CN111450956A

CN111450956A - Crushing and compressing pop can equipment

Info

Publication number: CN111450956A
Application number: CN202010373884.0A
Authority: CN
Inventors: 贺建国
Original assignee: Shaoxing Shangyu C Fang Environmental Protection Equipment Co ltd
Current assignee: Shaoxing Shangyu C Fang Environmental Protection Equipment Co ltd
Priority date: 2020-05-06
Filing date: 2020-05-06
Publication date: 2020-07-28

Abstract

The utility model provides a smash compression easy open can equipment, include the work box and set up in the work chamber in the work box, be equipped with the gear chamber in the work chamber, be equipped with in the work chamber and be located work chamber upper end and the open-ended chamber that rubs that makes progress, be equipped with the depainting pond in the work chamber, this equipment can tentatively rub the easy open can automatically to paint off to easy open can piece surface paint with the depainting solvent, the equipment gets rid of the residual solution on the piece and carries out shredding with the piece after the depainting, and the powder after smashing will send out equipment at last through abundant compression, has improved the work efficiency that the easy open can was handled greatly, has realized depainting in the easy open can is retrieved and has smashed the automatic integration of compression.

Description

Crushing and compressing pop can equipment

Technical Field

The invention relates to the technical field of waste pop can recovery and treatment, in particular to a device for crushing and compressing pop cans.

Background

In recent years, with the increasing importance of sustainable development in various countries in the world, the circular economy is more and more concerned by the public, wherein mineral resources are non-renewable, so that the recycling of the mineral resources is always a hot spot field, the waste aluminum pop cans are high-quality recycling resources, however, the recycling of the Chinese pop cans is still in a development stage, a lot of waste pop cans cannot return to a manufacturing source, the recycling processing of the waste pop cans is divided into a plurality of parts, the integration of crushing, depainting and compressing work is difficult to realize, and the invention improves the problems.

Disclosure of Invention

The invention aims to solve the technical problem of providing a device for crushing and compressing pop cans, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to a crushing and compressing pop can device, which comprises a working box and a working cavity arranged in the working box, wherein a gear cavity is arranged in the working cavity, a grinding cavity which is positioned at the upper end of the working cavity and is opened upwards is arranged in the working cavity, a paint removing pool is arranged in the working cavity, a drying mechanism is arranged at the right end of the paint removing pool, a crushing cavity is arranged at the right end of the drying mechanism, a conveying cavity is arranged at the lower end of the crushing cavity, a secondary compression cavity is arranged in the working cavity, a first gear shaft, a second gear shaft and a driving gear shaft which penetrate through the working box from front to back are arranged in the gear cavity, a first feeding gear, a second feeding gear and a driving feeding gear are respectively arranged on the first gear shaft, the second gear shaft and the driving gear shaft, a material pushing rack is arranged below the driving feeding gear, and a filtering rack is arranged at the right end of, the right wall of the working box is provided with a first rack groove which penetrates through the left and right, the left end of the pushing rack penetrates through the first rack groove and extends to the outer side of the left end of the working box, the lower end of the mincing cavity is provided with a feeding rack, the feeding rack is meshed with the upper ends of the first gear shaft and the second gear shaft, the rightmost end of the feeding rack penetrates through the second rack groove which penetrates through the right wall of the working box left and right and extends to the outer side of the right end of the working box, the first feeding gear is positioned at the rearmost side, the second feeding gear is positioned in the middle, the active feeding gear is positioned at the foremost side in the relative positions of the first feeding gear, the second feeding gear and the active feeding gear, the front side of the active feeding gear is meshed with the filtering rack and the pushing rack, the rear side of the active feeding gear is meshed with a ratchet wheel at the front side of the second feeding gear, the front end of the first feeding gear is meshed with the rear end of the, the rear end of the first feeding gear and the middle of the second feeding gear are meshed with the feeding rack;

the filter plate is fixedly arranged at the lower end of the filter rack, the material pushing plate is arranged at the right end of the pushing rack, a material pushing chute is arranged in the material pushing plate, and a material pushing sliding block fixedly arranged at the right end of the pushing rack is arranged in the material pushing chute.

Further, a transfer groove positioned at the right end of the paint stripping pool is arranged in the working cavity, a drying cavity is arranged at the right end of the transfer groove, a vibration motor is arranged on the bottom wall of the drying cavity, a vibration shaft is arranged on the vibration motor, a rotatable driven shaft which penetrates through the working box from front to back is respectively arranged at the left and the right of the vibration shaft, the two driven shafts are connected with the vibration shaft through belt transmission, a vibration cam is arranged on the driven shaft, a blower is arranged on the vibration cam, a dryer and a telescopic motor are arranged on the left wall of the drying cavity, a telescopic rod is arranged on the telescopic motor, a discharge plate is arranged at the right end of the telescopic rod, a discharge chute is arranged in the discharge plate, a discharge slider fixedly arranged at the right end of the telescopic rod is arranged in the discharge chute, a discharge groove and a discharge telescopic motor are arranged on, the discharging telescopic rod is fixedly provided with a discharging baffle, and the top of the drying cavity is provided with a waste gas treatment device.

Furthermore, four roller shafts penetrating through the grinding cavity from front to back are arranged in the grinding cavity, grinding rolling cutters are arranged on the roller shafts, the four roller shafts are in transmission connection through a roller cutter belt, and fixed cutters are arranged on the inner wall of the grinding cavity.

Furthermore, a rotatable crushing shaft which runs through the front wall and the rear wall of the working box from front to back is arranged in the crushing cavity, a crushing bevel gear is arranged on the crushing shaft, a crushing disc is fixedly arranged at the rear end of the crushing bevel gear, crushing blades are fixedly arranged on the crushing disc through screws, a semicircular crushing filter screen is arranged at the lower end of the crushing cavity, a transmission bevel gear is meshed at the front end of the crushing bevel gear, and a crushing transmission shaft is fixedly arranged at the right end of the transmission bevel gear.

Further, fixed being equipped with push motor on the wall of work box right side, the push motor left end is equipped with and extends to the catch bar of conveying intracavity, be equipped with on the catch bar and be located conveying intracavity portion's helical blade, be equipped with the transmission groove on the wall of work box right side, the catch bar with the transmission is equipped with and is located between the crushing transmission shaft crushing belt pulley in the transmission groove, the left end of conveying chamber is equipped with and is located pressure sensor on the wall of work box left side.

Furthermore, a rotatable compression shaft penetrating through the working box from front to back is arranged in the secondary compression cavity, a compression cam is arranged on the compression shaft, a compression plate is arranged at the lower end of the compression cam, a compression block located on the upper side of the conveying cavity is arranged at the lower end of the secondary compression cavity, and a compression rod and a return spring are fixedly arranged between the compression block and the compression plate.

Furthermore, a discharging cavity is arranged at the lower end of the working cavity, a first belt shaft, a second belt shaft and a third belt shaft which penetrate through the rear wall of the working box are rotatably arranged in the discharging cavity, a belt gear is fixedly arranged on the third belt shaft, the first belt shaft is in transmission connection with the third belt shaft through a first belt pulley, the second belt shaft is in transmission connection with the third belt shaft through a second belt pulley, a compression baffle is arranged at the lower end of the conveying cavity, a discharging motor is arranged at the right end of the working box, a discharging shaft is arranged on the discharging motor, a discharging gear is fixedly arranged on the discharging shaft, a cross shaft is rotatably arranged on the rear wall of the working box, a cylindrical gear is arranged on the cross shaft, the cylindrical gear is in ratchet transmission with the belt gear and the discharging gear, the discharging gear is meshed with the lower end of the compression baffle, a compression box is arranged on the first belt pulley, and a compression cavity is arranged in the compression box.

The invention has the beneficial effects that: the waste pop can is put into equipment, the equipment can automatically preliminarily rub the pop can, paint removing solvent is used for paint removing on the surface of fragments of the pop can, residual solution on the fragments is removed by the equipment after paint removing is finished, the fragments are crushed, crushed powder is fully compressed and is finally sent out of the equipment, the working efficiency of treatment of the pop can is greatly improved, and the automatic integration of paint removing, crushing and compression in recovery of the pop can is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

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

FIG. 2 is a schematic view of the first charging gear of FIG. 1;

FIG. 3 is a schematic view of the second feeding gear of FIG. 1;

FIG. 4 is a schematic structural view of the active charging gear of FIG. 1;

FIG. 5 is a schematic structural view of the drying mechanism in FIG. 1;

fig. 6 is a schematic view of the structure a-a in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-6, a crushing and compressing pop-top can device comprises a work box 10 and a work chamber 11 disposed in the work box 10, wherein a gear chamber 12 is disposed in the work chamber 11, a mincing chamber 90 disposed at the upper end of the work chamber 11 and opening upward is disposed in the work chamber 11, a paint removing tank 31 is disposed in the work chamber 11, a drying mechanism 99 is disposed at the right end of the paint removing tank 31, a crushing chamber 48 is disposed at the right end of the drying mechanism 99, a conveying chamber 68 is disposed at the lower end of the crushing chamber 48, a secondary compression chamber 69 is disposed in the work chamber 11, a first gear shaft 13, a second gear shaft 15 and a driving gear shaft 16 penetrating through the work box 10 from front to back are disposed in the gear chamber 12, a first feeding gear 82, a second feeding gear 83 and a driving feeding gear 84 are disposed on the first gear shaft 13, the second gear shaft 15 and the driving gear shaft 16 respectively, a pushing rack 25 is arranged below the active feeding gear 84, a filtering rack 26 is arranged at the right end of the active feeding gear 84, a first rack groove 17 penetrating through the right wall of the working box 10 from left to right is arranged on the right wall of the working box 10, the left end of the pushing rack 25 penetrates through the first rack groove 17 and extends to the outer side of the left end of the working box 10, a feeding rack 22 is arranged at the lower end of the mincing cavity 90, the feeding rack 22 is meshed with the upper ends of the first gear shaft 13 and the second gear shaft 15, the rightmost end of the feeding rack passes through a second rack groove penetrating through the right wall of the working box 10 from left to right and extends to the outer side of the right end of the working box 10, the first feeding gear 82 is positioned at the rearmost side, the second feeding gear 83 is positioned in the middle, the active feeding gear 84 is positioned at the foremost side, and the front side of the active feeding gear 84 is positioned with the filtering rack 26, The pushing rack 25 is meshed, the rear side of the driving feeding gear 84 is meshed with a ratchet wheel at the front side of the second feeding gear 83, the front end of the first feeding gear 82 is meshed with the rear end of the second feeding gear 83, and the middle of the rear end of the first feeding gear 82 and the middle of the second feeding gear 83 are meshed with the feeding rack 22;

a filter plate 30 is fixedly arranged at the lower end of the filter rack 26, a material pushing plate 29 is arranged at the right end of the pushing rack 25, a material pushing chute 28 is arranged in the material pushing plate 29, and a material pushing slide block 27 fixedly arranged at the right end of the pushing rack 25 is arranged in the material pushing chute 28.

Beneficially, a transfer groove 23 is arranged at the right end of the paint stripping pool 31 in the working chamber 11, a drying chamber 32 is arranged at the right end of the transfer groove 23, a vibration motor 44 is arranged on the bottom wall of the drying chamber 32, a vibration shaft 45 is arranged on the vibration motor 44, a rotatable driven shaft 46 penetrating through the working box 10 from front to back is respectively arranged at the left and the right of the vibration shaft 45, the two driven shafts 46 are in transmission connection with the vibration shaft 45 through a belt 87, a vibration cam 47 is arranged on the driven shaft 46, a blower 38 is arranged on the vibration cam 47, a dryer 37 and a telescopic motor 39 are arranged on the left wall of the drying chamber, a telescopic rod 40 is arranged on the telescopic motor 39, a discharge plate 43 is arranged at the right end of the telescopic rod 40, a discharge chute 42 is arranged in the discharge plate 43, and a discharge slider 41 fixedly arranged at the right, be equipped with blown down tank 36, the flexible motor 33 of ejection of compact on the stoving chamber 32 right wall, the flexible motor 33 lower extreme of ejection of compact is equipped with ejection of compact telescopic link 34, ejection of compact telescopic link 34 is fixed and is equipped with ejection of compact baffle 35, stoving chamber 32 top is equipped with exhaust treatment device.

Beneficially, four roller shafts 19 penetrating the grinding chamber 90 from front to back are arranged in the grinding chamber 90, grinding rolling blades 21 are arranged on the roller shafts 19, the four roller shafts 19 are in transmission connection through a roller belt 20, and a fixed blade 18 is arranged on the inner wall of the grinding chamber 90.

Beneficially, a rotatable crushing shaft 49 penetrating the front wall and the rear wall of the working box 10 from front to back is arranged in the crushing cavity 48, a crushing bevel gear 50 is arranged on the crushing shaft 49, a crushing disc 53 is fixedly arranged at the rear end of the crushing bevel gear, a crushing blade 58 is fixedly arranged on the crushing disc 53 through a screw 59, a semicircular crushing filter screen 54 is arranged at the lower end of the crushing cavity 48, a transmission bevel gear 51 is meshed at the front end of the crushing bevel gear 50, and a crushing transmission shaft 52 is fixedly arranged at the right end of the transmission bevel gear 51.

Advantageously, a pushing motor 56 is fixedly arranged on the right wall of the working box 10, a pushing rod 60 extending into the conveying cavity 68 is arranged at the left end of the pushing motor 56, a helical blade 62 positioned inside the conveying cavity 68 is arranged on the pushing rod 60, a transmission groove 95 is arranged on the right wall of the working box 10, a crushing belt pulley 55 positioned in the transmission groove 95 is arranged between the pushing rod 60 and the crushing transmission shaft 52 in a transmission manner, and a pressure sensor 101 positioned on the left wall of the working box 10 is arranged at the leftmost end of the conveying cavity 68.

Advantageously, a rotatable compression shaft 71 penetrating the working box 10 in the front and rear direction is disposed in the secondary compression chamber 69, a compression cam 70 is disposed on the compression shaft 71, a compression plate 72 is disposed at the lower end of the compression cam 70, a compression block 75 disposed at the upper side of the transfer chamber 68 is disposed at the lower end of the secondary compression chamber 69, and a compression rod 74 and a return spring 73 are fixedly disposed between the compression block 75 and the compression plate 72.

Beneficially, a discharging cavity 96 is arranged at the lower end of the working cavity 11, a first belt shaft 61, a second belt shaft 80 and a third belt shaft 98 penetrating through the rear wall of the working box 10 are rotatably arranged in the discharging cavity 96, a belt gear 200 is fixedly arranged on the third belt shaft 98, the first belt shaft 61 and the third belt shaft 98 are in transmission connection through a first belt pulley 63, the second belt shaft 80 and the third belt shaft 98 are in transmission connection through a second belt pulley 81, a compression baffle 66 is arranged at the lower end of the conveying cavity 68, a discharging motor 76 is arranged at the right end of the working box 10, a discharging shaft 77 is arranged on the discharging motor 76, a discharging gear 97 is fixedly arranged on the discharging shaft 77, a transverse shaft 79 is rotatably arranged on the rear wall of the working box 10, a cylindrical gear 78 is arranged on the transverse shaft 79, and the cylindrical gear 78 is in ratchet transmission with the belt gear 200 and the discharging gear 97, the discharging gear 97 is meshed with the lower end of the compression baffle 66, the first belt pulley 63 is provided with a compression box 64, and a compression cavity 65 is arranged in the compression box 64.

The working steps are as follows: adding waste ring-pull cans into a mincing chamber 90, mincing the ring-pull cans by a rotary mincing rolling cutter 21 and a fixed cutter 18, clockwise rotating a driving gear shaft 16 to drive a driving feeding gear 84, a first feeding gear 82 and a second feeding gear 83 to rotate so as to drive a feeding rack 22 to move left and right once, feeding minced fragments into a paint removing pool 31 to react with a paint removing solvent, anticlockwise rotating the driving gear shaft 16 after full reaction to drive a filter plate 30 to ascend and a material pushing plate 29 to right, pushing the depainted fragments into a drying chamber 32, and vibrating, air showering and heating the fragments in the drying chamber 32 to remove residual solution on the surfaces of the fragments; the discharging plate 43 pushes the processed fragments into the crushing cavity 48, the fragments are crushed by the crushing blade 58 and the inner wall of the crushing cavity 48, and finally the obtained powder enters the conveying cavity 68 through the crushing filter screen 54; the powder in the conveying cavity 68 is pushed leftwards by the rotating helical blade 62, preliminary compression is carried out, when the pressure sensor 101 receives certain pressure, the compression cam 70 rotates, the discharging motor 76 drives the discharging gear 97 to rotate so as to drive the compression baffle 66 to move leftwards, the powder at the left end of the compression cavity 71 is pressed into the compression box 64 by the compression block 75 to be compressed for the second time, the discharging motor 76 is reversely rotated when the compression block 75 rises after the compression is finished, meanwhile, the second belt pulley 81 is driven, the first belt pulley 63 runs, and the compression box 64 filled with the compressed powder is transported out of the working cavity 11 leftwards.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a smash compression easy open can equipment, include the work box and set up in the work chamber in the work box, be equipped with the gear chamber in the work chamber, be equipped with in the work chamber and be located the chamber is rubbed to the open-ended work chamber upper end and upwards, be equipped with the depainting pond in the work chamber, depainting pond right-hand member is equipped with stoving mechanism, stoving mechanism right-hand member is equipped with smashes chamber, its characterized in that: a conveying cavity is arranged at the lower end of the crushing cavity, a secondary compression cavity is arranged in the working cavity, a first gear shaft, a second gear shaft and a driving gear shaft which penetrate through the working box from front to back are arranged in the gear cavity, a first feeding gear, a second feeding gear and a driving feeding gear are respectively arranged on the first gear shaft, the second gear shaft and the driving gear shaft, a material pushing rack is arranged below the driving feeding gear, a filter rack is arranged at the right end of the driving feeding gear, a first rack groove penetrating through the right wall of the working box from left to right is arranged on the right wall of the working box, the left end of the material pushing rack penetrates through the first rack groove and extends to the outer side of the left end of the working box, a material feeding rack is arranged at the lower end of the cavity, the material feeding rack is meshed with the upper ends of the first gear shaft and the second gear shaft, and the rightmost end penetrates through a second rack groove penetrating through the right wall, the first feeding gear is positioned at the rearmost side, the second feeding gear is positioned in the middle, the active feeding gear is positioned at the foremost side in the relative positions of the first feeding gear, the second feeding gear and the active feeding gear, the front side of the active feeding gear is meshed with the filtering rack and the pushing rack, the rear side of the active feeding gear is meshed with the ratchet wheel at the front side of the second feeding gear, the front end of the first feeding gear is meshed with the rear end of the second feeding gear, and the middles of the first feeding gear and the second feeding gear are meshed with the feeding rack;

2. A crushing and compressing can device as claimed in claim 1, wherein: the working chamber is internally provided with a transfer groove positioned at the right end of the depainting pool, the right end of the transfer groove is provided with a drying chamber, the bottom wall of the drying chamber is provided with a vibrating motor, the vibrating motor is provided with a vibrating shaft, the left side and the right side of the vibrating shaft are respectively provided with a rotatable driven shaft which penetrates through the working box from front to back, the two driven shafts are connected with the vibrating shaft through belt transmission, the driven shaft is provided with a vibrating cam, the vibrating cam is provided with a blower, the left wall of the drying chamber is provided with a dryer and a telescopic motor, the telescopic motor is provided with a telescopic rod, the right end of the telescopic rod is provided with a discharge plate, the discharge plate is internally provided with a discharge chute, the discharge chute is internally provided with a discharge slider fixedly arranged at the right end of the telescopic rod, the right wall, the discharging telescopic rod is fixedly provided with a discharging baffle, and the top of the drying cavity is provided with a waste gas treatment device.

3. A crushing and compressing can device as claimed in claim 1, wherein: four roller shafts penetrating through the grinding cavity from front to back are arranged in the grinding cavity, grinding rolling cutters are arranged on the roller shafts, the four roller shafts are in transmission connection through a roller cutter belt, and fixed cutters are arranged on the inner wall of the grinding cavity.

4. A crushing and compressing can device as claimed in claim 1, wherein: the utility model discloses a crushing device, including the work box, smash the chamber, be equipped with the front and back wall in the crushing chamber run through in the front and back rotatable crushing axle of wall before the work box, it smashes bevel gear to be equipped with on the crushing axle, it is fixed to smash the fixed crushing dish that is equipped with in bevel gear rear end, it smashes the blade to be equipped with through the screw fixation on the crushing dish, it is equipped with semicircular crushing filter screen to smash the chamber lower extreme, it is equipped with transmission bevel gear to smash bevel gear.

5. A crushing and compressing can device as claimed in claim 1, wherein: the utility model discloses a crushing belt wheel, including work box, propelling movement axle, crushing belt wheel, the left end of conveying chamber is equipped with and is.

6. A crushing and compressing can device as claimed in claim 1, wherein: the rotary compression shaft penetrating through the working box from front to back is arranged in the secondary compression cavity, a compression cam is arranged on the compression shaft, a compression plate is arranged at the lower end of the compression cam, a compression block located on the upper side of the conveying cavity is arranged at the lower end of the secondary compression cavity, and a compression rod and a reset spring are fixedly arranged between the compression block and the compression plate.

7. A crushing and compressing can device as claimed in claim 1, wherein: the lower end of the working chamber is provided with a discharging chamber, the discharging chamber is rotatably provided with a first belt shaft, a second belt shaft and a third belt shaft which penetrate through the rear wall of the working box, the third belt shaft is fixedly provided with a belt gear, the first belt shaft is in transmission connection with the third belt shaft through a first belt pulley, the second belt shaft is in transmission connection with the third belt shaft through a second belt pulley, the lower end of the conveying chamber is provided with a compression baffle, the right end of the working box is provided with a discharging motor, the discharging motor is provided with a discharging shaft, the discharging shaft is fixedly provided with a discharging gear, the rear wall of the working box is rotatably provided with a cross shaft, the cross shaft is provided with a cylindrical gear, the cylindrical gear is in ratchet transmission with the belt gear and the discharging gear, the discharging gear is meshed with the lower end of the compression baffle, and the first belt pulley is provided with a compression box, and a compression cavity is arranged in the compression box.