阅读说明：本技术 一种用于制造高挺度再生纸的生产线 (Production line for manufacturing high-stiffness recycled paper ) 是由 俞解明 胡德水 孙利群 俞熠昕 于 2021-10-25 设计创作，主要内容包括：本发明公开了一种用于制造高挺度再生纸的生产线,包括机架,机架内部对称布置有隔板,两个隔板将机架分隔成上腔、中腔和下腔,上腔内部固定连接有碎纸机,中腔内部固定有粉碎机,下腔内部固定有打浆机,机架的一侧设置有反应池,反应池内部设置有搅拌组件,反应池的内侧面开设滑槽,滑槽内部滑动设置有连接块,连接块和驱动组件传动配合,连接块的一端转动设置有转块,转块的一端滑动设置有过滤板,反应池的上端面转动设置有加料组件,反应池远离机架的一侧设置有捞浆机,捞浆机远离反应池的一侧设置有烘干架,烘干架的底部设置有用于烘干的烘干机,本发明结构合理,使得整个生产线较短,提高效率,减少所需设备,减少能源的消耗。(The invention discloses a production line for manufacturing high-stiffness recycled paper, which comprises a rack, wherein partition plates are symmetrically arranged in the rack, the rack is divided into an upper cavity, a middle cavity and a lower cavity by the two partition plates, a paper shredder is fixedly connected in the upper cavity, a crusher is fixed in the middle cavity, a beater is fixed in the lower cavity, a reaction tank is arranged on one side of the rack, a stirring assembly is arranged in the reaction tank, a chute is formed in the inner side surface of the reaction tank, a connecting block is arranged in the chute in a sliding manner and is in transmission fit with a driving assembly, a rotating block is rotatably arranged at one end of the connecting block, a filter plate is slidably arranged at one end of the rotating block, a feeding assembly is rotatably arranged on the upper end surface of the reaction tank, a pulp scooping machine is arranged on one side of the reaction tank far away from the rack, a drying rack is arranged on one side of the pulp scooping machine far away from the reaction tank, and a dryer for drying is arranged at the bottom of the drying rack, the production line has a reasonable structure, the whole production line is short, the efficiency is improved, the required equipment is reduced, and the energy consumption is reduced.)

1. A production line for manufacturing high-stiffness recycled paper comprises a rack (1) and is characterized in that partition plates (2) are symmetrically arranged in the rack (1) from top to bottom, the two partition plates (2) divide the rack (1) into an upper cavity (3), a middle cavity (4) and a lower cavity (5), a paper shredder (6) is fixedly connected in the upper cavity (3), a crusher (7) is fixed in the middle cavity (4), a beater (8) is fixed in the lower cavity (5), the output end of the paper shredder (6) is communicated with the input end of the crusher (7), the output end of the crusher (7) is communicated with the input end of the beater (8), a reaction tank (9) is arranged on one side of the rack (1), a stirring assembly (10) is arranged in the reaction tank (9), and a chute (11) is formed in the inner side surface of the reaction tank (9), the inside fixedly connected with drive assembly (12) of spout (11), spout (11) inside slip is provided with connecting block (13), connecting block (13) and drive assembly (12) transmission fit, the one end of connecting block (13) is rotated and is provided with commentaries on classics piece (14), the one end slip of commentaries on classics piece (14) is provided with filter (15), the up end of reaction tank (9) is rotated and is provided with reinforced subassembly (16), one side that frame (1) was kept away from in reaction tank (9) is provided with drags for pulp grinder (17), one side that reaction tank (9) were kept away from in draging for pulp grinder (17) is provided with stoving frame (18), the bottom of stoving frame (18) is provided with drying-machine (19) that are used for the stoving.

2. The production line for manufacturing the recycled paper with high stiffness according to claim 1, wherein the feeding assembly (16) comprises supporting rods (20), a first feeding box (21), a second feeding box (22), a rotary table (23), a first air cylinder (24), a T-shaped block (25), a discharging pipe (26) and a pressure pump (27), the supporting rods (20) are symmetrically and rotatably arranged on the upper end face of the reaction tank (9), the rotary table (23) is fixedly connected with one of the supporting rods (20), the center of the rotary rod and the rotating shaft of the supporting rod (20) are located on the same straight line, the first air cylinder (24) is fixed on the side face of the reaction tank (9), the output end of the T-shaped block (25) is fixedly connected with the output end of the first air cylinder (24), a guide groove (28) is formed in the T-shaped block (25), and a guide block (29) is slidably arranged in the guide groove (28), one end of the guide block (29) is fixed on the side face of the turntable (23), the feeding box I (21) is positioned between the two support rods (20), the side face of the feeding box I (21) is symmetrically provided with a limiting groove (30), the limiting groove (30) is internally provided with a limiting block (31) in a sliding manner, the two limiting rods are respectively fixedly connected with the two support rods (20), the limiting groove (30) is internally provided with a spring (32) in a sliding manner, two ends of the spring (32) are respectively fixedly connected with the limiting groove (30) and the limiting block (31), the feeding box II (22) and the feeding box I (21) are fixedly connected with the side face, the side faces of the feeding box I (21) and the feeding box II (22) are respectively provided with a feeding port (33), the bottom of the feeding box I (21) is provided with a plurality of discharge ports (34), and the discharge pipe (26) is provided with a plurality of discharge pipes, a plurality of discharging pipe (26) are located one side of discharge gate (34) and pass and add feed box (21) and add feed box two (22) intercommunication each other, force (forcing) pump (27) are provided with two, and two force (forcing) pump (27) are fixed at the top of adding feed box two (22), and two the output of force (forcing) pump (27) is located the inside of adding feed box one (21) and adding feed box two (22) respectively.

3. The production line for manufacturing high-stiffness recycled paper according to claim 1, wherein the driving assembly (12) comprises a first motor (35), a first threaded rod (36), a first bevel gear (37) and a second bevel gear (38), the threaded rod (36) is rotatably arranged inside the sliding chute (11), the threaded rod (36) penetrates through the connecting block (13), the threaded rod (36) and the connecting block (13) are in threaded fit, the first motor (35) is fixed on the side surface of the reaction tank (9), the output end of the first motor (35) penetrates through the side surface of the reaction tank (9) and is positioned inside the sliding chute (11), the first bevel gear (37) is fixedly connected with the output end of the motor, the second bevel gear (38) is fixed at one end of the threaded rod (36), and the first bevel gear (37) and the second bevel gear (38) are meshed with each other.

4. The production line for manufacturing the high-stiffness recycled paper as claimed in claim 1, wherein the stirring assembly (10) comprises a second motor (39), a stirring rod (40), stirring blades (41), belt pulleys (42) and a transmission belt (43), the stirring rod (40) is rotatably arranged inside the reaction tank (9), one end of the stirring rod (40) penetrates through the bottom surface of the reaction tank (9), the stirring blades (41) are uniformly fixed on the side surfaces of the stirring rod (40), the second motor (39) is fixed at the bottom of the reaction tank (9), the belt pulleys (42) are respectively fixed on the output ends of the stirring rod (40) and the second motor (39), and the transmission belt (43) is sleeved on the side surfaces of the two belt pulleys (42).

5. The production line for manufacturing high-stiffness recycled paper according to claim 1, wherein a mounting groove (44) is formed in the top of the rotating block (14), a motor III (45) is fixedly connected inside the mounting groove (44), a spur gear (46) is fixedly connected to the output end of the motor III (45), a rack (47) meshed with the spur gear (46) is arranged inside the mounting groove (44), and the rack (47) is fixedly connected with the bottom surface of the filter plate (15).

6. The production line for manufacturing the recycled paper with high stiffness according to claim 1, wherein clamping grooves (48) are symmetrically formed in the top of the rotating block (14), clamping strips (49) are slidably arranged in the clamping grooves (48), and the clamping strips (49) are fixedly connected with the bottom of the filter plate (15).

7. The production line for manufacturing the recycled paper with high stiffness according to claim 1, wherein a buffer plate (50) is rotatably arranged at the top of the reaction tank (9), an elastic sheet (51) is arranged between the buffer plate (50) and the reaction tank (9), and two ends of the elastic sheet (51) are respectively fixedly connected with the elastic plate and the reaction tank (9).

8. The production line for manufacturing the recycled paper with high stiffness according to claim 1, wherein a second air cylinder (52) is arranged on one side surface of the reaction tank (9) close to the filter plate (15), a water pipe (53) is fixedly connected to the output end of the second air cylinder (52), and a collecting box (54) is detachably arranged on the side surface of the water spraying pipe (53).

9. A production line for manufacturing recycled paper with high stiffness according to claim 1, wherein a controller (55) is fixedly connected to the side of the reaction tank (9).

Technical Field

The invention relates to the technical field of recycled paper processing, in particular to a production line for manufacturing high-stiffness recycled paper.

Background

The regenerated paper is produced by using waste paper as raw material and through more than ten procedures of sorting, purifying, pulping, making paper and the like, does not affect the normal use of office work and study, and is beneficial to protecting eyesight health.

Traditional recycled paper preparation procedure is complicated, including coarse crushing, smashing, making beating, filtration, stirring, washing thick liquid, system look, dragging for thick liquid and stoving, every procedure need use an equipment, increases the consumption of the energy, and can lead to whole producing the line longer, and every procedure need carry out the transportation of material, influences the use, reduces work efficiency, provides a solution to below the above problem.

Disclosure of Invention

The invention aims to provide a production line for manufacturing high-stiffness recycled paper, which has the advantages of short whole production line, improved efficiency, reduced required equipment and reduced energy consumption.

The technical purpose of the invention is realized by the following technical scheme:

a production line for manufacturing high-stiffness recycled paper comprises a rack, wherein partition plates are symmetrically arranged in the rack from top to bottom, the two partition plates divide the rack into an upper cavity, a middle cavity and a lower cavity, a paper shredder is fixedly connected in the upper cavity, a crusher is fixed in the middle cavity, a beater is fixed in the lower cavity, the output end of the paper shredder is communicated with the input end of the crusher, the output end of the crusher is communicated with the input end of the beater, a reaction tank is arranged on one side of the rack, a stirring assembly is arranged in the reaction tank, a sliding groove is formed in the inner side surface of the reaction tank, a driving assembly is fixedly connected in the sliding groove, a connecting block is slidably arranged in the sliding groove, the connecting block is in transmission fit with the driving assembly, a rotating block is rotatably arranged at one end of the connecting block, and a filter plate is slidably arranged at one end of the rotating block, the up end of reaction tank rotates and is provided with reinforced subassembly, one side that the frame was kept away from to the reaction tank is provided with drags for the pulp grinder, one side that the reaction tank was kept away from to drag for the pulp grinder is provided with the frame of drying, the bottom of frame of drying is provided with the drying-machine that is used for the stoving.

By adopting the technical scheme, when in use, a user places waste paper into the paper shredder, the paper shredder coarsely shreds the waste paper to obtain shredded paper, the shredded paper can be discharged through the output end of the paper shredder and enters the crusher, the shredded paper entering the crusher is crushed to obtain powder, the powder can be discharged through the output end of the crusher and enters the beater, the powder is fully mixed with water inside the beater to obtain raw pulp, the raw pulp is discharged from the beater, the user introduces the raw pulp into the reaction tank, the raw pulp entering the reaction tank passes through the filter plate which filters the raw pulp, the shredded paper which is not smashed in the raw pulp is filtered, the regenerated paper after production is more exquisite, meanwhile, the stirring assembly is started, the stirring assembly stirs the filtered raw pulp to avoid the sedimentation of the raw pulp, and when the stirring assembly stirs, the driving component is started, the driving component drives the connecting block to move upwards along the sliding groove, the connecting block can drive the rotating block to move, the connecting block can drive the filter plate at the top of the connecting block to move, so that the filter plate is moved out of the reaction tank, when the filter plate is moved out of the reaction tank, the filter plate moves towards the direction far away from the reaction tank along the rotating block, when the moving distance of the filter plate exceeds a half of the filter plate, the stress of one side, far away from the reaction tank, of the rotating plate is greater than that of the other side, the rotating block can rotate around a hinged part with the connecting block, the rotating block rotates to drive the filter plate to rotate, so that the filter plate is moved away from the top of the reaction tank, the height of the rotating block is greater than the wall thickness of the reaction tank, so that the filter plate rotates to one side of the reaction tank, the surface of the filter plate is conveniently treated, meanwhile, other materials are conveniently added, when the filter plate is moved away, reinforced subassembly starts, reinforced subassembly rotates the top to the reaction tank, add the material through reinforced subassembly to reaction tank inside and wash thick liquid, wash thick liquid and accomplish the back, the system color agent is added to reinforced subassembly and carries out the system look to the magma, stirring subassembly can guarantee that other materials can fully contact with the magma after adding simultaneously, reinforced subassembly has avoided artifical reinforced trouble, realize automaticly, the increase of efficiency, and the reaction tank realizes multiple functions, it is longer to have avoided holistic production line, the magma after the completion processing can enter into to drag for in the thick liquid machine, drag for thick liquid through dragging for the thick liquid machine and handle, the semi-manufactured goods after finishing of dragging for thick liquid at last can be sent into stoving frame top, dry through the semi-manufactured goods of drying-machine and finally obtain the finished product.

Preferably, the feeding assembly comprises support rods, a first feeding box, a second feeding box, a rotary table, a first air cylinder, a T-shaped block, a discharging pipe and a pressure pump, the support rods are symmetrically and rotatably arranged on the upper end face of the reaction tank, the rotary table is fixedly connected with one of the support rods, the center of the rotary rod and the rotating shaft of the support rod are positioned on the same straight line, the first air cylinder is fixed on the side face of the reaction tank, the T-shaped block is fixedly connected with the output end of the first air cylinder, a guide groove is formed in the T-shaped block, a guide block is slidably arranged in the guide groove, one end of the guide block is fixed on the side face of the rotary table, the first feeding box is positioned between the two support rods, limit grooves are symmetrically formed in the side face of the first feeding box, limit blocks are slidably arranged in the limit grooves, the two limit rods are respectively fixedly connected with the two support rods, and springs are slidably arranged in the limit grooves, the both ends of spring respectively with spacing groove and stopper fixed connection, add the side fixed connection of feed box two and feed box one, the material loading mouth has all been seted up with the side of feed box two to the feed box one, a plurality of discharge gates have been seted up to the bottom of feed box one, the discharging pipe is provided with a plurality ofly, and is a plurality of the discharging pipe is located one side of discharge gate and passes feed box one and feed box two and communicate each other, the force (forcing) pump is provided with two, and two force (forcing) pumps are fixed at the top of feed box two, and two the output of force (forcing) pump is located the inside of feed box one and feed box two respectively.

According to the technical scheme, materials are added into the first feeding box and the second feeding box respectively through the feeding hole, the materials are sealed through the sealing plug, spilling of the materials is avoided, after feeding is completed, the cylinder is started for a while, the cylinder drives the T-shaped block to move, the T-shaped block can drive the guide groove to move when moving, the guide groove is moved under the action of moving force, the guide block can drive the guide block to move, the guide block moves and pulls the rotary table, the rotary table can only do circular motion, the guide block can slide in the guide groove, the support rod is driven to rotate when moving, the support rod rotates to drive the first feeding box to rotate, the first feeding box drives the second feeding box to rotate until the first feeding box and the second feeding box are in horizontal positions, at the moment, the first feeding box is pushed by the elastic force of the spring, the first feeding box and the second feeding box are moved to the top of the reaction tank, the materials in the first feeding box and the second feeding box are pressurized through the two pressurizing pumps, and the materials in the first feeding box and the second feeding box are pressurized through pressure Inside the material of portion added the reaction tank through discharge gate and discharging pipe, when the cylinder resets, the cylinder can drive branch and reset, and branch drives and adds the feed box one and resets, when branch when rotating horizontal position, add the feed box and slide down under the effect of gravity for a moment, and the spring is compressed and can be played the buffering effect.

Preferably, the driving assembly comprises a first motor, a threaded rod, a first bevel gear and a second bevel gear, the threaded rod is rotatably arranged inside the sliding groove and penetrates through the connecting block, the threaded rod is in threaded fit with the connecting block, the first motor is fixed on the side surface of the reaction tank, the output end of the first motor penetrates through the side surface of the reaction tank and is located inside the sliding groove, the first bevel gear is fixedly connected with the output end of the motor, the second bevel gear is fixed at one end of the threaded rod, and the first bevel gear and the second bevel gear are meshed with each other.

By adopting the technical scheme, the first motor is started, the first motor drives the first bevel gear to rotate, the first bevel gear rotates to drive the second bevel gear which is meshed with the first bevel gear to rotate, the second bevel gear rotates to drive the threaded rod which is fixedly connected with the second bevel gear to rotate, and the threaded rod can push the connecting block to move due to the threaded fit between the threaded rod and the connecting block.

Preferably, the stirring assembly comprises a second motor, a stirring rod, stirring blades, belt pulleys and a transmission belt, the stirring rod is rotatably arranged inside the reaction tank, the bottom surface of the reaction tank is penetrated through one end of the stirring rod, the stirring blades are uniformly fixed on the side surface of the stirring rod, the second motor is fixed at the bottom of the reaction tank, the belt pulleys are respectively fixed at the output ends of the stirring rod and the second motor, and the side surfaces of the two belt pulleys are sleeved with the transmission belt.

Adopt above-mentioned technical scheme, the second motor starts, and the second belt pulley that drives mutually supporting of motor rotates, and the belt pulley on the second motor passes through drive belt and drives the belt pulley rotation on the puddler to drive the puddler and rotate, drive the stirring leaf and rotate when the puddler rotates, the stirring leaf has increased the area of contact of puddler and material, guarantees the stirring effect.

Preferably, the top of the rotating block is provided with a mounting groove, a third motor is fixedly connected inside the mounting groove, a straight gear is fixedly connected at the output end of the third motor, a rack meshed with the straight gear is arranged inside the mounting groove, and the rack is fixedly connected with the bottom surface of the filter plate.

By adopting the technical scheme, the motor III is started, the motor III drives the straight gear to rotate, the straight gear drives the racks which are meshed with each other to move when rotating, and the racks can drive the filter plate to move when moving.

Preferably, the top of the rotating block is symmetrically provided with clamping grooves, clamping strips are slidably arranged in the clamping grooves, and the clamping strips are fixedly connected with the bottoms of the filter plates.

Adopt above-mentioned technical scheme, the separation between commentaries on classics piece and the filter can be avoided in the cooperation between draw-in groove and the card strip, can make the filter remove more stably simultaneously.

Preferably, the top of the reaction tank is rotatably provided with a buffer plate, an elastic sheet is arranged between the buffer plate and the reaction tank, and two ends of the elastic sheet are respectively fixedly connected with the elastic plate and the reaction tank.

Adopt above-mentioned technical scheme, when changeing the piece and rotating, change the piece and can contact with the buffer board to the buffer board atress rotates, can be used in the flexure strip when the buffer board rotates, and the flexure strip can elasticity play the cushioning effect, and the cooperation of flexure strip and buffer board makes changeing the piece and can not be in horizontal position, makes things convenient for the reseing of later stage drive assembly drive filter simultaneously.

Preferably, a second air cylinder is arranged on the side face, close to the filter plate, of one side of the reaction tank, a water pipe is fixedly connected to the output end of the second air cylinder, and a collecting box is detachably arranged on the side face of the water spraying pipe.

Adopt above-mentioned technical scheme, the water pipe cooperates with outside water source, and inside outside water source can enter into the water pipe, the water jet blowout on rethread water pipe surface to clean the filter, cylinder two can drive the water pipe and reciprocate, conveniently carries out the omnidirectional cleanness to the filter, and clear waste water and great shredded paper can be collected inside the collection box, conveniently carries out secondary operation, avoids extravagant.

Preferably, a controller is fixedly connected to the side surface of the reaction tank.

By adopting the technical scheme, the controller is used for playing a control effect.

Has the advantages that: become vertical direction with the ascending production line in the horizontal direction through frame and baffle, avoid producing the line overlength, reaction tank collection filters simultaneously, stirs, washes thick liquid and system look as an organic whole, raises the efficiency, reduces simultaneously to take up an area of, and automated production reduces the labour, reduce cost.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a left side view of the embodiment;

FIG. 3 is a sectional view of a front view of the reaction cell;

FIG. 4 is a sectional view of a side view of the reaction tank;

FIG. 5 is an enlarged view of A;

fig. 6 is a schematic view for showing a spur gear and a rack.

Reference numerals: 1. a frame; 2. a partition plate; 3. an upper chamber; 4. a middle cavity; 5. a lower cavity; 6. a shredder; 7. a pulverizer; 8. beating machine; 9. a reaction tank; 10. a stirring assembly; 11. a chute; 12. a drive assembly; 13. connecting blocks; 14. rotating the block; 15. a filter plate; 16. a feeding assembly; 17. fishing the slurry machine; 18. a drying rack; 19. a dryer; 20. a strut; 21. a first feeding box; 22. a feeding box II; 23. a turntable; 24. a first cylinder; 25. a T-shaped block; 26. a discharge pipe; 27. a pressure pump; 28. a guide groove; 29. a guide block; 30. a limiting groove; 31. a limiting block; 32. a spring; 33. a feeding port; 34. a discharge port; 35. a first motor; 36. a threaded rod; 37. a first bevel gear; 38. a second bevel gear; 39. a second motor; 40. a stirring rod; 41. stirring blades; 42. a belt pulley; 43. a drive belt; 44. mounting grooves; 45. a third motor; 46. a spur gear; 47. a rack; 48. a card slot; 49. clamping the strip; 50. a buffer plate; 51. an elastic sheet; 52. a second air cylinder; 53. a water pipe; 54. a collection box; 55. and a controller.

Detailed Description

The following description is only a preferred embodiment of the present invention, and the protection scope is not limited to the embodiment, and any technical solution that falls under the idea of the present invention should fall within the protection scope of the present invention. It should also be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention.

Referring to fig. 1 to 6, a production line for manufacturing high-stiffness recycled paper comprises a frame 1, partition plates 2 are symmetrically arranged in the frame 1 from top to bottom, the frame 1 is divided into an upper chamber 3, a middle chamber 4 and a lower chamber 5 by the two partition plates 2, a paper shredder 6 is fixedly connected in the upper chamber 3, a pulverizer 7 is fixed in the middle chamber 4, a beater 8 is fixed in the lower chamber 5, an output end of the paper shredder 6 is communicated with an input end of the pulverizer 7, an output end of the pulverizer 7 is communicated with an input end of the beater 8,

during the use, the user places the shredded paper 6 insidely with the shredded paper, shredded paper is obtained to the coarse crushing of shredded paper 6 to waste paper, the shredded paper can enter into 7 insides of rubbing crusher through 6's output discharge of shredder, the inside shredded paper that enters into 7 smashes, thereby obtain the powder, the powder can be inside 8 of beating machines are entered into through 7 output discharge of rubbing crusher, the powder obtains the magma at 8 insides of beating machines with water intensive mixing, thereby the magma is discharged from 8 insides of beating machines, become vertical direction through frame 1 and baffle 2 with the production line on the horizontal direction, avoid producing the line overlength.

A reaction tank 9 is arranged on one side of a rack 1, a controller 55 is fixedly connected to the side surface of the reaction tank 9, a sliding groove 11 is formed in the inner side surface of the reaction tank 9, a driving component 12 is fixedly connected to the inside of the sliding groove 11, a connecting block 13 is slidably arranged inside the sliding groove 11, the connecting block 13 is in transmission fit with the driving component 12, a rotary block 14 is rotatably arranged at one end of the connecting block 13, a filter plate 15 is arranged at one end of the rotary block 14, clamping grooves 48 are symmetrically formed in the top of the rotary block 14, clamping strips 49 are slidably arranged inside the clamping grooves 48, the clamping strips 49 are fixedly connected with the bottom of the filter plate 15, the rotary block 14 and the filter plate 15 can be prevented from being separated through the fit between the clamping grooves 48 and the clamping strips 49, a mounting groove 44 is formed in the top of the rotary block 14, a motor III 45 is fixedly connected to the inside of the mounting groove 44, a spur gear 46 is fixedly connected to the output end of the motor III 45, a rack 47 mutually meshed with the spur gear 46 is arranged inside the mounting groove 44, the rack 47 is fixedly connected to the bottom surface of the filter plate 15.

The driving assembly 12 comprises a first motor 35, a threaded rod 36, a first bevel gear 37 and a second bevel gear 38, the threaded rod 36 is rotatably arranged inside the sliding chute 11, the threaded rod 36 penetrates through the connecting block 13, the threaded rod 36 is in threaded fit with the connecting block 13, the first motor 35 is fixed on the side surface of the reaction tank 9, the output end of the first motor 35 penetrates through the side surface of the reaction tank 9 and is positioned inside the sliding chute 11, the first bevel gear 37 is fixedly connected with the output end of the motor, the second bevel gear 38 is fixed at one end of the threaded rod 36, and the first bevel gear 37 is meshed with the second bevel gear 38.

Inside the user introduces 9 reaction tanks with the magma, the magma that enters into 9 inside reaction tanks can pass through filter 15 earlier, and filter 15 filters the magma, filters the shredded paper that does not smash in the magma, and the recycled paper after guaranteeing to produce is more exquisite.

The first motor 35 is started, the first motor 35 drives the first bevel gear 37 to rotate, the first bevel gear 37 drives the second bevel gear 38 which is meshed with each other to rotate, the second bevel gear 38 drives the threaded rod 36 which is fixedly connected to rotate when rotating, due to the threaded fit between the threaded rod 36 and the connecting block 13, the threaded rod 36 pushes the connecting block 13 to move, the rotating block 14 is driven by the movement of the connecting block 13, the filter plate 15 on the top of the connecting block 13 is driven by the movement of the connecting block 13, thereby allowing the filter plate 15 to move out of the reaction chamber 9, and when the filter plate 15 is moved out of the interior of the reaction chamber 9, the motor III 45 starts, the motor III 45 drives the straight gear 46 to rotate, the straight gear 46 drives the racks 47 meshed with each other to move when rotating, the racks 47 can drive the filter plate 15 to move when moving, and the filter plate 15 can be moved more stably due to the matching between the clamping grooves 48 and the clamping blocks.

The filter 15 is moving to the direction of keeping away from reaction tank 9 in the same direction as commentaries on classics piece 14, when filter 15 displacement exceeds half of filter 15, the commentaries on classics board is kept away from one side atress of reaction tank 9 and is greater than the atress of opposite side, commentaries on classics piece 14 can rotate round the articulated department with connecting block 13, the top of reaction tank 9 is rotated and is provided with buffer board 50, be provided with flexure strip 51 between buffer board 50 and the reaction tank 9, flexure strip 51's both ends respectively with flexure strip and reaction tank 9 fixed connection, when commentaries on classics piece 14 rotates, commentaries on classics piece 14 can contact with buffer board 50, thereby buffer board 50 atress rotates, can act on flexure strip 51 when buffer board 50 rotates, flexure strip 51 can play the cushioning effect by elasticity, while flexure strip 51 and buffer board 50's cooperation, make commentaries on classics piece 14 can not be in horizontal position, make things convenient for the reseing of later stage drive assembly 12 drive filter 15.

It rotates and drives filter 15 to change piece 14, thereby make filter 15 remove from reaction tank 9 top, it highly is greater than the wall thickness of reaction tank 9 this side to change piece 14, thereby make filter 15 rotate to one side of reaction tank 9, one side that reaction tank 9 is close to filter 15 is provided with two 52 of cylinder, the output fixedly connected with water pipe 53 of two 52 of cylinder, water pipe 53's side can be dismantled and be provided with and collect box 54, water pipe 53 cooperates with outside water source, outside water source can enter into inside water pipe 53, the spout blowout on rethread water pipe 53 surface, thereby clean filter 15, two 52 of cylinder can drive water pipe 53 and reciprocate, conveniently carry out the omnidirectional cleanness to filter 15, clear waste water and great shredded paper can be collected inside collecting box 54, conveniently carry out secondary operation, avoid extravagant.

The stirring assembly 10 is arranged in the reaction tank 9, the stirring assembly 10 comprises a second motor 39, a stirring rod 40, a stirring blade 41, a belt pulley 42 and a transmission belt 43, the stirring rod 40 is rotatably arranged in the reaction tank 9, one end of the stirring rod 40 penetrates through the bottom surface of the reaction tank 9, the stirring blade 41 is uniformly fixed on the side surface of the stirring rod 40, the second motor 39 is fixed at the bottom of the reaction tank 9, the belt pulley 42 is respectively fixed on the output ends of the stirring rod 40 and the second motor 39, and the transmission belt 43 is sleeved on the side surfaces of the two belt pulleys 42.

The second motor 39 is started, the second motor 39 drives the belt pulley 42 which is matched with each other to rotate, the belt pulley 42 on the second motor 39 drives the belt pulley 42 on the stirring rod 40 to rotate through the transmission belt 43, so that the stirring rod 40 is driven to rotate, the stirring blade 41 is driven to rotate when the stirring rod 40 rotates, the stirring blade 41 is used for stirring the primary pulp which is filtered, and the primary pulp is prevented from settling.

The upper end face of the reaction tank 9 is rotatably provided with a feeding assembly 16, the feeding assembly 16 comprises supporting rods 20, a first feeding box 21, a second feeding box 22, a rotary table 23, a first air cylinder 24, a T-shaped block 25, a discharge pipe 26, a pressure pump 27 and supporting rods 20 which are symmetrically and rotatably arranged on the upper end face of the reaction tank 9, the rotary table 23 is fixedly connected with one of the supporting rods 20, the center of the rotary table and the rotating shaft of the supporting rod 20 are positioned on the same straight line, the first air cylinder 24 is fixed on the side face of the reaction tank 9, the T-shaped block 25 is fixedly connected with the output end of the first air cylinder 24, the T-shaped block 25 is provided with a guide groove 28, a guide block 29 is arranged in the guide groove 28 in a sliding mode, one end of the guide block 29 is fixed on the side face of the rotary table 23, the first feeding box 21 is positioned between the two supporting rods 20, the side face of the first feeding box 21 is symmetrically provided with limiting grooves 30, the limiting blocks 31 are arranged in the limiting grooves 30 in a sliding mode, and the two limiting rods are respectively and fixedly connected with the two supporting rods 20, limiting groove 30 inside slip is provided with spring 32, the both ends of spring 32 respectively with limiting groove 30 and stopper 31 fixed connection, add the side fixed connection of feed box two 22 and feed box one 21, feed box one 21 and feed box two 22's side have all seted up material loading mouth 33, a plurality of discharge gates 34 have been seted up to the bottom of feed box one 21, discharging pipe 26 is provided with a plurality ofly, a plurality of discharging pipes 26 are located one side of discharge gate 34 and pass feed box one 21 and feed box two 22 and communicate each other, force (forcing) pump 27 is provided with two, two force (forcing) pumps 27 are fixed at the top of feed box two 22, and the output of two force (forcing) pumps 27 is located the inside of feed box one 21 and feed box two 22 respectively.

The feeding device comprises a feeding hole 33, a material is added into a feeding box I21 and a feeding box II 22 respectively, the feeding box I and the feeding box II are sealed through a sealing plug, the material is prevented from spilling, after the feeding is completed, an air cylinder I24 is started, the air cylinder I24 can drive a T-shaped block 25 to move, the T-shaped block 25 can drive a guide groove 28 to move when moving, the guide groove 28 can drive a guide block 29 to move when moving, the guide block 28 moves under the action of force, the guide block 29 moves to pull a rotary table 23, the rotary table 23 can only do circular motion, so that the guide block 29 can slide in the guide groove 28, a support rod 20 is driven to rotate when moving the rotary table 23, the support rod 20 rotates to drive the feeding box I21 to rotate, and the feeding box I21 drives the feeding box II 22 to rotate until the feeding box I21 and the feeding box II 22 are in the horizontal position.

At this moment, the elasticity of spring 32 can promote and add box one 21, thereby make and add box one 21 and add box two 22 and remove to the top of reaction tank 9, add box one 21 and add box inside to adding respectively through two force (forcing) pumps 27 and add the material that will add box one 21 inside and add box two 22 inside through pressure and add inside reaction tank 9 through discharge gate 34 and discharging pipe 26, add the material to reaction tank 9 inside through reinforced subassembly 16 and wash thick liquid, wash the thick liquid and accomplish the back, reinforced subassembly 16 adds the system color agent and carries out the system look to the magma, stirring subassembly 10 can guarantee that other materials can fully contact with the magma after adding, reinforced subassembly 16 has avoided artifical reinforced trouble, realize the automation, raise the efficiency, and reaction tank 9 realizes multiple functions, it is longer to have avoided holistic production line.

When the cylinder resets, the cylinder can drive branch 20 and reset, and branch 20 drives and adds feed box 21 and resets, and when branch 20 rotated the time horizontal position, add feed box 21 and can slide down under the effect of gravity, and spring 32 is compressed and can be played the buffering effect.

One side that frame 1 was kept away from to reaction tank 9 is provided with drags for the pulp grinder 17, one side that reaction tank 9 was kept away from to drag for the pulp grinder 17 is provided with stoving frame 18, the bottom of stoving frame 18 is provided with the drying-machine 19 that is used for the stoving, the magma after the completion processing can enter into drags for the pulp grinder 17 in, drags for the thick liquid through dragging for pulp grinder 17 and handles, drag for the semi-manufactured goods after the thick liquid completion at last and can send into stoving frame 18 top, obtain the finished product at last through drying-machine 19 stoving semi-manufactured goods.