CN217856673U - Mineral processing equipment with multistage separation capacity - Google Patents

Abstract

The utility model discloses a mineral processing equipment with multistage sorting ability belongs to ore dressing technical field, smash chamber, ore screening chamber, dry-type magnet separator, waste collection storehouse, fine iron ore collection storehouse including ore dressing shell, ore dressing shell top one side opening is provided with the ore and smashes the chamber, and ore dressing shell is inside to be close to ore and smashes chamber below position opening and be provided with ore screening chamber, and ore dressing shell is inside to be close to ore screening chamber below position and be provided with dry-type magnet separator. The utility model discloses in, smash the screening through crushing roller screen cloth to the ore, make the ore accord with follow-up ore dressing ore fineness more, and unqualified ore is smashed again through screw feeder, and then has reduced staff's intensity of labour, carry out the secondary ore dressing through conveyer belt, hoist engine, wire rope, inhale the iron ore of flitch isotructure in to the waste material, and then avoided the iron ore to be handled along with the waste material and lost, reduced the loss of iron ore, saved the cost of ore dressing.

Description

Mineral processing equipment with multistage separation capacity

Technical Field

The utility model belongs to the technical field of the ore dressing, specifically be an ore dressing equipment with multistage separation ability.

Background

Mineral separation refers to separation of useful minerals and useless minerals in ores after the ores are crushed, and therefore the useful minerals can be normally used.

The retrieval shows that an automatic iron removal ore separator with the patent number of CN201821445391.8 has the advantages that iron ore is adsorbed or separated by controlling the switch of the electromagnetic chuck, the magnetic force is prevented from being large, and the iron ore cannot smoothly fall off from the electromagnetic chuck or cannot fall off incompletely.

This kind of automatic deironing concentrator does not have and does not have the mechanism of smashing to former ore, and then need smash the ore through other apparatus and carry out the ore dressing in grades, and need carry out the ore dressing to the ore and need grind the ore to between 2 millimeters to 3 millimeters, the ore in small, broken bits is inconvenient transports the removal, and then has increased staff's intensity of labour, and this kind of automatic deironing concentrator can't carry out the secondary ore dressing in the barren rock after the ore dressing, and then probably lead to the iron plate waste in the barren rock.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, the mineral processing equipment with multi-stage separation capacity is provided.

The utility model adopts the technical scheme as follows: the utility model provides a mineral processing equipment with multistage separation ability, smashes chamber, ore screening chamber, dry-type magnet separator, waste collection storehouse, fine iron ore collection storehouse including ore dressing shell, ore dressing shell top one side opening is provided with the ore and smashes the chamber, the inside ore that is close to of ore dressing shell smashes chamber below position opening and is provided with ore screening chamber, the inside ore screening chamber below position that is close to of ore dressing shell is provided with dry-type magnet separator, the inside dry-type magnet separator below one side position opening that is close to of ore dressing shell is provided with the waste collection storehouse, the inside fine iron ore collection storehouse that is provided with near dry-type magnet separator below other side position opening of ore dressing shell, ore dressing shell inside is provided with smashes the crushing screening mechanism that the screening assurance ore can fully crushing to the ore, carries out the ore dressing mechanism of magnetic attraction separation to fine iron ore and slay, collects the two ore dressing mechanisms of reentrant fine iron ore.

Wherein, smash screening mechanism includes: the device comprises a motor, a rotating shaft, a crushing roller, a screen, a vibration motor and a spiral feeder;

the outer wall of the mineral separation shell is fixedly provided with motors close to two sides of an ore crushing cavity, one side of each motor is connected with a rotating shaft through an output shaft, the rotating shaft penetrates into the ore crushing cavity and then is connected with the inner wall of the ore crushing cavity in a sealing and rotating manner, crushing rollers are fixedly arranged on one side of the rotating shaft, teeth are arranged in the two crushing rollers, and the teeth on the inner walls of the two crushing rollers are mutually meshed, the inside screen cloth of installing through spring elasticity of ore screening chamber, screen cloth one side fixed mounting has shock dynamo, ore dressing shell outer wall is close to ore screening chamber one side fixed mounting and has screw feeder, screw feeder feed inlet and screen cloth bottom position correspond the setting, the screw feeder discharge gate is smashed the chamber opening part with the ore and is corresponded the setting.

Wherein, ore dressing mechanism includes: a feed inlet, a waste material dropping port and a fine iron material dropping port;

the dry-type magnet separator one side opening is provided with the feed inlet, the feed inlet corresponds the setting with ore screening chamber bottom position, ore dressing shell inner chamber is close to dry-type magnet separator below one side opening and is provided with the waste material mouth that drops, the waste material top that drops is connected with the tailings mouth of dry-type magnet separator, and the bottom is connected with waste collection storehouse, ore dressing shell inner chamber is close to dry-type magnet separator below another side opening and is provided with the concentrate and expects the mouth that drops, the concentrate drops a mouthful top and is connected with the iron ore mouth of dry-type magnet separator, and the bottom is connected with concentrate collection storehouse.

Wherein, two ore dressing mechanisms include: the device comprises a winch, a steel wire rope and a material suction plate;

the equal fixed mounting in ore dressing shell outer wall is close to waste collection storehouse and fine iron ore collection storehouse one side position has the hoist engine, two fixed mounting has wire rope between the hoist engine, wire rope one side fixed mounting has inhales the flitch, it is provided with the electro-magnet to inhale the inside flitch.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, smash the screening through crushing roller screen cloth to the ore, make the ore accord with follow-up ore dressing ore fineness more, and unqualified ore is smashed again through screw feeder, and then has reduced staff's intensity of labour.

2. The utility model discloses in, carry out the secondary ore dressing through conveyer belt, hoist engine, wire rope, inhale the iron ore of flitch isotructure in to the waste material, and then avoided the iron ore to be handled the loss along with the waste material together, reduced the loss of iron ore, saved the cost of ore dressing.

Drawings

FIG. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the front structure of the present invention;

fig. 3 is an enlarged schematic diagram of a structure at a in fig. 2 according to the present invention;

fig. 4 is a schematic diagram of the top view structure of the present invention.

The labels in the figure are: 1. a beneficiation housing; 101. an ore crushing cavity; 102. an ore screening chamber; 2. a motor; 201. a rotating shaft; 202. a crushing roller; 3. screening a screen; 301. vibrating a motor; 4. a screw feeder; 5. a dry magnetic separator; 501. a feed inlet; 6. a waste drop port; 7. a fine iron material dropping port; 8. a waste material collection bin; 801. a fine iron ore collecting bin; 9. a winch; 901. a wire rope; 902. inhale the flitch.

Detailed Description

The technical solutions in the embodiments of 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, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-4, a mineral processing equipment with multistage separation ability, including ore dressing shell 1, ore crushing chamber 101, ore screening chamber 102, dry-type magnet separator 5, waste collection storehouse 8, concentrated iron ore collection storehouse 801, ore dressing shell 1 top one side opening is provided with ore crushing chamber 101, ore dressing shell 1 is inside to be close to ore crushing chamber 101 below position opening and is provided with ore screening chamber 102, ore dressing shell 1 is inside to be close to ore screening chamber 102 below position and is provided with dry-type magnet separator 5, ore dressing shell 1 is inside to be close to dry-type magnet separator 5 below one side position opening and is provided with waste collection storehouse 8, ore dressing shell 1 is inside to be close to dry-type magnet separator 5 below other side position opening and is provided with concentrated iron ore collection storehouse 801, ore dressing shell 1 is inside to be provided with smashes the screening mechanism that sieves the assurance ore can fully-crushing, the ore dressing mechanism that carries out magnetic separation to concentrated iron ore and slay, collect the concentrated iron ore that goes into concentrated iron ore by mistake.

Referring to fig. 1 to 4, in the present embodiment, the crushing and screening mechanism includes: a motor 2, a rotating shaft 201, a crushing roller 202, a screen 3, a vibration motor 301 and a spiral feeder 4;

the equal fixed mounting in ore dressing shell 1 outer wall is close to ore crushing chamber 101 both sides has motor 2, two motor 2 one sides all have pivot 201 through output shaft, pivot 201 one side fixed mounting has crushing roller 202, there is screen cloth 3 inside ore sieving chamber 102 through spring elastic mounting, screen cloth 3 one side fixed mounting has shock dynamo 301, ore dressing shell 1 outer wall is close to ore sieving chamber 102 one side fixed mounting has screw feeder 4, pivot 201 runs through get into after ore crushing chamber 101 is inside and is connected with the sealed rotation of ore crushing chamber 101 inner wall, two crushing roller 202 are inside to be provided with the tooth, and the tooth of two crushing roller 202 inner walls is the interlock setting of each other, screw feeder 4 feed inlet corresponds the setting with 3 bottom positions of screen cloth, screw feeder 4 discharge gate and ore crushing chamber 101 opening part correspond the setting, the staff sends into the ore crushing chamber 101 at ore dressing shell 1 top with the essential iron ore that needs kibbling ore, the staff starts two motor 2 and rotates pivot 201 through the output shaft, two pivot 201 drive screw feeder 202 relative rotation smash the ore crushing roller 202 and smash the ore, the tooth between two crushing rollers 202 mutually can make the effect of ore crushing finish better, the crushing feeder 3 that the crushing completion of ore crushing and drop on the inside ore crushing chamber 102, the screen cloth 3 one side of screen cloth 3 that the dry-type ore smashes the qualified dry-type ore smashes the dry-type crushing granule and carries out the screen cloth and carry out the grinding machine that the screen cloth 3 that the screen cloth starts the screen cloth 3 that the screen cloth starts.

Referring to fig. 2, in this embodiment, the beneficiation mechanism includes: a feed inlet 501, a waste material dropping port 6 and a fine iron material dropping port 7;

an opening on one side of a dry magnetic separator 5 is provided with a feed inlet 501, an opening on one side of the inner cavity of a mineral separation shell 1 is close to the opening on the other side of the lower side of the dry magnetic separator 5 is provided with a concentrate dropping port 7, the feed inlet 501 is arranged corresponding to the bottom of an ore screening cavity 102, the top of the waste dropping port 6 is connected with a tailing port of the dry magnetic separator 5, the bottom of the waste dropping port is connected with a waste collecting bin 8, the top of the concentrate dropping port 7 is connected with an iron ore port of the dry magnetic separator 5, the bottom of the feed inlet is connected with a concentrate collecting bin 801, crushed qualified ore drops to the bottom of the ore screening cavity 102 through a screen 3, the crushed qualified ore enters the dry magnetic separator 5 through the feed inlet 501 for mineral separation, when the ore passes through a magnetic roller inside the dry magnetic separator 5, non-magnetic ore particles or very weak magnetic particles are separated from the surface of the ore sorting barrel under the action of centrifugal force and gravity and enter the tailing port and then drop to the waste dropping port 6, the waste drops to the concentrate dropping port 6 after the waste drops to the concentrate dropping to the concentrate collecting bin 7, the concentrate dropping from the concentrate collecting bin, the concentrate dropping port, the concentrate dropping after the concentrate drops to the concentrate dropping from the concentrate collecting bin 7, the concentrate dropping roller, the concentrate dropping value of the concentrate dropping roller and the concentrate dropping.

Referring to fig. 2, in the present embodiment, a double concentrating mechanism includes: a winch 9, a steel wire rope 901 and a material suction plate 902;

the outer wall of the mineral processing shell 1 is close to a waste collecting bin 8 and a fine iron ore collecting bin 801, wherein hoists 9 are fixedly mounted on one side of the outer wall of the mineral processing shell, a steel wire rope 901 is fixedly mounted between the two hoists 9, a material sucking plate 902 is fixedly mounted on one side of the steel wire rope 901, an electromagnet is arranged inside the material sucking plate 902, waste materials falling into the waste collecting bin 8 contain part of fine iron ores, the electromagnet in the material sucking plate 902 is started by a worker at the moment, the fine iron ores in the waste materials are adsorbed by the electromagnet in the material sucking plate 902, the two hoists 9 are started by the worker after the waste materials fall, the steel wire rope 901 is moved, the material sucking plate 902 on one side of the steel wire rope 901 is moved to the position above the fine iron ore collecting bin 801, and then the electromagnet in the material sucking plate 902 is closed by the worker to enable the adsorbed fine iron ores to fall into the fine iron ore collecting bin 801 to be collected.

In this embodiment, the motor 2, the vibration motor 301, the screw feeder 4, the controllable fan 601, the motor on one side of the suction rotating plate 7, the winding engine 9, and the electromagnets inside the suction rotating plate 902 are all electrically connected to an external power switch.

The working principle is as follows: firstly, a worker sends fine iron ores to be crushed into an ore crushing cavity 101 in the top of a mineral separation shell 1, the worker starts two motors 2 to rotate rotating shafts 201 through output shafts, the two rotating shafts 201 drive crushing rollers 202 to rotate relatively to crush the ores, teeth between the two crushing rollers 202 are staggered mutually to enable the ore crushing effect to be better, the crushed ores fall onto a screen 3 inside the ore crushing cavity 102 after the crushing is finished, the worker starts a vibration motor 301 on one side of the screen 3 to vibrate the screen 3 to sieve the ores, the ores with large and unqualified particles are sieved to a feeding port of a bottom spiral feeder 4, the spiral feeder 4 sends the unqualified ores into the ore crushing cavity 101 to be repeatedly crushed, the qualified crushed ores fall to the bottom of the ore crushing cavity 102 through the screen 3 and then enter a dry magnetic separator 5 through the feeding port 501 to be subjected to mineral separation, when ore passes through a magnetic roller in a dry magnetic separator 5, non-magnetic or weakly magnetic ore particles are separated from the surface of a material selecting cylinder under the action of centrifugal force and gravity, enter a tail material port and then fall to a waste material falling port 6, the waste material falls to the waste material falling port 6 and then falls into a waste material collecting bin 8, the ore particles with stronger magnetism are absorbed on the material selecting cylinder under the action of magnetic force and are taken to the lower part of the magnetic roller by the material selecting cylinder, when the material selecting cylinder leaves the extension value of the magnetic roller, the ore particles fall into an iron ore port due to the weakening of magnetic field intensity and enter the interior of the iron ore concentrate falling port 7, the iron concentrate falls into the iron concentrate falling port 7 and then falls into an iron concentrate collecting bin 801 to be collected, the waste material falling into the waste material collecting bin 8 contains part of iron concentrate, at the moment, a worker starts electromagnets in a material sucking plate 902, and the electromagnets in the material sucking plate 902 adsorb the iron concentrate in the waste material, after the waste materials fall off, the worker starts the two winches 9 to move the steel wire rope 901, so that the material sucking plate 902 on one side of the steel wire rope 901 is driven to move to the position above the fine iron ore collecting bin 801, and then the worker closes the electromagnets in the material sucking plate 902 to enable the adsorbed fine iron ores to fall off into the fine iron ore collecting bin 801 to be collected.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a mineral processing equipment with multistage separation ability, smashes chamber (101), ore screening chamber (102), dry-type magnet separator (5), waste collection storehouse (8), fine iron ore collection storehouse (801) including mineral processing shell (1), ore, mineral processing shell (1) top one side opening is provided with ore crushing chamber (101), mineral processing shell (1) inside is close to ore crushing chamber (101) below position opening and is provided with ore screening chamber (102), mineral processing shell (1) inside is close to ore screening chamber (102) below position and is provided with dry-type magnet separator (5), mineral processing shell (1) inside is close to dry-type magnet separator (5) below one side position opening and is provided with waste collection storehouse (8), mineral processing shell (1) inside is close to dry-type magnet separator (5) below other side position opening and is provided with fine iron ore collection storehouse (801), its characterized in that: the inside crushing screening mechanism that is provided with of ore dressing shell (1) smashes the screening assurance ore can abundant crushing to the ore, carries out the ore dressing mechanism that magnetism separates to concentrate and slay, collects the two-fold ore dressing mechanism that divides into concentrate again with the concentrate that the mistake was gone into in the slay.

2. The beneficiation plant with multistage separation capability according to claim 1, characterized in that: the crushing and screening mechanism comprises: a motor (2), a rotating shaft (201), a crushing roller (202), a screen (3), a vibrating motor (301) and a spiral feeder (4);

mineral separation shell (1) outer wall is close to the equal fixed mounting in ore crushing chamber (101) both sides and has motor (2), two motor (2) one side all has pivot (201) through output shaft connection, pivot (201) one side fixed mounting has crushing roller (202), screen cloth (3) are installed through spring elasticity to ore screening chamber (102) inside, screen cloth (3) one side fixed mounting has shock dynamo (301), mineral separation shell (1) outer wall is close to ore screening chamber (102) one side fixed mounting has screw feeder (4).

3. The beneficiation plant with multi-stage separation capability according to claim 1, wherein: the ore dressing mechanism includes: a feed inlet (501), a waste material dropping port (6) and a fine iron material dropping port (7);

dry-type magnet separator (5) one side opening is provided with feed inlet (501), ore dressing shell (1) inner chamber is close to dry-type magnet separator (5) below one side opening and is provided with waste material mouth (6) that drops, ore dressing shell (1) inner chamber is close to dry-type magnet separator (5) below another side opening and is provided with the concentrate iron material mouth (7) that drops.

4. The beneficiation plant with multi-stage separation capability according to claim 1, wherein: the double concentrating mechanism comprises: the device comprises a winch (9), a steel wire rope (901) and a material suction plate (902);

the ore dressing shell (1) outer wall is close to equal fixed mounting in waste material collection storehouse (8) and fine iron ore collection storehouse (801) one side position has hoist engine (9), two fixed mounting has wire rope (901) between hoist engine (9), wire rope (901) one side fixed mounting has material sucking plate (902).

5. The beneficiation plant with multistage separation capability according to claim 2, characterized in that: the sealed rotation of chamber (101) inner wall is smashed with the ore to be connected after pivot (201) run through entering ore smashes chamber (101) inside.

6. A mineral processing plant having multi-stage separation capability according to claim 2, characterized in that: teeth are arranged inside the two crushing rollers (202), and the teeth on the inner walls of the two crushing rollers (202) are meshed with each other.

7. A mineral processing plant having multi-stage separation capability according to claim 2, characterized in that: the feed inlet of the spiral feeder (4) is arranged corresponding to the bottom of the screen (3), and the discharge outlet of the spiral feeder (4) is arranged corresponding to the opening of the ore crushing cavity (101).

8. A beneficiation plant with multi-stage separation capability according to claim 3, characterized in that: the feed inlet (501) is arranged corresponding to the bottom of the ore screening cavity (102).

9. A beneficiation plant with multi-stage separation capability according to claim 3, characterized in that: the waste material drops mouthful (6) top and is connected with the tails mouth of dry-type magnet separator (5), and the bottom is connected with waste collection storehouse (8), the concentrated iron material drops mouthful (7) top and is connected with the iron ore mouth of dry-type magnet separator (5), and the bottom is connected with concentrated iron ore collection storehouse (801).

10. The beneficiation plant with multistage separation capability according to claim 4, wherein: and an electromagnet is arranged in the material suction plate (902).

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