CN115007034A

CN115007034A - Waste paper treatment equipment for green printing of carton

Info

Publication number: CN115007034A
Application number: CN202210895884.6A
Authority: CN
Inventors: 葛伟; 胡劲松
Original assignee: Huaian Kangnuoke Color Printing Co ltd
Current assignee: Huaian Kangnuoke Color Printing Co ltd
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2022-09-06

Abstract

The invention discloses a waste paper processing device for green printing of a carton, which comprises a box body and a partition plate fixedly connected in the box body, wherein a crushing bin and a stirring bin are formed at two sides of the partition plate, two crushing rollers for crushing waste paper are rotatably connected in the crushing bin, gears I which are meshed with each other are coaxially fixed on the two crushing rollers, and a cleaning assembly I for cleaning a magnet block in the waste paper is arranged in the crushing bin. According to the waste paper processing device, the first cleaning assembly is arranged, so that the magnet blocks in the waste paper can be cleaned after the waste paper is broken, and the subsequent processing work is prevented from being influenced; by arranging the stirring component, the waste paper falling into the stirring bin can be stirred, so that the waste paper and water can be fully fused, and meanwhile, the waste paper attached to the inner wall of the stirring bin can be scraped; through setting up clean subassembly two to some plastics impurities that will float on the stirring storehouse surface of water are cleared up away.

Description

Waste paper treatment equipment for green printing of carton

Technical Field

The invention relates to the technical field of waste paper treatment, in particular to waste paper treatment equipment for green printing of a carton.

Background

The green printing is a printing mode which adopts environment-friendly materials and processes, generates little pollution in the printing process, saves resources and energy, is easy to recycle and recycle after being discarded, can be naturally degraded and has little influence on the ecological environment. The green printing requirements are coordinated with the environment, including the use of environmentally friendly printing materials, clean printing production processes, the safety of the printed matter to users, and the recycling and reutilization of the printed matter. Namely, the whole life cycle of the printed matter, such as raw material selection, production, use, recovery and the like, is in accordance with the environmental protection requirement.

Waste paper processing is the process of reprocessing recycled waste paper to yield acceptable fibers for use in the production of paper products. The recovery and the utilization of the waste paper are beneficial to protecting the environment, protecting the forest and saving the resources. The waste paper can be repeatedly used.

In the in-service use process, can install magnetism on some old and useless cartons as commodity packing usefulness and inhale the knot, traditional waste paper treatment facility often carries out broken back with waste paper earlier, inhales the knot again with magnetism and filters, and this operation is comparatively complicated.

We have then proposed a used paper processing apparatus for green printing of cartons, which solves the above-mentioned problems.

Disclosure of Invention

The invention aims to provide waste paper processing equipment for green printing of a carton, which has the advantages that a cleaning assembly I is provided, so that magnet blocks in waste paper can be cleaned away after the waste paper is crushed, the influence on subsequent processing work is prevented, and the problem that operations are complicated because the waste paper is crushed and then a magnetic buckle is filtered out is solved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a waste paper treatment facility is used in green printing of carton, includes the box to and fixed connection is in the box baffle, the both sides of baffle form broken storehouse and stirring storehouse, broken storehouse internal rotation is connected with two crushing rollers that are used for broken waste paper, two equal coaxial gear one that is fixed with intermeshing on the crushing roller, be provided with the clearance subassembly one that is used for clearing up the interior magnet piece of waste paper in the broken storehouse.

Preferably, the first cleaning assembly comprises a cylindrical magnetic block which is rotatably connected in a crushing bin, the cylindrical magnetic block is located under one of the crushing rollers, a second gear which is coaxially fixed with the cylindrical magnetic block is arranged in the crushing bin, the second gear is meshed with one of the first gears, the cylindrical magnetic block is driven by external driving equipment, one side of the inner wall of the crushing bin is fixedly connected with a scraper which is mutually attached to the cylindrical magnetic block, a guide plate is fixedly connected in the crushing bin and located under the two crushing rollers, the guide plate inclines from one side close to the first gear to one side far away from the first gear from top to bottom, a strip-shaped groove which enables the crushing bin and the stirring bin to be mutually communicated is formed in the surface of the partition plate, and the strip-shaped groove is located on the upper side of the guide plate.

Preferably, a stirring assembly for stirring the crushed waste paper is arranged in the stirring bin, the stirring assembly comprises a first bevel gear positioned in the stirring bin, and the first bevel gear is coaxially fixed with one of the crushing rollers.

Preferably, the stirring assembly further comprises a rotating shaft rotatably connected in the box body, a second bevel gear meshed with the first bevel gear is sleeved on the surface of the rotating shaft, an inner gear ring is arranged in the stirring bin, an L-shaped supporting rod is fixedly connected between the inner gear ring and the inner wall of the stirring bin, a swing rod is sleeved on the surface of the rotating shaft, a third gear meshed with teeth on the inner gear ring is fixedly connected to the lower surface of the swing rod at one end far away from the rotating shaft in a fixed-axis manner, and a plurality of stirring rods coaxially fixed with the third gear are arranged in the stirring bin.

Preferably, a through hole is formed in one end of the oscillating bar, a spring is fixedly connected in the through hole, one end of the spring is fixedly connected with a transverse rod which axially slides in the oscillating bar, and a long rod which is attached to the inner wall of the stirring bin is vertically fixed at one end of the transverse rod.

Preferably, the stirring bin outside is provided with clean subassembly two, clean subassembly two includes two rectangle boxes of fixed connection in the relative both sides of stirring bin outer wall, two cross slots that communicate each other with the rectangle box are seted up on the stirring bin surface, fixedly connected with sieve in the rectangle box.

Preferably, clean two still include the bull stick of fixed connection in axis of rotation top, bull stick one end vertical fixation has the pole setting, the rectangular channel has all been seted up to the relative both sides of stirring storehouse inner wall, and common sliding connection has back font frame in two rectangular channels, pole setting sliding connection is in returning font frame, fixed surface installs the pipeline rather than intercommunication each other under the rectangle box, pipeline one end communicates with the stirring storehouse each other, install check valve one and check valve two in the pipeline, pipeline surface integration is fixed with the L venturi tube, L venturi tube one end swing joint has the piston board, piston board fixed surface is connected with the piston rod, be fixed with the connecting rod between piston rod and the back font frame.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the waste paper processing device, the first cleaning assembly is arranged, so that the magnet blocks in the waste paper can be cleaned after the waste paper is broken, and the subsequent processing work is prevented from being influenced.

2. Inject outside water source into toward stirring the storehouse, through setting up the stirring subassembly, not only can stir the waste paper that falls into in the stirring storehouse for waste paper and hydroenergy can fully fuse, can scrape the waste paper that attaches on stirring storehouse inner wall simultaneously.

3. Often can sneak into some plastic products's impurity in the waste paper, and these plastic impurities can float on the surface of water in stirring the storehouse, through setting up clean subassembly two to in with float some plastic impurities on stirring the storehouse surface of water clearance away.

Drawings

FIG. 1 is a schematic view showing a configuration of a used paper processing apparatus for green printing of a carton according to the present invention;

FIG. 2 is a schematic structural view of a cleaning assembly of the present invention;

FIG. 3 is a first schematic structural view of a stirring assembly according to the present invention;

FIG. 4 is a second schematic structural view of a stirring assembly according to the present invention;

FIG. 5 is a first schematic structural view of a second cleaning assembly of the present invention;

FIG. 6 is a second schematic structural view of a second cleaning assembly according to the present invention.

In the figure: 1. a box body; 11. an L-shaped support bar; 2. a partition plate; 21. a crushing bin; 22. a stirring bin; 31. a crushing roller; 32. a first gear; 4. cleaning the first component; 41. a cylindrical magnetic block; 42. a second gear; 43. a squeegee; 44. a guide plate; 5. a stirring assembly; 51. a first bevel gear; 52. a rotating shaft; 53. a second bevel gear; 54. an inner gear ring; 55. a swing rod; 56. a third gear; 57. a stirring rod; 58. a spring; 59. a cross bar; 591. a long rod; 6. a second cleaning component; 61. a rectangular box; 62. a transverse groove; 63. a sieve plate; 64. a rotating rod; 65. erecting a rod; 66. a frame shaped like a Chinese character 'hui'; 67. a pipeline; 68. a one-way valve I; 69. a second one-way valve; 691. an L-shaped tube; 692. a connecting rod; 693. a piston rod; 694. a piston plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Example one

Referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a waste paper treatment facility is used in green printing of carton, includes box 1 to and baffle 2 of fixed connection in box 1, the both sides of baffle 2 form broken storehouse 21 and stirring storehouse 22, broken storehouse 21 internal rotation is connected with two crushing rollers 31 that are used for broken waste paper, two equal coaxial gear 32 that is fixed with intermeshing on the crushing roller 31, be provided with the clearance subassembly 4 that is used for clearing up magnet piece in the waste paper in the broken storehouse 21.

In use, through setting up clearance subassembly one 4 to the magnet piece in with waste paper is cleared away after waste paper is broken, prevents to influence subsequent processing work.

The cleaning assembly one 4 comprises a cylindrical magnetic block 41 which is rotatably connected in the crushing bin 21, the cylindrical magnetic block 41 is positioned right below one of the crushing rollers 31, and a second gear 42 which is coaxially fixed with the cylindrical magnetic block 41 is arranged in the crushing bin 21, the second gear 42 is meshed with one gear 32, the cylindrical magnetic block 41 is driven by external driving equipment, one side of the inner wall of the crushing bin 21 is fixedly connected with a scraping plate 43 which is mutually attached with the cylindrical magnet 41, a guide plate 44 is fixedly connected in the crushing bin 21, the guide plate 44 is positioned right below the two crushing rollers 31, the guide plate 44 is inclined from the side close to the first gear 32 to the side far away from the first gear 32, the surface of the clapboard 2 is provided with a strip-shaped groove which is communicated with the crushing bin 21 and the stirring bin 22, and the strip-shaped groove is positioned on the upper side of the guide plate 44.

The external driving device is a motor.

When in use, an external driving device motor is started to drive the cylindrical magnet 41 to rotate, the cylindrical magnet 41 drives the gear II 42 coaxially fixed with the cylindrical magnet to rotate along with the cylindrical magnet, the gear II 42 drives the gear I32 meshed with the gear II to rotate along with the gear II, because the two gear I32 are in a mutually meshed state, one gear I32 drives the other gear I32 to rotate along with the gear II, and the two gear I32 rotate in opposite directions, so that the two crushing rollers 31 rotate along with the gear II, the waste paper to be treated is thrown between the two crushing rollers 31 to be crushed, the crushed waste paper passes through the cylindrical magnet 41 when falling downwards, a lower magnet block in the waste paper is sucked by the cylindrical magnet 41, and because the cylindrical magnet 41 is always in a rotating state and the cylindrical magnet 41 is mutually jointed with the scraper 43, the magnet block adsorbed on the surface of the cylindrical magnet 41 is scraped by the scraper 43 when rotating, the magnet piece scraped can drop to broken storehouse 21 inner wall bottom surface, and the waste paper after being broken can drop to deflector 44 after cylindrical magnetic path 41, because deflector 44 toward stirring storehouse 22 lopsidedness, the waste paper on the deflector 44 can drop to stirring storehouse 22 in through the bar groove on the baffle 2.

Example two

Referring to fig. 3-4, in this embodiment, for further description of the first embodiment, a stirring component 5 for stirring the broken waste paper is disposed in the stirring bin 22.

In use, pour into outside water source into in stirring storehouse 22, through setting up stirring subassembly 5, not only can stir the waste paper that falls into in stirring storehouse 22 for waste paper and hydroenergy can fully fuse, can scrape the waste paper that attaches on stirring storehouse 22 inner wall simultaneously.

The stirring assembly 5 comprises a first bevel gear 51 positioned in the stirring bin 22, the first bevel gear 51 is coaxially fixed with one of the crushing rollers 31, a rotating shaft 52 is rotatably connected in the box body 1, a second bevel gear 53 meshed with the first bevel gear 51 is sleeved on the surface of the rotating shaft 52, an inner gear ring 54 is arranged in the stirring bin 22, an L-shaped supporting rod 11 is fixedly connected between the inner gear ring 54 and the inner wall of the stirring bin 22, a swinging rod 55 is sleeved on the surface of the rotating shaft 52, a third gear 56 meshed with teeth on the inner gear ring 54 is fixedly and rotatably connected to the lower surface of one end, far away from the rotating shaft 52, of the swinging rod 55, and a plurality of stirring rods 57 coaxially fixed with the third gear 56 are arranged in the stirring bin 22.

In use, when the crushing roller 31 rotates, the first bevel gear 51 coaxially fixed with the crushing roller can be driven to rotate along with the first bevel gear 51, the first bevel gear 51 can drive the second bevel gear 53 meshed with the first bevel gear 51 to rotate along with the first bevel gear, the second bevel gear 53 can drive the rotating shaft 52 to rotate along with the second bevel gear, the rotating shaft 52 can drive the oscillating bar 55 sleeved on the surface of the rotating shaft to rotate along with the second bevel gear, the oscillating bar 55 can drive the gear III 56 to rotate along with the second bevel gear 56, the gear III 56 can drive the stirring rod 57 coaxially fixed with the third bevel gear to rotate along with the second bevel gear 57, and the gear III 56 and the inner gear ring 54 are meshed with each other, so that the gear III 56 can conduct self-transmission while revolving, and simultaneously drive the stirring rod 57 coaxially fixed with the third bevel gear to conduct self-transmission and revolution along with the stirring for fully stirring the waste paper in the stirring bin 22;

a through hole is formed in one end of the swing rod 55, a spring 58 is fixedly connected in the through hole, one end of the spring 58 is fixedly connected with a cross rod 59 which axially slides in the swing rod 55, and a long rod 591 attached to the inner wall of the stirring bin 22 is vertically fixed at one end of the cross rod 59.

In use, when the swing link 55 rotates, the spring 58 and the cross rod 59 fixed at one end of the spring 58 can be driven to rotate along with the swing link, the cross rod 59 can drive the long rod 591 vertically fixed at one end of the cross rod 59 to rotate along with the swing link, and as the long rod 591 is pushed by the spring 58, the long rod 591 can always abut against the inner wall of the stirring bin 22, and waste paper attached to the inner wall of the stirring bin 22 is scraped.

EXAMPLE III

Referring to fig. 5-6, in this embodiment, for further description of the second embodiment, a second cleaning component 6 is disposed outside the stirring bin 22.

In use, plastic impurities are mixed into the waste paper, and the plastic impurities float on the water surface of the stirring bin 22, so that the plastic impurities floating on the water surface of the stirring bin 22 can be cleaned out by the second cleaning component 6.

The second cleaning component 6 comprises two rectangular boxes 61 fixedly connected to two opposite sides of the outer wall of the stirring bin 22, two transverse grooves 62 communicated with the rectangular boxes 61 are formed in the surface of the stirring bin 22, and sieve plates 63 are fixedly connected in the rectangular boxes 61.

In use, pour into appropriate amount of outside water source into stirring storehouse 22 into for all waste paper is after getting into stirring storehouse 22, the water level in stirring storehouse 22 remains throughout at the cross slot 62 downside, some plastic impurities in the waste paper can float on the surface of water, when puddler 57 stirs waste paper and water in stirring storehouse 22 during operation, the water in stirring storehouse 22 can produce undulantly, thereby make some plastic impurities that float on the surface of water can float into rectangular box 61 through cross slot 62 along the rivers in, plastic impurities can be given by the sieve 63 in rectangular box 61 and filter out this moment.

Clean two 6 of the components still include the bull stick 64 of fixed connection on axis of rotation 52 top, bull stick 64 one end vertical fixation has pole setting 65, the rectangular channel has all been seted up to the relative both sides of stirring storehouse 22 inner wall, and two rectangular channels in common sliding connection have back font frame 66, pole setting 65 sliding connection returns in font frame 66, rectangular box 61 lower fixed surface installs the pipeline 67 rather than intercommunication each other, pipeline 67 one end and stirring storehouse 22 communicate each other, install check valve 68 and check valve two 69 in the pipeline 67, pipeline 67 surface integration is fixed with L venturi tube 691, L venturi tube 691 one end swing joint has piston plate 694, piston plate 694 fixed surface is connected with piston rod 693, be fixed with connecting rod 692 between piston rod 693 and the font frame 66.

In use, when the rotating shaft 52 rotates and simultaneously drives the rotating rod 64 fixed at the top end to rotate, the rotating rod 64 can drive the upright rod 65 fixed at one end to rotate, since the vertical rod 65 is slidably connected in the frame 66, and the moving path of the frame 66 is limited by two rectangular slots, the upright 65 can drive the frame 66 to move back and forth along the horizontal direction, the frame 66 drives the connecting rod 692 and the two piston rods 693 fixed at one end of the connecting rod 692 to move therewith, the piston rods 693 drive the piston plate 694 fixed at one end thereof to move back and forth therewith, when the piston plate 694 moves to the outside of the L-shaped pipe 691, the water fluctuating into the rectangular box 61 is sucked into the pipe 67 through the one-way valve 68, when the piston plate 694 moves toward the L-shaped pipe 691, water in the pipe 67 is discharged into the stirring chamber 22 through the second check valve 69.

The working principle is as follows: when the waste paper processing equipment for green printing of the carton is used, an external driving equipment motor is started to drive a cylindrical magnetic block 41 to rotate, the cylindrical magnetic block 41 drives a gear II 42 which is coaxially fixed with the cylindrical magnetic block 41 to rotate along with the gear II 42, the gear II 42 drives a gear I32 which is meshed with the gear II to rotate along with the gear II, one gear I32 can drive the other gear I32 to rotate along with the gear I because the two gears I32 are in a mutually meshed state, the two gear I32 rotate in opposite directions, so that the two crushing rollers 31 rotate along with the gear I in opposite directions, waste paper to be processed is thrown between the two crushing rollers 31 to be crushed, the crushed waste paper passes through the cylindrical magnetic block 41 when falling downwards, a magnet block in the waste paper can be sucked by the cylindrical magnetic block 41, the cylindrical magnetic block 41 is always in a rotating state, and the cylindrical magnetic block 41 and the scraping plates 43 are mutually attached, when the cylindrical magnetic block 41 rotates, the magnet blocks adsorbed on the surface of the cylindrical magnetic block 41 are scraped off by the scraper 43, the scraped magnet blocks fall onto the bottom surface of the inner wall of the crushing bin 21, the crushed waste paper passes through the cylindrical magnetic block 41 and then falls onto the guide plate 44, and the guide plate 44 inclines towards one side of the stirring bin 22, so that the waste paper on the guide plate 44 falls into the stirring bin 22 through the strip-shaped grooves on the partition plate 2;

when the crushing roller 31 rotates, the first bevel gear 51 coaxially fixed with the crushing roller can be driven to rotate along with the first bevel gear 51, the first bevel gear 51 can drive the second bevel gear 53 meshed with the first bevel gear 51 to rotate along with the first bevel gear, the second bevel gear 53 can drive the rotating shaft 52 to rotate along with the second bevel gear, the rotating shaft 52 can drive the oscillating bar 55 sleeved on the surface of the rotating shaft to rotate along with the second bevel gear, the oscillating bar 55 can drive the gear III 56 to rotate along with the third bevel gear 56, the gear III 56 can drive the stirring rod 57 coaxially fixed with the third bevel gear to rotate along with the second bevel gear 57, and the gear III 56 and the inner gear ring 54 are meshed with each other, so that the gear III 56 can conduct self-transmission while revolving, and simultaneously drive the stirring rod 57 coaxially fixed with the third bevel gear to conduct self-transmission and revolution along with the stirring rod 57, and the waste paper in the stirring bin 22 is fully stirred;

when the swing rod 55 rotates, the spring 58 and the cross rod 59 fixed at one end of the spring 58 can be driven to rotate along with the swing rod, the cross rod 59 can drive the long rod 591 vertically fixed at one end of the cross rod 59 to rotate along with the swing rod, and the long rod 591 can be always abutted against the inner wall of the stirring bin 22 due to the thrust of the spring 58, so that the waste paper attached to the inner wall of the stirring bin 22 is scraped;

a proper amount of external water source is injected into the stirring bin 22, so that after all the waste paper enters the stirring bin 22, the water level in the stirring bin 22 is always kept at the lower side of the transverse groove 62, some plastic impurities in the waste paper float on the water surface, when the stirring rod 57 stirs the waste paper and the water in the stirring bin 22, the water in the stirring bin 22 fluctuates, and therefore some plastic impurities floating on the water surface float into the rectangular box 61 through the transverse groove 62 along the water flow, and at the moment, the plastic impurities are filtered out by the sieve plate 63 in the rectangular box 61;

when the rotating shaft 52 rotates, it can drive the rotating rod 64 fixed at the top end to rotate, the rotating rod 64 can drive the vertical rod 65 fixed at one end to rotate, since the vertical rod 65 is slidably connected in the frame 66, and the moving path of the frame 66 is limited by two rectangular grooves, the vertical rod 65 can drive the frame 66 to move back and forth along the horizontal direction, the frame 66 drives the connecting rod 692 and the two piston rods 693 fixed at one end of the connecting rod 692 to move along with the frame, the piston rods 693 drive the piston plate 694 fixed at one end of the connecting rod 692 to move back and forth along with the piston rod 693, when the piston plate 694 moves to the outside of the L-shaped pipe 691, the water fluctuating into the rectangular box 61 is sucked into the pipe 67 through the one-way valve 68, when the piston plate 694 moves toward the L-shaped pipe 691, water in the pipe 67 is discharged into the stirring chamber 22 through the second check valve 69.

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

Claims

1. The utility model provides a waste paper treatment facility is used in green printing of carton which characterized in that: including box (1) to and baffle (2) of fixed connection in box (1), the both sides of baffle (2) form broken storehouse (21) and stirring storehouse (22), broken storehouse (21) internal rotation is connected with two crushing roller (31) that are used for broken waste paper, two equal coaxial gear (32) that are fixed with intermeshing on crushing roller (31), be provided with in broken storehouse (21) and be used for clearing up the clearance subassembly (4) of magnet piece in the waste paper.

2. A used paper processing apparatus for green printing of cartons, as claimed in claim 1, wherein: the cleaning assembly I (4) comprises a cylindrical magnetic block (41) which is rotatably connected in a crushing bin (21), the cylindrical magnetic block (41) is positioned under one of the crushing rollers (31), a gear II (42) which is coaxially fixed with the cylindrical magnetic block (41) is arranged in the crushing bin (21), the gear II (42) is meshed with one of the gears I (32), the cylindrical magnetic block (41) is driven by external driving equipment, a scraping plate (43) which is mutually attached to the cylindrical magnetic block (41) is fixedly connected to one side of the inner wall of the crushing bin (21), a guide plate (44) is fixedly connected in the crushing bin (21), the guide plate (44) is positioned under the two crushing rollers (31), and the guide plate (44) is inclined from the side close to the gear I (32) to the side far away from the gear I (32) from top to bottom, the surface of the clapboard (2) is provided with a strip-shaped groove which enables the crushing bin (21) and the stirring bin (22) to be communicated with each other, and the strip-shaped groove is positioned on the upper side of the guide plate (44).

3. A used paper processing apparatus for green printing of cartons, as claimed in claim 2, wherein: stirring subassembly (5) that is used for stirring the broken waste paper is provided with in stirring storehouse (22), stirring subassembly (5) are including being located first bevel gear (51) in stirring storehouse (22), first bevel gear (51) are coaxial fixed with one of them crushing roller (31).

4. A used paper processing apparatus for green printing of cartons, as claimed in claim 3, wherein: the stirring assembly (5) further comprises a rotating shaft (52) which is rotatably connected in the box body (1), a second bevel gear (53) which is meshed with the first bevel gear (51) is sleeved on the surface of the rotating shaft (52), an inner gear ring (54) is arranged in the stirring bin (22), an L-shaped supporting rod (11) is fixedly connected between the inner gear ring (54) and the inner wall of the stirring bin (22), a swinging rod (55) is sleeved on the surface of the rotating shaft (52), a lower surface of one end, far away from the rotating shaft (52), of the swinging rod (55) is fixedly and rotatably connected with a third gear (56) which is meshed with the inner gear ring (54), and a plurality of stirring rods (57) which are coaxially fixed with the third gear (56) are arranged in the stirring bin (22).

5. A used paper processing apparatus for green printing of cartons, as claimed in claim 4, wherein: a through hole is formed in one end of the swing rod (55), a spring (58) is fixedly connected in the through hole, one end of the spring (58) is fixedly connected with a cross rod (59) which axially slides in the swing rod (55), and a long rod (591) attached to the inner wall of the stirring bin (22) is vertically fixed at one end of the cross rod (59).

6. A used paper processing apparatus for green printing of cartons, as claimed in claim 5, wherein: stirring storehouse (22) outside is provided with clean subassembly two (6), clean subassembly two (6) are including two rectangle boxes (61) of fixed connection in the relative both sides of stirring storehouse (22) outer wall, stirring storehouse (22) surface is seted up two transverse groove (62) that communicate each other with rectangle box (61), fixedly connected with sieve (63) in rectangle box (61).

7. A used paper processing apparatus for green printing of cartons, as claimed in claim 6, wherein: the second cleaning component (6) further comprises a rotating rod (64) fixedly connected to the top end of the rotating shaft (52), one end of the rotating rod (64) is vertically fixed with a vertical rod (65), two opposite sides of the inner wall of the stirring bin (22) are respectively provided with a rectangular groove, a square-shaped frame (66) is connected in the two rectangular grooves in a sliding mode, the vertical rod (65) is connected in the square-shaped frame (66) in the sliding mode, a pipeline (67) communicated with the rectangular box (61) is fixedly installed on the lower surface of the rectangular box, one end of the pipeline (67) is communicated with the stirring bin (22), a first check valve (68) and a second check valve (69) are installed in the pipeline (67), an L-shaped pipe (691) is integrally fixed on the surface of the pipeline (67), one end of the L-shaped pipe (691) is movably connected with a piston plate (694), and a piston rod (693) is fixedly connected to the surface of the piston plate (694), a connecting rod (692) is fixed between the piston rod (693) and the square-back frame (66).