CN111941906A

CN111941906A - Waste material compression recovery unit based on electrical control

Info

Publication number: CN111941906A
Application number: CN202010687980.2A
Authority: CN
Inventors: 周奎; 吴会琴
Original assignee: Jiangsu Vocational College of Electronics and Information
Current assignee: Jiangsu Vocational College of Electronics and Information
Priority date: 2020-07-16
Filing date: 2020-07-16
Publication date: 2020-11-17
Anticipated expiration: 2040-07-16
Also published as: CN111941906B

Abstract

The invention discloses a waste material compression and recovery device based on electrical control, which comprises a feeding port, a compression cylinder, a follow-up discharging assembly, a crushing assembly, a conveyor belt and a treatment box, wherein the feeding port is formed in one end of the top of the treatment box and used for being connected with an external conveying device for feeding; the crushing assembly and the follow-up discharging assembly are sequentially arranged below the feeding port, and waste materials can fall onto the conveying belt through the follow-up discharging assembly after being crushed by the crushing assembly; the waste material after the conveyer belt can be carried to the recycling bin after the breakage and awaits the compression of clamp plate subassembly, is provided with clamp plate and miniature clamp plate in the clamp plate subassembly to realize wholly pushing down and the partial pressor compression mode, improved compression efficiency.

Description

Waste material compression recovery unit based on electrical control

Technical Field

The invention relates to the technical field of compression and recovery, in particular to a waste material compression and recovery device based on electrical control.

Background

In the production process of the existing corrugated board, a large amount of leftover waste paper is generated in the process steps of printing, cutting and the like, the waste paper and the products with unqualified quality inspection are generally recycled to be made into paper pulp and then used for making paper or packaging boxes, and in the recycling process, waste materials are required to be compressed for further recycling. When using compression recovery unit to add man-hour to the waste material, if direct pressurization, the corrugated paper of harder material is difficult to be compressed, and the corrugated paper of softer material is compressed easily, in order to satisfy both demands, needs adopt great powerful compressor to compress, has wasted the energy, adopts simple clamp plate to compress the corrugated paper in addition, and compression efficiency is general.

Therefore, the person skilled in the art provides a waste material compression and recycling device based on electrical control to solve the problems mentioned in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a waste material compression and recovery device based on electrical control comprises a feeding port, a compression cylinder, a follow-up discharging assembly, a crushing assembly, a conveyor belt and a treatment box, wherein the feeding port is formed in one end of the top of the treatment box and used for being connected with an external conveying device to feed materials;

the crushing assembly and the follow-up discharging assembly are sequentially arranged below the feeding port, and waste materials can fall onto the conveying belt through the follow-up discharging assembly after being crushed by the crushing assembly;

the conveyer belt can be carried the waste material after the breakage to the recycling bin and awaits the compression of compression cylinder.

Further, preferably, the crushing assembly comprises a second rotating shaft, a crushing bin, a follower plate, a fixed plate and a collecting plate, wherein the follower plate and the fixed plate are both annular plates, a plurality of linear arrays of the follower plate are fixed on the second rotating shaft, a plurality of linear arrays of the fixed plate are fixed in the crushing bin, and the follower plate and the fixed plate are sequentially arranged at intervals;

the bottom of the crushing bin is fixedly provided with a collecting plate, and waste materials sequentially pass through a plurality of follow-up plates and a plurality of fixed plates and are finally collected into the follow-up discharging assembly through the collecting plate.

Further, preferably, the plate body positioned at the uppermost part of the crushing bin is a fixed plate, and the fixed plate and the follow-up plate are both provided with limiting through holes;

crushing cutter bodies are uniformly distributed on the upper surface and the lower surface of the fixed plate and the follow-up plate;

the upper surface of the collecting plate is distributed with a plurality of crushing cutter bodies.

Further, preferably, the hole diameters of the limiting through holes on the fixed plate and the follow-up plate are sequentially reduced from top to bottom.

Further, preferably, the follow-up discharging assembly comprises a first rotating shaft, a cavity shaft and a collecting bin, wherein the collecting bin is fixedly communicated below the crushing bin, the first rotating shaft is rotatably arranged in the collecting bin, one end of the first rotating shaft is coaxially and fixedly connected with the cavity shaft, the other end of the cavity shaft is coaxially and fixedly connected with the second rotating shaft, a driven gear is fixedly sleeved at the other end of the first rotating shaft, and the driven gear is driven to rotate by a driving gear at the output end of a driving motor;

a plurality of shifting blades are circumferentially arrayed on the outer surface of the cavity shaft, and a bottom plate is fixed on the outer surface of the cavity shaft and below the shifting blades;

a discharge hole is formed in one side of the collecting bin, and the bottom of the collecting bin is supported on the inner wall of the processing bin through a supporting seat.

Further, preferably, the air inlet device further comprises an air inlet pipe, wherein the air inlet pipe is coaxially and rotatably arranged in the first rotating shaft and extends into the cavity shaft, one end of the air inlet pipe is supplied with air by external air supply equipment, and the other end of the air inlet pipe extends towards the radial direction of the air inlet pipe to form an air inlet seat;

the air inlet seat is connected with the limiting ring groove arranged on the inner wall of the cavity shaft in a sealing and rotating mode, a plurality of air holes which are radially arranged and communicated with the limiting ring groove are further formed in the cavity shaft, and the air holes are located between two adjacent shifting blade plates.

Further, as preferred, still be provided with the even subassembly of limit for height on the conveyer belt, the even subassembly of limit for height includes bracing piece, mounting panel, gear, rack and limit for height runner, wherein, the mounting panel adopts the bracing piece level to fix at the interior top of handling the case, vertical slip has run through in the mounting panel the rack, the rack with the gear meshes the setting mutually, the gear revolve sets up on the pinion stand and carries out the drive rotation by step motor, the below of rack is rotated and is provided with the runner of limit for height.

Further, as preferred, compression cylinder is fixed in the top of handling the case, just compression cylinder's output is provided with the clamp plate subassembly, the clamp plate subassembly includes mount pad, clamp plate, leads to groove and miniature cylinder, wherein, the clamp plate is fixed in the bottom of mount pad to make and constitute installation space between clamp plate and the mount pad, install a plurality of miniature cylinders in the installation space, miniature cylinder's output is fixed with miniature clamp plate, miniature clamp plate can slide and stretch out lead to the groove of seting up on the clamp plate.

Preferably, the compression cylinder and the micro cylinder are controlled by an air pump station in a unified manner, and the expansion frequency of the compression cylinder is 20-30 times that of the compression cylinder.

Further, as preferred, the top of handling the case is fixed with the deflector that is located pan feeding mouth position department and is C shape, the collection box that can hold the waste material is placed to the below of clamp plate subassembly, one side of collection box is provided with the direction fill that is located the conveyer belt discharge end, still be equipped with the discharge door of switch on handling the case, be used for changing the collection box.

Compared with the prior art, the invention provides a waste material compression and recovery device based on electrical control, which has the following beneficial effects:

1. the device is provided with a crushing assembly, wherein the aperture of limiting through holes on the fixed plate and the follow-up plate is sequentially reduced from top to bottom, so that corrugated paper corner waste can be gradually crushed through the matching of the fixed plate and the follow-up plate, in addition, the corrugated paper corner waste falling on the bottom plate can be driven to carry out centrifugal motion through the rotation of the leaf pulling plate so as to be thrown out of a discharge port, and gas is introduced through the gas inlet pipe so as to assist in blowing the corrugated paper corner waste to be thrown out of the discharge port, prevent the corrugated paper corner waste from being accumulated at the discharge port and facilitate subsequent compression;

2. in this device, be provided with the clamp plate subassembly, wherein, be provided with clamp plate and miniature clamp plate to realize wholly pushing down and the local pressor compression mode, improved compression efficiency, at the in-process that the clamp plate pushed down, miniature clamp plate up-and-down motion repeatedly makes corrugated paper leftover bits aggregate rapidly, and a plurality of miniature clamp plates contact with corrugated paper leftover bits respectively, have realized local pressor, and the wholeness after the compressed of corrugated paper leftover bits can be guaranteed again to the clamp plate.

Drawings

FIG. 1 is a schematic plan view of an electrically controlled waste material compressing and recycling apparatus;

FIG. 2 is a schematic perspective view of an electrically controlled waste compressing and recycling device;

FIG. 3 is a schematic diagram of the right half structure of FIG. 1;

FIG. 4 is a schematic structural diagram of a follow-up discharging component in the waste material compressing and recycling device based on electric control;

FIG. 5 is a schematic structural diagram of a pressing plate assembly in the waste material compression and recovery device based on electrical control;

in the figure: 1. a feeding port; 2. a compression cylinder; 3. a platen assembly; 31. a mounting seat; 32. pressing a plate; 33. a through groove; 34. a micro cylinder; 4. a recycling bin; 5. a guide hopper; 6. a follow-up discharging component; 61. a drive motor; 62. a first rotating shaft; 63. a cavity shaft; 631. a limiting ring groove; 632. a vent hole; 633. a leaf pulling plate; 634. a base plate; 64. an air inlet pipe; 641. an air inlet seat; 65. a collecting bin; 651. a discharge port; 652. a supporting seat; 7. a crushing assembly; 71. a second rotating shaft; 72. a crushing bin; 73. a follower plate; 74. a fixing plate; 75. a collection plate; 8. a height limiting and leveling assembly; 81. a support bar; 82. mounting a plate; 83. a gear; 84. a rack; 85. a height-limiting rotating wheel; 9. a guide plate; 10. a conveyor belt; 11. and (4) a treatment box.

Detailed Description

Referring to fig. 1 to 5, in an embodiment of the present invention, an electrically controlled waste material compressing and recycling device includes a feeding port 1, a compressing cylinder 2, a follow-up discharging assembly 6, a crushing assembly 7, a conveyor belt 10, and a processing box 11, wherein the feeding port 1 is opened at one end of the top of the processing box 11, and is used for being connected to an external conveying device for feeding;

the crushing assembly 7 and the follow-up discharging assembly 6 are sequentially arranged below the feeding port 1, and waste materials can fall onto the conveyor belt 10 through the follow-up discharging assembly 6 after being crushed by the crushing assembly 7;

the conveyor belt 10 is able to convey the crushed waste material into the recovery tank 4 awaiting compression by the compression cylinder 2.

In this embodiment, as shown in fig. 3, the crushing assembly 7 includes a second rotating shaft 71, a crushing bin 72, a follower plate 73, a fixed plate 74 and a collecting plate 75, wherein the follower plate 73 and the fixed plate 74 are both annular plates, a plurality of linear arrays of the follower plates 73 are fixed on the second rotating shaft 71, a plurality of linear arrays of the fixed plate 74 are fixed in the crushing bin 72, and the follower plates 73 and the fixed plate 74 are sequentially spaced;

a collecting plate 75 is fixed at the bottom of the crushing bin 72, and waste materials sequentially pass through a plurality of follow-up plates and a plurality of fixed plates and are finally collected into the follow-up discharging assembly 6 through the collecting plate 75.

As a preferred embodiment, the uppermost plate body of the crushing bin 72 is a fixed plate 74, the fixed plate 74 and the follower plate 73 are both provided with limiting through holes, the limiting through holes formed in the uppermost fixed plate 74 are large, so that the waste of the corrugated paper leftover bits can pass through the fixing through holes, and the fixed plate 74 is fixed, so that the waste of the corrugated paper leftover bits can further pass through the uppermost fixed plate 74;

the upper and lower surfaces of the fixed plate 74 and the follower plate 73 are uniformly provided with crushing cutter bodies, preferably, the upper surface of the fixed plate 74 positioned at the top is a smooth surface, and the crushing cutter bodies are not arranged;

the upper surface of the collecting plate 75 is provided with a plurality of crushing cutter bodies.

As a preferred embodiment, the hole diameters of the limiting through holes on the fixing plate 74 and the following plate 73 are sequentially reduced from top to bottom, so that the corrugated paper leftover materials are gradually crushed, and the subsequent compression is facilitated.

In this embodiment, as shown in fig. 4, the follow-up discharging assembly 6 includes a first rotating shaft 62, a cavity shaft 63, and a collecting bin 65, wherein the collecting bin 65 is fixedly communicated below the crushing bin 72, the first rotating shaft 62 is rotatably disposed in the collecting bin 65, one end of the first rotating shaft 62 is coaxially and fixedly connected with the cavity shaft 63, the other end of the cavity shaft 63 is coaxially and fixedly connected with a second rotating shaft 71, a driven gear is fixedly sleeved at the other end of the first rotating shaft 62, and the driven gear is driven to rotate by a driving gear at an output end of the driving motor 61;

a plurality of blade-pulling plates 633 are circumferentially arrayed on the outer surface of the cavity shaft 63, and a bottom plate 634 is fixed on the outer surface of the cavity shaft 63 and below the blade-pulling plates 633;

a discharge hole 651 is formed in one side of the collecting bin 65, the bottom of the collecting bin 65 is supported on the inner wall of the processing bin 11 through a support seat 652, and the blade poking plate 633 rotates to drive corrugated paper leftover waste falling on the bottom plate 634 to perform centrifugal motion so as to be thrown out of the discharge hole 651.

As a preferred embodiment, the air inlet pipe 64 is further included, the air inlet pipe 64 is coaxially and rotatably disposed in the first rotating shaft 62 and extends into the cavity shaft 63, one end of the air inlet pipe 64 is supplied with air by an external air supply device, and the other end of the air inlet pipe 64 extends toward the radial direction thereof to form an air inlet seat 641;

the sealed rotation of the spacing annular 631 of seting up on air inlet seat 641 and the cavity axle 63 inner wall links to each other, still set up a plurality of radial settings on the cavity axle 63 and the air vent 632 that is linked together with spacing annular 631, air vent 632 all is located between two adjacent leaf boards 633, lets in gas through intake pipe 64, can assist blow corrugated paper corner waste material and throw away from discharge gate 651, prevents that corrugated paper corner waste material from producing in the discharge gate and piling up.

In this embodiment, as shown in fig. 1 and 3, the conveyor belt 10 is further provided with a height-limiting leveling assembly 8, the height-limiting leveling assembly 8 includes a support rod 81, a mounting plate 82, a gear 83, a rack 84 and a height-limiting rotating wheel 85, wherein the mounting plate 82 is horizontally fixed on the inner top of the processing box 11 by the support rod 81, the rack 84 vertically penetrates through the mounting plate 82 in a sliding manner, the rack 84 is meshed with the gear 83, the gear 83 is rotatably arranged on a gear seat and is driven by a stepping motor to rotate, the height-limiting rotating wheel 85 is rotatably arranged below the rack 84, corrugated paper corner waste materials stacked on the conveyor belt 10 are blocked by the height-limiting rotating wheel 85 and are uniformly spread on the conveyor belt 10, the corrugated paper corner waste materials pass through the bottom of the height-limiting rotating wheel 85, the height-limiting rotating wheel 85 is supported by the corrugated paper corner waste materials for a long time, and meshing wear between the gear and the rack can be reduced, in addition, preferably, the front and the rear surfaces of the conveying belt can be provided with baffle plates to prevent corrugated paper leftover bits from scattering.

In this embodiment, as shown in fig. 1 and 5, the compression cylinder 2 is fixed at the top of the processing box 11, and the output end of the compression cylinder 2 is provided with the pressing plate assembly 3, the pressing plate assembly 3 includes a mounting seat 31, a pressing plate 32, a through groove 33 and a micro cylinder 34, wherein the pressing plate 32 is fixed at the bottom of the mounting seat 31, so that a mounting space is formed between the pressing plate and the mounting seat, a plurality of micro cylinders 34 are installed in the mounting space, the output end of the micro cylinder 34 is fixed with the micro pressing plate, the micro pressing plate can slidably extend out of the through groove 33 formed in the pressing plate 32, so as to realize overall pressing and local pressurization, improve the compression efficiency, and in the pressing process of the pressing plate 32, the micro pressing plate repeatedly moves up and down to promote the rapid polymerization of the corrugated paper corner waste materials, and the plurality of micro pressing plates are respectively, local compression is achieved and the compression plate 32 ensures the integrity of the compressed scrap of corrugated paper.

In a preferred embodiment, the compression cylinder 2 and the micro cylinder 34 are controlled by an air pumping station, and the expansion and contraction frequency of the compression cylinder 2 is 20-30 times of the expansion and contraction frequency of the compression cylinder 2.

In this embodiment, the top of handling case 11 is fixed with the deflector 9 that is located pan feeding mouth position department and is the C shape, the collection box 4 that can hold the waste material is placed to the below of clamp plate subassembly 3, one side of collection box 4 is provided with the direction fill 5 that is located 10 discharge ends of conveyer belt, the discharge door that still is equipped with the switch on handling case 11 is used for changing collection box 4.

When concrete implementation, outside conveyer lasts to the pay-off of pan feeding mouth 1 department, corrugated paper leftover bits enter into after broken subassembly's the breakage and collect the storehouse 65, through dialling the rotation of leaf blade 633, can drive the corrugated paper leftover bits that fall into on bottom plate 634 and carry out centrifugal motion, so that throw away to conveyer belt 10 from discharge gate 651 on, and then compressed by the clamp plate subassembly in entering collection box 4, when being full of corrugated paper leftover bits in collection box 4, then change collection box 4 can.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The waste material compression and recovery device based on electrical control comprises a feeding port (1), a compression cylinder (2), a follow-up discharging assembly (6), a crushing assembly (7), a conveyor belt (10) and a treatment box (11), wherein the feeding port (1) is formed in one end of the top of the treatment box (11) and used for being connected with an external conveying device to feed materials;

the method is characterized in that: the crushing assembly (7) and the follow-up discharging assembly (6) are sequentially arranged below the feeding port (1), and waste materials can fall onto the conveyor belt (10) through the follow-up discharging assembly (6) after being crushed by the crushing assembly (7);

the conveyor belt (10) can convey the crushed waste to the recovery box (4) to wait for the compression of the compression cylinder (2).

2. The waste material compression and recovery device based on electrical control as claimed in claim 1, characterized in that: the crushing assembly (7) comprises a second rotating shaft (71), a crushing bin (72), a follow-up plate (73), a fixed plate (74) and a collecting plate (75), wherein the follow-up plate (73) and the fixed plate (74) are both annular plates, a plurality of linear arrays of the follow-up plate (73) are fixed on the second rotating shaft (71), a plurality of linear arrays of the fixed plate (74) are fixed in the crushing bin (72), and the follow-up plate (73) and the fixed plate (74) are sequentially arranged at intervals;

a collecting plate (75) is fixed at the bottom of the crushing bin (72), and waste materials sequentially pass through a plurality of follow-up plates and a plurality of fixed plates and are finally collected into the follow-up discharging assembly (6) through the collecting plate (75).

3. The waste material compression and recovery device based on electrical control as claimed in claim 2, characterized in that: the plate body positioned at the uppermost part of the crushing bin (72) is a fixing plate (74), and the fixing plate (74) and the follow-up plate (73) are both provided with limiting through holes;

crushing cutter bodies are uniformly distributed on the upper surface and the lower surface of the fixed plate (74) and the follow-up plate (73);

the upper surface of the collecting plate (75) is provided with a plurality of crushing cutter bodies.

4. The waste material compression and recovery device based on electrical control as claimed in claim 3, characterized in that: from top to bottom, the aperture of the limiting through holes on the fixing plate (74) and the follow-up plate (73) is reduced in sequence.

5. The waste material compression and recovery device based on electrical control as claimed in claim 2, characterized in that: the follow-up discharging assembly (6) comprises a first rotating shaft (62), a cavity shaft (63) and a first collecting bin (65), wherein the first collecting bin (65) is fixedly communicated below the crushing bin (72), the first rotating shaft (62) is rotatably arranged in the first collecting bin (65), one end of the first rotating shaft (62) is coaxially and fixedly connected with the cavity shaft (63), the other end of the cavity shaft (63) is coaxially and fixedly connected with a second rotating shaft (71), a driven gear is fixedly sleeved at the other end of the first rotating shaft (62), and the driven gear is driven to rotate by a driving gear at the output end of a driving motor (61);

a plurality of blade-pulling plates (633) are circumferentially arrayed on the outer surface of the cavity shaft (63), and a bottom plate (634) is fixed on the outer surface of the cavity shaft (63) and below the blade-pulling plates (633);

a discharge hole (651) is formed in one side of the collecting bin (65), and the bottom of the collecting bin (65) is supported on the inner wall of the processing bin (11) through a supporting seat (652).

6. The waste material compression and recovery device based on electrical control as claimed in claim 5, characterized in that: the air inlet pipe (64) is coaxially and rotatably arranged in the first rotating shaft (62) and extends into the cavity shaft (63), one end of the air inlet pipe (64) is supplied with air by external air supply equipment, and the other end of the air inlet pipe (64) extends towards the radial direction of the air inlet pipe to form an air inlet seat (641);

air inlet seat (641) and the sealed rotation of spacing annular (631) of seting up on cavity axle (63) inner wall link to each other, still set up a plurality of radial air vents (632) that just are linked together with spacing annular (631) on cavity axle (63), air vent (632) all are located between two adjacent leaf plates (633).

7. The waste material compression and recovery device based on electrical control as claimed in claim 1, characterized in that: still be provided with the even subassembly of limit for height (8) on conveyer belt (10), the even subassembly of limit for height (8) is including bracing piece (81), mounting panel (82), gear (83), rack (84) and limit for height runner (85), wherein, mounting panel (82) adopt bracing piece (81) level to fix at the interior top of handling case (11), vertical slip runs through in mounting panel (82) rack (84), rack (84) with gear (83) mesh mutually sets up, gear (83) rotate set up on the gear rack and by step motor drive rotation, the below of rack (84) is rotated and is provided with limit for height runner (85).

8. The waste material compression and recovery device based on electrical control as claimed in claim 1, characterized in that: the compression cylinder (2) is fixed at the top of the treatment box (11), the output end of the compression cylinder (2) is provided with a pressing plate assembly (3), the pressing plate assembly (3) comprises a mounting seat (31), a pressing plate (32), a through groove (33) and a micro cylinder (34), wherein the pressing plate (32) is fixed at the bottom of the mounting seat (31), so that a mounting space is formed between the pressing plate and the mounting seat, a plurality of micro cylinders (34) are mounted in the mounting space, the output end of the micro cylinder (34) is fixed with a micro pressing plate, and the micro pressing plate can slide and extend out of the through groove (33) formed in the pressing plate (32).

9. The waste material compressing and recycling device based on the electrical control as claimed in claim 8, wherein: the compression cylinder (2) and the micro cylinder (34) are uniformly controlled by an air pump station, and the expansion frequency of the compression cylinder (2) is 20-30 times of that of the compression cylinder (2).

10. The waste material compressing and recycling device based on the electrical control as claimed in claim 8, wherein: handle the top of case (11) and be fixed with deflector (9) that are located pan feeding mouth position department and be C shape, collection box (4) that can hold the waste material are placed to the below of clamp plate subassembly (3), one side of collection box (4) is provided with direction fill (5) that are located conveyer belt (10) discharge end, handle the discharge door that still is equipped with the switch on case (11), be used for changing collection box (4).