CN219943020U - Automatic deironing reducing mechanism is used to mineral processing equipment - Google Patents

Abstract

The utility model discloses an automatic iron removal and crushing device for mineral separation equipment, and relates to the technical field of mineral separation equipment. This mineral processing equipment is with automatic deironing reducing mechanism, the power distribution box comprises a box body, deironing mechanism, reducing mechanism and supplementary unloading mechanism, deironing mechanism sets up on the box, reducing mechanism mainly used smashes the mineral material raw materials, supplementary unloading mechanism sets up on the box, supplementary unloading mechanism is used for transporting the mineral material raw materials after smashing, through pivot three, the permanent magnet, belt three, belt pulley three, the garbage collection fill, the waste pipe, belt four and belt pulley four's cooperation is used, carry out deironing processing at the in-process of mineral material raw materials transportation after the breakage to the discharging pipe, discharge ferromagnetic substance simultaneously, can realize lasting deironing effect, deironing efficiency can not reduce along with live time increases, deironing efficiency has been improved.

Description

Automatic deironing reducing mechanism is used to mineral processing equipment

Technical Field

The utility model relates to the technical field of mineral separation equipment, in particular to an automatic iron removal and crushing device for mineral separation equipment.

Background

The utility model discloses a CN209968621U, which relates to the technical field of mineral processing equipment, in particular to an automatic iron removal and crushing device for mineral processing equipment, comprising a box body, a lifting device, a crushing device, a filter plate, a suction bottom frame, a suction plate and a discharge pipe.

However, when the above-mentioned device is used for removing iron, ferromagnetic substances are adsorbed on the iron plate, and the iron plate to which the ferromagnetic substances are adsorbed is reduced in iron removal efficiency, which results in a reduction in iron removal efficiency of the device when the device is used for a long time.

Disclosure of Invention

The utility model aims to provide an automatic iron removal crushing device for mineral processing equipment, which can solve the problem that the iron removal efficiency gradually decreases when the device is used for a long time.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic deironing reducing mechanism for mineral processing equipment, the power distribution box comprises a box body, deironing mechanism, reducing mechanism and supplementary unloading mechanism, the discharge gate has been seted up to one side of box, discharge gate department fixed mounting has the discharging pipe, deironing mechanism sets up on the box, deironing mechanism is including the permanent magnet, the inner wall fixed mounting of box has the permanent magnet, reducing mechanism sets up on the box, reducing mechanism is including pivot one, install pivot one in the rear side rotation of box, the outside that the box extended to the box is run through to one end of pivot one, reducing mechanism mainly used smashes the ore material, supplementary unloading mechanism sets up on the box, supplementary unloading mechanism is including pivot two, two sets of pivots two central lines are on same horizontal plane and keep parallelism in the rear side rotation of box, the one end of two sets of pivots two all runs through the box and extends to the outside of box, supplementary unloading mechanism is used for transporting the ore material after smashing.

Preferably, the iron removing mechanism further comprises a rotating shaft III, a belt pulley III, a waste collection hopper, a waste material pipe, a belt IV and a belt pulley IV, wherein the rear side of the box body is rotationally provided with two groups of rotating shafts III, the center lines of the two groups of rotating shafts III are on the same horizontal plane and are kept parallel, the outer walls of the two groups of rotating shafts III are fixedly provided with one group of belt pulleys III, the two groups of belt pulleys III are positioned in the box body, the two groups of belt pulleys III are sleeved with the belt III, the two groups of belt pulleys three are in transmission connection through the belt III, the belt III is fixedly provided with at least two groups of baffles, the permanent magnet is positioned between the two groups of belt pulleys III, the inner wall of the box body is fixedly connected with the waste collection hopper, the bottom of the waste material pipe is fixedly provided with the waste material pipe, one end of the waste material pipe penetrates through the box body and extends to the outside of the box body, one end of the waste material pipe is provided with a knob cover, the outer wall of the first rotating shaft is fixedly provided with one group of belt pulley IV, the outer wall of the first group of belt pulley IV is fixedly provided with the other group of belt pulley IV, the two groups of belt pulleys IV are positioned at the rear side of the box body, the two groups of belt pulley IV are sleeved with the belt IV, the belt IV is connected with the belt V-shaped through the belt IV, the inner side of the waste pipe is fixedly connected with the waste knob.

Preferably, the crushing mechanism further comprises a crushing groove, a rotary table, rotary rods, crushing hammers, striking plates, a first belt and a first belt pulley, the crushing groove is fixedly arranged in the box body, two groups of striking plates are fixedly arranged on the inner wall of the crushing groove, the rotary table is fixedly arranged on the outer wall of the first rotary shaft, the rotary table is positioned in the crushing groove, four groups of rotary rods are fixedly arranged on the outer wall of the rotary table, one group of crushing hammers are fixedly arranged on each group of rotary rods, at least two groups of screening holes are formed in the bottom of the crushing groove, one group of first belt pulleys are fixedly arranged on the outer wall of the second rotary shaft, the other group of first belt pulleys are fixedly arranged on the outer wall of the first rotary shaft, one group of first belt pulleys are positioned on the front side of the fourth belt pulleys, the two groups of first belt pulleys are both positioned on the rear side of the box body, the first belt pulleys are sleeved on the first belt pulleys, and the first belt pulleys are in transmission connection through the first belt.

Preferably, the auxiliary blanking mechanism further comprises a belt II, a belt pulley II, a motor and a mounting plate, wherein a group of belt pulleys II are fixedly mounted on the outer walls of the two groups of rotating shafts II, the two groups of belt pulleys II are located in the box body, the belt pulleys II are sleeved on the two groups of belt pulleys II and are in transmission connection through the belt II, the mounting plate is fixedly mounted on the rear side of the box body, the motor is fixedly mounted on the top of the mounting plate, and the rotating shafts of the motor are in transmission connection with one ends of the group of rotating shafts II.

Preferably, an electromagnet is fixedly arranged on the inner wall of the box body and is positioned between the two groups of belt pulleys II.

Preferably, a feeding hole is formed in the top of the box body, and a feeding pipe is fixedly arranged at the feeding hole.

Preferably, the rear side of the box body is provided with a waste port, the waste port is hinged with a door, the rear side of the box body is provided with a waste box, the waste box is positioned below the waste pipe and the door, and the waste box is provided with a discharge pipe.

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

(1) This mineral processing equipment is with automatic deironing reducing mechanism, through the cooperation use of pivot three, permanent magnet, belt three, belt pulley three, waste collection fill, useless material pipe, belt four and belt pulley four, transport the in-process of discharging pipe at the mineral material raw materials after the breakage and carry out deironing processing, discharge ferromagnetic substance simultaneously, can realize lasting deironing's effect, deironing efficiency can not reduce along with live time increases, has improved deironing's efficiency.

(2) This automatic deironing reducing mechanism for mineral processing equipment, through smashing groove, pivot one, carousel, bull stick, crushing hammer, striking board, belt one and the cooperation of belt pulley one use, can carry out crushing treatment to the ore material raw materials, through the cooperation of pivot two, belt pulley two, motor and mounting panel use can transport the ore material raw materials after smashing to the auxiliary unloading of discharging pipe department, improve the efficiency of unloading, use through the electro-magnet and can carry out preliminary deironing treatment to the ore material raw materials after the breakage at belt two, preliminary improvement ore material raw materials's purity after the breakage.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a cross-sectional view of the present utility model;

FIG. 2 is a rear view of the present utility model;

fig. 3 is a top view of the present utility model.

Reference numerals: 1. a case; 2. a crushing mechanism; 201. a pulverizing tank; 202. a first rotating shaft; 203. a turntable; 204. a rotating rod; 205. a crushing hammer; 206. a striking plate; 207. a first belt; 208. a first belt pulley; 3. an auxiliary blanking mechanism; 301. a second rotating shaft; 302. a second belt; 303. a belt pulley II; 304. a motor; 305. a mounting plate; 4. an electromagnet; 5. a door; 6. a discharge pipe; 7. an iron removing mechanism; 701. a third rotating shaft; 702. a permanent magnet; 703. a third belt; 704. a belt pulley III; 705. a waste collection hopper; 706. a waste material pipe; 707. a belt IV; 708. a belt pulley IV; 8. a feed pipe; 9. and (5) a waste bin.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides an automatic deironing reducing mechanism for mineral processing equipment, including box 1, deironing mechanism 7, reducing mechanism 2 and supplementary unloading mechanism 3, the discharge gate has been seted up to one side of box 1, discharge gate department fixed mounting has discharging pipe 6, deironing mechanism 7 sets up on box 1, deironing mechanism 7 is including permanent magnet 702, the inner wall fixed mounting of box 1 has permanent magnet 702, reducing mechanism 2 sets up on box 1, reducing mechanism 2 is including pivot one 202, the pivot one 202 is installed in the rear side rotation of box 1, the outside that box 1 extends to box 1 is run through to one end of pivot one 202, reducing mechanism 2 mainly used smashes the mineral material raw materials, supplementary unloading mechanism 3 sets up on box 1, supplementary unloading mechanism 3 is including pivot two 301, box 1's rear side rotation is installed two sets of pivots two 301, two sets of pivots two 301 central lines are on same horizontal plane and keep parallel, box 1 is all run through to box 1's outside, supplementary unloading mechanism 3 is used for transporting the mineral material after smashing.

The iron removing mechanism 7 further comprises a rotating shaft III 701, a belt III 703, belt pulleys III 704, a waste collection hopper 705, a waste material pipe 706, a belt IV 707 and a belt pulley IV 708, wherein two groups of rotating shafts III 701 are rotatably arranged at the rear side of the box body 1, the central lines of the two groups of rotating shafts III 701 are on the same horizontal plane and are kept parallel, a group of belt pulleys III 704 are fixedly arranged on the outer walls of the two groups of rotating shafts III 701, the two groups of belt pulleys III 704 are positioned in the box body 1, the two groups of belt pulleys III 704 are sleeved with the belt III 703, the two groups of belt pulleys III 704 are in transmission connection through the belt III 703, at least two groups of baffles are fixedly arranged on the belt III 703, the permanent magnet 702 is positioned between the two groups of belt pulleys III 704, the waste collection hopper 705 is fixedly connected to the inner wall of the box body 1, the waste material pipe 706 is fixedly arranged at the bottom of the waste material pipe 706, one end of the waste material pipe 706 extends to the outside of the box body 1 in a penetrating way, one end of the waste pipe 706 is provided with a knob cover, the outer wall of the rotating shaft I202 is fixedly provided with a group of belt pulleys IV 708, the outer wall of the rotating shaft III 701 is fixedly provided with another group of belt pulleys IV 708, the two groups of belt pulleys IV 708 are positioned at the rear side of the box body 1, the two groups of belt pulleys IV 708 are sleeved with a belt IV 707, the two groups of belt pulleys IV 708 are in transmission connection through the belt IV 707, and the waste pipe I701, the permanent magnet 702, the belt III 703, the belt IV 704, the waste collecting hopper 705, the waste pipe 706, the belt IV 707 and the belt IV 708 are matched for use, iron removal treatment is carried out in the process of conveying crushed mineral raw materials to the discharging pipe 6, meanwhile, ferromagnetic substances are discharged, the continuous iron removal effect can be realized, the iron removal efficiency is not reduced along with the increase of the service time, and the iron removal efficiency is improved.

The crushing mechanism 2 further comprises a crushing groove 201, a rotary disc 203, a rotary rod 204, crushing hammers 205, striking plates 206, a first belt 207 and a first belt pulley 208, wherein the crushing groove 201 is fixedly installed in the box 1, two groups of striking plates 206 are fixedly installed on the inner wall of the crushing groove 201, the rotary disc 203 is fixedly installed on the outer wall of the first rotary shaft 202, the rotary disc 203 is located in the crushing groove 201, four groups of rotary rods 204 are fixedly installed on the outer wall of the rotary disc 203, one group of crushing hammers 205 are fixedly installed on each group of rotary rods 204, at least two groups of screening holes are formed in the bottom of the crushing groove 201, one group of belt pulleys 208 are fixedly installed on the outer wall of the second rotary shaft 301, the other group of belt pulleys 208 are fixedly installed on the outer wall of the first rotary shaft 202, one group of belt pulleys 208 are located on the front side of the fourth belt pulley 708, the two groups of belt pulleys 208 are all located on the rear side of the box 1, the first belt pulleys 207 are sleeved on the first belt pulley 208, the first belt pulleys 208 are in transmission connection through the belt pulleys 207, and the crushing groove 201, the first rotary shaft 202, the rotary disc 203, the rotary rod 204, the first belt 208 and the first belt 208 are matched with the first belt 208.

The auxiliary blanking mechanism 3 further comprises a belt II 302, a belt pulley II 303, a motor 304 and a mounting plate 305, wherein a group of belt pulleys II 303 are fixedly arranged on the outer walls of the two groups of rotating shafts II 301, the two groups of belt pulleys II 303 are positioned in the box body 1, the belt pulleys II 303 are sleeved on the two groups of belt pulleys II 303, the two groups of belt pulleys II 303 are in transmission connection through the belt II 302, the mounting plate 305 is fixedly arranged on the rear side of the box body 1, the motor 304 is fixedly arranged on the top of the mounting plate 305, the rotating shaft of the motor 304 is in transmission connection with one end of the group of rotating shafts II 301, and crushed mineral raw materials can be transported to the discharging pipe 6 for auxiliary blanking through the cooperation of the rotating shafts II 301, the belt II 302, the belt pulleys II, the motor 304 and the mounting plate 305, so that the blanking efficiency is improved.

The inner wall fixed mounting of box 1 has electro-magnet 4, and electro-magnet 4 is located between two sets of belt pulleys two 303, uses through electro-magnet 4 and can carry out preliminary deironing processing at belt two 302 to the ore material raw materials after the breakage, preliminary improvement ore material raw materials's after the breakage purity.

The top of the box body 1 is provided with a feed inlet, and a feed pipe 8 is fixedly arranged at the feed inlet.

The rear side of the box body 1 is provided with a waste port, a door 5 is hinged at the waste port, a waste box 9 is placed at the rear side of the box body 1, the waste box 9 is positioned below the waste pipe 706 and the door 5, and a discharge pipe is arranged on the waste box 9.

Working principle: opening a knob cover on the feeding pipe 8, adding mineral raw materials into the crushing groove 201, simultaneously starting a motor 304, enabling the motor 304 to rotate to drive a rotating shaft II 301 to rotate, enabling the rotating shaft II 301 to rotate to drive a group of belt pulleys I208 and a group of rotating shaft II 301 to rotate, enabling a group of belt pulleys I208 to rotate to drive another group of belt pulleys I208 to rotate through a belt I207, enabling the other group of belt pulleys I208 to rotate to drive the crushing groove 201 to rotate, enabling the crushing groove 201 to rotate to drive a group of belt pulleys IV 708 and a rotary table 203 to rotate, enabling the rotary table 203 to rotate to drive a rotary table 204, enabling the rotary table 204 to rotate to drive a crushing hammer 205 to rotate, enabling the crushing hammer 205 to crush the mineral raw materials in the crushing groove 201, enabling the crushed mineral raw materials to fall onto a belt II 302 through screening holes at the bottom of the crushing groove 201, enabling an electromagnet 4 to absorb ferromagnetic substances on the belt II 302, meanwhile, the group of rotating shafts II 301 rotate to drive the belt II 302 to move through the belt pulley II 303, the belt II 302 moves to drive the crushed mineral raw materials to move towards the discharging pipe 6, when the crushed mineral raw materials move to the lower part of the permanent magnet 702, the permanent magnet 702 adsorbs the ferromagnetic substances in the crushed mineral raw materials to be removed at the bottom of the belt III 703, meanwhile, the group of belt pulleys IV 708 drive the group of rotating shafts III 701 to rotate, the group of rotating shafts III 701 drive the group of belt pulleys III 704 to rotate, the group of belt pulleys III 704 drive the belt III 703 to move in a way of matching with the other group of belt pulleys III 704, the belt III 703 drives the baffle plate on the belt III 703 to move, the baffle plate moves to drive the ferromagnetic substances on the belt III 703 to move towards the waste collecting hopper 705, the ferromagnetic substances fall into the waste collecting hopper 705 when moving out of the influence range of the permanent magnet 702, then the iron-removed mineral raw materials are collected through the discharging pipe 6, ferromagnetic substances in the waste collection hopper 705 are discharged into the waste box 9 through the waste pipe 706, after crushing is finished, the motor 304 is turned off, the door 5 is opened, and the ferromagnetic substances adsorbed by the electromagnet 4 on the belt II 302 are collected into the waste box 9 through the door 5.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims (7)

1. Automatic deironing reducing mechanism for mineral processing equipment, its characterized in that includes:

the device comprises a box body (1), wherein a discharge hole is formed in one side of the box body (1), and a discharge pipe (6) is fixedly arranged at the discharge hole;

the iron removing mechanism (7), the iron removing mechanism (7) is arranged on the box body (1), the iron removing mechanism (7) comprises a permanent magnet (702), and the permanent magnet (702) is fixedly arranged on the inner wall of the box body (1);

the crushing mechanism (2) is arranged on the box body (1), the crushing mechanism (2) comprises a first rotating shaft (202), the first rotating shaft (202) is rotatably arranged at the rear side of the box body (1), one end of the first rotating shaft (202) penetrates through the box body (1) and extends to the outside of the box body (1), and the crushing mechanism (2) is mainly used for crushing mineral raw materials;

the auxiliary blanking mechanism (3), the auxiliary blanking mechanism (3) is arranged on the box body (1), the auxiliary blanking mechanism (3) comprises a second rotating shaft (301), two groups of second rotating shafts (301) are rotatably arranged on the rear side of the box body (1), the center lines of the two groups of second rotating shafts (301) are on the same horizontal plane and are kept parallel, one ends of the two groups of second rotating shafts (301) penetrate through the box body (1) and extend to the outside of the box body (1), and the auxiliary blanking mechanism (3) is used for transporting crushed mineral raw materials.

2. An automatic deironing reducing mechanism for mineral processing apparatus as defined in claim 1, wherein: the iron removing mechanism (7) further comprises a rotating shaft III (701), a belt III (703), belt pulleys III (704), a waste collecting hopper (705), a waste pipe (706), a belt IV (707) and a belt pulley IV (708), wherein two groups of rotating shafts III (701) are rotatably arranged at the rear side of the box body (1), the center lines of the two groups of rotating shafts III (701) are on the same horizontal plane and are kept parallel, a group of belt pulleys III (704) are fixedly arranged on the outer wall of the two groups of rotating shafts III (701), the two groups of belt pulleys III (704) are positioned in the box body (1), the belt III (703) is sleeved with the belt III (703), the two groups of belt pulleys III (704) are in transmission connection through the belt III (703), at least two groups of baffles are fixedly arranged on the belt III (703), the permanent magnet (702) is positioned between the two groups of belt pulleys III (704), the inner wall of the box body (1) is fixedly connected with the waste collecting hopper (705), the bottom of the waste collecting hopper (705) is fixedly arranged, one end of the waste pipe (706) extends to the outside the box body (1) through the box body (1), one end of the waste pipe (706) is fixedly arranged on the outer wall of the box body (202), one end of the other group of the waste pipe (708) is fixedly arranged on the outer wall of the other group of the waste pipe (708), the two groups of belt pulleys IV (708) are positioned at the rear side of the box body (1), the two groups of belt pulleys IV (708) are sleeved with a belt IV (707), and the two groups of belt pulleys IV (708) are in transmission connection through the belt IV (707).

3. An automatic deironing reducing mechanism for mineral processing apparatus as defined in claim 2, wherein: the utility model discloses a grinding mechanism, grinding mechanism (2) is including smashing groove (201), carousel (203), bull stick (204), smash hammer (205), strike board (206), belt one (207) and belt pulley one (208), the inside fixed mounting of box (1) has smashing groove (201), fixed mounting has two sets of strike boards (206) on the inner wall of smashing groove (201), fixed mounting has carousel (203) on the outer wall of pivot one (202), carousel (203) are located the inside of smashing groove (201), the outer wall fixed mounting of carousel (203) has four bull sticks (204), fixed mounting has a set of smashing hammer (205) on every bull stick (204), the screening hole of two sets at least, the outer wall fixed mounting of a set of belt pulley one (208) of pivot two (301), the outer wall fixed mounting of pivot one (202) has another set of belt pulley one (208), a set of belt pulley one (208) are located the front side of belt pulley four (708), the rear side of belt pulley one (208) that all is located box (1), be equipped with one set of belt pulley (207) on two sets of belt pulleys one (208), connect two sets of belt (207).

4. An automatic deironing reducing mechanism for mineral processing apparatus as defined in claim 3, wherein: the auxiliary blanking mechanism (3) further comprises a belt II (302), a belt pulley II (303), a motor (304) and a mounting plate (305), wherein the outer walls of the two groups of rotating shafts II (301) are fixedly provided with a group of belt pulleys II (303), the two groups of belt pulleys II (303) are located in the box body (1), the belt pulleys II (303) are sleeved on the two groups of belt pulleys II (303), the two groups of belt pulleys II (303) are in transmission connection through the belt II (302), the rear side of the box body (1) is fixedly provided with the mounting plate (305), the top of the mounting plate (305) is fixedly provided with the motor (304), and the rotating shaft of the motor (304) is in transmission connection with one end of the group of rotating shafts II (301).

5. An automatic deironing reducing mechanism for mineral processing apparatus as defined in claim 4, wherein: an electromagnet (4) is fixedly arranged on the inner wall of the box body (1), and the electromagnet (4) is positioned between the two groups of belt pulleys (303).

6. The automatic iron removal and crushing device for mineral processing equipment according to claim 5, wherein: the top of box (1) has seted up the feed inlet, and feed inlet department fixed mounting has inlet pipe (8).

7. The automatic iron removal and crushing device for mineral processing equipment according to claim 6, wherein: the rear side of box (1) has seted up the waste material mouth, and door (5) are installed in the articulated department of waste material mouth, and waste material case (9) have been placed to the rear side of box (1), and waste material case (9) are located the below of waste material pipe (706) and door (5), are provided with row material pipe on waste material case (9).