CN113349969B - False tooth recovery plant - Google Patents

Abstract

The invention relates to the field of oral cavity, in particular to denture recycling equipment, wherein a plurality of recyclable materials and bacteria are contained in waste dentures, the discarded dentures are discarded at will, the resources are wasted and the environment is polluted.

Description

False tooth recovery plant

Technical Field

The invention relates to the field of oral cavities, in particular to denture recovery equipment.

Background

The discarded false teeth contain a plurality of materials which can be recycled and contain bacteria, and the discarded false teeth are discarded at will, waste resources and pollute the environment.

Disclosure of Invention

The invention aims to provide denture recycling equipment which can automatically complete denture recycling.

The purpose of the invention is realized by the following technical scheme:

a denture recovery device comprises a brushing combination body, a swinging combination body, a cutting and grinding combination body and a separating combination body, wherein the brushing combination body is connected with the swinging combination body, the swinging combination body is connected with the cutting and grinding combination body, and the cutting and grinding combination body is connected with the separating combination body.

As a further optimization of the technical scheme, the brushing assembly comprises a brushing box, a brushing bottom plate, a chute, a drainage plate, an inclined plate, a rocking handle, a worm support, a worm wheel shaft, a gear, a worm wheel shaft support, a rack lifting door, a brushing gear shaft, a brush roll, a waste water box and a waste water outlet, wherein the brushing box is connected with the brushing bottom plate, the chute is positioned at two sides of the brushing bottom plate, the drainage plate is connected with the brushing box, the drainage plate is connected with the inclined plate, the rocking handle is connected with the worm, the worm is rotatably connected with the worm support, the worm support is meshed with the worm wheel, the worm support is connected with the brushing box, the worm wheel is connected with the worm wheel shaft support, the worm wheel shaft is connected with the brushing box, the worm wheel shaft is connected with the gear, the gear is meshed with the rack lifting door, the rack lifting door is connected with the brushing box in a sliding manner, the lower end of the rack lifting door is provided with a sealing rubber pad, the scrubbing gear is connected with a scrubbing gear shaft, the scrubbing gear shaft is rotatably connected with a scrubbing box, the scrubbing gear shaft is connected with a brush roll, the brush roll is provided with a brush, the waste water box is positioned below a drain plate, the waste water box is connected with the drain plate and the scrubbing box, and the waste water box is connected with a waste water outlet.

As a further optimization of the technical scheme, the swing assembly comprises a swing bottom plate, a first motor support, a first motor, a first disc, a connecting rod, a swing frame, a rack, a limiting connecting rod and a spring, wherein the swing bottom plate is connected with the first motor support, the first motor support is connected with the first motor, the first motor is connected with the first disc, the disc is hinged with the connecting rod, the connecting rod is hinged with the swing frame, the swing frame is connected with the rack, the rack is meshed with a brushing gear, the swing frame and the rack are both connected with a sliding groove in a sliding mode, a gap is formed between the swing frame and the sliding rail of the rack in the vertical direction, two ends of the limiting connecting rod are respectively hinged with the brushing bottom plate and the swing bottom plate, and two ends of the spring are respectively connected with the brushing bottom plate and the swing bottom plate.

As a further optimization of the technical scheme, the cutting and grinding combination body comprises a hopper, a cutting chamber, a motor II support, a motor II, a cutting roller, a saw blade, a partition plate, a discharge port, a push rod, a push plate, a sliding ball, a threaded chute rod, a limiting block, a squeezing chamber, a crushing hammer and a discharge gap, wherein the hopper is connected with the cutting chamber, the cutting chamber is connected with a swinging bottom plate, the cutting chamber is connected with the motor II support, the motor II support is connected with the motor II, the motor II is connected with the cutting roller, the cutting roller is rotatably connected with the cutting chamber, the cutting roller is connected with the saw blade, the partition plate is connected with the cutting chamber, the discharge port is positioned in the cutting chamber, two ends of the push rod are respectively rotatably connected with the swinging frame and the push plate, the push plate is in clearance fit with the threaded chute rod, the push plate is connected with the sliding ball, the sliding ball is slidably connected with the threaded chute rod, and the limiting block, the extrusion chamber is connected with the shredding chamber, the thread chute rod is connected with the extrusion chamber in a sliding way, the thread chute rod is connected with the crushing hammer, and two ends of the extrusion chamber are provided with discharge gaps.

As a further optimization of the technical scheme, the separating assembly comprises two belt wheels I, shafts of the belt wheels I, a conveying support, a magnetic belt, a scraper and conveying rollers, wherein a motor II is connected with the two belt wheels I, one belt wheel I is connected with the shafts of the belt wheels I, the conveying support is connected with a shredding chamber, the shafts of the belt wheels I are connected with the conveying rollers, the two conveying rollers are rotatably connected with the conveying support, the two conveying rollers are connected through the magnetic belt, the magnetic belt is magnetic, the scraper is connected with the conveying support, and the scraper is in contact with the magnetic belt.

The denture recovery equipment has the beneficial effects that: the denture is placed in the brushing combination body, the brushing combination body brushes and disinfects the surface of the denture, vibration is generated during brushing to enable the disinfection effect to be better, after disinfection, the rack lifting door is opened to separate the denture from residue disinfectant, the denture enters the cutting and grinding combination body to be cut and ground, metal cannot be ground, and then the metal is separated by the separating combination body to separate and collect powder and metal.

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 first schematic structural view of a brushing assembly 1 of the present invention;

FIG. 3 is an enlarged view of the first embodiment of the brushing assembly 1 of the present invention;

FIG. 4 is a second schematic structural view of the brushing assembly 1 of the present invention;

FIG. 5 is an enlarged view of the second embodiment of the brushing assembly 1 of the present invention;

fig. 6 is a schematic view of the structure of the oscillating assembly 2 of the invention;

fig. 7 is an exploded view of the swing assembly 2 of the present invention;

figure 8 is a schematic view of the first embodiment of the cutting and grinding assembly 3 of the present invention;

figure 9 is a second schematic view of the cutting and grinding assembly 3 of the present invention;

figure 10 is a third schematic view of the cutting and grinding assembly 3 of the present invention;

figure 11 is a fourth schematic view of the cutting and grinding assembly 3 of the present invention;

figure 12 is a schematic diagram five of the cutting and grinding assembly 3 of the present invention;

figure 13 is a six schematic structural view of the cutting and grinding assembly 3 of the present invention;

FIG. 14 is a schematic view of the structure of the separation assembly 4 of the present invention;

FIG. 15 is a sectional view of the separating assembly 4 according to the present invention;

in the figure: a brushing assembly 1; 1-1 of a brushing box; brushing the bottom plate 1-2; 1-3 of a chute; 1-4 parts of a drainage plate; 1-5 of an inclined plate; 1-6 of a rocking handle; 1-7 parts of worm; 1-8 parts of a worm support; worm gears 1-9; 1-10 parts of a worm wheel shaft; gears 1-11; worm gear shaft supports 1-12; 1-13 of a rack lifting door; brushing gears 1-14; brushing gear shafts 1-15; 1-16 parts of a brush roll; 1-17 of a waste water tank; 1-18 parts of waste water outlet; a swing assembly 2; a swing base plate 2-1; a bracket 2-2 of a motor I; 2-3 of a motor I; 2-4 of a disc; 2-5 of a connecting rod; 2-6 of a swing frame; 2-7 of racks; 2-8 of a limiting connecting rod; 2-9 parts of a spring; cutting off the grinding assembly 3; a hopper 3-1; a shredding chamber 3-2; 3-3 of a bracket of a motor II; 3-4 of a motor; 3-5 parts of a cutting roller; 3-6 parts of saw blade; 3-7 of a partition board; 3-8 of a discharge port; 3-9 parts of a push rod; 3-10 parts of a push plate; 3-11 parts of sliding ball; 3-12 parts of a threaded sliding groove rod; 3-13 parts of a limiting block; extrusion chambers 3-14; 3-15 parts of a grinding hammer; 3-16 parts of a discharge gap; a separation assembly 4; a belt wheel I4-1; 4-2 parts of a belt; 4-3 of a belt wheel I shaft; a transfer rack 4-4; 4-5 of a magnetic belt; a scraper 4-6 and a transfer roller 4-7.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 15, and a denture recovery apparatus includes a brushing assembly 1, a swinging assembly 2, a cutting and grinding assembly 3, and a separation assembly 4, wherein the brushing assembly 1 is connected to the swinging assembly 2, the swinging assembly 2 is connected to the cutting and grinding assembly 3, and the cutting and grinding assembly 3 is connected to the separation assembly 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, and the embodiment further describes the first embodiment, the brushing assembly 1 includes a brushing box 1-1, a brushing bottom plate 1-2, a chute 1-3, a drainage plate 1-4, an inclined plate 1-5, a rocking handle 1-6, a worm 1-7, a worm support 1-8, a worm wheel 1-9, a worm wheel shaft 1-10, a gear 1-11, a worm wheel shaft support 1-12, a rack lifting door 1-13, a brushing gear 1-14, a brushing gear shaft 1-15, a brush roller 1-16, a waste water box 1-17 and a waste water outlet 1-18, the brushing box 1-1 is connected with the brushing bottom plate 1-2, the chute 1-3 is located at both sides of the brushing bottom plate 1-2, the drainage plate 1-4 is connected with the brushing box 1-1, the drainage plate 1-4 is connected with the inclined plate 1-5, the rocking handle 1-6 is connected with the worm 1-7, the worm 1-7 is rotatably connected with the worm support 1-8, the worm support 1-8 is engaged with the worm wheel 1-9, the worm support 1-8 is connected with the scrubbing box 1-1, the worm wheel 1-9 is connected with the worm wheel shaft 1-10, the worm wheel shaft 1-10 is rotatably connected with the worm wheel shaft support 1-12, the worm wheel shaft support 1-12 is connected with the scrubbing box 1-1, the worm wheel shaft 1-10 is connected with the gear 1-11, the gear 1-11 is engaged with the rack lifting door 1-13, the rack lifting door 1-13 is slidably connected with the scrubbing box 1-1, the lower end of the rack lifting door 1-13 is provided with a sealing rubber pad, the cleaning gear 1-14 is connected with a cleaning gear shaft 1-15, the cleaning gear shaft 1-15 is rotationally connected with a cleaning box 1-1, the cleaning gear shaft 1-15 is connected with a brush roller 1-16, a brush is arranged on the brush roller 1-16, a waste water box 1-17 is positioned below a drainage plate 1-4, the waste water box 1-17 is connected with the drainage plate 1-4 and the cleaning box 1-1, the waste water box 1-17 is connected with a waste water outlet 1-18, the false tooth is placed in a cleaning combination body, the cleaning combination body cleans and disinfects the surface of the false tooth, and after disinfection, a rack lifting door is opened to separate the false tooth from residue disinfectant.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment will be further described, the swing assembly 2 includes a swing base plate 2-1, a motor i bracket 2-2, a motor i 2-3, a disk 2-4, a link 2-5, a swing bracket 2-6, a rack 2-7, a limit link 2-8 and a spring 2-9, the swing base plate 2-1 is connected with the motor i bracket 2-2, the motor i bracket 2-2 is connected with the motor i 2-3, the motor i 2-3 is connected with the disk 2-4, the disk 2-4 is hinged with the link 2-5, the link 2-5 is hinged with the swing bracket 2-6, the swing bracket 2-6 is connected with the rack 2-7, the rack 2-7 is meshed with a brushing gear 1-14, the swing frame 2-6 and the rack 2-7 are both connected with the sliding chute 1-3 in a sliding way, a gap is arranged between the swing frame 2-6 and the sliding rail of the rack 2-7 and the sliding chute 1-3 in the vertical direction, two ends of the limiting connecting rod 2-8 are respectively hinged with the scrubbing bottom plate 1-2 and the swing bottom plate 2-1, two ends of the spring 2-9 are respectively connected with the scrubbing bottom plate 1-2 and the swing bottom plate 2-1, and vibration is generated during scrubbing to enable the disinfection effect to be better.

The fourth concrete implementation mode:

the embodiment is described below by combining with figures 1-15, and the embodiment is further described, the cutting and grinding assembly 3 comprises a hopper 3-1, a chopping chamber 3-2, a motor II bracket 3-3, a motor II 3-4, a cutting roller 3-5, a saw blade 3-6, a partition plate 3-7, a discharge port 3-8, a push rod 3-9, a push plate 3-10, a sliding ball 3-11, a threaded sliding chute rod 3-12, a limiting block 3-13, a squeezing chamber 3-14, a crushing hammer 3-15 and a discharge gap 3-16, the hopper 3-1 is connected with the chopping chamber 3-2, the chopping chamber 3-2 is connected with a swinging bottom plate 2-1, the chopping chamber 3-2 is connected with the motor II bracket 3-3, the motor II bracket 3-3 is connected with the motor II 3-4, the motor II 3-4 is connected with the cutting roller 3-5, the cutting roller 3-5 is rotationally connected with the shredding chamber 3-2, the cutting roller 3-5 is connected with the saw blade 3-6, the clapboard 3-7 is connected with the shredding chamber 3-2, the discharge port 3-8 is positioned in the shredding chamber 3-2, the two ends of the push rod 3-9 are respectively rotationally connected with the swing frame 2-6 and the push plate 3-10, the push plate 3-10 is in clearance fit with the threaded chute rod 3-12, the push plate 3-10 is connected with the sliding ball 3-11, the sliding ball 3-11 is slidably connected with the threaded chute of the threaded chute rod 3-12, the threaded chute rod 3-12 is connected with the limiting block 3-13, the extrusion chamber 3-14 is connected with the shredding chamber 3-2, the threaded chute rod 3-12 is slidably connected with the extrusion chamber 3-14, the threaded chute rod 3-12 is connected with a crushing hammer 3-15, two ends of the extrusion chamber 3-14 are provided with discharge gaps 3-16, and the false tooth enters the cutting and grinding combination body to be cut and ground.

The fifth concrete implementation mode:

referring to the embodiment described below with reference to FIGS. 1 to 15, the separation assembly 4 includes two belt pulleys I4-1, two belt pulleys I4-2, two shafts 4-3 of the belt pulleys I, a conveying support 4-4, a magnetic belt 4-5, a scraper 4-6 and a conveying roller 4-7, a motor II 3-4 is connected with the belt pulley I4-1, two belt pulleys I4-1 are connected with the belt 4-2, one belt pulley I4-1 is connected with the shaft 4-3 of the belt pulley I, the conveying support 4-4 is connected with the shredding chamber 3-2, the shafts 4-3 of the belt pulleys I are connected with the conveying roller 4-7, and the two conveying rollers 4-7 are rotatably connected with the conveying support 4-4, the two conveying rollers 4-7 are connected through magnetic belts 4-5, the magnetic belts 4-5 are magnetic, the scrapers 4-6 are connected with the conveying supports 4-4, the scrapers 4-6 are in contact with the magnetic belts 4-5, and metal cannot be ground and is separated from the powder and collected by the separating assembly.

The invention relates to denture recovery equipment, which has the working principle that: adding a scrubbing disinfectant into a scrubbing box 1-1, starting a motor I2-3, driving a disc 2-4 to rotate by the motor I2-3, driving a swing frame 2-6 to reciprocate along a chute 1-3 track by the disc 2-4 through a connecting rod 2-5, driving a rack 2-7 to reciprocate along the chute 1-3 track by the swing frame 2-6, driving a scrubbing bottom plate 1-2 to vibrate by the friction force with the chute 1-3 while driving a rack 2-7 to reciprocate along the chute 1-3 track by the swing frame 2-6, driving a limit connecting rod 2-8 to rotate around a hinged shaft by the scrubbing bottom plate 1-2, supporting by a spring 2-9, because a gap is formed between a sliding rail of the swing frame 2-6 and the rack 2-7 and the chute 1-3 in the up-down direction, the gap can ensure that the vibration amplitude of the brushing bottom plate 1-2 is not large, the connecting rod 2-5 normally drives the swing frame 2-6 to reciprocate, the brushing bottom plate 1-2 drives the disinfectant in the brushing box 1-1 to generate small amplitude oscillation, the false teeth are added in the brushing box 1-1, the rack 2-7 reciprocates to drive the brushing gear 1-14 to rotate, the brushing gear 1-14 drives the brushing gear shaft 1-15 to rotate, the brushing gear shaft 1-15 drives the brush roll 1-16 to reciprocate forward and then reversely rotate, the false teeth reciprocate under the driving of the brush roll 1-16 to move from one end of the brushing box 1-1 to the other end, the residue on the surface of the false teeth is brushed by the brush roll 1-16, the small amplitude oscillation disinfectant can ensure that the cleaning and disinfecting effect of the false teeth is better, the swing handle 1-6 is rotated after the brushing and disinfecting are finished, the rocking handle 1-6 drives the worm 1-7 to rotate, the spiral teeth of the worm 1-7 drive the worm wheel 1-9 to rotate, the worm wheel 1-9 drives the worm wheel shaft 1-10 to rotate, the worm wheel shaft 1-10 drives the gear 1-11 to rotate, the gear 1-11 drives the rack lifting door 1-13 to lift along the brushing box 1-1, when the false tooth moves to one end of the brushing box 1-1 with the open door under the driving of the brush roll 1-16, the disinfectant, the residue and the false tooth are all discharged under the rack lifting door 1-13, under the self-locking action of the worm 1-7 and the worm wheel 1-9, the rack lifting door 1-13 cannot descend, the disinfectant and the residue flow into the waste water box 1-17 through the drainage plate 1-4, the waste water outlet 1-18 is opened to finish the waste water recovery, the false tooth follows the drainage plate 1-4, An inclined plate 1-5 enters a hopper 3-1 and a cutting roller 3-5, a motor II 3-4 drives the cutting roller 3-5 to rotate, under the drive of the cutting roller 3-5, the false tooth moves to a saw blade 3-6, a longer false tooth is cut into small pieces by the saw blade 3-6, the small pieces fall through a gap between the cutting roller 3-5 and a cutting chamber 3-2 and are discharged to the front of a crushing hammer 3-15 in an extrusion chamber 3-14 through a discharge port 3-8, a swing frame 2-6 drives a push plate 3-10 to move forwards through a push rod 3-9, the push plate 3-10 is in clearance fit with a threaded sliding groove rod 3-12, the push plate 3-10 drives the threaded sliding groove rod 3-12 to move towards the extrusion chamber 3-14 through friction force, the threaded sliding groove rod 3-12 drives the crushing hammer 3-15 to compact the false tooth, when the resistance is larger than the friction force, the push plate 3-10 slides on the threaded sliding groove rod 3-12, the sliding ball 3-11 is connected with the threaded sliding groove of the threaded sliding groove rod 3-12 in a sliding way, the push plate 3-10 drives the sliding ball 3-11 to move, the sliding ball 3-11 drives the threaded sliding groove rod 3-12 to rotate through the threaded sliding groove of the threaded sliding groove rod 3-12, the threaded sliding groove rod 3-12 drives the grinding hammer 3-15 to rotate to grind the compacted denture, the discharge port 3-8 continuously discharges the denture into the grinding hammer 3-15 in the extrusion chamber 3-14, the swing frame 2-6 drives the push plate 3-10 to move backwards through the push rod 3-9, the transmission of the grinding hammer 3-15 to move backwards is repeated, the rear denture is ground, the discharge gaps 3-16 are arranged at two ends of the extrusion chamber 3-14, the crushed false teeth are discharged onto a magnetic belt 4-5 through a front discharging gap and a rear discharging gap 3-16, ferromagnetic metal in the crushed false teeth is adsorbed by the magnetic belt 4-5, a motor II 3-4 drives a belt wheel I shaft 4-3 to rotate through a belt driving belt of two belt wheels I4-1 and a belt 4-2, the belt wheel I shaft 4-3 drives a transmission roller 4-7 to rotate, the two transmission rollers 4-7 drive the magnetic belt 4-5 to rotate, the magnetic belt 4-5 discharges tooth powder, and the adsorbed ferromagnetic metal is scraped by a scraper 4-6 to finish the respective collection of the tooth powder and the ferromagnetic metal.

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 may be made by one of ordinary skill in the art within the spirit and scope of the present invention are also within the scope of the present invention.

Claims (1)

1. A denture recovery apparatus comprising a brushing assembly (1), a swinging assembly (2), a cutting and grinding assembly (3) and a separating assembly (4), characterized in that: the brushing combination body (1) is connected with the swinging combination body (2), the swinging combination body (2) is connected with the cutting and grinding combination body (3), and the cutting and grinding combination body (3) is connected with the separating combination body (4);

the brushing assembly (1) comprises a brushing box (1-1), a brushing bottom plate (1-2), a sliding chute (1-3), a drainage plate (1-4), an inclined plate (1-5), a rocking handle (1-6), a worm (1-7), a worm support (1-8), a worm wheel (1-9), a worm wheel shaft (1-10), a gear (1-11), a worm wheel shaft support (1-12), a rack lifting door (1-13), a brushing gear (1-14), a brushing gear shaft (1-15), a brush roller (1-16), a waste water box (1-17) and a waste water outlet (1-18), wherein the brushing box (1-1) is connected with the brushing bottom plate (1-2), and the sliding chute (1-3) is positioned at two sides of the brushing bottom plate (1-2), the drainage plate (1-4) is connected with the scrubbing box (1-1), the drainage plate (1-4) is connected with the inclined plate (1-5), the rocking handle (1-6) is connected with the worm (1-7), the worm (1-7) is rotationally connected with the worm support (1-8), the worm support (1-8) is meshed with the worm wheel (1-9), the worm support (1-8) is connected with the scrubbing box (1-1), the worm wheel (1-9) is connected with the worm wheel shaft (1-10), the worm wheel shaft (1-10) is rotationally connected with the worm wheel shaft support (1-12), the worm wheel shaft support (1-12) is connected with the scrubbing box (1-1), the worm wheel shaft (1-10) is connected with the gear (1-11), the gear (1-11) is meshed with the rack lifting door (1-13), the rack lifting door (1-13) is connected with the scrubbing box (1-1) in a sliding mode, a sealing rubber mat is arranged at the lower end of the rack lifting door (1-13), the scrubbing gear (1-14) is connected with the scrubbing gear shaft (1-15), the scrubbing gear shaft (1-15) is connected with the scrubbing box (1-1) in a rotating mode, the scrubbing gear shaft (1-15) is connected with the brush roller (1-16), the brush roller (1-16) is provided with a brush, the waste water box (1-17) is located below the drainage plate (1-4), the waste water box (1-17) is connected with the drainage plate (1-4) and the scrubbing box (1-1), and the waste water box (1-17) is connected with the waste water outlet (1-18);

the swing assembly (2) comprises a swing bottom plate (2-1), a motor I support (2-2), a motor I (2-3), a disc (2-4), a connecting rod (2-5), a swing frame (2-6), a rack (2-7), a limiting connecting rod (2-8) and a spring (2-9), wherein the swing bottom plate (2-1) is connected with the motor I support (2-2), the motor I support (2-2) is connected with the motor I (2-3), the motor I (2-3) is connected with the disc (2-4), the disc (2-4) is hinged with the connecting rod (2-5), the connecting rod (2-5) is hinged with the swing frame (2-6), and the swing frame (2-6) is connected with the rack (2-7), the rack (2-7) is meshed with the brushing gear (1-14), the swing frame (2-6) and the rack (2-7) are connected with the sliding chute (1-3) in a sliding manner, gaps are formed between the slide rails of the swing frame (2-6) and the rack (2-7) and the sliding chute (1-3) in the vertical direction, two ends of the limiting connecting rod (2-8) are hinged with the brushing bottom plate (1-2) and the swing bottom plate (2-1) respectively, and two ends of the spring (2-9) are connected with the brushing bottom plate (1-2) and the swing bottom plate (2-1) respectively;

the cutting and grinding assembly (3) comprises a hopper (3-1), a cutting chamber (3-2), a motor II support (3-3), a motor II (3-4), a cutting roller (3-5), a saw blade (3-6), a partition plate (3-7), a discharge port (3-8), a push rod (3-9), a push plate (3-10), a sliding ball (3-11), a threaded sliding groove rod (3-12), a limiting block (3-13), a squeezing chamber (3-14), a crushing hammer (3-15) and a discharge gap (3-16), wherein the hopper (3-1) is connected with the cutting chamber (3-2), the cutting chamber (3-2) is connected with a swinging bottom plate (2-1), and the cutting chamber (3-2) is connected with the motor II support (3-3), a motor II bracket (3-3) is connected with a motor II (3-4), the motor II (3-4) is connected with a cutting roller (3-5), the cutting roller (3-5) is rotationally connected with a cutting chamber (3-2), the cutting roller (3-5) is connected with a saw blade (3-6), a clapboard (3-7) is connected with the cutting chamber (3-2), a discharge port (3-8) is positioned in the cutting chamber (3-2), two ends of a push rod (3-9) are respectively rotationally connected with a swing frame (2-6) and a push plate (3-10), the push plate (3-10) is in clearance fit with a threaded sliding groove rod (3-12), the push plate (3-10) is connected with a sliding ball (3-11), the sliding ball (3-11) is in sliding connection with a threaded sliding groove of the threaded sliding groove rod (3-12), the thread sliding chute rod (3-12) is connected with the limiting block (3-13), the extrusion chamber (3-14) is connected with the chopping chamber (3-2), the thread sliding chute rod (3-12) is connected with the extrusion chamber (3-14) in a sliding manner, the thread sliding chute rod (3-12) is connected with the crushing hammer (3-15), and two ends of the extrusion chamber (3-14) are provided with discharge gaps (3-16);

the separation assembly (4) comprises a belt wheel I (4-1), a belt (4-2), a belt wheel I shaft (4-3), a transmission support (4-4), a magnetic belt (4-5), a scraper plate (4-6) and a transmission roller (4-7), a motor II (3-4) is connected with the belt wheel I (4-1), two belt wheels I (4-1) are arranged, the two belt wheels I (4-1) are connected through the belt (4-2), one belt wheel I (4-1) is connected with the belt wheel I shaft (4-3), the transmission support (4-4) is connected with the chopping chamber (3-2), the belt wheel I shaft (4-3) is connected with the transmission roller (4-7), and the two transmission rollers (4-7) are rotationally connected with the transmission support (4-4), the two conveying rollers (4-7) are connected through magnetic belts (4-5), the magnetic belts (4-5) are magnetic, the scrapers (4-6) are connected with the conveying supports (4-4), and the scrapers (4-6) are in contact with the magnetic belts (4-5).

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