CN112454747A

CN112454747A - Inferior gram force board processing waste recovery equipment

Info

Publication number: CN112454747A
Application number: CN202011177853.4A
Authority: CN
Inventors: 周祥; 周平桃
Original assignee: Longnan Xintao Acrylic Technology Co ltd
Current assignee: Longnan Xintao Acrylic Technology Co ltd
Priority date: 2020-10-29
Filing date: 2020-10-29
Publication date: 2021-03-09

Abstract

The invention relates to a recovery device, in particular to a recovery device for processing waste materials of acrylic plates. The technical problem how to design an inferior gram force board processing waste recycling equipment that can replace the manual work to cut the waste material, it is more laborsaving, and can make the waste material after the cutting drop to in the collection container. The utility model provides an inferior gram force board processing waste recovery equipment, including: the device comprises a base, wherein a support frame is fixedly connected to one side of the base; the loading frame is fixedly connected to one side, far away from the base, outside the supporting frame. According to the waste cutting machine, a proper amount of waste is poured into the material loading frame, the cutting mechanism is started, the cutting mechanism operates to drive the material conveying mechanism to operate, the material conveying mechanism operates to convey the waste in the material loading frame into the cutting mechanism, and the cutting mechanism operates to cut the waste.

Description

Inferior gram force board processing waste recovery equipment

Technical Field

The invention relates to a recovery device, in particular to a recovery device for processing waste materials of acrylic plates.

Background

In the course of working of ya keli board, a large amount of waste materials can appear, then need carry out recycle to the waste material, waste material recycle all need cut, convenient follow-up processing, at present, most all cut the back through the manual waste material of cutting through the people and retrieve, at first need the people to hand the cutter and to the continuous cutting of waste material, because the continuous cutter that waves of the needs of hand, time is long, and is more hard, and the waste material after the waste material cutting is accomplished, need the people to place the waste material after cutting in collecting container with the hand.

Therefore, a waste material processing and recycling device which can replace manual work to cut waste materials, is labor-saving and can enable the cut waste materials to fall into a collecting container is particularly needed to solve the problems in the prior art.

Disclosure of Invention

In order to overcome because the hand needs to wave the cutter constantly, the time is long, and is more hard, and the waste material cutting accomplishes the back, needs the hand to place the waste material after the cutting in collecting container shortcoming, the technical problem is: the utility model provides a can replace the manual work to cut the waste material, it is more laborsaving, and can make the waste material after the cutting drop to the inferior gram force board processing waste recycling equipment in the collection container.

The technical scheme is as follows: the utility model provides an inferior gram force board processing waste recovery equipment, including: the device comprises a base, wherein a support frame is fixedly connected to one side of the base; the charging frame is fixedly connected to one side, far away from the base, of the outer side of the supporting frame; the cutting mechanism is arranged between the loading frame and one side of the base and is used for cutting waste materials; and the material conveying mechanism is arranged in the material loading frame, is in contact fit with the cutting mechanism and is used for conveying the waste materials.

Further, the cutting mechanism includes: the shell is fixedly connected to one side, close to the outer side of the material loading frame of the material conveying mechanism, and communicated with the material loading frame; the hollow rotating shaft is rotatably connected between the circle center positions on the two sides of the shell in a penetrating manner; the large gear is fixedly sleeved on the periphery of one side outside the hollow rotating shaft and is in contact fit with the material conveying mechanism; the fixed cutters are fixedly connected to two sides outside the hollow rotating shaft at intervals and are positioned in the shell; the sliding shaft is slidably placed in the hollow rotating shaft; the cross rod is fixedly connected to the end part of the sliding shaft far away from the bull gear; the movable cutters are fixedly connected to two sides of the sliding shaft at intervals, and the tail ends of the movable cutters penetrate through the hollow rotating shaft; the servo motor is arranged on one side of the base close to the supporting frame; the first transmission assembly is connected to the end part of an output shaft of the servo motor and the periphery of one side of the hollow rotating shaft close to the large gear; the first spring is connected between the end part of the sliding shaft far away from the cross rod and one side in the hollow rotating shaft; and the lug plate is fixedly connected to the circle center of one side of the frame body, which is far away from the large gear, and is in contact fit with the cross rod.

Further, defeated material mechanism is including: the material conveying shaft is rotatably connected between two sides of the material loading frame close to the shell in a penetrating manner; the second gear is fixedly sleeved at one end of the conveying shaft; the first gear, the connection of first gear rotary type is close to the gear wheel one side outside the casing, its with the gear wheel with the meshing of second gear.

Further, still including pushing equipment, pushing equipment is including: the vertical plates are fixedly connected to two sides in the supporting frame facing the base; the rotating rod is rotatably connected between one sides of the two vertical plates in a penetrating manner; the second transmission assembly is connected between the circumferential direction of one side of the output shaft of the servo motor and the circumferential direction of one side of the rotating rod; the gear shaft is fixedly sleeved on the middle circumference of the rotating rod; the wedge block is fixedly connected to the middle of one side of the outer side of the charging frame, which faces the base and is close to the shell; the fixed rod is fixedly connected to one side of the shell, which is far away from the outer side of the loading frame; the movable plate is slidably sleeved on the fixed rod; the second spring is connected between one side of the movable plate facing the shell and one side of the charging frame, and is sleeved on the fixed rod; the double-groove block is slidably connected to one side of the movable plate far away from the fixed rod in a penetrating manner; the rack is fixedly connected to the end part, facing the shell, of the double-groove block, meshed with the gear shaft and matched with the wedge-shaped block; the limiting blocks are connected to two sides of the movable plate close to the double-groove block in a sliding mode in a penetrating mode, and one ends of the limiting blocks are in contact fit with the double-groove block; the third springs are connected between one side in the limiting block and one side of the movable plate at intervals, and the number of the third springs on each side is four; the L-shaped plate is fixedly connected to the middle part of one side of the base far away from the servo motor and is in contact fit with the double-groove block; the material pushing rods are fixedly connected to one side of the movable plate facing the shell at intervals and penetrate through the material loading frame.

Further, still including pushing mechanism, pushing mechanism includes: the frame body is fixedly connected to the middle of one side of the base far away from the L-shaped plate, and one side of the frame body is fixedly connected and communicated with the end part of the shell; the n-shaped plate is slidably connected to one side of the frame body close to the servo motor in a penetrating manner; the fourth spring is connected between one side outside the frame body and one side inside the n-shaped plate close to the servo motor; the wedge-shaped strip is rotatably connected to one side of the outer side of the n-shaped plate far away from the base and the shell; the special-shaped guide plate is fixedly connected to one side, facing the outer side of the shell, of the L-shaped plate; the die-returning block is slidably sleeved on the special-shaped guide plate and is in contact fit with the wedge-shaped strip; the guide shaft is rotatably connected between the two sides of the clip block and penetrates through the special-shaped guide plate; and the special-shaped fixing plate is fixedly connected to two sides of the rack far away from the double-groove block, and the inner end of the special-shaped fixing plate is in sliding fit with the square-shaped block.

Further, the method also comprises the following steps: the round block is fixedly connected to the end part of the fixing rod far away from the shell; the buffer block is slidably sleeved on the fixed rod and is in contact fit with the movable plate; and the fifth spring is connected between one side of the buffer block far away from the shell and one side of the round block and sleeved on the fixed rod.

Further, the method also comprises the following steps: the push rods are symmetrically and fixedly connected to one side of the outer side of the n-shaped plate far away from the servo motor; the apron, the connection of apron rotary type is in keeping away from servo motor one side outside the framework, its with the framework cooperation, just the apron still with the push rod cooperation.

Furthermore, the buffer block is made of rubber.

The beneficial effects are that:

1. through pouring appropriate amount of waste material into the material loading frame, start cutting mechanism, the operation of cutting mechanism drives defeated material mechanism and operates, and defeated material mechanism operates and carries the waste material in the material loading frame to cutting mechanism in, and cutting mechanism operates and then cuts the waste material, so, need not the continuous cutter of waving of people and cut the waste material, it is more laborsaving.

2. Through the effect of pushing equipment, can be continuous promote the waste material in the material loading frame and defeated material axle contact, so, can avoid the waste material card to be difficult to by the transport in the material loading frame.

3. Through pushing mechanism's effect, can push out after collecting the waste material after the cutting, so, can be so that the better quilt of waste material after the cutting is collected.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is an enlarged view of part B of the present invention.

Fig. 7 is an enlarged view of part C of the present invention.

Part names and serial numbers in the figure: 1_ base, 2_ support frame, 3_ loading frame, 4_ cutting mechanism, 41_ servo motor, 42_ first transmission component, 43_ hollow rotating shaft, 44_ big gear, 45_ shell, 46_ fixed cutter, 47_ cross bar, 48_ sliding shaft, 49_ lug plate, 410_ first spring, 411_ movable cutter, 5_ conveying mechanism, 51_ first gear, 52_ conveying shaft, 53_ second gear, 6_ pushing mechanism, 61_ L template, 62_ fixed rod, 63_ movable plate, 64_ second spring, 65_ pushing rod, 66_ rack, 67_ vertical plate, 68_ rotary rod, 69_ second transmission special-shaped component, 610_ wedge-shaped block, 611_ double-groove block, 612_ third spring, 613_ gear shaft, 614_ limiting block, 7_ pushing mechanism, 71_ frame body, 72_ n template, 73_ fourth spring, 74_ guide plate, 75_ fixed plate, 76_ wedge bar, 77_ clip, 78_ guide shaft, 8_ round, 9_ fifth spring, 10_ buffer, 11_ push rod, 12_ cover plate.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides an inferior gram force board processing waste recovery equipment, as shown in figure 1, figure 2, figure 3 and figure 5, including base 1, support frame 2, the frame of feeding 3, cutting mechanism 4 and defeated material mechanism, the rigid coupling has support frame 2 in the middle of the base 1 top right side, and 2 left surfaces rigid couplings of support frame have the frame of feeding 3, are equipped with cutting mechanism 4 between 3 outer left surface lower parts of frame of feeding and the base 1 top, are equipped with defeated material mechanism 5 between cutting mechanism 4 and the 3 left part lower sides of the frame of feeding.

The cutting mechanism 4 comprises a servo motor 41, a first transmission component 42, a hollow rotating shaft 43, a large gear 44, a shell 45, a fixed cutter 46, a cross rod 47, a sliding shaft 48, a convex block disc 49, a first spring 410 and a movable cutter 411, the lower part of the outer left side surface of the loading frame 3 is fixedly connected with the shell 45, the shell 45 is communicated with the inside of the loading frame 3, the right side of the upper part of the outer front side surface of the shell 45 is connected and matched with the material conveying mechanism 5, the hollow rotating shaft 43 is rotatably connected between the circle centers of the front side and the rear side of the shell 45 in a penetrating way, the large gear 44 is circumferentially fixedly connected with the outer front side of the hollow rotating shaft 43, the large gear 44 is contacted and matched with the material conveying mechanism 5, the sliding shaft 48 is arranged in the hollow rotating shaft 43 in a sliding way, the first spring 410 is connected between the front end of the sliding shaft 48 and the inner front side surface of the, the lug plate 49 is in contact fit with the cross rod 47, the servo motor 41 is installed in the middle of the top of the base 1, the first transmission assembly 42 is connected between the end part of an output shaft of the servo motor 41 and the circumferential front part of the outer side of the hollow rotating shaft 43 in the circumferential direction, the fixed cutters 46 are fixedly connected to the left side and the right side of the hollow rotating shaft 43 at uniform intervals, the movable cutters 411 are fixedly connected to the top and the bottom of the sliding shaft 48 at uniform intervals, and the movable cutters 411 penetrate through the hollow rotating shaft 43.

The material conveying mechanism 5 comprises a first gear 51, a material conveying shaft 52 and a second gear 53, the material conveying shaft 52 is rotatably connected between the lower sides of the left parts of the front side and the rear side of the loading frame 3 in a penetrating manner, the front end of the material conveying shaft 52 is fixedly connected with the second gear 53, the right side of the upper part of the outer front side surface of the shell 45 is rotatably connected with the first gear 51, and the first gear 51 is respectively meshed with the large gear 44 and the second gear 53.

At first, operating personnel pours a proper amount of waste material into the material loading frame 3, the waste material contacts with the material conveying mechanism 5, the cutting mechanism 4 is started, the cutting mechanism 4 operates to drive the material conveying mechanism 5 to operate, the material conveying mechanism 5 operates to drive the waste material in the material loading frame 3 to drop into the cutting mechanism 4, the cutting mechanism 4 operates to cut the waste material into fragments, the cut waste material drops to the ground from the cutting mechanism 4, and the operation is repeated, so that the waste material can be continuously cut, and the subsequent treatment of the waste material is facilitated. After the waste materials are cut, the cutting mechanism 4 is closed, the material conveying mechanism 5 stops operating, and the waste materials cut on the ground can be collected and processed.

When a proper amount of waste materials are poured into the material loading frame 3, the servo motor 41 is started to rotate reversely, the servo motor 41 drives the first transmission component 42 to rotate reversely, the first transmission component 42 drives the hollow rotating shaft 43 to rotate reversely, the hollow rotating shaft 43 drives the large gear 44 to rotate reversely, the large gear 44 drives the material conveying mechanism 5 to operate reversely, the material conveying mechanism 5 operates to convey the waste materials in the material loading frame 3 into the shell 45, meanwhile, the hollow rotating shaft 43 also drives the fixed cutter 46 and the sliding shaft 48 to rotate reversely, the sliding shaft 48 drives the movable cutter 411 to rotate reversely, the movable cutter 411 and the fixed cutter 46 rotate reversely to cut the waste materials, the cut waste materials fall out of the shell 45, the sliding shaft 48 also drives the cross rod 47 to rotate reversely, the cross rod 47 rotates reversely and moves back and forth through the lug disc 49 due to the action of the first spring 410, the cross rod 47 moves back and forth through the sliding shaft 48 to drive the movable, the movable cutter 411 moves back and forth to cut the waste more completely. When the waste materials are cut, the servo motor 41 is turned off, the first transmission assembly 42 stops rotating reversely, the fixed cutter 46 and the movable cutter 411 also stop rotating reversely, and the large gear 44 also stops driving the material conveying mechanism 5 to operate.

When the waste is poured into the loading frame 3, the waste contacts the conveying shaft 52, and further when the servo motor 41 is started, the large gear 44 rotates reversely to drive the first gear 51 to rotate forward, the first gear 51 rotates forward to drive the second gear 53 to rotate backward, the second gear 53 rotates backward to drive the waste to be conveyed into the shell 45, and the fixed cutter 46 and the movable cutter 411 cut the waste. When the waste materials are cut, the servo motor 41 is turned off, the large gear 44 stops driving the first gear 51 to rotate forward, and the conveying shaft 52 stops rotating backward.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2, 3, 4, 6 and 7, the material pushing device 6 is further included, the material pushing device 6 includes an L-shaped plate 61, a fixed rod 62, a movable plate 63, a second spring 64, a material pushing rod 65, a rack 66, a vertical plate 67, a rotating rod 68, a second transmission assembly 69, a wedge block 610, a double-groove block 611, a third spring 612, a gear shaft 613 and a limited block 614, the fixed rod 62 is fixedly connected to the middle of the lower portion of the outer right side of the charging frame 3, the movable plate 63 is slidably disposed on the fixed rod 62, the second spring 64 is connected between the upper portion of the left side of the movable plate 63 and the lower portion of the outer right side of the charging frame 3, the second spring 64 is sleeved on the fixed rod 62, the material pushing rods 65 are fixedly connected to the upper and lower portions of the upper and lower sides of the left side of the movable plate 63 at even intervals, the left end of the material pushing rod 65 is slidably fitted through the lower, a rack 66 is fixedly connected at the left end of the double-groove block 611, a limiting block 614 is slidably connected at the lower parts of the front side and the rear side of the movable plate 63 in a penetrating manner, the inner end of the limiting block 614 is in contact fit with the double-groove block 611, four third springs 612 are uniformly connected between the front side surface in the front side limiting block 614 and the front side surface of the movable plate 63 at intervals, four third springs 612 are also uniformly connected between the rear side surface in the rear side limiting block 614 and the rear side surface of the movable plate 63 at intervals, an L-shaped plate 61 is fixedly connected at the middle of the right side of the top of the base 1, the left end of the L-shaped plate 61 is in contact fit with the right end of the double-groove block 611, risers 67 are fixedly connected at the left parts of the front side and the rear side of the top of the support frame 2, a rotating rod 68 is rotatably connected between the lower parts of the front side and the rear side risers 67 in a, a wedge block 610 is fixedly connected to the middle of the left side of the outer bottom of the charging frame 3, and the wedge block 610 is matched with the rack 66.

The pushing mechanism 7 comprises a frame body 71, an n-shaped plate 72, a fourth spring 73, a special-shaped guide plate 74, a special-shaped fixed plate 75, a wedge-shaped strip 76, a square-shaped block 77 and a guide shaft 78, the special-shaped guide plate 74 is fixedly connected in the middle of the lower portion of the outer right side surface of the shell 45, the square-shaped guide plate 74 is slidably sleeved on the special-shaped guide plate 74, the guide shaft 78 is rotatably connected between the upper left sides of the front side and the rear side of the square-shaped block 77, the guide shaft 78 penetrates through the special-shaped guide plate 74 to be in sliding fit with the guide shaft, the special-shaped fixed plate 75 is fixedly connected on the left sides of the front side and the rear side of the rack 66, the inner ends of the front side and the rear side of the special-shaped fixed plate 75 are respectively in sliding fit with the upper portions of the front side and the rear side of the square-shaped block 77, the frame body 71 is fixedly connected and communicated with the bottom end of, the middle of the right side of the outer top of the n-shaped plate 72 is rotatably connected with a wedge-shaped strip 76, a torsion spring is arranged between the wedge-shaped strip 76 and the n-shaped plate 72, and the wedge-shaped strip 76 is in contact fit with a return block 77.

When the servo motor 41 starts to rotate reversely, the servo motor 41 also drives the second transmission assembly 69 to rotate reversely, the second transmission assembly 69 rotates reversely to drive the rotary rod 68 to rotate reversely, the rotary rod 68 rotates reversely to drive the gear shaft 613 to rotate reversely, the gear shaft 613 rotates reversely to drive the rack 66 to move leftwards, the rack 66 moves leftwards to drive the double-groove block 611 to move leftwards, the double-groove block 611 moves leftwards to be separated from the L-shaped plate 61, meanwhile, the double-groove block 611 moves leftwards to drive the movable plate 63 to move leftwards, the second spring 64 is compressed, the movable plate 63 moves leftwards to drive the limiting block 614 to move leftwards, the movable plate 63 also drives the material pushing rod 65 to move leftwards, the material pushing rod 65 moves leftwards to push the waste material in the material loading frame 3 to move leftwards to be contacted with the material conveying shaft 52 to be conveyed, when the rack 66 moves leftwards to be contacted with the wedge block 610, the wedge block 610, the rack 66 moves above the limit block 614, the limit block 614 can prevent the rack 66 from moving downwards, when the rack 66 moves upwards to be disengaged from the gear shaft 613, the movable plate 63 moves rightwards to drive the material pushing rod 65 to move rightwards and reset due to the action of the second spring 64, and simultaneously, the movable plate 63 moves rightwards to drive the double-groove block 611 to move rightwards, the double-groove block 611 moves rightwards to drive the rack 66 to move rightwards, the rack 66 moves rightwards to be disengaged from the wedge block 610, when the double-groove block 611 moves rightwards to reset to be in contact with the end part of the L-shaped plate 61, the L-shaped plate 61 enables the double-groove block 611 to move downwards, due to the action of the third spring 612, the double-groove block 611 moves downwards to slide over the limit block 614, the double-groove block 611 moves to the lower part of the limit block 614, the limit block 614 can prevent the double-groove block 611 from moving upwards, at the moment, the rack 66 is meshed with, the waste material card can be prevented from being difficult to be conveyed in the loading frame 3.

Firstly, a collection container is placed at the lower left of a frame body 71, when cut waste materials fall from a shell 45, the waste materials fall into the frame body 71, then when a rack 66 moves leftwards, the rack 66 also drives a special-shaped fixing plate 75 to move leftwards, the special-shaped fixing plate 75 moves leftwards to drive a shaping block 77 to move leftwards, the shaping block 77 moves leftwards to drive a guide shaft 78 to slide in a special-shaped guide plate 74, meanwhile, the shaping block 77 also drives a wedge-shaped strip 76 to move leftwards, the wedge-shaped strip 76 moves leftwards to drive an n-shaped plate 72 to move leftwards, a fourth spring 73 is compressed, the n-shaped plate 72 moves leftwards to push out the waste materials in the frame body 71, when the guide shaft 78 moves leftwards to the left part of the special-shaped guide plate 74, the special-shaped guide plate 74 enables the guide shaft 78 to move upwards, the guide shaft 78 moves upwards to drive the shaping block 77 to move upwards, and the shaping block 77, when the n-shaped plate 72 moves rightwards to drive the wedge-shaped strip 76 to move rightwards for resetting, when the rack 66 moves rightwards, the rack 66 drives the return block 77 to move rightwards for resetting through the special-shaped fixing plate 75, the guide shaft 78 also moves rightwards for resetting, the special-shaped guide plate 74 drives the guide shaft 78 to move downwards for resetting, and the return block 77 passes over the wedge-shaped strip 76 under the action of the torsion spring. When the rack 66 stops moving, the profile fixing plate 75 also stops moving. Thus, the cut waste can be better collected.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 2, the device further includes a circular block 8, a fifth spring 9 and a buffer block 10, the circular block 8 is fixedly connected to the right end of the fixed rod 62, the fifth spring 9 is fixedly connected to the left side surface of the circular block 8, the buffer block 10 is fixedly connected to the tail end of the fifth spring 9, the buffer block 10 is sleeved on the fixed rod 62, and the buffer block 10 is in contact fit with the movable plate 63.

The n-shaped plate 72 is fixedly connected with the push rod 11 at the front side and the rear side of the middle part of the outer left side surface of the n-shaped plate 11, the cover plate 12 is rotatably connected with the upper part of the left side of the frame body 71, and the cover plate 12 is matched with the frame body 71.

When the movable plate 63 moves rightwards to reset, the movable plate 63 contacts the buffer block 10, and the buffer block 10 buffers the movable plate 63 due to the action of the fifth spring 9. Therefore, the situation that the force for moving the movable plate 63 rightwards is too large to separate from the fixed rod 62 to affect the subsequent use can be avoided.

When the n-shaped plate 72 moves leftwards to push the waste in the frame body 71 to move leftwards, the n-shaped plate 72 moves leftwards to drive the push rod 11 to move leftwards, the push rod 11 moves leftwards to drive the cover plate 12 to swing leftwards, the cover plate 12 swings leftwards to not block the interior of the frame body 71, the n-shaped plate 72 pushes out the waste in the frame body 71, when the n-shaped plate 72 moves rightwards to reset, the n-shaped plate 72 drives the push rod 11 to move rightwards to reset, the cover plate 12 swings downwards to reset due to the action of gravity, and then when the cut waste falls into the frame body 71 again, the waste is. When the n-shaped plate 72 stops moving, the push rod 11 also stops moving. In this way, the waste after partial cutting can be prevented from falling out of the frame 71.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an inferior gram force board processing waste recovery equipment which characterized in that, including:

the device comprises a base (1), wherein a support frame (2) is fixedly connected to one side of the base (1);

the loading frame (3), the loading frame (3) is fixedly connected to one side of the outer side of the supporting frame (2) far away from the base (1);

the cutting mechanism (4) is arranged between the loading frame (3) and one side of the base (1) and is used for cutting waste materials;

and the material conveying mechanism (5) is arranged in the material loading frame (3), is in contact fit with the cutting mechanism (4) and is used for conveying the waste materials.

2. The recycling apparatus for acrylic plate processing waste material as claimed in claim 1, wherein the cutting mechanism (4) comprises:

the shell (45), the said shell (45) is affixed to and communicated with the outside one side of the said loading frame (3) close to the said conveying mechanism (5);

the hollow rotating shaft (43) is rotatably connected between the circle centers of the two sides of the shell (45) in a penetrating manner;

the large gear (44) is fixedly sleeved on the periphery of one outer side of the hollow rotating shaft (43) and is in contact fit with the material conveying mechanism (5);

the fixed cutters (46), the fixed cutters (46) are fixedly connected to two outer sides of the hollow rotating shaft (43) at intervals, and are positioned in the shell (45);

the sliding shaft (48), the sliding shaft (48) is slidably placed in the hollow rotating shaft (43);

the cross rod (47), the cross rod (47) is fixedly connected to the end part of the sliding shaft (48) far away from the big gear (44);

the movable cutters (411) are fixedly connected to two sides of the sliding shaft (48) at intervals, and the tail ends of the movable cutters (411) penetrate through the hollow rotating shaft (43);

the servo motor (41), the said servo motor (41) is mounted to the said base (1) side close to the said supporting arm (2);

the first transmission assembly (42) is connected to the end part of an output shaft of the servo motor (41) and the periphery of one side of the outer side of the hollow rotating shaft (43) close to the large gear (44);

a first spring (410), wherein the first spring (410) is connected between the end part of the sliding shaft (48) far away from the cross rod (47) and the inner side of the hollow rotating shaft (43);

the lug plate (49) is fixedly connected to the circle center position of one side of the outer side of the frame body (71) far away from the large gear (44), and is in contact fit with the cross rod (47).

3. The apparatus for recycling acrylic plate processing waste as claimed in claim 2, wherein the feeding mechanism (5) comprises:

the material conveying shaft (52) is rotatably connected between the two sides of the material loading frame (3) close to the shell (45) in a penetrating manner;

the second gear (53), the said second gear (53) is fixed to fit one end among said conveying shaft (52);

a first gear (51), wherein the first gear (51) is rotatably connected to the outer side of the shell (45) close to the large gear (44), and is meshed with the large gear (44) and the second gear (53).

4. The recycling apparatus for acrylic plate processing waste material according to claim 3, further comprising a material pushing mechanism (6), wherein the material pushing mechanism (6) comprises:

the vertical plates (67), the vertical plates (67) are fixedly connected to two sides in the supporting frame (2) facing the base (1);

the rotating rod (68) is rotatably connected between one sides of the two vertical plates (67) in a penetrating mode;

the second transmission assembly (69) is connected between the circumferential direction of one side of the output shaft of the servo motor (41) and the circumferential direction of one side of the rotating rod (68);

the gear shaft (613), the said gear shaft (613) is fixed and fitted to the middle circumference of the said rotating rod (68);

the wedge block (610) is fixedly connected to the middle of one side of the outer side of the charging frame (3) which faces the base (1) and is close to the shell (45);

the fixing rod (62), the said fixing rod (62) is affixed to the outside of the said charging frame (3) far away from the said body (45);

the movable plate (63), the movable plate (63) is slidably sleeved on the fixed rod (62);

the second spring (64), the said second spring (64) is connected to the side of the said movable plate (63) facing the said body (45) and outside one side of the said charging frame (3), it is fitted on the said dead lever (62);

the double-groove block (611), the double-groove block (611) is slidably connected to one side of the movable plate (63) far away from the fixed rod (62);

a rack (66), said rack (66) being affixed to the end of said double channel block (611) facing said housing (45), engaging with said gear shaft (613), and said rack (66) also cooperating with said wedge block (610);

the limiting block (614) is slidably connected to two sides of the movable plate (63) close to the double-groove block (611) in a penetrating manner, and one end of the limiting block (614) is in contact fit with the double-groove block (611);

the third springs (612) are connected between one side inside the limiting block (614) and one side of the movable plate (63) at intervals, and the number of the third springs (612) on each side is four;

the L-shaped plate (61), the L-shaped plate (61) is fixedly connected to the middle of one side of the base (1) far away from the servo motor (41), and the L-shaped plate is in contact fit with the double-groove block (611);

the material pushing rods (65), the material pushing rods (65) are fixedly connected to one side of the movable plate (63) facing the shell (45) at intervals, and penetrate through the material loading frame (3).

5. The acrylic plate processing waste recycling device according to claim 4, further comprising a pushing mechanism (7), wherein the pushing mechanism (7) comprises:

the frame body (71), the frame body (71) is fixedly connected to the middle part of one side of the base (1) far away from the L-shaped plate (61), and one side of the frame body is fixedly connected and communicated with the end part of the shell (45);

the n-shaped plate (72) is slidably penetrated and connected to one side of the frame body (71) close to the servo motor (41);

the fourth spring (73), the said fourth spring (73) is connected to the outside of the said frame (71) and close to the said servo motor (41) the inside of the said n-type board (72);

the wedge-shaped strip (76) is rotatably connected to the outer side of the n-shaped plate (72) far away from the base (1) and the shell (45);

the special-shaped guide plate (74), the special-shaped guide plate (74) is fixedly connected to one side of the shell (45) facing the L-shaped plate (61);

the die-returning block (77) is slidably sleeved on the special-shaped guide plate (74) and is in contact fit with the wedge-shaped strip (76);

a guide shaft (78), wherein the guide shaft (78) is rotatably connected between two sides of the die-back block (77) and penetrates through the special-shaped guide plate (74);

the special-shaped fixing plate (75) is fixedly connected to two sides of the rack (66) far away from the double-groove block (611), and the inner end of the special-shaped fixing plate (75) is in sliding fit with the profiling block (77).

6. The apparatus for recycling acrylic plate processing waste according to claim 5, further comprising:

a circular block (8), wherein the circular block (8) is fixedly connected to the end part of the fixing rod (62) far away from the shell (45);

the buffer block (10), the buffer block (10) is slidably sleeved on the fixed rod (62), and the buffer block is in contact fit with the movable plate (63);

and the fifth spring (9), the fifth spring (9) is connected between one side of the buffer block (10) far away from the shell (45) and one side of the round block (8), and the fifth spring (9) is sleeved on the fixing rod (62).

7. The apparatus for recycling acrylic plate processing waste according to claim 6, further comprising:

the push rod (11), the push rod (11) is symmetrically and fixedly connected to one side of the outside of the n-shaped plate (72) far away from the servo motor (41);

apron (12), be connected in keeping away from of apron (12) rotary type servo motor (41) outside one side of framework (71), its with framework (71) cooperation, just apron (12) still with push rod (11) cooperation.

8. The recycling apparatus for acrylic plate processing waste as claimed in claim 7, wherein said buffer block (10) is made of rubber.