CN211838360U - Reducing mechanism that tombarthite was used - Google Patents

Abstract

The utility model relates to a reducing mechanism that tombarthite was used, it includes support, first rubbing crusher, screening mechanism, second rubbing crusher and discharge mechanism, the support supports connects first crushing mechanism and second crushing mechanism, first crushing mechanism includes feeder hopper, first crushing case, first headstock, first crushing knife tackle, first belt and first output shaft, the feeder hopper is connected with first crushing case, and first crushing knife tackle locates inside the first crushing case, and the first headstock is located the first crushing case side, and first crushing knife tackle passes through first belt with first output shaft to be connected, screening mechanism includes vibrating motor, screening net and branch material pipe, and vibrating motor locates inside the first headstock, the second rubbing crusher includes second crushing case, second headstock, second crushing knife tackle, second belt and second output shaft; the utility model discloses adopt to smash many times to tombarthite, it is even to smash the tombarthite granule, is worth promoting.

Description

Reducing mechanism that tombarthite was used

Technical Field

The utility model relates to a tombarthite processing technology field especially relates to a reducing mechanism that tombarthite was used.

Background

The rare earth has excellent physical characteristics of photoelectromagnetism and the like, can form novel materials with different performances and a wide variety with other materials, and has the most remarkable function of greatly improving the quality and the performance of other products. Such as greatly improving the tactical performance of steel, aluminum alloy, magnesium alloy and titanium alloy used for manufacturing tanks, airplanes and missiles. Furthermore, rare earths are also high-tech lubricants for electronics, lasers, nuclear industry, superconductors, etc.

Rare earths are generally present in rock and often require post-crushing reprocessing of the rock, which is always in contact with air throughout the process. When some rare earth materials are crushed, rare earth particles or powder obtained after primary crushing are not uniform enough, secondary crushing is needed again, the production process is prolonged, and the production efficiency is reduced.

Disclosure of Invention

In view of this, provide one kind and adopt a lot of to smash the tombarthite, smash the even reducing mechanism that tombarthite granule was used to tombarthite.

A crushing device for rare earth comprises a support, a first crushing mechanism, a screening mechanism, a second crushing mechanism and a discharging mechanism, wherein the support is connected with the first crushing mechanism and the second crushing mechanism in a supporting manner, the first crushing mechanism comprises a feeding hopper, a first crushing box, a first power box, a first crushing cutter set, a first belt and a first output shaft, the feeding hopper is connected with the first crushing box, the first crushing cutter set is arranged in the first crushing box, the first power box is arranged on the side surface of the first crushing box, the first crushing cutter set is connected with the first output shaft through the first belt, the screening mechanism comprises a vibration motor, a screening net and a material separating pipe, the vibration motor is arranged in the first power box, the second crushing mechanism comprises a second crushing box, a second power box, a second crushing cutter set, a second belt and a second output shaft, the second power box is arranged on the side surface of the second crushing box, the second is smashed knife tackle and is connected with the second output shaft with the second belt, discharge mechanism includes main discharging pipe and regrinding discharging pipe, and regrinding discharging pipe one end is smashed the bottom of the case with the second and is connected, and the other end is connected with main discharging pipe.

Furthermore, main discharging pipe and leg joint, main discharging pipe top is connected with first broken box bottom.

Furthermore, the screening net is arranged inside the main discharge pipe, the upper end of the material separating pipe is connected with the main discharge pipe, the screening net is arranged at an angle of 45 degrees, the lowest end of the screening net is aligned with the material separating pipe, and the screening net is close to the vibrating motor.

Furthermore, divide material pipe bottom and second to smash the case top and be connected, the second is smashed the knife tackle and is located the second and smash the incasement.

Further, the second crushing mechanism is arranged at the lower left of the first crushing mechanism.

Compared with the prior art, the beneficial effects of the utility model are that, automatic screening is kibbling large-scale tombarthite piece, and the tombarthite piece after the screening carries out the regrinding, has reduced the process of smashing the tombarthite, has simplified tombarthite crushing apparatus, has improved production efficiency.

Drawings

Fig. 1 is a schematic structural view of a rare earth crushing device according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments and drawings.

Referring to fig. 1, an embodiment of the present invention is shown, which is a rare earth crushing apparatus 10, comprising a support 20, a first crushing mechanism 30, a screening mechanism 40, a second crushing mechanism 50 and a discharging mechanism 60, wherein the support 20 supports and connects the first crushing mechanism 30 and the second crushing mechanism 50, the first crushing mechanism 30 comprises a feeding hopper 31, a first crushing box 32, a first power box 33, a first crushing cutter set 34, a first belt 35 and a first output shaft 36, the feeding hopper 31 is connected with the first crushing box 32, the first crushing cutter set 34 is arranged inside the first crushing box 32, the first power box 33 is arranged on the side of the first crushing box 32, the first crushing cutter set 34 is connected with the first output shaft 36 through the first belt 35, the screening mechanism 40 comprises a vibration motor 41, a screening net 42 and a material distributing pipe 43, the vibration motor 41 is arranged inside the first power box 33, second rubbing crusher constructs 50 and includes that second smashes case 51, second headstock 52, second smashes knife tackle 53, second belt 54 and second output shaft 55, and second headstock 52 is located the second and is smashed case 51 side, and second smashes knife tackle 53 and second output shaft 55 and uses second belt 54 to connect, discharge mechanism 60 includes main discharging pipe 61 and the secondary crushing ejection of compact, 61, and secondary crushing discharging pipe 62 one end is connected with second smashes case 51 bottom, and the other end is connected with main discharging pipe 61.

Further, as a preference of this embodiment, the main tapping pipe 61 is connected to the support 20, and the top of the main tapping pipe 61 is connected to the bottom of the first crushing tank 32.

Further, as a preferred embodiment of the present invention, the screening net 42 is disposed inside the main discharging pipe 61, the upper end of the material separating pipe 43 is connected to the main discharging pipe 61, the screening net 42 is disposed at an angle of 45 degrees, the lowest end of the screening net 42 is aligned with the material separating pipe 43, and the screening net 42 abuts against the vibration motor 41.

Further, as a preferred feature of this embodiment, the bottom of the material distributing pipe 43 is connected to the top of the second crushing box 51, and the second crushing blade group 53 is disposed in the second crushing box 51.

Further, in the present embodiment, it is preferable that the second pulverization mechanism 50 is provided at a lower left side of the first pulverization mechanism 30.

The theory of operation of the reducing mechanism 10 that above-mentioned tombarthite was used, starting drive, the tombarthite mineral aggregate that will need to be broken is in adding the device from feeder hopper 31, first headstock 33 is through the first broken knife tackle 34 of first belt 35 drive, first broken knife tackle 34 is the broken back with the tombarthite ore, the tombarthite ore falls into on the screening net 42, screening net 42 is vibrated by vibrating motor 41, tiny tombarthite passes screening net 42 and gets into main discharging pipe 61, the bold tombarthite of incomplete breakage gets into second broken case 51 from dividing the material, the broken knife tackle 53 of second is driven by second headstock 52, the tombarthite after the secondary crushing falls into regrinding discharging pipe 62, at last by the ejection of compact of main discharging pipe 61.

The above disclosure is only a preferred embodiment of the present invention, and certainly should not be taken as limiting the scope of the invention, which is defined by the claims and their equivalents.

Claims (5)

1. A reducing mechanism that tombarthite was used which characterized in that: the crushing device comprises a support, a first crushing mechanism, a screening mechanism, a second crushing mechanism and a discharging mechanism, wherein the support is connected with the first crushing mechanism and the second crushing mechanism in a supporting mode, the first crushing mechanism comprises a feeding hopper, a first crushing box, a first power box, a first crushing cutter set, a first belt and a first output shaft, the feeding hopper is connected with the first crushing box, the first crushing cutter set is arranged inside the first crushing box, the first power box is arranged on the side face of the first crushing box, the first crushing cutter set is connected with the first output shaft through the first belt, the screening mechanism comprises a vibration motor, a screening net and a material separating pipe, the vibration motor is arranged inside the first power box, the second crushing mechanism comprises a second crushing box, a second power box, a second crushing cutter set, a second belt and a second output shaft, the second power box is arranged on the side face of the second crushing box, and the second crushing cutter set is connected with the second output shaft through the second belt, the discharging mechanism comprises a main discharging pipe and a secondary crushing discharging pipe, one end of the secondary crushing discharging pipe is connected with the bottom of the second crushing box, and the other end of the secondary crushing discharging pipe is connected with the main discharging pipe.

2. The rare earth crushing apparatus according to claim 1, wherein: the main discharging pipe is connected with the support, and the top of the main discharging pipe is connected with the bottom of the first crushing box.

3. The rare earth crushing apparatus according to claim 1, wherein: inside main discharging pipe was located to the screening net, divide the material pipe upper end to be connected with main discharging pipe, the screening net was 45 degrees angular settings, and the screening net least significant end aligns with dividing the material pipe, and the screening net is close to vibrating motor.

4. The rare earth crushing apparatus according to claim 1, wherein: the bottom of the material distributing pipe is connected with the top of the second crushing box, and the second crushing cutter set is arranged in the second crushing box.

5. The rare earth crushing apparatus according to claim 1, wherein: the second crushing mechanism is arranged at the lower left of the first crushing mechanism.

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