CN218902198U - Explosion-proof electromagnetic iron remover for mine - Google Patents

Abstract

The utility model provides a mining flame proof formula electromagnetism de-ironing separator, relates to de-ironing separator technical field, including hanging the frame, hang the fixed electromagnetism de-ironing separator main part that is equipped with in the frame, hang the frame in the horizontal rotation be equipped with the self-discharging belt of cladding electromagnetism de-ironing separator main part, the feed direction of self-discharging belt and the feed direction of transportation belt follow overlook the angle looks perpendicular setting, enclose on the self-discharging belt and be equipped with the scraper blade, hang the frame in the articulated export board that has unloading, the export board that unloads is located the transportation end of self-discharging belt. The utility model solves the problem that the iron remover in the prior art influences the removal efficiency of the scrap iron at the bottom because part of scrap iron is buried at the bottom of the coal material in a pressing way when the coal material is conveyed in the belt conveying process; and when the existing iron remover is used for discharging scrap iron, the iron remover is limited by different heights of the material receiving boxes, so that the discharging height of the iron remover is inconvenient to adjust, and the problem of the application range is reduced.

Description

Explosion-proof electromagnetic iron remover for mine

Technical Field

The utility model relates to the technical field of iron removers, in particular to a mining explosion-proof electromagnetic iron remover.

Background

In the actual production process, various electromagnetic iron removers are applied to material iron removal. The electromagnetic iron remover is electromagnetic equipment for removing iron parts in bulk non-magnetic materials, is widely applied to industries such as garbage classification, cement, thermal power generation, metallurgy, mine, coal and the like, and is generally arranged at the head or the middle of a belt conveyor. The powerful magnetic force generated by electrifying the iron-discharging belt throws the iron-discharging belt out after sucking up the iron parts mixed in the materials, thereby achieving the purpose of automatic cleaning.

The utility model discloses a patent of publication number CN214320509U among the prior art, this scheme includes the de-ironing separator body, the middle part of body is provided with the electro-magnet, the outside of electro-magnet is provided with unloads the iron conveyer belt, it rotates through the drive arrangement drive that sets up to unload the iron conveyer belt, it is provided with the (mixing) shaft to unload the downside of iron conveyer belt, the rotatable frame that penetrates in the body setting in the both ends of (mixing) shaft, the one end of (mixing) shaft is provided with the turbine, the upper portion meshing of turbine has the worm, the coaxial gyro wheel that is provided with in both ends of worm, gyro wheel and the roll fit that unloads the iron conveyer belt. The stirring shaft is arranged at the lower side of the iron unloading conveyor belt of the electromagnetic iron remover, and the stirring shaft continuously overturns iron-containing materials at the lower part of the electromagnet through worm and gear transmission.

The prior device gradually exposes the defects of the technology along with the use, and the prior device mainly comprises the following aspects:

first, current de-ironing separator is when carrying the coal material in carrying the belt, because some iron fillings can be pressed and buried in the coal material bottom for the efficiency of getting rid of to bottom iron fillings has been influenced.

Secondly, when unloading iron filings, the existing iron remover is limited by different heights of the material receiving boxes, so that the unloading height of the iron remover is inconvenient to adjust, and the application range is reduced.

In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model solves the problem that the iron remover in the prior art influences the removal efficiency of the scrap iron at the bottom because part of scrap iron is buried at the bottom of the coal during the transportation of the coal in the belt transportation; and when the existing iron remover is used for discharging scrap iron, the iron remover is limited by different heights of the material receiving boxes, so that the discharging height of the iron remover is inconvenient to adjust, and the problem of the application range is reduced.

In order to solve the problems, the utility model provides the following technical scheme:

the mining flameproof electromagnetic iron remover comprises a hanging rack, an electromagnetic iron remover main body is fixedly arranged on the hanging rack, a self-discharging belt which is used for coating the electromagnetic iron remover main body is horizontally and rotatably arranged on the hanging rack, the feeding direction of the self-discharging belt is perpendicular to the feeding direction of a conveying belt along a overlooking angle,

the self-discharging belt is provided with a scraping plate around,

the suspension frame is hinged with a discharge guide plate which is positioned at the conveying tail end of the self-discharging belt,

and one side of the suspension frame, which is positioned in the feeding direction of the conveying belt, is horizontally provided with a plurality of vertically arranged material stirring assemblies in parallel.

As an optimized scheme, the stirring assembly comprises a vertical pipe, and a stirring rod is arranged at the lower end part of the vertical pipe in a sliding manner along the vertical direction.

As an optimized scheme, the outer wall of the vertical pipe close to the lower end part is connected with a lower stop knob in a threaded manner, and the tail end of the lower stop knob is propped against the side wall of the material stirring rod.

As an optimized scheme, two side plates are fixedly connected on the suspension frame in parallel along the transverse direction, a supporting square rod is horizontally fixedly connected between the two side plates, a sliding seat corresponding to each vertical pipe is sleeved on the supporting square rod in a sliding manner, and the upper end part of each vertical pipe is fixedly connected on the lower end part of the sliding seat.

As an optimized scheme, an upper stop knob is connected to the outer wall of the sliding seat in a threaded manner, and the tail end of the upper stop knob abuts against the side wall of the supporting square rod.

As an optimized scheme, two vertical plates are fixedly connected on the suspension frame in parallel along the longitudinal direction, and opposite side walls of the unloading guide-out plate at the hinged end are hinged on the two vertical plates through rotating shafts respectively.

As an optimized scheme, the upper surface edge of the discharging guide-out plate is fixedly connected with a positioning plate, the positioning plate surrounds the rotating shaft and is provided with a plurality of positioning grooves, the vertical plate is connected with a positioning knob in a threaded manner, and the tail end of the positioning knob abuts against one of the positioning grooves.

As an optimized scheme, the lower end part of the suspension frame is provided with two lower guide rollers in parallel rotation along the transverse direction, the upper end part of the suspension frame is provided with two upper guide rollers in parallel rotation along the transverse direction, and the self-discharging belt is supported and installed by the lower guide rollers and the upper guide rollers.

As an optimized scheme, the distance between the two upper guide rollers is smaller than the distance between the two lower guide rollers.

As an optimized scheme, the upper end part of the suspension frame is fixedly connected with an explosion-proof motor, and the output end of the explosion-proof motor is in belt transmission connection with the end part of one of the lower guide rollers.

Compared with the prior art, the utility model has the beneficial effects that:

through the swing arrangement of the discharging guide plate, the swing height of the discharging guide plate can be adjusted according to the height of the material receiving box, discharging of different heights is realized, and the application range is increased;

the stirring component is arranged on one side of the hanging rack, facing the conveying belt, so that stirring and material dredging can be realized on the materials on the conveying belt, scrap iron pressed at the bottom of the coal material is removed, and the scrap iron removing efficiency is improved;

the material stirring assemblies can be horizontally and vertically slidably adjusted, so that the adjustment according to the width and the depth of the material layer is realized, and the application range is increased.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the present utility model.

In the figure: 1-hanging a rack; 2-an electromagnetic iron remover main body; 3-a self-discharging belt; 4-scraping plates; 5-a lower guide roller; 6-an upper guide roller; 7-an explosion-proof motor; 8-a vertical pipe; 9, a stirring rod; 10-lower stop knob; 11-upper stop knob; 12-a slide; 13-supporting square rods; 14-side plates; 15-vertical plates; 16-a discharging guide plate; 17-positioning plates; 18-rotating shaft; 19-positioning grooves; 20-positioning knob.

Detailed Description

Embodiments of the technical scheme of the present utility model will be described in detail below with reference to the accompanying drawings. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and thus are merely examples, and are not intended to limit the scope of the present utility model.

As shown in fig. 1, the mining flameproof electromagnetic iron remover comprises a hanging rack 1, an electromagnetic iron remover main body 2 is fixedly arranged on the hanging rack 1, a self-discharging belt 3 which covers the electromagnetic iron remover main body 2 is horizontally and rotatably arranged on the hanging rack 1, the feeding direction of the self-discharging belt 3 is perpendicular to the feeding direction of a conveying belt along a overlook angle,

the working principle of the electromagnetic iron remover main body 2 belongs to common daily use, and is not an innovation of the scheme, so that a detailed description is omitted.

A scraping plate 4 is arranged on the upper periphery of the self-discharging belt 3,

the suspension frame 1 is hinged with a discharge guide plate 16, the discharge guide plate 16 is positioned at the conveying end of the self-discharging belt 3,

one side of the hanging rack 1 in the feeding direction of the conveying belt is horizontally provided with a plurality of vertically arranged material stirring assemblies in parallel.

The stirring assembly comprises a vertical pipe 8, and a stirring rod 9 is arranged at the lower end part of the vertical pipe 8 in a vertical sliding manner.

The outer wall of the vertical pipe 8 close to the lower end part is connected with a lower stop knob 10 in a threaded manner, and the tail end of the lower stop knob 10 is propped against the side wall of the stirring rod 9.

Two side plates 14 are fixedly connected on the suspension frame 1 in parallel along the transverse direction, a supporting square rod 13 is horizontally fixedly connected between the two side plates 14, a sliding seat 12 corresponding to each vertical pipe 8 is sleeved on the supporting square rod 13 in a sliding manner, and the upper end part of each vertical pipe 8 is fixedly connected on the lower end part of the sliding seat 12.

An upper stop knob 11 is connected to the outer wall of the sliding seat 12 in a threaded manner, and the tail end of the upper stop knob 11 abuts against the side wall of the supporting square rod 13.

Two vertical plates 15 are fixedly connected on the suspension frame 1 in parallel along the longitudinal direction, and opposite side walls of the unloading guide-out plate 16 at the hinged end are hinged on the two vertical plates 15 through rotating shafts 18 respectively.

The upper surface border rigid coupling of unloading derivation board 16 has locating plate 17, and locating plate 17 has offered a plurality of constant head tank 19 around pivot 18, and threaded connection has positioning knob 20 on the riser 15, and the end of positioning knob 20 offsets with one of them constant head tank 19.

The lower end part of the suspension frame 1 is provided with two lower guide rollers 5 in parallel rotation along the transverse direction, the upper end part of the suspension frame 1 is provided with two upper guide rollers 6 in parallel rotation along the transverse direction, and the self-discharging belt 3 is supported and installed by the lower guide rollers 5 and the upper guide rollers 6.

The distance between the two upper guide rollers 6 is smaller than the distance between the two lower guide rollers 5.

The upper end part of the suspension frame 1 is fixedly connected with an explosion-proof motor 7, and the output end of the explosion-proof motor 7 is in belt transmission connection with the end part of one of the lower guide rollers 5.

The working principle of the device is as follows:

the material is transported through the transport belt, the suspension frame 1 is suspended above the transport belt, the iron filings are adsorbed onto the self-discharging belt 3 by utilizing the magnetic force of the electromagnetic iron remover main body 2, and when the self-discharging belt 3 moves to an area outside the electromagnetic iron remover main body 2 along with the rotation of the self-discharging belt 3, the iron filings lose suction and fall onto the discharging guide plate 16, so that centralized guide is realized;

through the swing arrangement of the discharge guide plate 16, the swing height of the discharge guide plate 16 can be adjusted according to the height of the material receiving box, so that the discharge of different heights is realized, and the application range is increased;

the stirring and discharging of the materials on the conveying belt can be realized by arranging the stirring components in parallel on one side of the hanging rack 1, which faces to the conveying belt, so that scrap iron pressed at the bottom of the coal is removed, and the scrap iron removing efficiency is improved;

the material stirring assemblies can be horizontally and vertically slidably adjusted, so that the adjustment according to the width and the depth of the material layer is realized, and the application range is increased.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model, and are intended to be included within the scope of the appended claims and description.

Claims (10)

1. The mining flameproof electromagnetic iron remover is characterized in that: comprises a hanging rack (1), wherein an electromagnetic iron remover main body (2) is fixedly arranged on the hanging rack (1), a self-discharging belt (3) for coating the electromagnetic iron remover main body (2) is horizontally and rotatably arranged on the hanging rack (1), the feeding direction of the self-discharging belt (3) is perpendicular to the feeding direction of a conveying belt along a overlooking angle,

a scraping plate (4) is arranged on the upper periphery of the self-discharging belt (3),

the suspension frame (1) is hinged with a discharge guide plate (16), the discharge guide plate (16) is positioned at the conveying end of the self-discharging belt (3),

one side of the hanging rack (1) in the feeding direction of the conveying belt is horizontally provided with a plurality of vertically arranged material stirring assemblies in parallel.

2. The mining explosion-proof electromagnetic iron remover according to claim 1, wherein: the stirring assembly comprises a vertical pipe (8), and a stirring rod (9) is arranged at the lower end part of the vertical pipe (8) in a vertical sliding manner.

3. The mining explosion-proof electromagnetic iron remover according to claim 2, wherein: the outer wall of the vertical pipe (8) close to the lower end part is connected with a lower stop knob (10) in a threaded manner, and the tail end of the lower stop knob (10) is propped against the side wall of the stirring rod (9).

4. A mining flameproof electromagnetic iron remover according to claim 3, wherein: two side plates (14) are fixedly connected on the suspension frame (1) in parallel along the transverse direction, a supporting square rod (13) is horizontally fixedly connected between the two side plates (14), a sliding seat (12) corresponding to each vertical pipe (8) is sleeved on the supporting square rod (13) in a sliding manner, and the upper end part of each vertical pipe (8) is fixedly connected on the lower end part of each sliding seat (12).

5. The mining explosion-proof electromagnetic iron remover according to claim 4, wherein: an upper stop knob (11) is connected to the outer wall of the sliding seat (12) in a threaded mode, and the tail end of the upper stop knob (11) abuts against the side wall of the supporting square rod (13).

6. The mining explosion-proof electromagnetic iron remover according to claim 5, wherein: two vertical plates (15) are fixedly connected on the suspension frame (1) in parallel along the longitudinal direction, and opposite side walls of the unloading guide-out plate (16) at the hinged ends are hinged on the two vertical plates (15) through rotating shafts (18) respectively.

7. The mining explosion-proof electromagnetic iron remover according to claim 6, wherein: the upper surface border rigid coupling of derivation board (16) of unloading has locating plate (17), locating plate (17) are around a plurality of constant head tank (19) have been seted up in pivot (18), threaded connection has positioning knob (20) on riser (15), the end of positioning knob (20) offsets with one of them constant head tank (19).

8. The mining explosion-proof electromagnetic iron remover according to claim 7, wherein: the lower end of the suspension frame (1) is provided with two lower guide rollers (5) in parallel rotation along the transverse direction, the upper end of the suspension frame (1) is provided with two upper guide rollers (6) in parallel rotation along the transverse direction, and the self-discharging belt (3) is supported and installed by the lower guide rollers (5) and the upper guide rollers (6).

9. The mining explosion-proof electromagnetic iron remover according to claim 8, wherein: the distance between the two upper guide rollers (6) is smaller than the distance between the two lower guide rollers (5).

10. The mining explosion-proof electromagnetic iron remover according to claim 9, wherein: the upper end part of the suspension frame (1) is fixedly connected with an explosion-proof motor (7), and the output end of the explosion-proof motor (7) is in belt transmission connection with the end part of one of the lower guide rollers (5).

Images