CN210814079U

CN210814079U - Overflow tower tail row system

Info

Publication number: CN210814079U
Application number: CN201921653469.XU
Authority: CN
Inventors: 韩贵虎; 靳建平
Original assignee: Inner Mongolia Haiming Mining Co ltd
Current assignee: Inner Mongolia Haiming Mining Co ltd
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2020-06-23
Anticipated expiration: 2029-09-27

Abstract

The utility model discloses an overflow tower tail row system, which comprises a plurality of slurry discharge pipes communicated with the bottom of an overflow tower, wherein each slurry discharge pipe is communicated with the top of a C-shaped pipe which is horizontally arranged, and two end parts of the C-shaped pipe are plugged; the middle part of the C-shaped pipe is connected with an inlet of a tail pump through a discharge pipe, and the slurry discharge pipes are uniformly distributed on two sides of the discharge pipe. After workers find that the discharge capacity of the tail discharge pump is reduced, the flushing pipe injects high-pressure water into the C-shaped pipe, so that the flow rate of tailing slurry in the C-shaped pipe and the discharge pipe is improved, and the C-shaped pipe and the discharge pipe are prevented from being blocked; the C-shaped pipe is connected with each slurry discharge pipe, after the tailing slurry enters the C-shaped pipe, the distance between the slurry discharge pipes flowing into the C-shaped pipe from the C-shaped pipe does not have a 90-degree elbow, the reduction of the flow speed is small in the process of turning the tailing slurry, and the tailing slurry can be effectively prevented from being blocked.

Description

Overflow tower tail row system

The technical field is as follows:

the utility model relates to a ore dressing tail row field, concretely relates to overflow tower tail row system.

Background art:

in the mineral separation production, the tailing slurry screened by a tailing screen needs to be discharged into an overflow tower, clear water in the tailing slurry is recycled through the overflow tower, and the tailing slurry precipitated at the bottom is discharged into a tailing pond through a slurry discharge pipe under the action of a tailing discharge pump and is stockpiled. However, in actual production, the precipitated tailing slurry contains a large amount of tailing particles, and at the turning position of a pipeline, the flowing direction of the tailing slurry is changed, so that the flowing speed of the tailing slurry is reduced, the tailing slurry flows slowly and is easy to block, and after the pipeline is blocked, the tailing slurry in an overflow tower cannot be discharged quickly, so that normal production is influenced.

The utility model has the following contents:

an object of the utility model is to provide an overflow tower tail row system of avoiding blockking up.

The utility model discloses by following technical scheme implement:

a tail discharge system of an overflow tower comprises a plurality of slurry discharge pipes communicated with the bottom of the overflow tower, wherein each slurry discharge pipe is communicated with the top of a horizontally arranged C-shaped pipe, and two end parts of the C-shaped pipe are blocked; the middle part of the C-shaped pipe is connected with an inlet of a tail discharge pump through a discharge pipe, and the pulp discharge pipes are uniformly distributed on two sides of the discharge pipe;

and a plurality of washing pipes are fixedly communicated with the C-shaped pipe along the tangential direction of the C-shaped pipe, and the end part of each washing pipe connected with the C-shaped pipe points to the flow direction of the tailings mud.

Preferably, the tail discharge pump comprises two tail discharge pumps, the middle of the C-shaped pipe is connected with two discharge pipes, and each discharge pipe is respectively connected with an inlet of the corresponding tail discharge pump.

Preferably, both ends of the C-shaped pipe are blocked by flanges.

The utility model has the advantages that: after workers find that the discharge capacity of the tail discharge pump is reduced, the flushing pipe injects high-pressure water into the C-shaped pipe, so that the flow rate of tailing slurry in the C-shaped pipe and the discharge pipe is improved, and the C-shaped pipe and the discharge pipe are prevented from being blocked; the C-shaped pipe is connected with each slurry discharge pipe, after the tailing slurry enters the C-shaped pipe, the distance between the slurry discharge pipes flowing into the C-shaped pipe from the C-shaped pipe does not have a 90-degree elbow, the reduction of the flow speed is small in the process of turning the tailing slurry, and the tailing slurry can be effectively prevented from being blocked.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a sectional view a-a of fig. 1.

In the figure: overflow tower 1, arrange thick liquid pipe 2, C venturi tube 3, arrange material pipe 4, tail row pump 5, washing pipe 6, flange 7.

The specific implementation mode is as follows:

as shown in fig. 1 and 2, the overflow tower tail row system comprises a plurality of slurry discharge pipes 2 communicated with the bottom of an overflow tower 1, wherein each slurry discharge pipe 2 is communicated with the top of a horizontally arranged C-shaped pipe 3, and two end parts of the C-shaped pipe 3 are plugged; the middle part of the C-shaped pipe 3 is connected with an inlet of a tail discharge pump 5 through a discharge pipe 4, and the slurry discharge pipes 2 are uniformly distributed on two sides of the discharge pipe 4;

a plurality of washing pipes 6 are fixedly communicated with the C-shaped pipe 3 along the tangential direction of the C-shaped pipe 3, the end part of the washing pipe 6 connected with the C-shaped pipe 3 points to the flow direction of tailing slurry, the tailing slurry in the overflow tower 1 enters the C-shaped pipe 3 from the slurry discharge pipe 2, and under the action of the tail discharge pump 5, the tailing slurry in the C-shaped pipe 3 enters the discharge pipe 4 and is discharged into a tailing pond; the flushing pipe 6 is connected with the high-pressure water pump, and after workers find that the discharge capacity of the tail discharge pump 5 is reduced, the flushing pipe 6 injects high-pressure water into the C-shaped pipe 3, so that the flow rate of tailing slurry in the C-shaped pipe 3 and the discharge pipe 4 is improved, and the C-shaped pipe 3 and the discharge pipe 4 are prevented from being blocked; the C-shaped pipe 3 is connected with each slurry discharge pipe 2, after the tailing slurry enters the C-shaped pipe 3, the distance between the slurry discharge pipes 4 flowing from the C-shaped pipe 3 does not have a 90-degree elbow, the reduction of the flow speed is small in the process of turning the tailing slurry, and the tailing slurry can be effectively prevented from being blocked.

The tail discharge pump comprises two tail discharge pumps 5, two discharge pipes 4 are connected to the middle of a C-shaped pipe 3, each discharge pipe 4 is connected with the corresponding inlet of the tail discharge pump 5, the two tail discharge pumps 5 can be used alternately, one use and one standby are achieved, the tail discharge pumps can be used together, the discharge speed of tailing slurry is increased, and the production efficiency is improved.

Two tip of C venturi tube 3 all pass through the shutoff of flange 7, make things convenient for the inside maintenance of C venturi tube 3, are blockked up the back at C venturi tube 3 by the foreign matter simultaneously, open flange 7 and dredge.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an overflow tower tail row system which characterized in that: the device comprises a plurality of slurry discharge pipes communicated with the bottom of an overflow tower, wherein each slurry discharge pipe is communicated with the top of a horizontally arranged C-shaped pipe, and two end parts of the C-shaped pipe are plugged; the middle part of the C-shaped pipe is connected with an inlet of a tail discharge pump through a discharge pipe, and the pulp discharge pipes are uniformly distributed on two sides of the discharge pipe;

2. The overflow tower tail drain system of claim 1, wherein: the tail discharge pump is characterized by comprising two tail discharge pumps, wherein the middle part of the C-shaped pipe is connected with two discharge pipes, and each discharge pipe is respectively connected with the corresponding inlet of the tail discharge pump.

3. An overflow tower tailing drain system according to any one of claims 1 or 2, wherein: and two end parts of the C-shaped pipe are plugged by flanges.