CN214288405U - Tombarthite ore breaker - Google Patents

Abstract

The utility model relates to a breaker especially relates to a tombarthite ore breaker. The to-be-solved technical problem of the utility model is: the rare earth ore crushing device is simple in flow, low in power consumption and capable of uniformly crushing rare earth ores. A rare earth ore crushing device comprises a bracket; the crushing assembly is arranged on the bracket; and the crushing assembly is arranged on the bracket. The utility model achieves simple flow, one device comprises four parts of crushing, smashing, material screening and material receiving, and other unnecessary flows are saved; the utility model meets the requirement of less power consumption, and the device is driven by a motor, thereby reducing unnecessary waste; the utility model adopts the drawing sieve plate, which can effectively crush the rare earth ore; the utility model discloses the sieve material process is difficult to the jam, has added the reciprocating sieve material subassembly, makes the sieve material more swift clean.

Description

Tombarthite ore breaker

Technical Field

The utility model relates to a breaker especially relates to a tombarthite ore breaker.

Background

Rare earth elements have special atomic structures and extremely rich electronic energy levels, have a plurality of excellent optical, electric, magnetic, nuclear and other characteristics, and have very active chemical properties, so that the rare earth elements can form novel materials with various types, functions and purposes with other elements, and the novel materials are called vitamins, industrial gold, novel materials and universal soil in modern industry. In the traditional industry, the rare earth has been widely applied to the traditional industrial fields of metallurgy, machinery, petroleum, chemical industry, glass, ceramics, textile, leather, farming and animal husbandry and the like, and can remarkably improve the product performance and increase the yield.

The traditional rare earth ore crusher is used for crushing larger rare earth ore into smaller and qualified fragments. However, the traditional ore crusher has the defects of complex flow, overlarge power consumption, large investment scale and incapability of uniformly crushing rare earth ore, and has adverse influence on the ore industry to a certain extent.

Therefore, a rare earth ore crushing device which is simple in flow, low in power consumption and capable of uniformly crushing rare earth ores needs to be developed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that the flow is complicated, the power consumption is overlarge, the investment scale is large, the rare earth ore can not be uniformly crushed, the technical problem of the utility model is that: the rare earth ore crushing device is simple in flow, low in power consumption and capable of uniformly crushing rare earth ores.

The technical scheme of the utility model is that: a rare earth ore crushing device comprises a bracket; the crushing assembly is arranged on the bracket; and the crushing assembly is arranged on the bracket.

More preferably, the crushing assembly comprises a motor mounted on the bracket; the crushing box is arranged on the bracket; the first rotating rod is rotatably arranged in the crushing box, and one end of the first rotating rod is connected to an output shaft of the motor through a coupler; a first gear mounted on the first rotating rod; the first broken fragments are uniformly arranged on the first rotating rod at intervals; the second rotating rod is rotatably arranged in the crushing box; the second gear is arranged on the second rotating rod and is meshed with the first gear; the second broken blocks are uniformly arranged on the second rotating rod at intervals, and the first broken blocks and the second broken blocks are matched with each other.

More preferably, the crushing assembly comprises a crushing box which is arranged on the bracket; the telescopic box body is arranged on the crushing box; the sieve plate is arranged on the clamping groove in a sliding manner; the third rotating rod is rotatably arranged on the crushing box; the third gear is arranged on the third rotating rod; the first crushing pieces are uniformly distributed on the third rotating rod; the fourth rotating rod is rotatably arranged on the crushing box; the fourth gear is arranged on the fourth rotating rod and is meshed with the third gear; the second crushing pieces are uniformly distributed on the fifth rotating rod of the fourth rotating rod and rotatably arranged on the crushing box; the fifth gear is arranged on the fifth rotating rod and is meshed with the third gear; the third crushing pieces are uniformly distributed on the fifth rotating rod; the belt pulleys are arranged on the first rotating rod and the third rotating rod; and the flat belt is arranged between the belt pulleys.

More preferably, the vibrating screen device further comprises a vibrating screen material assembly, wherein the vibrating screen material assembly comprises a convex block and is arranged on the third rotating rod; the touch rod is arranged on the telescopic box body; the connecting rod is arranged on the crushing box and the telescopic box body; and the telescopic spring rod is arranged between the connecting rods.

More preferably, the device further comprises a receiving box which is placed on the support.

Compared with the prior art, the utility model has the advantages of as follows: 1. the utility model discloses it is simple to have reached the flow, and a device includes four parts of breakage, crushing, sieve material, receipts material, has practiced thrift other unnecessary flows.

2. The utility model discloses reached the less requirement of power consumption, the device drives whole by a motor, has reduced the unnecessary extravagant.

3. The utility model discloses a take out formula sieve, can effectual crushing tombarthite ore.

4. The utility model discloses the sieve material process is difficult to the jam, has added the reciprocating sieve material subassembly, makes the sieve material more swift clean.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the crushing assembly of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the pulverizing assembly of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the pulverizing assembly of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the vibrating screen assembly of the present invention.

The meaning of the reference symbols in the figures: 1. the crushing device comprises a support, 2, a crushing assembly, 21, a motor, 22, a crushing box, 23, a first gear, 24, a first rotating rod, 25, first broken pieces, 26, a second gear, 27, a second rotating rod, 28, second broken pieces, 3, a crushing assembly, 31, a belt pulley, 32, a flat belt, 33, a crushing box, 35, a telescopic box body, 36, a clamping groove, 37, a sieve plate, 38, a third rotating rod, 39, a third gear, 310, a first crushing piece, 311, a fourth gear, 312, a fourth rotating rod, 313, a second crushing piece, 314, a fifth gear, 315, a fifth rotating rod, 316, a third crushing piece, 4, a vibrating sieve assembly, 41, a lug, 42, a touch rod, 43, a connecting rod, 44, a telescopic spring rod, 5 and a receiving box.

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.

Example 1

A rare earth ore crushing device is shown in figures 1-4 and comprises a support 1, a crushing assembly 2 and a crushing assembly 3, wherein the crushing assembly 2 is installed on the upper portion of the support 1, and the crushing assembly 3 is installed in the middle of the support 1.

To treat the rare earth ore of processing, put into crushing unit 2, control crushing unit 2 carries out work, through the processing of crushing unit 2, the rare earth ore is broken into the fritter, then broken rare earth ore can get into crushing unit 3 automatically, crushing unit 3 can smash broken rare earth ore, thereby smash the rare earth ore into littleer, the fragment that meets the requirements makes things convenient for later stage processing to use, after all rare earth ore smash completely, control crushing unit 2 stop work.

The crushing assembly 2 comprises a motor 21, a crushing box 22, a first gear 23, a first rotating rod 24, a first crushing block 25, a second gear 26, a second rotating rod 27 and a second crushing block 28, the motor 21 is installed to the upside left part of support 1, broken case 22 is installed to the upside of support 1, first dwang 24 is installed to the inside rear side rotation of broken case 22, first dwang 24 left side is passed through the coupling joint and is on the output shaft of motor 21, the even spaced eight first broken pieces 25 that are equipped with in first dwang 24 middle part, first dwang 24 left side still key-type connection has first gear 23, the inside front side of broken case 22 installs second dwang 27, second dwang 27 left side still key-type connection second gear 26, first gear 23 and second gear 26 intermeshing, the even spaced eight broken pieces 28 of second that are equipped with in second dwang 27 middle part, mutually support between first broken piece 25 and the broken piece 28 of second.

When putting into broken case 22 with the tombarthite ore, starter motor 21, motor 21 can drive first dwang 24 and rotate, first dwang 24 just can drive first broken fragment 25 and rotate, first dwang 24 still can drive first gear 23 and rotate, first gear 23 just can drive second gear 26 and rotate, second gear 26 will drive second dwang 27 rotatory, second dwang 27 just can drive the broken fragment 28 of second and rotate, thereby make the tombarthite ore breakage, automatically, get into crushing unit 3, after all tombarthite ore smashes, control motor 21 stop work.

The crushing component 3 comprises a belt pulley 31, a flat belt 32, a crushing box 33, a telescopic box body 35, a sieve plate 37, a third rotating rod 38, a third gear 39, a first crushing sheet 310, a fourth gear 311, a fourth rotating rod 312, a second crushing sheet 313, a fifth gear 314, a fifth rotating rod 315 and a third crushing sheet 316, the middle part of the bracket 1 is provided with the crushing box 33, the lower side of the crushing box 33 is provided with the telescopic box body 35, the lower part of the telescopic box body 35 is provided with a clamping groove 36, the sieve plate 37 is arranged in the clamping groove 36 in a sliding manner, the middle inside of the crushing box 33 is rotatably provided with the third rotating rod 38, the right side of the third rotating rod 38 is provided with the third gear 39, the middle part of the third rotating rod 38 is uniformly provided with a plurality of first crushing sheets 310 at intervals, the rear side of the inside of the crushing box 33 is rotatably provided with the fourth rotating rod 312, the right side of the fourth rotating rod 312 is connected with the fourth gear 311, the third gear 39 is mutually meshed with the fourth gear 311, the even spaced of fourth dwang 312 middle part is equipped with a plurality of second and smashes piece 313, smashes the inside front side rotation of case 33 and is equipped with fifth dwang 315, fifth dwang 315 right side key-type connection has fifth gear 314, third gear 39 and fifth gear 314 intermeshing, the even spaced of fifth dwang 315 middle part is equipped with a plurality of third and smashes piece 316, all be equipped with belt pulley 31 on the right side of first dwang 24 and third dwang 38, be equipped with flat belt 32 between belt pulley 31.

When the motor 21 is started, the motor 21 drives the first rotating rod 24 to rotate, so as to rotate the belt pulley 31 on the right side of the first rotating rod 24, the belt pulley 31 on the third rotating rod 38 is driven to rotate by the flat belt 32, so as to rotate the third rotating rod 38, the first crushing sheet 310 is driven to rotate by the third rotating rod 38, the right third gear 39 is also driven by the third rotating rod 38 to rotate, the fourth gear 311 and the fifth gear 314 are driven to rotate by the third gear 39, the fourth rotating rod 312 is driven to rotate by the fourth gear 311, the second crushing sheet 313 is driven to rotate by the fourth rotating rod 312, meanwhile, the fifth gear 314 drives the fifth rotating rod 315 to rotate, the third crushing sheet 316 is driven by the fifth rotating rod 315 to rotate, so as to crush crushed rare earth ore, crushed rare earth ore enters the sieve plate 37 to sieve material, the rare earth ore crushed into smaller ones is allowed to pass through the sieve plate 37, and then the sieve plate 37 is pulled out, and then the rare earth ore which has not passed through the sieve plate 37 is crushed again.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, the vibrating screen assembly 4 is further included, the vibrating screen assembly 4 includes a convex block 41, a touch rod 42, a connecting rod 43 and a telescopic spring rod 44, the convex block 41 is arranged on the left side of the third rotating rod 38, the touch rod 42 is arranged on the left side of the telescopic box body 35, the convex block 41 is matched with the touch rod 42, the connecting rods 43 are arranged in the middle of the front sides of the crushing box 33 and the telescopic box body 35, and the telescopic spring rod 44 is connected between the front sides of the connecting rods 43.

When carrying out the crushing rare earth ore, third dwang 38 is rotatory, thereby it rotates to drive third dwang 38 left side lug 41, lug 41 is rotatory, lug 41 can contact with touch pole 42, thereby make touch pole 42 downstream, touch pole 42 just can drive flexible box 35 downstream, flexible spring lever 44 that connecting rod 43 connects on the flexible box 35 this moment is stretched, when lug 41 is rotatory contactless touch pole 42, flexible spring lever 44 is retracted, thereby drive flexible box 35 upward movement, the good rare earth ore of smashing just can shake along with the removal of flexible box 35, accelerate the sieve material time from sieve 37, and prevent to block up.

The device also comprises a material receiving box 5, wherein the material receiving box 5 is arranged on the lower side of the support 1.

After smashing the tombarthite ore, smash the tombarthite ore and can drop on receiving workbin 5, make things convenient for the later stage to collect and take.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (4)

1. The utility model provides a tombarthite ore breaker, characterized by, including:

a support (1);

the crushing assembly (2) is arranged on the bracket (1);

the crushing assembly (3) is arranged on the bracket (1);

the crushing assembly (2) comprises:

the motor (21) is arranged on the bracket (1);

a crushing box (22) mounted on the bracket (1);

the first rotating rod (24) is rotatably arranged in the crushing box (22), and one end of the first rotating rod (24) is connected to an output shaft of the motor (21) through a coupler;

a first gear (23) mounted on the first rotating rod (24);

the first broken pieces (25) are arranged on the first rotating rod (24) at uniform intervals;

a second rotating rod (27) rotatably mounted in the crushing box (22);

a second gear (26) mounted on the second rotating lever (27), the second gear (26) meshing with the first gear (23);

the second broken fragments (28) are uniformly and alternately arranged on the second rotating rod (27), and the first broken fragments (25) and the second broken fragments (28) are matched with each other;

the crushing assembly (3) comprises:

a crushing box (33) mounted on the bracket (1);

a telescopic box body (35) which is arranged on the crushing box (33);

the screen plate (37), the telescopic box body (35) is provided with a clamping groove (36), and the screen plate (37) is arranged on the clamping groove (36) in a sliding manner;

a third rotating lever (38) rotatably mounted on the crushing box (33);

a third gear (39) mounted on the third rotating lever (38);

the first crushing pieces (310) are uniformly distributed on the third rotating rod (38);

a fourth rotating lever (312) rotatably mounted on the crushing box (33);

a fourth gear (311) mounted on the fourth rotating lever (312), the fourth gear (311) and the third gear (39) being engaged with each other;

the second crushing pieces (313) are uniformly distributed on the fourth rotating rod (312);

a fifth rotating lever (315) rotatably mounted on the pulverizing box (33);

a fifth gear (314) mounted on the fifth rotating lever (315), the fifth gear (314) and the third gear (39) being engaged with each other;

the third crushing pieces (316) are uniformly distributed on the fifth rotating rod (315);

a pulley (31) mounted on the first rotating rod (24) and the third rotating rod (38);

a flat belt (32) installed between the pulleys (31).

2. A rare earth ore crushing apparatus according to claim 1, further comprising a vibrating screen material unit (4), the vibrating screen material unit (4) comprising:

a projection (41) mounted on the third rotating lever (38);

a touch rod (42) mounted on the telescopic case (35);

a connecting rod (43) which is arranged on the crushing box (33) and the telescopic box body (35);

and a telescopic spring rod (44) installed between the connecting rods (43).

3. A rare earth ore crushing apparatus according to claim 2, further comprising:

a material receiving box (5) which is arranged on the bracket (1).

4. A rare earth ore crushing apparatus according to claim 3, wherein the bottom area of the inside of the material receiving box (5) is larger than the bottom area of the telescopic box body (35) to prevent a part of the rare earth ore from falling outside the material receiving box (5).

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