CN214416659U - Reducing mechanism of non ferrous metal ore - Google Patents

Abstract

The utility model discloses a reducing mechanism of non ferrous metal ore relates to metal ore and smashes technical field, including the workstation, the vertical support that is equipped with on the workstation, fixedly connected with casing on the support, the casing bottom is equipped with the discharge gate, and the casing top is equipped with the feed inlet, and the feed inlet below is equipped with crushing room, and crushing room below is equipped with the unloading unit that carries out the screening to non ferrous metal ore, is equipped with the recovery unit of retrieving unloading unit clout in the casing, and recovery unit links to each other with the feed inlet, is equipped with the collecting vat on the workstation, and the collecting vat is located unloading unit below, the utility model discloses simple structure, convenient to use carries out kibbling efficient to non ferrous metal ore.

Description

Reducing mechanism of non ferrous metal ore

Technical Field

The utility model relates to a technical field is smashed to metal ore.

Background

The crushing of non ferrous metal ore is mainly for the preliminary stage preparation work is done to subsequent ore dressing, and rubbing crusher top is located with the pan feeding mouth to traditional rubbing crusher more, locates the rubbing crusher bottom with the discharge gate, and the rubbing crusher specification is great, and the material loading is more time-consuming and energy-consuming, and the material of smashing often smashes once more because of the particle diameter is not up to standard, smashes inefficiency.

In order to solve the above technical problems, the chinese patent publication No. CN110802233A discloses a nonferrous metal pulverizing apparatus, the technical key points are that the grinding device comprises a backing plate, the top of the backing plate is fixedly connected with a motor, the top of the backing plate is fixedly connected with a storage box, the front side of a driven wheel is movably connected with a grinding box, the motor is started, an output shaft movably connected with the outer side of the motor rotates, the rotation of the output shaft can drive a driving wheel fixedly connected with the outer side to rotate, because the outer side of the driving wheel is movably connected with the driven wheel through the belt pulley, the driving wheel drives the driven wheel to rotate when rotating, the sealing cover is opened by rotating the sealing cover by hand, so that the nonferrous metal is placed in the crushing box, because follower and crushing case swing joint to drive the operation of crushing case, thereby can smash non ferrous metal, the non ferrous metal after smashing can fall into crushing bottom of the case fixed connection's bin.

Above-mentioned technical scheme has solved the problem that the material loading is wasted time and energy, nevertheless to the problem that traditional rubbing crusher crushing particle size is indefinite and lead to smashing inefficiency not solved.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a reducing mechanism of non ferrous metal ore, the particle diameter of the non ferrous metal ore after smashing is even, smashes efficiently.

The utility model discloses a can realize through following technical scheme: the utility model provides a reducing mechanism of non ferrous metal ore, includes the workstation, the vertical support that is equipped with on the workstation, fixedly connected with casing on the support, the casing bottom is equipped with the discharge gate, the casing top is equipped with the feed inlet, the feed inlet below is equipped with smashes the room, it is equipped with the unloading unit that carries out the screening to non ferrous metal ore to smash the room below, be equipped with the recovery in the casing the recovery unit of unloading unit clout, the recovery unit with the feed inlet links to each other, be equipped with the collecting vat on the workstation, the collecting vat is located unloading unit below.

By the above scheme, non ferrous metal ore gets into from the feed inlet and smashes the room and smashes, and the unloading unit of the material entering below after smashing screens, and in the collecting vat of screening material entering below that qualifies, not up to standard material got into the feed inlet through recovery unit, smashes once more, gets into the collecting vat until up to standard, the utility model discloses simple structure, convenient to use carries out kibbling efficient to non ferrous metal ore.

Further, the unloading unit includes smash the shale shaker that the room bottom was equipped with, the discharge gate is located the below of shale shaker, it is close to smash room bottom one side shale shaker department is equipped with the opening, the opening is opposite be equipped with the impeller on the crushing room inner wall, be equipped with the swash plate in the casing, the swash plate top is passed through the opening part with the shale shaker links to each other, the bottom with shells inner wall links to each other.

Through above-mentioned scheme, the unloading unit screens the non ferrous metal ore after smashing, and the material filters in getting into the shale shaker through the export of smashing the room, and the material that the particle diameter is qualified is exported from the discharge gate of shale shaker below, starts the impeller, and substandard material is followed the opening part through the swash plate roll-off.

Further, the recovery unit includes a bucket elevator arranged in the shell, the inclined plate and the inner wall of the shell form a material placing bin, one end of the bucket elevator is communicated with the material placing bin, and the other end of the bucket elevator extends out of the shell and is connected with the feeding hole.

Through above-mentioned scheme, recovery unit collects the non ferrous metal ore that does not reach standard after smashing to smash once more, during non-up to standard's material gets into puts the feed bin, start bucket elevator, put the material in the feed bin and sent into the feed inlet and smash once more, until up to standard.

Further, be equipped with the material loading unit of carrying non ferrous metal ore on the workstation, the material loading unit includes the guide rail of two parallels that are equipped with on the casing outer wall, the guide rail with workstation mutually perpendicular is located guide rail top department be equipped with the pan feeding mouth on the feed inlet lateral wall, pan feeding mouth department is equipped with the chute, the chute extends to the feed inlet top, be equipped with the silo on the workstation, it is equipped with the material unit that pushes away of promotion non ferrous metal ore feeding to go up the silo, it is the opening form to go up silo one side, go up on the lateral wall that the silo is opening form one side be equipped with guide rail sliding connection's slider, be equipped with the drive on the casing outer wall the electric block of slider motion.

Through above-mentioned scheme, the material loading unit carries out the external transport to the material, and the not kibbling material is placed in last silo, starts the electric block, goes up silo along guide rail rising movement, and until carrying pan feeding mouth department on the feed inlet lateral wall, the material pushing unit pushes away the material, carries through the chute and falls into the feed inlet and smashes.

Further, the material pushing unit comprises two parallel sliding grooves arranged in the feeding groove, the sliding grooves are perpendicular to one side of the feeding groove in an opening shape, a push plate is arranged in the feeding groove, and a sliding piece connected with the sliding grooves in a sliding mode is arranged below the push plate.

Through the scheme, the material pushing unit pushes materials, the push plate moves along the track of the sliding groove to push the materials in the feeding groove, and the materials enter the crushing chamber through the feeding port in the side wall of the feeding port to be crushed.

Further, smash the indoor wall and be equipped with the crushing unit of smashing non ferrous metal ore, crushing unit includes smash a plurality of blade discs that the indoor wall was equipped with, and drive blade disc pivoted driving motor.

Through above-mentioned scheme, crushing unit in the crushing chamber smashes the material, and driving motor drive blade disc rotates to smash the material.

Furthermore, a plurality of rollers are arranged on the lower end face of the workbench.

Through the scheme, the roller arranged on the upper end face of the workbench enables the crushing device to be convenient to move.

The utility model has the advantages as follows:

1. the non-ferrous metal ore enters the crushing chamber from the feed inlet to be crushed, the crushed material enters the blanking unit below to be screened, the screened qualified material enters the collecting tank below, the unqualified material enters the feed inlet through the recovery unit to be crushed again until reaching the standard and enters the collecting tank, the utility model discloses simple structure, convenient to use, the efficiency of crushing the non-ferrous metal ore is high;

2. the grinding device is convenient to move due to the fact that the plurality of rollers are arranged on the lower end face of the workbench.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic cross-sectional view of a portion of the main viewing angle of the present invention;

reference numerals: 11. a work table; 12. a support; 13. a housing; 14. a discharge port; 15. a feed inlet; 16. a pulverization unit; 17. a crushing chamber; 18. a blanking unit; 19. a recovery unit; 20. collecting tank; 21. vibrating screen; 22. an opening; 23. an impeller; 24. a sloping plate; 25. placing a bin; 26. a bucket elevator; 27. a cutter head; 28. a drive motor; 29. a chute; 30. a guide rail; 31. a feeding port; 32. a feeding trough; 33. a material pushing unit; 34. a slider; 35. an electric hoist; 36. a chute; 37. pushing the plate; 38. a slider; 39. a feeding unit; 40. and a roller.

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.

Referring to fig. 1, a non-ferrous metal ore crushing device comprises a workbench 11, a support 12 is vertically arranged on the workbench 11, a housing 13 is fixedly connected on the support 12, a discharge port 14 is arranged at the bottom end of the housing 13, a feed port 15 is arranged at the top end of the housing 13, a crushing chamber 17 is arranged below the feed port 15, materials enter the crushing chamber 17 below from the feed port 15 to be crushed, a crushing unit 16 for crushing non-ferrous metal ores is arranged on the inner wall of the crushing chamber 17, the crushing unit 16 comprises a plurality of cutter discs 27 arranged on the inner wall of the crushing chamber 17 and a driving motor 28 for driving the cutter discs 27 to rotate, the driving motor 28 drives the cutter discs 27 to rotate so as to crush the materials, a blanking unit 18 is arranged below the crushing chamber 17, the blanking unit 18 screens the crushed materials, the materials which do not reach the standard enter a recovery unit 19 arranged in the housing 13, the recovery unit 19 is connected to the feed inlet 15 so as to regrind the substandard material, and the material with qualified particle size enters a collecting tank 20 arranged on the worktable 11, wherein the collecting tank 20 is located below the blanking unit 18.

Referring to fig. 1, a non-ferrous metal ore crushing device, a blanking unit 18 includes a vibrating screen 21 disposed at the bottom of a crushing chamber 17, a discharge port 14 is disposed below the vibrating screen 21, the blanking unit 18 screens crushed materials, the materials enter the vibrating screen 21 through an outlet of the crushing chamber 17 for screening, the materials with qualified particle size are output from the discharge port 14 below the vibrating screen 21, an opening 22 is disposed at a position close to the vibrating screen 21 at one side of the bottom of the crushing chamber 17, an impeller 23 is disposed on an inner wall of the crushing chamber 17 opposite to the opening 22, an inclined plate 24 is disposed in a housing 13, a top end of the inclined plate 24 is connected to the vibrating screen 21 through the opening 22, a bottom end of the inclined plate 24 is connected to an inner wall of the housing 13, the impeller 23 is started, substandard materials slide out from the opening 22 through the inclined plate 24, a recovery unit 19 includes a bucket elevator 26 disposed in the housing 13, the inclined plate 24 forms a storage bin 25 with the inner wall of the housing 13, the substandard materials slide into the material placing bin 25 through the inclined plate 24, one end of the bucket elevator 26 is communicated with the material placing bin 25, the other end of the bucket elevator 26 extends out of the shell 13 and is connected with the feeding hole 15, the bucket elevator 26 is started, and the materials in the material placing bin 25 enter the feeding hole 15 to be crushed again until the substandard materials are reached.

Referring to fig. 1 and 2, a non-ferrous metal ore crushing device further comprises a feeding unit 39 on a workbench 11, the feeding unit 39 externally conveys materials, the feeding unit 39 comprises two parallel guide rails 30 arranged on the outer wall of a shell 13, the guide rails 30 are perpendicular to the workbench 11, a feeding port 31 is arranged on the side wall of a feeding port 15 positioned above the guide rails 30, a chute 29 is arranged at the feeding port 31, the chute 29 extends to the upper part of the feeding port 15, a feeding trough 32 is arranged on the workbench 11, the un-crushed materials are placed in the feeding trough 32, one side of the feeding trough 32 is open, a sliding block 34 connected with the guide rails 30 in a sliding manner is arranged on the side wall of one open side of the feeding trough 32, an electric hoist 35 for driving the sliding block 34 to move is arranged on the outer wall of the shell 13, the electric hoist 35 is started, the feeding trough 32 ascends along the guide rails 30 until the materials are conveyed to the feeding port 31 on the side wall of the shell 13, the feeding groove 32 is internally provided with a pushing unit 33, the pushing unit 33 pushes materials, the pushing unit 33 comprises two parallel sliding grooves 36 which are arranged in the feeding groove 32, the sliding grooves 36 are perpendicular to one side of the feeding groove 32 in an opening shape, a push plate 37 is arranged in the feeding groove 32, a sliding piece 38 which is in sliding connection with the sliding grooves 36 is arranged below the push plate 37, the push plate 37 moves along the track of the sliding grooves 36, so that the materials in the feeding groove 32 are pushed, and the materials enter the feeding hole 15 through a chute 29 at the feeding hole 31 and are crushed.

Referring to fig. 1, a pulverizer for nonferrous metal ore, a plurality of rollers 40 are provided on the lower end surface of a table 11, so that the pulverizer is convenient to move.

The utility model discloses a theory of operation is: the material is put into a feeding groove 32, an electric hoist 35 is started, the feeding groove 32 moves upwards along the track direction of a guide rail 30, when the material moves to the vertex, a push plate 37 is pushed, the material enters a feeding hole 15 through a chute 29 and falls into a crushing chamber 17, a driving motor 28 is started, the driving motor 28 drives a cutter head 27 to rotate, the cutter head 27 crushes the material, the crushed material is screened through a vibrating screen 21 below, the material with qualified particle diameter enters a collecting groove 20 below through a discharging hole 14, an impeller 23 is started, the material which does not reach the standard is blown to the chute 24 and slides into a material placing bin 25 through the chute 24, a bucket elevator 26 is started, the material in the material placing bin 25 is conveyed to the feeding hole 15 to be crushed again until the particle diameter reaches the standard and falls into the collecting groove 20, and the crushing device is convenient to move due to a roller 40 arranged on the lower end surface of a working table 11, the utility model has simple structure, convenient to use carries out kibbling efficient to non ferrous metal ore.

Claims (7)

1. The utility model provides a reducing mechanism of non ferrous metal ore, a serial communication port, including workstation (11), vertically on workstation (11) be equipped with support (12), fixedly connected with casing (13) on support (12), casing (13) bottom is equipped with discharge gate (14), casing (13) top is equipped with feed inlet (15), feed inlet (15) below is equipped with crushing room (17), it is equipped with unloading unit (18) that carry out the screening to non ferrous metal ore to smash room (17) below, be equipped with the recovery in casing (13) recovery unit (19) of unloading unit (18) clout, recovery unit (19) with feed inlet (15) link to each other, be equipped with collecting vat (20) on workstation (11), collecting vat (20) are located unloading unit (18) below.

2. The non-ferrous metal ore crushing device according to claim 1, wherein the blanking unit (18) comprises a vibrating screen (21) arranged at the bottom of the crushing chamber (17), the discharge port (14) is positioned below the vibrating screen (21), an opening (22) is formed in one side of the bottom of the crushing chamber (17) close to the vibrating screen (21), an impeller (23) is arranged on the inner wall of the crushing chamber (17) opposite to the opening (22), an inclined plate (24) is arranged in the shell (13), the top end of the inclined plate (24) is connected with the vibrating screen (21) through the opening (22), and the bottom end of the inclined plate is connected with the inner wall of the shell (13).

3. A crushing apparatus for non-ferrous metal ore according to claim 2, characterized in that the recovery unit (19) comprises a bucket elevator (26) provided in the housing (13), the inclined plate (24) and the inner wall of the housing (13) form a storage bin (25), one end of the bucket elevator (26) is communicated with the storage bin (25), and the other end thereof extends out of the housing (13) and is connected with the feeding port (15).

4. The smashing device for non-ferrous metal ores according to claim 1, wherein a feeding unit (39) for conveying non-ferrous metal ores is arranged on the workbench (11), the feeding unit (39) comprises two parallel guide rails (30) arranged on the outer wall of the shell (13), the guide rails (30) are perpendicular to the workbench (11), a feeding port (31) is arranged on the side wall of the shell (13) above the guide rails (30), a chute (29) is arranged at the feeding port (31), the chute (29) extends to the upper part of the feeding port (15), a feeding groove (32) is arranged on the workbench (11), a material pushing unit (33) for pushing non-ferrous metal ores is arranged in the feeding groove (32), one side of the feeding groove (32) is open, a sliding block (34) connected with the guide rails (30) in a sliding manner is arranged on the side wall of one side of the feeding groove (32), and an electric hoist (35) for driving the sliding block (34) to move is arranged on the outer wall of the shell (13).

5. The crushing device for non-ferrous metal ore according to claim 4, characterized in that the material pushing unit (33) comprises two parallel sliding grooves (36) arranged in the material feeding groove (32), the sliding grooves (36) are perpendicular to one side of the material feeding groove (32) in an opening shape, a push plate (37) is arranged in the material feeding groove (32), and a sliding part (38) connected with the sliding grooves (36) in a sliding manner is arranged below the push plate (37).

6. A crushing apparatus for non-ferrous metal ore according to claim 1, characterized in that the crushing chamber (17) inner wall is provided with a crushing unit (16) for crushing non-ferrous metal ore, and the crushing unit (16) comprises a plurality of cutter discs (27) provided on the crushing chamber (17) inner wall, and a driving motor (28) for driving the cutter discs (27) to rotate.

7. A crushing apparatus for non-ferrous metal ores according to claim 1, wherein a plurality of rollers (40) are provided on a lower end surface of the table.

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