CN216237860U

CN216237860U - Broken recovery unit of recycled paper

Info

Publication number: CN216237860U
Application number: CN202122959059.1U
Authority: CN
Inventors: 梁锦云
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-26
Filing date: 2021-11-26
Publication date: 2022-04-08
Anticipated expiration: 2031-11-26

Abstract

The utility model discloses a recycled paper crushing and recycling device, and relates to the technical field of recycled paper crushing and recycling. Comprises an upper cavity, a middle cavity, a lower cavity, a crushing device and a suction device, wherein the lower cavity is horizontally arranged, the middle layer cavity is arranged at the upper end of the lower layer cavity, the upper layer cavity is arranged at the upper end of the middle layer cavity, the crushing device comprises a first crushing component, a second crushing component and a driving component, the driving component is positioned in the middle layer cavity, the first crushing assembly is positioned in the upper layer cavity, the second crushing assembly is positioned in the lower layer cavity, the suction device is arranged at the side of the lower cavity, the utility model can carry out batch primary crushing and secondary crushing on paper, so that the area of the broken pieces after being broken by the breaking device is smaller than that of the broken pieces directly using the breaking device, the probability that the fan blades directly fall into the collecting cavity through crushing is higher, and the blocking probability of the crushing device is reduced.

Description

Broken recovery unit of recycled paper

Technical Field

The utility model relates to the technical field of recycled paper crushing and recycling, in particular to a recycled paper crushing and recycling device.

Background

Recycled paper recycling refers to a technology of recycling recycled paper produced in daily life and then performing a series of processes to make the recycled paper beneficial, and crushing in the recycled paper recycling process is the most basic process and is also a process that has a certain influence on subsequent processes, and the recycled paper is crushed to make paper pulp capable of being processed to make the recycled paper beneficial.

In the prior art, in the process of crushing paper in batches, in order to ensure that each piece of paper can be crushed sufficiently to the greatest extent, the output end of the crushing device needs to be matched with the size of a cavity sufficiently, namely, the smaller the gap between the crushing fan blades and the side wall of the cavity is, the better the gap is, but the problems exist that the size of each crushed paper fragment cannot be ensured to be consistent in the crushing process, the fragments have the sizes, small fragments can directly fall into a collecting cavity through the gap between the crushing fan blades, but large paper fragments can be punctured by the crushing fan blades and hung on the fan blades, the longer the crushing time is, the more paper fragments are hung on the crushing fan blades, the paper on the crushing fan blades is accumulated to a certain degree and then is contacted with the side wall of the cavity, the crushing fan blades are blocked and cannot operate, and the crushing equipment is damaged if the paper is serious, the device performs batch primary crushing on the paper in the process of feeding the paper into the crushing cavity, the paper breaking device comprises a breaking cavity, a plurality of breaking blades and a plurality of fan blades, wherein the breaking blades are arranged in the breaking cavity, and the breaking blades are arranged in the breaking cavity.

SUMMERY OF THE UTILITY MODEL

The utility model provides a recycled paper crushing and recycling device, which solves the technical problems that recycled paper is large in crushing area, inconvenient for subsequent operation and high in blocking probability of a crushing device in a crushing process in the prior art.

The utility model provides a recycled paper crushing and recycling device which comprises an upper layer cavity, a middle layer cavity, a lower layer cavity, a crushing device and a suction device, wherein the lower layer cavity is horizontally arranged, the middle layer cavity is arranged at the upper end of the lower layer cavity, the upper layer cavity is arranged at the upper end of the middle layer cavity, the crushing device comprises a first crushing assembly, a second crushing assembly and a driving assembly, the driving assembly is located in the middle layer cavity, the first crushing assembly is located in the upper layer cavity, the second crushing assembly is located in the lower layer cavity, and the suction device is arranged at the side of the lower layer cavity.

Further, drive assembly includes drive seat, driving motor, drive shaft, drive helical gear, drive cavity and drive post, the drive seat sets up the side at lower floor cavity and middle level cavity, driving motor sets up on the drive seat, the drive shaft sets up on driving motor's output, the drive post is fixed to be set up on the inner wall of middle level cavity, drive shaft one end is passed the drive post and is located inside the middle level cavity, the drive cavity is fixed to be set up on the drive post, the drive helical gear sets up in the drive shaft and is located the drive cavity.

Further, first broken subassembly includes first helical gear, first crushing pole and first flabellum, first helical gear setting in the drive cavity and with the meshing of drive helical gear, first broken pole is connected on first helical gear and passes drive cavity and upper cavity and be located upper cavity inside, first crushing pole rotates with the drive cavity to be connected, first flabellum setting just is located the inside of upper cavity on first crushing pole, the inside bottom of upper cavity is the slope setting.

Further, be equipped with broken lid on the upper cavity and rotate with the upper cavity and be connected, upper cavity bottom is equipped with two feed openings, two the department that corresponds of feed opening all is equipped with a unloading pipeline, the top of lower floor's cavity is equipped with two feed inlets, and two unloading pipelines all pass middle level cavity and two feed inlets that lower floor's cavity is located lower floor's cavity.

Further, be equipped with between middle level cavity and the lower floor's cavity and block the panel, two the unloading pipeline passes respectively and blocks the panel, the broken subassembly of second includes second helical gear, second crushing pole and second flabellum, the second helical gear setting in the drive cavity and with the meshing of drive helical gear, the broken pole of second is connected on the second helical gear and is passed drive cavity and lower floor's cavity and be located the cavity of lower floor inside, the second crushing pole rotates with the drive cavity to be connected, the second flabellum sets up on the second crushing pole and is located the inside of lower floor's cavity.

Further, the suction device comprises a suction rod, a suction column, a suction helical gear, a suction cavity, a suction fan blade, a control valve, a suction pipeline and a suction storage box, wherein the suction helical gear is arranged in the drive cavity and is meshed with the first helical gear and the second helical gear, the suction rod is connected to the suction helical gear, one end of the suction rod penetrates through the drive cavity and the middle cavity and is positioned in the suction cavity, the suction column is sleeved on the suction rod, one end of the suction column is connected to the inner wall of the middle cavity, the other end of the middle cavity is fixedly connected to the side end of the drive cavity, the suction cavity is positioned at one side of the middle cavity and one side of the lower cavity, the suction fan blade is arranged on the suction rod and is positioned in the suction cavity, the suction cavity and the lower cavity are communicated through the suction pipeline, and the suction storage box is arranged at the side of the suction cavity and is communicated with the suction cavity, and a control valve is arranged on the suction pipeline.

The utility model provides a recycled paper crushing and recycling device through improvement, and compared with the prior art, the recycled paper crushing and recycling device has the following improvements and advantages:

(1) when the recycled paper is to be crushed, the driving shaft on the output end of the driving motor is driven to rotate in the driving cavity by the operation of the driving motor, and the driving shaft rotates to drive the driving bevel gear to rotate in the driving cavity, so that the first crushing assembly, the second crushing assembly and the suction device can be synchronously driven to move, and the regenerated paper is crushed.

(2) When the recycled paper is primarily crushed, the crushing cover is firstly opened, the recycled paper is placed in the upper-layer cavity, the crushing cover is then covered, at the moment, the first helical gear is driven to rotate through the driving helical gear, the first helical gear drives the first crushing rod to rotate, the first crushing rod drives the first fan blade to rotate inside the upper-layer cavity, so that the primary crushing operation of the recycled paper is realized, the primarily crushed recycled paper flows into the lower-layer cavity through the discharging pipeline, the recycled paper is crushed again, the crushing area of the recycled paper is smaller, the subsequent production is facilitated, and the blocking probability of the crushing device is also reduced.

(3) In the utility model, the blocking panel can block the middle-layer cavity and the lower-layer cavity in the secondary crushing process of the recycled paper, so that the recycled paper in the lower-layer cavity is prevented from flying into the middle-layer cavity to cause equipment jamming and damage, meanwhile, the inner space of the lower-layer cavity is small, the recycled paper is convenient to crush again, the crushing area of the recycled paper is smaller, the subsequent production is convenient, and the jamming probability of the crushing device is reduced, when the recycled paper is crushed again, the recycled paper which is primarily crushed by the upper-layer cavity flows into the lower-layer cavity through the blanking pipeline, the second bevel gear is driven to rotate by driving the bevel gear, the second bevel gear drives the second crushing rod to rotate, the second crushing rod drives the second fan blade to rotate in the lower-layer cavity, so that the recycled paper in the lower-layer cavity is crushed again, the regenerated paper is crushed again.

(4) According to the utility model, after the regenerated paper is crushed again, the suction bevel gear is driven to rotate through the rotation of the first bevel gear and the second bevel gear, the suction bevel gear drives the suction rod to rotate, the suction rod drives the suction fan blades to rotate in the suction cavity, so that the regenerated paper crushed again is sucked into the suction storage box through the suction pipeline for storage.

Drawings

FIG. 1 is a schematic view of the internal structure of the middle chamber, the lower chamber and the inhalation device of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic structural diagram of a driving assembly according to the present invention;

FIG. 4 is a schematic view of the crushing apparatus and the suction apparatus according to the present invention;

FIG. 5 is a schematic view of a part of the structure of the present invention;

fig. 6 is a schematic view of the structure of the crushing device and the suction device in a matching state.

Description of reference numerals:

the upper cavity 1, the middle cavity 11, the lower cavity 12, the crushing cover 13, the blocking panel 14, the blanking pipeline 15, the crushing device 2, the driving assembly 21, the driving seat 211, the driving motor 212, the driving shaft 213, the driving bevel gear 214, the driving cavity 215, the driving column 216, the first crushing assembly 22, the first bevel gear 221, the first crushing rod 222, the first fan blade 223, the second crushing assembly 23, the second bevel gear 231, the second crushing rod 232, the second fan blade 233, the suction device 3, the suction rod 31, the suction column 32, the suction bevel gear 33, the suction cavity 34, the suction fan blade 35, the control valve 36, the suction pipeline 37, and the suction storage box 38.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 6, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides a recycled paper crushing and recycling device through improvement, which comprises an upper layer cavity 1, a middle layer cavity 11, a lower layer cavity 12, a crushing device 2 and a suction device 3, wherein the lower layer cavity 12 is horizontally arranged, the middle layer cavity 11 is arranged at the upper end of the lower layer cavity 12, the upper layer cavity 1 is arranged at the upper end of the middle layer cavity 11, the crushing device 2 comprises a first crushing component 22, a second crushing component 23 and a driving component 21, the driving component 21 is positioned in the middle layer cavity 11, the first crushing component 22 is positioned in the upper layer cavity 1, the second crushing component 23 is positioned in the lower layer cavity 12, and the suction device 3 is arranged at the side of the lower layer cavity 12, the device can perform batch primary crushing and secondary crushing on paper, so that the area of crushed pieces by the crushing device 2 is smaller than the area of crushed pieces directly using the crushing device 2, the probability that the fan blades directly fall into the collecting cavity through crushing is higher, and the blocking probability of the crushing device 2 is reduced.

Preferably, the driving assembly 21 includes a driving seat 211, a driving motor 212, a driving shaft 213, a driving bevel gear 214, a driving cavity 215 and a driving column 216, the driving seat 211 is disposed at the side ends of the lower cavity 12 and the middle cavity 11, the driving motor 212 is disposed on the driving seat 211, the driving shaft 213 is disposed at the output end of the driving motor 212, the driving column 216 is fixedly disposed on the inner wall of the middle cavity 11, one end of the driving shaft 213 passes through the driving column 216 and is located inside the middle cavity 11, the driving cavity 215 is fixedly disposed on the driving column 216, the driving bevel gear 214 is disposed on the driving shaft 213 and is located inside the driving cavity 215, when the recycled paper is to be shredded, the driving shaft 213 at the output end of the driving motor 212 is firstly driven to rotate inside the driving cavity 215 by the operation of the driving motor 212, the driving shaft 213 drives the driving bevel gear 214 to rotate inside the driving cavity 215, therefore, the first crushing assembly 22, the second crushing assembly 23 and the suction device 3 can be synchronously driven to move, and the regenerated paper is crushed.

Preferably, the first crushing assembly 22 includes a first helical gear 221, a first crushing rod 222 and a first fan blade 223, the first helical gear 221 is disposed in the driving cavity 215 and engaged with the driving helical gear 214, the first crushing rod 222 is connected to the first helical gear 221 and penetrates through the driving cavity 215 and the upper cavity 1 to be located inside the upper cavity 1, the first crushing rod 222 is rotatably connected with the driving cavity 215, the first fan blade 223 is disposed on the first crushing rod 222 and located inside the upper cavity 1, the bottom inside the upper cavity 1 is obliquely disposed, the crushing cover 13 is disposed on the upper cavity 1 and rotatably connected with the upper cavity 1, two material outlets are disposed at the bottom of the upper cavity 1, two material outlets are disposed at corresponding positions of the material outlets and are provided with a material discharging pipeline 15, the top of the lower cavity 12 is provided with two material inlets, and the two material discharging pipelines 15 penetrate through the middle cavity 11 and the lower cavity 12 to be located at two material inlets of the lower cavity 12 A blocking panel 14 is arranged between the middle layer cavity 11 and the lower layer cavity 12, the two blanking pipes 15 respectively penetrate through the blocking panel 14, the second crushing assembly 23 comprises a second helical gear 231, a second crushing rod 232 and a second fan blade 233, the second helical gear 231 is arranged in the driving cavity 215 and meshed with the driving helical gear 214, the second crushing rod 232 is connected to the second helical gear 231 and penetrates through the driving cavity 215 and the lower layer cavity 12 to be positioned in the lower layer cavity 12, the second crushing rod 232 is rotatably connected with the driving cavity 215, the second fan blade 233 is arranged on the second crushing rod 232 and positioned in the lower layer cavity 12, when the regenerated paper is primarily crushed, the crushing cover 13 is firstly opened, the regenerated paper is placed in the upper layer cavity 1 and then covered, at this time, the helical gear 214 is driven to rotate to drive the first helical gear 221 to rotate, the first bevel gear 221 rotates to drive the first crushing rod 222 to rotate, the first crushing rod 222 rotates to drive the first fan blade 223 to rotate inside the upper cavity 1, so as to realize the primary crushing operation of the recycled paper, the primarily crushed recycled paper can flow into the lower cavity 12 through the blanking pipeline 15, so as to crush the recycled paper again, the crushed area of the recycled paper is smaller, the subsequent production is convenient, the blocking probability of the crushing device 2 is also reduced, the blocking panel 14 can block the middle cavity 11 and the lower cavity 12 in the secondary crushing process of the recycled paper, the recycled paper inside the lower cavity 12 is prevented from flying into the middle cavity 11, the equipment is prevented from being blocked and damaged, meanwhile, the inner space of the lower cavity 12 is small, the recycled paper is convenient to crush again, and the crushed area of the recycled paper is smaller, subsequent production of being convenient for, the dead probability of card of breaker 2 has also been reduced, when carrying out the breakage once more to the recycled paper, the recycled paper of the preliminary broken of upper chamber 1 passes through unloading pipeline 15 and flows into lower floor's cavity 12 in the back, it rotates through drive helical gear 214 and drives second helical gear 231 and rotate, second helical gear 231 rotates and drives second crushing pole 232 and rotate, second crushing pole 232 rotates and drives second flabellum 233 and rotate in the inside of lower floor's cavity 12, thereby the realization is broken once more to the recycled paper of lower floor's cavity 12 inside, the realization is broken once more to the recycled paper.

Preferably, the inhalation device 3 comprises an inhalation rod 31, an inhalation column 32, an inhalation bevel gear 33, an inhalation cavity 34, inhalation fan blades 35, a control valve 36, an inhalation pipeline 37 and an inhalation storage tank 38, wherein the inhalation bevel gear 33 is arranged in the driving cavity 215 and is engaged with the first bevel gear 221 and the second bevel gear 231, the inhalation rod 31 is connected to the inhalation bevel gear 33, one end of the inhalation rod 31 penetrates through the driving cavity 215 and the middle cavity 11 and is positioned in the inhalation cavity 34, the inhalation column 32 is sleeved on the inhalation rod 31, one end of the inhalation column 32 is connected to the inner wall of the middle cavity 11, the other end of the middle cavity 11 is fixedly connected to the side end of the driving cavity 215, the inhalation cavity 34 is positioned at one side of the middle cavity 11 and the lower cavity 12, the inhalation fan blades 35 are arranged on the inhalation rod 31 and are positioned in the inhalation cavity 34, the inhalation cavity 34 and the lower cavity 12 are communicated through the inhalation pipeline 37, the suction storage tank 38 is disposed beside and communicates with the suction chamber 34, the suction pipe 37 is provided with a control valve 36, when the regenerated paper is broken again, the first bevel gear 221 and the second bevel gear 231 rotate to drive the suction bevel gear 33 to rotate, the suction bevel gear 33 rotates to drive the suction rod 31 to rotate, the suction rod 31 rotates to drive the suction fan blade 35 to rotate in the suction cavity 34, so that the re-crushed recycled paper is sucked into the suction storage tank 38 through the suction duct 37, stored, because the crushing device 2 and the suction device 3 are arranged in a linkage manner, the suction device 3 also moves synchronously during the movement of the crushing device 2, so that the inflow of the re-crushed recycled paper into the suction storage tank 38 can be controlled by the provided control valve 36, the control valve 36 starts to suck the recycled paper into the suction storage tank 38 after the recycling paper is crushed again.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a broken recovery unit of recycled paper which characterized in that: including upper chamber body (1), middle level cavity (11), lower floor's cavity (12), breaker (2) and suction device (3), lower floor's cavity (12) is the level setting, middle level cavity (11) set up the upper end at lower floor's cavity (12), upper chamber body (1) sets up the upper end at middle level cavity (11), breaker (2) include first broken subassembly (22), broken subassembly of second (23) and drive assembly (21), drive assembly (21) are located middle level cavity (11), first broken subassembly (22) are located upper chamber body (1), the broken subassembly of second (23) are located lower floor's cavity (12), suction device (3) set up the side at lower floor's cavity (12).

2. The recycled paper crushing and recycling device according to claim 1, wherein: the driving assembly (21) comprises a driving seat (211), a driving motor (212), a driving shaft (213), a driving bevel gear (214), a driving cavity (215) and a driving column (216), wherein the driving seat (211) is arranged at the side ends of the lower layer cavity (12) and the middle layer cavity (11), the driving motor (212) is arranged on the driving seat (211), the driving shaft (213) is arranged at the output end of the driving motor (212), the driving column (216) is fixedly arranged on the inner wall of the middle layer cavity (11), one end of the driving shaft (213) penetrates through the driving column (216) and is positioned inside the middle layer cavity (11), the driving cavity (215) is fixedly arranged on the driving column (216), and the driving bevel gear (214) is arranged on the driving shaft (213) and is positioned in the driving cavity (215).

3. The recycled paper crushing and recycling device according to claim 2, wherein: first broken subassembly (22) include first helical gear (221), first crushing pole (222) and first flabellum (223), first helical gear (221) set up in drive cavity (215) and with drive helical gear (214) meshing, first crushing pole (222) are connected on first helical gear (221) and are passed drive cavity (215) and upper cavity (1) and are located upper cavity (1) inside, first crushing pole (222) rotate with drive cavity (215) and are connected, first flabellum (223) set up on first crushing pole (222) and are located the inside of upper cavity (1), the inside bottom of upper cavity (1) is the slope setting, be equipped with on upper cavity (1) broken lid (13) and rotate with upper cavity (1) and be connected.

4. The recycled paper crushing and recycling device according to claim 1, wherein: the utility model discloses a cavity, including upper chamber body (1), lower floor cavity (12), upper chamber body (1) bottom is equipped with two feed openings, two the department that corresponds of feed opening all is equipped with a unloading pipeline (15), the top of lower floor cavity (12) is equipped with two feed inlets, and two unloading pipelines (15) all pass middle level cavity (11) and lower floor cavity (12) and are located two feed inlet departments of lower floor cavity (12).

5. The recycled paper crushing and recycling device according to claim 4, wherein: be equipped with between middle level cavity (11) and lower floor's cavity (12) and block panel (14), two unloading pipeline (15) pass respectively and block panel (14), second broken subassembly (23) include second helical gear (231), second crushing pole (232) and second flabellum (233), second helical gear (231) set up in drive cavity (215) and with drive helical gear (214) meshing, second crushing pole (232) are connected on second helical gear (231) and are passed drive cavity (215) and lower floor's cavity (12) and be located lower floor's cavity (12) inside, second crushing pole (232) and drive cavity (215) rotate and are connected, second flabellum (233) set up on second crushing pole (232) and are located the inside of lower floor's cavity (12).

6. The recycled paper crushing and recycling device according to claim 2, wherein: the suction device (3) comprises a suction rod (31), a suction column (32), a suction helical gear (33), a suction cavity (34), a suction fan blade (35), a control valve (36), a suction pipeline (37) and a suction storage box (38), wherein the suction helical gear (33) is arranged in a driving cavity (215) and is respectively meshed with a first helical gear (221) and a second helical gear (231), the suction rod (31) is connected to the suction helical gear (33), one end of the suction rod penetrates through the driving cavity (215) and the middle cavity (11) and is positioned in the suction cavity (34), the suction column (32) is sleeved on the suction rod (31), one end of the suction column (32) is connected to the inner wall of the middle cavity (11), the other end of the middle cavity (11) is fixedly connected to the side end of the driving cavity (215), and the suction cavity (34) is positioned at one side of the middle cavity (11) and the lower cavity (12), the suction fan blade (35) is arranged on the suction rod (31) and is positioned in the suction cavity (34), the suction cavity (34) and the lower cavity (12) are communicated through a suction pipeline (37), the suction storage box (38) is arranged beside the suction cavity (34) and is communicated with the suction pipeline (37), and a control valve (36) is arranged on the suction pipeline (37).