CN210758097U - Feeding device for waste cleaning machine - Google Patents

Abstract

The utility model discloses a feed arrangement for clear useless machine, including the frame, be equipped with in the frame and be used for stacking the paper and with the lifting paper carry the material station, be used for the paper transmission like clear useless machine's transmission station, be used for carrying the branch paper station of dialling away of adjacent paper on the material station, be used for inserting the slotting tool station that makes the paper layering in the paper, be used for transporting the paper centre gripping behind the slotting tool station layering to the double-layered material station of transmission station. When the paper stacking machine works, the paper stack is lifted to a certain height through the material lifting station, and then the paper is separated through the paper separating station, so that a gap is formed between every two adjacent paper. Through the slotting tool station, layering occurs between the paper sheets, and the paper stack is divided into an upper paper stack to be taken and a lower paper stack retained on the material lifting station. And clamping the upper paper pile through a material clamping station, and dragging the upper paper pile to a transmission station. And finally, feeding the paper stack into a waste cleaning machine through a transmission station to finish feeding. The link of manual paper separation is reduced, and the production efficiency is improved.

Description

Feeding device for waste cleaning machine

Technical Field

The utility model relates to a clear useless machine, concretely relates to a feed arrangement for clear useless machine.

Background

In the production process of the printed products (particularly die-cut paper products), a die-cutting machine cuts a plurality of printed product units on a paperboard according to the designed shape of the printed products, and in order to accelerate the die-cutting speed of the printed products, the existing die-cutting machine adopts an incomplete cutting mode, namely, after die-cutting, all the printed product units are adhered to rim charge through small toothed blocks. Therefore, after the die cutting of the die cutting machine, the whole stack (a plurality of) die cutting paper boards are required to be placed on the processing position of the rim charge removing mechanism for rim charge removing, namely, each printed product unit and the rim charge are torn through a fine toothed block, and each printed product unit is separated from the rim charge. However, at present, the whole stack of (multiple) die-cutting paperboards are conveyed to the feed inlet of the waste cleaning machine from the discharge outlet of the die-cutting machine in a manual mode, so that time and labor are wasted, the labor cost is high, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a feed arrangement for clear useless machine replaces artifical feeding, improves production efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a feeding device for a waste cleaning machine comprises a frame, wherein the frame is provided with the following stations,

the lifting station is used for stacking paper and lifting the paper and comprises a placing plate which is connected to the rack in a sliding mode along the vertical direction and used for stacking the paper and a first driving mechanism used for driving the placing plate to move up and down along the vertical direction;

the conveying station is used for conveying paper to the waste cleaning machine and comprises two conveying rollers rotatably connected to a rack, a conveying belt sleeved outside the conveying rollers and a first driving motor used for driving one of the conveying rollers to rotate, and the conveying belt is positioned on one side of the discharge end of the placing plate;

the slotting tool station comprises a mounting seat, a connecting seat, a first driving cylinder, a slotting tool and a second driving cylinder, wherein the connecting seat is connected to the mounting seat in a sliding mode along the width direction of a conveying belt;

the clamping station comprises a clamping jaw cylinder, a third driving cylinder and a second driving mechanism, wherein the clamping jaw cylinder is installed on the installation seat and located on two sides of the transmission belt, the third driving cylinder is used for driving the clamping jaw cylinder to slide relative to the installation seat along the width direction of the transmission belt, and the second driving mechanism is used for driving the installation seat to slide relative to the rack along the transmission direction of the transmission belt.

Through adopting above-mentioned technical scheme, put into a pile of paper that need clear useless and place the board. The first driving cylinder drives the connecting seat to move along the width direction of the conveying belt, and then the second driving cylinder drives the slotting tool to move along the length direction of the conveying belt until the slotting tool moves to one side of the paper. Then the placing plate is driven by the first driving mechanism to move along the vertical direction until the position of the paper corresponding to the slotting tool is proper. The first driving cylinder drives the connecting seat to move along the width direction of the conveying belt until the slotting tool is inserted between the paper sheets. At the moment, due to a gap generated by the existence of the slotting tool, one clamping jaw cylinder moves towards the paper, all the paper on the slotting tool enters the clamping jaws of the clamping jaw cylinder, and then the paper above the slotting tool is clamped through the clamping jaw cylinder. The first driving cylinder drives the slotting tool to move towards the other side of the clamped paper, so that a gap is formed in the other side of the paper, the other clamping jaw cylinder moves towards the paper, all the paper on the slotting tool enters the clamping jaw of the clamping jaw cylinder, and then the paper above the slotting tool is clamped through the clamping jaw cylinder. Both ends of a stack of paper on the slotting cutter are clamped at the moment. At the moment, the second driving mechanism drives the mounting seat to move along the length direction of the conveying belt, so that the stack of clamped paper is dragged to the conveying belt. Thereby completing the feeding. If need send a pile of paper next, only need let place the paper that the board drove its top and upwards move again, then make the paper position that the slotting tool corresponds be suitable, repeat above-mentioned step and can get a pile of paper that thickness is suitable again, transport to clear useless machine. The link of manual paper separation is reduced, and the production efficiency is improved.

The utility model discloses a further set up to: still including being used for pulling out the branch paper station of adjacent paper on the material-lifting station, including rotating the third driving motor who connects in the branch paper roll of frame and be used for driving branch paper roll pivoted, divide the paper roll to be located and place board one side and be on a parallel with and place this side of board, divide and be equipped with a plurality of branch paper beads along its circumference on the paper roll.

Through adopting above-mentioned technical scheme, when placing the paper on placing the board, make the paper butt in dividing paper roll. Before the slotting tool is required to be inserted between the paper sheets, the paper separating roller can be driven to rotate by the first driving motor, and gaps are generated between the paper sheets through the paper separating ribs, so that the slotting tool can be more conveniently inserted between the paper sheets.

The utility model discloses a further set up to: the paper separating convex edges are obliquely arranged towards the opposite direction of the rotation direction of the paper separating roller.

Through adopting above-mentioned technical scheme to can be more light pull out between the paper.

The utility model discloses a further set up to: the driving mechanisms are provided with two driving mechanisms which are respectively connected to two sides of the placing plate.

Through adopting above-mentioned technical scheme, and then make and place the board both ends and all receive the drive power along vertical direction, make and place the board relative frame that can be more stable and move along vertical direction.

The utility model discloses a further set up to: the first driving mechanism comprises a first chain fixedly connected to one end of the placing plate, a second chain fixedly connected to the other end of the placing plate, a driving chain wheel used for being meshed with the first chain and the second chain, and a second driving motor used for driving the driving chain wheel to rotate, the rack is rotatably connected with a guide chain wheel used for guiding the first chain and/or the second chain, the first chain and the second chain are connected to one end of the placing plate and perpendicular to the placing plate, and a balancing weight used for keeping the first chain and the second chain tensioned is arranged at one end of the placing plate far away from the placing plate.

Through adopting above-mentioned technical scheme, drive driving sprocket through second driving motor and rotate, and then drive first chain and the motion of second chain, realize rising and decline to placing the board. The balancing weight can keep the tensioning of first chain and second chain, and then when guaranteeing the driving sprocket rotation, can be smooth drive first chain and the motion of second chain.

The utility model discloses a further set up to: second actuating mechanism includes that it sets up and bolted connection in the lead screw of mount pad, is used for driving lead screw pivoted fourth driving motor and sets up and slide along transmission band length direction and wear to locate the guide bar of mount pad along transmission band length direction, the lead screw rotates to be connected in the frame and along axial fixed connection in the frame, guide bar fixed connection in frame.

Through adopting above-mentioned technical scheme, drive the lead screw through third driving motor and rotate to can drive the mount pad and follow the motion of transmission band length direction. The guide rod can play a limiting role, and the installation seat can stably move along the length direction of the screw rod.

The utility model discloses a further set up to: the discharge end of the placing plate is provided with a baffle used for blocking paper along the vertical direction, and the baffle is fixedly connected to the rack, and the upper end face of the baffle and the upper end face of the transmission belt are located on the same plane.

Through adopting above-mentioned technical scheme, when placing the board with the paper on, can push the paper towards the baffle, make the paper all can place the place unanimous with the transmission band relative position at every turn.

The utility model discloses a further set up to: the baffle is equipped with a plurality of blocks and is the interval setting each other along transmission band width direction.

Through adopting above-mentioned technical scheme to make each point of paper all can receive the confining force, can make the paper of placing on placing the board piled up more neatly.

The utility model has the advantages of it is following: 1. the automatic feeding of the waste cleaning machine is realized, the labor cost is reduced, and the production efficiency is improved; 2. the paper stack with a certain thickness can be stably dragged to the conveying belt, and the situation that the thickness of the paper at two sides of the clamping belt is different is avoided.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a sectional view of the embodiment;

FIG. 3 is a schematic structural diagram of a material lifting station in the embodiment;

FIG. 4 is a schematic structural diagram of a conveying station in the embodiment;

FIG. 5 is an enlarged view taken at A in FIG. 1;

fig. 6 is a schematic structural diagram of a slotting tool station and a clamping station in the embodiment.

Reference numerals: 1. a material lifting station; 2. a transmission station; 3. a paper separating station; 4. a slotting tool station; 5. a material clamping station; 6. placing the plate; 7. a first drive mechanism; 8. a first chain; 9. a second chain; 10. a drive sprocket; 11. a second drive motor; 12. a balancing weight; 13. a guide sprocket; 14. a transfer roller; 15. a conveyor belt; 16. a first drive motor; 17. paper separating rollers; 18. a third drive motor; 19. paper separation convex edges; 20. a mounting seat; 21. a connecting seat; 22. a first drive cylinder; 23. inserting a cutter; 24. a second drive cylinder; 25. a chute; 26. a clamping jaw cylinder; 27. a third drive cylinder; 28. a second drive mechanism; 29. a screw rod; 30. a guide bar; 31. a fourth drive motor; 32. a baffle plate; 33. and a frame.

Detailed Description

As shown in fig. 1 and 2, a feeding device for a waste cleaning machine comprises a frame 33, wherein a lifting station 1 for stacking and lifting paper, a transmission station 2 for transmitting the paper to the waste cleaning machine, a paper separating station 3 for separating adjacent paper on the lifting station 1, a cutter inserting station 4 for inserting the paper to separate the paper, and a material clamping station 5 for clamping and transporting the paper separated by the cutter inserting station 4 to the transmission station 2 are arranged on the frame 33.

When the paper separating machine works, a paper pile is lifted to a certain height through the material lifting station 1, and then the paper is separated through the paper separating station 3, so that a gap is formed between adjacent paper. Through the slotting tool station 4, the paper is layered, so that the paper stack is divided into an upper paper stack to be taken and a lower paper stack retained on the material lifting station 1. The upper paper stack is clamped by the material clamping station 5 and is dragged and placed on the transmission station 2. And finally, the paper feeding piles are conveyed into a waste cleaning machine through a transmission station 2, and feeding is completed. When the feeding is needed again, the steps are repeated.

Specifically, as shown in fig. 1, the lifting station 1 includes a placing plate 6 and a first driving mechanism 7. The placing plate 6 is disposed in the horizontal direction and slidably attached to the frame 33 in the vertical direction. The first driving mechanisms 7 are provided in two and located on both sides of the placing plate 6, respectively. As shown in fig. 1 and 3, the first drive mechanism 7 includes a first chain 8, a second chain 9, a drive sprocket 10, and a second drive motor 11. As shown in fig. 3, one end of the first chain 8 is fixedly connected to the end of the upper end surface of the placing plate 6 near the paper discharging end. The drive sprocket 10 is located directly above the point of connection of the first chain 8 to the resting plate 6. The drive sprocket 10 is rotatably connected to the frame 33. The first chain 8 is wound around the driving sprocket 10 and engaged with the driving sprocket 10. The end of the first chain 8 remote from the placement plate 6 is connected with a counterweight 12 for keeping the first chain 8 tensioned. In this state, the first chain 8 is attached to one end of the placing plate 6 to be perpendicular to the placing plate 6.

As shown in fig. 3, one end of the second chain 9 is fixedly connected to the end of the upper end surface of the placing plate 6 far from the paper discharging end. The frame 33 is rotatably connected with a guide chain wheel 13, and the guide chain wheel 13 is positioned right above the connection point of the second chain 9 and the placing plate 6. The second chain 9 is wound around the guide sprocket 13 and the driving sprocket 10 at an end away from the placing plate 6, and then is fixedly connected to the counter weight 12. The guide sprocket 13 and the drive sprocket 10 are engaged with the second chain 9. In this state, the second chain 9 is attached to one end of the placing plate 6 perpendicularly to the placing plate 6.

As shown in fig. 1, the second driving motor 11 is fixedly installed on the frame 33, and an output end of the second driving motor 11 is connected to the driving sprocket 10. The two driving sprockets 10 are connected through a transmission shaft. During operation, paper is placed on the placing plate 6, the second driving motor 11 drives the driving chain wheel 10 to rotate forwards or backwards, so that the first chain 8 and the second chain 9 are driven to rotate, the placing plate 6 is lifted and lowered, and the height of the paper stack relative to the conveying station 2 is adjusted.

As shown in fig. 4, the conveying station 2 includes two conveying rollers 14 rotatably connected to the frame 33, a conveying belt 15 sleeved outside the conveying rollers 14, and a first driving motor 16. The conveyor belt 15 is located on the side of the discharge end of the placing plate 6, and the conveyor belt 15 is tensioned by the conveyor roller 14. The two conveying rollers 14 are positioned on the same plane, so that the upper end surface of the conveying belt 15 sleeved outside the conveying rollers 14 is arranged along the horizontal direction. The first driving motor 16 is fixedly installed at the frame 33, and the first driving motor 16 is connected to one of the transfer rollers 14 by belt driving. The conveying roller 14 is driven to rotate by the first driving motor 16, so that the conveying belt 15 is driven to run, and the paper placed on the conveying station 2 can be conveyed to the waste cleaning machine.

As shown in fig. 5, the paper separation station 3 includes a paper separation roller 17 rotatably connected to the frame 33 and a third drive motor 18 for driving the paper separation roller 17 to rotate. The sheet-separating roller 17 is located on one side edge of the placing plate 6 and parallel to the side edge of the placing plate 6. The paper separating roller 17 is provided with a plurality of paper separating ribs 19 along the circumferential direction. The paper-separating ribs 19 are provided obliquely in the direction opposite to the direction of rotation of the paper-separating roller 17. The third drive motor 18 is fixedly mounted on the frame 33. An output shaft of the third drive motor 18 is connected to the sheet-separating roller 17 by belt drive.

When the sheet is placed on the placing plate 6, the sheet is brought into contact with the sheet separation roller 17. Before the slotting tool 23 is inserted between the paper sheets, the paper separating roller 17 can be driven to rotate by the first driving motor 16, and gaps are generated between the paper sheets by the paper separating convex ribs 19, so that the slotting tool station 4 can more conveniently layer the paper sheets.

As shown in fig. 6, the slotting cutter station 4 comprises a mounting seat 20, a connecting seat 21 slidably connected to the mounting seat 20 along the width direction of the conveying belt 15, a first driving cylinder 22 for driving the connecting seat 21 to slide relative to the mounting seat 20, a slotting cutter 23 slidably connected to the connecting seat 21 along the length direction of the conveying belt 15, and a second driving cylinder 24 for driving the slotting cutter 23 to move relative to the connecting seat 21. The mounting seat 20 is located above the conveying belt 15 and arranged along the width direction of the conveying belt 15. One side of the mounting seat 20 facing the lifting station is provided with a sliding groove 25 along the width direction of the transmission belt 15, and the connecting seat 21 is embedded in the sliding groove 25 and is slidably connected to the sliding groove 25. The first drive cylinder 22 is a rodless cylinder. The rod body of the first driving cylinder 22 is arranged along the length direction of the sliding groove 25 and is fixedly connected to the mounting base 20. The moving block of the first driving cylinder 22 is fixedly connected to the connecting base 21. So that the connecting seat 21 can be driven to slide in the sliding groove 25 by the first driving cylinder 22. The second driving cylinder 24 is arranged along the length direction of the transmission belt 15, and the cylinder body of the second driving cylinder 24 is fixedly arranged on the connecting seat 21. The slotting tool 23 is fixedly connected to the piston rod of the second drive cylinder 24.

In the initial state, the slotting blade 23 is positioned on the paper side. When the sheet is separated from the gap by the separation roller 17, the blade 23 moves toward the sheet and then is inserted into the sheet, thereby achieving the layering of the sheet.

As shown in fig. 6, the material clamping station 5 includes a clamping jaw air cylinder 26 mounted on the mounting base 20 and located at both sides of the conveying belt 15, a third driving cylinder 27 for driving the clamping jaw air cylinder 26 to slide relative to the mounting base 20 along the width direction of the conveying belt 15, and a second driving mechanism 28 for driving the mounting base 20 to slide relative to the frame 33 along the conveying direction of the conveying belt 15.

The second drive mechanism 28 includes a lead screw 29, a guide lever 30, and a fourth drive motor 31. The lead screw 29 and the guide bar 30 are both disposed along the length of the conveyor belt 15. The screw 29 passes through one end of the mounting base 20 and is screwed to the mounting base 20. The screw 29 is rotatably connected to the frame 33. The fourth driving motor 31 is fixedly installed at the frame 33, and an output end of the fourth driving motor 31 is connected to the lead screw 29 by belt transmission. The guide rod 30 passes through one end of the mounting base 20 far away from the screw 29 and is slidably connected to the mounting base 20. Both ends of the guide rod 30 are fixedly connected to the frame 33. When the fourth driving motor 31 drives the screw 29 to rotate, the mounting base 20 can be driven to move along the length direction of the conveyor belt 15. The gripper cylinder 26 is disposed along the width of the conveyor 15 and slidably attached to the mounting base 20. The jaw portions of the jaw cylinders 26 face the conveyor belt 15 center piece line. The third driving cylinder 27 is provided along the width direction of the conveyor belt 15, and the cylinder body of the third driving cylinder 27 is fixedly mounted on the mounting base 20. The piston rod of the third drive cylinder 27 is fixedly connected to the cylinder body of the gripper cylinder 26.

After the paper on the placing plate 6 is layered at the slotting cutter station 4, one of the clamping jaw air cylinders 26 is driven by the third driving cylinder 27 to move towards the paper, all the paper on the slotting cutter 23 enters the clamping jaws of the clamping jaw air cylinder 26, and then the paper on the slotting cutter 23 is clamped by the clamping jaw air cylinder 26. The first driving cylinder 22 drives the slotting tool 23 to move towards the other side of the clamped paper, so that a gap is formed on the other side of the paper, the other clamping jaw air cylinder 26 is driven by the third driving cylinder 27 to move towards the paper, all the paper on the slotting tool 23 enters the clamping jaws of the clamping jaw air cylinder 26, and then the paper on the slotting tool 23 is clamped through the clamping jaw air cylinder 26. The stack of sheets on the slotting cutter 23 is now clamped at both ends. The second drive mechanism 28 moves the mounting block 20 along the length of the transport belt 15, thereby drawing the stack of gripped sheets onto the transport belt 15. Thereby completing the feeding.

As shown in fig. 1, in order to place the sheet on the placing plate 6 at the same position every time, the discharge end of the placing plate 6 is provided with a flap 32 for blocking the sheet in the vertical direction. The baffle 32 is fixedly connected to the frame 33, and the upper end surface of the baffle 32 and the upper end surface of the transmission belt 15 are positioned on the same plane.

The device has the following specific working principle:

1. the placing plate 6 is driven to move to the lowest position by the first driving mechanism 7; the first driving cylinder 22 drives the connecting seat 21 to move along the width direction of the conveying belt 15, and then the second driving cylinder 24 drives the slotting tool 23 to move along the length direction of the conveying belt 15 until the slotting tool 23 moves to the position above one side of the placing plate 6;

2. placing the paper to be discarded on the placing plate 6, and enabling one side of the paper to abut against the baffle plate 32 and the other side of the paper to abut against the paper separating roller 17;

3. the first driving mechanism 7 drives the placing plate 6 to move upwards, so that the paper stack is lifted to a proper position, and the thickness of the upper paper stack corresponding to the slotting tool 23 is the thickness of the paper stack needing to be fed;

4. the third driving motor 18 drives the paper separating roller 17 to rotate, so that a gap is formed between the paper sheets of the paper stack;

5. the first driving cylinder 22 drives the connecting seat 21 to move along the width direction of the conveying belt 15 until the slotting tool 23 is inserted between the paper sheets;

6. one of the clamping jaw air cylinders 26 is driven by the third driving cylinder 27 to move towards the paper, all the paper on the slotting tool 23 enters the clamping jaws of the clamping jaw air cylinder 26, and then the paper above the slotting tool 23 is clamped by the clamping jaw air cylinder 26;

7. the first driving cylinder 22 drives the slotting tool 23 to move towards the other side of the clamped paper, so that a gap is formed on the other side of the paper, the other clamping jaw air cylinder 26 is driven by the third driving cylinder 27 to move towards the paper, all the paper on the slotting tool 23 enters the clamping jaws of the clamping jaw air cylinder 26, and then the paper above the slotting tool 23 is clamped through the clamping jaw air cylinder 26; at this time, both ends of a stack of paper on the slotting cutter 23 are clamped;

8. the second driving mechanism 28 drives the mounting seat 20 to move along the length direction of the conveying belt 15, so that the stack of clamped paper is dragged to the conveying belt 15, and feeding is completed;

9. if a next stack of paper needs to be sent, the placing plate 6 is only required to drive the paper above the placing plate to move upwards, then the paper position corresponding to the slotting tool 23 is appropriate, and the above steps are repeated to take a stack of paper with appropriate thickness and transport the stack of paper to the waste removing machine. The link of manual paper separation is reduced, and the production efficiency is improved.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A feed arrangement for clearing useless machine, includes frame (33), characterized by: the machine frame (33) is provided with the following stations,

the lifting station (1) is used for stacking paper and lifting the paper and comprises a placing plate (6) which is connected to a rack (33) in a sliding mode along the vertical direction and used for stacking the paper and a first driving mechanism (7) used for driving the placing plate (6) to move up and down along the vertical direction;

the conveying station (2) is used for conveying paper to the waste cleaning machine and comprises two conveying rollers (14) rotatably connected to a rack (33), a conveying belt (15) sleeved outside the conveying rollers (14) and a first driving motor (16) used for driving one of the conveying rollers (14) to rotate, wherein the conveying belt (15) is positioned on one side of the discharging end of the placing plate (6);

the slotting tool (23) station (4) used for inserting the paper to layer the paper comprises a mounting seat (20), a connecting seat (21) connected to the mounting seat (20) in a sliding mode along the width direction of a conveying belt (15), a first driving cylinder (22) used for driving the connecting seat (21) to slide relative to the mounting seat (20), a slotting tool (23) connected to the connecting seat (21) in a sliding mode along the length direction of the conveying belt (15) and a second driving cylinder (24) used for driving the slotting tool (23) to move relative to the connecting seat (21);

the clamping station (5) is used for clamping and conveying the layered paper in the station (4) of the slotting tool (23) to the conveying station (2), and comprises a clamping jaw cylinder (26) which is arranged on the mounting seat (20) and located on two sides of the conveying belt (15), a third driving cylinder (27) which is used for driving the clamping jaw cylinder (26) to slide relative to the mounting seat (20) along the width direction of the conveying belt (15), and a second driving mechanism (28) which is used for driving the mounting seat (20) to slide relative to the rack (33) along the conveying direction of the conveying belt (15).

2. A feeder apparatus for a waste disposer as set forth in claim 1, wherein: still including being used for pulling out branch paper station (3) of adjacent paper on lifting material station (1), including rotating branch paper roller (17) and the third driving motor (18) that is used for driving branch paper roller (17) pivoted that is connected in frame (33), divide paper roller (17) to be located and place board (6) one side and be on a parallel with this side of placing board (6), divide paper roller (17) to go up to be equipped with a plurality of branch paper bead (19) along its circumference.

3. A feeder apparatus for a waste disposer as set forth in claim 2, wherein: the paper separating convex edges (19) are obliquely arranged towards the direction opposite to the rotating direction of the paper separating roller (17).

4. A feeder apparatus for a waste disposer as set forth in claim 1, wherein: the two driving mechanisms are respectively connected to two sides of the placing plate (6).

5. A feeder apparatus for a waste disposer as set forth in claim 4, wherein: the first driving mechanism (7) comprises a first chain (8) fixedly connected to one end of the placing plate (6), a second chain (9) fixedly connected to the other end of the placing plate (6), a driving chain wheel (10) used for being meshed with the first chain (8) and the second chain (9), and a second driving motor (11) used for driving the driving chain wheel (10) to rotate, a guide chain wheel (13) used for guiding the first chain (8) and/or the second chain (9) is rotatably connected to the rack (33), the first chain (8) and the second chain (9) are connected to one end of the placing plate (6) and perpendicular to the placing plate (6), and balancing weights (12) used for keeping the first chain (8) and the second chain (9) tensioned are arranged at one ends, far away from the placing plate (6), of the first chain (8) and the second chain (9).

6. A feeder apparatus for a waste disposer as set forth in claim 5, wherein: second actuating mechanism (28) include along transmission band (15) length direction set up and bolted connection in lead screw (29) of mount pad (20), be used for driving lead screw (29) pivoted fourth driving motor (31) and set up and slide guide bar (30) of wearing to locate mount pad (20) along transmission band (15) length direction, lead screw (29) rotate connect in frame (33) and along axial fixed connection in frame (33), guide bar (30) fixed connection in frame (33).

7. A feeder apparatus for a waste disposer as set forth in claim 1, wherein: the discharge end of the placing plate (6) is provided with a baffle (32) used for blocking paper along the vertical direction, and the baffle (32) is fixedly connected to the rack (33), the upper end face of the baffle (32) and the upper end face of the conveying belt (15) are located on the same plane.

8. A feeder apparatus for a waste disposer as set forth in claim 7, wherein: baffle (32) are equipped with a plurality of and are the interval setting each other along transmission band (15) width direction.

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