CN113564952A

CN113564952A - Ink particle processing device for green manufacturing of low-gram cardboard paper

Info

Publication number: CN113564952A
Application number: CN202110696231.0A
Authority: CN
Inventors: 王海英
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2021-10-29

Abstract

The invention relates to the field of green manufacturing, in particular to an ink particle processing device for green manufacturing of low-gram boxboard paper. The technical problem is as follows: provides an ink particle processing device for green manufacture of low-gram cardboard paper. The technical scheme is as follows: an ink particle processing device for green manufacturing of low-gram cardboard paper comprises a pulp separating mechanism, a turning mechanism, an ink absorbing mechanism and the like; the slurry separating mechanism is connected with the turning-up mechanism. The invention realizes the effects that when the ink particles are cleaned from the pulp of the low-gram cardboard, the treatment of the ink particles can be accelerated, the cleaning efficiency of the ink particles is increased, the treatment period is greatly reduced, the ink particles at the bottom of the pulp can be completely treated, and the treated ink particles are absorbed by the sponge body and cannot fall into the pulp for the second time.

Description

Ink particle processing device for green manufacturing of low-gram cardboard paper

Technical Field

The invention relates to the field of green manufacturing, in particular to an ink particle processing device for green manufacturing of low-gram boxboard paper.

Background

Green manufacturing is also called environmental awareness manufacturing, environmental oriented manufacturing, and the like. The method is a modern manufacturing mode which comprehensively considers environmental impact and resource benefits, and aims to minimize the impact on the environment and maximize the resource utilization rate of a product in the whole life cycle of the product from design, manufacture, packaging, transportation, use to scrapping treatment and to coordinate and optimize the economic benefits and the social benefits of an enterprise. The modern manufacturing mode of green manufacturing is the embodiment of human sustainable development strategy in the modern manufacturing industry.

Waste paper is known as forest resource in city, in recent years, because of the increasing shortage of paper making raw material, the environment pollution of paper making industry is serious, people pay more and more attention to the utilization of waste paper, the utilization rate of waste paper is continuously increased, therefore, a green manufacturing process of low-gram cardboard paper is proposed, in the manufacturing process of the low-gram cardboard paper, deinking is needed to be carried out on pulp, namely after ink is separated from fiber, ink particles collide with bubbles and are adsorbed on the bubbles, then the ink particles float to the surface of a pulp layer along with the bubbles and are scraped away, so that the whiteness of the pulp is improved, but due to technical limitation, the number of the bubbles generated in the pulp is limited, and the generation position of the bubbles is uncertain, therefore, the ink particles in the pulp cannot be effectively adsorbed and cleaned, the treatment efficiency and the effect of the ink particles are greatly reduced, and the number of the generated bubbles is extremely small, the ink particles at the bottom of the slurry are difficult to clean, and when the bubbles floating to the surface of the slurry layer are directly scraped away, the bubbles automatically break, so that the ink particles are scattered, and finally, most of the ink particles drop into the slurry, so that the cleaning effect of the ink particles is poor, and the color of the paper is not up to standard due to the paper produced at the later stage.

Therefore, a processing apparatus for a kraft pulp is proposed, which can accelerate the processing of ink particles, increase the cleaning efficiency of ink particles, completely process the ink particles at the bottom of the pulp, and prevent the processed ink particles from falling into the pulp again when the kraft pulp is cleaned.

Disclosure of Invention

In order to overcome the problem that in the manufacturing process of the low-gram cardboard, deinking is needed to be carried out on the pulp, namely after the ink is separated from the fiber, ink particles collide with bubbles and are adsorbed on the bubbles, then the ink particles float to the surface of a pulp layer along with the bubbles and are scraped away, so that the whiteness of the pulp is improved, but due to technical limitation, the number of the bubbles generated in the pulp is limited, and the generation positions of the bubbles are uncertain, so that the ink particles in the pulp cannot be effectively adsorbed and cleaned, the treatment efficiency and the effect of the ink particles are greatly reduced, and due to the fact that the number of the generated bubbles is extremely small, the ink particles at the bottom of the pulp are difficult to clean, and when the bubbles floating to the surface of the pulp layer are directly scraped away, the bubbles automatically break, so that the ink particles are scattered, and finally most of the ink particles fall into the pulp, so that the cleaning effect of the ink particles is poor, the paper produced in the later stage causes the defect that the color of the paper does not reach the standard, and the technical problem is as follows: provides an ink particle processing device for green manufacture of low-gram cardboard paper.

The technical scheme is as follows: a printing ink particle processing device for green manufacturing of low-gram boxboard paper comprises a pulp separating mechanism, a turning mechanism, a printing ink absorbing mechanism, a pulp placing barrel, a fixing block, a first support frame, a second support frame, a third support frame, a fourth support frame, a fixing frame and a controller; the pulp separating mechanism is connected with the turning mechanism; the slurry separation mechanism is connected with the slurry placing barrel; the slurry separation mechanism is connected with the fixed block; the pulp separating mechanism is connected with the second support frame; the slurry separation mechanism is connected with the fixed frame; the turning mechanism is connected with the second support frame; the turning-up mechanism is connected with the first support frame; the turning mechanism is connected with the third support frame; the turning-up mechanism is connected with the fourth supporting frame; the ink absorbing mechanism is connected with the fixing frame; the slurry placing barrel is connected with the fixing frame; the fixed block is connected with the fixed frame; the first support frame is connected with the fixed frame; the second supporting frame is connected with the fixed frame; the third supporting frame is connected with the fixed frame; the fourth supporting frame is connected with the fixed frame; the fixed frame is connected with the controller.

As a preferred technical scheme of the invention, the pulp separating mechanism comprises a motor, a first transmission shaft, a first transmission wheel, a first sliding sleeve, a first bevel gear, a first connecting plate, a first electric push rod, a second transmission wheel, a second transmission shaft, a third transmission wheel, a second sliding sleeve, a second bevel gear, a second connecting plate, a second electric push rod, a fourth transmission wheel, a third transmission shaft, a third bevel gear, a fourth bevel gear, a fifth bevel gear, a fourth transmission shaft, a fifth transmission wheel, a sixth transmission wheel, a fifth transmission shaft, a first flat gear, a toothed ring, a pulp separating barrel and fan blades; the motor is fixedly connected with the fixed block; the motor is fixedly connected with the first transmission shaft through an output shaft; the first transmission shaft is rotationally connected with the fixed frame; the first transmission shaft is fixedly connected with the first transmission wheel; the first transmission shaft is connected with the first sliding sleeve; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the first sliding sleeve is fixedly connected with the first bevel gear; the first sliding sleeve is rotatably connected with the first connecting plate; the first connecting plate is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the fixed frame; the second driving wheel is fixedly connected with the second transmission shaft; the second transmission shaft is rotatably connected with the fixed frame; the second transmission shaft is fixedly connected with a third transmission wheel; the second transmission shaft is connected with the second sliding sleeve; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the second sliding sleeve is fixedly connected with the second bevel gear; the second sliding sleeve is rotatably connected with the second connecting plate; the second connecting plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the fixed frame; the fourth driving wheel is fixedly connected with the third transmission shaft; the third transmission shaft is rotatably connected with the second support frame; the third transmission shaft is fixedly connected with the third bevel gear and the fourth bevel gear at the same time; the third bevel gear is meshed with the fifth bevel gear; the fifth bevel gear is fixedly connected with the fourth transmission shaft; the fourth transmission shaft is rotatably connected with the second support frame; the fourth transmission shaft is fixedly connected with the fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the fifth transmission shaft; the fifth transmission shaft is rotatably connected with the fixed frame; the fifth transmission shaft is fixedly connected with the first flat gear; the first flat gear is meshed with the gear ring; the gear ring is fixedly connected with the slurry separation barrel; the pulp separating barrel is rotationally connected with the fixed frame; the slurry separating barrel is contacted with the slurry placing barrel; the bottom of the inner ring surface of the slurry placing barrel is fixedly connected with six groups of fan blades simultaneously.

As a preferred technical scheme of the invention, the turning-up mechanism comprises a third electric push rod, a third connecting plate, a third sliding sleeve, a sixth bevel gear, a sixth transmission shaft, a seventh transmission wheel, an eighth transmission wheel, a first screw rod, a connecting frame, a first polish rod, a fourth electric push rod, a connecting rod, a first arc-shaped connecting plate, a second arc-shaped connecting plate, a soft rope, a first sealing plate, a seventh bevel gear, a second screw rod, a fourth connecting plate, a second polish rod, a bubble maker, a bubble conveying pipe and a second sealing plate; the third electric push rod is fixedly connected with the second support frame; the third electric push rod is fixedly connected with the third connecting plate; the third connecting plate is rotatably connected with the third sliding sleeve; the third sliding sleeve is fixedly connected with a sixth bevel gear; the third sliding sleeve is connected with the sixth transmission shaft; the sixth transmission shaft is rotatably connected with the second support frame; the sixth transmission shaft is fixedly connected with the seventh transmission wheel; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth driving wheel is fixedly connected with the first screw rod; the first screw rod is rotatably connected with the first support frame; the first screw rod is connected with the connecting frame in a rotating mode; the connecting frame is in sliding connection with the first polish rod; both sides of the bottom surface of the connecting frame are fixedly connected with a group of fourth electric push rods; both sides of the connecting frame are fixedly connected with a group of connecting rods; the first polish rod is fixedly connected with the second support frame; the two groups of fourth electric push rods are fixedly connected with the group of first arc-shaped connecting plates; the two groups of connecting rods are respectively contacted with the first arc-shaped connecting plates; the bottom surfaces of the two groups of connecting rods are fixedly connected with a group of second arc-shaped connecting plates; the two groups of first arc-shaped connecting plates are fixedly connected with the plurality of groups of soft ropes; the two groups of second arc-shaped connecting plates are simultaneously and rotationally connected with the plurality of groups of first sealing plates through the rotating connectors; two ends of each group of first sealing plates are fixedly connected with one group of soft ropes; each group of first sealing plates is fixedly connected with one group of bubble conveying pipes; the multiple groups of bubble conveying pipes are fixedly connected with the fourth connecting plate; the multiple groups of bubble conveying pipes are fixedly connected with the bubble maker; the fourth connecting plate is fixedly connected with the bubble maker; the fourth connecting plate is in screwed connection with the second screw rod; the fourth connecting plate is in sliding connection with the second polish rod; the seventh bevel gear is fixedly connected with the second screw rod; the second screw rod is rotatably connected with the third support frame; the second polish rod is fixedly connected with the fourth support frame; the lower end of each group of bubble conveying pipes is fixedly connected with a group of second sealing plates; the multiple groups of second sealing plates are all contacted with the slurry separating barrel.

As a preferred technical scheme of the invention, the ink absorbing mechanism comprises an eighth bevel gear, a seventh transmission shaft, a second flat gear, a third flat gear, an eighth transmission shaft, a ninth transmission wheel, a tenth transmission wheel, an L-shaped connecting plate, a semicircular connecting plate, a fine needle and a sponge body; the eighth bevel gear is fixedly connected with the seventh transmission shaft; the seventh transmission shaft is rotatably connected with the fixed frame; the seventh transmission shaft is fixedly connected with the second flat gear; the seventh transmission shaft is fixedly connected with the L-shaped connecting plate; the second flat gear is meshed with the third flat gear; the third horizontal gear is fixedly connected with the eighth transmission shaft; the eighth transmission shaft is rotatably connected with the fixed frame; the eighth transmission shaft is fixedly connected with the ninth transmission wheel; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the L-shaped connecting plate is fixedly connected with the semicircular connecting plate; the surface of the semicircular connecting plate is fixedly connected with a plurality of groups of fine needles simultaneously; the multiple groups of fine needles are fixedly connected with the group of cavernous bodies; a group of seventh transmission shaft, an L-shaped connecting plate and a semicircular connecting plate are also arranged at one end of the tenth transmission wheel; the two groups of semicircular connecting plates are provided with a plurality of groups of fine needles and sponges.

As the preferred technical scheme of the invention, a plurality of groups of round holes are arranged on the pulp separating barrel, and the direction of the round holes is opposite to the direction of the six groups of fan blades.

In a preferred embodiment of the present invention, the plurality of first seal plates are different in shape, the plurality of second seal plates are different in shape, and the plurality of first seal plates and the plurality of second seal plates can be combined and sealed.

As a preferred technical scheme of the invention, the fine needle is arranged at the center point of the cavernous body.

As a preferred technical scheme of the invention, a plurality of groups of sponges are all arranged in an inverted funnel shape.

The beneficial effects are that: firstly, in order to overcome the problem that in the manufacturing process of the low-gram cardboard, the pulp needs to be deinked, namely after the ink is separated from the fiber, the ink particles collide with the bubbles and are adsorbed on the bubbles, then the ink particles float to the surface of a pulp layer along with the bubbles and are scraped away, so that the whiteness of the pulp is improved, but due to technical limitation, the number of the bubbles generated in the pulp is limited, and the generation positions of the bubbles are uncertain, therefore, the ink particles in the pulp cannot be effectively adsorbed and cleaned, so that the treatment efficiency and the effect of the ink particles are greatly reduced, and due to the fact that the number of the generated bubbles is extremely small, the ink particles at the bottom of the pulp are difficult to clean, and when the bubbles floating to the surface of the pulp layer are directly scraped away, the bubbles automatically break, so that the ink particles scatter, and finally, most of the ink particles fall into the pulp, so that the cleaning effect of the ink particles is poor, the paper produced in the later period has the defect that the color of the paper does not reach the standard;

the invention designs a pulp separating mechanism, a turning-up mechanism and an ink absorbing mechanism: before the preparation work, the device is fixed stably through the fixing frame, then the power supply is connected externally, the device is started through the controller, a certain amount of paper pulp is stored in the pulp placing barrel in advance, then the pulp separating mechanism starts to work, the pulp separating mechanism carries out separation treatment on the paper pulp, namely the paper pulp is gathered to the central point of the pulp placing barrel, then the pulp separating mechanism, the turning-up mechanism and the ink absorbing mechanism work together, the turning-up mechanism generates a large amount of bubbles at the bottom of the paper pulp, so that the adhesion rate of ink particles and the bubbles in the paper pulp is increased, namely the adhesion layer degree is increased, the speed of removing the ink particles is increased, meanwhile, after the bubbles adhered by the ink particles float to the surface of the paper pulp, the ink absorbing mechanism punctures the bubbles, the ink particles adhered to the bubbles are automatically dispersed, then the ink absorbing mechanism absorbs the ink particles, and the secondary falling of the ink particles into the paper pulp is prevented, after the ink particles in the paper pulp are processed to a certain degree of lamination, because the adhesion efficiency of the ink particles at the bottom of the paper pulp and the air bubbles is low, then the pulp separating mechanism and the turning mechanism work together, the turning mechanism turns up the slurry at the bottom of the paper pulp, so that the ink particles at the bottom of the paper pulp can move to the upper layer of the slurry, the ink particles in the paper pulp can be completely adsorbed to the air bubbles, then the pulp separating mechanism and the ink absorbing mechanism work together, the ink absorbing mechanism punctures the air bubbles again and adsorbs the ink particles, and in the whole process, the fixing block, the first support frame, the second support frame, the third support frame and the fourth support frame stabilize the device, and the smooth operation of the device is ensured;

the invention realizes the effects that when the ink particles are cleaned from the pulp slurry of the low-gram carton board, the treatment of the ink particles can be accelerated, the cleaning efficiency of the ink particles is increased, the treatment period is greatly reduced, the ink particles at the bottom of the pulp can be completely treated, and the treated ink particles are absorbed by the sponge body and cannot fall into the pulp for the second time.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a schematic perspective view of a slurry separation mechanism according to the present invention;

FIG. 5 is a schematic view of a first partially separated body structure of the slurry distribution mechanism of the present invention;

FIG. 6 is a schematic view of a second partial body structure of the slurry distribution mechanism of the present invention;

FIG. 7 is a schematic perspective view of a third part of the slurry separation mechanism of the present invention;

FIG. 8 is a schematic perspective view of the turning mechanism of the present invention;

FIG. 9 is a schematic view of a first partially assembled construction of the turn-up mechanism of the present invention;

FIG. 10 is a schematic view of a second partially assembled construction of the turn-up mechanism of the present invention;

FIG. 11 is a perspective view of a third portion of the turn-up mechanism of the present invention;

FIG. 12 is a schematic perspective view of an ink absorbing mechanism according to the present invention;

FIG. 13 is a schematic view of a first partial body structure of the ink absorbing mechanism of the present invention;

FIG. 14 is a schematic view of a second partial body structure of the ink absorbing mechanism of the present invention.

Reference numbers in the drawings: 1: slurry separation mechanism, 2: turning-up mechanism, 3: ink absorbing mechanism, 4: slurry placing barrel, 5: fixed block, 6: first support frame, 7: second support frame, 8: third support frame, 9: fourth support frame, 10: mount, 11: controller, 101: motor, 102: first transmission shaft, 103: first drive wheel, 104: first runner, 105: first bevel gear, 106: first connecting plate, 107: first electric putter, 108: second drive wheel, 109: second drive shaft, 1010: third transmission wheel, 1011: second runner, 1012: second bevel gear, 1013: second connecting plate, 1014: second electric putter, 1015: fourth transmission wheel, 1016: third drive shaft, 1017: third bevel gear, 1018: fourth bevel gear, 1019: fifth bevel gear, 1020: fourth transmission shaft, 1021: fifth transmission wheel, 1022: sixth transmission wheel, 1023: fifth transmission shaft, 1024: first spur gear, 1025: ring gear, 1026: pulp separation barrel, 1027: fan blade, 201: third electric putter, 202: third connecting plate, 203: third runner, 204: sixth bevel gear, 205: sixth propeller shaft, 206: seventh transmission wheel, 207: eighth drive wheel, 208: first lead screw, 209: connecting frame, 2010: first polish rod, 2011: fourth electric putter, 2012: connecting rod, 2013: first arc connecting plate, 2014: second arc connecting plate, 2015: flexible cord, 2016: first seal plate, 2017: seventh bevel gear, 2018: second screw, 2019: fourth connecting plate, 2020: second polish rod, 2021: bubble maker, 2022: bubble transfer tube, 2023: second seal plate, 301: eighth bevel gear, 302: seventh propeller shaft, 303: second spur gear, 304: third spur gear, 305: eighth propeller shaft, 306: ninth transmission wheel, 307: tenth transmission wheel, 308: l-shaped connecting plate, 309: semicircle connecting plate, 3010: fine needle, 3011: a sponge body.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

An ink particle processing device for green manufacturing of low-gram cardboard paper is shown in figures 1-14 and comprises a pulp separating mechanism 1, a turning mechanism 2, an ink absorbing mechanism 3, a pulp placing barrel 4, a fixing block 5, a first support frame 6, a second support frame 7, a third support frame 8, a fourth support frame 9, a fixing frame 10 and a controller 11; the pulp separating mechanism 1 is connected with the turning mechanism 2; the slurry separation mechanism 1 is connected with a slurry placing barrel 4; the slurry separation mechanism 1 is connected with the fixed block 5; the pulp separating mechanism 1 is connected with a second supporting frame 7; the pulp separating mechanism 1 is connected with the fixed frame 10; the turning-up mechanism 2 is connected with a second support frame 7; the turning-up mechanism 2 is connected with the first support frame 6; the turning-up mechanism 2 is connected with a third support frame 8; the turning-up mechanism 2 is connected with a fourth supporting frame 9; the ink absorbing mechanism 3 is connected with the fixed frame 10; the slurry placing barrel 4 is connected with the fixing frame 10; the fixed block 5 is connected with the fixed frame 10; the first support frame 6 is connected with the fixed frame 10; the second support frame 7 is connected with the fixed frame 10; the third supporting frame 8 is connected with a fixed frame 10; the fourth supporting frame 9 is connected with the fixed frame 10; the holder 10 is connected to a controller 11.

Before the preparation work, the device is fixed stably through the fixing frame 10, then the power supply is connected externally, the device is started through the controller 11, a certain amount of paper pulp is stored in the pulp placing barrel 4 in advance, then the pulp separating mechanism 1 starts to work, the pulp separating mechanism 1 separates the paper pulp, namely the paper pulp is gathered to the central point of the pulp placing barrel 4, then the pulp separating mechanism 1, the turning mechanism 2 and the ink absorbing mechanism 3 work together, the turning mechanism 2 generates a large amount of bubbles at the bottom of the paper pulp, so that the adhesion rate of ink particles and the bubbles in the paper pulp is increased, namely the adhesion layer degree is increased, the speed of removing the ink particles is increased, meanwhile, after the bubbles adhered with the ink particles float to the surface of the paper pulp, the ink absorbing mechanism 3 punctures the bubbles, so that the ink particles adhered to the bubbles are automatically dispersed, and then the ink absorbing mechanism 3 absorbs the ink particles, the secondary falling of the ink particles into the paper pulp is prevented, after the ink particles in the paper pulp are processed to a certain degree of stratification, because the efficiency of the adhesion of the ink particles at the bottom of the paper pulp and bubbles is low, then the pulp separating mechanism 1 and the turning mechanism 2 work together, the turning mechanism 2 turns up the pulp at the bottom of the paper pulp, so that the ink particles at the bottom of the paper pulp can move into the upper layer pulp, the ink particles in the paper pulp can be completely adsorbed onto the bubbles, then the pulp separating mechanism 1 and the ink absorbing mechanism 3 work together, the bubbles are broken by the ink absorbing mechanism 3 again, and the ink particles are adsorbed, and in the whole process, the device is stabilized through the fixing block 5, the first support frame 6, the second support frame 7, the third support frame 8 and the fourth support frame 9, and the smooth operation of the device is ensured; the invention realizes the effects that when the ink particles are cleaned from the pulp of the low-k cardboard, the treatment of the ink particles can be accelerated, the cleaning efficiency of the ink particles is increased, the treatment period is greatly reduced, the ink particles at the bottom of the pulp can be completely treated, and the treated ink particles are absorbed by the sponge 3011 and do not fall into the pulp for the second time.

According to the invention, the pulp separation mechanism 1 comprises a motor 101, a first transmission shaft 102, a first transmission wheel 103, a first sliding sleeve 104, a first bevel gear 105, a first connecting plate 106, a first electric push rod 107, a second transmission wheel 108, a second transmission shaft 109, a third transmission wheel 1010, a second sliding sleeve 1011, a second bevel gear 1012, a second connecting plate 1013, a second electric push rod 1014, a fourth transmission wheel 1015, a third transmission shaft 1016, a third bevel gear 1017, a fourth bevel gear 1018, a fifth bevel gear 1019, a fourth transmission shaft 1020, a fifth transmission wheel 1021, a sixth transmission wheel 1022, a fifth transmission shaft 1023, a first flat gear 1024, a toothed ring 1025, a pulp separation barrel 1026 and fan blades 1027; the motor 101 is fixedly connected with the fixed block 5; the motor 101 is fixedly connected with the first transmission shaft 102 through an output shaft; the first transmission shaft 102 is rotatably connected with the fixed frame 10; the first transmission shaft 102 is fixedly connected with the first transmission wheel 103; the first transmission shaft 102 is connected with the first sliding sleeve 104; the outer annular surface of the first driving wheel 103 is in driving connection with a second driving wheel 108 through a belt; the first sliding sleeve 104 is fixedly connected with a first bevel gear 105; the first sliding sleeve 104 is rotatably connected with the first connecting plate 106; the first connecting plate 106 is fixedly connected with a first electric push rod 107; the first electric push rod 107 is fixedly connected with the fixed frame 10; the second driving wheel 108 is fixedly connected with a second transmission shaft 109; the second transmission shaft 109 is rotatably connected with the fixed frame 10; the second transmission shaft 109 is fixedly connected with a third transmission wheel 1010; the second transmission shaft 109 is connected with the second sliding sleeve 1011; the outer annular surface of the third driving wheel 1010 is in transmission connection with a fourth driving wheel 1015 through a belt; the second sliding sleeve 1011 is fixedly connected with the second bevel gear 1012; the second sliding sleeve 1011 is rotatably connected with the second connecting plate 1013; the second connecting plate 1013 is fixedly connected with a second electric push rod 1014; the second electric push rod 1014 is fixedly connected with the fixed frame 10; the fourth driving wheel 1015 is fixedly connected with the third transmission shaft 1016; the third transmission shaft 1016 is rotatably connected with the second support frame 7; the third transmission shaft 1016 is fixedly connected with a third bevel gear 1017 and a fourth bevel gear 1018 at the same time; the third bevel gear 1017 is engaged with the fifth bevel gear 1019; the fifth bevel gear 1019 is fixedly connected with the fourth transmission shaft 1020; the fourth transmission shaft 1020 is rotatably connected with the second support frame 7; the fourth transmission shaft 1020 is fixedly connected with the fifth driving wheel 1021; the outer ring surface of the fifth driving wheel 1021 is in driving connection with a sixth driving wheel 1022 through a belt; the sixth driving wheel 1022 is fixedly connected with the fifth transmission shaft 1023; the fifth transmission shaft 1023 is in rotary connection with the fixed frame 10; the fifth transmission shaft 1023 is fixedly connected with the first flat gear 1024; the first flat gear 1024 engages with the ring gear 1025; the tooth ring 1025 is fixedly connected with the pulp separating barrel 1026; the pulp separating barrel 1026 is rotationally connected with the fixed frame 10; the slurry separation barrel 1026 is in contact with the slurry placing barrel 4; the bottom of the inner ring surface of the slurry placing barrel 4 is fixedly connected with six groups of fan blades 1027 at the same time.

After the operation is started, the motor 101 starts to operate, the motor 101 drives the first transmission shaft 102 to rotate through the output shaft, the first transmission shaft 102 drives the first transmission wheel 103 to rotate, the first transmission wheel 103 drives the second transmission wheel 108 to rotate, the second transmission wheel 108 drives the third transmission wheel 1010 through the second transmission shaft 109, the third transmission wheel 1010 drives the fourth transmission wheel 1015 to rotate, the fourth transmission wheel 1015 drives the third bevel gear 1017 through the third transmission shaft 1016, the third bevel gear 1017 drives the fourth transmission shaft 1020 through the fifth bevel gear 1019, the fourth transmission shaft 1020 drives the fifth transmission wheel 1021, the fifth transmission wheel 1021 drives the sixth transmission wheel 1022 to rotate, the sixth transmission wheel 1023 drives the first flat gear 1024 through the fifth transmission shaft 1023, the first flat gear 1024 drives the toothed ring 1025 to rotate, the toothed ring 1025 drives the pulp-separating bucket 1026 to rotate, when the pulp-separating bucket 1026 rotates, because the pulp-separating bucket 1022 is provided with a plurality of circular holes facing opposite directions to the fan blades 1027, therefore, the pulp in the pulp placing barrel 4 will flow into the pulp separating barrel 1026, at the same time, the first electric push rod 107 drives the first connecting plate 106 to move towards the eighth bevel gear 301, i.e. drives the first sliding sleeve 104 and the first bevel gear 105 to move towards the eighth bevel gear 301, so that the first bevel gear 105 is engaged with the eighth bevel gear 301, the first transmission shaft 102 transmits the first bevel gear 105 through the first sliding sleeve 104, the first bevel gear 105 drives the ink absorbing mechanism 3 to work through the eighth bevel gear 301, at the same time, the turning-up mechanism 2 starts to work, the turning-up mechanism 2 produces a large amount of bubbles, i.e. generates a large amount of bubbles from the bottom of the pulp, thereby accelerating the adsorption efficiency of the ink particles and the bubbles, and increasing the cleaning degree of the ink particles, and after the bubbles adsorbing the ink particles float to the surface of the pulp, the ink absorbing mechanism 3 breaks the bubbles under the action of the ink absorbing mechanism 3, and adsorbs the dispersed ink particles after the bubbles are broken, after a certain time of treatment, the motor 101 starts to work again, the motor 101 rotates reversely, so that the eighth bevel gear 301 is driven to rotate reversely through the first bevel gear 105, the ink absorbing mechanism 3 is recovered to the initial state, then the motor 101 transmits forward, the first transmission shaft 102 drives the first transmission wheel 103 to rotate, the first transmission wheel 103 drives the second transmission wheel 108 to rotate, the second transmission wheel 108 drives the third transmission wheel 1010 through the second transmission shaft 109, the third transmission wheel 1010 drives the fourth transmission wheel 1015 to rotate, the fourth transmission wheel 1015 drives the fourth bevel gear 1018 through the third transmission shaft 1016, the fourth bevel gear 1018 drives the turning-up mechanism 2 to work, the turning-up mechanism 2 turns up the slurry at the bottom of the pulp, meanwhile, the second electric push rod 1014 drives the second connecting plate 1013 to move towards the seventh bevel gear 1011, namely drives the second sliding sleeve and the second bevel gear 1012 to move towards the seventh bevel gear 2017, the second bevel gear 1012 is meshed with the seventh bevel gear 2017, and the seventh bevel gear 2017 drives the turning-up mechanism 2 to work, so that the ink particles in the bottom slurry can move to the upper layer of the slurry, and the ink particles in the pulp can be completely cleaned; the mechanism completes the separation treatment of the pulp, so that the ink particles at the bottom of the pulp can be cleaned.

The turning-up mechanism 2 comprises a third electric push rod 201, a third connecting plate 202, a third sliding sleeve 203, a sixth bevel gear 204, a sixth transmission shaft 205, a seventh transmission wheel 206, an eighth transmission wheel 207, a first screw 208, a connecting frame 209, a first polish rod 2010, a fourth electric push rod 2011, a connecting rod 2012, a first arc-shaped connecting plate 2013, a second arc-shaped connecting plate 2014, a soft rope 2015, a first sealing plate 2016, a seventh bevel gear 2017, a second screw rod 2018, a fourth connecting plate 2019, a second polish rod 2020, an air bubble maker 2021, an air bubble conveying pipe 2022 and a second sealing plate 2023; the third electric push rod 201 is fixedly connected with the second support frame 7; the third electric push rod 201 is fixedly connected with the third connecting plate 202; the third connecting plate 202 is rotatably connected with the third sliding sleeve 203; the third sliding sleeve 203 is fixedly connected with a sixth bevel gear 204; the third sliding sleeve 203 is connected with a sixth transmission shaft 205; the sixth transmission shaft 205 is rotatably connected with the second support frame 7; the sixth transmission shaft 205 is fixedly connected with the seventh transmission wheel 206; the outer annular surface of the seventh transmission wheel 206 is in transmission connection with the eighth transmission wheel 207 through a belt; the eighth driving wheel 207 is fixedly connected with the first screw rod 208; the first screw rod 208 is rotatably connected with the first support frame 6; the first screw rod 208 is connected with the connecting frame 209 in a screwing way; the connecting frame 209 is in sliding connection with the first polish rod 2010; both sides of the bottom surface of the connecting frame 209 are fixedly connected with a group of fourth electric push rods 2011; both sides of the connecting frame 209 are fixedly connected with a group of connecting rods 2012; the first polish rod 2010 is fixedly connected with the second support frame 7; the two groups of fourth electric push rods 2011 are fixedly connected with the group of first arc-shaped connecting plates 2013; the two groups of connecting rods 2012 are respectively contacted with the one group of first arc-shaped connecting plates 2013; the bottom surfaces of the two groups of connecting rods 2012 are fixedly connected with a group of second arc-shaped connecting plates 2014; the two groups of first arc-shaped connecting plates 2013 are fixedly connected with the multiple groups of soft ropes 2015; the two groups of second arc-shaped connecting plates 2014 are simultaneously in rotating connection with the multiple groups of first sealing plates 2016 through rotating connectors; two ends of each group of first sealing plates 2016 are fixedly connected with a group of soft ropes 2015; each group of first sealing plates 2016 are fixedly connected with a group of bubble conveying pipes 2022; the multiple groups of bubble conveying pipes 2022 are fixedly connected with the fourth connecting plate 2019; the multiple groups of air bubble conveying pipes 2022 are fixedly connected with the air bubble maker 2021; the fourth connecting plate 2019 is fixedly connected with the bubble maker 2021; the fourth connecting plate 2019 is in screwed connection with the second screw rod 2018; the fourth connecting plate 2019 is in sliding connection with the second polished rod 2020; the seventh bevel gear 2017 is fixedly connected with the second screw rod 2018; the second screw rod 2018 is rotatably connected with the third support frame 8; the second polish rod 2020 is fixedly connected with the fourth support frame 9; the lower end of each group of bubble conveying pipes 2022 is fixedly connected with a group of second sealing plates 2023; multiple sets of second seal plates 2023 are in contact with the slurry barrel 1026.

After the operation is started, the second sealing plate 2023 is located at the bottom of the pulp separating barrel 1026, then the bubble maker 2021 starts to operate, the bubble maker 2021 delivers bubbles into the pulp through the plurality of groups of bubble delivery pipes 2022, so as to accelerate the adsorption of ink particles in the pulp, that is, increase the adsorption degree, after a certain time of treatment, the bubble maker 2021 stops operating, then the third electric push rod 201 drives the third connecting plate 202 to move downwards, that is, the third sliding sleeve 203 and the sixth bevel gear 204 to move downwards, so that the sixth bevel gear 204 is meshed with the fourth bevel gear 1018, the sixth bevel gear 204 is driven to rotate by the fourth bevel gear 1018, the sixth bevel gear 204 drives the sixth transmission shaft 205 by the third sliding sleeve 203, the sixth transmission shaft 205 drives the seventh transmission wheel 206 to rotate, the seventh transmission wheel 206 drives the eighth transmission wheel 207 to rotate, the eighth transmission wheel 207 drives the first lead screw 208 to rotate, the first lead screw 208 drives the connecting frame 209 to slide downwards on the first polished rod 2010, that is, the two sets of fourth electric push rods 2011 and the connecting rod 2012 are driven by the connecting frame 209 to move downwards, so that the two sets of fourth electric push rods 2011 and the connecting rod 2012 drive the two sets of second arc-shaped connecting plates 2014, the multiple sets of soft ropes 2015 and the first sealing plates 2016 to move downwards until the multiple sets of first sealing plates 2016 move to the position between the second sealing plates 2023, so that each set of first sealing plates 2016 are respectively located between the two sets of second sealing plates 2023, then the two sets of fourth electric push rods 2011 work simultaneously, the two sets of fourth electric push rods 2011 drive the two sets of first arc-shaped connecting plates 2013 to move upwards, so that the two sets of first arc-shaped connecting plates 2013 drive the multiple sets of soft ropes 2015 to stretch upwards, that the multiple sets of first sealing plates 2016 are driven by the multiple sets of soft ropes 2015 to move, that the multiple sets of first sealing plates 2016 rotate around the rotating connectors connected with the two sets of second arc-shaped connecting plates 2014, so that the multiple sets of first sealing plates 2016 are combined with the multiple sets of second sealing plates 2023, then the motor 101 rotates reversely, the second electric push rod 1014 causes the second bevel gear 1012 to mesh with the seventh bevel gear 2017, then the seventh bevel gear 2017 drives the second screw rod 2018 to rotate, the second screw rod 2018 drives the fourth connecting plate 2019 to slide upwards on the second polished rod 2020, namely, the bubble maker 2021, the multiple sets of bubble conveying pipes 2022 and the second sealing plates 2023 are driven to move upwards by the fourth connecting plate 2019, at the same time, the first screw rod 208 drives the connecting frame 209 to move upwards on the first polished rod 2010, namely, the multiple sets of first sealing plates 2016 are driven to move upwards by the connecting frame 209, as the multiple sets of first sealing plates 2016 are combined with the multiple sets of second sealing plates 3, the slurry at the bottom of the paper pulp is brought up by the multiple sets of first sealing plates 2023 and the multiple sets of second sealing plates 2023 after combination, then the two sets of fourth electric push rods cause the two sets of first arc connecting plates 2013 to return to the original position, thereby causing the multiple sets of first sealing plates 2016 and second sealing plates 2023 to separate, so that the ink particles in the bottom slurry move to the upper layer of the pulp, then the second electric push rod 1014 disconnects the second bevel gear 1012 from the seventh bevel gear 2017, then the first screw 208 drives the relevant components such as the connecting frame 209 and the like to return to the original positions, then the motor 101 rotates reversely, the third electric push rod 201 disconnects the sixth bevel gear 204 from the fourth bevel gear 1018, the second electric push rod 1014 enables the second bevel gear 1012 to be meshed with the seventh bevel gear 2017 again, then the seventh bevel gear 2017 drives the second screw 2018 to rotate reversely, so that the relevant components such as the fourth connecting plate 2019 and the like are driven by the second screw 2018 to move downwards to the original positions, then the bubble maker 2021 starts to work again, and the bubble maker 2021 delivers bubbles into the pulp again through the multiple groups of bubble delivery pipes 2022; the mechanism completes the turning-up work of the ink particles in the paper pulp.

According to the invention, the ink absorbing mechanism 3 comprises an eighth bevel gear 301, a seventh transmission shaft 302, a second flat gear 303, a third flat gear 304, an eighth transmission shaft 305, a ninth transmission wheel 306, a tenth transmission wheel 307, an L-shaped connecting plate 308, a semicircular connecting plate 309, a fine needle 3010 and a sponge 3011; the eighth bevel gear 301 is fixedly connected with a seventh transmission shaft 302; the seventh transmission shaft 302 is rotatably connected with the fixed frame 10; the seventh transmission shaft 302 is fixedly connected with the second flat gear 303; the seventh transmission shaft 302 is fixedly connected with the L-shaped connecting plate 308; the second flat gear 303 meshes with the third flat gear 304; the third spur gear 304 is fixedly connected with an eighth transmission shaft 305; the eighth transmission shaft 305 is rotatably connected with the fixed frame 10; the eighth transmission shaft 305 is fixedly connected with a ninth transmission wheel 306; the outer annular surface of the ninth driving wheel 306 is in driving connection with the tenth driving wheel 307 through a belt; the L-shaped connecting plate 308 is fixedly connected with the semicircular connecting plate 309; the surface of the semicircular connecting plate 309 is fixedly connected with a plurality of groups of thin needles 3010 at the same time; the multiple groups of fine needles 3010 are fixedly connected with the group of cavernous bodies 3011; a group of seventh transmission shafts 302, L-shaped connecting plates 308 and semicircular connecting plates 309 are also arranged at one end of a tenth transmission wheel 307; the two sets of semicircular connecting plates 309 are provided with a plurality of groups of thin needles 3010 and cavernous bodies 3011.

After the operation is started, the first electric push rod 107 makes the first bevel gear 105 mesh with the eighth bevel gear 301, so that the eighth bevel gear 301 is driven to rotate by the first bevel gear 105, the eighth bevel gear 301 drives the second flat gear 303 by the seventh transmission shaft 302, the second flat gear 303 drives the eighth transmission shaft 305 by the third flat gear 304, the eighth transmission shaft 305 drives the ninth transmission wheel 306 to rotate, the ninth transmission wheel 306 drives the tenth transmission wheel 307 to rotate, when the second flat gear 303 and the tenth transmission wheel 307 rotate, the second flat gear 303 and the tenth transmission wheel 307 respectively drive the two sets of seventh transmission shafts 302 to rotate, that is, the two sets of L-shaped connecting plates 308 are driven to rotate by the two sets of seventh transmission shafts 302, the two sets of L-shaped connecting plates 308 drive the two sets of semicircular connecting plates 309, the fine needle 3010 and the sponge 3011 to rotate, so that the two sets of semicircular connecting plates 309 move to the upper part of pulp in the pulp placing barrel 4, and make multiple groups of fine needles 3010 locate at the surface of slurry, after the bubble floats to the surface of slurry, multiple groups of fine needles 3010 prick the bubble, the ink particle is scattered after the bubble is pricked, because multiple groups of sponge 3011 are set up as the hopper type of falling, the ink particle scattered can be absorbed by sponge 3011 basically, prevent the ink particle from dropping into slurry for the second time, after turning up the mechanism 2 relevant part to move downward, the motor 101 reverses, make the ink absorb mechanism 3 relevant part and resume the original position, after turning up the mechanism 2 relevant part and resume the original position, the motor 101 rotates forward, make semicircular joint bar 309, fine needle 3010 and sponge 3011 relevant part move above slurry again; the mechanism completes the work of adsorbing ink particles.

In the present invention, the slurry separating barrel 1026 has a plurality of sets of circular holes, and the direction of the circular holes is opposite to the direction of the six sets of blades 1027.

So that the slurry in the slurry placing barrel 4 can be let into the slurry dividing barrel 1026, and the slurry in the slurry dividing barrel 1026 can be continuously renewed.

In the present invention, the plurality of sets of first sealing plates 2016 have different shapes, the plurality of sets of second sealing plates 2023 have different shapes, and the plurality of sets of first sealing plates 2016 and the plurality of sets of second sealing plates 2023 can be hermetically combined.

The slurry bottom ink particles are turned up by sets of first seal plates 2016 and sets of second seal plates 2023.

In the present invention, the fine needle 3010 is disposed at the center of the sponge 3011.

After the bubbles are punctured, the punctured ink particles can be better adsorbed by the sponge 3011.

In the invention, a plurality of groups of the sponge bodies 3011 are all arranged in an inverted funnel shape.

So that the multiple groups of the sponge 3011 can better adsorb the dispersed ink particles.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims

1. The utility model provides an ink particle processing apparatus when low gram boxboard paper green is made, places bucket, fixed block, first support frame, second support frame, third support frame, fourth support frame, mount and controller, characterized by including the thick liquid: the device also comprises a pulp separating mechanism, a turning-up mechanism and an ink absorbing mechanism; the pulp separating mechanism is connected with the turning mechanism; the slurry separation mechanism is connected with the slurry placing barrel; the slurry separation mechanism is connected with the fixed block; the pulp separating mechanism is connected with the second support frame; the slurry separation mechanism is connected with the fixed frame; the turning mechanism is connected with the second support frame; the turning-up mechanism is connected with the first support frame; the turning mechanism is connected with the third support frame; the turning-up mechanism is connected with the fourth supporting frame; the ink absorbing mechanism is connected with the fixing frame; the slurry placing barrel is connected with the fixing frame; the fixed block is connected with the fixed frame; the first support frame is connected with the fixed frame; the second supporting frame is connected with the fixed frame; the third supporting frame is connected with the fixed frame; the fourth supporting frame is connected with the fixed frame; the fixed frame is connected with the controller.

2. The apparatus for treating ink particles during green manufacture of low-gram linerboard paper as claimed in claim 1, wherein the slurry separation mechanism comprises a motor, a first transmission shaft, a first transmission wheel, a first sliding sleeve, a first bevel gear, a first connecting plate, a first electric push rod, a second transmission wheel, a second transmission shaft, a third transmission wheel, a second sliding sleeve, a second bevel gear, a second connecting plate, a second electric push rod, a fourth transmission wheel, a third transmission shaft, a third bevel gear, a fourth bevel gear, a fifth bevel gear, a fourth transmission shaft, a fifth transmission wheel, a sixth transmission wheel, a fifth transmission shaft, a first flat gear, a toothed ring, a slurry separation barrel and fan blades; the motor is fixedly connected with the fixed block; the motor is fixedly connected with the first transmission shaft through an output shaft; the first transmission shaft is rotationally connected with the fixed frame; the first transmission shaft is fixedly connected with the first transmission wheel; the first transmission shaft is connected with the first sliding sleeve; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the first sliding sleeve is fixedly connected with the first bevel gear; the first sliding sleeve is rotatably connected with the first connecting plate; the first connecting plate is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the fixed frame; the second driving wheel is fixedly connected with the second transmission shaft; the second transmission shaft is rotatably connected with the fixed frame; the second transmission shaft is fixedly connected with a third transmission wheel; the second transmission shaft is connected with the second sliding sleeve; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the second sliding sleeve is fixedly connected with the second bevel gear; the second sliding sleeve is rotatably connected with the second connecting plate; the second connecting plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the fixed frame; the fourth driving wheel is fixedly connected with the third transmission shaft; the third transmission shaft is rotatably connected with the second support frame; the third transmission shaft is fixedly connected with the third bevel gear and the fourth bevel gear at the same time; the third bevel gear is meshed with the fifth bevel gear; the fifth bevel gear is fixedly connected with the fourth transmission shaft; the fourth transmission shaft is rotatably connected with the second support frame; the fourth transmission shaft is fixedly connected with the fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the fifth transmission shaft; the fifth transmission shaft is rotatably connected with the fixed frame; the fifth transmission shaft is fixedly connected with the first flat gear; the first flat gear is meshed with the gear ring; the gear ring is fixedly connected with the slurry separation barrel; the pulp separating barrel is rotationally connected with the fixed frame; the slurry separating barrel is contacted with the slurry placing barrel; the bottom of the inner ring surface of the slurry placing barrel is fixedly connected with six groups of fan blades simultaneously.

3. The ink particle processing device for green manufacturing of low-gram boxboard paper as claimed in claim 2, wherein the turning mechanism comprises a third electric push rod, a third connecting plate, a third sliding sleeve, a sixth bevel gear, a sixth transmission shaft, a seventh transmission wheel, an eighth transmission wheel, a first screw rod, a connecting frame, a first polish rod, a fourth electric push rod, a connecting rod, a first arc-shaped connecting plate, a second arc-shaped connecting plate, a soft rope, a first sealing plate, a seventh bevel gear, a second screw rod, a fourth connecting plate, a second polish rod, a bubble maker, a bubble conveying pipe and a second sealing plate; the third electric push rod is fixedly connected with the second support frame; the third electric push rod is fixedly connected with the third connecting plate; the third connecting plate is rotatably connected with the third sliding sleeve; the third sliding sleeve is fixedly connected with a sixth bevel gear; the third sliding sleeve is connected with the sixth transmission shaft; the sixth transmission shaft is rotatably connected with the second support frame; the sixth transmission shaft is fixedly connected with the seventh transmission wheel; the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt; the eighth driving wheel is fixedly connected with the first screw rod; the first screw rod is rotatably connected with the first support frame; the first screw rod is connected with the connecting frame in a rotating mode; the connecting frame is in sliding connection with the first polish rod; both sides of the bottom surface of the connecting frame are fixedly connected with a group of fourth electric push rods; both sides of the connecting frame are fixedly connected with a group of connecting rods; the first polish rod is fixedly connected with the second support frame; the two groups of fourth electric push rods are fixedly connected with the group of first arc-shaped connecting plates; the two groups of connecting rods are respectively contacted with the first arc-shaped connecting plates; the bottom surfaces of the two groups of connecting rods are fixedly connected with a group of second arc-shaped connecting plates; the two groups of first arc-shaped connecting plates are fixedly connected with the plurality of groups of soft ropes; the two groups of second arc-shaped connecting plates are simultaneously and rotationally connected with the plurality of groups of first sealing plates through the rotating connectors; two ends of each group of first sealing plates are fixedly connected with one group of soft ropes; each group of first sealing plates is fixedly connected with one group of bubble conveying pipes; the multiple groups of bubble conveying pipes are fixedly connected with the fourth connecting plate; the multiple groups of bubble conveying pipes are fixedly connected with the bubble maker; the fourth connecting plate is fixedly connected with the bubble maker; the fourth connecting plate is in screwed connection with the second screw rod; the fourth connecting plate is in sliding connection with the second polish rod; the seventh bevel gear is fixedly connected with the second screw rod; the second screw rod is rotatably connected with the third support frame; the second polish rod is fixedly connected with the fourth support frame; the lower end of each group of bubble conveying pipes is fixedly connected with a group of second sealing plates; the multiple groups of second sealing plates are all contacted with the slurry separating barrel.

4. The apparatus for processing ink particles in green manufacturing of low-gram boxboard paper as claimed in claim 3, wherein the ink absorption mechanism comprises an eighth bevel gear, a seventh transmission shaft, a second flat gear, a third flat gear, an eighth transmission shaft, a ninth transmission wheel, a tenth transmission wheel, an L-shaped connecting plate, a semicircular connecting plate, a fine needle and a sponge body; the eighth bevel gear is fixedly connected with the seventh transmission shaft; the seventh transmission shaft is rotatably connected with the fixed frame; the seventh transmission shaft is fixedly connected with the second flat gear; the seventh transmission shaft is fixedly connected with the L-shaped connecting plate; the second flat gear is meshed with the third flat gear; the third horizontal gear is fixedly connected with the eighth transmission shaft; the eighth transmission shaft is rotatably connected with the fixed frame; the eighth transmission shaft is fixedly connected with the ninth transmission wheel; the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt; the L-shaped connecting plate is fixedly connected with the semicircular connecting plate; the surface of the semicircular connecting plate is fixedly connected with a plurality of groups of fine needles simultaneously; the multiple groups of fine needles are fixedly connected with the group of cavernous bodies; a group of seventh transmission shaft, an L-shaped connecting plate and a semicircular connecting plate are also arranged at one end of the tenth transmission wheel; the two groups of semicircular connecting plates are provided with a plurality of groups of fine needles and sponges.

5. The apparatus as claimed in claim 2, wherein the plurality of sets of circular holes are formed in the pulp-separating barrel, and the directions of the circular holes are opposite to the directions of the six sets of fan blades.

6. The apparatus as claimed in claim 3, wherein the plurality of first sealing plates are different in shape and the plurality of second sealing plates are different in shape, and the plurality of first sealing plates and the plurality of second sealing plates are combined and sealed.

7. The apparatus as claimed in claim 4, wherein the fine needle is disposed at the center of the sponge.

8. The apparatus as claimed in claim 4, wherein the plurality of sets of sponges are in the shape of an inverted funnel.