Active sorting muck-collecting device for slurry balancing shield

Abstract

The present application discloses an active sorting muck-collecting device for slurry balancing shield, aiming at solving a technical problem that an existing muck-collecting device cannot provide reliable sorting function for a shield slurry circulation system. The device includes a sorting stirring cylinder, a circulation pipeline and a muck-collecting box, the sorting stirring cylinder includes an outer cylinder and a rotatable grid cylinder coaxially-configured. The grid cylinder is configured with a rotating shaft, and a spiral conveying mechanism is fixedly configured inside. The rotating shaft is fixedly connected with the grid cylinder. A circulation pipeline communicated with the grid cylinder is correspondingly configured below the grid cylinder. A muck-collecting box is fixedly configured below the circulation pipeline, and the muck-collecting box is communicated with the grid cylinder at where an output end of a slurry discharging pipeline locates.

Claims

1. An active sorting muck-collecting device for slurry balancing shield comprising a sorting stirring cylinder, a circulation pipeline and a muck-collecting box, wherein the sorting stirring cylinder comprises an outer cylinder and a rotatable grid cylinder coaxially configured; the grid cylinder is configured with a rotating shaft, and a spiral conveying mechanism is fixedly configured inside the grid cylinder, the rotating shaft is fixedly connected with the grid cylinder, to realize that the rotating shaft drives the spiral conveying mechanism of the grid cylinder to do self-rotating motion; the circulation pipeline connected with the grid cylinder is correspondingly configured below the grid cylinder, a left end and a right end of the circulation pipeline are respectively configured with a slurry discharging pipeline and a scouring pipeline, upper ends of the slurry discharging pipeline and the scouring pipeline are fixedly connected with the outer cylinder; and the muck-collecting box is fixedly configured under the circulation pipeline, and at where an output end of the slurry discharging pipeline locates, the muck-collecting box is communicated with the grid cylinder; wherein three or more groups of supporting components are fixedly configured between the grid cylinder and the rotating shaft, the supporting components comprise two supporting rods symmetrically configured from up to down, and the supporting components are evenly distributed in the grid cylinder with a circumferential 30-degree cross dislocation.

2. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein at where an output end of the scouring pipeline locates, the grid cylinder is configured with a slurry inlet pipeline communicated with the grid cylinder, and the slurry inlet pipeline is communicated with the slurry discharging pipeline through the grid cylinder and the circulation pipeline.

3. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein a cover plate is configured on the rotating shaft at an end of the rotating shaft adjacent to the slurry inlet pipeline.

4. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein the spiral conveying mechanism is a spiral rib.

5. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein reinforcing ribs are configured between the supporting rods and the rotating shaft, and between the supporting rods and the grid cylinder, the reinforcing ribs comprise two reinforcing ribs symmetrically configured from left to right.

6. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein an outer circumferential surface of the grid cylinder and an inner circumferential surface of the outer cylinder are both configured with wear-resistant layers.

7. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein a side surface of the muck-collecting box is configured with a cleaning opening, the cleaning opening is configured with a sealing cover plate, and the sealing cover plate is fixed with the muck-collecting box through bolts.

8. The active sorting muck-collecting device for slurry balancing shield according to claim 1, wherein a two-layer structure is configured inside the muck-collecting box and a slag sliding plate is further configured inside the muck-collecting box.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view of a transverse section structure of an active sorting muck-collecting device for slurry balancing shield.

(2) FIG. 2 is a schematic view of an A-A section structure of the active sorting muck-collecting device for slurry balancing shield.

(3) FIG. 3 is a schematic left view of the active sorting muck-collecting device for slurry balancing shield.

(4) FIG. 4 is a schematic front view of the active sorting muck-collecting device for slurry balancing shield.

(5) FIG. 5 is a schematic right view of the active sorting muck-collecting device for slurry balancing shield.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(6) Detailed description of embodiments of the present application will be described below with reference to the accompany drawings and examples, but the following examples are intended only to illustrate the current application in detail and are not intended to limit the scope of the current application in any way.

(7) The parts referred to in the following examples are conventional commercially available products unless otherwise specified.

(8) In one embodiment, an active sorting muck-collecting device for slurry balancing shield, referring to FIGS. 1 to 5, includes a sorting stirring cylinder, a circulation pipeline 30, a muck-collecting box 40 and a driving motor 50. The sorting stirring cylinder includes an outer cylinder 10 and a rotatable grid cylinder 20 coaxially configured. The grid cylinder 20 is configured with a rotating shaft 51, and a spiral conveying mechanism is fixed and embedded inside. The spiral conveying mechanism is a spiral rib 22, which has high conveying efficiency, high self-strength and long service life, and has a hole for large stones to pass through in the middle. The rotating shaft 51 is connected with the driving motor 50, and is welded and fixed with the grid cylinder 20 to realize that the driving motor drives the rotating shaft and drives the spiral conveying mechanism of the grid cylinder to perform self-rotating motion. A cover plate is configured on the rotating shaft to protect the rotating shaft and prolong the service life of the rotating shaft, a rotating shaft fixing frame is also configured on the rotating shaft, and a rolling bearing is configured between the rotating shaft and the rotating shaft fixing frame. An outer circumferential surface of the grid cylinder and an inner circumferential surface of the outer cylinder are both configured with wear-resistant layers. A friction force on the outer circumferential surface of the grid cylinder and the inner circumferential surface of the outer cylinder is relatively large, and the wear-resistant layers configured on the surfaces of the grid cylinder and the outer cylinder prolong the service life of the grid cylinder and the outer cylinder.

(9) Three groups of supporting components are fixedly welded between the grid cylinder and the rotating shaft, the supporting components include two supporting rods symmetrically configured from up to down, and the supporting components are evenly distributed inside the grid cylinder in a circumferential direction of 30-degree, so that an overall strength of a grid roller is improved. Reinforcing ribs 24 are welded between a supporting rod 23 and the rotating shaft 51, and between the supporting rod 23 and the grid cylinder 20. There are two reinforcing ribs 24 and the two reinforcing ribs 24 are configured symmetrically from left to right, so that a support strength of the supporting rods 23 are increased. The circulation pipeline 30 communicating with the grid cylinder 20 is correspondingly configured below the grid cylinder 20. A slurry discharging pipeline 32 and a scouring pipeline 31 are respectively arranged at a left end and a right end of the circulation pipeline 30. The scouring pipeline 31 prevents mud from remaining in the circulation pipeline 30, and a slurry inlet pipeline 21 is configured on the grid cylinder 20 and in communication with the grid cylinder 20 at an end where an output end of the scouring pipeline 31 locates, so that the slurry inlet pipeline 21 is communicated with the slurry discharging pipeline 32 through the grid cylinder 20, and the circulation pipeline 30 is communicated with the slurry discharging pipeline 32.

(10) Upper ends of the slurry discharging pipeline 32 and the scouring pipeline 31 are connected with the outer cylinder 10 through bolts, and a muck-collecting box 40 is fixedly configured below the circulation pipeline 30. At an end where an output end of the slurry discharging pipeline 32 locates, the muck-collecting box 40 is communicated with the grid cylinder 20. A side surface of the muck-collecting box 40 is configured with a cleaning opening, and the cleaning opening is configured with a sealing cover plate 41, and the sealing cover plate 41 is fixed to the muck-collecting box 40 through bolts, and the setting of the cleaning opening is convenient for cleaning stones inside the muck-collecting box 40. A two-layer structure is configured inside the muck-collecting box 40, and a slag sliding plate 42 is also configured, so that the stones can obtain an initial speed when entering the muck-collecting box, and can be evenly distributed inside the muck-collecting box, avoiding an accumulation and congestion of the stones at the entrance.

(11) Referring to FIGS. 1 to 5, a working process of the active sorting muck-collecting device for slurry balancing shield is as follows: the slurry inlet pipeline 21 is connected with a slurry discharging pipeline of a main machine of the shield machine. The slurry discharging pipeline 32 is connected with a P2.1 slurry discharging pump of the shield machine and its subsequent pipelines. Clay adulterated with gravel enters the grid cylinder 20 from the slurry inlet pipe. The rotation of the grid cylinder 20 drives the spiral rib 22 to stir to separate the clay and gravel. Larger stones are isolated within the grid cylinder 20, and under the action of the spiral rib 22, conveyed to the muck-collecting box 40 below the circulation pipeline 30. As the muck-collecting box 40 is full, a sealing cover plate 41 of the cleaning opening is opened to clean the muck-collecting box 40, and smaller stones and mud enter the circulation pipeline 30 below the grid cylinder 20 through the grid cylinder 20, and then are discharged into the P2.1 slurry discharging pump of the shield machine and subsequent pipelines through the slurry discharging pipeline 32 connected with the circulation pipeline 30. So that, the continuous circulation of the shield slurry circulation system can be maintained. The grid cylinder 20 and the spiral ribs 22 configured in the grid cylinder 20 of the muck-collecting device of the present application can screen stones according to sizes of the stones by self-rotation, and the circulation pipeline 30 and the muck-collecting box 40 communicating with the grid cylinder 20 can collect small stones and large stones, respectively.

(12) Detailed description of the present application has been configured with the drawings and embodiments above. However, it will be understood by those skilled in the art that, without departing from the concept of the present application, various specific parameters in the above embodiments can be modified to form a plurality of specific embodiments, all of which are within the common range of the present application and will not be described in detail here.