CN220678169U - Deironing device for deironing of mine aggregate processing production line - Google Patents

Abstract

The utility model provides an iron removing device for mine aggregate processing production line, wherein a mine aggregate conveyor is arranged in a conveyor gallery, an iron remover body is arranged at the top of the conveyor gallery, an electromagnet is arranged in the iron remover body, the iron remover body is positioned above the mine aggregate conveyor, a feeding interval within the magnetic force range of the electromagnet is arranged between the iron remover body and the electromagnet, a rotary belt is arranged on the iron remover body in a driving manner, the rotary belt is wrapped outside the electromagnet, and an iron collector guide chute is arranged in a region separated from the magnetic force range of the electromagnet in the iron remover body. According to the utility model, through the attraction effect of the electromagnet on iron and iron ware materials, after the iron and iron ware material belts are moved to the magnetic force range of the electromagnet, the iron ware can drop to the iron ware collecting guide chute through the conveying effect of the rotary belt, so that the recovery of the iron ware on the mine aggregate processing production line can be completed, and the safe operation of key equipment on the production line is ensured.

Description

Deironing device for deironing of mine aggregate processing production line

Technical Field

The utility model relates to the technical field of iron removal of mine aggregate processing production lines, in particular to an iron removal device for iron removal of a mine aggregate processing production line.

Background

The mine aggregate processing mainly utilizes a crusher to crush and process large stones mined in a mining area into stones with smaller particles and sand with smaller particle sizes, namely products such as machine-made sand and the like. The crusher is mainly used in the mine aggregate processing process, so that whether the crusher runs safely and reliably directly determines the productivity and efficiency of mine sand aggregate processing. The crusher can crush mine aggregate stones with different hardness, but can not be used for iron products possibly falling on a conveyor belt in the production process, and is a great threat to the crusher, once iron products enter the crusher, the crusher is damaged inside by a light crusher, and the crusher is blocked and paralyzed by a heavy crusher, so that the operation of crusher equipment and the productivity of an aggregate processing system are seriously affected.

Disclosure of Invention

The utility model aims to provide an iron removing device capable of removing iron with high efficiency and guaranteeing the safety of an aggregate processing production line.

For this purpose, the utility model adopts the following technical scheme:

the utility model provides an deironing device for deironing of mine aggregate processing line sets up mine aggregate conveyer in the conveyer corridor, the top of conveyer corridor is provided with the de-ironing separator body, this internal electro-magnet that is provided with of de-ironing separator, de-ironing separator body are located mine aggregate conveyer's top, have the pay-off interval in electro-magnet magnetic force within range between the two, the drive is provided with rotatory belt on the de-ironing separator body, and rotatory belt parcel sets up outside the electro-magnet, the de-ironing separator body is in breaking away from the regional baffle box that collects of iron separator that sets up of electro-magnet magnetic force within range, and the collection end that the baffle box was collected to the iron separator sets up in rotatory belt's below.

Further: the iron remover body is provided with iron remover hubs in a rotating mode around the electromagnets, the iron remover hubs are connected with the rotating belt, and magnetic separation intervals are arranged between the iron remover hubs and the electromagnets.

Further: the iron remover hub is provided with a driving motor in power connection with the iron remover hub.

Further: the conveying direction of the rotary belt is consistent with the conveying direction of the mine aggregate conveyor.

Further: and a hanging piece is connected between the iron remover body and the top of the conveyor gallery.

Further: the iron device collecting guide chute is arranged above the mine aggregate conveyor in a transverse direction, and the output end of the iron device collecting guide chute passes through the mine aggregate conveyor.

Further: the iron device collecting guide chute is obliquely arranged inside so that the iron device can be conveyed.

Further: an iron collector bucket for receiving an iron collector guide chute is arranged in the conveyor gallery.

Further: the mine aggregate conveyor comprises a conveyor support frame, a conveyor hub and a conveyor motor are arranged on the conveyor support frame at intervals, and a conveyor belt is arranged on the conveyor hub and a conveyor motor driving wheel together so as to convey mine aggregates.

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

according to the utility model, through the attraction effect of the electromagnet on iron and iron ware materials, after the iron and iron ware material belts are moved to the magnetic force range of the electromagnet, the iron ware can drop to the iron ware collecting guide chute through the conveying effect of the rotary belt, so that the recovery of the iron ware on the mine aggregate processing production line can be completed, and the safe operation of key equipment on the production line is ensured. The utility model can save space, ensure the safety of aggregate processing production lines by efficiently removing iron, reduce the maintenance rate of equipment on the production lines and save manpower.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic view of the structure of the iron remover body of the present utility model;

fig. 3 is a schematic side view of the present utility model.

The marks in the drawings are: 1-driving motor, 2-electromagnet, 3-rotating belt, 4-hanger, 5-iron remover hub, 6-iron remover body, 7-conveyor belt, 8-conveyor hub, 9-conveyor support frame, 10-conveyor motor, 11-conveyor gallery, 12-iron collector chute, 13-iron collector barrel.

Detailed Description

The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.

As shown in fig. 1-3, an iron removing device for iron removal of a mine aggregate processing production line is characterized in that a mine aggregate conveyor is arranged in a conveyor gallery 11, an iron remover body 6 is arranged at the top of the conveyor gallery 11, an electromagnet 2 is arranged in the iron remover body 6, the iron remover body 6 is positioned above the mine aggregate conveyor, a feeding interval within the magnetic force range of the electromagnet 2 is arranged between the iron remover body 6 and the iron remover body, a rotary belt 3 is arranged on the iron remover body 6 in a driving manner, the rotary belt 3 is wrapped outside the electromagnet 2, an iron remover collecting guide groove 12 is arranged in a region separated from the magnetic force range of the electromagnet 2, and a collecting end of the iron remover collecting guide groove 12 is arranged below the rotary belt 3.

Specifically, the iron remover body 6 rotates around the electromagnet 2 and is provided with an iron remover hub 5, the iron remover hub 5 is connected with the rotary belt 3, and a magnetic separation interval is arranged between the iron remover hub 5 and the electromagnet 2. In this embodiment, the iron remover hub 5 sets up four, two liang symmetries set up in electro-magnet 2 top and both sides, and the iron remover hub 5 diameter that is located electro-magnet 2 top is less than the iron remover hub 5 diameter that is located electro-magnet 2 both sides, and the iron remover hub 5 bottom height position that is located electro-magnet 2 both sides is slightly higher than with the bottom surface height of electro-magnet 2 to iron, iron ware material pass through the adsorption effect of electro-magnet 2 better, and be difficult for dropping during the absorption.

Wherein, be provided with on the de-ironing separator wheel hub 5 with de-ironing separator wheel hub 5 power connection's driving motor 1, driving motor 1 can be directly connected with one of them de-ironing separator wheel hub 5, also accessible band pulley connection and do the power transmission. It is preferable that the conveying direction of the rotary belt 3 driven by the driving motor 1 is opposite to the conveying direction of the conveyor belt 7, and the iron collector chute 12 is provided in the advancing direction of the conveying of the rotary belt 3.

Wherein the conveying direction of the rotary belt 3 is consistent with the conveying direction of the mine aggregate conveyor so as to further increase the adsorption action range of the electromagnet 2 and the materials conveyed on the conveyor belt 7.

Specifically, a hanger 4 is connected and arranged between the iron remover body 6 and the top of the conveyor gallery 11, so that the iron remover body 6 is lifted and arranged right above the conveyor belt 7 of the mine aggregate conveyor.

Specifically, the iron collector collecting guide chute 12 is arranged above the mine aggregate conveyor in a transverse direction, and the output end of the iron collector collecting guide chute passes through the mine aggregate conveyor to avoid collision between the iron collector collecting guide chute 12 and the mine aggregate on the conveyor belt 7, so that normal conveying of the mine aggregate is influenced.

Specifically, the inside of the iron collector guide chute 12 is inclined so as to convey the iron, and an iron collector barrel 13 for receiving the iron collector guide chute 12 is arranged in the conveyor gallery 11. In this embodiment, the iron device collecting guide chute 12 is made of non-magnetic engineering plastic materials, and the iron device collecting guide chute 12 is internally provided with a guide rail with a certain inclination, so that the iron device can fall into the iron device collecting barrel 13 through the inclined guide rail, thereby completing the collecting operation.

As shown in fig. 1, the mine aggregate conveyor specifically includes a conveyor support frame 9, a conveyor hub 8 and a conveyor motor 10 are disposed on the conveyor support frame 9 at intervals, and a conveyor belt 7 is disposed on driving wheels of the conveyor hub 8 and the conveyor motor 10 together so as to convey the mine aggregate.

Referring to fig. 1-3, when the iron removing device removes iron from the mine aggregate processing production line, the concrete method is as follows:

crushed stone aggregate mined from mines is operated by a conveyor motor 10 to drive a conveyor belt 7 on a conveyor hub 8 to convey materials, an electromagnet 2 is electrified to convert electric energy into electromagnetic energy, the electromagnetic energy is magnetic and can adsorb iron ware materials, the iron ware materials are driven by the conveyor motor 10 to convey the conveyor belt 7, when the crushed stone aggregate is conveyed to the lower part of an iron remover body 6, the crushed stone aggregate is adsorbed on a rotating belt 3 by the electromagnet 2 on the iron remover body 6, when the iron ware moves along with the rotating belt 3 to a magnetic range separated from the electromagnet 2, the iron ware falls into an iron ware collecting guide chute 12, and the iron ware can automatically fall into an iron ware collecting barrel 13 through the inclined iron ware collecting guide chute 12, so that the collection of the iron ware materials in the crushed stone aggregate is completed.

The above embodiment is only one preferred technical solution of the present utility model, and it should be understood by those skilled in the art that modifications and substitutions can be made to the technical solution or parameters in the embodiment without departing from the principle and essence of the present utility model, and all the modifications and substitutions are covered in the protection scope of the present utility model.

Claims (9)

1. The utility model provides a mine aggregate processing line deironing device for deironing which characterized in that: set up mine aggregate conveyer in conveyer corridor (11), the top of conveyer corridor (11) is provided with iron remover body (6), be provided with electro-magnet (2) in iron remover body (6), iron remover body (6) are located mine aggregate conveyer's top, have the pay-off interval in electro-magnet (2) magnetic force within range between the two, the drive is provided with rotary belt (3) on iron remover body (6), and rotary belt (3) parcel sets up in electro-magnet (2) outside, iron remover body (6) are breaking away from electro-magnet (2) magnetic force within range and are set up iron ware collection baffle box (12), and the collection end of iron ware collection baffle box (12) sets up in rotary belt (3) below.

2. The deironing device for deironing in a mine aggregate processing line according to claim 1, wherein: the iron remover body (6) is characterized in that iron remover hubs (5) are rotatably arranged around the electromagnets (2), the iron remover hubs (5) are connected with the rotating belt (3), and magnetic separation intervals are arranged between the iron remover hubs (5) and the electromagnets (2).

3. The deironing device for deironing in a mine aggregate processing line according to claim 2, wherein: the iron remover hub (5) is provided with a driving motor (1) which is in power connection with the iron remover hub (5).

4. The deironing device for deironing in a mine aggregate processing line according to claim 1 or 2, characterized in that: the conveying direction of the rotary belt (3) is consistent with the conveying direction of the mine aggregate conveyor.

5. The deironing device for deironing in a mine aggregate processing line according to claim 1, wherein: a hanging piece (4) is connected between the iron remover body (6) and the top of the conveyor gallery (11).

6. The deironing device for deironing in a mine aggregate processing line according to claim 1, wherein: the iron collector collecting guide chute (12) is arranged above the mine aggregate conveyor in a transverse direction, and the output end of the iron collector collecting guide chute is arranged beyond the mine aggregate conveyor.

7. The deironing device for deironing in a mine aggregate processing line according to claim 1, wherein: the iron collector guide chute (12) is obliquely arranged inside so as to convey the iron.

8. The deironing device for deironing in a mine aggregate processing line according to claim 1 or 7, characterized in that: an iron collector barrel (13) for receiving an iron collector guide chute (12) is arranged in the conveyor gallery (11).

9. The deironing device for deironing in a mine aggregate processing line according to claim 1, wherein: the mine aggregate conveyor comprises a conveyor support frame (9), a conveyor hub (8) and a conveyor motor (10) are arranged on the conveyor support frame (9) at intervals, and a conveyor belt (7) is arranged on the conveyor hub (8) and a conveyor motor (10) driving wheel together so as to convey mine aggregates.