CN220836035U - Waste metal recycling sorting and grinding device - Google Patents

Abstract

The utility model discloses a waste metal recycling, sorting and grinding device, which comprises a feed inlet, a device main body, a pair of discharge slide ways and a pair of finished product discharge valve ports, wherein the feed inlet is communicated with the device main body; the utility model relates to the technical field of metal recycling, in the prior art, two devices are generally required to be used according to functions and purposes for sorting and grinding in the aspect of recycling waste metals, and the materials are directly connected with each other and also need to be transported and put in again, so that the efficiency is low.

Description

Waste metal recycling sorting and grinding device

Technical Field

The utility model relates to the technical field of metal recycling, in particular to a sorting and grinding device for recycling waste metals.

Background

The recycling of waste metal refers to the treatment and processing of waste metal materials to reproduce recycled metal materials that can be used to make new products; the recycling process can reduce the consumption of natural resources, reduce the energy consumption and the environmental pollution, promote the circular economy and sustainable development, and the sorting and grinding device for recycling the waste metal realizes the separation and processing of the waste metal through the steps of magnetic separation, crushing, particle sorting, grinding and the like, regenerates the waste metal into a regenerated metal material which can be used for manufacturing new products, for example, the utility model CN218013226U coarse and fine aggregate sorting type regenerated concrete grinding device, and particularly discloses the coarse and fine aggregate sorting type regenerated concrete grinding device which comprises a primary grinding mechanism, a secondary grinding mechanism and a sorting mechanism; the secondary grinding mechanism comprises a grinding shaft and a grinding wall, the grinding wall and the grinding shaft form a grinding cylinder, a plurality of grinding beads which can stretch out and draw back are arranged on the grinding wall, and the secondary grinding mechanism grinds primary coarse materials in coarse aggregates into natural coarse aggregates and fine sand; the sorting mechanism is arranged below the secondary grinding mechanism and comprises a coarse material outlet and a fine material outlet, a sieve plate is arranged above the fine material outlet, the sieve plate is used for sieving fine materials and pouring discharged materials into the coarse material outlet, and the original state of natural coarse aggregate is reserved during secondary grinding and can be reused subsequently; the scheme is very excellent in sorting and grinding the recycled concrete, so that the subsequent recycling is more efficient and convenient, and the scheme is intended to sort and grind the waste metal before recycling the waste metal, thereby being beneficial to maximizing the subsequent recycling.

Disclosure of utility model

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a waste metal recycling, sorting and grinding device, comprising: the device comprises a feeding hole, a device body, a pair of discharging slide ways and a pair of finished product discharging valve openings, wherein the feeding hole is arranged above the device body, the pair of discharging slide ways are respectively arranged on the side wall of the device body, the pair of finished product discharging valve openings are respectively arranged on the pair of discharging slide ways, and a strong magnetic wheel auxiliary screening structure is arranged in the device body;

The supplementary screening structure of strong magnetic wheel includes: the device comprises a pair of running screening motors, a pair of electromagnetic rotary wheels, a pair of running transmission belts, a pair of power output wheels, a pair of screening auxiliary baffles, a magnetic induction material transfer box, a non-induction material transfer box, a transfer blanking channel and a pair of electric plug valves;

The pair of operation screening motors are respectively installed in the device main body through the support, the pair of electromagnetic rotary wheels are respectively installed in the device main body through the rotating shaft, the pair of power take-off wheels are respectively installed in the device main body through the rotating shaft, and the pair of power take-off wheels are respectively connected with the pair of operation screening motors, the pair of operation transmission belt is respectively sleeved on the pair of electromagnetic rotary wheels and the pair of power take-off wheels, the pair of screening auxiliary baffle plates are respectively installed in the device main body, and the pair of screening auxiliary baffle plates are respectively connected with the non-inductive material transfer box and the discharging slideway, the magnetic inductive material transfer box is installed in the device main body, and the magnetic inductive material transfer box is installed in the transfer discharging channel, the non-inductive material transfer box is installed in the device main body, and the non-inductive material transfer box is connected with the transfer discharging channel, and the pair of electric plug valves are respectively installed in the magnetic inductive material transfer box and the non-inductive material transfer box, and the non-inductive material transfer box are respectively connected with the transfer channel, and the ball milling structure is installed on the discharging channel.

It should be noted that, in the above, throw the waste metal fragments into the pan feeding mouth, get into the device main part through the pan feeding mouth, fall into the corresponding operation transmission belt of pan feeding mouth below, drive the operation screening motor, the operation screening motor drives the power take off wheel and rotates, power take off wheel drive operation transmission belt and electromagnetic rotary wheel rotate, electromagnetic rotary wheel circular telegram back has strong magnetism, will adsorb the material piece that has inducted magnetism on the operation transmission belt, and carry the operation, the material piece that does not have magnetic induction can be thrown to the corresponding screening auxiliary baffle on the back, fall into the non-induction material transfer case, when the material piece that is magnetic induction is operated by the operation transmission belt to the position of keeping away from electromagnetic rotary wheel, lose magnetic attraction, then fall into the non-induction material transfer case of below, thereby accomplish the preliminary sorting operation of first stage, the material piece after the sorting, in proper order is controlled by electric plug valve in turn, the whereabouts is in the transfer unloading passageway, the material piece after the entering class grinding structure of lot grinds the operation after the material piece in batches after passing through lower level transmission passageway and secondary transfer case, after the material piece that does not have magnetic induction is thrown to the corresponding screening auxiliary baffle on the corresponding sieve, fall into the corresponding material piece after the magnetic powder piece is discharged through the corresponding magnetic induction material transfer valve after the corresponding to the unloading material piece after the magnetic powder is separated from the sieve, the material piece is discharged through the corresponding magnetic material-induction material transfer valve after the corresponding to the material piece is rolled down.

Preferably, the ball milling structure comprises: the ball milling device comprises a ball milling driving motor, a driving gear box, a ball milling barrel, a rotary coupling gear ring, a pair of closed cock valves, a pair of auxiliary rotary bearings, a lower-stage material conveying channel, a secondary transfer box and a lower-stage cock valve;

The ball milling driving motor is arranged on the non-induction material transfer box, the driving gear box is connected with the ball milling driving motor, the rotary coupling gear ring is arranged on the ball milling barrel, the rotary coupling gear ring is connected with the driving gear box, a pair of auxiliary rotating bearings are respectively arranged on two sides of the ball milling barrel, the pair of auxiliary rotating bearings are respectively connected with the transfer blanking channel and the lower-stage material conveying channel, a pair of closed cock valves are respectively arranged in the transfer blanking channel and on the ball milling barrel, the lower-stage material conveying channel is connected with the secondary transfer box, and the lower-stage cock valve is arranged in the secondary transfer box;

In the above, after the metal material enters the ball milling barrel, the ball milling driving motor drives the driving gear box, so that the driving gear box drives the rotary coupling gear ring coupled with the driving gear box to rotate, and the ball milling barrel is driven to rotate by a pair of auxiliary rotary bearings, meanwhile, the sealing cock valve is closed, so that the material is in a sealing state in the ball milling barrel, after grinding, the sealing cock valve at the side of the lower-stage material conveying channel is opened, the material can fall down due to gravity and enter the secondary transfer box through the lower-stage material conveying channel, and then the released amount is controlled by the lower-stage cock valve, so that secondary sorting is performed.

Preferably, a cover plate is arranged on the feeding port;

Preferably, the device main body is provided with an access hole;

preferably, a flow limiting cock valve is arranged on the finished product discharging valve opening;

preferably, the running conveyor belt is provided with a non-magnetic wear-resistant material.

Advantageous effects

The utility model provides a sorting and grinding device for recycling waste metals. The waste metal recycling sorting and grinding device has the following beneficial effects that compared with the prior art, the waste metal recycling sorting and grinding device has the advantages that: at present, two devices are generally required to be used respectively according to functions and purposes for sorting and grinding the waste metal recycling, materials are directly connected with each other and are required to be transported and put in again, the efficiency is low, the device is used for sorting waste metal materials through the magnetic wheel auxiliary screening structure, the sorted metal materials enter the ball milling barrel in batches in sequence for grinding, the ground metal powder is subjected to secondary screening through the magnetic wheel auxiliary screening structure, and the screened finished powder can be conveniently processed later, so that the production efficiency is greatly improved.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a waste metal recycling, sorting and grinding device.

Fig. 2 is a schematic diagram of a front cross-sectional structure of a waste metal recycling, sorting and grinding device according to the utility model.

Fig. 3 is an enlarged partial schematic view of "a" in fig. 2.

In the figure: 1. a feed inlet; 2. a device body; 3. a discharging slideway; 4. a finished product discharge valve opening; 5. operating a screening motor; 6. an electromagnetic rotary wheel; 7. running the conveyor belt; 8. a power take-off wheel; 9. screening auxiliary baffle plates; 10. a magnetic induction material transfer box; 11. a non-inductive material transfer box; 12. transferring a blanking channel; 13. an electric plug valve; 14. ball milling driving motor; 15. a drive gear box; 16. ball milling barrel; 17. rotationally coupling the gear ring; 18. closing the cock valve; 19. an auxiliary rotating bearing; 20. a lower-stage material conveying channel; 21. a secondary transfer box; 22. and a lower-stage plug valve.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

According to the method, according to the attached drawings 1-3, waste metal fragments are input into a feed port 1, enter a device main body 2 through the feed port 1, fall into a corresponding operation conveying belt 7 below the feed port 1, drive an operation screening motor 5, the operation screening motor 5 drives a power output wheel 8 to rotate, the power output wheel 8 drives the operation conveying belt 7 and an electromagnetic rotary wheel 6 to rotate, the electromagnetic rotary wheel 6 is electrified and then carries strong magnetism, the blocks with magnetism are adsorbed on the operation conveying belt 7 and carry the operation, the blocks without the magnetism induction are thrown onto corresponding screening auxiliary baffle plates 9 and then fall into a non-induction transfer box 11, when the magnetically induced blocks are operated to a position far away from the electromagnetic rotary wheel 6 by the operation conveying belt 7, the magnetic attraction is lost, the blocks fall into a magnetic induction transfer box 10 below, so as to complete the preliminary sorting operation of a first stage, the orderly separated blocks are controlled by an electric plug valve 13 in turn, the materials fall into a transfer blanking channel 12, the separated materials enter a grinding structure and are adsorbed on the operation conveying belt 7 and carry the blocks without the magnetism induction, the blocks fall into a corresponding sorting channel 4 through a sliding way, and then pass through a corresponding magnetic induction sliding way, and then fall into a corresponding blanking valve 4 to a material outlet 4, and a finished product is discharged from the magnetic powder material is discharged from the magnetic transfer box 4; after the metal materials enter the ball milling barrel 16, the ball milling driving motor 14 drives the driving gear box 15, the driving gear box 15 drives the rotary coupling gear ring 17 which is coupled with the driving gear box to rotate, the ball milling barrel 16 is driven to rotate by a pair of auxiliary rotary bearings 19, meanwhile, the sealing cock valve 18 is closed, the materials are in a sealed state in the ball milling barrel 16, after grinding, the sealing cock valve 18 on the side of the lower-stage material conveying channel 20 is opened, the materials can fall down due to gravity and enter the secondary transfer box 21 through the lower-stage material conveying channel 20, and then the released amount is controlled through the lower-stage cock valve 22, so that secondary sorting is performed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A waste metal recycling, sorting and grinding device, comprising: the device is characterized in that the feeding port (1) is arranged above the device body (2), the pair of discharging slide ways (3) are respectively arranged on the side wall of the device body (2), the pair of finished product discharging valve ports (4) are respectively arranged on the pair of discharging slide ways (3), and a strong magnetic wheel auxiliary screening structure is arranged in the device body (2);

The supplementary screening structure of strong magnetic wheel includes: a pair of running screening motors (5), a pair of electromagnetic rotary wheels (6), a pair of running transmission belts (7), a pair of power output wheels (8), a pair of screening auxiliary baffles (9), a magnetic induction material transfer box (10), a non-induction material transfer box (11), a transfer blanking channel (12) and a pair of electric plug valves (13);

A pair of operation screening motors (5) are respectively installed in the device main body (2) through brackets, a pair of electromagnetic rotary wheels (6) are respectively installed in the device main body (2) through rotating shafts, a pair of power output wheels (8) are respectively connected with a pair of operation screening motors (5), a pair of operation transmission belts (7) are respectively sleeved on a pair of electromagnetic rotary wheels (6) and a pair of power output wheels (8), a pair of screening auxiliary baffle plates (9) are respectively installed in the device main body (2), a pair of screening auxiliary baffle plates (9) are respectively connected with a non-induction material transfer box (11) and a discharge chute (3), a magnetic induction material transfer box (10) is installed in the device main body (2), a transfer blanking channel (12) is connected with the magnetic induction transfer box (10), a pair of non-induction material transfer boxes (11) are respectively installed in the device main body (2) and the non-induction material transfer box (11) is connected with the non-induction material transfer box (13), and the ball milling-like grinding structure is arranged on the transfer blanking channel (12).

2. The scrap metal recycling sort milling apparatus of claim 1, wherein the ball-like milling structure comprises: the ball milling device comprises a ball milling driving motor (14), a driving gear box (15), a ball milling barrel (16), a rotary coupling gear ring (17), a pair of closed plug valves (18), a pair of auxiliary rotary bearings (19), a lower-stage material conveying channel (20), a secondary transfer box (21) and a lower-stage plug valve (22);

The ball milling drive motor (14) is installed on the non-induction material transfer box (11), the drive gear box (15) with ball milling drive motor (14) is connected, rotatory coupling gear circle (17) are installed on ball milling barrel (16), just rotatory coupling gear circle (17) with drive gear box (15) are connected, a pair of supplementary rotary bearing (19) are installed respectively ball milling barrel (16) both sides, and a pair of supplementary rotary bearing (19) respectively with transfer unloading passageway (12) and lower grade material transfer passageway (20) are connected, a pair of closed cock valve (18) are installed respectively in transfer unloading passageway (12) and on ball milling barrel (16), lower grade material transfer passageway (20) with secondary transfer box (21) are connected, lower grade cock valve (22) are installed in secondary transfer box (21).

3. The waste metal recycling sorting and grinding device according to claim 2, wherein a cover plate is arranged on the feed inlet (1).

4. A scrap metal recycling, sorting and grinding device according to claim 3, characterized in that the device body (2) is provided with access openings.

5. The waste metal recycling sorting and grinding device according to claim 4, wherein the finished product discharging valve opening (4) is provided with a flow limiting cock valve.

6. The waste metal recycling sorting and grinding device according to claim 5, wherein the running conveyor belt (7) is provided with a non-magnetic wear-resistant material.