CN215694659U

CN215694659U - Deironing device for mineral processing

Info

Publication number: CN215694659U
Application number: CN202122111789.6U
Authority: CN
Inventors: 芦富国
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-02
Filing date: 2021-09-02
Publication date: 2022-02-01
Anticipated expiration: 2031-09-02

Abstract

The utility model provides a deironing device for mineral processing, the mineral processing field includes: processing apparatus, wash and drench device and breaker, the processing apparatus lower extreme is fixed with processing apparatus, the processing apparatus right-hand member is fixed with breaker, processing apparatus includes: the utility model provides a device for removing iron from ores, which comprises a first shell, a feed inlet, a first motor, a baffle, a rotating shaft, spiral blades, a first support, a first shell hole and a discharge outlet, and is characterized in that the iron is removed manually, so that the working efficiency is accelerated, the iron removing effect is better, and the safety of operators is protected; the device can play a role in dust reduction when removing iron, and prevent the influence of overlarge dust on the environment and personnel during processing; this device can carry out multistage processing to the ore, has further increaseed the effect of deironing.

Description

Deironing device for mineral processing

Technical Field

The utility model belongs to the field of mineral processing, and particularly relates to an iron removal device for mineral processing.

Background

Mineral adds man-hour needs to handle inside iron, and iron can influence the follow-up processing of ore, and current ore processing deironing adopts artifical mode to waste time and energy, and the progress is slow. While the removal of iron from the ore is not complete.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provide an iron removal device for mineral processing.

The utility model realizes the purpose, and adopts the following technical scheme that:

an iron removal device for mineral processing, comprising: processing apparatus, wash and drench device and breaker, the processing apparatus lower extreme is fixed with processing apparatus, the processing apparatus right-hand member is fixed with breaker, processing apparatus includes: the novel spiral feeding device comprises a first shell, a feeding hole, a first motor, a baffle, a rotating shaft, spiral blades, a first support, a first shell hole and a discharging hole, wherein the feeding hole is formed in the upper end of the first shell, the first motor is fixed inside the first shell, the baffle is vertically fixed inside the first shell, the first motor is located at the left end of the baffle, the spiral blades are fixed in the rotating shaft, the first support is vertically fixed inside the first shell, one end of the rotating shaft is rotated to penetrate through the baffle and is fixedly connected with an output shaft of the motor, the other end of the rotating shaft is rotatably connected with one support, the first shell bottom surface is provided with the first shell hole, the first shell hole is formed into a plurality of holes, and the right end of the first shell is provided with the discharging hole.

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

the utility model provides an iron removal device for mineral processing, which can solve the problems in the background art, adopts a manual mode to remove iron from ores, accelerates the working efficiency, has better iron removal effect and protects the safety of operators; the device can play a role in dust reduction when removing iron, and prevent the influence of overlarge dust on the environment and personnel during processing; this device can carry out multistage processing to the ore, has further increaseed the effect of deironing.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a crushing roller assembly

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

An iron removal device for mineral processing, comprising: processing apparatus 1, wash and drench device 2 and breaker 3, processing apparatus 1 lower extreme is fixed with processing apparatus 1, processing apparatus 1 right-hand member is fixed with breaker 3, processing apparatus 1 includes: the device comprises a shell I1-1, a feed inlet 1-2, a motor I1-3, a baffle 1-4, a rotating shaft 1-5, a spiral blade 1-6, a support I1-7, a shell I hole 1-8 and a discharge port 1-9, wherein the feed inlet 1-2 is arranged at the upper end of the shell I1-1, the motor I1-3 is fixed in the shell I1-1, the baffle 1-4 is vertically fixed in the shell I1-1, the motor I1-3 is positioned at the left end of the baffle 1-4, the spiral blade 1-6 is fixed on the rotating shaft 1-5, the support I1-7 is vertically fixed in the shell I1-1, one end of the rotating shaft 1-5 rotatably penetrates through the baffle 1-4 and is fixedly connected with an output shaft of the motor I1-3, the other end of the rotating shaft 1-5 is rotatably connected with the first support 1-7, a plurality of first shell holes 1-8 are formed in the bottom surface of the first shell 1-1, and a discharge hole 1-9 is formed in the right end of the first shell 1-1.

The shower device 2 includes: the water tank 2-1, the electromagnet 2-2, the water outlet 2-3, the sprayer 2-4, the water pump 2-5 and the water pipe 2-6 are fixed at the lower end of the shell 1-1, the water tank 2-1 is arranged above the water tank 2-1, the electromagnet 2-2 is fixedly inserted into the water tank 2-1, the sprayer 2-4 is fixedly inserted into the upper end of the shell 1-1 and is arranged above the spiral blade 1-6, the water pump 2-5 is arranged on the sprayer 2-4, the water outlet 2-3 is arranged on the water tank 2-1, one end of the water pipe 2-6 is fixedly communicated with the water pump 2-5, and the other end of the water pump 2-5 is fixed with the water outlet 2-3.

The crushing device 3 comprises: a second shell 3-1, a crushing barrel 3-2, a second motor 3-3, a second bracket 3-4, a crushing shaft 3-5 and a crushing roller assembly 3-6, wherein one side surface of the second shell 3-1 is fixed with the outer surface of a discharge port 1-9, the crushing barrel 3-2 is horizontally fixed in the second shell 3-1, one end of the crushing barrel 3-2 is fixedly communicated with the discharge port 1-9, the second motor 3-3 is fixed on the other inner side surface of the second shell 3-1, a plurality of crushing barrel holes are formed in the surface of the crushing barrel 3-2, the second bracket 3-4 is vertically fixed in the crushing barrel 3-2, the crushing roller assembly 3-6 is fixed on the crushing shaft 3-5, one end of the crushing shaft 3-5 is rotatably connected with the second bracket 3-4, the other end of the crushing shaft 3-5 rotates to penetrate through the crushing barrel 3-2 and is fixedly connected with an output shaft of the motor II 3-3.

The breaker roller assembly 3-6 includes: the crushing roller 3-6-1, the beating plate 3-6-2, the beating plate holes 3-6-3 and the magnets 3-6-4 are fixed on the crushing shaft 3-5, the beating plates 3-6-2 are vertically fixed on the peripheral side surfaces of the crushing roller 3-6-1, the beating plates 3-6-2 are set to be hollow structures, the beating plate 3-6-2 is provided with the beating plate holes 3-6-3 penetrating through the thickness of the beating plate 3-6-2, the beating plate holes 3-6-3 are set to be multiple, the beating plates 3-6-2 are uniformly distributed along the peripheral side surfaces of the crushing roller 3-6-1, the magnets 3-6-4 are arranged in the beating plates 3-6-2, and is fixed with the crushing roller 3-6-1 by bolts.

The working principle of the utility model is as follows:

the mined ore is put into the shell I1-1 through the feed inlet 1-2, the device is connected with an external power supply, the motor I1-3 is electrified to drive the spiral blade 1-6 to rotate through the rotating shaft 1-5, the baffle plate 1-4 plays a role of protecting the motor I1-3, the spiral blade 1-6 drives the ore to move rightwards, meanwhile, the ore is extruded mutually to play a role of crushing when moving, the water pump 2-5 is electrified to pump out the water in the water tank 2-1 into the sprayer 2-4 through the water pipe 2-6, then the water is sprayed on the ore in the shell I1-1 through the sprayer 2-4, the dust and the iron powder on the surface of the ore or the dust and the iron powder generated during extrusion can be washed to the bottom of the shell I1-1, and then the dust and the iron powder are left back to the water tank 2-1 through a plurality of shell I holes 1-8, the recycling of water is realized, the use of resources is reduced, the dust falling effect is realized, and the discharge of sewage is reduced; the electromagnet 2-2 is electrified to generate magnetism, so that iron powder in water in the water tank 2-1 can be adsorbed, and the iron powder is prevented from flowing back into the shell 1-1 along with water flow when the water is recycled. The spiral blades 1-6 drive ores to move rightwards and move to the crushing barrel 3-2 through the discharge port 1-9, the motor II 3-3 is electrified to drive the crushing roller assembly 3-6 to rotate through the crushing shaft 3-5, the plurality of beating plates 3-6-2 arranged when the crushing roller assembly 3-6 rotates can continuously beat the ores and play a role of stirring the ores at the same time, so that the ores are impacted in the beating process, the crushing time is reduced, and the ores with qualified crushing size can be collected and subsequently used after sliding out through the plurality of crushing barrel holes arranged in the crushing barrel 3-2; the magnets 3-6-4 can suck iron powder to the surface through the plurality of striking plate holes 3-6-3 for collection during crushing, the bolts for fixing the magnets 3-6-4 are detached during regular cleaning, and the magnets 3-6-4 can be taken out for cleaning, so that the influence of excessive adsorbed iron powder on the adsorption effect is prevented.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a deironing device for mineral processing which characterized in that: the method comprises the following steps: processing apparatus (1), wash and drench device (2) and breaker (3), processing apparatus (1) lower extreme is fixed with processing apparatus (1), processing apparatus (1) right-hand member is fixed with breaker (3), processing apparatus (1) includes: the device comprises a first shell (1-1), a feed inlet (1-2), a first motor (1-3), a baffle (1-4), a rotating shaft (1-5), a spiral blade (1-6), a first support (1-7), a first shell hole (1-8) and a discharge port (1-9), wherein the feed inlet (1-2) is formed in the upper end of the first shell (1-1), the first motor (1-3) is fixed in the first shell (1-1), the baffle (1-4) is vertically fixed in the first shell (1-1), the first motor (1-3) is located at the left end of the baffle (1-4), the spiral blade (1-6) is fixed on the rotating shaft (1-5), the first support (1-7) is vertically fixed in the first shell (1-1), one end of the rotating shaft (1-5) rotates to penetrate through the baffle (1-4) and is fixedly connected with an output shaft of the motor I (1-3), the other end of the rotating shaft (1-5) is rotatably connected with the support I (1-7), a plurality of shell holes (1-8) are formed in the bottom surface of the shell I (1-1), and a discharge hole (1-9) is formed in the right end of the shell I (1-1).

2. The iron removal device for mineral processing according to claim 1, characterized in that: the shower device (2) comprises: the water tank (2-1), the electromagnet (2-2), the water outlet (2-3), the sprayer (2-4), the water pump (2-5) and the water pipe (2-6), wherein the water tank (2-1) is fixed at the lower end of the shell I (1-1), the water tanks (2-1) are all located above the water tank (2-1), the electromagnet (2-2) is fixedly penetrated into the water tank (2-1), the sprayer (2-4) is fixedly penetrated into the upper end of the shell I (1-1) and located above the spiral blade (1-6), the water pump (2-5) is arranged on the sprayer (2-4), the water outlet (2-3) is arranged on the water tank (2-1), one end of the water pipe (2-6) is fixedly communicated with the water pump (2-5), the other end of the water pump (2-5) is fixed with the water outlet (2-3).

3. The iron removal device for mineral processing according to claim 1, characterized in that: the crushing device (3) comprises: a second shell (3-1), a second crushing barrel (3-2), a second motor (3-3), a second bracket (3-4), a second crushing shaft (3-5) and a second crushing roller assembly (3-6), wherein one side surface of the second shell (3-1) is fixed with the outer surface of the discharge port (1-9), the second crushing barrel (3-2) is horizontally fixed inside the second shell (3-1), one end of the second crushing barrel (3-2) is fixedly communicated with the discharge port (1-9), the second motor (3-3) is fixed on the other inner side surface of the second shell (3-1), a plurality of crushing barrel holes are formed in the surface of the second crushing barrel (3-2), the second bracket (3-4) is vertically fixed inside the second crushing barrel (3-2), and the second crushing roller assembly (3-6) is fixed on the crushing shaft (3-5), one end of the crushing shaft (3-5) is rotatably connected with the second bracket (3-4), and the other end of the crushing shaft (3-5) rotatably penetrates through the crushing barrel (3-2) and is fixedly connected with an output shaft of the second motor (3-3).

4. The iron removal device for mineral processing according to claim 3, characterized in that: the crushing roller assembly (3-6) comprises: the crusher comprises crushing rollers (3-6-1), striking plates (3-6-2), striking plate holes (3-6-3) and magnets (3-6-4), wherein the crushing rollers (3-6-1) are fixed on a crushing shaft (3-5), the striking plates (3-6-2) are vertically fixed on the peripheral side surfaces of the crushing rollers (3-6-1), the striking plates (3-6-2) are arranged into a hollow structure, the striking plates (3-6-2) are provided with the striking plate holes (3-6-3) penetrating through the thickness of the striking plates, the striking plate holes (3-6-3) are arranged into a plurality of striking plates (3-6-2), and the striking plates (3-6-2) are uniformly distributed along the peripheral side surfaces of the crushing rollers (3-6-1), the magnets (3-6-4) are arranged in the striking plates (3-6-2) and are fixed with the crushing rollers (3-6-1) through bolts.