CN112206894A - High-end waste material processing equipment of making - Google Patents

Abstract

For solving above-mentioned technical problem, a high-end waste material processing apparatus that makes, including shearing mechanism, power transmission, feeder, cut into the section through shearing mechanism to the material that the upper end got off then carry out subsequent collection or at the processing, power transmission provides the power of feed and cuts the size that makes power and the control of the range that can also change when cuting is cuted, feeder collects waste material or leftover bits then in discharging into functions such as shearing mechanism, its characterized in that: the power transmission device is fixedly arranged on the shearing device, the feeding device is fixedly arranged on the shearing device, and the feeding device is matched with the power transmission device.

Description

High-end waste material processing equipment of making

Technical Field

The invention relates to a raw material processing mechanism for manufacturing, in particular to high-end manufacturing waste treatment equipment.

Background

With the development of the development age of science and technology, high-end manufacturing becomes the mainstream processing direction of people, but certain waste or scraps may be generated in the processing process, and in order to reduce the waste of materials, the high-end manufacturing waste treatment equipment is invented.

Disclosure of Invention

The invention relates to a high-end manufacturing waste treatment device, in particular to a high-end manufacturing waste treatment device, which cuts materials from the upper end to the lower end into sections through a shearing device and then carries out subsequent collection or treatment, a power transmission device provides feeding power and shearing force and can also change the amplitude during shearing to control the shearing size, and the feeding device has the functions of collecting waste materials or scraps and then discharging the waste materials or scraps into the shearing device.

For solving above-mentioned technical problem, a high-end waste material processing apparatus that makes, including shearing mechanism, power transmission, feeder, cut into the section through shearing mechanism to the material that the upper end got off then carry out subsequent collection or at the processing, power transmission provides the power of feed and cuts the size that makes power and the control of the range that can also change when cuting is cuted, feeder collects waste material or leftover bits then in discharging into functions such as shearing mechanism, its characterized in that: the power transmission device is fixedly arranged on the shearing device, the feeding device is fixedly arranged on the shearing device, and the feeding device is matched with the power transmission device.

As a further optimization of the technical scheme, the shearing device of the high-end manufacturing waste treatment equipment comprises a shearing box, a fixed mounting plate, a feeding hole, a discharging hole, a driving shaft, a driven matching shaft, a transmission gear, a connecting plate, a driving knife, a transmission shaft, a first transmission gear ring, a first connecting plate and a driven knife, wherein the fixed mounting plate is fixedly arranged on the shearing box, the feeding hole is arranged on the shearing box, the discharging hole is arranged on the shearing box, the driving shaft is rotatably arranged on the shearing box, the driven matching shaft is arranged on the shearing box, the transmission gear is fixedly arranged on the driving shaft and the driven matching shaft, the connecting plate is fixedly arranged on the driving shaft and the driven matching shaft, the driving knife is fixedly arranged on the connecting plate, the transmission shaft is rotatably arranged on the shearing box, the first transmission gear is fixedly arranged on the transmission shaft, the transmission gear ring is rotatably installed on the shearing box, the first connecting plate is fixedly installed on the transmission gear ring, and the driven cutter is fixedly installed on the first connecting plate.

As a further optimization of the technical scheme, the power transmission device of the high-end manufacturing waste treatment equipment comprises a power output shaft, an output bevel gear, a transmission shaft II, a half bevel gear I, a half bevel gear II, an output belt wheel, a rotating disc, a connecting rod, a reciprocating rotating disc, an adjusting gear, a connecting column, a control disc, a fixed cylinder, a pull ring, a limiting ring, a spring II, a limiting hole, a transmission gear II, a rotating half-gear ring, a pushing column, a connecting column II, a moving semi-ring, a pushing column II, an upper end pushing plate, a pushing rod, a lower end pushing plate, a pushing rod II, a mounting shaft II and a reciprocating pushing plate, wherein the power output shaft is arranged on a matched motor, the output bevel gear is fixedly arranged on the power output shaft, the transmission shaft II is rotatably arranged on a fixed mounting plate, the half bevel gear I is fixedly arranged on the transmission shaft II, the half bevel gear, the output belt wheel is installed and fixed on the second transmission shaft, the rotating disc is installed and fixed on the second transmission shaft, the connecting rod is installed and fixed on the rotating disc, the reciprocating rotating disc is installed and fixed on the connecting rod, the adjusting gear is installed and fixed inside the reciprocating rotating disc, the connecting column is installed and fixed on the adjusting gear, the control disc is installed and fixed on the connecting column, the fixed cylinder is installed and fixed on the control disc, the pulling ring is installed and fixed on the limiting ring, the limiting ring is installed on the fixed cylinder in a sliding mode, the spring is sleeved on the pulling ring, the limiting hole is formed in the reciprocating rotating disc, the second transmission gear is installed and fixed inside the reciprocating rotating disc, the second transmission gear is respectively meshed with the adjusting gear and the rotating half-tooth ring, the rotating half-tooth ring is installed and fixed inside the reciprocating rotating disc in a sliding mode, the pushing column is installed and fixed on, the second pushing column is installed and fixed on the movable semi-ring, the upper pushing plate is installed on the second installation shaft in a rotating mode, the pushing column is installed on the upper pushing plate in a rotating mode, the pushing rod is installed and fixed on the upper pushing plate, the second pushing column is installed and installed on the lower pushing plate in a rotating mode, the second pushing rod is installed and fixed on the lower pushing plate, the second installation shaft is installed and fixed on the reciprocating rotating disc, and the reciprocating pushing plate is installed and fixed on the driving shaft.

As a further optimization of the technical scheme, the feeding device of the high-end manufacturing waste treatment equipment comprises a fixed square groove, a feeding nozzle, a third connecting rod, a driving connecting rod, a movable toothed plate, a third mounting seat, a third transmission shaft, a third receiving belt wheel, a transmission belt, a first bevel gear, a fourth transmission shaft and a straight-face conical-surface integrated gear, wherein the fixed square groove is fixedly arranged on a shearing box, the feeding nozzle is slidably arranged on the fixed square groove, the third connecting rod is fixedly arranged on the feeding nozzle, the third connecting rod is slidably arranged on the fixed square groove, the driving connecting rod is fixedly arranged on the feeding nozzle, the driving connecting rod is slidably arranged on the fixed square groove, the movable toothed plate is fixedly arranged on the driving connecting rod, the third mounting seat is fixedly arranged on the shearing box, the third transmission shaft is rotatably arranged on the third mounting seat, the third receiving belt wheel is fixedly arranged on the third transmission shaft, and the transmission, the first bevel gear is fixedly arranged on the third transmission shaft, the fourth transmission shaft is rotatably arranged on the third mounting seat, the straight-surface and conical-surface integrated gear is fixedly arranged on the fourth transmission shaft, and the straight-surface and conical-surface integrated gear is respectively meshed with the movable toothed plate and the first bevel gear.

As a further optimization of the technical scheme, the power output shaft of the power transmission device of the high-end manufacturing waste treatment equipment is provided with a matched motor and is arranged on the matched motor, and the number of the fixed cylinder, the limiting ring and the spring II is two.

The high-end manufacturing waste treatment equipment has the beneficial effects that:

the invention relates to high-end manufacturing waste treatment equipment, in particular to high-end manufacturing waste treatment equipment, which realizes the functions of cutting upper and lower materials into sections through a shearing device and then carrying out subsequent collection or treatment, wherein a power transmission device provides feeding power and shearing force to change the power and the shearing force during shearing, and can also change the amplitude during shearing to control the shearing size, and the feeding device collects the waste materials or scraps and then discharges the waste materials or scraps into the shearing device.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural diagram of the shearing device of the present invention.

Fig. 5 is a schematic structural diagram of a shearing device according to the present invention.

Fig. 6 is a third schematic structural diagram of the shearing device of the present invention.

Fig. 7 is a first structural schematic diagram of the power transmission device of the present invention.

Fig. 8 is a schematic structural diagram of a power transmission device of the present invention.

Fig. 9 is a third schematic structural diagram of the power transmission device of the present invention.

Fig. 10 is a fourth schematic structural view of the power transmission device of the present invention.

Fig. 11 is a schematic structural diagram of the power transmission device according to the present invention.

Fig. 12 is a first structural schematic diagram of the feeding device of the present invention.

Fig. 13 is a second structural schematic diagram of the feeding device of the present invention.

Fig. 14 is a third structural schematic diagram of the feeding device of the present invention.

In the figure: a shearing device 1; 1-1 of a shearing box; fixing the mounting plate 1-2; 1-3 of a feed inlet; 1-4 of a discharge port; 1-5 of a driving shaft; driven mating shafts 1-6; transmission gears 1-7; connecting plates 1-8; driving the knife by 1-9; 1-10 parts of a transmission shaft; a first transmission gear 1-11; 1-12 parts of a transmission gear ring; 1-13 of a connecting plate I; a driven blade 1-14; a power transmission device 2; a power output shaft 2-1; an output bevel gear 2-2; 2-3 of a second transmission shaft; 2-4 parts of a half bevel gear I; 2-5 parts of a second half bevel gear; an output belt wheel 2-6; 2-7 of a rotating disc; 2-8 of a connecting rod; 2-9 of reciprocating rotating disc; 2-10 parts of an adjusting gear; 2-11 of connecting columns; 2-12 of a control panel; 2-13 parts of a fixed cylinder; pulling the ring 2-14; 2-15 parts of a limiting ring; 2-16 parts of a second spring; 2-17 of a limiting hole; a second transmission gear 2-18; rotating the semi-toothed ring 2-19; 2-20 of a pushing column; 2-21 parts of a second connecting column; moving the half rings 2-22; pushing the second column 2-23; the upper end pushes the board 2-24; 2-25 of a push rod; a lower end push plate 2-26; 2-27 of a push rod II; mounting a second shaft 2-28; reciprocating push plates 2-29; a feeding device 3; 3-1 of a fixed square groove; 3-2 parts of a feeding nozzle; 3-3 of a connecting rod III; 3-4 of an active connecting rod; 3-5 of a movable toothed plate; mounting seats III 3-6; 3-7 parts of a transmission shaft III; receiving belt wheels III 3-8; 3-9 parts of a transmission belt; 3-10 parts of a first bevel gear; a transmission shaft IV is 3-11; straight-face conical-face integrated gears 3-12.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, a high-end manufacturing waste processing device, which includes a shearing device 1, a power transmission device 2, and a feeding device 3, and cuts the upper material into sections through the shearing device and then performs subsequent collection or processing, the power transmission device provides power and shearing force for feeding the materials and also can change the magnitude of the control shearing force of the amplitude during shearing, and the feeding device collects the waste materials or scraps and then discharges the waste materials or scraps into the shearing device, and the like, is characterized in that: the power transmission device 2 is fixedly arranged on the shearing device 1, the feeding device 3 is fixedly arranged on the shearing device 1, and the feeding device 3 is matched with the power transmission device 2. The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment is further described, wherein the shearing device 1 comprises a shearing box 1-1, a fixed mounting plate 1-2, a feed inlet 1-3, a discharge outlet 1-4, a driving shaft 1-5, a driven matching shaft 1-6, a transmission gear 1-7, a connecting plate 1-8, a driving blade 1-9, a transmission shaft 1-10, a transmission gear 1-11, a transmission toothed ring 1-12, a connecting plate 1-13 and a driven blade 1-14, then the driving shaft 1-5 drives the connecting plate 1-8 to rotate, the connecting plate 1-8 drives the driving blade 1-9 to rotate, and the driving shaft 1-5 drives the transmission gear 1-11 to drive the transmission toothed ring 1-12 through the transmission gear 1-7 The transmission gear ring 1-12 drives the connecting plate 1-13 to rotate, the connecting plate 1-13 drives the driven knife 1-14 to rotate, the driven knife 1-14 and the driving knife 1-9 rotate oppositely, the driven knife 1-14 and the driving knife 1-9 can cut twice in each cycle, if the cutting amplitude needs to be adjusted, the fixed mounting plate 1-2 is arranged and fixed on the shearing box 1-1, the feed inlet 1-3 is arranged on the shearing box 1-1, the discharge outlet 1-4 is arranged on the shearing box 1-1, the driving shaft 1-5 is rotatably arranged on the shearing box 1-1, the driven matching shaft 1-6 is arranged on the shearing box 1-1, the transmission gear 1-7 is arranged and fixed on the driving shaft 1-5 and the driven matching shaft 1-6, the connecting plate 1-8 is fixedly arranged on a driving shaft 1-5 and a driven matching shaft 1-6, the driving blade 1-9 is fixedly arranged on the connecting plate 1-8, a transmission shaft 1-10 is rotatably arranged on a shearing box 1-1, a transmission gear I1-11 is fixedly arranged on the transmission shaft 1-10, the transmission gear I1-11 is respectively meshed with a transmission gear 1-7 and a transmission gear ring 1-12, the transmission gear ring 1-12 is rotatably arranged on the shearing box 1-1, the connecting plate I1-13 is fixedly arranged on the transmission gear ring 1-12, and the driven blade 1-14 is fixedly arranged on the connecting plate I1-13.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment is further described, wherein the power transmission device 2 comprises a power output shaft 2-1, an output bevel gear 2-2, a transmission shaft two 2-3, a half bevel gear one 2-4, a half bevel gear two 2-5, an output belt wheel 2-6, a rotating disc 2-7, a connecting rod 2-8, a reciprocating rotating disc 2-9, an adjusting gear 2-10, a connecting column 2-11, a control disc 2-12, a fixed cylinder 2-13, a pulling ring 2-14, a limiting ring 2-15, a spring two 2-16, a limiting hole 2-17, a transmission gear two 2-18, a rotating half gear ring 2-19, a pushing column 2-20, Connecting a second connecting column 2-21, a moving semi-ring 2-22, a second pushing column 2-23, an upper pushing plate 2-24, a pushing rod 2-25, a lower pushing plate 2-26, a second pushing rod 2-27, a second mounting shaft 2-28 and a reciprocating pushing plate 2-29, firstly adding waste materials to be treated into a feeding nozzle 3-2 of a feeding device 3, then driving an output bevel gear 2-2 to rotate by a power output shaft 2-1 of a power transmission device 2, meshing a first reciprocating half bevel gear 2-4 of the output bevel gear 2-2 with a second reciprocating half bevel gear 2-5 to enable a second transmission shaft 2-3 to rotate in a reciprocating manner, driving the second transmission shaft 2-3 to drive an output belt wheel 2-6 and a rotating disc 2-7 to rotate in a reciprocating manner, and the power output shaft 2-1 is arranged on a matched motor, meanwhile, the rotating disc 2-7 drives the reciprocating rotating disc 2-9 to rotate through the connecting rod 2-8, the reciprocating rotating disc 2-9 pushes the reciprocating pushing plate 2-29 to swing in a reciprocating manner through the pushing rod 2-25 on the upper pushing plate 2-24 and the pushing rod 2-27 on the lower pushing plate 2-26, the pulling ring 2-14 is pulled outwards to drive the limiting ring 2-15 to move on the fixed cylinder 2-13 and compress the spring II 2-16, so that the pulling ring 2-14 is separated from the limiting hole 2-17, then the pulling ring 2-14 is rotated to drive the operating disc 2-12 to rotate, the operating disc 2-12 drives the adjusting gear 2-10 to rotate through the connecting column 2-11, the adjusting gear 2-10 drives the transmission gear II 2-18 to rotate, the transmission gear II 2-18 drives the rotating half-toothed ring 2-19 to rotate, the rotating half-toothed ring 2-19 drives the pushing column 2-20 to move, then the upper pushing plate 2-24 rotates around the mounting shaft II 2-28, meanwhile, the adjusting gear 2-10 drives the moving half ring 2-22 to move through the connecting shaft II 2-21, the moving half ring 2-22 drives the pushing column II 2-23 to move, the pushing column II 2-23 drives the lower pushing plate 2-26 to rotate around the mounting shaft II 2-28, the upper pushing plate 2-24 and the lower pushing plate 2-26 rotate oppositely and rotate at the same angle, and the angle of the reciprocating pushing plate 2-29 is changed, the reciprocating pushing plate 2-29 drives the driving shaft 1-5 to reciprocate, the output bevel gear 2-2 is mounted and fixed on the power output shaft 2-1, a second transmission shaft 2-3 is rotatably arranged on a fixed mounting plate 1-2, a first half cone gear 2-4 is fixedly arranged on a second transmission shaft 2-3, a second half cone gear 2-5 is fixedly arranged on a second transmission shaft 2-3, an output belt wheel 2-6 is fixedly arranged on the second transmission shaft 2-3, a rotating disc 2-7 is fixedly arranged on the second transmission shaft 2-3, a connecting rod 2-8 is fixedly arranged on a rotating disc 2-7, a reciprocating rotating disc 2-9 is fixedly arranged on the connecting rod 2-8, an adjusting gear 2-10 is rotatably arranged in the reciprocating rotating disc 2-9, a connecting column 2-11 is fixedly arranged on an adjusting gear 2-10, an operating disc 2-12 is fixedly arranged on the connecting column 2-11, and a fixed cylinder 2-13 is fixedly arranged on an operating disc 2-12, a pull ring 2-14 is fixedly arranged on a limit ring 2-15, the limit ring 2-15 is slidably arranged on a fixed cylinder 2-13, a spring II 2-16 is sleeved on the pull ring 2-14, a limit hole 2-17 is arranged on a reciprocating rotary disc 2-9, a transmission gear II 2-18 is rotatably arranged inside the reciprocating rotary disc 2-9, the transmission gear II 2-18 is respectively meshed with an adjusting gear 2-10 and a rotary semi-toothed ring 2-19, the rotary semi-toothed ring 2-19 is slidably arranged inside the reciprocating rotary disc 2-9, a push column 2-20 is fixedly arranged on the rotary semi-toothed ring 2-19, a connecting column II 2-21 is fixedly arranged on the adjusting gear 2-10, and a movable semi-ring 2-22 is fixedly arranged on the connecting column II 2-21, the second pushing column 2-23 is fixedly arranged on the movable half ring 2-22, the upper pushing plate 2-24 is rotatably arranged on the second mounting shaft 2-28, the second pushing column 2-20 is rotatably arranged on the upper pushing plate 2-24, the pushing rod 2-25 is fixedly arranged on the upper pushing plate 2-24, the second pushing column 2-23 is rotatably arranged on the lower pushing plate 2-26, the second pushing rod 2-27 is fixedly arranged on the lower pushing plate 2-26, the second mounting shaft 2-28 is fixedly arranged on the reciprocating rotating disc 2-9, and the reciprocating pushing plate 2-29 is fixedly arranged on the driving shaft 1-5.

The fourth concrete implementation mode:

the second embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the second embodiment is further described, where the feeding device 3 includes a fixed square groove 3-1, a feeding nozzle 3-2, a connecting rod three 3-3, a driving connecting rod 3-4, a moving toothed plate 3-5, a mounting seat three 3-6, a transmission shaft three 3-7, a receiving belt wheel three 3-8, a transmission belt 3-9, a bevel gear one 3-10, a transmission shaft four 3-11, and a straight-face and conical-face integrated gear 3-12, the output belt wheel 2-6 drives the receiving belt wheel three 3-8 to rotate back and forth through the transmission belt 3-9, the receiving belt wheel three 3-8 drives the transmission shaft three 3-7 to rotate, the transmission shaft three 3-7 drives the bevel gear one 3-10 to rotate, the bevel gear I3-10 drives the straight-surface conical-surface integrated gear 3-12 to rotate, the straight-surface conical-surface integrated gear 3-12 drives the movable toothed plate 3-5 to reciprocate, the movable toothed plate 3-5 can pull the feed nozzle 3-2 to reciprocate in the fixed square groove 3-1 through the driving connecting rod 3-4, so that materials in the feed nozzle 3-2 can be adjusted to leak into the shearing box 1-1 of the shearing device 1, the fixed square groove 3-1 is fixedly arranged on the shearing box 1-1, the feed nozzle 3-2 is slidably arranged on the fixed square groove 3-1, the connecting rod III 3-3 is fixedly arranged on the feed nozzle 3-2, the connecting rod III 3-3 is slidably arranged on the fixed square groove 3-1, the driving connecting rod 3-4 is fixedly arranged on the feed nozzle 3-2, the driving connecting rod 3-4 is slidably mounted on the fixed square groove 3-1, the movable toothed plate 3-5 is fixedly mounted on the driving connecting rod 3-4, the mounting seat III 3-6 is fixedly mounted on the shearing box 1-1, the transmission shaft III 3-7 is rotatably mounted on the mounting seat III 3-6, the receiving belt wheel III 3-8 is fixedly mounted on the transmission shaft III 3-7, the transmission belt 3-9 is mounted on the receiving belt wheel III 3-8 and the output belt wheel 2-6, the bevel gear I3-10 is fixedly mounted on the transmission shaft III 3-7, the transmission shaft IV 3-11 is rotatably mounted on the mounting seat III 3-6, the straight-plane conical-surface integrated gear 3-12 is fixedly mounted on the transmission shaft IV 3-11, and the straight-plane conical-surface integrated gear 3-12 is respectively meshed with the movable toothed plate 3-5 and the bevel gear I3-10.

The fifth concrete implementation mode:

the third embodiment is further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the power output shaft 2-1 of the power transmission device 2 is provided with a matching motor and is mounted thereon, and the number of the fixed cylinders 2-13, the limiting rings 2-15, and the springs 2-16 is two.

The working principle of the invention is as follows:

a high-end manufacturing waste treatment device has the working principle that before use, whether the connection condition between devices meets requirements is checked, waste to be treated is added into a feeding nozzle 3-2 of a feeding device 3, then a power output shaft 2-1 of a power transmission device 2 drives an output bevel gear 2-2 to rotate, a reciprocating half bevel gear I2-4 of the output bevel gear 2-2 is meshed with a half bevel gear II 2-5 to enable a transmission shaft II 2-3 to rotate in a reciprocating mode, the transmission shaft II 2-3 drives an output belt wheel 2-6 and a rotating disc 2-7 to rotate in a reciprocating mode, the output belt wheel 2-6 drives a receiving belt wheel III 3-8 to rotate in a reciprocating mode through a transmission belt 3-9, the receiving belt wheel III 3-8 drives the transmission shaft III 3-7 to rotate, the transmission shaft III 3-7 drives the bevel gear I3-10 to rotate, the bevel gear I3-10 drives the straight-surface conical-surface integrated gear 3-12 to rotate, the straight-surface conical-surface integrated gear 3-12 drives the movable toothed plate 3-5 to reciprocate, the movable toothed plate 3-5 can adjust the direction of materials in the feeding nozzle 3-2 to leak into a shearing box 1-1 of the shearing device 1 by driving the feeding nozzle 3-2 to reciprocate in the fixed square groove 3-1 through the driving connecting rod 3-4, meanwhile, the rotating disc 2-7 drives the reciprocating rotating disc 2-9 to rotate through the connecting rod 2-8, the reciprocating rotating disc 2-9 pushes the reciprocating push plate 2-29 to reciprocate through the push rod 2-25 and the push rod II 2-27 on the upper end push plate 2-24 and the lower end push plate 2-26, the reciprocating push plate 2-29 drives the driving shaft 1-5 to reciprocate, then the driving shaft 1-5 drives the connecting plate 1-8 to rotate, the connecting plate 1-8 drives the driving knife 1-9 to rotate, the driving shaft 1-5 drives the transmission gear 1-11 to drive the transmission gear ring 1-12 to rotate through the transmission gear 1-7, the transmission gear ring 1-12 drives the connecting plate 1-13 to rotate, the connecting plate 1-13 drives the driven knife 1-14 to rotate, and the driven knife 1-14 and the driving knife 1-9 are opposite to each other to rotate, the driven knife 1-14 and the driving knife 1-9 can cut twice in each cycle, if the cutting amplitude needs to be adjusted, the pulling ring 2-14 is firstly pulled outwards to drive the limiting ring 2-15 to move in the fixed cylinder 2-13 and compress the spring 2-16, so that the pulling ring 2-14 is separated from the limiting hole 2-17, then, the pull ring 2-14 is rotated, the pull ring 2-14 drives the operation control disc 2-12 to rotate, the operation control disc 2-12 drives the adjusting gear 2-10 to rotate through the connecting post 2-11, the adjusting gear 2-10 drives the transmission gear two 2-18 to rotate, the transmission gear two 2-18 drives the rotating half-gear ring 2-19 to rotate, the rotating half-gear ring 2-19 drives the push post 2-20 to move, then the upper end push plate 2-24 rotates around the mounting post two 2-28, simultaneously the adjusting gear 2-10 drives the moving half ring 2-22 to move through the connecting post two 2-21, the moving half ring 2-22 drives the push post two 2-23 to move, the push post two 2-23 drives the lower end push plate 2-26 to rotate around the mounting post two 2-28, and the upper end pushing plate 2-24 and the lower end pushing plate 2-26 are oppositely rotated and rotated at the same angle, and the swinging angle of the reciprocating pushing plate 2-29 is changed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a high-end waste material processing equipment of making, includes shearing mechanism (1), power transmission (2), feeder (3), its characterized in that: the power transmission device (2) is fixedly arranged on the shearing device (1), the feeding device (3) is fixedly arranged on the shearing device (1), and the feeding device (3) is matched with the power transmission device (2).

2. The high-end manufacturing waste disposal apparatus of claim 1, wherein: the shearing device (1) comprises a shearing box (1-1), a fixed mounting plate (1-2), a feeding port (1-3), a discharging port (1-4), a driving shaft (1-5), a driven matching shaft (1-6), a transmission gear (1-7), a connecting plate (1-8), a driving cutter (1-9), a transmission shaft (1-10), a transmission gear (1-11), a transmission gear ring (1-12), a connecting plate (1-13) and a driven cutter (1-14), wherein the fixed mounting plate (1-2) is fixedly arranged on the shearing box (1-1), the feeding port (1-3) is arranged on the shearing box (1-1), the discharging port (1-4) is arranged on the shearing box (1-1), the driving shaft (1-5) is rotatably arranged on the shearing box (1-1), a driven matching shaft (1-6) on a shearing box (1-1), a transmission gear (1-7) is fixedly arranged on a driving shaft (1-5) and a driven matching shaft (1-6), a connecting plate (1-8) is fixedly arranged on the driving shaft (1-5) and the driven matching shaft (1-6), a driving cutter (1-9) is fixedly arranged on the connecting plate (1-8), a transmission shaft (1-10) is rotatably arranged on the shearing box (1-1), a transmission gear (1-11) is fixedly arranged on the transmission shaft (1-10), the transmission gear (1-11) is respectively engaged with the transmission gear (1-7) and a transmission gear ring (1-12), the transmission gear ring (1-12) is rotatably arranged on the shearing box (1-1), the first connecting plate (1-13) is fixedly arranged on the transmission gear ring (1-12), and the driven knife (1-14) is fixedly arranged on the first connecting plate (1-13).

3. The high-end manufacturing waste disposal apparatus of claim 1, wherein: the power transmission device (2) comprises a power output shaft (2-1), an output bevel gear (2-2), a transmission shaft II (2-3), a half bevel gear I (2-4), a half bevel gear II (2-5), an output belt wheel (2-6), a rotating disc (2-7), a connecting rod (2-8), a reciprocating rotating disc (2-9), an adjusting gear (2-10), a connecting column (2-11), a control disc (2-12), a fixed cylinder (2-13), a pulling ring (2-14), a limiting ring (2-15), a spring II (2-16), a limiting hole (2-17), a transmission gear II (2-18), a rotating half gear ring (2-19), a pushing column (2-20), a connecting column II (2-21), The semi-cone driving mechanism comprises a movable semi-ring (2-22), a second pushing column (2-23), an upper pushing plate (2-24), a pushing rod (2-25), a lower pushing plate (2-26), a second pushing rod (2-27), a second mounting shaft (2-28) and a reciprocating pushing plate (2-29), wherein a power output shaft (2-1) is arranged on a matched motor, an output bevel gear (2-2) is fixedly arranged on the power output shaft (2-1), a second transmission shaft (2-3) is rotatably arranged on a fixed mounting plate (1-2), a first semi-cone tooth (2-4) is fixedly arranged on the second transmission shaft (2-3), a second semi-cone tooth (2-5) is fixedly arranged on the second transmission shaft (2-3), and an output belt wheel (2-6) is fixedly arranged on the second transmission shaft (2-3), a rotating disc (2-7) is fixedly arranged on a second transmission shaft (2-3), a connecting rod (2-8) is fixedly arranged on the rotating disc (2-7), a reciprocating rotating disc (2-9) is fixedly arranged on the connecting rod (2-8), an adjusting gear (2-10) is rotatably arranged in the reciprocating rotating disc (2-9), a connecting column (2-11) is fixedly arranged on the adjusting gear (2-10), a control disc (2-12) is fixedly arranged on the connecting column (2-11), a fixed cylinder (2-13) is fixedly arranged on the control disc (2-12), a pulling ring (2-14) is fixedly arranged on a limiting ring (2-15), the limiting ring (2-15) is slidably arranged on a fixed cylinder (2-13), a second spring (2-16) is sleeved on the pulling ring (2-14), the limiting holes (2-17) are arranged on the reciprocating rotating disc (2-9), the second transmission gears (2-18) are rotatably arranged inside the reciprocating rotating disc (2-9), the second transmission gears (2-18) are respectively meshed with the adjusting gears (2-10) and the rotating half-toothed rings (2-19), the rotating half-toothed rings (2-19) are slidably arranged inside the reciprocating rotating disc (2-9), the pushing columns (2-20) are fixedly arranged on the rotating half-toothed rings (2-19), the second connecting columns (2-21) are fixedly arranged on the adjusting gears (2-10), the moving half rings (2-22) are fixedly arranged on the second connecting columns (2-21), the second pushing column half rings (2-23) are fixedly arranged on the moving half rings (2-22), the upper end pushing plates (2-24) are rotatably arranged on the second mounting shafts (2-28), the pushing columns (2-20) are rotatably arranged on the upper end pushing plates (2-24), the pushing rods (2-25) are fixedly arranged on the upper end pushing plates (2-24), the pushing columns (2-23) are rotatably arranged on the lower end pushing plates (2-26), the pushing rods (2-27) are fixedly arranged on the lower end pushing plates (2-26), the mounting shafts (2-28) are fixedly arranged on the reciprocating rotating discs (2-9), and the reciprocating pushing plates (2-29) are fixedly arranged on the driving shafts (1-5).

4. The high-end manufacturing waste disposal apparatus of claim 1, wherein: the feeding device (3) comprises a fixed square groove (3-1), a feeding nozzle (3-2), a connecting rod III (3-3), a driving connecting rod (3-4), a movable toothed plate (3-5), a mounting seat III (3-6), a transmission shaft III (3-7), a receiving belt wheel III (3-8), a transmission belt (3-9), a bevel gear I (3-10), a transmission shaft IV (3-11) and a straight-face and conical-face integrated gear (3-12), the fixed square groove (3-1) is fixedly arranged on a shearing box (1-1), the feeding nozzle (3-2) is slidably arranged on the fixed square groove (3-1), the connecting rod III (3-3) is fixedly arranged on the feeding nozzle (3-2), the connecting rod III (3-3) is slidably arranged on the fixed square groove (3-1), a driving connecting rod (3-4) is fixedly installed on the feeding nozzle (3-2), the driving connecting rod (3-4) is slidably installed on a fixed square groove (3-1), a movable toothed plate (3-5) is fixedly installed on the driving connecting rod (3-4), a mounting seat III (3-6) is fixedly installed on the shearing box (1-1), a transmission shaft III (3-7) is rotatably installed on the mounting seat III (3-6), a receiving belt wheel III (3-8) is fixedly installed on the transmission shaft III (3-7), a transmission belt (3-9) is installed on the receiving belt wheel III (3-8) and an output belt wheel (2-6), a bevel gear I (3-10) is fixedly installed on the transmission shaft III (3-7), and a transmission shaft IV (3-11) is rotatably installed on the mounting seat III (3-6), the straight-face conical-face integrated gear (3-12) is fixedly arranged on the transmission shaft IV (3-11), and the straight-face conical-face integrated gear (3-12) is respectively meshed with the movable toothed plate (3-5) and the bevel gear I (3-10).

5. The high-end manufacturing waste disposal apparatus of claim 3, wherein: and a power output shaft (2-1) of the power transmission device (2) is provided with a matched motor and is arranged on the matched motor, and the number of the fixed cylinders (2-13), the number of the limiting rings (2-15) and the number of the springs (2-16) are two.

Images