CN118082045B

CN118082045B - High-efficient decomposition recovery unit of abandonment plastics

Info

Publication number: CN118082045B
Application number: CN202410283574.8A
Authority: CN
Inventors: 王明江; 王峰; 魏贤礼; 卢猛; 李成杰
Original assignee: Jiangsu Lvyuan Rubber Resource Recycling Innovation Center Co ltd
Current assignee: Jiangsu Lvyuan Rubber Resource Recycling Innovation Center Co ltd
Priority date: 2024-03-13
Filing date: 2024-03-13
Publication date: 2024-07-23
Anticipated expiration: 2044-03-13
Also published as: CN118082045A

Abstract

The invention discloses a high-efficiency decomposition recovery device for waste plastics, which is characterized in that a screening component is arranged on the upper wall of a connecting plate, a crushing component is arranged on the upper walls of a limiting table and a connecting table, an annular piece is arranged on the upper wall of the connecting table, the annular piece is arranged between the screening component and the crushing component, a supporting frame is arranged on the upper wall of a fixing frame, a driving component and a cleaning component are arranged on the fixing frame, the other end of the driving component is arranged in the annular piece, the driving component is connected with the supporting frame, the cleaning component is connected with the driving component, the driving component is arranged at the upper end of the crushing component, a rotary type filtering component is arranged at the other end of the driving component, and the rotary type filtering component is movably connected with the annular piece. The invention belongs to the technical field of plastic recovery, and particularly relates to a high-efficiency decomposition and recovery device for waste plastics, which realizes the technical effects of waste water recovery in the waste plastics, screening and crushing of the waste plastics and cleaning.

Description

High-efficient decomposition recovery unit of abandonment plastics

Technical Field

The invention belongs to the technical field of plastic recycling, and particularly relates to a high-efficiency decomposition recycling device for waste plastic.

Background

With the rapid development of national economy and continuous progress of society, plastic products are widely applied in daily life, bring convenience to the daily life of people, and simultaneously, cause certain harm to the environment, and the plastic products are difficult to degrade naturally in nature, so that waste plastics are generally recycled in order to reduce the pollution of the waste plastics to the nature; when carrying out recovery processing to waste plastics, owing to adhere to more impurity on the plastics for can lead to the plastics quality very low when remelting, consequently when recycle, need clear up the dirt on the waste plastics, owing to waste plastics's source distributes extensively in addition, usually deposited a lot of waste water in the waste plastics after retrieving, still need clear up waste water in the waste plastics generally, because waste plastics volume is different, cause inefficiency easily when directly melting, need cut the processing to waste plastics simultaneously, improve melting efficiency.

Disclosure of Invention

Aiming at the situation, the invention provides a high-efficiency decomposing and recycling device for waste plastics, which aims to overcome the defects of the prior art.

The technical scheme adopted by the invention is as follows: the utility model provides a high-efficient recovery unit that decomposes of abandonment plastics, is including the support column that is used for providing the support, the one end of support column is connected with the connecting plate, the other end of support column is connected with spacing platform and mount, spacing platform is located the mount inboard, the one end and the connecting plate of spacing platform link to each other, the connection platform is installed to the one end upper wall that spacing platform links to each other with the connecting plate, screening subassembly is installed to the upper wall of connecting plate, broken subassembly is installed to the upper wall of broken subassembly, the mounting is still installed the ring, the ring is located between screening subassembly and the broken subassembly, the mount upper wall is equipped with the support frame, install actuating assembly and clean subassembly on the mount, clean subassembly is located the upper end of actuating assembly, the other end of actuating assembly is located the ring in the ring, the actuating assembly links to each other with the support frame, the support frame supports and is fixed to the actuating assembly, the broken subassembly is located the upper end of broken subassembly, the other end of actuating assembly installs the filter unit that the formula of whirling, the filter unit that whirls and the ring whirls, the filter unit that whirling, the filter unit is located the movable type and the filter unit that whirling, the filter unit is located on the movable type of the filter unit.

Further, the drive assembly includes the drive connecting axle, the drive connecting axle activity is located on the mount, and the mount supports the drive connecting axle, the motor cabinet is installed to the lateral wall of mount, be equipped with the motor on the motor cabinet, the output axle head and the drive connecting axle of motor link to each other, in the annular is located to the other end of drive connecting axle, gear two is installed to the other end of drive connecting axle, movable mounting has clean axle on the support frame, clean in the subassembly is located to the one end of clean axle, the annular is located to the other end of clean axle, install gear one on the other end of clean axle, gear one locates the upper end of gear two, and the meshing is connected, and the diameter of gear one is greater than the diameter of gear two, and when gear one was rotatory a week, gear two was rotatory two weeks.

The bottom wall of the deflector rod pressing piece is attached to the inner bottom wall of the annular piece when the deflector rod pressing piece is rotated to the lowest end of the annular piece along with the second gear, the crushing pressing piece is mounted on the other side of the second gear, the bottom wall of the deflector rod pressing piece and the bottom wall of the crushing pressing piece are of arc structures, the bottom wall of the crushing pressing piece protrudes out of the deflector rod pressing piece, and the crushing pressing piece is arranged at the upper end of the crushing assembly; the motor works to drive the connecting shaft to rotate, the connecting shaft is driven to drive the gear II to rotate, the gear II drives the gear I meshed with the gear II to rotate, the gear I drives the cleaning shaft to rotate, and the gear II also drives the deflector rod pressing piece and the crushing pressing piece to do annular motion when rotating.

As a preferred embodiment of the present invention, the rotary filter assembly includes a rotary rod, the rotary rod is connected to a side wall of the first gear, wherein the rotary rod is disposed on a diameter of the first gear, two ends of the rotary rod are respectively movably provided with a first filter element and a second filter element, the first filter element and the second filter element have the same structure, only one group of the first filter element is described herein, one end of the first filter element, which is close to the annular element, is provided with a first toggle rod, the first toggle rod is disposed in the annular element, two ends of the first toggle rod are respectively movably provided with a first rolling element and a second rolling element, and the first rolling element and the second rolling element are both movably connected with an inner wall of the annular element; the first filter piece and the second filter piece at the end part of the rotating rod are driven to do annular movement, and when the first filter piece moves, the first rolling piece and the second rolling piece are attached to the inner wall of the annular piece to move.

As a preferred mode of the invention, a limit groove is arranged at the connecting position of the annular piece and the connecting table, and the width of the limit groove is slightly larger than the diameters of the first rolling piece and the second rolling piece;

If the motor drives the gear II to rotate clockwise, the gear II drives the gear I meshed with the gear II to rotate anticlockwise, if the first filter element and the second filter element are respectively arranged at two ends of the horizontal position of the annular element in a vertical state, the first filter element is arranged at the left side of the annular element, the second filter element is arranged at the right side of the annular element, at the moment, the deflector rod pressing piece and the crushing pressing piece are arranged at the uppermost end of the gear II in a vertical state, the motor drives the gear II to rotate clockwise continuously, the gear II drives the gear I to rotate anticlockwise, the gear I drives the rotating rod to rotate anticlockwise, the rotating rod drives the first filter element and the second filter element to do anticlockwise annular movement, the first filter element moves downwards, the second filter element moves upwards, the first deflector rod connected with the first filter element is driven downwards when the first filter element moves, the first deflector rod drives the first rolling element and the second rolling element to slide along the inner wall of the annular element respectively, the second rolling element is arranged above the first rolling element in an inclined way, when the first filtering element drives the first rolling element to move to a position close to one end of the limit groove, the deflector rod pressing piece and the crushing pressing piece also move to a position close to the other end of the limit groove, at the moment, the side wall of the lower end of the deflector rod pressing piece contacts with the side wall of the upper end of the first rolling element, along with the continuous rotation of the motor, the deflector rod pressing piece presses the first rolling element into the limit groove, the limit groove limits the movement of the first rolling element, when the rotating rod continuously drives the first filtering element to move, the first deflector rod rotates clockwise, the first deflector rod drives the first rolling element to slide downwards along the limit groove to drive the second rolling element to move close to one side of the gear, when the first rolling element is arranged at the deepest part of the limit groove, the first deflector rod is in a vertical state, the second rolling element is arranged at the right upper end of the first rolling element, the first filtering element is in a vertical state under the drive of the first poking rod, the second filtering element is arranged at the uppermost end of the annular element and is horizontally arranged, then the first poking rod continuously rotates along with the rotating rod, the first poking rod drives the first rolling element to slide upwards along the limiting groove, and under the effect of the limiting groove, the first poking rod continuously rotates clockwise until the first rolling element is separated from the limiting groove, and at the moment, the second rolling element is attached to the inner wall of the annular element to slide; the rotary rod drives the first filter piece to move to the right horizontal position of the annular piece and drives the second filter piece to move to the left horizontal position of the annular piece, at the moment, the first filter piece is in a vertical state and is the same as the state of the left side of the annular piece, and the second filter piece is also in a vertical state and is opposite to the upper and lower positions when the second filter piece is arranged on the right side of the annular piece; the second filter element repeats the movement of the first filter element according to the above steps.

The filter comprises a first filter piece and a second filter piece, wherein the first filter piece is of a cavity structure with openings at two ends, a connecting piece and a filter screen are arranged in the cavity of the first filter piece, one end of the connecting piece is connected with the inner wall of the first filter piece, the filter screen is connected with the other end of the connecting piece, a storage cavity is arranged between the filter screen and the inner wall of the first filter piece, a feed inlet is arranged at one end opening of the first filter piece, one end of the filter screen is in through connection with the feed inlet, a discharge port is arranged at the opening of the other end of the first filter piece, the discharge port is in through connection with the storage cavity, when water in plastics is required to be discharged, waste plastics is arranged in the filter screen through the feed inlet, the feed inlet is packaged, and along with the rotation of the first filter piece, the water in the waste plastics falls into the storage cavity through the filter screen, and when the water is required to be discharged through the discharge port.

Further, the upper wall of the limiting table is provided with a plurality of groups of limiting holes for limiting, the crushing assembly comprises a fixing piece, the lower end of the fixing piece is arranged on the upper wall of the connecting table, the side wall of the fixing piece is connected with the side wall of the annular piece, the bottom wall of the fixing piece is provided with a plurality of groups of second telescopic links for limiting and a plurality of groups of second springs for restoring, the second springs are sleeved on the outer side of the second telescopic links, the lower ends of the second springs and the lower ends of the second telescopic links are connected with a crushing plate, the bottom wall of the crushing plate is provided with a plurality of groups of crushing cutters for crushing waste plastics, the lower end of the crushing plate is provided with a crushing bullet box, the bottom wall of the crushing bullet box is provided with a plurality of groups of limiting rods for supporting and limiting, the lower end of the limiting rods is movably arranged in the limiting holes, and the screening assembly is connected with the bottom wall of the crushing bullet box;

When the screen assembly and the crushing plate are not compressed, the screen assembly supports the crushing box, the crushing box is in a lifting state, the lower end of the limiting rod is arranged in the limiting table, when the screen assembly is compressed, the screen assembly moves down, the crushing box moves down until the bottom wall of the limiting rod contacts the bottom wall in the limiting hole, the crushing box is in a fixed state under the action of the limiting rod along with the continuous downward movement of the screen assembly, and the crushing plate continuously drives the crushing knife to move down to crush waste plastics in the fixed crushing box.

Wherein, screening subassembly includes screening board, screening board lateral wall is equipped with the circulation hole, is convenient for discharge the impurity of screening out, the screening board is located the lower extreme of first filter and second filter, the diapire of screening board is equipped with multiunit first telescopic link and multiunit with the first spring that resumes that is used for spacing, first spring cup joints and locates the first telescopic link outside, the lower extreme of first spring and the lower extreme of first telescopic link to each other with the connecting plate upper wall, and first spring supports the screening board.

Preferably, the bottom wall of screening board still installs the drive plate, the drive plate is L shape structure, the lower extreme of connecting plate and broken box that moves is located to the other end of drive plate, the drive plate is located on the upper wall of broken box lower extreme and is installed the multiunit and be used for supporting actuating lever, the upper wall and the broken box bottom wall swing joint of actuating lever.

Further, the cleaning assembly comprises a cleaning box, the cleaning box is arranged on a fixing frame, the fixing frame supports and fixes the cleaning box, one end of a cleaning shaft is arranged in the cleaning box, a stirring piece is arranged at one end of the cleaning shaft in the cleaning box, the cleaning box is convenient for cleaning broken plastics in the cleaning box, through holes are formed in the side wall of the cleaning box, and the cleaning box is convenient for placing plastics and clean water.

After the structure is adopted, the invention has the following beneficial effects:

(1) The first filter piece and the second filter piece realize continuous 360-degree overturning under the drive of the rotating rod, and waste water stored in waste plastics is convenient to clean in the overturning process.

(2) The first filter piece or the second filter piece is arranged at the bottommost end of the annular piece, and under the drive of the first poking rod, the first filter piece or the second filter piece pokes the screening plate for extrusion in the vertical state, so that the screening process of plastics is accelerated when plastics in the screening plate are poked.

(3) The crushing and pressing piece extrudes the crushing plate, the second spring and the second telescopic rod are stretched, the crushing plate continuously drives the crushing knife to move downwards, and the waste plastics in the fixed crushing and bouncing box are crushed.

(4) When the first filtering piece and the crushing and pressing piece move away, under the action of the first spring, the screening plate quickly restores to the initial position, the screening plate drives the driving plate to quickly move upwards, vibration is generated in the upward moving process of the screening plate, and vibration type screening is carried out on plastics on the screening plate; meanwhile, the driving plate drives the driving rod to move upwards, the driving rod shakes and knocks the crushing bullet box, the position of plastic in the crushing bullet box changes, and the crushing of the plastic is facilitated.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

FIG. 1 is a perspective view of a high-efficiency decomposition recovery device for waste plastics, which is provided by the invention;

FIG. 2 is a front view of a high-efficiency decomposition recovery device for waste plastics according to the present invention;

FIG. 3 is a schematic structural view of a device for efficiently decomposing and recycling waste plastics;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view of a crushing assembly according to the present invention;

FIG. 6 is a schematic diagram of a driving assembly according to the present invention;

FIG. 7 is a cross-sectional view of a waste plastic high-efficiency decomposition recovery device according to the present invention;

fig. 8 is a schematic structural view of a first filter according to the present invention.

In the drawings: 1. support column, 2, connecting plate, 3, limit table, 4, mount, 5, connecting table, 6, screening assembly, 7, crushing assembly, 8, ring, 9, support frame, 10, drive assembly, 11, cleaning assembly, 12, rotary filter assembly, 13, drive connecting shaft, 14, motor mount, 15, motor, 16, gear two, 17, cleaning shaft, 18, gear one, 19, deflector rod hold down, 20, crushing hold down, 21, rotary rod, 22, first filter, 23, second filter, 24, first deflector rod, 25, first roller, 26, second roller, 27, limit groove, 28, connecting piece, 29, filter screen, 30, storage chamber, 31, feed inlet, 32, discharge outlet, 33, fixing piece, 34, second telescopic rod, 35, second spring, 36, crushing plate, 37, crushing knife, 38, crushing spring box, 39, limit rod, 40, screening plate, 41, flow hole, 42, first rod, 43, first spring, 44, drive rod, 45, drive rod, 47, through hole.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-8, a high-efficient recovery unit that decomposes of abandonment plastics, including the support column 1 that is used for providing the support, the one end of support column 1 is connected with connecting plate 2, the other end of support column 1 is connected with spacing platform 3 and mount 4, spacing platform 3 locates the mount 4 inboard, the one end and the connecting plate 2 of spacing platform 3 link to each other, connecting plate 5 is installed to the one end upper wall that spacing platform 3 links to each other with connecting plate 2, screening subassembly 6 is installed to the upper wall of connecting plate 2, broken subassembly 7 is installed to the upper wall of spacing platform 3 and connecting plate 5, the diapire of broken subassembly 7 links to each other with screening subassembly 6, annular piece 8 is still installed to the upper wall of connecting plate 5, annular piece 8 is located between screening subassembly 6 and the broken subassembly 7, the mount 4 upper wall is equipped with support frame 9, install actuating assembly 10 and clean subassembly 11 on the mount 4, clean subassembly 11 is located the upper end of actuating assembly 10, the other end of actuating assembly 10 is located in the annular piece 8, actuating assembly 10 links to each other with support frame 9 and the support assembly 10, the annular piece is installed to the annular piece 12 and is carried out the filter component that the filter component is located to the annular piece that the drive assembly is installed to the annular piece 12 that the filter component is the end that the filter component is installed to the filter component that the filter component is 12 that the end that the filter component is rotated round the drive assembly is 12.

The driving assembly 10 comprises a driving connecting shaft 13, the driving connecting shaft 13 is movably arranged on the fixing frame 4, the fixing frame 4 supports the driving connecting shaft 13, a motor seat 14 is arranged on the side wall of the fixing frame 4, a motor 15 is arranged on the motor seat 14, the output shaft end of the motor 15 is connected with the driving connecting shaft 13, the other end of the driving connecting shaft 13 is arranged in the annular piece 8, a gear II 16 is arranged at the other end of the driving connecting shaft 13, a cleaning shaft 17 is movably arranged on the supporting frame 9, one end of the cleaning shaft 17 is arranged in the cleaning assembly 11, the other end of the cleaning shaft 17 is arranged in the annular piece 8, a gear I18 is arranged at the upper end of the gear II 16 and is in meshed connection, the diameter of the gear I18 is larger than that of the gear II 16, and when the gear I18 rotates for one circle, the gear II 16 rotates for two circles; a deflector rod pressing piece 19 is arranged on one side of the gear II 16, the deflector rod pressing piece 19 protrudes out of the side wall of the gear II 16, the deflector rod pressing piece 19 is arranged along with the rotation of the gear II 16 to the lowest end of the annular piece 8, the bottom wall of the deflector rod pressing piece 19 is attached to the inner bottom wall of the annular piece 8, a crushing pressing piece 20 is arranged on the other side of the gear II 16, the bottom wall of the deflector rod pressing piece 19 and the bottom wall of the crushing pressing piece 20 are of arc structures, the bottom wall of the crushing pressing piece 20 protrudes out of the deflector rod pressing piece 19, and the crushing pressing piece 20 is arranged at the upper end of the crushing assembly 7;

It should be noted that, the motor 15 works to drive the driving connection shaft 13 to rotate, the driving connection shaft 13 drives the gear two 16 to rotate, the gear two 16 drives the gear one 18 meshed with the driving connection shaft to rotate, the gear one 18 drives the cleaning shaft 17 to rotate, and the gear two 16 also drives the deflector rod hold-down piece 19 and the crushing hold-down piece 20 to do annular motion when rotating.

The rotary type filter assembly 12 comprises a rotary rod 21, the rotary rod 21 is connected with the side wall of a gear I18, the rotary rod 21 is arranged on one diameter of the gear I18, two ends of the rotary rod 21 are respectively movably provided with a first filter element 22 and a second filter element 23, the first filter element 22 and the second filter element 23 have the same structure, only one group is described, one end of the first filter element 22, which is close to the annular element 8, is provided with a first poking rod 24, the first poking rod 24 is arranged in the annular element 8, two ends of the first poking rod 24 are respectively movably provided with a first rolling element 25 and a second rolling element 26, and the first rolling element 25 and the second rolling element 26 are movably connected with the inner wall of the annular element 8; the first gear 18 rotates to drive the rotary rod 21 to rotate, two ends of the rotary rod 21 do annular movement to drive the first filter element 22 and the second filter element 23 at the ends of the rotary rod to do annular movement, and when the first filter element 22 moves, the first rolling element 25 and the second rolling element 26 are attached to the inner wall of the annular element 8 to move.

In this embodiment, a limiting groove 27 is provided at the connection position of the ring-shaped member 8 and the connection table 5, and the width of the limiting groove 27 is slightly larger than the diameters of the first rolling member 25 and the second rolling member 26; If the motor 15 is provided to drive the gear two 16 to rotate clockwise, the gear two 16 drives the gear two 18 meshed with the gear two to rotate anticlockwise, if the first filter element 22 and the second filter element 23 are respectively arranged at two ends of the horizontal position of the annular element 8 in a vertical state at the beginning, the first filter element 22 is arranged at the left side of the annular element 8, the second filter element 23 is arranged at the right side of the annular element 8, at the moment, the deflector rod hold-down piece 19 and the crushing hold-down piece 20 are arranged at the uppermost end of the gear two 16 in a vertical state, the motor 15 drives the gear two 16 to rotate continuously clockwise, the gear two 16 drives the gear one 18 to rotate anticlockwise, the gear one 18 drives the rotating rod 21 to rotate anticlockwise, the rotary rod 21 drives the first filter element 22 and the second filter element 23 to do anticlockwise annular movement respectively, the first filter element 22 moves downwards, the second filter element 23 moves upwards, the first filter element 22 moves to drive the first toggle rod 24 connected with the first filter element to move downwards, the first toggle rod 24 drives the first rolling element 25 and the second rolling element 26 to slide along the inner wall of the annular element 8 respectively, the second rolling element 26 is arranged above the first rolling element 25 at the moment, when the first filter element 22 drives the first rolling element 25 to move to a position close to one end of the limiting groove 27, the toggle rod pressing element 19 and the crushing pressing element 20 also move to a position close to the other end of the limiting groove 27, At this time, the side wall of the lower end of the push rod pressing piece 19 contacts with the side wall of the upper end of the first rolling piece 25, along with the continuous rotation of the motor 15, the push rod pressing piece 19 presses the first rolling piece 25, the first filtering piece 22 is pressed into the limiting groove 27, the limiting groove 27 limits the movement of the first rolling piece 25, when the rotating rod 21 continuously drives the first filtering piece 22 to move, the first push rod 24 rotates clockwise, the first push rod 24 drives the first rolling piece 25 to slide downwards along the limiting groove 27, drives the second rolling piece 26 to move on one side of the gear two 16, when the first rolling piece 25 is arranged at the deepest part of the limiting groove 27, The first toggle rod 24 is in a vertical state, the second rolling element 26 is arranged at the right upper end of the first rolling element 25, the first filtering element 22 is in a vertical state under the drive of the first toggle rod 24, the second filtering element 23 is arranged at the uppermost end of the annular element 8 and is horizontally arranged, then the first toggle rod 24 continues to rotate along with the rotary rod 21, the first toggle rod 24 drives the first rolling element 25 to slide upwards along the limit groove 27, and under the effect of the limit groove 27, the first toggle rod 24 continues to rotate clockwise until the first rolling element 25 is separated from the limit groove 27, and at the moment, the second rolling element 26 is attached to the inner wall of the annular element 8 to slide; The rotary rod 21 drives the first filter element 22 to move to the right horizontal position of the annular element 8, and drives the second filter element 23 to move to the left horizontal position of the annular element 8, at this time, the first filter element 22 is in a vertical state, which is the same as the state before on the left side of the annular element 8, and the second filter element 23 is also in a vertical state, which is opposite to the up-down position before on the right side of the annular element 8; the second filter member 23 repeats the movement process of the first filter member 22 according to the above steps.

The first filter element 22 is of a cavity structure with openings at two ends, a connecting piece 28 and a filter screen 29 are arranged in the cavity of the first filter element 22, one end of the connecting piece 28 is connected with the inner wall of the first filter element 22, the filter screen 29 is connected with the other end of the connecting piece 28, a storage cavity 30 is arranged between the filter screen 29 and the inner wall of the first filter element 22, a feed inlet 31 is arranged at one end opening of the first filter element 22, one end of the filter screen 29 is in through connection with the feed inlet 31, a discharge outlet 32 is arranged at the other end opening of the first filter element 22, and the discharge outlet 32 is in through connection with the storage cavity 30;

When the water in the plastic is discharged, the waste plastic is set in the filter screen 29 through the inlet 31, the inlet 31 is sealed, and when the first filter 22 rotates, the water in the waste plastic falls into the storage chamber 30 through the filter screen 29, and when the water is discharged, the water is discharged through the discharge port 32.

The upper wall of the limiting table 3 is provided with a plurality of groups of limiting holes for limiting, the crushing assembly 7 comprises a fixing piece 33, the lower end of the fixing piece 33 is arranged on the upper wall of the connecting table 5, the side wall of the fixing piece 33 is connected with the side wall of the annular piece 8, the bottom wall of the fixing piece 33 is provided with a plurality of groups of second telescopic rods 34 for limiting and a plurality of groups of second springs 35 for restoring, the second springs 35 are sleeved on the outer side of the second telescopic rods 34, the lower ends of the second springs 35 and the lower ends of the second telescopic rods 34 are connected with a crushing plate 36, the bottom wall of the crushing plate 36 is provided with a plurality of groups of crushing cutters 37 for crushing waste plastics, the lower end of the crushing plate 36 is provided with a crushing bullet box 38, the bottom wall of the crushing bullet box 38 is provided with a plurality of groups of limiting rods 39 for supporting and limiting, the lower end of the limiting rods 39 is movably arranged in the limiting holes, and the screening assembly 6 is connected with the bottom wall of the crushing bullet box 38;

It should be noted that, when the screen assembly 6 and the crushing plate 36 are not compressed, initially, the screen assembly 6 supports the crushing and flicking case 38, the crushing and flicking case 38 is in a lifted state, the lower end of the limiting rod 39 is disposed in the limiting table 3, when the screen assembly 6 is compressed, the screen assembly 6 moves down, the crushing and flicking case 38 moves down until the bottom wall of the limiting rod 39 contacts the bottom wall in the limiting hole, as the screen assembly 6 moves down continuously, the crushing and flicking case 38 is in a fixed state under the action of the limiting rod 39, and the crushing plate 36 continuously drives the crushing knife 37 to move down to crush the waste plastics in the fixed crushing and flicking case 38.

The screening assembly 6 comprises a screening plate 40, the side wall of the screening plate 40 is provided with a flow hole 41 for conveniently discharging screened impurities, the screening plate 40 is arranged at the lower ends of the first filter element 22 and the second filter element 23, the bottom wall of the screening plate 40 is provided with a plurality of groups of first telescopic rods 42 for limiting and a plurality of groups of first springs 43 for restoring, the first springs 43 are sleeved on the outer side of the first telescopic rods 42, the lower ends of the first springs 43 and the lower ends of the first telescopic rods 42 are connected with the upper wall of the connecting plate 2, and the first springs 43 support the screening plate 40; the bottom wall of screening board 40 still installs drive plate 44, drive plate 44 is L shape structure, the lower extreme of connecting plate 2 and broken box 38 is located to the other end of drive plate 44, drive plate 44 is located on the upper wall of broken box 38 lower extreme and is installed multiunit drive rod 45 that are used for supporting, the upper wall and the broken box 38 diapire swing joint of drive rod 45.

It should be noted that, the cleaning assembly 11 includes a cleaning box 46, the cleaning box 46 is disposed on the fixing frame 4, the fixing frame 4 supports and fixes the cleaning box 46, one end of the cleaning shaft 17 is disposed in the cleaning box 46, a stirring member is disposed at one end of the cleaning shaft 17 disposed in the cleaning box 46, so that broken plastics in the cleaning box 46 are conveniently cleaned, and a through hole 47 is disposed on a side wall of the cleaning box 46, so that the plastics and clean water are conveniently placed.

The specific use is as follows:

the method comprises the steps that at initial stage, a first filter piece 22 and a second filter piece 23 are respectively arranged at two ends of the horizontal position of an annular piece 8 in a vertical state, the first filter piece 22 is arranged at the left side of the annular piece 8, the second filter piece 23 is arranged at the right side of the annular piece 8, feed inlets 31 of the first filter piece 22 and the second filter piece 23 are both arranged upwards, waste plastics needing to be cleaned of internal waste water are arranged in a filter screen 29 through the feed inlets 31, the plastics after being cleaned of the waste water are arranged in a screening plate 40 for impurity cleaning, the screened waste plastics are arranged in a crushing and flicking box 38, the crushed plastics are placed in a cleaning barrel, at the moment, a screening assembly 6 and a crushing plate 36 are not compressed, the screening assembly 6 supports the crushing and flicking box 38, the crushing and flicking box 38 is in a lifting state, and the lower end of a limiting rod 39 is arranged in a limiting table 3;

The working procedure is as follows:

The motor 15 works to drive the driving connecting shaft 13 to rotate, the driving connecting shaft 13 drives the gear II 16 to rotate, the gear II 16 drives the gear I18 meshed with the driving connecting shaft to rotate, the gear I18 drives the cleaning shaft 17 to rotate, and the gear II 16 also drives the deflector rod hold-down piece 19 and the crushing hold-down piece 20 to do annular motion when rotating;

The first gear 18 rotates to drive the rotary rod 21 to rotate, and two ends of the rotary rod 21 do annular movement to drive the first filter element 22 and the second filter element 23 at the end parts of the rotary rod to do annular movement, and when the first filter element 22 moves, the first rolling element 25 and the second rolling element 26 are attached to the inner wall of the annular element 8 to move;

The motor 15 is used for driving the gear II 16 to rotate clockwise, the gear II 16 is used for driving the gear I18 meshed with the gear II to rotate anticlockwise, the first filter element 22 and the second filter element 23 are respectively arranged at two ends of the horizontal position of the annular element 8 in a vertical state, the first filter element 22 is arranged at the left side of the annular element 8, the second filter element 23 is arranged at the right side of the annular element 8, at the moment, the deflector rod hold-down piece 19 and the crushing hold-down piece 20 are arranged at the uppermost end of the gear II 16 in a vertical state, the motor 15 is used for driving the gear II 16 to continuously rotate clockwise, the gear II 16 is used for driving the gear I18 to rotate anticlockwise, the gear I18 is used for driving the rotary rod 21 to rotate anticlockwise, the rotary rod 21 is used for respectively driving the first filter element 22 and the second filter element 23 to do anticlockwise annular movement, the first filter element 22 moves downwards, the second filter element 23 moves upwards, and the first deflector rod 24 connected with the first filter element 22 moves downwards, the first toggle rod 24 drives the first rolling element 25 and the second rolling element 26 to slide along the inner wall of the annular element 8 respectively, at this time, the second rolling element 26 is arranged above the first rolling element 25 obliquely, when the first filtering element 22 drives the first rolling element 25 to move to a position close to one end of the limiting groove 27, the toggle rod hold-down element 19 and the crushing hold-down element 20 also move to a position close to the other end of the limiting groove 27, at this time, the side wall of the lower end of the toggle rod hold-down element 19 contacts with the side wall of the upper end of the first rolling element 25, along with the continued rotation of the motor 15, the toggle rod hold-down element 19 presses the first rolling element 25, the first filtering element 22 is pressed into the limiting groove 27, the limiting groove 27 limits the movement of the first rolling element 25, when the rotating rod 21 continues to drive the first filtering element 22 to move, the first toggle rod 24 rotates clockwise, the first toggle rod 24 drives the first rolling element 25 to slide downwards along the limiting groove 27, when the first rolling element 25 is arranged at the deepest part of the limit groove 27, the first poking rod 24 is in a vertical state, the second rolling element 26 is arranged at the right upper end of the first rolling element 25, the first filtering element 22 is in a vertical state under the drive of the first poking rod 24, the second filtering element 23 is arranged at the uppermost end of the annular element 8 and is horizontally arranged, then the first poking rod 24 continuously rotates along with the rotary rod 21, the first poking rod 24 drives the first rolling element 25 to slide upwards along the limit groove 27, and under the effect of the limit groove 27, the first poking rod 24 continuously rotates clockwise until the first rolling element 25 is separated from the limit groove 27, and at the moment, the second rolling element 26 is adhered to the inner wall of the annular element 8 to slide; the rotary rod 21 drives the first filter element 22 to move to the right horizontal position of the annular element 8, and drives the second filter element 23 to move to the left horizontal position of the annular element 8, at this time, the first filter element 22 is in a vertical state, which is the same as the state before on the left side of the annular element 8, and the second filter element 23 is also in a vertical state, which is opposite to the up-down position before on the right side of the annular element 8; the waste water in the waste plastics is discharged in the process;

Meanwhile, when the first filter element 22 is arranged at the lowest end of the annular element 8 and is in a vertical state under the drive of the first toggle rod 24 under the action of the limit groove 27, the first filter element 22 toggles the screening plate 40, when the first filter element 22 toggles plastics in the screening plate 40, the screening process of the plastics is accelerated, meanwhile, the crushing pressing piece 20 squeezes the crushing plate 36, the screening plate 40 moves downwards under force, meanwhile, the driving plate 44 moves downwards, the first telescopic rod 42 and the first spring 43 compress, the driving plate 44 drives the driving rod 45 to move downwards, the crushing spring box 38 moves downwards until the bottom wall of the limit rod 39 contacts the bottom wall in the limit hole, the crushing spring box 38 is in a fixed state under the action of the limit rod 39 as the screening plate 40 moves downwards, at this moment, the crushing pressing piece 20 continues to squeeze the crushing plate 36, the second spring 35 and the second telescopic rod 34 are stretched, the crushing plate 36 continues to drive the crushing knife 37 to move downwards, and the waste plastics in the fixed crushing spring box 38 is crushed; when the first filtering piece 22 and the crushing and pressing piece 20 move away, under the action of the first spring 43, the screening plate 40 quickly returns to the initial position, under the action of the second spring 35, the crushing plate 36 drives the crushing cutter 37 to move upwards, the screening plate 40 drives the driving plate 44 to quickly move upwards, vibration is generated in the upward moving process of the screening plate 40, vibration screening is performed on plastics on the screening plate 40, the driving plate 44 drives the driving rod 45 to move upwards, the driving rod 45 performs vibration type knocking on the crushing and bouncing box 38, the position of the plastics in the crushing and bouncing box 38 is changed, and the crushing of the plastics is facilitated; at this time, the first gear 18 drives the cleaning shaft 17 to rotate, and the cleaning shaft 17 drives the stirring rod to clean the broken plastic in the cleaning box 46;

The second filter member 23 repeats the movement process of the first filter member 22 according to the above steps;

After cleaning, the plastic in the cleaning box 46 is taken out, the broken plastic in the broken flicking box 38 is arranged in the cleaning box 46, the plastic screened on the screening plate 40 is placed in the broken flicking box 38, after waste water in the plastic is separated, when the first filter element 22 or the second filter element 23 is arranged in the limit groove 27 and the feeding hole 31 is arranged at the lowest end, the feeding hole 31 is opened, and the filtered plastic is poured on the screening plate 40.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. The utility model provides a high-efficient recovery unit that decomposes of abandonment plastics, is including the support column that is used for providing the support, the one end of support column is connected with the connecting plate, the other end of support column is connected with spacing platform and mount, spacing platform is located the mount inboard, spacing platform's one end links to each other with the connecting plate, the connection platform is installed to spacing platform and the one end upper wall that the connecting plate links to each other, its characterized in that, screening subassembly is installed to the upper wall of connecting plate, broken subassembly is installed to spacing platform and the upper wall of connecting platform, broken subassembly's diapire links to each other with screening subassembly, the ring is still installed to the upper wall of connecting platform, the ring is located between screening subassembly and the broken subassembly, the mount upper wall is equipped with the support frame, install drive assembly and clean subassembly on the mount, the upper end of drive assembly is located in the ring, drive assembly links to each other with the support frame, clean subassembly links to each other with drive assembly, the drive assembly is located broken subassembly's upper end, the filter assembly is installed to the other end of drive assembly, the filter assembly that circles round with the ring and links to each other, the filter assembly that circles round on the movable filter assembly locates.

2. The efficient waste plastic decomposing and recycling device according to claim 1, wherein the driving assembly comprises a driving connecting shaft, the driving connecting shaft is movably arranged on the fixing frame, a motor base is arranged on the side wall of the fixing frame, a motor is arranged on the motor base, an output shaft end of the motor is connected with the driving connecting shaft, the other end of the driving connecting shaft is arranged in the annular piece, a gear II is arranged at the other end of the driving connecting shaft, a cleaning shaft is movably arranged on the supporting frame, one end of the cleaning shaft is arranged in the cleaning assembly, the other end of the cleaning shaft is arranged in the annular piece, a gear I is arranged on the other end of the cleaning shaft, and the gear I is arranged at the upper end of the gear II and is in meshed connection.

3. The efficient waste plastic decomposing and recycling device according to claim 2, wherein a deflector rod pressing piece is arranged on one side of the second gear, a deflector rod pressing piece protrudes out of the second gear side wall, a crushing pressing piece is arranged on the other side of the second gear, the bottom wall of the deflector rod pressing piece and the bottom wall of the crushing pressing piece are of arc structures, the bottom wall of the crushing pressing piece protrudes out of the deflector rod pressing piece, and the crushing pressing piece is arranged at the upper end of the crushing assembly.

4. The efficient waste plastic decomposing and recycling device according to claim 3, wherein the rotary filtering assembly comprises a rotary rod, the rotary rod is connected with the side wall of the gear I, the rotary rod is arranged on the diameter of the gear I, the two ends of the rotary rod are respectively and movably provided with a first filtering piece and a second filtering piece, the first filtering piece and the second filtering piece are identical in structure, one end, close to the annular piece, of the first filtering piece is provided with a first poking rod, the first poking rod is arranged in the annular piece, the two ends of the first poking rod are respectively and movably provided with a first rolling piece and a second rolling piece, and the first rolling piece and the second rolling piece are movably connected with the inner wall of the annular piece.

5. The efficient waste plastic decomposing and recycling device as set forth in claim 4, wherein a limiting groove is formed in a position, where the annular piece is connected with the connecting table, of the annular piece, and the width of the limiting groove is larger than the diameters of the first rolling piece and the second rolling piece.

6. The efficient waste plastic decomposing and recycling device according to claim 5, wherein the first filtering piece is of a cavity structure with openings at two ends, a connecting piece and a filter screen are arranged in the cavity of the first filtering piece, one end of the connecting piece is connected with the inner wall of the first filtering piece, the filter screen is connected with the other end of the connecting piece, a storage cavity is arranged between the filter screen and the inner wall of the first filtering piece, a feed inlet is arranged at one end opening of the first filtering piece, one end of the filter screen is connected with the feed inlet in a penetrating manner, a discharge outlet is arranged at the other end opening of the first filtering piece, and the discharge outlet is connected with the storage cavity in a penetrating manner.

7. The efficient waste plastic decomposing and recycling device according to claim 6, wherein the upper wall of the limiting table is provided with a plurality of groups of limiting holes for limiting, the crushing assembly comprises a fixing piece, the lower end of the fixing piece is arranged on the upper wall of the connecting table, the side wall of the fixing piece is connected with the side wall of the annular piece, the bottom wall of the fixing piece is provided with a plurality of groups of second telescopic rods for limiting and a plurality of groups of second springs for recovering, the second springs are sleeved on the outer side of the second telescopic rods, the lower ends of the second springs and the lower ends of the second telescopic rods are connected with crushing plates, the bottom wall of each crushing plate is provided with a plurality of groups of crushing cutters for crushing waste plastic, the lower end of each crushing plate is provided with a crushing bullet box, the bottom wall of each crushing bullet box is provided with a plurality of groups of limiting rods for supporting and limiting, the lower ends of each limiting rods are movably arranged in the limiting holes, and the screening assembly is connected with the bottom wall of each crushing bullet box.

8. The efficient waste plastic decomposing and recycling device according to claim 7, wherein the screening assembly comprises a screening plate, the side wall of the screening plate is provided with a flow hole, the screening plate is arranged at the lower ends of the first filtering piece and the second filtering piece, the bottom wall of the screening plate is provided with a plurality of groups of first telescopic rods used for limiting and a plurality of groups of first springs used for recovering, the first springs are sleeved on the outer sides of the first telescopic rods, and the lower ends of the first springs and the lower ends of the first telescopic rods are connected with the upper wall of the connecting plate.

9. The efficient waste plastic decomposing and recycling device according to claim 8, wherein the bottom wall of the screening plate is further provided with a driving plate, the driving plate is of an L-shaped structure, the other end of the driving plate is arranged at the lower ends of the connecting plate and the crushing bullet box, the driving plate is arranged on the upper wall of the lower end of the crushing bullet box, a plurality of groups of driving rods for supporting are arranged on the upper wall of the driving plate, and the upper wall of the driving rod is movably connected with the bottom wall of the crushing bullet box.

10. The efficient waste plastic decomposing and recycling device according to claim 9, wherein the cleaning assembly comprises a cleaning box, the cleaning box is arranged on the fixing frame, one end of the cleaning shaft is arranged in the cleaning box, a stirring piece is arranged at one end of the cleaning shaft arranged in the cleaning box, and a through hole is formed in the side wall of the cleaning box.