CN217249174U - Industry screens broken handle device useless admittedly - Google Patents

Abstract

An industrial solid waste screening and crushing treatment device comprises a screening mechanism, a coarse crushing mechanism and a re-crushing mechanism, wherein the coarse crushing mechanism is arranged on one side of the screening mechanism, and the re-crushing mechanism is arranged on one side of the coarse crushing mechanism; the utility model discloses pour the waste residue into the screening box from the feed inlet, in the guide box is leaked into through the screening group again, the waste residue that is sieved out is through the leading-in roll-off box back roll-off device of screening group, waste residue in the guide box gets into coarse breaking mechanism through the discharge gate, upwards promote the sliding supporting piece, make the sliding supporting piece keep away from spacing tooth, and make the compression of spring tie plate, make things convenient for the sliding supporting piece to slide and drive the position of adjusting the stirring shaft and poker rod on the screening box on the guide rail, stop upwards promoting the sliding supporting piece, make the sliding supporting piece card on spacing tooth under the effect of spring tie plate, rotate the electronic poker rod of stirring shaft and rotate, make the poker rod with the waste residue of card in the screening group forward, screen out the waste residue outside surpassing breaker crushing capacity through the screening, prevent breaker high load operation, protect breaker.

Description

Industry screens broken handle device useless admittedly

Technical Field

The utility model belongs to the technical field of the industrial waste residue is handled, in particular to useless screening broken handle device is admittedly in industry.

Background

Solid wastes generated in industrial production need to be specially recovered, some solid wastes are directly utilized after simple classification, and some solid wastes need to be crushed and then classified for recovery, so that the occupied space of waste residues is reduced; the following problems are encountered in the conventional apparatus: the workman can not be accurate to the broken size scope of breaker when carrying out the broken operation of waste residue, can carry out the breakage with the outer waste residue of breaker crushing capacity, causes breaker high load operation, causes the device to damage even.

Disclosure of Invention

The utility model aims at overcoming not enough among the prior art, providing a useless screening crushing treatment device admittedly of industry, the waste residue after screening mechanism will filter is sent to and is broken in the coarse crushing mechanism, and the waste residue after the breakage is broken once more through the regrinding mechanism.

In order to realize the purpose, the utility model discloses a technical scheme is:

the industrial solid waste screening and crushing treatment device comprises a screening mechanism, a coarse crushing mechanism and a re-crushing mechanism, wherein the coarse crushing mechanism is arranged on one side of the screening mechanism, and the re-crushing mechanism is arranged on one side of the coarse crushing mechanism;

the screening mechanism comprises a feed inlet, a screening box, a screening group, a sliding box, a material guide box, a discharge port, a supporting leg, a connecting block, a guide rail, a limiting tooth, a poking shaft, a poking rod, a sliding support block and a spring connecting plate, wherein the screening box is arranged at one side of the feed inlet, the screening group is arranged at the inner side of the screening box, a plurality of connecting blocks are arranged at one side of the screening group, the material guide box is arranged at the other side of the screening group, the supporting leg is arranged at one side of the material guide box, the guide rail is arranged at the outer side of the material guide box, the limiting tooth is arranged at one side of the material guide box, the discharge port is arranged at the other side of the material guide box, the sliding box is arranged at one side of the discharge port, the sliding support block is arranged at the outer side of the guide rail, the spring connecting plate is arranged at the inner side of the sliding support block, the poking shaft is arranged at one side of the fluctuating shaft, the feed inlet, the guide rail, the connecting block, the limiting tooth, the sliding support leg, the sliding support box and the screening box are fixedly connected with the screening box, the material guide box is connected with the screening box through a connecting block, the sliding support block is connected with the guide rail in a sliding manner, the poke rod is fixedly connected with the poke shaft, the poke shaft is connected with the sliding support block, the spring connecting plate is connected with the sliding support block, and the discharge port is fixedly connected with the material guide box;

pouring waste residues into the screening box from the feeding hole, and then leaking into the material guiding box through the screening group, wherein the screened waste residues are guided into the sliding-out box through the screening group and then slide out of the device, the waste residues in the material guiding box enter the rough breaking mechanism through the discharging hole, the sliding support blocks are upwards pushed, the sliding support blocks are far away from the limiting teeth, the spring connecting plate is compressed, the sliding support blocks can conveniently slide on the guide rail and drive the adjusting shifting shaft and the shifting rod to be positioned on the screening box, the sliding support blocks are stopped to be upwards pushed, the sliding support blocks are clamped on the limiting teeth under the action of the spring connecting plate, the shifting shaft is rotated to drive the electric shifting rod to rotate, and the shifting rod can forward shift the waste residues clamped in the screening group.

Preferably, the rough breaking mechanism comprises a breaking cone furnace, a reinforcing grid, convex strips, a breaking cone roller, convex blocks, a follow-up disc, a screening swash plate, a discharging swash plate, a motor I, a driving wheel, a driven wheel, a main shaft and a base, wherein the reinforcing grid is arranged outside the breaking cone furnace, the inner side of the breaking cone furnace is provided with a plurality of convex strips, one side of the convex strips is provided with the breaking cone roller, the outer side of the breaking cone roller is provided with the convex blocks, one side of the breaking cone roller is provided with the main shaft, the outer side of the breaking cone roller is provided with the follow-up disc, one side of the follow-up disc is provided with the screening swash plate, one side of the screening swash plate is provided with the discharging swash plate, one side of the main shaft is provided with the base, the outer side of the main shaft is provided with the driving wheel, one side of the driving wheel is provided with the motor I, the breaking cone furnace and the convex strips are fixedly connected, the breaking cone furnace, the screening swash plate, the discharging swash plate and the base are fixedly connected with the reinforcing grid, the convex blocks, the follow-up disc and the breaking cone roller, the crushing conical roller, the driven wheel and the main shaft are fixedly connected, the driven wheel is meshed with the driving wheel, the output end of the motor I is connected with the driving wheel,

motor I rotates for the drive wheel and provides power, the drive wheel drives the main shaft through following the driving wheel and rotates, the main shaft drives broken cone roller and rotates, broken cone roller drives follow-up disc and lug and rotates, waste residue among the screening mechanism gets into broken awl stove, carry out the breakage to the waste residue under the combined action of sand grip and lug, waste residue after the breakage falls to the sieve material sloping cam plate through the follow-up disc in, part waste residue falls to the ejection of compact sloping cam plate in from the sieve material sloping cam plate, fall to the repulping mechanism by the ejection of compact sloping cam plate again, remaining waste residue rolls to in the repulping mechanism.

Preferably, the recrushing mechanism includes recrushing case, motor II, gear box, recrushing roller, collecting box, the recrushing incasement side is equipped with the recrushing roller, and recrushing case one side is equipped with the gear box, and gear box one side is equipped with the collecting box, and the gear box opposite side is equipped with motor II, gear box and recrushing case fixed connection, motor II and gear box are connected, and the gear box is connected with the recrushing roller, and the collecting box is connected with the coarse crushing mechanism, and motor II drives the rotation of recrushing roller through the gear box, and remaining waste residue rolls to the recrushing roller in the coarse crushing mechanism, carries out the recrushing under the effect of recrushing roller again, and waste residue after smashing and other waste residues that fall out through the coarse crushing mechanism all get into the collecting box.

Preferably, screening group includes screening frame, screening roller, rocks the handle, the screening frame inboard is equipped with a plurality of screening rollers, and screening frame one side is equipped with rocks the handle, rocks handle and screening frame fixed connection, and screening roller and screening frame are connected, and the waste residue can slide on the screening frame through the screening roller when the screening frame, can rock on screening mechanism the screening frame through rocking the handle, and the screening frame drives the screening roller simultaneously and rocks.

Compared with the prior art, the utility model beneficial effect shows:

pouring waste residues into a screening box from a feeding hole, leaking into a material guiding box through a screening group, leading the screened waste residues into a sliding-out box back sliding-out device through the screening group, enabling the waste residues in the material guiding box to enter a coarse breaking mechanism through a discharging hole, upwards pushing a sliding support block, enabling the sliding support block to be away from limiting teeth, compressing a spring connecting plate, facilitating the sliding of the sliding support block on a guide rail and driving an adjusting shifting shaft and a shifting rod to be in positions on the screening box, stopping upwards pushing the sliding support block, enabling the sliding support block to be clamped on the limiting teeth under the action of the spring connecting plate, rotating a shifting shaft electric shifting rod, enabling the shifting rod to forwards shift the waste residues clamped in the screening group, screening out the waste residues beyond the crushing capacity of a crushing device through screening, preventing the high-load operation of the crushing device, and protecting the crushing device.

Drawings

FIG. 1 is a schematic structural view of an industrial solid waste screening and crushing treatment device of the utility model;

FIG. 2 is another side schematic view of the industrial solid waste screening and crushing treatment device of the utility model;

FIG. 3 is a schematic diagram of the internal structure of a screening mechanism and an enlarged view of the position A in the industrial solid waste screening and crushing treatment device of the utility model;

FIG. 4 is a schematic view of the internal structure of the industrial solid waste screening and crushing treatment device of the utility model;

in the figure: 1. a screening mechanism; 11. a feed inlet; 12. a screening cassette; 13. screening and grouping; 131. a screening rack; 132. a screening roller; 133. shaking the handle; 14. sliding out of the box; 15. a material guide box; 16. a discharge port; 17. supporting legs; 18. connecting blocks; 19. A guide rail; 101. limiting teeth; 102. a shifting shaft; 103. a poke rod; 104. a sliding support block; 105. a spring connecting plate; 2. a coarse breaking mechanism; 21. crushing a cone furnace; 22. reinforcing grids; 23. a convex strip; 24. crushing a conical roller; 25. a bump; 26. a follower disk; 27. a material screening swash plate; 28. a discharge swash plate; 29. a motor I; 201. a driving wheel; 202. a driven wheel; 203. a main shaft; 204. A base; 3. a re-crushing mechanism; 31. crushing the materials in a box; 32. a motor II; 33. a gear case; 34. crushing the roller again; 35. and a collection box.

Detailed Description

For the convenience of understanding of those skilled in the art, the technical solution of the present invention will be further specifically described with reference to fig. 1 to 4.

The industrial solid waste screening and crushing treatment device comprises a screening mechanism 1, a coarse crushing mechanism 2 and a re-crushing mechanism 3, wherein the coarse crushing mechanism 2 is arranged on one side of the screening mechanism 1, and the re-crushing mechanism 3 is arranged on one side of the coarse crushing mechanism 2;

the screening mechanism 1 comprises a feeding port 11, a screening box 12, a screening group 13, a sliding box 14, a material guiding box 15, a discharging port 16, supporting legs 17, connecting blocks 18, a guide rail 19, limiting teeth 101, a poking shaft 102, a poking rod 103, a sliding support block 104 and a spring connecting plate 105, wherein the screening box 12 is arranged on one side of the feeding port 11, the screening group 13 is arranged on the inner side of the screening box 12, a plurality of connecting blocks 18 are arranged on one side of the screening group 13, the material guiding box 15 is arranged on the other side of the screening group 13, the supporting legs 17 are arranged on one side of the material guiding box 15, the guide rail 19 is arranged on the outer side of the material guiding box 15, the limiting teeth 101 are arranged on one side of the material guiding box 15, the discharging port 16 is arranged on the other side of the material guiding box 15, the sliding box 14 is arranged on one side of the discharging port 16, the sliding support block 104 is arranged on the outer side of the guide rail 19, the spring connecting plate 105 is arranged on the inner side of the sliding support block 104, the poking shaft 102 is arranged on one side of the sliding support block 104, and the poking shaft 103 is arranged on one side of the waving shaft, the feeding port 11, the sliding-out box 14, the guide rail 19, the connecting block 18, the limiting teeth 101 and the supporting legs 17 are fixedly connected with the screening box 12, the screening group 13 is slidably connected with the screening box 12, the material guiding box 15 is connected with the screening box 12 through the connecting block 18, the sliding support block 104 is slidably connected with the guide rail 19, the poking rod 103 is fixedly connected with the poking shaft 102, the poking shaft 102 is connected with the sliding support block 104, the spring connecting plate 105 is connected with the sliding support block 104, and the discharging port 16 is fixedly connected with the material guiding box 15;

waste residues are poured into a screening box 12 from a feeding hole 11 and then leak into a material guide box 15 through a screening group 13, the screened waste residues are guided into a sliding box 14 through the screening group 13 and then slide out of the device, the waste residues in the material guide box 15 enter a coarse breaking mechanism 2 through a discharging hole 16, a sliding support block 104 is pushed upwards to enable the sliding support block 104 to be away from a limiting tooth 101, a spring connecting plate 105 is compressed, the sliding support block 104 slides on a guide rail 19 conveniently and drives a shifting shaft 102 and a shifting rod 103 to be adjusted in position on the screening box 12, the sliding support block 104 is stopped being pushed upwards, the sliding support block 104 is clamped on the limiting tooth 101 under the action of the spring connecting plate 105, the shifting shaft 102 is rotated to drive a shifting rod 103 to rotate, and the shifting rod 103 shifts the waste residues clamped in the screening group 13 forwards.

The rough breaking mechanism 2 comprises a breaking cone furnace 21, a reinforcing grid 22, convex strips 23, a breaking cone roller 24, convex blocks 25, a follow-up disc 26, a screening swash plate 27, a discharging swash plate 28, a motor I29, a driving wheel 201, a driven wheel 202, a main shaft 203 and a base 204, wherein the reinforcing grid 22 is arranged on the outer side of the breaking cone furnace 21, the convex strips 23 are arranged on the inner side of the breaking cone furnace 21, the breaking cone roller 24 is arranged on one side of the convex strips 23, the convex blocks 25 are arranged on the outer side of the breaking cone roller 24, the main shaft 203 is arranged on one side of the breaking cone roller 24, the follow-up disc 26 is arranged on the outer side of the breaking cone roller 24, the screening swash plate 27 is arranged on one side of the screening swash plate 27, the discharging swash plate 28 is arranged on one side of the main shaft 203, the driven wheel 202 is arranged on the outer side of the main shaft 203, the driving wheel 201 is provided with the motor I29, the breaking cone furnace 21 is fixedly connected with the convex strips 23, the breaking cone furnace 21, The screening swash plate 27, the discharging swash plate 28 and the base 204 are all fixedly connected with the reinforcing grid 22, the convex block 25, the follow-up disc 26 and the crushing cone roller 24 are fixedly connected, the crushing cone roller 24, the driven wheel 202 and the main shaft 203 are fixedly connected, the driven wheel 202 is meshed with the driving wheel 201, the output end of the motor I29 is connected with the driving wheel 201,

the motor I29 rotates for the drive wheel 201 and provides power, the drive wheel 201 drives the main shaft 203 to rotate through the driven wheel 202, the main shaft 203 drives the crushing cone roller 24 to rotate, the crushing cone roller 24 drives the follow-up disc 26 and the lug 25 to rotate, waste residues in the screening mechanism 1 enter the crushing cone furnace 21, waste residues are crushed under the combined action of the raised strips 23 and the lug 25, the crushed waste residues fall into the screening swash plate 27 through the follow-up disc 26, part of the waste residues fall into the discharging swash plate 28 from the screening swash plate 27, then fall into the re-crushing mechanism 3 through the discharging swash plate 28, and the rest waste residues are rolled into the re-crushing mechanism 3.

The re-crushing mechanism 3 comprises a re-crushing box 31, a motor II 32, a gear box 33, a re-crushing roller 34 and a collecting box 35, the re-crushing roller 34 is arranged on the inner side of the re-crushing box 31, the gear box 33 is arranged on one side of the re-crushing box 31, the collecting box 35 is arranged on one side of the gear box 33, the motor II 32 is arranged on the other side of the gear box 33, the gear box 33 is fixedly connected with the re-crushing box 31, the motor II 32 is connected with the gear box 33, the gear box 33 is connected with the re-crushing roller 34, the collecting box 35 is connected with the coarse crushing mechanism 2, the motor II 32 drives the re-crushing roller 34 to rotate through the gear box 33, residual waste residues in the coarse crushing mechanism 2 are rolled into the re-crushing roller 34 and are re-crushed under the action of the re-crushing roller 34, and the crushed waste residues and other waste residues falling out of the coarse crushing mechanism 2 all enter the collecting box 35.

Screening group 13 includes screening frame 131, screening roller 132, rocks handle 133, screening frame 131 inboard is equipped with a plurality of screening rollers 132, and screening frame 131 one side is equipped with rocks handle 133, rocks handle 133 and screening frame 131 fixed connection, and screening roller 132 and screening frame 131 are connected, and the waste residue can slide on screening frame 131 through screening roller 132 when screening frame 131, can rock on screening mechanism 1 screening frame 131 through rocking handle 133, and screening frame 131 drives screening roller 132 simultaneously and rocks.

The utility model provides an industry screens broken handle device useless admittedly, the working process as follows:

waste residues are poured into a screening box from a feeding hole and then leak into a material guide box through a screening group, the screened waste residues are guided into a slide-out box through the screening group and then slide out of the device, the waste residues in the material guide box enter a crushing cone furnace through a discharging hole, a sliding support block is pushed upwards to be away from a limit tooth, a spring connecting plate is compressed, the sliding support block can conveniently slide on a guide rail and drive an adjusting stirring shaft and a stirring rod to be adjusted to be positioned on the screening box, the upward pushing of the sliding support block is stopped, the sliding support block is clamped on the limit tooth under the action of the spring connecting plate, the stirring shaft is rotated to drive an electric stirring rod to rotate, the stirring rod is enabled to stir the waste residues clamped in the screening group forwards, a motor I provides power for the rotation of a driving wheel, the driving wheel drives a main shaft to rotate through a driven wheel, the main shaft drives a crushing cone roller to rotate, the crushing cone roller drives a follower disc and a lug to rotate, and the waste residues in the crushing cone furnace are crushed under the combined action of the raised strips and the raised blocks, waste residue after the breakage falls to the sieve material sloping cam plate through the follow-up disc in, during partial waste residue falls to the ejection of compact sloping cam plate from the sieve material sloping cam plate, falls to the collecting box by the ejection of compact sloping cam plate again, remaining waste residue rolls to the roller of smashing again, and motor II drives the roller of smashing again through the gear box and rotates, smashes the waste residue again under the effect of roller of smashing again, and the waste residue after smashing falls into the collecting box.

The foregoing is illustrative and explanatory only of the structure of the present invention, and it is intended that those skilled in the art who have the structure described herein be able to make various modifications, additions or substitutions in the same manner as the above-described embodiments without departing from the structure of the present invention or exceeding the scope defined by the claims.

Claims (4)

1. The industrial solid waste screening and crushing treatment device comprises a screening mechanism, a coarse crushing mechanism and a re-crushing mechanism, and is characterized in that the coarse crushing mechanism is arranged on one side of the screening mechanism, and the re-crushing mechanism is arranged on one side of the coarse crushing mechanism;

the screening mechanism comprises a feed inlet, a screening box, a screening group, a sliding box, a guide box, a discharge port, a supporting leg, a connecting block, a guide rail, a limiting tooth, a shifting shaft, a shifting rod, a sliding support block and a spring connecting plate, wherein the screening box is arranged at one side of the feed inlet, the screening group is arranged at the inner side of the screening box, a plurality of connecting blocks are arranged at one side of the screening group, the guide box is arranged at the other side of the screening group, the supporting leg is arranged at one side of the guide box, the guide rail is arranged at one side of the guide box, the limiting tooth is arranged at one side of the guide box, the discharge port is arranged at the other side of the guide box, the sliding box is arranged at one side of the discharge port, the sliding support block is arranged at the outer side of the guide rail, the spring connecting plate is arranged at the inner side of the sliding support block, the shifting shaft is arranged at one side of the sliding support block, the shifting rod is arranged at one side of the fluctuation shaft, the feed inlet, the guide rail, the connecting block, the limiting tooth, the sliding box and the sliding support leg are fixedly connected with the screening box, the guide box is connected with the screening box through a connecting block, the sliding support block is connected with the guide rail in a sliding manner, the poking rod is fixedly connected with the poking shaft, the poking shaft is connected with the sliding support block, the spring connecting plate is connected with the sliding support block, and the discharge port is fixedly connected with the guide box.

2. The industrial solid waste screening and crushing treatment device as claimed in claim 1, wherein the coarse crushing mechanism comprises a crushing cone furnace, a reinforcing grid, convex strips, a crushing cone roller, convex blocks, a follow-up disc, a material sieving swash plate, a discharging swash plate, a motor I, a driving wheel, a driven wheel, a main shaft and a base, the reinforcing grid is arranged outside the crushing cone furnace, the convex strips are arranged inside the crushing cone furnace, the crushing cone roller is arranged on one side of the convex strips, the convex blocks are arranged outside the crushing cone roller, the main shaft is arranged on one side of the crushing cone roller, the follow-up disc is arranged outside the crushing cone roller, the material sieving swash plate is arranged on one side of the follow-up disc, the material sieving swash plate is arranged on one side of the material swash plate, the base is arranged on one side of the main shaft, the driven wheel is arranged on one side of the driven wheel, the motor I is arranged on one side of the driving wheel, the crushing cone furnace and the convex strips are fixedly connected, and the crushing cone furnace, the material swash plate, the discharging swash plate, the material swash plate, the crushing cone furnace, the material swash plate and the material swash plate are arranged on one side of the driven wheel and the driven wheel, the material swash plate and the crushing cone furnace, the material swash plate and the material swash plate, the crushing cone furnace, the material swash plate, the crushing cone furnace and the material swash plate, the crushing cone furnace are fixedly connected with the crushing cone furnace, the material swash plate, the crushing cone furnace, the material swash plate, the crushing cone, the crushing device is arranged on one side of the driven wheel, the crushing cone, the driven wheel, the crushing device is arranged on one side of the crushing device, the crushing cone, the crushing device is arranged on one side of the crushing device, the crushing, The base all with reinforcing net fixed connection, lug, follower disc and broken awl roller fixed connection, broken awl roller, follow driving wheel and main shaft fixed connection, from the meshing of driving wheel and drive wheel connection, I output of motor is connected with the drive wheel.

3. The industrial solid waste screening and crushing treatment device as claimed in claim 1, wherein the re-crushing mechanism comprises a re-crushing box, a motor II, a gear box, a re-crushing roller and a collecting box, the re-crushing roller is arranged on the inner side of the re-crushing box, the gear box is arranged on one side of the re-crushing box, the collecting box is arranged on one side of the gear box, the motor II is arranged on the other side of the gear box, the gear box is fixedly connected with the re-crushing box, the motor II is connected with the gear box, the gear box is connected with the re-crushing roller, and the collecting box is connected with the coarse crushing mechanism.

4. The industrial solid waste screening and crushing treatment device according to claim 1, wherein the screening group comprises a screening frame, screening rollers and a shaking handle, the screening rollers are arranged on the inner side of the screening frame, the shaking handle is arranged on one side of the screening frame, the shaking handle is fixedly connected with the screening frame, and the screening rollers are connected with the screening frame.

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