CN210097935U

CN210097935U - Low-energy-consumption high-efficiency ore separator

Info

Publication number: CN210097935U
Application number: CN201920960707.5U
Authority: CN
Inventors: 谭洁; 李茂强; 周力强; 李希山
Original assignee: CHENZHOU MINING INDUSTRY Co Ltd HUNAN
Current assignee: CHENZHOU MINING INDUSTRY Co Ltd HUNAN
Priority date: 2019-06-25
Filing date: 2019-06-25
Publication date: 2020-02-21
Anticipated expiration: 2029-06-25

Abstract

The utility model provides a high-efficient ore separator of low energy consumption, is including dividing the ore deposit section of thick bamboo, the side at branch ore deposit section of thick bamboo wall middle part is equipped with the entry axis and divides the tangent ore feeding pipe of ore deposit section of thick bamboo inner wall, be equipped with agitating unit in the branch ore deposit section of thick bamboo, agitating unit's impeller direction of rotation is unanimous with the ore pulp from the ore feeding pipe entering branch ore deposit section of thick bamboo flow direction, divide on the same horizontal plane of upside of ore deposit section of thick bamboo wall, be higher than the position of ore feeding pipe and evenly lay a plurality of ore pulp exports, this device has the ore pulp stirring load that reduces, avoids sand-water separation and grit heavy groove, ensures that the ore pulp liquid level is stable, the ore pulp is even, reduces equipment field erection height, guarantees to divide the.

Description

Low-energy-consumption high-efficiency ore separator

Technical Field

The utility model relates to a low energy consumption high efficiency ore separator.

Background

The ore separators used at home and abroad are unpowered ore separators, and the principle is that ore pulp is introduced into the middle part of the ore separators from the upper part, the ore pulp is diffused from the middle part to the periphery of the ore separators by utilizing the self-mobility of the ore pulp to realize ore separation, the ore feeding mode is high in requirement (if an ore feeding point is required to be in the center, and the like) by adopting the ore pulp mode, and when the ore pulp is poor in mobility and thick in granularity, the problems of ore deposit, uneven ore separation and the like are easy to occur.

SUMMERY OF THE UTILITY MODEL

The utility model provides a to prior art not enough the utility model provides a reduce ore pulp stirring load, avoid sand-water separation and grit heavy groove, ensure that the ore pulp liquid level is stable, the ore pulp is even, reduce the on-the-spot mounting height of equipment, guarantee to divide the ore deposit even, be convenient for install on-the-spot follow-up connecting tube angular adjustment's of low energy consumption high efficiency ore separator.

The purpose of the utility model is realized by adopting the following technical scheme:

the utility model provides a high-efficient ore separator of low energy consumption, is including dividing an ore section of thick bamboo, the side at branch ore section of thick bamboo wall middle part is equipped with the entry axis and divides the tangent ore feeding pipe of ore section of thick bamboo inner wall, be equipped with agitating unit in the branch ore section of thick bamboo, agitating unit's impeller direction of rotation is unanimous with the ore pulp from the ore feeding pipe entering branch ore section of thick bamboo flow direction in, divide on the same horizontal plane of upside of ore section of thick bamboo wall, evenly lay a plurality of ore pulp exports in the position that is higher than the ore feeding pipe.

Further, the ore separating cylinder is fixed with an ore pulp receiving groove outside the ore pulp outlet in a sealing manner, an inlet of the ore pulp receiving groove is communicated with the ore pulp outlet, an outlet of the ore pulp receiving groove is connected with a next procedure through a flexible connecting pipe, and the horizontal height of the outlet of the ore pulp receiving groove is lower than that of the inlet.

Furthermore, the ratio of the height to the diameter of the ore separating cylinder is 1/2-2/3.

Furthermore, agitating unit is including setting up in the branch ore deposit section of thick bamboo, being close to the impeller of branch ore deposit section of thick bamboo bottom and driving the rotatory agitator motor of impeller through the (mixing) shaft.

Furthermore, the stirring motor is a variable frequency motor adopting variable frequency control.

Furthermore, the bottom of the ore separating cylinder is provided with a seabed hole for discharging ore pulp in the cylinder during parking or maintenance.

Furthermore, the inner wall of the ore separating cylinder, the inner wall of the ore inlet pipe and the inner wall of the ore pulp outlet are lined with wear-resistant and corrosion-resistant material layers.

Due to the adoption of the structure, the utility model has the advantages of as follows:

1. the ore pulp is fed into the ore pulp through the ore feeding pipe along the tangential direction of the ore separating cylinder, the flowing direction of the ore pulp is consistent with that of the ore pulp, and the stirring load of the ore pulp is reduced.

2. The ore pulp entering the ore separator is stirred by the stirring impeller, so that the ore pulp is uniformly distributed in the ore separator, the problems of sand-water separation and sand sink are solved, the rotating speed and the stirring strength of the stirring impeller are adjusted by the stirring motor through controlling the rotating speed of the motor, and the stable liquid level and the uniform ore pulp of the ore pulp are ensured.

3. The ore pulp outlets are uniformly distributed on the upper part of the wall of the ore separation barrel, symmetrically distributed or concentrated on the front half part or uniformly distributed around the front half part and positioned on the same horizontal plane, so that the ore pulp at each outlet is uniformly distributed, and the field installation height of the equipment can be reduced.

4. The ratio of the height of the ore separating cylinder to the diameter of the groove body is 1/2-2/3, so that the ore pulp stirring load in the ore separating device is reduced, and meanwhile, the sufficient stirring and mixing time of the ore pulp in the groove can be ensured.

5. The inner wall of the ore separating cylinder, the ore inlet pipe and the ore pulp outlet are all lined with wear-resistant and corrosion-resistant materials, so that the service life is prolonged.

6. The ore pulp outlet and the outlet of the ore pulp receiving groove have a certain height difference, so that the ore pulp can be timely discharged from the outlet of the ore pulp receiving groove.

7. The outlet of the bearing groove is provided with a wear-resistant hose connecting pipe, so that the angle of a subsequent connecting pipeline on the installation site can be adjusted conveniently.

To sum up, the utility model discloses can reduce ore pulp stirring load, avoid sand-water separation and grit heavy groove, ensure that the ore pulp liquid level is stable, the ore pulp is even, reduce the on-the-spot mounting height of equipment, guarantee that the ore separation is even, the on-the-spot follow-up connecting tube angular adjustment of installation of being convenient for.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

In the figure: 1-a seabed hole; 2-separating the ore cylinder; 3-an ore feeding pipe; 4-stirring shaft support; 5-a stirring motor; 6-a transmission frame; 7-an ore pulp outlet; 8-a pulp receiving tank; 9-an outlet; 10-flexible connecting pipe; 11-a stirring shaft; 12-stirring impeller.

Detailed Description

The following describes an embodiment of a low-energy-consumption high-efficiency ore separator in detail with reference to the accompanying drawings and specific examples.

As shown in fig. 1 and 2, a low-energy-consumption high-efficiency ore separator comprises an ore separating cylinder 2, a seabed hole 1 for deslagging is arranged at the bottom of the ore separating cylinder 2, an ore inlet pipe 3 with an inlet axis tangent to the inner wall of the ore separating cylinder 2 is arranged on the side surface of the middle part of the cylinder wall of the ore separating cylinder 2, a stirring device is arranged on the ore separating cylinder 2, the stirring device comprises a stirring impeller 12 arranged in the ore separating cylinder 2 and close to the bottom of the ore separating cylinder 2 and a stirring motor 5 driving the stirring impeller 12 to rotate through a stirring shaft 11, a transmission device rack 6 is fixed at the top of the ore separating cylinder 2, the stirring motor 5 and a stirring shaft support 4 are fixed on the transmission device rack 6, the stirring shaft 11 is arranged on the stirring shaft support 4 and connected with the stirring motor 5 through a transmission device, the stirring motor 5 is a variable frequency motor adopting variable frequency control, the rotation direction of the stirring impeller 12 of the stirring device is consistent with the flow direction of ore pulp entering the ore separating cylinder 2 from, a plurality of ore pulp outlets 7 are uniformly distributed on the same horizontal plane of the upper side of the cylinder wall of the ore separating cylinder 2 and at positions higher than the ore inlet pipe 3, an ore pulp receiving groove 8 is hermetically fixed on the outer side of each ore pulp outlet 7 of the ore separating cylinder 2, an inlet of the ore pulp receiving groove 8 is communicated with the ore pulp outlet 7, an outlet of the ore pulp receiving groove 8 is connected with a next process through a flexible connecting pipe 10, and the horizontal height of the outlet of the ore pulp receiving groove 8 is lower than that of the inlet.

In the embodiment, the ratio of the height to the diameter of the ore separating cylinder 2 is 1/2-2/3, and the inner wall of the ore separating cylinder 2, the inner wall of the ore inlet pipe 3 and the inner wall of the ore pulp outlet 7 are all lined with wear-resistant and corrosion-resistant material layers.

The foregoing is a preferred embodiment of the present invention, but it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a high-efficient ore separator of low energy consumption, includes ore separating barrel (2), its characterized in that: divide the side at ore deposit section of thick bamboo (2) section of thick bamboo wall middle part to be equipped with entry axis and divide ore deposit section of thick bamboo (2) inner wall tangent ore feeding pipe (3), be equipped with agitating unit in dividing ore deposit section of thick bamboo (2), agitating unit's impeller (12) direction of rotation is unanimous with the ore pulp from ore feeding pipe (3) entering branch ore deposit section of thick bamboo (2) flow direction, divide on the same horizontal plane of upside of ore deposit section of thick bamboo (2) section of thick bamboo wall, evenly lay a plurality of ore pulp exports (7) higher than the position of ore feeding pipe (3).

2. The low energy consumption high efficiency ore separator according to claim 1, characterized in that: divide ore deposit section of thick bamboo (2) every ore pulp export (7) outside seal is fixed with an ore pulp and accepts groove (8), the import and ore pulp export (7) intercommunication of ore pulp accepting groove (8), the export of ore pulp accepting groove (8) is passed through flexible coupling pipe (10) and is connected with next process, the ore pulp accepts the level of export (9) of groove (8) and is less than the level of import.

3. The low energy consumption high efficiency ore separator according to claim 1, characterized in that: the ratio of the height to the diameter of the ore separating cylinder (2) is 1/2-2/3.

4. The low energy consumption high efficiency ore separator according to claim 1, characterized in that: the stirring device comprises a stirring impeller (12) which is arranged in the ore separating cylinder (2) and is close to the bottom of the ore separating cylinder (2) and a stirring motor (5) which drives the stirring impeller (12) to rotate through a stirring shaft (11).

5. The low energy consumption high efficiency ore separator according to claim 4, wherein: the stirring motor (5) is a variable frequency motor adopting variable frequency control.

6. The low energy consumption high efficiency ore separator according to claim 1, characterized in that: the bottom of the ore separating cylinder (2) is provided with a seabed hole (1) for discharging ore pulp in the cylinder during parking or maintenance.

7. The low energy consumption high efficiency ore separator according to claim 1, characterized in that: the inner wall of the ore separating cylinder (2), the inner wall of the ore inlet pipe (3) and the inner wall of the ore pulp outlet (7) are all lined with wear-resistant and corrosion-resistant material layers.