CN216342148U - Shield type shield machine station transfer equipment - Google Patents

Abstract

The utility model relates to shield type shield tunneling machine station transfer equipment which comprises a bottom frame and two supporting frames, wherein a plurality of universal wheels are arranged at the bottom of the bottom frame, the two supporting frames are symmetrically arranged on two sides of the top of the bottom frame, each supporting frame comprises a lifting supporting arc plate, the length directions of the two supporting arc plates are parallel to each other, and the arc upper surfaces of the two supporting arc plates can be matched with the shield outer wall or the duct piece outer wall of a shield type shield tunneling machine. The shield type shield machine station transfer equipment disclosed by the utility model has the functions of linear air pushing, lateral translation and turning, and is simple to operate.

Description

Shield type shield machine station transfer equipment

Technical Field

The utility model relates to the technical field of shield construction corollary equipment, in particular to shield type shield machine station transfer equipment.

Background

In tunnel construction, when a TBM (full-face hard rock tunnel boring machine) passes a station, a boring machine cutter head, a shield body and a back matching machine are sequentially pushed to a tunnel portal of a next boring section, pipelines such as electric, liquid and gas pipelines between a main machine and a back matching trolley which are reassembled are connected, debugging and acceptance are carried out, and the boring work of the next section is carried out. The TBM often appears working conditions such as linear idle pushing, lateral translation and turning around when passing the station. The existing station-crossing equipment mostly adopts a track structure, can basically realize a single air-pushing or side-shifting function along the track structure, but has few station-crossing equipment which can simultaneously have two functions; when the equipment needs to be adjusted to be tunneled, the operation is realized by disassembling, hoisting and re-assembling; in addition, the construction efficiency of the station-crossing is low, the preparation workload is large, and the process is complicated.

Therefore, the inventor provides shield type shield tunneling machine station transfer equipment by virtue of experience and practice of related industries for many years so as to overcome the defects in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide shield type shield tunneling machine station transfer equipment which can simultaneously have the functions of linear air pushing, lateral translation and turning around and is simple to operate.

The purpose of the utility model is realized in such a way that the shield type shield machine station transfer equipment comprises:

the bottom of the chassis is provided with a plurality of universal wheels;

and the two support frames are symmetrically arranged on two sides of the top of the underframe, each support frame comprises a lifting support arc plate, the length directions of the two support arc plates are parallel to each other, and the arc upper surfaces of the two support arc plates can be matched with the shield outer wall of the shield type shield tunneling machine or the outer wall of a duct piece.

In a preferred embodiment of the utility model, the universal wheel is a self-propelled universal wheel.

In a preferred embodiment of the present invention, each supporting frame further includes a driving mechanism, a horizontal plate, and a plurality of triangular plates vertically disposed on the plate surface, the horizontal plate is disposed below the supporting arc plate, the plurality of triangular plates are disposed at intervals along the length direction of the supporting arc plate and clamped between the supporting arc plate and the horizontal plate, the supporting arc plate, the triangular plates, and the horizontal plate are fixedly connected to each other, and the driving mechanism is configured to drive the horizontal plate to move up and down.

In a preferred embodiment of the present invention, the driving mechanism includes a plurality of supporting cylinders spaced along the length direction of the supporting arc plate, the axial direction of the supporting cylinders is set along the vertical direction, and two ends of the supporting cylinders are respectively fixed to the horizontal plate and the bottom frame.

In a preferred embodiment of the present invention, at least one supporting longitudinal beam is disposed on the top of the bottom frame and between the two supporting frames, and the length direction of the supporting longitudinal beam is parallel to the length direction of the supporting arc plate.

In a preferred embodiment of the utility model, two support stringers are spaced apart in parallel on top of the undercarriage.

In a preferred embodiment of the present invention, the upper surface of the support side member is an inclined surface or an arc surface.

In a preferred embodiment of the present invention, a first pad is detachably mounted to the arc-shaped upper surface of the support arc plate.

In a preferred embodiment of the present invention, a second spacer is detachably mounted to an upper surface of the support side member.

In a preferred embodiment of the present invention, the upper surfaces of the first cushion block and the second cushion block are both arc-shaped surfaces.

According to the station transfer equipment, the shield body and the rear matching of the shield type shield machine are effectively supported through the underframe and the support frame, the linear air-pushing, side-shifting and direction-adjusting functions can be simultaneously realized by utilizing the flexibility of the universal wheels, the functions are more, the operation is simple, the construction efficiency is further improved, the rapid station transfer is realized, and the problems of single function, complex process and low construction efficiency of the conventional station transfer equipment are effectively solved.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1: the utility model provides a shield type shield machine station transfer device.

FIG. 2: the utility model provides a side view of shield type shield tunneling machine station transfer equipment.

FIG. 3: the utility model provides a schematic diagram of transferring a station from a first tunnel to a second tunnel.

FIG. 4: the utility model provides another schematic diagram of transferring stations from a first tunnel to a second tunnel.

FIG. 5: the utility model provides a further schematic diagram of transferring a station from a first tunnel to a second tunnel.

The reference numbers illustrate:

1. a chassis; 11. supporting the longitudinal beam;

2. a universal wheel;

3. a support frame; 31. supporting the arc plate; 32. a horizontal plate; 33. a set square; 34. a support cylinder;

4. a first cushion block;

51. a first tunnel; 52. a second tunnel;

A. linear idle pushing; B. laterally translating; C. and (5) adjusting the direction.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings.

As shown in fig. 1 to fig. 5, the present embodiment provides a shield type shield tunneling machine station transfer apparatus, including:

the bottom of the chassis 1 is provided with a plurality of universal wheels 2;

and two support frames 3, two support frames 3 symmetry are established in the top both sides of chassis 1, and every support frame 3 all includes the support arc board 31 that can go up and down, and two length directions that support arc board 31 are parallel to each other, and two arc upper surfaces homoenergetic that support arc board 31 are with the shield body outer wall of shield formula shield structure machine or the outer wall phase-match of section of jurisdiction.

The underframe 1 is a steel structure frame formed by welding profile steel and steel plates, the number of the universal wheels 2 can be determined according to the shield body weight of the shield tunneling machine, and the wheel directions of the universal wheels 2 can be adjusted according to the requirements of a transfer station. The length direction of the supporting arc plate 31 extends along the length direction of the underframe 1, and during use, the supporting arc plate 31 can be used for being attached to the outer wall of a shield body or the outer wall of a duct piece of the shield machine so as to support the shield body or a back support placed on the duct piece. The whole station transfer equipment is mainly suitable for shield type shield machines, such as shield type tunnel boring machines, slurry balance shield machines and earth pressure balance shield machines in TBMs.

From this, the equipment of changing station in this embodiment, the shield body and the back of shield formula shield structure machine are supported effectively through chassis 1 and support frame 3 to utilize the flexibility of universal wheel 2, can possess the straight line simultaneously and empty push, the side moves and the function of turning to, the function is more and easy operation, and then has increased the efficiency of construction, realizes changing the station fast, has effectively solved current equipment function singleness of crossing station, and the process is complicated, problem that the efficiency of construction is low.

In a specific implementation, the universal wheel 2 is preferably a self-driving universal wheel. The concrete structure of self-driven universal wheel is current structure, and self-driven universal wheel not only can 360 rotations by hydraulic drive, can also realize transferring in step to, and the efficiency of construction is higher.

In order to facilitate driving the supporting arc plate 31 to move up and down, as shown in fig. 2, each supporting frame 3 further includes a driving mechanism, a horizontal plate 32 and a plurality of triangular plates 33 vertically arranged on the plate surface, the horizontal plate 32 is arranged below the supporting arc plate 31, the plurality of triangular plates 33 are arranged at intervals along the length direction of the supporting arc plate 31 and clamped between the supporting arc plate 31 and the horizontal plate 32, the supporting arc plate 31, the triangular plates 33 and the horizontal plate 32 are fixedly connected to each other, and the driving mechanism is used for driving the horizontal plate 32 to move up and down.

It can be understood that the length direction of the horizontal plate 32 is parallel to the length direction of the supporting arc plate 31, the bottom end of the supporting arc plate 31 is fixedly connected with the inner side of the horizontal plate 32, and the triangular plate 33 is fixedly embedded in the triangular area between the arc-shaped lower surface of the supporting arc plate 31 and the upper surface of the horizontal plate 32, so that the stability of the structure is ensured.

Preferably, the driving mechanism comprises a plurality of supporting oil cylinders 34 arranged at intervals along the length direction of the supporting arc plate 31, the axial direction of the supporting oil cylinders 34 is arranged along the vertical direction, and two ends of the supporting oil cylinders 34 are respectively fixedly connected with the horizontal plate 32 and the underframe 1. Because the weight of the shield machine is heavier, the supporting oil cylinder 34 is adopted to drive the shield machine to lift, the lifting adjustment is simpler, and the space is saved.

Further, in order to improve the stability of the shield body or the rear support, at least one support longitudinal beam 11 is arranged on the top of the underframe 1 and between the two support frames 3, and the length direction of the support longitudinal beam 11 is parallel to the length direction of the support arc plate 31. The number of the support longitudinal beams 11 is determined according to the requirement, for example, two support longitudinal beams 11 are arranged at the top of the underframe 1 in parallel at intervals in the embodiment. The upper surface of the support side member 11 may be an inclined surface or an arc surface, as required.

Further, a first pad 4 is detachably attached to the arc-shaped upper surface of the support arc plate 31, and a second pad is detachably attached to the upper surface of the support side member 11. The upper surfaces of the first and second blocks 4, 4 are preferably both arcuate surfaces. The first cushion block 4 can be connected to the support arc plate 31 through bolts, and the second cushion block can be connected to the support longitudinal beam 11 through bolts and can be connected or detached as required.

Because the diameter of the shield body is larger than that of the pipe piece, the supporting arc plates 31 and the supporting longitudinal beams 11 are designed according to the outer wall of the shield body, and when the station is switched to a host machine, the arc upper surfaces of the supporting arc plates 31 and the upper surfaces of the supporting longitudinal beams 11 can be attached to the outer wall of the shield body; when supporting after the transfer station, need to join in marriage the section of jurisdiction in addition first cushion 4 and second cushion for the upper surface of first cushion 4 and second cushion can paste and lean on the section of jurisdiction outer wall. In addition, because the support longitudinal beam 11 is fixed, the support arc plate 31 can only be adjusted in a lifting way, and the inclination angle cannot be adjusted, so that in practical application, the change of the diameter of the shield body in a certain range can be adapted in a way of adding or detaching a cushion block on the support arc plate 31 or the support longitudinal beam 11.

More specifically, the three functions of the shield type shield tunneling machine transfer station are realized by using the transfer station equipment, and the construction method is as follows:

(1) preparation work: aligning the station transfer equipment with a tunnel outlet of a shield type shield machine, and adjusting a support oil cylinder 34 to enable the arc upper surface of a support arc plate 31 to coincide with the outer diameter of the tunnel outlet; and the counterforce frame is supported at the tail part of the transfer station equipment to provide counterforce.

(2) The host computer is transferred to the station: the main machine of the shield type shield machine enters the transfer station equipment after going in and out of the tunnel opening under the action of the thrust oil cylinder of the shield machine, and the main machine and the back matching are disconnected after the whole main machine falls on the transfer station equipment, and the reaction frame is withdrawn.

The self-driven universal wheels walk to the other starting hole of the station in the front under the action of hydraulic power and a corresponding control system, the front-back and left-right distances between the host and the starting hole are adjusted through the self-driven universal wheels, the up-down distance between the host and the starting hole is adjusted through the supporting oil cylinder 34, the central axis of the host is consistent with the axis of the starting hole, and linear idle pushing of the host is achieved.

The self-driven universal wheel rotates 90 degrees under the action of hydraulic power and a corresponding control system, and is laterally driven to another starting hole of the station. And the positions of the host and the originating hole are adjusted in the same way, so that the host can laterally move.

Under the action of hydraulic power and a corresponding control system, the self-driven universal wheel continuously adjusts the wheel angle, so that a host borne on the station passing equipment rotates by 90 degrees, and the central axis of the host is vertical to the central axis of the tunnel; and the control system adjusts the angle of the wheels again to enable the host carried by the station-crossing equipment to rotate 90 degrees again, and the central axis of the host is parallel to the central axis of the newly excavated tunnel with the hole diameter, so that the direction of 180 degrees is adjusted. The positions of the host and the originating hole are adjusted in the same way.

After the station is changed, the reaction frame needs to be installed to the tail end of the fighting equipment again, and a reaction force is provided for the initial tunneling of the equipment.

(3) Rear matching transfer station

After the preparation work is completed, the first cushion block 4 is bolted to the support arc plate 31. And assembling the bottom duct piece on the transfer station equipment by using a crane. And the trunk of the trunk cover is pulled to the spliced pipe sheets on the transfer station equipment by a winch. In a similar way, under the action of the self-driven universal wheels, the linear air-pushing, the lateral translation and the turning of the trailer matched with the rear part can be realized.

After the working procedures are finished, the host machine is connected with the trailer, and the complete machine can be smoothly tunneled.

When the host or the back support is transferred from the first tunnel 51 to the second tunnel 52, three conditions of fig. 3 to fig. 5 mainly exist during the transfer according to the hole position relation of the first tunnel 51 and the second tunnel 52, and the three working conditions of linear air pushing a, lateral translation B and turning C can be conveniently realized by using the transfer equipment, so that the operation is simple and convenient.

In conclusion, the station transfer equipment in the embodiment can simultaneously realize the linear air-pushing, side-moving and turning functions of the shield type shield machine, reduces the construction process to the maximum extent in the station transfer process, and realizes the efficient promotion of the construction efficiency.

The above are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention. Any equivalent changes and modifications that can be made by one skilled in the art without departing from the spirit and principles of the utility model should fall within the protection scope of the utility model.

Claims (10)

1. The utility model provides a shield formula shield constructs quick-witted equipment of changing station which characterized in that includes:

the bottom of the chassis is provided with a plurality of universal wheels;

and the two support frames are symmetrically arranged on two sides of the top of the underframe and each support frame comprises a lifting support arc plate and two arc plates, the length directions of the support arc plates are parallel to each other, and the arc upper surfaces of the support arc plates can be matched with the shield outer wall of the shield type shield tunneling machine or the outer wall of a duct piece.

2. The shield-type shield tunneling machine station-changing equipment according to claim 1,

the universal wheel is a self-driven universal wheel.

3. The shield-type shield tunneling machine station-changing equipment according to claim 1,

every the support frame still includes a plurality of set squares of actuating mechanism, a horizontal plate and the vertical setting of face, the horizontal plate is established the below of supporting the arc board, it is a plurality of the set square is followed the length direction interval that supports the arc board sets up and presss from both sides and establishes support the arc board with between the horizontal plate, support the arc board the set square with the mutual rigid coupling of horizontal plate, actuating mechanism is used for the drive horizontal plate lifting movement.

4. The shield type shield tunneling machine station transfer apparatus according to claim 3,

the driving mechanism comprises a plurality of supporting oil cylinders which are arranged at intervals along the length direction of the supporting arc plate, the axial direction of each supporting oil cylinder is arranged along the vertical direction, and two ends of each supporting oil cylinder are fixedly connected with the horizontal plate and the bottom frame respectively.

5. The shield-type shield tunneling machine station-changing equipment according to claim 1,

at least one supporting longitudinal beam is arranged at the top of the bottom frame and between the two supporting frames, and the length direction of the supporting longitudinal beam is parallel to the length direction of the supporting arc plate.

6. The shield-type shield tunneling machine station-changing equipment according to claim 5,

and two support longitudinal beams are arranged at the top of the underframe in parallel at intervals.

7. The shield-type shield tunneling machine station-changing equipment according to claim 5,

the upper surface of the support longitudinal beam is an inclined surface or an arc surface.

8. The shield-type shield tunneling machine station-changing equipment according to claim 5,

a first cushion block is detachably arranged on the arc-shaped upper surface of the supporting arc plate.

9. The shield type shield tunneling machine station transfer apparatus according to claim 8, wherein a second spacer is detachably mounted on the upper surface of the support longitudinal beam.

10. The shield-type shield tunneling machine station-changing equipment according to claim 9,

the upper surfaces of the first cushion block and the second cushion block are arc-shaped surfaces.

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