CN214975626U - Tombarthite polishing powder recovery processing device for residue - Google Patents

Abstract

The utility model relates to a tombarthite polishing powder recovery processing device for residue, construct and be located the inside processing mechanism of screening mechanism including screening mechanism, screening mechanism includes the recovery unit body, the inside built-in board that is provided with of recovery unit body, the inboard of built-in board is connected with the screening board, vibrating motor is installed to the bottom of built-in board, the fan is installed at the top of recovery unit body, screening mechanism includes the processing section of thick bamboo of being connected with vibrating motor, and the below of handling a section of thick bamboo is equipped with the annular slab, and the inboard of annular slab is provided with the filter. This recovery processing device for tombarthite polishing powder residue can effectively sieve bold iron fillings in the residue, discharges through the fan simultaneously to improved work efficiency, can effectively cut the granule iron in the residue and adsorb, thereby carry out reuse with the residue, also can avoid iron to cut the decomposition time longer simultaneously, thereby lead to the fact the influence to the environment.

Description

Tombarthite polishing powder recovery processing device for residue

Technical Field

The utility model relates to a recovery processing technology field.

Background

The rare earth polishing powder is a mixed light rare earth oxide powder which takes cerium oxide as a main component and is used for improving the surface smoothness of products or parts, and is prepared by the processes of chemical treatment, burning, crushing, sieving and the like by taking bastnaesite concentrate (containing RE2O3 being more than or equal to 70%) or soluble rare earth salts (containing CeO2/RE2O3 being 45-50% of rare earth chloride or cerium-rich rare earth compound containing CeO2 being more than 80%) as a raw material.

At present, when the existing recovery processing device for rare earth polishing powder residues is used, certain defects exist, because the existing recovery processing device is difficult to remove the iron scraps in the residues, the iron scraps cannot be recycled, so that the iron scraps can be discarded, the iron scraps in the residues are difficult to decompose, certain influence is caused on the environment, and meanwhile, the waste of resources is caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the technical problem who exists among the prior art, provide a tombarthite polishing powder recovery processing device for residue, solved the problem that is difficult to get rid of the iron cut in the residue.

The utility model provides an above-mentioned technical problem's technical scheme as follows: the utility model provides a tombarthite is recovery processing device for polishing powder residue, includes screening mechanism and is located the inside processing mechanism of screening mechanism, screening mechanism includes the recovery unit body, the inside built-in board that is provided with of recovery unit body, the inboard of built-in board is connected with the screening board, vibrating motor is installed to the bottom of built-in board, the fan is installed at the top of recovery unit body, screening mechanism includes the processing section of thick bamboo of being connected with vibrating motor, and the below of processing section of thick bamboo is equipped with the annular slab, and the inboard of annular slab is provided with the filter, the inside groove has been seted up to the inside of annular slab, and the internally mounted of inside groove has the electro-magnet.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the feed inlet has been seted up at the top of recovery unit body, the top of recovery unit body articulates through the hinge has the top cap.

Further, a discharge pipe is fixed on the left side of the fan, and a material pumping pipe is fixed at the bottom of the fan.

Furthermore, a suction box is fixed on the inner side of the recovery device body, and a connecting pipe is connected to the inner side of the suction box.

Further, the inboard of recovery unit body has been seted up the spout, and the inside of spout is fixed with the spliced pole, and the outside of spliced pole is equipped with the spring, the external connection movable block of spliced pole, and the movable block is connected with built-in board.

Furthermore, the bottom of the screening plate is connected with a flow guide pipe, and the length and the width of the screening plate are respectively equal to those of the inner side of the built-in plate.

Further, a thread groove is formed in the bottom of the treatment barrel, a thread bolt is connected to the inner thread of the thread groove, and a collection box is placed inside the recovery device body.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects:

1. this recovery processing device is used to tombarthite polishing powder residue through the cooperation between the subassembly in the screening mechanism, can effectively sieve bold iron fillings in the residue, discharges through the fan simultaneously to work efficiency has been improved.

2. This tombarthite is recovery processing device for polishing powder residue through the cooperation between the subassembly in the processing agency, can effectively adsorb the granule iron cut in the residue to carry out reuse with the residue, also can avoid the iron to cut the decomposition time longer simultaneously, thereby cause the influence to the environment.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a front sectional view of the structure of the present invention;

fig. 3 is a partially enlarged schematic view of a portion a shown in fig. 2 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100 screening mechanism, 200 processing mechanism, 101 recovery device body, 102 feed inlet, 103 top cover, 104 fan, 105 discharge pipe, 106 pumping pipe, 107 suction box, 108 connecting pipe, 109 chute, 110 connecting column, 111 spring, 112 movable block, 113 built-in plate, 114 screening plate, 115 vibrating motor, 116 draft tube, 201 processing cylinder, 202 threaded groove, 203 annular plate, 204 threaded bolt, 205 filter plate, 206 internal groove, 207 electromagnet, 208 collecting box.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Referring to fig. 1, the recycling device for rare earth polishing powder residues in the present embodiment includes a screening mechanism 100 and a processing mechanism 200 located in the screening mechanism 100, wherein the screening mechanism 100 can screen out large iron scraps for processing, and the processing mechanism 200 can process and discharge iron scraps in particles, which will be described in detail below.

In order to realize the sieving function of the sieving mechanism 100, as shown in fig. 2 and 3, in the embodiment, the sieving mechanism 100 includes a recovery device body 101, a feed inlet 102 is formed at the top of the recovery device body 101, the recovery device body 101 is hinged with a top cover 103 through a hinge, a fan 104 is fixedly installed at the top of the recovery device body 101, a discharge pipe 105 is fixedly connected to the left side of the fan 104, a suction pipe 106 is fixedly connected to the bottom of the fan 104, a suction box 107 is fixedly connected to the rear inner side wall of the recovery device body 101, a connecting pipe 108 is fixedly connected to the inner side of the suction pipe 107, sliding grooves 109 are formed in both the left side wall and the right side wall of the recovery device body 101, a connecting column 110 is fixedly connected to the inside of the sliding groove 109, two springs 111 are sleeved on the outer side of the connecting column 110, movable blocks 112 are movably connected to the outer side of the connecting column 110, and an internal plate 113 is fixedly connected between the two movable blocks 112, the inner side of the built-in plate 113 is fixedly connected with a screening plate 114, the bottom of the built-in plate 113 is fixedly provided with two vibration motors 115, and the bottom of the screening plate 114 is fixedly connected with a flow guide pipe 116.

The top cover 103 covers the feed inlet 102, the fan 104 is located on the left side of the top of the recovery device body 101, the bottom of the pumping pipe 106 sequentially penetrates through the recovery device body 101 and the suction box 107 and extends to the inside of the connecting pipe 108, the pumping pipe 106 and the suction box 107 are respectively embedded into the rear side wall of the recovery device body 101, the length of the suction box 107 is equal to that of the inner side of the recovery device body 101, suction holes arranged at equal intervals are formed in the outer side of the connecting pipe 108, the length and the width of the built-in plate 113 are respectively equal to those of the inner side of the recovery device body 101, the length, the width and the height of the screening plate 114 are respectively equal to those of the inner side of the built-in plate 113, the width and the height are equal, the bottom of the connecting column 110 sequentially penetrates through the spring 111 and the movable block 112 and extends to the inner bottom wall of the sliding groove 109, and the front of the recovery device body 101 is hinged with a door panel through a hinge.

In addition, carry out vibration screening to built-in board 113 through vibrating motor 115, then at the effect of spliced pole 110, spring 111 and movable block 112, can effectively improve the effect of screening, discharge through fan 104 to the iron cut simultaneously.

In order to realize the treatment effect of the treatment mechanism 200, as shown in fig. 2, the treatment mechanism 200 in this embodiment includes a treatment cylinder 201 fixedly connected with a vibration motor 115, four threaded grooves 202 are formed at the bottom of the treatment cylinder 201, an annular plate 203 is movably connected to the bottom of the treatment cylinder 201, a threaded bolt 204 is connected to the internal thread of the threaded groove 202, a filter plate 205 is fixedly connected to the inner side of the annular plate 203, an inner groove 206 is formed inside the annular plate 203, an electromagnet 207 is fixedly connected to the inside of the inner groove 206, and a collection box 208 is placed below the filter plate 205.

The top ends of the four threaded bolts 204 penetrate through the annular plate 203 and extend to the inside of the threaded groove 202, the length and the width of the annular plate 203 are respectively equal to those of the treatment cylinder 201, the electromagnet 207 is connected with the filter plate 205, the filter plate 205 is made of a magnetic conductive material, the length and the width of the collection box 208 are respectively equal to those of the inner side of the recovery device body 101, and the length and the width of the filter layer 205 are respectively equal to those of the inner side of the annular plate 203.

In addition, the treatment cylinder 201 is driven by the vibration motor 115 to vibrate, and then the particle iron scraps are adsorbed and the filtered residues are collected in the matching electromagnet 207 and the filter plate 205.

The working principle of the above embodiment is as follows: by opening the top cover 103, pouring residues into the top cover through the feeding hole 102, closing the top cover 103, starting the vibration motor 115, driving the built-in plate 113 and the screening plate 114 to vibrate by the vibration motor 115, driving the movable block 112 to extrude the spring 111, then effectively improving the vibration effect under the elastic recovery action of the spring 111, stopping large iron scraps on the screening plate 114, then starting the fan 104, adsorbing the retained iron scraps by the material pumping pipe 106 through the material suction box 107 and the connecting pipe 108, then discharging from the material discharging pipe 105, dropping the screened residues onto the filter layer 205 through the guide pipe 116, because the filter layer 205 is fixed on the annular plate 203, the annular plate 203 is fixed on the processing barrel 201 through the threaded bolt 204, thereby vibrating the filter plate 205, starting the electromagnet 207, adsorbing the iron scraps of fine particles onto the filter plate 205 by the electromagnet 207, then screening the residues into the collection box 208 through the filter plate 205 for storage, meanwhile, the screw bolt 204 is separated from the screw groove 202 by twisting the screw bolt 204, and then the electromagnet 207 is turned off, so that iron scraps on the filter plate 205 can be cleaned.

The above description is only for the preferred embodiment of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The recovery processing device for the rare earth polishing powder residues is characterized by comprising a screening mechanism (100) and a processing mechanism (200) positioned in the screening mechanism (100);

the screening mechanism (100) comprises a recovery device body (101), a built-in plate (113) is arranged inside the recovery device body (101), the inner side of the built-in plate (113) is connected with a screening plate (114), a vibration motor (115) is installed at the bottom of the built-in plate (113), and a fan (104) is installed at the top of the recovery device body (101);

screening mechanism (100) is including a processing section of thick bamboo (201) of being connected with vibrating motor (115), and the below of handling section of thick bamboo (201) is equipped with annular plate (203), and the inboard of annular plate (203) is provided with filter (205), inside of annular plate (203) has seted up inside groove (206), and the internally mounted of inside groove (206) has electro-magnet (207).

2. The recycling device for rare earth polishing powder residues according to claim 1, wherein a feeding hole (102) is formed in the top of the recycling device body (101), and a top cover (103) is hinged to the top of the recycling device body (101) through a hinge.

3. The recycling apparatus for rare earth polishing powder residues according to claim 1, wherein a discharge pipe (105) is fixed to the left side of the fan (104), and a pumping pipe (106) is fixed to the bottom of the fan (104).

4. The recycling apparatus for rare earth polishing powder residue according to claim 1, wherein a suction box (107) is fixed to the inner side of the recycling apparatus body (101), and a connecting pipe (108) is connected to the inner side of the suction box (107).

5. The recycling device for rare earth polishing powder residues according to claim 1, wherein a chute (109) is formed in the inner side of the recycling device body (101), a connecting column (110) is fixed inside the chute (109), a spring (111) is arranged outside the connecting column (110), a movable block (112) is connected to the outside of the connecting column (110), and the movable block (112) is connected with the built-in plate (113).

6. The recycling apparatus for rare earth polishing powder residues according to claim 1, wherein the bottom of the screening plate (114) is connected with a draft tube (116), and the length and width of the screening plate (114) are respectively equal to those of the inner side of the built-in plate (113).

7. The recycling device for rare earth polishing powder residues according to claim 1, wherein a threaded groove (202) is formed in the bottom of the processing barrel (201), a threaded bolt (204) is connected to the interior of the threaded groove (202) in a threaded manner, and a collecting box (208) is placed inside the recycling device body (101).

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