CN114289097B - Neodymium iron boron waste material crushed aggregates recovery unit - Google Patents

Abstract

The utility model provides a neodymium iron boron waste material crushed aggregates recovery unit, belongs to neodymium iron boron magnet waste recovery equipment field, including the mount, the mount top is fixed with crushed aggregates portion, be fixed with the recovery unit under the crushed aggregates portion. The crushed aggregates portion includes fixing base and keeps off the sieve seat. And one side of the fixed seat facing the screen blocking seat is elastically provided with a material bearing hopper. One side of the screen blocking seat facing the fixed seat is provided with a material crushing hammer which moves up and down. The lower end of the material bearing hopper is provided with a transversely arranged material crushing plate. And a sieve plate transversely arranged is arranged at the lower end of the sieve blocking seat. The recovery part comprises a conveying belt, a material collecting box and a water collecting box. Compared with the prior art, this application possesses crushed aggregates function and washs the recovery function, and crushed aggregates in-process carries out secondary crushed aggregates through the neodymium iron boron waste material for the granule is comparatively even when retrieving, and crushed aggregates quality can obtain effectual assurance.

Description

Neodymium iron boron waste material crushed aggregates recovery unit

Technical Field

The invention belongs to the field of neodymium iron boron magnet waste recovery equipment, and particularly relates to a neodymium iron boron waste crushed material recovery device.

Background

The neodymium iron boron magnet is also called a neodymium magnet, and is an artificial permanent magnet, which has the strongest magnetic force so far. The Nd-Fe-B magnet has the advantages of high cost performance, good mechanical property and low Curie point, poor temperature property and easy pulverization and corrosion, and can meet the requirements of practical application only by adjusting the chemical components and adopting a surface treatment method to improve the Nd-Fe-B magnet. Neodymium iron boron belongs to the third generation rare earth permanent magnetic material, has the characteristics of small volume, light weight and strong magnetism, is a magnet with the best cost performance at present, and is known as the magnate in the magnetic field. The advantage of high energy density makes the Nd-Fe-B permanent magnetic material widely used in modern industry and electronic technology. Under the condition of naked magnetism, the magnetic force can reach about 3500 gauss. The neodymium iron boron magnet is widely applied to industries such as energy, transportation, machinery, medical treatment, IT, household appliances and the like, and particularly brings new applications to functional materials such as the rare earth permanent magnet neodymium iron boron industry and the like along with the development of knowledge economy represented by information technology, thereby bringing wider market prospects to the neodymium iron boron industry.

In the production process of the neodymium iron boron magnet, the recycling of waste materials is an important process. The existing recovery device for the magnet waste materials generally completes the steps of crushing, cleaning and the like through a plurality of sets of equipment, and the cost of the recovered equipment and the time cost are high.

Accordingly, the present application is directed to further designs and improvements based on certain of the above-identified circumstances in the prior art.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a recovery device for crushed materials of neodymium iron boron waste.

In order to solve the above technical problems, the present invention is solved by the following technical solutions.

The utility model provides a neodymium iron boron waste material crushed aggregates recovery unit, includes the mount, the mount top is fixed with crushed aggregates portion, be fixed with recovery unit under the crushed aggregates portion.

The crushed aggregates portion includes fixing base and keeps off the sieve seat, the fixing base is fixed with keeping off the assembly of sieve seat. One side elastic assembly that the fixing base faced fender sieve seat has the hopper of holding, it is protruding to hold hopper below is equipped with evenly distributed's first crushed aggregates. Keep off the sieve seat and be equipped with the crushed aggregates hammer of direction activity from top to bottom towards one side of fixing base, it is protruding to be equipped with the third crushed aggregates with the protruding corresponding evenly distributed of first crushed aggregates on the crushed aggregates hammer, and first crushed aggregates is protruding to carry out crushed aggregates for the first time with the protruding cooperation of third crushed aggregates to the waste material. The material bearing hopper is characterized in that a transversely arranged particle board is arranged at the lower end of the material bearing hopper, and second particle protrusions which are uniformly distributed are arranged on the particle board. Keep off sieve seat lower extreme and be equipped with the sieve flitch of horizontal setting, it is protruding to be equipped with the fourth crushed aggregates with the protruding corresponding evenly distributed's of second crushed aggregates on the sieve flitch, the protruding cooperation of second crushed aggregates and fourth crushed aggregates carries out the crushed aggregates for the second time to the waste material. Fourth crushed aggregates is equipped with the sieve material hole that link up between protruding, can let the waste material through the crushed aggregates fall into the recovery part of below.

The recovery part comprises a conveying belt, a material collecting box and a water collecting box. Conveyer belt slant assembly, the below of the higher one end of conveyer belt is assembled to the case that gathers materials, the below of the lower one end of conveyer belt is assembled to the header tank, header tank one side is equipped with the water pump, the water pump is connected with a plurality of sprinkler bead, the conveyer belt is aimed at to the sprinkler bead, can wash the waste material through the sprinkler bead, will contain the waste water of useless impurity and carry out the initial segregation with the waste material that contains the neodymium iron boron.

In a preferred embodiment, hold the hopper upper end and be equipped with and keep off the material limit, can prevent that the waste material from falling into the operation that the interference influences equipment in the clearance.

In a preferred embodiment, the material receiving hopper and the upper part of the crushing hammer are matched to form a funnel shape with a concave middle part, so that waste materials can smoothly enter the crushing step.

In a preferred embodiment, the protrusions of the second chaff are smaller in size than the protrusions of the first chaff, so that the second chaff is finer than the first chaff.

In a preferred embodiment, a crushing motor is assembled on the screening seat, an output shaft of the crushing motor is connected with a cam, a first sliding head is connected on the cam, a first sliding groove is formed in the crushing hammer, and the first sliding head and the first sliding groove are matched to slide, so that the crushing hammer can move in the up-and-down direction.

In a preferred embodiment, be equipped with the second sliding head on the bits of broken glass hammer, keep off the last second sliding tray of sieve seat, the cooperation of second sliding head and second sliding tray is slided, is favorable to reducing the atress of second sliding head, can make the slip of bits of broken glass hammer more stable.

In a preferred embodiment, a plurality of sliding bars are arranged on the particle board, a corresponding third sliding groove is arranged on the fixing seat, and the sliding bars and the third sliding groove slide in a matching manner, so that the stress at the joint of the particle board and the material holding hopper is reduced.

In a preferred embodiment, the so-called conveyor belt is fixed on the fixed frame by means of fixed columns, and the driving wheel of the conveyor belt is arranged at the higher end and is driven by the conveyor motor, so that the conveyor motor is prevented from being affected by the waste water.

In a preferred embodiment, the conveyer belt is the magnetism conveyer belt, it is equipped with bellied scraper blade to gather materials case one side, the scraper blade contacts with the lower surface of conveyer belt, is favorable to the waste material to fall into smoothly and gathers materials the case.

In a preferred embodiment, the material sieving hole is in the shape of a reversed funnel with a small top and a big bottom, so that waste particles are prevented from being clamped in the material sieving hole.

Compared with the prior art, the method has the following beneficial effects: possess the crushed aggregates function and wash the recovery function, and the crushed aggregates in-process carries out the secondary crushed aggregates through the neodymium iron boron waste material for the granule is comparatively even when retrieving, and the crushed aggregates quality can obtain effectual assurance.

Drawings

Fig. 1 is a perspective view of the present application.

Fig. 2 is a perspective view of the recovery unit.

Fig. 3 is a plan sectional view of the present application.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a partially enlarged view of fig. 3 at B.

Fig. 6 is a partially enlarged view at C in fig. 3.

Fig. 7 is a first perspective view of the material receiving hopper.

Fig. 8 is a second perspective view of the material receiving hopper.

Fig. 9 is a schematic diagram of a combination of a spitwad hammer and a spitwad motor.

Fig. 10 is a front perspective view and a reverse perspective view of the screen blocking seat.

The labels in the figure are:

1, fixing a frame;

2-a crushed aggregates section; 21-a fixed seat; 211-a third sliding groove; 22-screen blocking seat; 221-a sieve plate; 222-a fourth sliver bump; 223-sieving the material holes; 224-a second sliding groove; 23-a resilient member; 231-a spring; 232-ejector rod; 24-a scrap motor; 241-a cam; 242-a first slider;

3-a recovery section; 31-a conveyor belt; 311-fixed columns; 312-a driving wheel; 313-driven wheel; 314-a conveyor motor; 32-a material collecting box; 321-a scraper plate; 33-a water collecting tank; 331-a water pump; 332-water spray head;

4-a material receiving hopper; 41-first crushed aggregate projections; 42-particle board; 421-second scrap projections; 422-sliding column bar; 43-stopping edge;

5-material crushing hammer; 51-third scrap projections; 52-a first sliding groove; 53-second slider.

Detailed Description

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

The embodiments described below by referring to the drawings, in which the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout, are exemplary only for explaining the present invention and are not construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms: the terms center, longitudinal, lateral, length, width, thickness, upper, lower, front, rear, left, right, vertical, horizontal, top, bottom, inner, outer, clockwise, counterclockwise and the like indicate orientations or positional relationships based on those illustrated in the drawings, and are only for convenience of description and simplicity of description, and thus, should not be construed as limiting the present invention. Furthermore, the terms: first, second, etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features shown. In the description of the present invention, unless explicitly specified or limited otherwise, the terms: mounting, connecting, etc. should be understood broadly, and those skilled in the art will understand the specific meaning of the terms in this application as they pertain to the particular situation.

Refer to fig. 1 to 10.

The utility model provides a neodymium iron boron waste material crushed aggregates recovery unit, includes mount 1, 1 tops of mount are fixed with crushed aggregates portion 2, be fixed with recovery unit 3 under crushed aggregates portion 2. Crushed aggregates portion 2 includes fixing base 21 and fender sieve seat 22, fixing base 21 and fender sieve seat 22 pass through the screw-thread fit assembly fixed, and the assembly is simple, and is fixed reliable, and follow-up maintenance dismouting is simple.

One side elasticity of fixing base 21 towards keeping off sieve seat 22 is equipped with and holds hopper 4, specifically, fixing base 21 distributes elastic component 23 in the upper and lower direction, elastic component 23 includes spring 231 and ejector pin 232, the tip fixed connection of ejector pin 232 holds on the lateral wall of hopper 4.

First crushed material protrusions 41 which are uniformly distributed are arranged below the material receiving hopper 4. Keep off sieve seat 22 and be equipped with the crushed aggregates hammer 5 of direction activity from top to bottom towards one side of fixing base 21, be equipped with the third crushed aggregates arch 51 with the corresponding evenly distributed of first crushed aggregates arch 41 on the crushed aggregates hammer 5, the protruding 41 and the protruding 51 cooperation of third crushed aggregates of first crushed aggregates carries out the crushed aggregates for the first time to the waste material. The lower end of the material receiving hopper 4 is provided with a transversely arranged particle board 42, and the particle board 42 is provided with second particle protrusions 421 which are uniformly distributed. The lower end of the screen blocking seat 22 is provided with a screen plate 221 transversely arranged, the screen plate 221 is provided with fourth crushed material protrusions 222 which are uniformly distributed and correspond to the second crushed material protrusions 421, and the second crushed material protrusions 421 and the fourth crushed material protrusions 222 are matched to perform secondary crushed material crushing on waste materials. The size of the second crushed material protrusions 421 is smaller than that of the first crushed material protrusions 41, specifically, the first crushed material protrusions 41 and the corresponding third crushed material protrusions 51 are relatively thick strip-shaped protrusions, which can primarily crush waste materials, and can prevent larger particles from smoothly entering a first crushed material process; the second crushed aggregates protrusion 421 and the corresponding fourth crushed aggregates protrusion 222 are small point-shaped protrusions, and can further crush waste materials. So that the second crushing is finer than the first crushing.

And a through screening hole 223 is formed between the fourth crushed aggregates protrusions 222, so that the waste materials passing through the crushed aggregates can fall into the recovery part 3 below. The sieve material hole 223 is hopper-shaped for big end down's back-off, prevents that the waste material granule card from sieving the material hole 223.

Specifically, the sieve blocking seat 22 is provided with a crushed aggregate motor 24, an output shaft of the crushed aggregate motor 24 is connected with a cam 241, the cam 241 is connected with a first sliding head 242, the crushed aggregate hammer 5 is provided with a first sliding groove 52, and the first sliding head 242 and the first sliding groove 52 slide in a matching manner, so that the crushed aggregate hammer 5 can move in the vertical direction. The second sliding head 53 is arranged on the material crushing hammer 5, the second sliding groove 224 is formed in the screen blocking seat 22, and the second sliding head 53 and the second sliding groove 224 slide in a matched mode, so that the stress of the second sliding head 53 is reduced, and the material crushing hammer 5 can slide more stably. The particle board 42 is provided with a plurality of sliding bars 422, the fixing seat 21 is provided with corresponding third sliding grooves 211, and the sliding bars 422 and the third sliding grooves 211 slide in a matching manner, so that the stress at the joint of the particle board 42 and the material bearing hopper 4 is reduced.

Wherein, hold hopper 4 upper end and be equipped with and keep off material limit 43, can prevent that the waste material from falling into the operation that the interference influences equipment in the clearance. The upper parts of the material receiving hopper 4 and the material crushing hammer 5 are matched to form a funnel shape with a concave middle part, so that waste materials can smoothly enter the material crushing step.

The recovery part 3 includes a conveyor belt 31, a hopper 32, and a header tank 33. Conveyer belt 31 slant assembly, the below of collection workbin 32 assembly in the higher one end of conveyer belt 31, water catch tank 33 assembles the below in the lower one end of conveyer belt 31, water catch tank 33 one side is equipped with water pump 331, water pump 331 is connected with a plurality of sprinkler bead 332, sprinkler bead 332 aims at conveyer belt 31, can wash the waste material through sprinkler bead 332, will contain the waste water of useless impurity and carry out the initial segregation with the waste material that contains neodymium iron boron. The water of the sprinkler head 332 is pumped from the water collecting tank 33 through the water pump 331, which is beneficial to recycling of cleaning water and saving of water resources.

In particular, the conveyor belt 31 is fixed to the fixed frame 1 by means of a fixed column 311, the driving wheel 312 of said conveyor belt 31 is arranged at the upper end and is driven by means of a conveyor motor 314, avoiding the conveyor motor 314 from being affected by the waste water, and the driven wheel 313 is arranged at the lower end. Conveyer belt 31 is magnetic conveyor belt 31, it is equipped with bellied scraper blade 321 to gather materials case 32 one side, scraper blade 321 contacts with conveyer belt 31's lower surface, is favorable to the waste material to fall into smoothly and gathers materials case 32.

When the device is operated, the waste is poured into from the hopper which is matched with the upper part of the material crushing hammer 5 to form a middle concave, the material crushing motor 24 pushes the material crushing hammer 5 to move up and down through the cam 241, the material crushing hopper 4 which is abutted against the material crushing hammer 5 moves left and right under the action of the elastic piece 23, and the waste particles enter a first material crushing process which is matched with the first material crushing bulge 41 and the third material crushing bulge 51. The left-right moving material holding hopper 4 brings the waste material particles with the smaller particle size after the first crushing process into the gap between the crushing plate 42 and the material sieving plate 221, and the second crushing process is performed in which the second crushing protrusion 421 and the fourth crushing protrusion 222 work in a matching manner. The crushed aggregates passing through the second crushed aggregate bulge 421 and the fourth crushed aggregate bulge 222 repeatedly move, and the waste particles smaller than the aperture of the screening hole 223 fall into the conveyor belt 31 right below through the screening hole 223. Because the conveying belt 31 is magnetic, the useful neodymium iron boron waste particles are adsorbed on the conveying belt 31 to move towards the higher driving wheel 312 and fall into the collecting box 32 through the scraping plate 321, and the useless impurities including dust and the like flow downwards into the water collecting box 33 along with the water sprayed from the water spraying head 332 towards the driven wheel 313.

Compared with the prior art, this application possesses crushed aggregates function and washs the recovery function, and crushed aggregates in-process carries out secondary crushed aggregates through the neodymium iron boron waste material for the granule is comparatively even when retrieving, and crushed aggregates quality can obtain effectual assurance.

The scope of the present invention includes, but is not limited to, the above embodiments, and the present invention is defined by the appended claims, and any alterations, modifications, and improvements that can be easily made by those skilled in the art are all within the scope of the present invention.

Claims (10)

1. The recovery device for crushed materials of neodymium iron boron waste is characterized by comprising a fixing frame (1), wherein a crushed material part (2) is fixed above the fixing frame (1), and a recovery part (3) is fixed under the crushed material part (2);

the crushed aggregates part (2) comprises a fixed seat (21) and a screen blocking seat (22), and the fixed seat (21) and the screen blocking seat (22) are assembled and fixed; one side of the fixed seat (21) facing the screen blocking seat (22) is elastically provided with a material receiving hopper (4), and first crushed material bulges (41) which are uniformly distributed are arranged below the material receiving hopper (4); one side, facing the fixed seat (21), of the screen blocking seat (22) is provided with a crushing hammer (5) which is movable in the vertical direction, and third crushing protrusions (51) which correspond to the first crushing protrusions (41) and are uniformly distributed are arranged on the crushing hammer (5); the lower end of the material receiving hopper (4) is provided with a transversely arranged particle board (42), and second particle protrusions (421) which are uniformly distributed are arranged on the particle board (42); a screening plate (221) transversely arranged is arranged at the lower end of the screening seat (22), and fourth crushed aggregate bulges (222) which are uniformly distributed and correspond to the second crushed aggregate bulges (421) are arranged on the screening plate (221); a through screening hole (223) is formed between the fourth crushed aggregates bulges (222);

the recovery part (3) comprises a conveying belt (31), a material collecting box (32) and a water collecting box (33); the conveying belt (31) is obliquely assembled, the material collecting box (32) is assembled below the higher end of the conveying belt (31), and the water collecting box (33) is assembled below the lower end of the conveying belt (31); a water pump (331) is arranged on one side of the water collecting tank (33), the water pump (331) is connected with a plurality of water spraying heads (332), and the water spraying heads (332) are aligned to the conveying belt (31).

2. The scrap recycling device according to claim 1, wherein the upper end of the receiving hopper (4) is provided with a blocking edge (43).

3. The scrap recycling device for NdFeB waste according to claim 1, wherein the material receiving hopper (4) and the upper part of the scrap hammer (5) are matched to form a funnel shape with a concave middle part.

4. A scrap recycling device according to claim 1, characterized in that said second scrap projections (421) are smaller than said first scrap projections (41).

5. The scrap recycling device according to claim 1, wherein the scrap motor (24) is mounted on the screen seat (22), the output shaft of the scrap motor (24) is connected with the cam (241), the cam (241) is connected with the first sliding head (242), the scrap hammer (5) is provided with the first sliding groove (52), and the first sliding head (242) and the first sliding groove (52) slide in a matching manner.

6. The recycling device for the crushed materials of neodymium iron boron wastes according to claim 1, characterized in that the crushing hammer (5) is provided with a second sliding head (53), the sieve base (22) is provided with a second sliding groove (224), and the second sliding head (53) and the second sliding groove (224) are matched for sliding.

7. The recycling device for crushed materials of neodymium iron boron wastes according to claim 1, wherein a plurality of sliding bars (422) are arranged on the crushed material plate (42), a corresponding third sliding groove (211) is arranged on the fixed seat (21), and the sliding bars (422) and the third sliding groove (211) slide in a matching manner.

8. The recycling device for crushed materials of neodymium iron boron wastes according to claim 1, characterized in that the conveyer belt (31) is fixed on the fixing frame (1) through fixing posts (311), and a driving wheel (312) of the conveyer belt (31) is arranged at the higher end and driven by a conveying motor (314).

9. A scrap recycling device according to claim 8, characterized in that the conveyor belt (31) is a magnetic conveyor belt (31), one side of the collecting box (32) is provided with a raised scraper (321), and the scraper (321) is in contact with the lower surface of the conveyor belt (31).

10. A scrap recycling device according to claim 1, characterized in that said screen holes (223) are in the shape of inverted funnel with small top and big bottom.

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