surrounding rock is exerted to the maximum extent, so that the support rigidity is reduced, and the manufacturing cost is reduced. However, all the supporting structures are passive supporting, namely the supporting function can be exerted only after surrounding rocks deform and act on the structure, the effects of the supporting structure on the aspects of bearing timeliness and surrounding rock improvement are extremely limited, instability damage is easy to occur when the surrounding rocks of the tunnel are poor and the self-stability time is short, even the local collapse of the tunnel is caused, and the national property and the life of people are threatened.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's not enough, provide a tunnel initiative supporting construction, concrete technical scheme is as follows:

the utility model provides a tunnel initiative supporting construction which characterized in that: the support frame is arranged in a tunnel, the outer side of the support frame is attached to a primary sprayed concrete surface of the inner wall of the tunnel, anchor rods are distributed between the support frame and the primary sprayed concrete surface, one end of each anchor rod extends into the primary sprayed concrete surface, and the other end of each anchor rod is connected to the support frame through a base plate;

the supporting frame comprises lattice type unit components and reinforcing limbs, the supporting frame is spliced into an annular structure by the lattice type unit components, and the reinforcing limbs are respectively installed at two longitudinal ends of the lattice type unit components;

when the two lattice type unit assemblies are spliced along the longitudinal direction, the adjacent reinforcing limbs are fixedly connected to form reinforcing ribs;

the lattice type unit component comprises a steel bar mesh and open steel bars, and the open steel bars are arranged on the periphery of the steel bar mesh respectively;

two adjacent reinforcing steel bar meshes are fixedly connected through corresponding open reinforcing steel bars;

and a group of foot locking anchor rods are obliquely arranged at the two ends of the supporting frame respectively. And the sinking of the active supporting structure is reduced, so that the stability of the whole structure is ensured.

Further: the net of reinforcing bar net is the rectangle, the hoop size of reinforcing bar net hole is 8cm ~ 50cm, the longitudinal dimension of reinforcing bar net hole is 3cm ~ 30cm, the stock becomes the plum blossom form and arranges, and the stock head is fixed in through the gasket lattice formula unit, anchor section and country rock are fixed fast.

Further: and end plates are respectively arranged at two ends of the lattice type unit assembly, and the reinforcing limbs are connected at two ends of the lattice type unit assembly through the end plates. The anchor rod is made to penetrate through the mesh openings of the reinforcing mesh and to apply prestress, and the backing plate on the anchor rod is fixed to the lattice unit, so that the active supporting effect of the prefabricated assembly type structure on the tunnel surrounding rock is realized.

Further: and adjacent reinforcing ribs are welded to form reinforcing ribs.

Further: the adjacent reinforcing ribs are connected through bolts to form the reinforcing ribs.

Further: and stirrups are arranged on the adjacent reinforcing ribs.

Further: the cross section of the reinforcing limb is triangular.

Further: the cross section of the reinforcing rib is approximately in an equilateral triangle shape.

Further: the anchor rod structure is a quick setting expansion and quick anchoring anchor rod, and after the anchor rod is driven into the ground, the anchor rod can be quickly bonded with the ground in a resin, shell expansion and friction mode.

The specific technical scheme of the construction method of the tunnel active supporting structure is as follows:

the utility model has the advantages that: firstly, a reinforcing mesh with a large rectangular length-width ratio is closely attached to a primary sprayed concrete surface, so that the reinforcing mesh has a bearing effect on surrounding rocks, large dangerous stones are prevented from falling, and the safety of a construction area is ensured;

secondly, the constructed anchor rod penetrates through the mesh openings of the reinforcing mesh and applies prestress through the free end, so that a base plate of the anchor rod is tightly connected with the lattice type units, and the active supporting effect of the prefabricated assembly type structure on the tunnel surrounding rock is realized;

thirdly, the lattice type assembling units can be quickly assembled into an active supporting structure, so that the tunnel excavation process is accelerated, and the construction period is shortened;

fourthly, the bottom of strengthening the arch rib can be fixed to the lock foot stock, reduces sinking of tunnel initiative supporting construction to guarantee the wholeness of structure, improve the stability of structure.

Drawings

Fig. 1 is a schematic structural view of the active tunnel supporting structure of the present invention;

fig. 2 is a three-dimensional view of the tunnel active supporting structure of the present invention;

fig. 3 is a plan view of a lattice-type active support assembly unit;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a detail view of the reinforcement limb assembly;

FIG. 6 is a schematic view of the reinforcement limb and the end plate connected together;

in the figure, the reference numbers are illustrated as a steel bar mesh 1, a reinforcing limb 2, an anchor rod 3, a foot locking anchor rod 4, an end plate 5, a stirrup 6, a welding point 7 between lattice type units, an anchor rod base plate 9, longitudinal steel bars 10 with different specifications and reinforcing ribs 11.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

A tunnel active supporting structure comprises a supporting frame and anchor rods 3, wherein the supporting frame is installed in a tunnel, the outer side of the supporting frame is attached to a primary sprayed concrete surface of the inner wall of the tunnel, the anchor rods 3 are distributed between the supporting frame and the primary sprayed concrete surface, one end of each anchor rod 3 extends into the primary sprayed concrete surface, and the other end of each anchor rod 3 is connected to the supporting frame through an anchor rod base plate 9;

the support frame includes lattice formula unit subassembly and strengthens limb 2, the support frame is by lattice formula unit subassembly concatenation annular structure the both ends of lattice formula unit subassembly are provided with end board 5 respectively, strengthen limb 2 and connect through end board 5 the both ends of lattice formula unit subassembly, strengthen the cross-section of limb 2 and be triangle-shaped.

The anchor rod 3 is made to penetrate through the mesh openings of the reinforcing mesh 1, and prestress is applied through the free end, so that the anchor rod base plate 9 on the anchor rod 3 is tightly connected with the lattice type unit, and the active supporting effect of the prefabricated assembly type structure on the tunnel surrounding rock is achieved.

When two lattice type unit assemblies are spliced along the longitudinal direction, the adjacent reinforcing limbs 2 are fixedly connected through bolts to form reinforcing ribs 11, the cross sections of the reinforcing ribs are approximately equilateral triangles, and stirrups 6 are arranged on the adjacent reinforcing limbs 2 for further reinforcing.

The lattice type units and the anchor rods are prefabricated and assembled in advance, so that the tunnel excavation process is accelerated, and the construction period is shortened.

Lattice formula unit piece includes reinforcing bar net 1 and open reinforcement the reinforcing bar net 1 sets up respectively all around the open reinforcement, the net of reinforcing bar net 1 is the rectangle, the hoop size 8cm ~ 50cm of reinforcing bar net 1, the longitudinal dimension of reinforcing bar net 1 is 3cm ~ 30cm, 3 plum blossom shape distributions of stock are in the support frame with between the just spraying concrete face.

Two adjacent reinforcing steel bar meshes 1 are fixedly connected through corresponding open reinforcing steel bars;

and a group of foot locking anchor rods 4 are obliquely arranged at the two ends of the support frame respectively. And the sinking of the active supporting structure is reduced, so that the stability of the whole structure is ensured.

The anchor rod structure is a quick setting expansion and quick anchoring anchor rod, and after the anchor rod is driven into the ground, the anchor rod can be quickly bonded with the ground in a resin, shell expansion and friction mode.

In this embodiment, the reinforcing mesh 1 and the reinforcing limb 2 are prefabricated into an assembly unit, the reinforcing mesh 1 pieces of each unit are welded through open steel bars, the reinforcing limbs 2 are connected through the end plate 5 by bolts, and are supplemented with longitudinal steel bars, and the reinforcing limb 2 and the foot-locking anchor rod 4 are welded through U-shaped steel bars.

The construction method of the tunnel active supporting structure adopted by the concrete case comprises the following concrete technical scheme:

a construction method of a tunnel active supporting structure comprises the following steps:

a. prefabricating and processing a lattice type assembling unit according to the tunnel excavation radius, and performing a pre-assembling test in an open field outside the field;

b. after the tunnel is excavated, the concrete is primarily sprayed on the excavated section, and the concrete is primarily sprayed on the excavated section, so that the steel bars of the lattice type assembly units are prevented from being directly contacted with surrounding rocks to be corroded.

c. Checking the processing quality of the lattice type assembly units on site, and assembling the lattice type assembly units after the lattice type assembly units are qualified, wherein the assembly sequence is from bottom to top, and the principle of annular to longitudinal is adopted;

d. the lattice type unit is closely attached to the surface of the initially sprayed concrete after the tunnel is excavated by the surrounding rock side, and is primarily positioned by means of longitudinal and circumferential positioning steel bars in the assembling process;

e. the anchor rod penetrates through the grids of the reinforcing mesh, is arranged on the tunnel excavation surface in a quincunx manner, and is quickly bonded with the stratum by adopting a resin, shell expansion and friction mode after being driven into the stratum;

f. after the anchor rod is tightly bonded with the stratum, prestress is applied through the free end of the anchor rod, and the backing plate of the anchor rod is tightly connected with the lattice type unit, so that the active supporting effect of the prefabricated assembly type structure on the tunnel surrounding rock is realized.

g. Combine the tunnel excavation section and do not be provided with a set of lock foot stock in lower left corner and lower right corner punishment, fixed enhancement arch rib bottom reduces initiative supporting construction's sinking to guarantee the firm of overall structure.

h. And (3) re-spraying concrete with a protective layer of 3-5 cm in thickness, completely covering the reinforcing mesh and the reinforcing limbs, and leveling the concrete surface after re-spraying. The active construction structure and the sprayed concrete are stressed together.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments (for example, the retraction mechanism is not restricted to use a gear transmission but other transmissions; the adjustment mechanism is not restricted to use a screw nut transmission but other transmissions), but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a tunnel initiative supporting construction which characterized in that: the support frame is arranged in a tunnel, the outer side of the support frame is attached to a primary sprayed concrete surface of the inner wall of the tunnel, anchor rods are distributed between the support frame and the primary sprayed concrete surface, one end of each anchor rod extends into the primary sprayed concrete and surrounding rocks, and the other end of each anchor rod is connected to the support frame through a base plate;

the supporting frame comprises lattice type unit components and reinforcing limbs, the supporting frame is spliced into an annular structure by the lattice type unit components, and the reinforcing limbs are respectively installed at two longitudinal ends of the lattice type unit components;

when the two lattice type unit assemblies are spliced along the longitudinal direction, the adjacent reinforcing limbs are fixedly connected to form reinforcing ribs;

the lattice type unit component comprises a steel bar mesh and open steel bars, and the open steel bars are arranged on the periphery of the steel bar mesh respectively;

two adjacent reinforcing steel bar meshes are fixedly connected through corresponding open reinforcing steel bars;

and a group of foot locking anchor rods are obliquely arranged at the two ends of the supporting frame respectively.

2. The active tunnel support structure of claim 1, wherein: the mesh of the reinforcing mesh is rectangular, the circumferential size of the reinforcing mesh is 8 cm-50 cm, the longitudinal size of the reinforcing mesh is 3 cm-30 cm, and the anchor rods are distributed between the support frame and the primary sprayed concrete surface in a plum blossom shape.

3. The active tunnel support structure of claim 1, wherein: and end plates are respectively arranged at two ends of the lattice type unit assembly, and the reinforcing limbs are connected at two ends of the lattice type unit assembly through the end plates.

4. The active tunnel support structure of claim 1, wherein: the adjacent reinforcing ribs form reinforcing ribs in a fixing mode of welding and binding.

5. The active tunnel support structure of claim 1, wherein: the adjacent reinforcing ribs are connected through bolts to form the reinforcing ribs.

6. The active tunnel support structure of claim 5, wherein: and stirrups are arranged on the adjacent reinforcing ribs.

7. The active tunnel support structure of claim 6, wherein: the cross section of the reinforcing limb is triangular.

8. The active tunnel support structure of claim 7, wherein: the cross section of the reinforcing rib is approximately in an equilateral triangle shape.

9. The active tunnel support structure of claim 8, wherein: the anchor rod structure is a quick setting expansion and quick anchoring anchor rod, and after the anchor rod is driven into the ground, the anchor rod can be quickly bonded with the ground in a resin, shell expansion and friction mode.

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