CN210497262U - Multilayer mineral sorting unit - Google Patents

Abstract

The utility model discloses a multilayer mineral sorting device, which relates to the field of mineral sorting and solves the technical problems that minerals with different granularities cannot be sorted, such as the minerals with different granularities are crushed to the required granularity range, and the like, and comprises a bracket provided with a sorting barrel, wherein the top of the sorting barrel is provided with a feed inlet, the side wall of the sorting barrel is provided with a feed groove, the sorting barrel is also internally provided with a sorting component and a feed plate, one end of the feed plate is positioned at the lower end of the sorting component, the other end of the feed plate passes through the feed groove on the sorting barrel and extends out of the sorting barrel, the tail end of the feed plate extends into the crushing component, the crushing component is connected with a lifting component, the lifting component is provided with a discharge port, the tail end of the discharge port is provided with a conveyor belt, the other end of the conveyor belt is positioned at the upper, the method realizes the separation of minerals with different granularities, and can also crush the minerals with different granularities into the needed granularity according to the needs of users.

Description

Multilayer mineral sorting unit

Technical Field

The utility model relates to a mineral separation field, concretely relates to multilayer mineral sorting unit for the mineral granule to required granularity of different granularities is smashed simultaneously to the mineral granule of screening different granularities.

Background

Minerals are simple substances of natural elements and their compounds which are relatively stable under certain geological and physicochemical conditions, are produced and developed in various geological processes, have a relatively fixed chemical composition, are in a solid state, and have a definite internal structure, which is an essential unit constituting rocks and ores. In the mining industry, the excavated ore minerals need to be sorted according to size, the labor intensity of manual sorting is high, the sorting is strong in subjectivity, and the size of the minerals cannot have a standard sorting specification, so that a device capable of efficiently sorting the minerals according to the size of the mineral granularity is needed, the minerals can be sorted by adopting different processing modes such as magnetic separation, flotation and the like according to the sizes of different mineral granularities at the later stage, meanwhile, the existing sorting equipment can only sort the minerals with different granularities, but cannot crush the minerals to the required granularity range, and the later-stage operation is inconvenient, and in order to solve the problems, the invention provides a multi-layer mineral sorting device.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: for solving current mineral sorting facilities can not smash the mineral granule of different granularities to technical problem such as required granularity scope when realizing sorting to the mineral granule of different granularities, the utility model provides a multilayer mineral sorting unit.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a multilayer mineral sorting unit, includes the support, be equipped with the separation barrel on the support, the separation barrel top is equipped with the pan feeding mouth, is equipped with many blown down tanks on the separation barrel lateral wall, still be equipped with separation subassembly and play flitch in the separation barrel, play flitch one end is located separation subassembly lower extreme and tightly faces the separation subassembly, and the blown down tank on the separation barrel is passed to the blown down plate other end and extends to outside the separation barrel, the end that goes out the flitch stretches into in the crushing unit, crushing unit and promotion subassembly are connected, the end that is equipped with discharge gate and this discharge gate on the promotion subassembly is equipped with the conveyer belt, the other end of conveyer belt is located the upper end of separation barrel.

Further, the sorting subassembly is including stretching into the inside rotating rod of sorting barrel, the rotating rod is located the terminal rigid coupling driving motor of the part of sorting barrel outside, the rotating rod passes through the bearing and selects separately the bucket to connect, the part that the rotating rod is located sorting barrel is equipped with choice frame, well selection frame and coarse selection frame by going up in proper order, the equipartition is equipped with the through-hole on choice frame, well selection frame and the coarse selection frame, choice frame, well selection frame and coarse selection frame all include horizontal sieve and establish horizontal sieve vertical sieve all around, the one end setting of play flitch is at the lower extreme of the junction of horizontal sieve and vertical sieve, and the other end and the crushing unit of play flitch are connected.

Furthermore, the apertures of the through holes on the horizontal sieve plates of the fine selection frame, the middle selection frame and the rough selection frame are sequentially increased, the through holes are uniformly distributed on the vertical sieve plates of the fine selection frame, the middle selection frame and the rough selection frame, and the apertures of the through holes on the vertical sieve plates are all larger than the apertures on the horizontal sieve plates of the corresponding selection frames.

Furthermore, the top of the rotating rod is also provided with a rotating sheet which is used for assisting minerals entering the separation barrel through the feeding port to be evenly discharged, and the rotating sheet and the horizontal direction are obliquely arranged.

Further, the inclination angle of the rotating sheet and the horizontal direction is 5-15 degrees.

Further, crushing unit is including the groove that gathers materials that encircles the setting of separation barrel, still be equipped with the discharge gate on the groove that gathers materials, be equipped with the power pump that is used for taking out broken back mineral on the discharge gate of groove that gathers materials, the discharge gate department of groove that gathers materials is equipped with the rotor of broken mineral, the relative department in position with the rotor on the groove that gathers materials is equipped with the serrated knife, still be equipped with the crushing roller that is used for smashing mineral in the groove that gathers materials, the crushing roller is located the below of discharge plate discharge position, rotor and crushing roller all pass through motor drive.

Further, the lifting assembly comprises a material channel fixed on the support, a lifting auger is arranged in the material channel and driven by a motor arranged on the support, a feeding port is formed in the material channel, and the feeding port of the material channel is connected with the crushing assembly.

The utility model discloses the during operation: the method comprises the steps of firstly switching on a power supply of a conveyor belt, placing minerals to be sorted on the conveyor belt, conveying the minerals to a feeding port of a sorting barrel by the conveyor belt, switching on a motor power supply of a sorting assembly at the moment, driving a rotating rod to rotate by a motor, driving a rotating piece to rotate by the rotating rod, enabling the minerals entering from the feeding port to be uniformly scattered into a roughing frame below the rotating piece by the rotating piece, gradually reaching the position of a vertical sieve plate of the roughing frame by the action of centripetal force, dropping through holes in the vertical sieve plate onto a discharge plate below the joint of the vertical sieve plate and a horizontal sieve plate, switching on the power supply of the motor driving a crushing roller to work if large-particle minerals obtained by screening are required to be crushed to the required mineral granularity, carrying out the following operations, and pumping the minerals reaching the crushing roller through the discharge plate to a lifting auger through a power pump after being crushed by the crushing, and finally, the mineral powder is conveyed to a feeding port of the separation barrel through a conveyor belt arranged at a discharge port of the lifting auger, if the mineral powder with large granularity obtained by screening does not need to be crushed to the selected granularity, the power supply of the crushing assembly does not need to be switched on, meanwhile, the mineral with small granularity drops to a selection frame through a through hole on the horizontal sieve plate, the operation is repeated, the mineral with the required granularity can be obtained, and finally, the mineral meeting the requirement is discharged from the discharge port.

The utility model has the advantages as follows:

1. the utility model firstly switches on the power supply of the conveyor belt, the mineral to be sorted is placed on the conveyor belt, the conveyor belt conveys the mineral to the feeding port of the sorting barrel, then the motor power supply of the sorting component is switched on, the motor drives the rotating rod to rotate, the rotating rod drives the rotating piece to rotate, the rotating piece enables the mineral entering from the feeding port to be evenly scattered into the roughing frame below the rotating piece, the mineral with large particles gradually reaches the vertical sieve plate position of the roughing frame due to the action of centripetal force, and the through hole on the vertical sieve plate drops to the discharging plate below the joint of the vertical sieve plate and the horizontal sieve plate, if the mineral with large particles obtained by screening needs to be crushed to the required mineral granularity, the power supply of the motor for driving the crushing roller to work is switched on, the following operations are carried out, the mineral reaching the crushing roller through the discharging plate is pumped to the lifting auger through the power pump after being crushed by the, and finally, the mineral powder is conveyed to a feeding port of the separation barrel through a conveyor belt arranged at a discharge port of the lifting auger, if the mineral powder with large granularity obtained by screening does not need to be crushed to the selected granularity, the power supply of the crushing assembly does not need to be switched on, meanwhile, the mineral with small granularity drops to a selection frame through a through hole on the horizontal sieve plate, the operation is repeated, the mineral with the required granularity can be obtained, and finally, the mineral meeting the requirement is discharged from the discharge port.

2. The sorting component of the utility model comprises a rotating rod extending into the sorting barrel, the tail end of the part of the rotating rod positioned outside the sorting barrel is fixedly connected with a driving motor, the rotating rod is connected with the sorting barrel through a bearing, the part of the rotating rod positioned in the sorting barrel is sequentially provided with a fine sorting frame, a middle sorting frame and a rough sorting frame from bottom to top, the fine selection frame, the middle selection frame and the rough selection frame are uniformly provided with through holes, the fine selection frame, the middle selection frame and the rough selection frame respectively comprise a horizontal sieve plate and vertical sieve plates arranged on the periphery of the horizontal sieve plate, one end of the discharge plate is arranged at the lower end of the joint of the horizontal sieve plate and the vertical sieve plate, the other end of the discharge plate is connected with the crushing assembly, the sorting assembly can be used for sorting minerals with different particle sizes so as to obtain mineral particles with different particle sizes or crushing the mineral particles with different particle sizes to mineral particles with the same size.

3. The aperture of the through holes on the horizontal sieve plate of the fine selecting frame, the middle selecting frame and the rough selecting frame of the utility model is increased in turn, the vertical sieve plates of the fine selection frame, the middle selection frame and the rough selection frame are also uniformly provided with through holes, the aperture of the through holes on the vertical sieve plates is larger than that on the horizontal sieve plate of the corresponding selection frame, the top of the rotating rod is also provided with a rotating sheet for assisting the uniform blanking of the minerals entering the separation barrel through the feeding port, the rotating sheet is obliquely arranged with the horizontal direction, the angle of inclination of the rotating sheet with the horizontal direction is 5-15 degrees, the screening of mineral particles with different particle sizes can be facilitated by setting the through holes on the horizontal sieve plate and the vertical sieve plate on the fine selection frame, the middle selection frame and the rough selection frame to be different in size, meanwhile, the rotating piece is arranged at the top of the rotating rod, so that minerals entering from the feeding port can uniformly reach the interior of the separation barrel.

4. Crushing unit is including encircleing the groove that gathers materials that selects separately the bucket setting, gather materials and still be equipped with the discharge gate on the groove, be equipped with the power pump that is used for taking out broken back mineral on the discharge gate of groove, the discharge gate department that gathers materials the groove is equipped with broken mineral's rotor, it is equipped with the serrated knife with rotor position department relative on the groove to gather materials, still be equipped with the crushing roller that is used for crushing mineral in the inslot that gathers materials, the crushing roller is located the below of play flitch ejection of compact position, rotor and crushing roller are all through motor drive, and then switch on the motor of drive crushing unit work when needs smash the mineral of big granularity for satisfying the less granularity of needs through crushing unit's setting can, and the cooperation of crushing roller and rotor is used and can be improved the crushing effect of large granule mineral, the faster mineral granule that obtains the less granularity that satisfies the requirement.

5. Promote the subassembly including fixing the material passageway on the support, be equipped with the promotion auger in the material passageway, promote the auger through setting up the motor drive on the support, the pan feeding mouth has been seted up on the material passageway, and the pan feeding mouth and the crushing unit of this material passageway are connected, can send into the large granule mineral after the breakage into the pan feeding mouth through promoting the subassembly and carry out the secondary and select separately, improve the efficiency of selecting separately.

Drawings

FIG. 1 is a schematic view of the multi-layered mineral separation apparatus of the present invention;

reference numerals: 1-support, 2-sorting frame, 3-motor, 4-rotating rod, 5-fine selecting frame, 6-middle selecting frame, 7-rough selecting frame, 8-discharging groove, 9-discharging plate, 10-collecting groove, 11-crushing roller, 12-knife roller, 13-power pump, 14-lifting auger, 15-conveying belt and 16-rotating plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be noted that the terms "inside", "outside", "up", and the like indicate the directions or positional relationships based on the directions or positional relationships shown in the drawings, or the directions or positional relationships that the products of the present invention are conventionally placed when used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present invention.

Example 1

As shown in fig. 1, a multilayer mineral sorting unit, including support 1, be equipped with the separation barrel on support 1, the separation barrel top is equipped with the pan feeding mouth, is equipped with many blown down tanks 8 on the separation barrel lateral wall, still be equipped with separation subassembly and play flitch 9 in the separation barrel, 9 one end of play flitch are located the separation subassembly lower extreme and are just facing the separation subassembly, and the blown down tank 8 that the play flitch 9 other end passed on the separation barrel extends to outside the separation barrel, the end of blown down board 9 stretches into in the crushing unit, crushing unit and promotion subassembly are connected, the end that is equipped with discharge gate and this discharge gate on the promotion subassembly is equipped with conveyer belt 15, the other end of conveyer belt 15 is located the upper end of separation barrel pan feeding mouth.

In this embodiment, first, the power of the conveyor belt 15 is turned on, the minerals to be sorted are placed on the conveyor belt 15, the conveyor belt 15 conveys the minerals to the feeding port of the sorting barrel, at this time, the power of the motor 3 of the sorting assembly is turned on, the motor 3 drives the rotating rod 4 to rotate, the rotating rod 4 drives the rotating sheet 16 to rotate, the rotating sheet 16 enables the minerals entering from the feeding port to be uniformly scattered into the roughing frame 7 below the rotating sheet 16, due to the action of centripetal force, the large-particle minerals gradually reach the vertical sieve plate position of the roughing frame 7, and the through holes on the vertical sieve plate fall onto the discharge plate 9 below the connection between the vertical sieve plate and the horizontal sieve plate, if the large-particle minerals obtained by screening need to be crushed to the required mineral granularity, the power of the motor 3 driving the crushing roller 11 is turned on, and the following operations are performed, the minerals reaching the crushing roller 11 through the discharge plate 9 are crushed by the crushing roller 11 and then pumped to the lifting auger, and finally, the mineral powder is conveyed to a feeding port of the separation barrel through a conveyor belt 15 arranged at a discharge port of a lifting auger 14, if the mineral powder with large granularity obtained by screening does not need to be crushed to the selected granularity, the power supply of a crushing assembly does not need to be switched on, meanwhile, the mineral with small granularity drops to a middle selection frame 6 through a through hole on a horizontal sieve plate, the operation is repeated, the mineral with the required granularity can be obtained, and finally, the mineral meeting the requirement is discharged from a discharge port.

Example 2

As shown in fig. 1, this embodiment has made further improvement on embodiment 1's basis, select separately the subassembly including stretching into the inside rotating rod 4 of separation bucket, rotating rod 4 is located the terminal rigid coupling driving motor 3 of the part of separation bucket outside, rotating rod 4 passes through the bearing and selects separately the bucket to be connected, rotating rod 4 is located the part of separation bucket and is equipped with choice frame 5, well frame 6 and coarse selection frame 7 by going up in proper order, the equipartition is equipped with the through-hole on choice frame 5, well frame 6 and the coarse selection frame 7, choice frame 5, well frame 6 and coarse selection frame 7 all include horizontal screen plate and establish horizontal screen plate vertical sieve all around, the one end setting of play flitch 9 is at the lower extreme of the junction of horizontal screen plate and vertical sieve plate and not with horizontal screen plate and vertical contact, the other end and the crushing unit connection of play flitch 9.

In the embodiment, the sorting component comprises a rotating rod 4 extending into the sorting barrel, the tail end of the part of the rotating rod 4 positioned outside the sorting barrel is fixedly connected with a driving motor 3, the rotating rod 4 is connected with the sorting barrel through a bearing, the part of the rotating rod 4 positioned in the sorting barrel is sequentially provided with a fine sorting frame 5, a middle sorting frame 6 and a rough sorting frame 7 from bottom to top, through holes are uniformly distributed on the fine selection frame 5, the middle selection frame 6 and the rough selection frame 7, the fine selection frame 5, the middle selection frame 6 and the rough selection frame 7 respectively comprise a horizontal sieve plate and vertical sieve plates arranged on the periphery of the horizontal sieve plate, one end of the discharge plate 9 is arranged at the lower end of the joint of the horizontal sieve plate and the vertical sieve plate, the other end of the discharge plate 9 is connected with the crushing assembly, the sorting assembly can be used for sorting minerals with different particle sizes so as to obtain mineral particles with different particle sizes or crushing the mineral particles with different particle sizes to mineral particles with the same size.

Example 3

As shown in fig. 1, this embodiment is further improved on the basis of embodiment 1, the apertures of the through holes on the horizontal sieve plates of the concentration frame 5, the middle concentration frame 6 and the rough concentration frame 7 are sequentially increased, the through holes are uniformly distributed on the vertical sieve plates of the concentration frame 5, the middle concentration frame 6 and the rough concentration frame 7, the apertures of the through holes on the vertical sieve plates are all larger than the apertures on the horizontal sieve plates of the corresponding concentration frames, the top of the rotating rod 4 is further provided with a rotating plate 16 for assisting the minerals entering the separation barrel through the material inlet to be evenly fed, the rotating plate 16 and the horizontal direction are obliquely arranged, and the inclination angle between the rotating plate 16 and the horizontal direction is 5-15 °.

In the embodiment, the aperture of the through holes on the horizontal sieve plates of the fine selection frame 5, the middle selection frame 6 and the rough selection frame 7 is increased in sequence, the vertical sieve plates of the fine selecting frame 5, the middle selecting frame 6 and the rough selecting frame 7 are also uniformly provided with through holes, the aperture of the through holes on the vertical sieve plates is larger than that on the horizontal sieve plate of the corresponding selecting frame, the top of the rotating rod 4 is also provided with a rotating sheet 16 for assisting the uniform blanking of the minerals entering the separation barrel through the feeding port, the rotating sheet 16 is obliquely arranged with the horizontal direction, the angle of inclination of the rotating sheet 16 with the horizontal direction is 5-15 degrees, the screening of mineral particles with different particle sizes can be facilitated by setting the through holes on the horizontal sieve plate and the vertical sieve plate on the fine selection frame 5, the middle selection frame 6 and the rough selection frame 7 to be different in size, meanwhile, the rotating piece 16 is arranged at the top of the rotating rod 4, so that the minerals entering from the feeding port can uniformly reach the interior of the sorting barrel.

Example 4

As shown in fig. 1, this embodiment is further improved on the basis of embodiment 1, the crushing assembly includes three collecting troughs 10 disposed around the sorting barrel, the collecting troughs 10 include three collecting troughs 10, each of which is located opposite to the discharging plate 9 extended from the fine sorting frame 5, the middle sorting frame 6 and the rough sorting frame 7, the collecting trough 10 is further provided with a discharging port, the collecting trough 10 is disposed obliquely, and one end with the discharging port is located at the lowest position (i.e. h marked in the figure is not equal to zero), the discharging ports of the collecting troughs 10 opposite to the rough sorting frame 7 and the middle sorting frame 6 are both provided with power pumps 13 for pumping out the crushed minerals, the discharging ports of the collecting troughs 10 opposite to the rough sorting frame 7 and the middle sorting frame 6 are provided with mineral crushing knife rolls 12, the collecting troughs 10 opposite to the rough sorting frame 7 and the middle sorting frame 6 are provided with serrated knives opposite to the knife rolls 12, a crushing roller 11 for crushing minerals is further arranged in the collecting groove 10 opposite to the positions of the roughing frame 7 and the intermediate frame 6, the crushing roller 11 is positioned below the discharging position of the discharging plate 9, and the knife roller 12 and the crushing roller 11 are both driven by the motor 3.

In this embodiment, the crushing assembly includes three collecting troughs 10 arranged around the sorting barrel, each collecting trough 10 is opposite to the discharge plate 9 extending from the fine sorting frame 5, the middle sorting frame 6 and the rough sorting frame 7, a discharge port is further arranged on the collecting trough 10, a power pump 13 for pumping out the crushed minerals is arranged on the discharge ports of the collecting troughs 10 opposite to the rough sorting frame 7 and the middle sorting frame 6, a knife roller 12 for crushing the minerals is arranged at the discharge port of the collecting trough 10 opposite to the rough sorting frame 7 and the middle sorting frame 6, a serrated knife is arranged at the position opposite to the knife roller 12 on the collecting trough 10 opposite to the rough sorting frame 7 and the middle sorting frame 6, a crushing roller 11 for crushing the minerals is further arranged in the collecting trough 10 opposite to the rough sorting frame 7 and the middle sorting frame 6, the crushing roller 11 is positioned below the discharge position of the discharge plate 9, knife roll 12 and crushing roller 11 are all driven through motor 3, set up through crushing unit when needs with the mineral of large particle size smash for satisfying the less granularity of needs then switch on drive crushing unit work motor 3 can, crushing roller 11 and knife roll 12's cooperation is used and can be improved the crushing effect of large granule mineral, the faster mineral particle that obtains the less granularity that satisfies the requirement.

Example 5

As shown in fig. 1, the present embodiment is further improved on the basis of embodiment 1, the lifting assembly includes a material channel fixed on the support 1, the material channel is communicated with a discharge port of the material collecting tank 10 opposite to the middle sorting frame 6 and the rough sorting frame 7 through a power pump 13, a lifting auger 14 is arranged in the material channel, the lifting auger 14 is driven by a motor 3 arranged on the support 1, a material inlet is formed on the material channel, and the material inlet of the material channel is connected with the crushing assembly.

In this embodiment, the lifting unit is including fixing the material passageway on support 1, the material passageway and the discharge gate of the silo 10 that gathers materials relative with well selection frame 6 and rough selection frame 7 pass through power pump 13 intercommunication, be equipped with promotion auger 14 in the material passageway, promote auger 14 through the motor 3 drive that sets up on support 1, the pan feeding mouth has been seted up on the material passageway, and the pan feeding mouth and the crushing unit of this material passageway are connected, can send into the large granule mineral after the breakage into the pan feeding mouth through the lifting unit and carry out the secondary and select separately, improve the efficiency of selecting separately.

Claims (7)

1. The utility model provides a multilayer mineral sorting unit, includes support (1), be equipped with the separation barrel on support (1), its characterized in that, the separation barrel top is equipped with the pan feeding mouth, is equipped with many blown down tanks (8) on the separation barrel lateral wall, still be equipped with separation subassembly and play flitch (9) in the separation barrel, blown down board (9) one end is located the separation subassembly lower extreme and tightly faces the separation subassembly, and blown down tank (8) on the separation barrel are passed to play flitch (9) other end and extend to outside the separation barrel, the end that goes out flitch (9) stretches into in the crushing unit, crushing unit and promotion subassembly are connected, the end that is equipped with discharge gate and this discharge gate on the promotion subassembly is equipped with conveyer belt (15), the other end of conveyer belt (15) is located the upper end of separation barrel pan feeding mouth.

2. A multi-layered mineral separation apparatus as claimed in claim 1, wherein the separation assembly includes a rotatable rod (4) extending into the interior of the separation barrel, the tail end of the part of the rotating rod (4) positioned outside the sorting barrel is fixedly connected with a driving motor (3), the rotating rod (4) is connected with the separation barrel through a bearing, the part of the rotating rod (4) positioned in the separation barrel is sequentially provided with a fine selection frame (5), a middle selection frame (6) and a rough selection frame (7) from bottom to top, through holes are uniformly distributed on the fine selection frame (5), the middle selection frame (6) and the rough selection frame (7), the fine selection frame (5), the middle selection frame (6) and the rough selection frame (7) comprise horizontal sieve plates and vertical sieve plates arranged on the periphery of the horizontal sieve plates, one end of the discharging plate (9) is arranged at the lower end of the joint of the horizontal sieve plate and the vertical sieve plate, and the other end of the discharging plate (9) is connected with the crushing assembly.

3. The multi-layer mineral separation device according to claim 2, wherein the aperture of the through holes on the horizontal sieve plates of the fine separation frame (5), the middle separation frame (6) and the rough separation frame (7) is sequentially increased, the through holes are uniformly distributed on the vertical sieve plates of the fine separation frame (5), the middle separation frame (6) and the rough separation frame (7), and the aperture of the through holes on the vertical sieve plates is larger than that on the horizontal sieve plates of the corresponding separation frames.

4. A multi-layered mineral separation apparatus as claimed in claim 2, wherein the top of the rotary rod (4) is further provided with a rotary plate (16) for assisting the uniform blanking of minerals entering the separation barrel through the feeding port, and the rotary plate (16) is inclined to the horizontal.

5. A multi-layered mineral separation apparatus as claimed in claim 4, wherein the angle of inclination of the rotary plate (16) to the horizontal is 5-15 °.

6. The multi-layer mineral separation device according to claim 1, wherein the crushing assembly comprises a material collecting groove (10) which is arranged around the separation barrel, a material outlet is further formed in the material collecting groove (10), a power pump (13) for pumping out crushed minerals is arranged on the material outlet of the material collecting groove (10), a knife roller (12) for crushing minerals is arranged at the material outlet of the material collecting groove (10), a serrated knife is arranged on the material collecting groove (10) opposite to the knife roller (12), a crushing roller (11) for crushing minerals is further arranged in the material collecting groove (10), the crushing roller (11) is located below the material outlet position of the material outlet plate (9), and the knife roller (12) and the crushing roller (11) are both driven by the motor (3).

7. The multi-layer mineral separation device according to claim 1, wherein the lifting assembly comprises a material channel fixed on the support (1), a lifting auger (14) is arranged in the material channel, the lifting auger (14) is driven by a motor (3) arranged on the support (1), a feeding port is formed in the material channel, and the feeding port of the material channel is connected with the crushing assembly.

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