CN211386269U - Fishing net production clout cyclic utilization system - Google Patents

Fishing net production clout cyclic utilization system Download PDF

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Publication number
CN211386269U
CN211386269U CN201922241216.8U CN201922241216U CN211386269U CN 211386269 U CN211386269 U CN 211386269U CN 201922241216 U CN201922241216 U CN 201922241216U CN 211386269 U CN211386269 U CN 211386269U
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China
Prior art keywords
screening
crushing
roller
deironing
cutter
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Active
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CN201922241216.8U
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Chinese (zh)
Inventor
刘洋
王玲
刘旺
陶春玲
孙卫军
王爱明
龙能
李年春
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Hunan Xinhai Co ltd
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Hunan Xinhai Co ltd
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Priority to CN201922241216.8U priority Critical patent/CN211386269U/en
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Abstract

The utility model provides a fishing net production clout cyclic utilization system, it is including installing the garbage collection conveyer belt in net piece make-up machine department, and garbage collection conveyer belt output is located garbage collection fill top, and garbage collection fill exit is connected with the waste material conveyer pipe, and waste material conveyer pipe export is located deironing subassembly entry top, and deironing subassembly exit is connected with the screening transition pipe, and screening transition pipe export is located screening subassembly entry top, and the screening subassembly export is connected with crushing unit. Can effectively handle the fishing net clout after this scheme of adoption, the fibre of separation can reuse.

Description

Fishing net production clout cyclic utilization system
Technical Field
The utility model belongs to the technical field of the fishing net technique and specifically relates to indicate a fishing net production clout cyclic utilization system.
Background
The clout and the waste material that the fishing net cut off in process of production need collect the back and smash into fiber raw materials once more to reach cyclic utilization's purpose, the surplus waste material of current production or clout are piled up earlier in the workshop, when piling up the certain degree, and the rethread fork truck sends into the rubbing crusher and directly smashes, because the clout can contain a certain amount of metal and other debris, does not sieve and can influence the quality of smashing the raw materials.
Disclosure of Invention
An object of the utility model is to overcome prior art not enough, provide an effective fishing net production clout cyclic utilization system that handles, separates the fibre that the fishing net clout can reuse.
In order to achieve the above object, the present invention provides a technical solution: the utility model provides a fishing net production clout cyclic utilization system, it is including installing the garbage collection conveyer belt in net piece make-up machine department, and garbage collection conveyer belt output is located garbage collection fill top, and the garbage collection fill exit is connected with the waste material conveyer pipe, and the waste material conveyer pipe export is located deironing subassembly entry top, and deironing subassembly exit is connected with the screening transition pipe, and the export of screening transition pipe is located screening subassembly entry top, and the screening subassembly export is connected with crushing unit.
The iron removing component comprises an iron removing machine shell, an iron removing roller and iron removing roller end plates, wherein the iron removing roller is arranged at the upper part inside the iron removing machine shell, the iron removing roller is formed by winding a net sheet, a net grabbing strip is fixed on the surface of the iron removing roller and is distributed on the surface of the iron removing roller in a strip shape or a spiral shape, a net grabbing thorn is fixed on the net grabbing strip, the iron removing roller end plates are fixed at two ends of the iron removing roller, an iron attracting support plate is fixed in the iron removing roller, two ends of the iron attracting support plate are respectively connected with the corresponding iron removing roller end plates, magnets are arranged on the iron attracting support plate, an iron removing roller rotating shaft is connected at the center of the iron removing roller end plates, the outer ends of the iron removing roller rotating shafts are arranged in the iron removing machine shell through bearing rings, one of the, the deironing feed inlet is connected with the outlet of the waste conveying pipe, the transition screen is obliquely arranged in the deironing casing below the deironing roller, the dust collection box is arranged in the deironing casing below the transition screen, the upper opening of the deironing casing at the lower end of the transition screen forms a screening outlet, and the screening outlet is connected with the screening transition pipe.
The screening assembly comprises a screening rack, a screening roller, an impurity collecting plate and slitting blades, wherein the screening roller is horizontally arranged at the top of the screening rack, the mounted screening roller is inclined by 10-15 degrees along the horizontal direction, the screening roller is cylindrical formed by winding grid plates, the impurity collecting plate is mounted in the screening rack below the screening roller, a screening shaft is mounted in the screening roller, the slitting blades are spirally fixed on the screening shaft, a plurality of sections of slitting teeth are distributed on the slitting blades, the lower end of the screening roller is an outlet, and waste materials are mounted on the screening rack at the higher end of the screening roller and enter a hopper; a roller motor is arranged on the screening rack below the waste material inlet hopper, and a transmission shaft of the roller motor is connected with one end of the screening shaft; the screening shaft at the higher end of the screening roller is provided with a transmission gear, the end parts of the two ends of the screening roller are respectively provided with a bearing ring, the bearing rings are supported by a riding wheel in the screening rack, the inner ring surface of the bearing ring at the higher end of the screening roller is provided with a transmission tooth, an intermediate gear is arranged between the transmission tooth and the transmission gear, the intermediate gear is arranged on the screening rack through a gear plate, the top of the mounted intermediate gear is meshed with the transmission gear, and the bottom of the mounted intermediate gear is meshed with the transmission tooth.
The crushing assembly comprises a crusher shell, a main shaft and connecting cutter arms, wherein a crushing chamber is arranged in the crusher shell, a cover is arranged at the top of the crusher shell and is positioned above the crushing chamber, the main shaft is arranged in the crushing chamber, one end of the main shaft penetrates through the crusher shell and is connected with a power wheel, the power wheel is driven by an external crushing motor to operate, a crushing feed inlet is formed in the upper part of the cover at the other end of the main shaft, a shaft sleeve is arranged on the main shaft, the connecting cutter arms are fixed on the outer peripheral surface of the shaft sleeve, the number of the connecting cutter arms is four, the connecting cutter arms are uniformly distributed on the outer peripheral surface of the shaft sleeve by taking the center of the main shaft as the circle center, the outer ends of the connecting cutter arms are expanded to form cutter arm air plates, a toothed cutter arm is fixed on the outer side of the; the top of the cover is provided with a crushing outlet, the top of the cover at the crushing outlet is connected with a discharge pipe, and the outlet of the discharge pipe is connected with a separation barrel; the sorting cylinder is in a vertical cylindrical shape, one side of the upper part of the sorting cylinder is connected with an outlet of the discharge pipe, the other side of the upper part of the sorting cylinder is provided with a fiber outlet, a fiber collecting bag is connected to the sorting cylinder outside the fiber outlet, the bottom of the sorting cylinder gradually shrinks to form a coarse material collecting cylinder, an outlet at the bottom of the coarse material collecting cylinder is connected with a return pipe, and an outlet of the return pipe extends to the upper part of the crushing feed inlet; the bottom of the inner cavity of the crushing chamber is provided with an arc-shaped crushing screen, the inner arc surface of the crushing screen faces upwards, and a throwing area is reserved between the crushing screen and the end part of the air plate of the knife arm.
The end part of the outer end of the cutter arm air plate is provided with teeth for crushing materials, a lateral cutter disc is fixed on the main shaft outside the shaft sleeve and fixed at the end part of the shaft sleeve, the inner end of the cutter arm air plate is contacted with the edge of the lateral cutter disc, the outer end of the tooth cutter arm is connected with the cutter arm air plate, the inner end of the tooth cutter arm is connected with the lateral cutter disc, tooth cutter blades are fixed between the inner sides of adjacent tooth cutter arms, and lateral blades are installed on the outer sides of the tooth cutter arms; a T shape is formed between the lateral blade and the connecting blade arm, the lateral blade is a T-shaped cross arm, and a cutting edge is arranged on one side of the lateral blade; the serrated knife blade is fan-shaped, the end part of the serrated knife blade is bent outwards to form a connecting plate, the connecting plate is connected with the outer end of the serrated knife arm, chopping teeth are arranged on the outer arc surface of the serrated knife blade, a chopping knife hinge block is formed by extending the center of the inner arc surface of the serrated knife blade, a chopping knife shaft is fixed on the chopping knife hinge block, and a chopping knife blade is movably mounted on the chopping knife shaft.
After adopting the above scheme, the utility model, unnecessary clout in the production, the waste material is put to the garbage collection conveyer belt on, it fights unified collection to send into the garbage collection by the drive of garbage collection conveyer belt, the iron removal subassembly deironing is sent into through the waste material conveyer pipe after the garbage collection is fought to collect, it tentatively cuts and sieves once more to go into the subassembly of sieve after the deironing, it smashes to get into crushing unit after tentatively cutting, after smashing, the subdividing becomes the fibre or the circulation is smashed, can effectively handle the fishing net clout after this scheme of adoption, the fibre of isolating can reuse.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic view of the iron removing assembly of the present invention.
Fig. 3 is a schematic structural view of the iron-absorbing support plate of the present invention.
Figure 4 is a schematic view of a screen assembly according to the present invention.
Fig. 5 is a schematic view of the slitting blade structure of the present invention.
Fig. 6 is a schematic diagram of the engagement of the intermediate gear of the present invention.
Fig. 7 is a schematic view of the shredding assembly of the present invention.
Fig. 8 is a schematic view of the inside of the pulverizing chamber of the present invention.
Fig. 9 is a schematic structural view of the serrated knife blade of the present invention.
Detailed Description
The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 9, the fishing net production clout cyclic utilization system of this embodiment is including installing the garbage collection conveyer belt in net piece make-up machine department, and the garbage collection conveyer belt output is located garbage collection fill 61 top, and garbage collection fill 61 exit is connected with waste transport pipe 62, and waste transport pipe 62 export is located deironing subassembly entry top, and deironing subassembly exit is connected with the screening transition pipe, and the export of screening transition pipe is located screening subassembly entry top, and the screening subassembly export is connected with crushing unit.
The deironing component comprises a deironing machine shell 1, a deironing roller 2 and a deironing roller end plate 3, wherein the upper part inside the deironing machine shell 1 is provided with the deironing roller 2, the deironing roller 2 is formed by winding a net sheet, the surface of the deironing roller 2 is fixed with a net grabbing strip 11, the net grabbing strip 11 is distributed on the surface of the deironing roller 2 in a strip shape or a spiral shape, the net grabbing strip 11 is fixed with a grabbing thorn 12, the two ends of the deironing roller 2 are fixed with the deironing roller end plate 3, an iron absorbing support plate 6 is fixed in the deironing roller 2, the two ends of the iron absorbing support plate 6 are respectively connected with the corresponding deironing roller end plate 3, the iron absorbing support plate 6 is provided with a magnet, the center of the deironing roller end plate 3 is connected with a deironing roller rotating shaft, the outer end of the deironing, deironing feed inlet 5 and waste material conveyer pipe 62 exit linkage, the transition screen cloth 7 is installed to the slope in deironing casing 1 below deironing cylinder 2, has placed the dust collection box in the deironing casing 1 below transition screen cloth 7, and the upper shed of deironing casing 1 of the lower one end of transition screen cloth 7 forms screening export 9, and screening export 9 is connected with screening transition pipe.
The screening component comprises a screening rack 21, a screening roller 22, an impurity collecting plate 23 and a slitting blade 25, wherein the screening roller 22 is horizontally arranged at the top of the screening rack 21, the mounted screening roller 22 is inclined by 10-15 degrees along the horizontal direction, the screening roller 22 is in a cylindrical shape formed by winding grid plates, the impurity collecting plate 23 is arranged in the screening rack 21 below the screening roller 22, a screening shaft 24 is arranged in the screening roller 22, the slitting blade 25 is spirally fixed on the screening shaft 24, a plurality of sections of slitting teeth 26 are distributed on the slitting blade 25, the lower end of the screening roller 22 is an outlet, and waste materials are arranged on the screening rack 21 at the higher end of the screening roller 22 and enter a hopper 30; a roller motor is arranged on the screening rack 21 below the waste material inlet hopper 30, and a transmission shaft of the roller motor is connected with one end of the screening shaft 24; a transmission gear 27 is installed on the screening shaft 24 at the higher end of the screening roller 22, bearing rings are arranged at the end portions of the two ends of the screening roller 22, the bearing rings are supported by riding wheels in the screening rack 21, transmission teeth 28 are arranged on the inner ring surface of the bearing ring at the higher end of the screening roller 22, an intermediate gear 29 is arranged between the transmission teeth 28 and the transmission gear 27, the intermediate gear 29 is installed on the screening rack 21 through a wheel plate, the top of the installed intermediate gear 29 is meshed with the transmission gear 27, and the bottom of the installed intermediate gear 29 is meshed with the transmission teeth 28.
The crushing component comprises a crushing shell 51, a main shaft 31 and connecting knife arms 33, wherein a crushing chamber is arranged in the crushing shell 51, a cover 52 is arranged at the top of the crushing shell 51, the cover 52 is positioned above the crushing chamber, the main shaft 31 is arranged in the crushing chamber, one end of the main shaft 31 penetrates through the crushing shell 51 and is connected with a power wheel 53, the power wheel 53 is driven by an external crushing motor to operate, the upper part of the cover 52 at the other end of the main shaft 31 is provided with a crushing feed inlet, the main shaft 31 is provided with a shaft sleeve 32, the outer peripheral surface of the shaft sleeve 32 is fixedly provided with the connecting knife arms 33, the number of the connecting, the main shaft 31 is uniformly distributed on the outer peripheral surface of the shaft sleeve 32 by taking the center of the main shaft 31 as a circle center, the outer end of the connecting cutter arm 33 is expanded to form a cutter arm air plate 34, a toothed cutter arm 42 is fixed on the outer side of the cutter arm air plate 34 on one side of the crushing feed port, a lateral blade 35 is installed on the outer side of the toothed cutter arm 42, and a toothed cutter blade 43 is installed between the inner sides of the adjacent toothed cutter arms 42; the top of the cover 52 is provided with a crushing outlet, the top of the cover 52 at the crushing outlet is connected with a material discharging pipe 54, and the outlet of the material discharging pipe 54 is connected with a sorting cylinder 55; the sorting cylinder 55 is in a vertical cylindrical shape, one side of the upper part of the sorting cylinder 55 is connected with an outlet of the discharge pipe 54, the other side of the upper part of the sorting cylinder 55 is provided with a fiber outlet, a fiber collecting bag 58 is connected on the sorting cylinder 55 outside the fiber outlet, the bottom of the sorting cylinder 55 is gradually contracted to form a coarse material collecting cylinder 57, an outlet at the bottom of the coarse material collecting cylinder 57 is connected with a return pipe, and the outlet of the return pipe extends to the upper part of the crushing feed port; an arc-shaped crushing screen 56 is installed at the bottom of the inner cavity of the crushing chamber, the inner arc surface of the crushing screen 56 faces upwards, and a throwing area is reserved between the crushing screen 56 and the end part of the knife arm air plate 34. The end part of the outer end of the cutter arm air plate 34 is provided with crushed material teeth 37, a lateral cutter disc 36 is fixed on the main shaft 31 outside the shaft sleeve 32, the lateral cutter disc 36 is fixed at the end part of the shaft sleeve 32, the inner end of the cutter arm air plate 34 is contacted with the edge of the lateral cutter disc 36, the outer end of the tooth cutter arm 42 is connected with the cutter arm air plate 34, the inner end of the tooth cutter arm 42 is connected with the lateral cutter disc 36, tooth cutter blades 43 are fixed between the inner sides of adjacent tooth cutter arms 42, and lateral blades 35 are installed outside the tooth cutter arm 42; a T shape is formed between the lateral blade 35 and the connecting blade arm 33, the lateral blade 35 is a T-shaped cross arm, and one side of the lateral blade 35 is provided with a cutting edge; the serrated knife blade 43 is fan-shaped, the end part of the serrated knife blade 43 is bent outwards to form a connecting plate, the connecting plate is connected with the outer end of the serrated knife arm 42, chopping teeth 44 are arranged on the outer arc surface of the serrated knife blade 43, a chopping knife hinge block 45 is formed by extending the center of the inner arc surface of the serrated knife blade 43, a chopping knife shaft 46 is fixed on the chopping knife hinge block 45, and a chopping knife blade 47 is movably mounted on the chopping knife shaft 46.
The excessive excess materials and waste materials in production are put on a waste material collecting conveyor belt, the waste material collecting conveyor belt drives the waste material collecting hopper to be conveyed into a waste material collecting hopper for uniform collection, the waste material collecting hopper is conveyed into an iron removing feed inlet through a waste material conveying pipe after being collected, an iron removing roller motor drives an iron removing roller to rotate, the waste materials are driven to enter an iron removing machine shell through a grapple when the iron removing roller rotates, in the entering process, particles in the waste materials fall into a net-shaped iron removing roller, when metal particles (fragments) fall onto an iron absorbing support plate, the metal particles (fragments) are absorbed by a magnet, other particles continue to fall down, the metal particles pass through the iron removing roller and a transition screen and fall into a dust collection box, the waste materials fall onto the transition screen after being removed with iron through the iron removing roller, impurities and particles in waste material wind are removed through the transition screen, the screened impurities fall into the dust collection box,
the screening transition pipe enables the residual materials without iron to enter a screening roller through a waste material inlet hopper, a roller motor drives a screening shaft to rotate, the screening shaft drives the slitting blades to rotate synchronously, the screening shaft drives the transmission gear to rotate while driving the slitting blades to rotate, the transmission gear drives the bearing ring to rotate through an intermediate gear during rotation, the screening shaft and the bearing ring rotate in opposite directions after transition through the intermediate gear, so that the slitting blades and the screening roller form reverse cutting transmission, the slitting blades push and shear the mesh waste material, the screening roller screens out impurities such as particles in the waste material while transmitting, the screened-out impurities fall onto an impurity collecting plate for uniform collection and treatment, and the sheared and screened waste material falls into a crushing feed port from an outlet at the lower end of the screening roller;
the crushing motor drives the main shaft to rotate, the lateral blade is positioned on one side of the feeding, the residual net piece enters the crusher and is firstly cut into small pieces by the lateral blade, then the small pieces are circularly cut by the tooth blade and then enter between adjacent connecting cutter arms (cutter arm air plates) after circular cutting, a buffering crushing area is arranged between the adjacent connecting cutter arms (cutter arm air plates), the connecting cutter arms (cutter arm air plates) can generate wind power during operation, the crushed net piece materials cut into small pieces are disorderly thrown up under the action of the wind power and disorderly float in the crushing chamber, the crushed material teeth are crushed during throwing floating, the powder (fiber) crushed to a certain degree is thrown up along with the wind and enters the separation cylinder from a crushing outlet and a discharge pipe, the separation cylinder separates the entering powder (fiber), and the heavier powder (the fragments which are not completely decomposed) falls down under the dead weight and is collected by the coarse material collection cylinder, and finally, the material is sent into a crushing feed port by a return pipe to be circularly crushed, the scheme adopts the combination of four toothed cutter blades to form an annular toothed cutter, the crushing teeth adopt large teeth, the arc length of one toothed cutter blade is 20-30cm, the number of the crushing teeth is 8-10, and the crushing blades strike crushed materials disorderly, so that the crushed materials have better crushing effect, the combined structure is convenient to replace and maintain, and the crushing teeth have better crushing effect.
The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a fishing net production clout cyclic utilization system, it is including installing the garbage collection conveyer belt in net piece make-up machine department, its characterized in that: the garbage collection conveyer belt output is located garbage collection fill (61) top, and garbage collection fill (61) exit is connected with waste material conveyer pipe (62), and waste material conveyer pipe (62) export is located deironing subassembly entry top, and deironing subassembly exit is connected with the screening transition pipe, and the export of screening transition pipe is located screening subassembly entry top, and the screening subassembly export is connected with crushing unit.
2. The fishing net production remainder recycling system according to claim 1, characterized in that: the iron removing component comprises an iron removing machine shell (1), an iron removing roller (2) and an iron removing roller end plate (3), wherein the upper part inside the iron removing machine shell (1) is provided with the iron removing roller (2), the iron removing roller (2) is formed by winding a net sheet, the surface of the iron removing roller (2) is fixed with a net grabbing strip (11), the net grabbing strip (11) is distributed on the surface of the iron removing roller (2) in a strip shape or a spiral shape, the net grabbing strip (11) is fixed with a grabbing thorn (12), the two ends of the iron removing roller (2) are fixed with the iron removing roller end plate (3), an iron absorbing support plate (6) is fixed in the iron removing roller (2), the two ends of the iron absorbing support plate (6) are respectively connected with the corresponding iron removing roller end plate (3), magnets are arranged on the iron absorbing support plate (6), the center of the iron removing roller end plate (3) is connected with, one of them deironing cylinder pivot is passed deironing casing (1) and is connected with the transmission shaft of deironing cylinder motor (4), deironing casing (1) upper portion opening of deironing cylinder (2) one side forms deironing feed inlet (5), deironing feed inlet (5) and waste material conveyer pipe (62) exit linkage, transition screen cloth (7) are installed to slope in deironing casing (1) of deironing cylinder (2) below, the dust collection box has been placed in deironing casing (1) of transition screen cloth (7) below, the deironing casing (1) upper shed of the lower one end of transition screen cloth (7) forms screening export (9), screening export (9) and screening transition union coupling.
3. The fishing net production remainder recycling system according to claim 1, characterized in that: the screening component comprises a screening rack (21), a screening roller (22), an impurity collecting plate (23) and slitting blades (25), wherein the top of the screening rack (21) is provided with the horizontal screening roller (22), the mounted screening roller (22) inclines 10-15 degrees along the horizontal direction, the screening roller (22) adopts a cylindrical shape formed by winding grid plates, the impurity collecting plate (23) is mounted in the screening rack (21) below the screening roller (22), a screening shaft (24) is mounted in the screening roller (22), the slitting blades (25) are spirally fixed on the screening shaft (24), a plurality of sections of slitting teeth (26) are distributed on the slitting blades (25), the lower end of the screening roller (22) is an outlet, and waste materials are mounted on the screening rack (21) at the higher end of the screening roller (22) and enter a hopper (30); a roller motor is arranged on the screening rack (21) below the waste material inlet hopper (30), and a transmission shaft of the roller motor is connected with one end of a screening shaft (24); install drive gear (27) on screening axle (24) of the higher one end of screening cylinder (22), screening cylinder (22) both ends tip all is equipped with the bearing ring, the bearing ring is supported by the riding wheel in screening frame (21), be equipped with on the bearing ring inner ring face of the higher one end of screening cylinder (22) driving tooth (28), be equipped with intermediate gear (29) between driving tooth (28) and drive gear (27), intermediate gear (29) are installed on screening frame (21) through the crown block, intermediate gear (29) top after the installation and drive gear (27) meshing, the bottom is connected with driving tooth (28) meshing.
4. The fishing net production remainder recycling system according to claim 1, characterized in that: the crushing component comprises a crushing machine shell (51), a main shaft (31) and connecting cutter arms (33), wherein a crushing chamber is arranged in the crushing machine shell (51), a cover (52) is arranged at the top of the crushing machine shell (51), the cover (52) is positioned above the crushing chamber, the main shaft (31) is installed in the crushing chamber, one end of the main shaft (31) penetrates through the crushing machine shell (51) and is connected with a power wheel (53), the power wheel (53) is driven by an external crushing motor to operate, a crushing feed inlet is formed in the upper portion of the cover (52) at the other end of the main shaft (31), a shaft sleeve (32) is installed on the main shaft (31), the connecting cutter arms (33) are fixed on the outer peripheral surface of the shaft sleeve (32), the connecting cutter arms (33) are four, the center of the main shaft (31) is uniformly distributed on the outer peripheral surface of the shaft sleeve (32), the outer ends of the connecting cutter arms (33) are expanded to form cutter arm air plates (34), and the tooth, the lateral blade (35) is arranged on the outer side of each serrated knife arm (42), and serrated knife blades (43) are arranged between the inner sides of adjacent serrated knife arms (42); the top of the cover (52) is provided with a crushing outlet, the top of the cover (52) at the crushing outlet is connected with a material discharging pipe (54), and the outlet of the material discharging pipe (54) is connected with a sorting cylinder (55); the sorting cylinder (55) is in a vertical cylindrical shape, one side of the upper part of the sorting cylinder (55) is connected with an outlet of the discharge pipe (54), the other side of the upper part of the sorting cylinder (55) is provided with a fiber outlet, a fiber collecting bag (58) is connected onto the sorting cylinder (55) outside the fiber outlet, the bottom of the sorting cylinder (55) is gradually contracted to form a coarse material collecting cylinder (57), an outlet at the bottom of the coarse material collecting cylinder (57) is connected with a return pipe, and an outlet of the return pipe extends to the upper part of the crushing feed port; an arc-shaped crushing screen (56) is installed at the bottom of the inner cavity of the crushing chamber, the inner arc surface of the crushing screen (56) faces upwards, and a throwing area is reserved between the crushing screen (56) and the end part of the knife arm air plate (34).
5. The fishing net production remainder recycling system according to claim 1, characterized in that: the end part of the outer end of the cutter arm air plate (34) is provided with crushed material teeth (37), a lateral cutter head (36) is fixed on the main shaft (31) outside the shaft sleeve (32), the lateral cutter head (36) is fixed on the end part of the shaft sleeve (32), the inner end of the cutter arm air plate (34) is in contact with the edge of the lateral cutter head (36), the outer end of the cutter arm (42) is connected with the cutter arm air plate (34), the inner end of the cutter arm (42) is connected with the lateral cutter head (36), a cutter blade (43) is fixed between the inner sides of adjacent cutter arms (42), and a lateral cutter blade (35) is arranged on the outer side of each cutter arm (42); a T shape is formed between the lateral blade (35) and the connecting knife arm (33), the lateral blade (35) is a T-shaped cross arm, and one side of the lateral blade (35) is provided with a cutting edge; the serrated knife blade (43) is fan-shaped, the end part of the serrated knife blade (43) is bent outwards to form a connecting plate, the connecting plate is connected with the outer end of the serrated knife arm (42), the outer arc surface of the serrated knife blade (43) is provided with cutting serrated teeth (44), the center of the inner arc surface of the serrated knife blade (43) extends to form a chopping knife hinged block (45), a chopping knife shaft (46) is fixed on the chopping knife hinged block (45), and a chopping knife blade (47) is movably mounted on the chopping knife shaft (46).
CN201922241216.8U 2019-12-15 2019-12-15 Fishing net production clout cyclic utilization system Active CN211386269U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922241216.8U CN211386269U (en) 2019-12-15 2019-12-15 Fishing net production clout cyclic utilization system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922241216.8U CN211386269U (en) 2019-12-15 2019-12-15 Fishing net production clout cyclic utilization system

Publications (1)

Publication Number Publication Date
CN211386269U true CN211386269U (en) 2020-09-01

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Application Number Title Priority Date Filing Date
CN201922241216.8U Active CN211386269U (en) 2019-12-15 2019-12-15 Fishing net production clout cyclic utilization system

Country Status (1)

Country Link
CN (1) CN211386269U (en)

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