RU2295391C1 - Magnetic separator - Google Patents

Abstract

FIELD: magnetic separation of solid materials; separation of ferromagnetic inclusions, for example steel and/or cast-iron chips from sausage meat, scoria and biological fodder in meat-processing industry or from non-ferrous metals in mining industry.

SUBSTANCE: proposed separator includes two crossing belt conveyers located one under other and provided with drive drum and tension drum, magnetic system in form of fixed magnet located between belt runs of upper conveyer in zone of crossing of conveyers and magnetic units in drive drum of lower conveyer, conveyer belt jigging unit which is made in form of camshafts located between its runs, feeder and separated product receivers. Mounted additionally below lower run of lower conveyer is brush for removal of ferromagnetic particles which is pressed to conveyer belt at level of far wall of ferromagnetic inclusion receiver which is made in form of shaft revolving in the direction opposite to motion of conveyer belt brought in contact with it. Brush shaft rotation drive is kinematically linked with drive drum of lower conveyer which is provided with toothed harrow whose teeth are pressed to conveyer belt. Toothed harrow tooth points embrace outer side of belt over arc of circle on drive drum. Toothed harrow performs reciprocating motion perpendicularly relative to conveyer belt motion. Mounted above upper run of lower conveyer between upper conveyer and feeder at level of separation product leveling is zigzag scraper; sides of this scraper and its center top are directed towards motion of belt.

EFFECT: improved quality of separation of ferromagnetic inclusions.

5 cl, 3 dwg

Description

The invention relates to the technology of magnetic separation of solid materials from the separated substance and can be used to separate ferromagnetic inclusions, for example steel and / or cast iron shavings, from minced meat, pulp and biological feed in the meat processing industry or from non-ferrous metals in the mining industry.

A known magnetic separator, including two mutually crossed belt conveyors located one above the other with drive and tension drums, a magnetic system in the form of a fixed magnet located between the branches of the belt of the upper conveyor in the zone of intersection of conveyors and magnetic blocks in the drive drum of the lower conveyor, a device for shaking the conveyor belt carrying the product, made in the form of cam rollers and placed between its branches, the feeder and receivers of the products section tions. (USSR author's certificate No. 688230. Magnetic separator. - MPK2: B 03 С 1/20. - Bull. No. 36 dated 09/30/79). This invention is taken as a prototype.

A disadvantage of the known magnetic separator, adopted as a prototype, is the low quality of separation of ferromagnetic inclusions, in particular, particles of fine steel and / or cast iron chips, which adhere to the conveyor belt and remain in the carrier product.

The main task, to the solution of which the claimed invention is directed, is to improve the quality of separation of ferromagnetic inclusions from separation products.

The technical result achieved by the implementation of the proposed technical solution is to improve the quality of separation of ferromagnetic inclusions from separation products.

The specified technical result is achieved by the fact that in the known magnetic separator comprising two belt conveyors perpendicular to each other with drive and tension drums, a magnetic system located between the branches of the belt of the upper conveyor in the zone of intersection of the conveyors and in the drive drum of the lower conveyor, a device for shaking the tape carrying the product, made in the form of cam rollers and placed between the branches of the belt of the lower conveyor, the feeder and receivers of products according to the proposed technical solution, a tooth harrow is mounted above the drive drum of the lower conveyor, pressed by the tops of the teeth to the conveyor belt, the tops of the teeth of which are located to cover the outer side of the conveyor belt along a circular arc on the drive drum, and the harrow is made with the possibility of reciprocating movements perpendicular the direction of movement of the conveyor belt, and a brush is additionally installed on the bottom of the tape of the lower branch of the lower conveyor to remove ferromagnetic inclusions presses the bristles to the conveyor belt at the receiver ferromagnetic inclusions wall;

the brush is made in the form of a roller rotated in the opposite direction to the movement of the conveyor belt in contact with it;

the brush roller rotation drive has a kinematic connection with the drive drum of the lower conveyor;

a scraper is installed above the upper branch of the lower conveyor between the upper conveyor and the feeder at the level of alignment of the separation product;

the scraper is made in a zigzag shape on the width of the belt of the lower conveyor with the location of the extreme sides and the middle tip of the scraper in the direction of movement of the tape.

The analysis of the prior art cited by the applicant made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed magnetic separator. Therefore, the claimed technical solution meets the condition of patentability "novelty."

The search results for known solutions in the art in order to identify features that match the distinctive features of the prototype of the features of the claimed technical solution have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solution on the achievement of the specified technical result is not known. Therefore, the claimed technical solution meets the condition of patentability "inventive step".

In Fig.1 shows a General view in plan of the proposed magnetic separator, Fig.2 is a side view of the upper conveyor, Fig.3 is a side view of the lower conveyor.

The magnetic separator contains two mutually intersecting belt conveyors 1 and 2 located one below the other with drive drums 3 and 4. The tension drums 5 and 6 provide tension to the branches of the belts 7 and 8 of the conveyors 1 and 2. (FIG. 1). On the tape 8 of the upper conveyor 2, partitions 9 are fixed, which ensure the displacement of the ferromagnetic inclusions from the separation product to the receiver 10 located under the lower branch of the belt 8. In the zone of crossing the conveyors between the branches of the belt 8 of the upper conveyor 2, a fixed magnet 11 is installed, and under the upper branch of the tape 7 lower conveyor 1 - device 12 for shaking the tape 7 with the separation product, made in the form of cam rollers 13. (Figure 2). The shaking device 12 is driven by a chain drive 14 from the drive drum 3 of the lower conveyor 1, inside which a set of magnetic blocks 15 is installed. A feeder 16 is installed above the upper branch of the belt 7 of the lower conveyor 1, and receivers 17 and 18 are located under the lower branch of the belt 7 separation products. From the bottom of the tape 7 of the lower branch of the lower conveyor 1, a brush 19 is additionally installed to remove particles of ferromagnetic inclusions from the tape 7, pressed to the tape by bristles 20 at the level of the far wall of the receiver 18 of particles of ferromagnetic inclusions, which is made in the form of a roller rotated in the opposite direction to the contact her tape 7. The drive rotation of the brush roller 19 has a kinematic connection 21 with the drive drum 3 of the lower conveyor 1. Above the magnetic drum 3 is mounted a tooth harrow 22, pressed against the tape 7 peaks the teeth 23, which are located with the outer side of the tape 7 on the magnetic drum 3. The harrow 22 is made with the possibility of reciprocating movements perpendicular to the direction of movement of the tape 7. Above the upper branch of the tape 7 of the lower conveyor 1 behind the feeder 16 before the lower branch of the tape 8 of the upper conveyor 2, a scraper 24 is installed for aligning the separation product at a height h, which is made in a zigzag shape on the width of the belt of the lower conveyor with the location of the extreme sides 25 and 26 and the middle top 27 of the scraper 24 navs rechu direction of the belt 7 (Figure 3).

Magnetic separator operates as follows.

The mixed crushed product with ferromagnetic inclusions is fed by a feeder 16 to the tape 7 of the lower conveyor 1, which is aligned with a scraper 24 on the width of the tape 7 with a layer of height h and moves to the zone of the magnetic field created by the stationary magnet 11 of the upper conveyor 2. Installed under the loaded upper branch of the tape 7 of the lower the conveyor 1, the shaking device 12, driven by the drive drum 3, act on the tape 7 from the bottom with cam rollers, shake the product layer by tossing it up, with bschaya ferromagnetic inclusions certain initial speed and by the magnetic field generated by the stationary magnet 11, ferromagnetic inclusions from the upper layer are attracted towards the moving bottom branch of belt 8 upper conveyor 2, which contributes to a more efficient separation of the mixed product. Drawn by the magnetic field of the stationary magnet 11 to the lower branch of the tape 8 of the upper conveyor 2, the ferromagnetic inclusions are displaced from the magnetic field by means of the baffles 9, where they freely fall into the receiver 10. The product remaining on the upper branch of the tape 7 of the lower conveyor 1 moves to the zone of the drive drum 3 with magnetic blocks 15, where it is finally separated. For this, the product layer is loosened by the reciprocating movements of the harrow 22 perpendicular to the direction of movement of the belt 7 of the conveyor 1, pressed by the tops of the teeth 23 to the belt 7 with its outer side covering the drive drum 3 of the conveyor 1, and the ferromagnetic inclusions are attracted by the magnetic field of the magnetic drum 3 to the moving belt 7, while the purified product along the path of the tape 7 is unloaded into the receiver 17, and the ferromagnetic inclusions attracted to the moving tape 7 under the influence of the magnetic field of the drum 3 p move down the conveyor 1, where when leaving the magnetic field fall into the receiver 18, and adhering small particles of ferromagnetic inclusions are swept away by a rotating brush 19, driven by the drive drum 3.

Claims (5)

1. Magnetic separator, containing two mutually intersecting belt conveyors located one below the other with drive and tension drums, a magnetic system in the form of a fixed magnet located between the branches of the belt of the upper conveyor in the crossing zone of the conveyors, and magnetic blocks in the drive drum of the lower conveyor, a shaking device conveyor belts carrying the product, made in the form of cam rollers and placed between its branches, the feeder and receivers of separation products, characterized in that a tooth harrow is mounted above the drive drum of the lower conveyor, pressed by the tops of the teeth to the conveyor belt, the tops of the teeth of which are located to cover the outer side of the conveyor belt along a circular arc on the drive drum, the harrow being made with the possibility of reciprocating movements perpendicular to the direction of movement of the belt the conveyor, and a brush is additionally installed on the bottom of the tape of the lower branch of the lower conveyor to remove particles of ferromagnetic inclusions; bristles to the conveyor belt at the receiver ferromagnetic inclusions wall. 2. The magnetic separator according to claim 1, characterized in that the brush is made in the form of a roller rotated in the direction opposite to the movement of the conveyor belt in contact with it. 3. The magnetic separator according to claim 2, characterized in that the rotation drive of the brush roller has a kinematic connection with the drive drum of the lower conveyor. 4. The magnetic separator according to claim 1, characterized in that a scraper is installed above the upper branch of the lower conveyor between the upper conveyor and the feeder at the level of alignment of the separation product. 5. The magnetic separator according to claim 4, characterized in that the scraper is made in a zigzag shape on the width of the belt of the lower conveyor with the location of the extreme sides and the middle top of the scraper in the direction of movement of the tape.

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