CN213349280U - Continuous full-automatic powder iron remover - Google Patents

Abstract

The utility model relates to the technical field of iron removal, in particular to a continuous full-automatic powder iron remover, which comprises an operation platform, an iron removal part and a material distribution bin, wherein the iron removal part and the material distribution bin are arranged inside the operation platform, a feed inlet is arranged on the operation platform, a driving device for driving the iron removal part and the material distribution bin to move in a stretching way is also arranged inside the operation platform, the iron removal part comprises a fixed support, a plurality of magnetic bars are vertically connected onto the fixed support, and the magnetic bars are arranged in a layer and at least divided into two layers; the material distribution bin comprises a bin body, the upper part of the bin body is communicated with the feed inlet, two partition plates are arranged in the bin body, the partition plates divide the material distribution bin into three chambers, the chambers on two sides are chip removal chambers, the chamber in the middle is a filter chamber, through holes for magnetic rods to pass through are formed in the opposite side walls of the bin body and the partition plates, the magnetic rods are divided into two sections of magnetic areas and three sections of non-magnetic areas, and the magnetic areas and the non-magnetic areas are arranged at intervals, so that scrap iron can be more easily scraped to fall into the chip removal chambers; the guide plate makes the raw material evenly distributed and guided to the first layer of magnetic rods.

Description

Continuous full-automatic powder iron remover

The technical field is as follows:

the utility model relates to a deironing technical field especially relates to full-automatic powder magnetic separator de-ironing of continuous type.

Background art:

the iron remover is also called a magnetic separator. The magnetic separator is generally used for non-metal concentration, namely, the magnetic separator is used for removing iron and other magnetic substances in raw materials and is commonly used in the industries of ceramics, mining, chemical industry, grinding and the like. At present, the existing powder iron remover is driven in a pneumatic mode and generally comprises at least two layers of magnetic rods, wherein accessories such as an air cylinder, an air circuit, a pressure reducing valve, an oil-water separator and the like need to be installed on each layer, the connection is complex, an air compressor needs to be arranged to realize the action of each part, and meanwhile, the air cylinder is low in service life, easy to leak air and hydraulic oil and large in noise. The requirements of energy conservation and environmental protection cannot be met, the sealing element is complex and is not easy to repair and reuse, and the control precision of the cylinder is poor, so that the strong magnetic rod of the core component is easy to damage under the action of drawing; when the iron removal action is carried out, the layering action is needed, the complexity of the structure is increased, when one layer is carried out to withdraw the iron filings, the turning times of the raw materials are reduced, the iron removal efficiency is reduced, and the magnetic rod is completely magnetic, so that the iron filings cannot be scraped off to form accumulated residues, and the iron filings are easy to fall into the raw materials again; raw and other materials directly wholly pour into the working bin in, cause raw and other materials dispersion inhomogeneous, leave the space between the bar magnet of first layer, have some raw and other materials direct and bar magnet contact, another part then leaks into second layer bar magnet in the space, has reduced the effect of removing iron fillings.

The utility model has the following contents:

in order to solve the technical problem, the utility model provides a full-automatic powder magnetic separator de-ironing of continuous type, the technical problem of solution is: part of scrap iron can not be scraped off to form accumulated residue, and the accumulated residue is easy to fall into the raw materials again; each layer of magnetic rod operates in a layering way, so that the complexity of the structure is increased, and when one layer of magnetic rods recovers scrap iron, the turning times of raw materials are reduced, and the iron removal efficiency is reduced; the raw materials are unevenly dispersed after being poured into the working bin, and part of the raw materials leak into the second layer of magnetic rods between the first layer of magnetic rods; in order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

full-automatic powder magnetic separator de-ironing of continuous type, including operation platform, deironing portion and branch feed bin set up inside operation platform, and it has the feed inlet to open on the operation platform, and operation platform inside still is provided with and is used for driving deironing portion and divides the drive arrangement that the feed bin carries out flexible activity, its characterized in that: the iron removing part comprises a fixed support, a plurality of magnetic rods are vertically connected to the fixed support, and the magnetic rods are arranged in a layered manner and are divided into at least two layers; the material distribution bin comprises a bin body, the upper part of the bin body is communicated with a feed inlet, two partition plates are arranged in the bin body, the partition plates divide the material distribution bin into three chambers, the chambers on two sides are chip removal chambers, the chamber in the middle is a filter chamber, through holes for magnetic rods to pass through are formed in the opposite side walls of the bin body and the partition plates, the magnetic rods are divided into two sections of magnetic areas and three sections of non-magnetic areas, and the magnetic areas and the non-magnetic areas are arranged at intervals.

Further, the length of the magnetic area is equal to the width of the filter cavity.

Furthermore, an inverted V-shaped guide plate is arranged between the two partition plates above the magnetic rods, and the guide plate and the magnetic rod on the uppermost layer are arranged in a staggered mode.

Furthermore, the magnetic rod is divided into 2 layers, and the layers are arranged in a mutual dislocation mode.

Furthermore, the magnetic rod is divided into 3 layers, and the layers are arranged in a mutual dislocation mode.

Furthermore, outlets are formed in the lower portions of the chip removing cavity and the filtering cavity.

Furthermore, a tetrafluoro sealing ferrule is arranged at a through hole on the bin body, and the through hole on the partition board can pass through a magnetic rod attached with a magnetic substance.

Further, a feed hopper is arranged at the feed inlet.

Furthermore, the driving device is two sets of servo electric cylinders which are symmetrically arranged, and the driving device is also provided with a PLC control module which is electrically connected with the servo electric cylinders.

The utility model has the advantages that: the scrap iron can be conveniently scraped in the scrap removing cavity through the arrangement of the magnetic area and the non-magnetic area at intervals; through the arrangement of the guide plate, the raw materials are uniformly dispersed and guided to the first layer of magnetic bars and are fully contacted, so that the scrap iron is more easily adsorbed on the surfaces of the magnetic bars; drive arrangement passes through the drive fixed bolster and drives the bar magnet and stretch out and draw back jointly, no matter stretch out or retract, and the partly work in filtering the storehouse all the time of bar magnet has realized whole continuous operation, has simplified overall structure promptly, does not reduce the number of turns over of raw and other materials again, can full-automatic deironing, convenient operation, the deironing effect is showing, follows the work efficiency of improvement deironing to a certain extent.

Description of the drawings:

FIG. 1 is a schematic view of the overall structure of the utility model;

FIG. 2 is a schematic view of the connection structure of the iron removing part and the driving device of the present invention;

fig. 3 is a schematic view of the structure of the magnetic rod of the present invention.

In the figure: 1. the device comprises an operation platform, 2 parts of a fixed support, 3 parts of a magnetic rod, 3 parts of a magnetic area, 3 parts of a non-magnetic area, 4 parts of a bin body, 5 parts of a partition plate, 6 parts of a guide plate, 7 parts of a servo electric cylinder, 8 parts of a chip removing cavity, 9 parts of a filter cavity, 10 parts of a tetrafluoro sealing ring, 11 parts of a feeding hopper, 12 parts of a feeding hole.

The specific implementation mode is as follows:

in order to make the purpose, technical solution and advantages of the present invention clearer, the present invention will now be described in further detail with reference to fig. 1, fig. 2 and examples so that the public can better master the method of implementing the present invention, and the specific embodiments of the present invention are:

as shown in fig. 1-3, the utility model discloses a full-automatic powder magnetic separator de-ironing of continuous type, including operation platform 1, deironing portion and branch feed bin set up inside operation platform 1, and operation platform 1 is gone up to open has feed inlet 12, and operation platform 1 is inside still to be provided with and to be used for driving deironing portion and branch feed bin to carry out the drive arrangement of flexible activity, its characterized in that: the iron removing part comprises a fixed support 2, a plurality of magnetic rods 3 are vertically connected to the fixed support 2, and the magnetic rods 3 are arranged in a layer array and are at least divided into two layers; the material distribution bin comprises a bin body 4, the upper part of the bin body is communicated with a feed inlet 12, two partition plates 5 are arranged inside the bin body 4, the partition plates 5 divide the material distribution bin into three chambers, the chambers on two sides are scrap removal chambers 8, the chamber in the middle is a filter chamber 9, through holes for magnetic rods to pass through are formed in the opposite side walls of the bin body 4 and the partition plates 5, the magnetic rods 3 are divided into two sections with magnetic areas 3-1 and three sections with non-magnetic areas 3-2 which cannot adsorb metal iron, and the magnetic areas 3-1 and the non-magnetic areas 3-2 are arranged at intervals.

The magnetic area 3-1 has the characteristic of a magnet, the non-magnetic area 3-2 does not have the characteristic of a magnet, and through the interval arrangement of the magnetic area 3-1 and the non-magnetic area 3-2, when scrap iron is scraped to the non-magnetic area 3-2, no magnetic force is attracted, and then the scrap iron falls into the scrap removing cavity 8, and the partition plate 5 is arranged to prevent raw materials from entering the scrap removing cavity 8 and prevent the scrap iron from entering the filter cavity 9.

The length of the magnetic area 3-1 is equal to the width of the filter cavity 9. Iron filings can be adsorbed on the magnetic bar 3 in the filter cavity 9.

An inverted V-shaped guide plate 6 is arranged between the two clapboards 5 above the magnetic rods 3, and the guide plate 6 and the magnetic rod 3 on the uppermost layer are arranged in a staggered mode.

Make more even being guided to first layer bar magnet 3 of raw and other materials through setting up guide plate 6 on, prevent that partial raw and other materials from directly leaking to second layer bar magnet 3 on, increase and inhale indisputable bits efficiency.

The magnetic rods 3 are divided into 2 layers or 3 layers, and the layers are arranged in a mutual dislocation mode.

And outlets are formed at the lower parts of the chip removing cavity 8 and the filter cavity 9.

The through hole on the bin body 4 is provided with a tetrafluoro sealing ferrule 10, and the through hole on the partition plate 5 can pass through the magnetic rod 3 attached with magnetic substances. The iron chips can be scraped by the tetrafluoro seal ring 10 to enter the chip removing cavity 8.

A feed hopper 11 is arranged at the feed inlet 12.

The driving device is two sets of servo electric cylinders 7 which are symmetrically arranged, and is also provided with a PLC control module which is electrically connected with the servo electric cylinders 7. The PLC control module is arranged to control the operation time and stroke of the servo electric cylinder 7 through a preset program, so that the iron removing machine can work automatically and continuously.

The utility model discloses a theory of operation and working process as follows:

the utility model discloses full-automatic powder magnetic separator de-ironing of continuous type, when using, at first pour into the raw and other magnetic material's that have iron and other magnetic substance into the feed bin through feeder hopper 11, guide plate 6 evenly guides raw and other materials to on first layer bar magnet 3, raw and other materials and first layer bar magnet 3 fully contact, wherein part iron fillings adsorb on bar magnet 3, the raw and other materials through filtering fall into below on bar magnet 3, repeat above action once more, finally adsorb whole iron fillings on the bar magnet 3 of different layers, raw and other materials fall into filter chamber 9 through the export roll-off; a PLC program is preset to control the operation time and the operation stroke of the servo electric cylinder 7, the magnetic rod 3 is driven by the fixed support 2 to perform rapid telescopic movement in the through hole of the material distribution bin, iron filings are adsorbed on the magnetic area 3-1 on the right side, and when the iron filings extend out, the iron filings are scraped to the non-magnetic area 3-2 by the PTFE sealing ferrule 10 on the right side of the bin body 4 and then fall into the scrap removing cavity 8 on the right side due to no magnetic attraction; when retracting, the iron filings adsorbed by the magnetic area 3-1 on the left side of the magnetic rod 3 are scraped to the non-magnetic area 3-2 by the PTFE sealing ferrule 10 on the left side of the bin body 4, and the scraped iron filings fall into the left side scrap removing cavity 8 and then slide out, so that the separation of raw materials and the iron filings is realized.

In describing the present invention, it should be understood that the terms "center", "upper", "lower", "left", "right", "rear", "lower left", "upper right", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the scope of the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Claims (9)

1. Full-automatic powder magnetic separator de-ironing of continuous type, including operation platform (1), deironing portion and branch feed bin set up inside operation platform (1), and operation platform (1) is gone up to open has feed inlet (12), and operation platform (1) is inside still to be provided with and to be used for driving deironing portion and branch feed bin to carry out the drive arrangement of flexible activity, its characterized in that: the iron removing part comprises a fixed support (2), a plurality of magnetic rods (3) are vertically connected to the fixed support (2), and the magnetic rods (3) are arranged in a layer row and are at least divided into two layers; the material distribution bin comprises a bin body (4), the upper portion of the bin body is communicated with a feed inlet (12), two partition plates (5) are arranged inside the bin body (4), the partition plates (5) divide the material distribution bin into three chambers, the chambers on two sides are scrap removal chambers (8), the chamber in the middle is a filter chamber (9), through holes for magnetic rods to pass through are formed in the opposite side walls of the bin body (4) and the partition plates (5), the magnetic rods (3) are divided into two sections of magnetic areas (3-1) and three sections of non-magnetic areas (3-2), and the magnetic areas (3-1) and the non-magnetic areas (3-2) are arranged at intervals.

2. The continuous full-automatic powder iron remover according to claim 1, characterized in that: the length of the magnetic area (3-1) is equal to the width of the filter cavity (9).

3. The continuous full-automatic powder iron remover according to claim 1, characterized in that: an inverted V-shaped guide plate (6) is arranged between the two clapboards (5) above the magnetic rods (3), and the guide plate (6) and the magnetic rod (3) on the uppermost layer are arranged in a staggered mode.

4. The continuous full-automatic powder iron remover according to claim 1, characterized in that: the magnetic bar (3) is divided into 2 layers which are arranged in a mutual dislocation way.

5. The continuous full-automatic powder iron remover according to claim 1, characterized in that: the magnetic rods (3) are divided into 3 layers, and the layers are arranged in a mutual dislocation mode.

6. The continuous full-automatic powder iron remover according to claim 1, characterized in that: outlets are arranged at the lower parts of the chip removing cavity (8) and the filter cavity (9).

7. The continuous full-automatic powder iron remover according to claim 1, characterized in that: a tetrafluoro sealing ferrule (10) is arranged at a through hole on the bin body (4), and the through hole on the partition plate (5) can pass through a magnetic rod (3) attached with magnetic substances.

8. The continuous full-automatic powder iron remover according to claim 1, characterized in that: and a feed hopper (11) is arranged at the feed inlet (12).

9. The continuous full-automatic powder iron remover according to any one of claims 1-8, characterized in that: the driving device is provided with two sets of servo electric cylinders (7) which are symmetrically arranged, and a PLC control module which is electrically connected with the servo electric cylinders (7).

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