CN219683547U

CN219683547U - Waste material compression collection mechanism

Info

Publication number: CN219683547U
Application number: CN202320930255.2U
Authority: CN
Inventors: 谢青; 钱龙; 陈铃; 杨良; 曾凡宝; 邓冬
Original assignee: Wuhan Jurun Packaging Co ltd
Current assignee: Wuhan Jurun Packaging Co ltd
Priority date: 2023-04-23
Filing date: 2023-04-23
Publication date: 2023-09-15
Anticipated expiration: 2033-04-23

Abstract

The utility model relates to the technical field of paper processing, and discloses a waste compression and collection mechanism, which comprises a box body, wherein a crushing bin is arranged above the box body, and a compression bin is arranged below the crushing bin; a driving crushing roller and a driven crushing roller are arranged in the crushing bin in parallel, wherein a motor is arranged at one side of the crushing bin; a driving belt pulley arranged on the motor is in belt transmission connection with a driven belt pulley arranged on the driving crushing roller; a material distributing plate is arranged below the crushing bin, and a first cylinder is arranged at the bottom of the material distributing plate; the right side wall of the compression bin is provided with a second cylinder, and the rear side wall of the compression bin is provided with a third cylinder. The utility model uses the motor to drive the driving crushing roller and the driven crushing roller to crush the paper waste; through the mutual extrusion effect of first stripper plate cooperation second stripper plate and third stripper plate, with the volume compression of paper waste to make it form massive, the paper waste after the compression is difficult for scattering, occupation space is little, makes the transportation more convenient.

Description

Waste material compression collection mechanism

Technical Field

The utility model relates to the technical field of paper processing, in particular to a waste compression and collection mechanism.

Background

The paper products need to cut off some marks in the course of working, can produce a lot of useless leftover bits, and the leftover bits that processing produced remain on the workstation, pile up on the workstation for a long time and influence work efficiency easily. At present, it is common practice that the staff place the leftover materials in a collecting bag beside the paper cutter, and when the leftover materials and the waste paper are excessively accumulated, the collecting bag needs to be packed and then transported to a production workshop.

The paper product leftover bits among the prior art extremely inconvenient when collecting, because the shape size of leftover bits is different, occupy great usage space when leading to collecting, can all lead to the transportation inconvenient when transportation reutilization, easily spill. And the leftover bits are cut the back bagging-off, still can cause the condition that many accommodation spaces are wasted because of the space that exists each other of leftover bits, need spend more time to handle, increase staff's work load.

Disclosure of Invention

The present utility model is directed to a waste compression and collection mechanism, which solves the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the waste compression and collection mechanism comprises a box body, wherein a crushing bin is arranged above the box body, and a compression bin is arranged below the crushing bin; the top of the crushing bin is provided with a feed inlet, and a discharge outlet at the bottom of the crushing bin is communicated with the compression bin; the crushing bin is internally provided with a driving crushing roller and a driven crushing roller in parallel, wherein the roll shafts at two ends of the driving crushing roller and the driven crushing roller respectively penetrate through the left side wall and the right side wall of the crushing bin and extend outwards; a motor bin is arranged on one side of the crushing bin, and a motor is arranged in the motor bin; a driven belt pulley is arranged on a roll shaft at one end of the driving crushing roller, and a driving gear is arranged on a roll shaft at the other end of the driving crushing roller; the output shaft of the motor is provided with a driving belt pulley, and the driving belt pulley is in transmission connection with the driven belt pulley through a belt; a driven gear is arranged at one end, close to the driving gear, of the driven crushing roller, wherein the driven gear is meshed with the driving gear; a material dividing plate is arranged below the crushing bin, and the front end and the rear end of the material dividing plate are fixedly connected with the front wall and the rear wall of the crushing bin through bolts respectively; the bottom of the material distributing plate is provided with a first air cylinder, and the telescopic end of the first air cylinder is fixedly connected with a first extrusion plate; the right side wall of the compression bin is provided with a second air cylinder, and the telescopic end of the second air cylinder is provided with a second extrusion plate; a third cylinder is arranged on the rear side wall of the compression bin, and a third extrusion plate is arranged at the telescopic end of the third cylinder; the compression bin is characterized in that a bin door is arranged on the front side wall of the compression bin, and the bin door is arranged opposite to the third extrusion plate.

Preferably, the bottom of the distributing plate is provided with a mounting groove, wherein the tail end of the cylinder body of the first cylinder is fixedly connected with the bottom of the mounting groove.

Preferably, the section of the distributing plate is in a triangular structure, wherein the width of the bottom side of the distributing plate is longer than that of the first extruding plate.

Preferably, the inner walls of the left side and the right side of the crushing bin are symmetrically provided with guide plates, and one side, close to the material dividing plate, of the guide plates is provided with an inclined surface.

Preferably, the cylinder body of the second cylinder is fixedly connected with the inner wall of the right side of the compression bin, and the telescopic end of the second cylinder is fixedly connected with the second extrusion plate through a connector; the second extrusion plate is arranged below the material guiding plate, and the upper end face of the second extrusion plate is abutted to the lower end face of the material guiding plate.

Preferably, the third cylinder is arranged outside the compression bin, and the cylinder body of the third cylinder is fixedly connected with the rear side wall of the compression bin; the output end of the third cylinder penetrates through the rear side wall of the compression bin and extends into the compression bin, and the output end of the third cylinder is fixedly connected with the third extrusion plate through a connector; the height of the third extrusion plate is the same as that of the second extrusion plate, and the left side edge of the third extrusion plate is tightly attached to the left inner wall of the compression bin.

Preferably, a pin shaft seat is arranged above the bin gate, wherein the pin shaft seat is fixedly connected with the front wall of the compression bin; a pin hole is formed above the bin gate, a pin shaft is arranged in the pin hole, and the bin gate is rotationally connected with the pin shaft seat through the pin shaft.

Preferably, a fourth cylinder is arranged on the left side wall of the compression bin, and a cylinder body of the fourth cylinder is fixedly connected with the left side wall of the compression bin; the telescopic end of the fourth cylinder is provided with a locking rod, wherein the locking rod is perpendicular to the telescopic end of the fourth cylinder; the locking rod is arranged at the front end of the bin gate, and a fixing clamping groove matched with the locking rod is formed in the front end of the bin gate.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the driving crushing roller and the driven crushing roller are arranged in parallel in the crushing bin, and the driving belt pulley is driven to rotate by the control motor, so that the driving belt pulley drives the driven belt pulley to rotate by the belt; the driving crushing roller and the driven crushing roller are driven by the driven belt pulley to rotate in opposite directions, so that paper waste materials with different shapes and sizes are crushed; after the crushed paper waste falls into the compression bin, after the paper waste in the compression bin is accumulated to a certain amount, the first extrusion plate is driven by the first air cylinder to extrude the paper waste in the compression bin downwards, meanwhile, the second extrusion plate is driven by the second air cylinder to extrude the paper waste leftwards, the volume of the paper waste can be compressed by the mutual extrusion of the first extrusion plate and the second extrusion plate, the paper waste is formed into a block shape, then the third extrusion plate is driven by the third air cylinder to further compress the block-shaped paper waste, finally, the bin door is controlled to be opened by the fourth air cylinder, the third air cylinder is driven by the third extrusion plate to push the extruded block-shaped paper waste outwards from the bin door, and the compressed paper waste is not easy to scatter, occupies small space and is more convenient to transport.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic rear view of the present utility model;

FIG. 3 is a schematic view of the internal structure of the present utility model;

FIG. 4 is a cross-sectional view of the A-A structure shown in FIG. 1;

fig. 5 is an enlarged schematic view of the structure at B shown in fig. 1.

Wherein: 1. a case; 2. crushing the bin; 3. a compression bin; 4. a feed inlet; 5. an active crushing roller; 6. a driven pulverizing roller; 7. a motor bin; 8. a motor; 9. a driven pulley; 10. a drive gear; 11. a driving pulley; 12. a belt; 13. a driven gear; 14. a material dividing plate; 15. a first cylinder; 16. a first pressing plate; 17. a second cylinder; 18. a second pressing plate; 19. a third cylinder; 20. a third pressing plate; 21. a bin gate; 22. a mounting groove; 23. a material guide plate; 24. a pin shaft seat; 25. a fourth cylinder; 26. a locking lever; 27. a fixing slot; 28. and an exhaust hole.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 5 in combination, a waste compression and collection mechanism comprises a box 1, wherein a crushing bin 2 is arranged above the box 1, and a compression bin 3 is arranged below the crushing bin 2; the top of the crushing bin 2 is provided with a feed inlet 4, wherein a discharge hole at the bottom of the crushing bin 2 is communicated with the compression bin 3; a driving crushing roller 5 and a driven crushing roller 6 are arranged in the crushing bin 2 in parallel, wherein the roller shafts at two ends of the driving crushing roller 5 and the driven crushing roller 6 respectively penetrate through the left side wall and the right side wall of the crushing bin 2 and extend outwards; a motor bin 7 is arranged on one side of the crushing bin 2, and a motor 8 is arranged in the motor bin 7; a driven belt pulley 9 is arranged on a roll shaft at one end of the driving crushing roll 5, and a driving gear 10 is arranged on a roll shaft at the other end of the driving crushing roll 5; the output shaft of the motor 8 is provided with a driving belt pulley 11, wherein the driving belt pulley 11 is in transmission connection with the driven belt pulley 9 through a belt 12; a driven gear 13 is arranged at one end of the driven crushing roller 6 close to the driving gear 10, wherein the driven gear 13 is meshed with the driving gear 10; through pouring paper waste into crushing storehouse 2 from feed inlet 4, open motor 8, make it drive driving pulley 11 rotate, driving pulley 11 drives driven pulley 9 through belt 12 and rotates to make driven pulley 9 drive initiative crushing roller 5 begin to rotate, because of the driving gear 10 on initiative crushing roller 5 meshes with driven gear 13 on driven crushing roller 6, when initiative crushing roller 5 rotates, this initiative crushing roller 5 drive driven crushing roller 6 and rather than rotating in opposite directions, and then cut crushing to the paper waste of different shapes and sizes.

A material dividing plate 14 is arranged below the crushing bin 2, wherein the front end and the rear end of the material dividing plate 14 are fixedly connected with the front wall and the rear wall of the crushing bin 2 through bolts respectively; the bottom of the material separating plate 14 is provided with a first air cylinder 15, wherein the telescopic end of the first air cylinder 15 is fixedly connected with a first extrusion plate 16; the right side wall of the compression bin 3 is provided with a second air cylinder 17, and the telescopic end of the second air cylinder 17 is provided with a second extrusion plate 18; a third air cylinder 19 is arranged on the rear side wall of the compression bin 3, and a third extrusion plate 20 is arranged at the telescopic end of the third air cylinder 19; the front side wall of the compression bin 3 is provided with a bin gate 21, wherein the bin gate 21 is opposite to the third extrusion plate 20. After the crushed paper waste collected in the compression bin 3 is accumulated to a certain amount, the first air cylinder 15 drives the first extrusion plate 16 to extrude the paper waste in the compression bin 3 downwards, meanwhile, the second air cylinder 17 drives the second extrusion plate 18 to extrude the paper waste leftwards, the volume of the paper waste can be compressed under the mutual extrusion action of the first extrusion plate 16 and the second extrusion plate 18 to form a block, then the third air cylinder 19 drives the third extrusion plate 20 to further compress the block-shaped paper waste, the bin gate 21 is opened most, and the third air cylinder 19 pushes the third extrusion plate 20 to push the extruded block-shaped paper waste outwards from the bin gate 21, so that the paper waste is convenient for subsequent workers to collect and transport.

Referring to fig. 3 and fig. 4 in combination, as an embodiment of the present utility model, a mounting groove 22 is formed at the bottom of the material separating plate 14, wherein the cylinder end of the first cylinder 15 is fixedly connected to the bottom of the mounting groove 22.

In the above scheme, the front end and the rear end of the material separating plate 14 are respectively and fixedly connected with the front wall and the rear wall of the crushing bin 2 through bolts, wherein the material separating plate 14 is arranged below the driving crushing roller 5 and the driven crushing roller 6, and the material separating plate 14 is mutually perpendicular to the driving crushing roller 5 and the driven crushing roller 6, so that crushed paper waste can conveniently and uniformly fall into the compression bin 3 through the material separating plate 14; through seting up mounting groove 22 in the feed divider 14 bottom to set up first cylinder 15 in mounting groove 22, increase the distance that first cylinder 15 drove first stripper plate 16 and reciprocate, make things convenient for first stripper plate 16 to extrude more goods waste material, improve the extrusion efficiency of first stripper plate 16.

Referring to fig. 3 and fig. 4 in combination, as an embodiment of the present utility model, the cross section of the distributing plate 14 is in a triangular structure, wherein the width of the bottom edge of the distributing plate 14 is longer than the width of the first extruding plate 16.

In the above-mentioned scheme, the two inclined sides of the distributing plate 14 are used for buffering the crushed paper waste, and the width of the bottom edge of the distributing plate 14 is set longer than that of the first extruding plate 16, so that the falling paper waste can be effectively prevented from falling above the first extruding plate 16, and the subsequent cleaning is inconvenient; in order to prevent the paper waste from falling on the first extrusion plate 16, the two side edges of the first extrusion plate 16 can be subjected to trimming treatment to form inclined surfaces, so that the paper waste is effectively prevented from piling up above the first extrusion plate 16.

Referring to fig. 3 and fig. 4 in combination, as an embodiment of the present utility model, the inner walls of the left and right sides of the crushing bin 2 are symmetrically provided with guide plates 23, wherein one side of the guide plates 23, which is close to the distributing plate 14, is provided with an inclined surface.

In the above scheme, through set up stock guide 23 and divide flitch 14 cooperation use at crushing storehouse 2 inside wall symmetry, can slow down the speed that paper waste falls on the one hand, avoid kibbling paper bits to fly upward everywhere in the box is inside, on the other hand can improve the homogeneity of paper waste unloading, make things convenient for follow-up compression treatment to paper waste.

Referring to fig. 4, as an embodiment of the present utility model, the cylinder body of the second cylinder 17 is fixedly connected to the right inner wall of the compression chamber 3, wherein the telescopic end of the second cylinder 17 is fixedly connected to the second extrusion plate 18 through a connector; the second extrusion plate 18 is disposed below the material guiding plate 23, where an upper end surface of the second extrusion plate 18 abuts against a lower end surface of the material guiding plate 23.

In the above-mentioned scheme, the lower end of the second extrusion plate 18 is slidably connected with the bottom of the compression bin 3, and the front and rear ends of the second extrusion plate 18 are slidably connected with the front inner wall and the rear inner wall of the compression bin 3 respectively; the second cylinder 17 is driven to drive the second extrusion plate 18 to extrude the paper waste in the compression bin 3 from right to left; when the second pressing plate 18 presses the paper waste, the first cylinder 15 drives the first pressing plate 16 to maintain a state of being compressed downward, so that the second pressing plate 18 and the first pressing plate 16 cooperate with each other to reduce the space in the compression bin 3, thereby pressing the paper waste into pieces.

Referring to fig. 3 and fig. 4 in combination, as an embodiment of the present utility model, the third cylinder 19 is disposed outside the compression chamber 3, where a cylinder body of the third cylinder 19 is fixedly connected to a rear sidewall of the compression chamber 3; the output end of the third cylinder 19 penetrates through the rear side wall of the compression bin 3 and extends into the compression bin 3, wherein the output end of the third cylinder 19 is fixedly connected with a third extrusion plate 20 through a connector; the height of the third extrusion plate 20 is the same as that of the second extrusion plate 18, wherein the left side edge of the third extrusion plate 20 is tightly attached to the left inner wall of the compression bin 3.

In the above-mentioned scheme, in the process that the first cylinder 15 drives the first extrusion plate 16 to extrude the paper waste in the compression bin 3 downwards, after the lower end of the first extrusion plate 16 contacts with the upper end of the third extrusion plate 20, the state that the first extrusion plate 16 extrudes downwards is unchanged; meanwhile, the second air cylinder 17 drives the second extrusion plate 18 to extrude the paper waste in the compression bin 3 from right to left, and after the extrusion surface of the second extrusion plate 18 contacts the right side edge of the third extrusion plate 20, the extrusion state of the second extrusion plate 18 is kept unchanged; finally, the third cylinder 19 is controlled to drive the third extrusion plate 20 to further compress the paper waste which is mutually extruded into blocks by the second extrusion plate 18 and the first extrusion plate 16, so that the compression of the paper waste is more compact.

Referring to fig. 5, as an embodiment of the present utility model, a pin shaft seat 24 is disposed above the bin gate 21, wherein the pin shaft seat 24 is fixedly connected with the front wall of the compression bin 3; a pin hole is formed above the bin gate 21, a pin shaft is arranged in the pin hole, and the bin gate 21 is rotationally connected with the pin shaft seat 24 through the pin shaft; a fourth air cylinder 25 is arranged on the left side wall of the compression bin 3, and the cylinder body of the fourth air cylinder 25 is fixedly connected with the left side wall of the compression bin 3; the telescopic end of the fourth air cylinder 25 is provided with a locking rod 26, wherein the locking rod 26 is perpendicular to the telescopic end of the fourth air cylinder 25; the locking rod 26 is arranged at the front end of the bin gate 21, and a fixing clamping groove 27 matched with the locking rod 26 is formed in the bin gate 21.

In the above scheme, the bin gate 21 is provided with the exhaust hole 28, and the exhaust hole 28 is convenient for discharging the redundant air in the compression bin 3 when the paper waste is compressed in the compression bin 3, so that the compression compactness of the paper waste is improved; the fourth cylinder 25 is contracted to drive the locking rod 26 to be clamped with the fixing clamping groove 27 on the bin gate 21, so that the locking rod 26 plays a role in locking the bin gate 21, when the third cylinder 19 drives the third extrusion plate 20 to further compress the paper waste in the compression bin 3, the bin gate 21 serves as a bearing plate to be matched with the third extrusion plate 20, the third extrusion plate 20 is convenient to compress the paper waste, and compressed air generated in the extrusion process can be discharged outwards through the exhaust hole 28; when the third extrusion plate 20 compresses the paper waste, the fourth cylinder 25 is controlled to drive the locking rod 26 to separate from the fixing clamping groove 27 on the bin gate 21, so that the bin gate 21 is rotated and opened by taking the pin shaft as the axis, and then the third cylinder 19 is controlled to continuously push the third extrusion plate 20 for pushing the extruded paper waste blocks outwards from the bin gate 21, thereby facilitating the collection and transportation of the paper waste blocks by subsequent staff.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims

1. The waste compression and collection mechanism comprises a box body (1) and is characterized in that a crushing bin (2) is arranged above the box body (1), and a compression bin (3) is arranged below the crushing bin (2); a feed inlet (4) is formed in the top of the crushing bin (2), and a discharge hole at the bottom of the crushing bin (2) is communicated with the compression bin (3); the crushing bin (2) is internally provided with a driving crushing roller (5) and a driven crushing roller (6) in parallel, wherein the roller shafts at two ends of the driving crushing roller (5) and the driven crushing roller (6) respectively penetrate through the left side wall and the right side wall of the crushing bin (2) and extend outwards; a motor bin (7) is arranged on one side of the crushing bin (2), and a motor (8) is arranged in the motor bin (7); a driven belt pulley (9) is arranged on a roll shaft at one end of the driving crushing roll (5), and a driving gear (10) is arranged on a roll shaft at the other end of the driving crushing roll (5); the output shaft of the motor (8) is provided with a driving belt pulley (11), wherein the driving belt pulley (11) is in transmission connection with the driven belt pulley (9) through a belt (12); a driven gear (13) is arranged at one end, close to the driving gear (10), of the driven crushing roller (6), wherein the driven gear (13) is meshed with the driving gear (10); a material distributing plate (14) is arranged below the crushing bin (2), wherein the front end and the rear end of the material distributing plate (14) are fixedly connected with the front wall and the rear wall of the crushing bin (2) through bolts respectively; a first air cylinder (15) is arranged at the bottom of the material distributing plate (14), and the telescopic end of the first air cylinder (15) is connected with a first extruding plate (16); a second air cylinder (17) is arranged on the right side wall of the compression bin (3), and a second extrusion plate (18) is arranged at the telescopic end of the second air cylinder (17); a third air cylinder (19) is arranged on the rear side wall of the compression bin (3), and a third extrusion plate (20) is arranged at the telescopic end of the third air cylinder (19); the front side wall of the compression bin (3) is provided with a bin gate (21), wherein the bin gate (21) and the third extrusion plate (20) are oppositely arranged.

2. The waste compression and collection mechanism according to claim 1, wherein the bottom of the material separating plate (14) is provided with a mounting groove (22), and wherein the cylinder end of the first cylinder (15) is fixedly connected with the bottom of the mounting groove (22).

3. A waste compression and collection mechanism as claimed in claim 2, characterised in that the section of the dividing plate (14) is of triangular configuration, wherein the width of the base of the dividing plate (14) is longer than the width of the first stripper plate (16).

4. The waste compression and collection mechanism according to claim 1, wherein the inner walls of the left side and the right side of the crushing bin (2) are symmetrically provided with guide plates (23), and one side, close to the separating plate (14), of the guide plates (23) is provided with an inclined surface.

5. The waste compression and collection mechanism according to claim 1, wherein the cylinder body of the second cylinder (17) is fixedly connected with the right inner wall of the compression bin (3), and the telescopic end of the second cylinder (17) is fixedly connected with the second extrusion plate (18) through a connector.

6. The waste compression and collection mechanism according to claim 1, wherein the third cylinder (19) is arranged outside the compression bin (3), and the cylinder body of the third cylinder (19) is fixedly connected with the rear side wall of the compression bin (3); the output end of the third air cylinder (19) penetrates through the rear side wall of the compression bin (3) and extends into the compression bin (3), and the output end of the third air cylinder (19) is fixedly connected with the third extrusion plate (20) through a connector.

7. A waste compression and collection mechanism according to claim 1, wherein a pin seat (24) is arranged above the bin gate (21), wherein the pin seat (24) is fixedly connected with the front wall of the compression bin (3); the upper end of the bin gate (21) is provided with a pin hole, a pin shaft is arranged in the pin hole, and the bin gate (21) is rotationally connected with the pin shaft seat (24) through the pin shaft.

8. The waste compression and collection mechanism according to claim 7, wherein a fourth cylinder (25) is arranged on the left side wall of the compression bin (3), and the cylinder body of the fourth cylinder (25) is fixedly connected with the left side wall of the compression bin (3); the telescopic end of the fourth air cylinder (25) is provided with a locking rod (26), wherein the locking rod (26) is perpendicular to the telescopic end of the fourth air cylinder (25); the locking rod (26) is arranged at the front end of the bin gate (21), and a fixing clamping groove (27) matched with the locking rod (26) is formed in the front end of the bin gate (21).