CN109926436B - Infectious waste treatment device for medical surgery - Google Patents

Abstract

The invention relates to an infectious waste treatment device, in particular to an infectious waste treatment device for medical surgery. For evenly filling medical waste, make and smash abundant, the centrifugal hammer is buckled when meetting hard thing, prevents that the jamming from damaging the motor, and overspeed device tensioner prevents that the conveyer belt from droing, floats the air current drive rivers directional motion in the pond, classifies waste material, carries out the waterlogging caused by excessive rainfall after categorised, high temperature sterilization behind the waterlogging caused by excessive rainfall. The pan feeding mechanism is located the rubbing crusher upside, pan feeding mechanism is connected with rubbing crusher, rubbing crusher is located and floats the pond upside, rubbing crusher constructs and floats the pond and is connected, salvage the mechanism and is located and floats the pond upside, it is located the main shell outside to float the pond, it is connected with main shell to float the pond, it is located pasteurization mechanism upside to float the pond, it is connected with pasteurization mechanism to float the pond, main shell is located the salvage mechanism outside, main shell is connected with salvage the mechanism, main shell is located and floats the pond outside, main shell is connected with superficial pond, main shell is located pasteurization mechanism outside, main shell is connected with pasteurization mechanism.

Description

Infectious waste treatment device for medical surgery

Technical Field

The invention relates to an infectious waste treatment device, in particular to an infectious waste treatment device for medical surgery.

Background

A lot of medical wastes are generated after medical surgery, because the medical wastes have the characteristics of space pollution, acute infection, latent pollution and the like, the harmfulness of viruses and germs is dozens, hundreds or even thousands of times of that of common household wastes, if the medical wastes are not properly treated, the serious pollution to the environment is caused, and the serious pollution can also become the source of epidemic diseases, so the medical surgery infectious waste treatment device is designed.

Disclosure of Invention

The invention provides a medical surgery operation infectious waste treatment device, which has the beneficial effects that medical waste is uniformly filled to be fully crushed, a centrifugal hammer is bent when meeting hard objects to prevent clamping and damaging a motor, a tension device prevents a conveyor belt from falling off, airflow in a floating pool drives water flow to move directionally to classify waste, draining is carried out after classification, and high-temperature sterilization is carried out after draining.

In order to solve the technical problem, the invention relates to an infectious waste treatment device, in particular to an infectious waste treatment device for medical surgery, which comprises a feeding mechanism, a crushing mechanism, a salvaging mechanism, a floating pool, a main shell and a high-temperature sterilization mechanism, wherein medical waste is uniformly filled to be sufficiently crushed, a centrifugal hammer is bent when encountering hard objects to prevent a motor from being damaged by clamping stagnation, a tension device is used for preventing a conveyor belt from falling off, airflow in the floating pool drives water flow to move directionally to classify the waste, the waste is subjected to draining after being classified, and the high-temperature sterilization is carried out after the draining.

The feeding mechanism consists of an inclined frame, a motor I, a belt wheel, a belt I and an eccentric belt wheel, the device comprises an eccentric belt wheel seat, a slide way, a swing seat and a transverse spring, wherein the first motor is positioned on the upper side of the inclined frame, the first motor is connected with the inclined frame, the belt wheel is positioned on one side surface of the motor, the belt wheel is connected with the first motor, the first belt is positioned on the upper side of the belt wheel, the eccentric belt wheel is positioned on the left side of the belt wheel, the eccentric belt wheel is positioned on the upper side of the belt wheel, the eccentric belt wheel is connected with the belt wheel, the eccentric belt wheel seat is positioned on the side surface of the eccentric belt wheel, the eccentric belt wheel seat is connected with the eccentric belt wheel, the slide way is positioned on the upper side of the eccentric belt wheel seat, the slide way is connected with the eccentric belt wheel seat, the swing seat is positioned on the lower side of the slide way, the swing seat is connected with the slide way, the swing;

the eccentric pulley seat consists of a mounting plate, a connecting plate and a first sliding block, wherein the mounting plate is positioned at the lower side of the connecting plate and is connected with the connecting plate;

the slideway consists of a feeding channel, a first slideway and a bolt, wherein the feeding channel is positioned on the inner side of the first slideway, the feeding channel is connected with the first slideway, the bolt is positioned on the inner side of the first slideway, the bolt is connected with the first slideway, the bolt is positioned on the inner side of the feeding channel, and the bolt is connected with the feeding channel;

the swing seat consists of I-steel, a plate seat, a connecting backward short rod and a vertical spring, wherein the I-steel is positioned at the lower side of the plate seat, the I-steel is connected with the plate seat, the plate seat is positioned at the outer side of the connecting backward short rod, the plate seat is connected with the connecting backward short rod, the plate seat is positioned at the outer side of the vertical spring, the plate seat is connected with the vertical spring, the vertical spring is positioned at the outer side of the connecting backward short rod, and the vertical spring is connected with the connecting backward short rod;

the crushing mechanism consists of a motor II, a large belt wheel, a belt II, a small belt wheel, a tension wheel, a crushing wheel and a splash-proof shell, wherein the large belt wheel is positioned on the two sides of the motor, the large belt wheel is connected with the motor II, the belt II is positioned on the right side of the large belt wheel, the belt II is connected with the large belt wheel, the small belt wheel is positioned on the right side of the belt II, the small belt wheel is connected with the belt II, the tension wheel is positioned on the lower side of the belt II, the tension wheel is connected with the belt II, the crushing wheel is positioned on the side surface of the small belt wheel, the crushing wheel is connected with the small belt wheel, the splash-proof shell is positioned on the inner side of the motor II, the splash-proof;

the tensioning wheel consists of a tensioning belt wheel, a second sliding block seat, a second outer slide way, a second spring, a second lower slide block, a nut, an inner slide way and a screw rod, wherein the tensioning belt wheel is positioned on the upper side of the second sliding block seat;

the crushing wheel consists of a rotary disc, a rotary shaft, a sub-rotary shaft and a centrifugal hammer, wherein the rotary shaft is positioned in the center of the rotary disc and connected with the rotary disc, the sub-rotary shaft is positioned around the rotary disc and connected with the rotary disc, the centrifugal hammer is positioned outside the sub-rotary shaft and connected with the sub-rotary shaft;

the salvaging mechanism consists of a motor III, a master gear, a slave gear, a connecting pin shaft and a salvaging wheel, wherein the motor III is positioned on the side surface of the master gear, the motor III is connected with the master gear, the master gear is positioned on the upper side of the slave gear, the master gear is connected with the slave gear, the slave gear is positioned on the side surface of the connecting pin shaft, the slave gear is connected with the connecting pin shaft, the salvaging wheel is positioned on the side surface of the connecting pin shaft, and the salvaging wheel is connected with the;

the floating pool is composed of a layering pool, a blower, an upstream conduit, a lower convection conduit, a discharge opening, a pull rod, a pull shaft, a connecting rod, a door, a fixed rotating shaft and a pull shaft, wherein the blower is positioned at the upper side of the layering pool and connected with the layering pool, the upstream conduit is positioned at the inner side of the layering pool, the lower convection conduit is positioned at two sides of the layering pool, the blower is positioned at the upper side of the upstream conduit, the blower is connected with the upstream conduit, the blower is positioned at the upper side of the lower convection conduit, the blower is connected with the lower convection conduit, the layering pool is positioned at the upper side of the discharge opening, the layering pool is connected with the discharge opening, the pull shaft is positioned at the side of the pull rod, the pull shaft is connected with the pull rod, the connecting rod is positioned at the lower upper side of the pull shaft, the fixed rotating shaft is positioned at the right side of the door, the fixed rotating shaft, the pull shaft is connected with the connecting rod, the pull shaft is positioned on the left side of the door, and the pull shaft is connected with the door;

the blower consists of a flow guide shell, fan blades and a power shaft, wherein the flow guide shell is positioned on the outer side of the fan blades and is positioned on the outer side of the power shaft;

the main shell consists of a main shell body, a bottom water tank, an angle adjusting baffle, a side slide way, a side slide block, a hydraulic rod, a lower hinged support and an upper hinged support, wherein the bottom water tank is positioned at the lower side of the main shell body and connected with the main shell body;

the high-temperature sterilization mechanism comprises a sterilization box, a high-temperature heating pipe, an angle seat, an angle rotating shaft six, an angle rotating horizontal rod, an angle key, an angle supporting rotating rod, a cover, a motor six, a main helical gear, a slave helical gear, a main supporting rotating rod, a main rotating horizontal rod, a main key and a main rotating shaft six, wherein the high-temperature heating pipe is positioned on the side surface of the sterilization box, the high-temperature heating pipe is connected with the sterilization box, the angle seat is positioned on the outer side of the sterilization box and is connected with the sterilization box, the angle rotating shaft six is positioned on the inner side of the angle seat, the angle rotating shaft six is connected with the angle seat, the angle rotating horizontal rod is positioned on the lower side of the angle seat and is connected with the angle seat, the angle rotating horizontal rod is positioned on the outer side of the angle rotating shaft six and is connected with the angle rotating shaft six, the angle key is positioned on the inner side of the angle rotating horizontal rod, the angle, the cover is connected with the sterilization box, the main helical gear is positioned on the left side of the motor six, the main helical gear is connected with the motor six, the slave helical gear is positioned on the upper side of the main helical gear, the slave helical gear is connected with the main helical gear, the main supporting rotary rod is positioned on the inner side of the slave helical gear, the main supporting rotary rod is connected with the slave helical gear, the main rotary horizontal rod is positioned on the upper side of the main supporting rotary rod, the main rotary horizontal rod is connected with the main supporting rotary rod, the main key is positioned on the inner side of the main rotary horizontal rod, the main key is connected with the main rotary horizontal rod, the main rotary horizontal rod is positioned on;

the pan feeding mechanism is located the rubbing crusher upside, pan feeding mechanism is connected with rubbing crusher, rubbing crusher is located and floats the pond upside, rubbing crusher constructs and floats the pond and is connected, salvage the mechanism and is located and floats the pond upside, it is located the main shell outside to float the pond, it is connected with main shell to float the pond, it is located pasteurization mechanism upside to float the pond, it is connected with pasteurization mechanism to float the pond, main shell is located the salvage mechanism outside, main shell is connected with salvage the mechanism, main shell is located and floats the pond outside, main shell is connected with superficial pond, main shell is located pasteurization mechanism outside, main shell is connected with pasteurization mechanism.

As a further optimization of the technical scheme, the connecting pin shaft of the medical surgical infectious waste treatment device is connected with the main shell.

As a further optimization of the technical scheme, the main shell of the medical surgical operation infectious waste treatment device is made of ceramic.

As a further optimization of the technical scheme, the number of the fishing wheels of the medical surgical operation infectious waste treatment device is two.

The infectious waste treatment device for the medical surgery operation has the advantages that:

evenly filling medical waste, making to smash abundant, the centrifugal hammer is buckled when meetting hard thing, prevents that the jamming from damaging the motor, and overspeed device tensioner prevents that the conveyer belt from droing, floats the air current drive rivers directional motion in the pond, classifies waste material, carries out the waterlogging caused by excessive rainfall after categorised, high temperature sterilization behind the waterlogging caused by excessive rainfall.

Drawings

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

FIG. 1 is a schematic view showing the construction of an infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 2 is a schematic structural diagram of a feeding mechanism 1 of an infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 3 is a schematic view of the structure of an eccentric pulley seat 1-6 of the infectious waste treatment device for medical surgery according to the present invention.

Fig. 4 is a schematic structural view of the slideways 1-7 of the infectious waste treatment device for medical surgery according to the present invention.

Fig. 5 is a schematic structural view of a swing seat 1-8 of the infectious waste treatment device for medical surgery in the invention.

Fig. 6 is a schematic structural view of a crushing mechanism 2 of an infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 7 is a schematic view of the structure of a tension wheel 2-5 of the infectious waste treatment device for medical surgery according to the present invention.

FIG. 8 is a schematic view of the structure of the crushing wheel 2-6 of the infectious waste treatment device for medical surgery according to the present invention.

Fig. 9 is a schematic structural view of a fishing mechanism 3 of the infectious waste treatment device for medical surgery according to the present invention.

FIG. 10 is a schematic view of the structure of a floating pond 4 of the infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 11 is a partial structural view of a floating pond 4 of an infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 12 is a schematic view of the construction of a blower 4-2 of an infectious waste treatment apparatus for medical surgery according to the present invention.

Fig. 13 is a schematic structural view of a main housing 5 of an infectious waste treatment apparatus for medical surgery according to the present invention.

Fig. 14 is a partial structural view of a main casing 5 of an infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 15 is a schematic structural view of a high-temperature sterilization unit 6 of the infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 16 is a partial structural view of a high temperature sterilization unit 6 of the infectious waste treatment apparatus for medical surgery according to the present invention.

FIG. 17 is a partially enlarged schematic view of a high-temperature sterilization means 6 of the infectious waste treatment apparatus for medical surgery according to the present invention.

In the figure: a feeding mechanism 1; 1-1 of a sloping frame; 1-2 of a motor I; 1-3 of belt wheel; 1-4 of a belt; 1-5 parts of an eccentric belt wheel; 1-6 parts of an eccentric pulley seat; mounting plate 1-6-1; connecting plates 1-6-2; 1-6-3 of a first sliding block; 1-7 of a slideway; 1-7-1 of a feeding channel; 1-7-2 of a first slideway; 1-7-3 of bolts; 1-8 of a swing seat; 1-8-1 parts of I-steel; 1-8-2 of a plate seat; connecting the backward short rods 1-8-3; 1-8-4 parts of vertical spring; 1-9 parts of a transverse spring; a crushing mechanism 2; a second motor 2-1; 2-2 of a large belt wheel; 2-3 of a belt II; 2-4 parts of a small belt wheel; 2-5 of a tension wheel; 2-5-1 of a tensioning belt wheel; 2-5-2 parts of a second sliding block seat; 2-5-3 parts of an outer slideway II; 2-5-4 parts of a second spring; 2-5-5 parts of a second lower sliding block; 2-5-6 of a screw; 2-5-7 parts of an inner slideway; 2-5-8 parts of screw rod; 2-6 parts of a crushing wheel; 2-6-1 of a turntable; 2-6-2 of a rotating shaft; 2-6-3 parts of a sub-rotating shaft; 2-6-4 of a centrifugal hammer; 2-7 of a splash-proof shell; a salvaging mechanism 3; 3-1 of a motor III; a main gear 3-2; the slave gear 3-3; connecting pin shafts 3-4; 3-5 of a fishing wheel; a floating pond 4; 4-1 of a layering tank; a blower 4-2; 4-2-1 of a flow guide shell; fan blades 4-2-2; a power shaft 4-2-3; 4-3 of an upstream conduit; a lower convection conduit 4-4; 4-5 of a leakage opening; 4-6 of a pull rod; pulling 4-7 of the shaft; 4-8 of a connecting rod; doors 4-9; fixing a rotating shaft 4-10; pulling 4-11 on the shaft; a main housing 5; a main housing 5-1; a bottom water tank 5-2; 5-3 of an angle adjusting baffle plate; 5-4 of a side slideway; 5-5 of a side sliding block; 5-6 of a hydraulic rod; 5-7 parts of a lower hinged support; 5-8 parts of an upper hinged support; a high-temperature sterilization mechanism 6; 6-1 of a sterilization box; 6-2 of a high-temperature heating pipe; 6-3 of a corner seat; 6-4 parts of an angular rotating shaft; 6-5 of an angular rotation horizontal rod; 6-6 of an angle key; angle support rotating rods 6-7; 6-8 parts of a cover; 6-9 parts of a motor; 6-10 parts of main bevel gear; the slave bevel gears 6-11; main support rotating rods 6-12; 6-13 of a main rotating horizontal rod; primary keys 6-14; six main rotation axes 6-15.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present invention relates to an infectious waste treatment apparatus, and more specifically to an infectious waste treatment apparatus for medical surgery, which includes a feeding mechanism 1, a crushing mechanism 2, a fishing mechanism 3, a floating tank 4, a main housing 5, and a high-temperature sterilization mechanism 6, and uniformly feeds medical waste to sufficiently crush the waste, and a centrifugal hammer is bent when encountering hard objects to prevent a motor from being damaged by jamming, and a tensioning device prevents a conveyor belt from falling off, and an air flow in the floating tank drives a water flow to move directionally, and classifies the waste, drains water after classification, and performs high-temperature sterilization after draining.

The feeding material 1 consists of an inclined frame 1-1, a motor I1-2, a belt wheel 1-3, a belt I1-4, an eccentric belt wheel 1-5, an eccentric belt wheel seat 1-6, a slideway 1-7, a swinging seat 1-8 and a transverse spring 1-9, wherein the motor I1-2 is positioned on the upper side of the inclined frame 1-1, the motor I1-2 is connected with the inclined frame 1-1, the belt wheel 1-3 is positioned on the side surface of the motor I1-2, the belt wheel 1-3 is connected with the motor I1-2, the belt I1-4 is positioned on the upper side of the belt wheel 1-3, the belt I1-4 is connected with the belt wheel 1-3, the eccentric belt wheel 1-5 is positioned on the left side of the belt wheel 1-3, the eccentric belt wheel 1-5 is positioned on the upper side of the belt I1-4, the eccentric belt, the eccentric pulley seat 1-6 is positioned on the side surface of the eccentric pulley 1-5, the eccentric pulley seat 1-6 is connected with the eccentric pulley 1-5, the slideway 1-7 is positioned on the upper side of the eccentric pulley seat 1-6, the slideway 1-7 is connected with the eccentric pulley seat 1-6, the swinging seat 1-8 is positioned on the lower side of the slideway 1-7, the swinging seat 1-8 is connected with the slideway 1-7, the swinging seat 1-8 is positioned on the upper side of the inclined frame 1-1, the swinging seat 1-8 is connected with the inclined frame 1-1, the horizontal spring 1-9 is positioned on the side surface of the slideway 1-7, the horizontal spring 1-9 is connected with the slideway 1-7, the horizontal spring 1-9 is positioned on the two sides of the eccentric pulley seat 1-6, the horizontal spring 1-9 is connected with the eccentric pulley seat 1-6, the inclined frame 1-1 makes the slideway 1-7, the feeding is convenient, the motor I1-2 rotates, the motor I1-2 drives the belt I1-4 to rotate, the belt I1-4 drives the eccentric belt wheel 1-5 to rotate, and the swinging seat 1-8 is connected with the slideway 1-7 to prevent the slideway 1-7 from falling off;

the eccentric belt wheel seat 1-6 is composed of a mounting plate 1-6-1, a connecting plate 1-6-2 and a slide block I1-6-3, the mounting plate 1-6-1 is positioned at the lower side of the connecting plate 1-6-2, the mounting plate 1-6-1 is connected with the connecting plate 1-6-2, the slide block I1-6-3 is positioned at the upper side of the connecting plate 1-6-2, the slide block I1-6-3 is connected with the connecting plate 1-6-2, the mounting plate 1-6-1 is driven to move during the rotation process of the eccentric belt wheel 1-5, the mounting plate 1-6-1 is driven to move the connecting plate 1-6-2, a transverse spring 1-9 generates thrust to the slide block I1-6-3 to prevent the belt I1-4 from, the first sliding block 1-6-3 drives the slideway 1-7 to move;

the slideway 1-7 consists of a feeding channel 1-7-1, a slideway I1-7-2 and a bolt 1-7-3, wherein the feeding channel 1-7-1 is positioned at the inner side of the slideway I1-7-2, the feeding channel 1-7-1 is connected with the slideway I1-7-2, the bolt 1-7-3 is positioned at the inner side of the slideway I1-7-2, the bolt 1-7-3 is connected with the slideway I1-7-2, the bolt 1-7-3 is positioned at the inner side of the feeding channel 1-7-1, and the bolt 1-7-3 is connected with the feeding channel 1-7-1;

the swing seat 1-8 consists of I-steel 1-8-1, a plate seat 1-8-2, a connecting backward short rod 1-8-3 and a vertical spring 1-8-4, wherein the I-steel 1-8-1 is positioned at the lower side of the plate seat 1-8-2, the I-steel 1-8-1 is connected with the plate seat 1-8-2, the plate seat 1-8-2 is positioned at the outer side of the connecting backward short rod 1-8-3, the plate seat 1-8-2 is connected with the connecting backward short rod 1-8-3, the plate seat 1-8-2 is positioned at the outer side of the vertical spring 1-8-4, the plate seat 1-8-2 is connected with the vertical spring 1-8-4, the vertical spring 1-8-4 is positioned at the outer side of the connecting backward short rod 1-8-3, the vertical springs 1-8-4 are connected with the connecting reversing short rods 1-8-3, the I-shaped steel 1-8-1 plays a role in heightening, the vertical springs 1-8-4 play a role in shock absorption, the connecting reversing short rods 1-8-3 are used for fixedly guiding the vertical springs 1-8-4 to prevent the springs from deflecting, and materials on the slideways 1-7 enter the crushing mechanism 2;

the crushing mechanism 2 consists of a motor II 2-1, a large belt wheel 2-2, a belt II 2-3, a small belt wheel 2-4, a tensioning wheel 2-5, a crushing wheel 2-6 and a splash-proof shell 2-7, wherein the large belt wheel 2-2 is positioned on the side surface of the motor II 2-1, the large belt wheel 2-2 is connected with the motor II 2-1, the belt II 2-3 is positioned on the right side of the large belt wheel 2-2, the belt II 2-3 is connected with the large belt wheel 2-2, the small belt wheel 2-4 is positioned on the right side of the belt II 2-3, the small belt wheel 2-4 is connected with the belt II 2-3, the tensioning wheel 2-5 is positioned on the lower side of the belt II 2-3, the tensioning wheel 2-5 is connected with the belt II 2-3, the crushing wheel 2-6 is positioned on the side surface of the small belt wheel, the splash-proof shell 2-7 is positioned on the inner side of the motor II 2-1, the splash-proof shell 2-7 is connected with the motor II 2-1, the splash-proof shell 2-7 is positioned on the inner side of the tension pulley 2-5, the splash-proof shell 2-7 is connected with the tension pulley 2-5, the splash-proof shell 2-7 is positioned on the outer side of the grinding wheel 2-6, the splash-proof shell 2-7 is connected with the grinding wheel 2-6, the motor II 2-1 rotates, the motor II 2-1 drives the large belt pulley 2-2 to rotate, the large belt pulley 2-2 drives the belt II 2-3 to rotate, the belt II 2-3 drives the small belt pulley 2-4 to rotate, and the small belt pulley 2-;

the tensioning wheel 2-5 consists of a tensioning belt wheel 2-5-1, a sliding block seat II 2-5-2, an outer slideway II 2-5-3, a spring II 2-5-4, a lower sliding block II 2-5-5, a screw nut 2-5-6, an inner slideway 2-5-7 and a screw rod 2-5-8, wherein the tensioning belt wheel 2-5-1 is positioned at the upper side of the sliding block seat II 2-5-2, the tensioning belt wheel 2-5-1 is connected with the sliding block seat II 2-5-2, the outer slideway II 2-5-3 is positioned at the outer side of the sliding block seat II 2-5-2, the outer slideway II 2-5-3 is connected with the sliding block seat II 2-5-2, the spring II 2-5-4 is positioned at the lower side of the sliding block seat II 2-5-2, the spring II 2-5-4 is connected with the sliding block seat II 2-5-2, the lower sliding block II 2-5-5 is positioned at the lower side of the spring II 2-5-4, the lower sliding block II 2-5-5 is connected with the spring II 2-5-4, the nut 2-5-6 is positioned at the lower side of the lower sliding block II 2-5-5, the nut 2-5-6 is connected with the lower sliding block II 2-5-5, the inner slideway 2-5-7 is positioned at the outer side of the nut 2-5-6, the inner slideway 2-5-7 is connected with the nut 2-5-6, the inner slideway 2-5-7 is positioned at the outer side of the screw rod 2-5-8, the inner slideway 2-5-7 is connected with the screw rod 2-5-8, the screw rod 2-5-8 is connected with the screw rod 2-5-6, 2-5-8 of a screw rod is rotated, the screw rod 2-5-8 drives a screw 2-5-6 to move in the vertical direction, the screw 2-5-6 drives a lower sliding block II 2-5-5 to move in the vertical direction, the lower sliding block II 2-5-5 drives a spring II 2-5-4 to move in the vertical direction and is used for adjusting the elasticity of the spring II 2-5-4, when the belt II 2-3 drives a tension belt wheel 2-5-1 to rotate, the tension belt wheel 2-5-1 is fixed by the sliding block seat II 2-5-2, the tension belt wheel 2-5-1 is downwards pulled by the spring II 2-5-4, and the belt II 2-3 is tensioned;

the crushing wheel 2-6 consists of a rotary table 2-6-1, a rotary shaft 2-6-2, a sub-rotary shaft 2-6-3 and a centrifugal hammer 2-6-4, wherein the rotary shaft 2-6-2 is positioned in the center of the rotary table 2-6-1, the rotary shaft 2-6-2 is connected with the rotary table 2-6-1, the sub-rotary shaft 2-6-3 is positioned around the rotary table 2-6-1, the sub-rotary shaft 2-6-3 is connected with the rotary table 2-6-1, the centrifugal hammer 2-6-4 is positioned outside the sub-rotary shaft 2-6-3, the centrifugal hammer 2-6-4 is connected with the sub-rotary shaft 2-6-3, the rotary table 2-6-1 rotates, the rotary shaft 2-6-2 drives the rotary table 2-6-1 to rotate, when the rotating shaft 2-6-2 rotates, the sub rotating shaft 2-6-3 is driven to rotate, the centrifugal hammer 2-6-4 is under the action of centrifugal force, when the centrifugal hammer 2-6-4 crushes the waste, if a hard object is met, the centrifugal hammer 2-6-4 deviates from the original track, so that clamping stagnation is prevented from occurring, and the motor II 2-1 is prevented from being damaged;

the fishing mechanism 3 consists of a motor III 3-1, a master gear 3-2, a slave gear 3-3, a connecting pin shaft 3-4 and a fishing wheel 3-5, wherein the motor III 3-1 is positioned on the side surface of the master gear 3-2, the motor III 3-1 is connected with the master gear 3-2, the master gear 3-2 is positioned on the upper side of the slave gear 3-3, the master gear 3-2 is connected with the slave gear 3-3, the slave gear 3-3 is positioned on the side surface of the connecting pin shaft 3-4, the slave gear 3-3 is connected with the connecting pin shaft 3-4, the fishing wheel 3-5 is positioned on the side surface of the connecting pin shaft 3-4, the fishing wheel 3-5 is connected with the connecting pin shaft 3-4, the motor III 3-1 rotates, the motor III 3-1 drives the master gear 3-2 to rotate, the master gear 3-2 drives the, the connecting pin shaft 3-4 is driven to rotate by the gear 3-3, the fishing wheel 3-5 is driven to rotate by the connecting pin shaft 3-4, the plastic and other wastes floating on the water surface are fished out of the layering tank 4-1 by the fishing wheel 3-5, and the wastes fall into the sterilizing box 6-1;

the floating pond 4 consists of a layering pond 4-1, an air blower 4-2, an upper flow guide pipe 4-3, a lower layer convection guide pipe 4-4, a discharge opening 4-5, a pull rod 4-6, a pull shaft lower 4-7, a connecting rod 4-8, a door 4-9, a fixed rotating shaft 4-10 and a pull shaft upper 4-11, wherein the air blower 4-2 is positioned at the upper side of the layering pond 4-1, the air blower 4-2 is connected with the layering pond 4-1, the upper flow guide pipe 4-3 is positioned at the inner side of the layering pond 4-1, the lower layer convection guide pipe 4-4 is positioned at two sides of the layering pond 4-1, the air blower 4-2 is positioned at the upper side of the upper flow guide pipe 4-3, the air blower 4-2 is connected with the upper flow guide pipe 4-3, the air blower 4-2 is positioned at the upper, the blower 4-2 is connected with the lower convection conduit 4-4, the layering tank 4-1 is positioned at the upper side of the discharge opening 4-5, the layering tank 4-1 is connected with the discharge opening 4-5, the lower pulling shaft 4-7 is positioned at the side surface of the pull rod 4-6, the lower pulling shaft 4-7 is connected with the pull rod 4-6, the connecting rod 4-8 is positioned at the upper side of the lower pulling shaft 4-7, the connecting rod 4-8 is connected with the lower pulling shaft 4-7, the fixed rotating shaft 4-10 is positioned at the right side of the door 4-9, the fixed rotating shaft 4-10 is connected with the door 4-9, the fixed rotating shaft 4-10 is positioned at the inner side of the discharge opening 4-5, the fixed rotating shaft 4-10 is connected with the discharge opening 4-5, the upper pulling shaft 4-11 is positioned at the upper side of the connecting rod 4-8, the upper 4-11 of the pull shaft is positioned at the left side of the door 4-9, the upper 4-11 of the pull shaft is connected with the door 4-9, the directional air finally flows out from the upper flow guide pipe 4-3 and the lower layer convection guide pipe 4-4, the wastes with large density sink into the bottom of the layering tank 4-1, the wastes with small density float on the liquid level in the layering tank 4-1 and move to both sides under the action of the upper flow guide pipe 4-3 and the lower layer convection guide pipe 4-4, the pull rod 4-6 is pulled downwards, the pull rod 4-6 drives the lower 4-7 of the pull shaft to move downwards, the lower 4-7 of the pull shaft drives the connecting rod 4-8 to move downwards, the connecting rod 4-8 drives the upper 4-11 of the pull shaft to move downwards, the upper 4-11 of the pull shaft drives the left end of the door 4-9 to move downwards, the door 4-9 rotates by taking the, the metal with high density enters a sterilization box 6-1;

the blower 4-2 consists of a flow guide shell 4-2-1, fan blades 4-2-2 and a power shaft 4-2-3, the flow guide shell 4-2-1 is positioned at the outer side of the fan blades 4-2-2, the flow guide shell 4-2-1 is positioned at the outer side of the power shaft 4-2-3, the flow guide shell 4-2-1 is connected with the power shaft 4-2-3, the power shaft 4-2-3 is positioned at the inner side of the fan blades 4-2-2, the power shaft 4-2-3 is connected with the fan blades 4-2-2, the power shaft 4-2-3 rotates, the power shaft 4-2-3 drives the fan blades 4-2-2 to rotate, air is cut in the rotating process of the fan blades 4-2-2, the air forms directional movement in the diversion shell 4-2-1;

the main shell 5 consists of a main shell 5-1, a bottom water tank 5-2, an angle-adjusting baffle 5-3, a side slideway 5-4, a side slide block 5-5, a hydraulic rod 5-6, a lower hinged support 5-7 and an upper hinged support 5-8, wherein the bottom water tank 5-2 is positioned at the lower side of the main shell 5-1, the bottom water tank 5-2 is connected with the main shell 5-1, the side slideway 5-4 is positioned at the side surface of the angle-adjusting baffle 5-3, the side slideway 5-4 is connected with the angle-adjusting baffle 5-3, the side slide block 5-5 is positioned at the inner side of the side slideway 5-4, the side slide block 5-5 is connected with the side slideway 5-4, the hydraulic rod 5-6 is positioned at the outer side of the side slide block 5-5, the hydraulic rod 5-6 is connected with the side slide block 5-5, the lower, the lower hinged support 5-7 is connected with the hydraulic rod 5-6, the lower hinged support 5-7 is positioned on the inner side of the main shell 5-1, the lower hinged support 5-7 is connected with the main shell 5-1, the upper hinged support 5-8 is positioned on the inner side of the main shell 5-1, the upper hinged support 5-8 is connected with the main shell 5-1, the upper hinged support 5-8 is positioned on the outer side of the angle adjusting baffle 5-3, and the upper hinged support 5-8 is connected with the angle adjusting baffle 5-3;

the high-temperature sterilization mechanism 6 consists of a sterilization box 6-1, a high-temperature heating pipe 6-2, an angle seat 6-3, an angle rotating shaft six 6-4, an angle rotating horizontal rod 6-5, an angle key 6-6, an angle supporting rotating rod 6-7, a cover 6-8, a motor six 6-9, a main helical gear 6-10, a secondary helical gear 6-11, a main supporting rotating rod 6-12, a main rotating horizontal rod 6-13, a main key 6-14 and a main rotating shaft six 6-15, wherein the high-temperature heating pipe 6-2 is positioned on the side surface of the sterilization box 6-1, the high-temperature heating pipe 6-2 is connected with the sterilization box 6-1, the angle seat 6-3 is positioned on the outer side of the sterilization box 6-1, the angle seat 6-3 is connected with the sterilization box 6-1, the angle rotating shaft six 6-4 is positioned on the inner, an angular rotating shaft six 6-4 is connected with an angular seat 6-3, an angular rotating horizontal rod 6-5 is positioned at the lower side of the angular seat 6-3, an angular rotating horizontal rod 6-5 is connected with the angular seat 6-3, the angular rotating horizontal rod 6-5 is positioned at the outer side of the angular rotating shaft six 6-4, the angular rotating horizontal rod 6-5 is connected with the angular rotating shaft six 6-4, an angular key 6-6 is positioned at the inner side of the angular rotating horizontal rod 6-5, an angular key 6-6 is connected with the angular rotating horizontal rod 6-5, the angular key 6-6 is positioned at the upper side of the angular supporting rotating rod 6-7, the angular key 6-6 is connected with the angular supporting rotating rod 6-7, a cover 6-8 is positioned at the upper side of a sterilizing box 6-1, the cover 6-8 is connected with the sterilizing box 6-1, a main helical gear 6-10 is positioned, the main bevel gears 6-10 are connected with the motors six 6-9, the slave bevel gears 6-11 are positioned on the upper sides of the main bevel gears 6-10, the slave bevel gears 6-11 are connected with the main bevel gears 6-10, the main supporting rotating rods 6-12 are positioned on the inner sides of the slave bevel gears 6-11, the main supporting rotating rods 6-12 are connected with the slave bevel gears 6-11, the main rotating horizontal rods 6-13 are positioned on the upper sides of the main supporting rotating rods 6-12, the main rotating horizontal rods 6-13 are connected with the main supporting rotating rods 6-12, the main keys 6-14 are positioned on the inner sides of the main rotating horizontal rods 6-13, the main keys 6-14 are connected with the main rotating horizontal rods 6-13, the main rotating shafts six 6-15 are positioned on the inner sides of the main rotating horizontal rods 6-13, and the main rotating shafts six 6, the motor six 6-9 drives the main bevel gear 6-10 to rotate, the main bevel gear 6-10 drives the auxiliary bevel gear 6-11 to rotate, the auxiliary bevel gear 6-11 drives the main key 6-14 to rotate, the main key 6-14 drives the main rotating horizontal rod 6-13 to rotate, the main rotating horizontal rod 6-13 drives the main rotating shaft six 6-15 to rotate by taking the main supporting rotating rod 6-12 as the center, the sterilization box 6-1 rotates along with the main rotating shaft six 6-15, the main rotating shaft six 6-15 drives the angle seat 6-3 to rotate, the angle seat 6-3 drives the angle rotating shaft six 6-4 to rotate, the angle rotating shaft six 6-4 rotates by taking the main supporting rotating rod 6-12 as the center, and the angle supporting rotating rod 6-7 prevents the sterilization box 6-1 from overturning;

pan feeding mechanism 1 is located 2 upsides of rubbing crusher, pan feeding mechanism 1 is connected with rubbing crusher 2, rubbing crusher 2 is located 4 upsides of superficial pond, rubbing crusher 2 with float pond 4 and be connected, salvage mechanism 3 is located 4 upsides of superficial pond, it is located 5 outsides of main shell to float pond 4, it is connected with main shell 5 to float pond 4, it is located 6 upsides of pasteurization mechanism to float pond 4, it is connected with pasteurization mechanism 6 to float pond 4, main shell 5 is located 3 outsides of salvage mechanism, main shell 5 is connected with salvage mechanism 3, main shell 5 is located the 4 outsides of superficial pond, main shell 5 is connected with superficial pond 4, main shell 5 is located 6 outsides of pasteurization mechanism, main shell 5 is connected with pasteurization mechanism 6.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment, in which the connecting pin 3-4 is connected to the main housing 5-1.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the first embodiment will be further described in the present embodiment, in which the main case 5 is made of ceramic.

The fourth concrete implementation mode:

the first embodiment will be further described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, in which the number of fishing wheels 3 to 5 is two.

The working principle of the device is as follows: the inclined frame 1-1 enables the slideway 1-7 to form an included angle with the horizontal plane, so that feeding is convenient, the motor I1-2 rotates, the motor I1-2 drives the belt I1-4 to rotate, the belt I1-4 drives the eccentric belt wheel 1-5 to rotate, the eccentric belt wheel 1-5 drives the mounting plate 1-6-1 to move in the rotating process, the mounting plate 1-6-1 drives the connecting plate 1-6-2 to move, the transverse spring 1-9 generates thrust on the sliding block I1-6-3 to prevent the belt I1-4 from loosening, the sliding block I1-6-3 drives the slideway 1-7 to move, the swinging seat 1-8 is connected with the slideway 1-7 to prevent the slideway 1-7 from falling, the I-steel 1-8-1 plays a role in heightening, and the vertical spring 1-8-4 plays a role in shock absorption, the connecting reversing short rod 1-8-3 is used for fixing and guiding the vertical spring 1-8-4 to prevent the spring from deviating, and materials on the slide ways 1-7 enter the crushing mechanism 2. The motor II 2-1 rotates, the motor II 2-1 drives the large belt wheel 2-2 to rotate, the large belt wheel 2-2 drives the belt II 2-3 to rotate, the belt II 2-3 drives the small belt wheel 2-4 to rotate, the small belt wheel 2-4 drives the crushing wheel 2-6 to rotate, the rotary table 2-6-1 rotates, the rotary shaft 2-6-2 drives the rotary table 2-6-1 to rotate, the rotary shaft 2-6-2 rotates to drive the sub-rotary shaft 2-6-3 to rotate, the centrifugal hammer 2-6-4 is under the action of centrifugal force, when the centrifugal hammer 2-6-4 crushes waste, if hard objects are met, the centrifugal hammer 2-6-4 deviates from the original track, so that clamping stagnation is prevented from occurring, and the motor II 2-1 is damaged; the screw rod 2-5-8 is rotated, the screw rod 2-5-8 drives the screw nut 2-5-6 to move in the vertical direction, the screw nut 2-5-6 drives the lower sliding block two 2-5-5 to move in the vertical direction, the lower sliding block two 2-5-5 drives the spring two 2-5-4 to move in the vertical direction and is used for adjusting the elasticity of the spring two 2-5-4, when the belt two 2-3 drives the tensioning belt wheel 2-5-1 to rotate, the sliding block seat two 2-5-2 fixes the tensioning belt wheel 2-5-1, the spring two 2-5-4 generates downward tension on the tensioning belt wheel 2-5-1, and the belt two 2-3 is tensioned. The power shaft 4-2-3 rotates, the power shaft 4-2-3 drives the fan blade 4-2-2 to rotate, the fan blade 4-2-2 cuts air in the rotating process, the air forms directional movement in the diversion shell 4-2-1, the directional air finally flows out from the upper flow guide pipe 4-3 and the lower layer convection guide pipe 4-4, the waste with high density sinks into the bottom of the layering pool 4-1, the waste with low density floats on the liquid level in the layering pool 4-1 and moves to two sides under the action of the upper flow guide pipe 4-3 and the lower layer convection guide pipe 4-4, the motor III 3-1 rotates, the motor III 3-1 drives the main gear 3-2 to rotate, the main gear 3-2 drives the slave gear 3-3 to rotate, the connecting pin shaft 3-4 is driven by the gear 3-3 to rotate, the connecting pin shaft 3-4 drives the fishing wheel 3-5 to rotate, the fishing wheel 3-5 salvages plastic and other wastes floating on the water surface out of the layering tank 4-1, the wastes fall into the sterilization box 6-1, the pull rod 4-6 is pulled downwards, the pull rod 4-6 drives the pull shaft 4-7 to move downwards, the pull shaft 4-7 drives the connecting rod 4-8 to move downwards, the connecting rod 4-8 drives the pull shaft 4-11 to move downwards, the pull shaft 4-11 drives the left end of the door 4-9 to move downwards, the door 4-9 rotates by taking the fixed rotating shaft 4-10 as a center, and high-density metal enters the sterilization box 6-1. The motor six 6-9 drives the main bevel gear 6-10 to rotate, the main bevel gear 6-10 drives the auxiliary bevel gear 6-11 to rotate, the auxiliary bevel gear 6-11 drives the main key 6-14 to rotate, the main key 6-14 drives the main rotating horizontal rod 6-13 to rotate, the main rotating horizontal rod 6-13 drives the main rotating shaft six 6-15 to rotate by taking the main supporting rotating rod 6-12 as the center, the sterilization box 6-1 rotates along with the main rotating shaft six 6-15, the main rotating shaft six 6-15 drives the angle seat 6-3 to rotate, the angle seat 6-3 drives the angle rotating shaft six 6-4 to rotate, the angle rotating shaft six 6-4 rotates by taking the main supporting rotating rod 6-12 as the center, and the angle supporting rotating rod 6-7 prevents the sterilization box 6-1 from overturning.

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 (4)

1. The utility model provides a medical treatment surgery operation infectious waste treatment device, includes pan feeding mechanism (1), rubbing crusher constructs (2), salvages mechanism (3), floats pond (4), main casing (5), high temperature sterilization mechanism (6), its characterized in that: the feeding mechanism (1) consists of an inclined frame (1-1), a motor I (1-2), a belt wheel (1-3), a belt I (1-4), an eccentric belt wheel (1-5), an eccentric belt wheel seat (1-6), a slide way (1-7), a swinging seat (1-8) and a transverse spring (1-9), wherein the motor I (1-2) is positioned at the upper side of the inclined frame (1-1), the motor I (1-2) is connected with the inclined frame (1-1), the belt wheel (1-3) is positioned at the side surface of the motor I (1-2), the belt wheel (1-3) is connected with the motor I (1-2), the belt I (1-4) is positioned at the upper side of the belt wheel (1-3), the belt I (1-4) is connected with the belt wheel (1-3), the eccentric belt wheel (1-5) is positioned at the left side of the belt wheel (1-3), the eccentric belt wheel (1-5) is positioned on the upper side of the belt I (1-4), the eccentric belt wheel (1-5) is connected with the belt I (1-4), the eccentric belt wheel seat (1-6) is positioned on the side surface of the eccentric belt wheel (1-5), the eccentric belt wheel seat (1-6) is connected with the eccentric belt wheel (1-5), the slide way (1-7) is positioned on the upper side of the eccentric belt wheel seat (1-6), the slide way (1-7) is connected with the eccentric belt wheel seat (1-6), the swinging seat (1-8) is positioned on the lower side of the slide way (1-7), the swinging seat (1-8) is connected with the slide way (1-7), the swinging seat (1-8) is positioned on the upper side of the inclined frame (1-1), the swinging seat (1-8) is connected with the inclined frame (1-1), the transverse spring (1-9) is positioned on the side surface of the slide way (, the transverse springs (1-9) are connected with the slideways (1-7), the transverse springs (1-9) are positioned on two sides of the eccentric pulley seat (1-6), and the transverse springs (1-9) are connected with the eccentric pulley seat (1-6);

the eccentric pulley seat (1-6) is composed of a mounting plate (1-6-1), a connecting plate (1-6-2) and a first sliding block (1-6-3), the mounting plate (1-6-1) is located on the lower side of the connecting plate (1-6-2), the mounting plate (1-6-1) is connected with the connecting plate (1-6-2), the first sliding block (1-6-3) is located on the upper side of the connecting plate (1-6-2), and the first sliding block (1-6-3) is connected with the connecting plate (1-6-2);

the slideway (1-7) consists of a feeding channel (1-7-1), a slideway I (1-7-2) and a bolt (1-7-3), the feeding channel (1-7-1) is positioned on the inner side of the slideway I (1-7-2), the feeding channel (1-7-1) is connected with the slideway I (1-7-2), the bolt (1-7-3) is positioned on the inner side of the slideway I (1-7-2), the bolt (1-7-3) is connected with the slideway I (1-7-2), the bolt (1-7-3) is positioned on the inner side of the feeding channel (1-7-1), and the bolt (1-7-3) is connected with the feeding channel (1-7-1);

the swing seat (1-8) consists of I-steel (1-8-1), a plate seat (1-8-2), a connecting backward short rod (1-8-3) and a vertical spring (1-8-4), wherein the I-steel (1-8-1) is positioned at the lower side of the plate seat (1-8-2), the I-steel (1-8-1) is connected with the plate seat (1-8-2), the plate seat (1-8-2) is positioned at the outer side of the connecting backward short rod (1-8-3), the plate seat (1-8-2) is connected with the connecting backward short rod (1-8-3), the plate seat (1-8-2) is positioned at the outer side of the vertical spring (1-8-4), the plate seat (1-8-2) is connected with the vertical spring (1-8-4), the vertical springs (1-8-4) are positioned at the outer sides of the connecting reversing short rods (1-8-3), and the vertical springs (1-8-4) are connected with the connecting reversing short rods (1-8-3);

the crushing mechanism (2) consists of a motor II (2-1), a large belt wheel (2-2), a belt II (2-3), a small belt wheel (2-4), a tension wheel (2-5), a crushing wheel (2-6) and an anti-splash shell (2-7), wherein the large belt wheel (2-2) is positioned on the side surface of the motor II (2-1), the large belt wheel (2-2) is connected with the motor II (2-1), the belt II (2-3) is positioned on the right side of the large belt wheel (2-2), the belt II (2-3) is connected with the large belt wheel (2-2), the small belt wheel (2-4) is positioned on the right side of the belt II (2-3), the small belt wheel (2-4) is connected with the belt II (2-3), the tension wheel (2-5) is positioned on the lower side of the belt II (2-3), the tension wheel (2-5) is connected with the belt II (2-3, the crushing wheel (2-6) is positioned on the side face of the small belt wheel (2-4), the crushing wheel (2-6) is connected with the small belt wheel (2-4), the splash-proof shell (2-7) is positioned on the inner side of the motor II (2-1), the splash-proof shell (2-7) is connected with the motor II (2-1), the splash-proof shell (2-7) is positioned on the inner side of the tension wheel (2-5), the splash-proof shell (2-7) is connected with the tension wheel (2-5), the splash-proof shell (2-7) is positioned on the outer side of the crushing wheel (2-6), and the splash-proof shell (2-7) is connected with the crushing wheel (2-6);

the tensioning wheel (2-5) consists of a tensioning belt wheel (2-5-1), a second slider seat (2-5-2), a second outer slide way (2-5-3), a second spring (2-5-4), a second lower slider (2-5-5), a nut (2-5-6), an inner slide way (2-5-7) and a screw rod (2-5-8), the tensioning belt wheel (2-5-1) is positioned at the upper side of the second slider seat (2-5-2), the tensioning belt wheel (2-5-1) is connected with the second slider seat (2-5-2), the second outer slide way (2-5-3) is positioned at the outer side of the second slider seat (2-5-2), the second outer slide way (2-5-3) is connected with the second slider seat (2-5-2), a second spring (2-5-4) is positioned at the lower side of a second sliding block seat (2-5-2), the second spring (2-5-4) is connected with the second sliding block seat (2-5-2), a second lower sliding block (2-5-5) is positioned at the lower side of the second spring (2-5-4), the second lower sliding block (2-5-5) is connected with the second spring (2-5-4), a nut (2-5-6) is positioned at the lower side of the second lower sliding block (2-5-5), the nut (2-5-6) is connected with the second lower sliding block (2-5-5), an inner slide way (2-5-7) is positioned at the outer side of the nut (2-5-6), the inner slide way (2-5-7) is connected with the nut (2-5-6), the inner slideway (2-5-7) is positioned at the outer side of the screw rod (2-5-8), the inner slideway (2-5-7) is connected with the screw rod (2-5-8), and the screw rod (2-5-8) is connected with the screw nut (2-5-6);

the crushing wheel (2-6) consists of a turntable (2-6-1) and a rotating shaft (2-6-2), the rotating shaft (2-6-3) is positioned at the center of the rotating disc (2-6-1), the rotating shaft (2-6-2) is connected with the rotating disc (2-6-1), the rotating shaft (2-6-3) is positioned around the rotating disc (2-6-1), the rotating shaft (2-6-3) is connected with the rotating disc (2-6-1), the centrifugal hammer (2-6-4) is positioned at the outer side of the rotating shaft (2-6-3), and the centrifugal hammer (2-6-4) is connected with the rotating shaft (2-6-3);

the salvaging mechanism (3) consists of a motor III (3-1), a main gear (3-2) and a slave gear (3-3), the fishing gear comprises a connecting pin shaft (3-4) and a fishing wheel (3-5), wherein a motor III (3-1) is positioned on the side surface of a master gear (3-2), the motor III (3-1) is connected with the master gear (3-2), the master gear (3-2) is positioned on the upper side of a slave gear (3-3), the master gear (3-2) is connected with the slave gear (3-3), the slave gear (3-3) is positioned on the side surface of the connecting pin shaft (3-4), the slave gear (3-3) is connected with the connecting pin shaft (3-4), the fishing wheel (3-5) is positioned on the side surface of the connecting pin shaft (3-4), and the fishing wheel (3-5) is connected with the connecting pin shaft (3-4);

the floating pond (4) consists of a layering pond (4-1), a blower (4-2), an upstream conduit (4-3), a lower-layer convection conduit (4-4), a discharge opening (4-5), a pull rod (4-6), a pull shaft lower part (4-7), a connecting rod (4-8), a door (4-9), a fixed rotating shaft (4-10) and a pull shaft upper part (4-11), wherein the blower (4-2) is positioned on the upper side of the layering pond (4-1), the blower (4-2) is connected with the layering pond (4-1), the upstream conduit (4-3) is positioned on the inner side of the layering pond (4-1), the lower-layer convection conduit (4-4) is positioned on two sides of the layering pond (4-1), the blower (4-2) is positioned on the upper side of the upstream conduit (4-3), the blower (4-2) is connected with the upstream conduit (4-3), the blower (4-2) is positioned at the upper side of the lower-layer convection conduit (4-4), the blower (4-2) is connected with the lower-layer convection conduit (4-4), the layering tank (4-1) is positioned at the upper side of the drainage opening (4-5), the layering tank (4-1) is connected with the drainage opening (4-5), the pull shaft lower (4-7) is positioned at the side surface of the pull rod (4-6), the pull shaft lower (4-7) is connected with the pull rod (4-6), the connecting rod (4-8) is positioned at the upper side of the pull shaft lower (4-7), the connecting rod (4-8) is connected with the pull shaft lower (4-7), the fixed rotating shaft (4-10) is positioned at the right side of the door (4-9), the fixed rotating shaft (4-10) is connected with the door (4-9), the fixed rotating shaft (4-10) is positioned at the inner side of the discharge opening (4-5), the fixed rotating shaft (4-10) is connected with the discharge opening (4-5), the pull shaft (4-11) is positioned at the upper side of the connecting rod (4-8), the pull shaft (4-11) is connected with the connecting rod (4-8), the pull shaft (4-11) is positioned at the left side of the door (4-9), and the pull shaft (4-11) is connected with the door (4-9);

the blower (4-2) consists of a flow guide shell (4-2-1), fan blades (4-2-2) and a power shaft (4-2-3), wherein the flow guide shell (4-2-1) is positioned on the outer side of the fan blades (4-2-2), the flow guide shell (4-2-1) is positioned on the outer side of the power shaft (4-2-3), the flow guide shell (4-2-1) is connected with the power shaft (4-2-3), the power shaft (4-2-3) is positioned on the inner side of the fan blades (4-2-2), and the power shaft (4-2-3) is connected with the fan blades (4-2-2);

the main shell (5) consists of a main shell body (5-1), a bottom water tank (5-2), an angle adjusting baffle plate (5-3), a side slide way (5-4), a side slide block (5-5), a hydraulic rod (5-6), a lower hinge seat (5-7) and an upper hinge seat (5-8), wherein the bottom water tank (5-2) is positioned at the lower side of the main shell body (5-1), the bottom water tank (5-2) is connected with the main shell body (5-1), the side slide way (5-4) is positioned at the side surface of the angle adjusting baffle plate (5-3), the side slide way (5-4) is connected with the angle adjusting baffle plate (5-3), the side slide block (5-5) is positioned at the inner side of the side slide way (5-4), the side slide block (5-5) is connected with the side slide way (5-4), the hydraulic rod (5-6) is positioned at the outer side, the hydraulic rod (5-6) is connected with the side sliding block (5-5), the lower hinged support (5-7) is positioned at the outer side of the hydraulic rod (5-6), the lower hinged support (5-7) is connected with the hydraulic rod (5-6), the lower hinged support (5-7) is positioned at the inner side of the main shell (5-1), the lower hinged support (5-7) is connected with the main shell (5-1), the upper hinged support (5-8) is positioned at the inner side of the main shell (5-1), the upper hinged support (5-8) is connected with the main shell (5-1), the upper hinged support (5-8) is positioned at the outer side of the angle adjusting baffle (5-3), and the upper hinged support (5-8) is connected with the angle adjusting baffle (5-3);

the high-temperature sterilization mechanism (6) consists of a sterilization box (6-1), high-temperature heating pipes (6-2), an angle seat (6-3), an angular rotating shaft six (6-4), an angular rotating horizontal rod (6-5), an angle key (6-6), an angular supporting rotating rod (6-7), a cover (6-8), a motor six (6-9), a main helical gear (6-10), a slave helical gear (6-11), a main supporting rotating rod (6-12), a main rotating horizontal rod (6-13), a main key (6-14) and a main rotating shaft six (6-15), wherein the high-temperature heating pipes (6-2) are positioned on the side surface of the sterilization box (6-1), the high-temperature heating pipes (6-2) are connected with the sterilization box (6-1), the angle seat (6-3) is positioned on the outer side of the sterilization box (6-1), the angle seat (6-3) is connected with the sterilization box (6-1), the angle rotating shaft six (6-4) is positioned at the inner side of the angle seat (6-3), the angle rotating shaft six (6-4) is connected with the angle seat (6-3), the angle rotating horizontal rod (6-5) is positioned at the lower side of the angle seat (6-3), the angle rotating horizontal rod (6-5) is connected with the angle seat (6-3), the angle rotating horizontal rod (6-5) is positioned at the outer side of the angle rotating shaft six (6-4), the angle rotating horizontal rod (6-5) is connected with the angle rotating shaft six (6-4), the angle key (6-6) is positioned at the inner side of the angle rotating horizontal rod (6-5), the angle key (6-6) is connected with the angle rotating horizontal rod (6-5), the angle key (6-6) is positioned at the upper side of the angle supporting rotating rod (6-7), the angle key (6-6) is connected with the angle support rotating rod (6-7), the cover (6-8) is positioned at the upper side of the sterilization box (6-1), the cover (6-8) is connected with the sterilization box (6-1), the main bevel gear (6-10) is positioned at the left side of the motor six (6-9), the main bevel gear (6-10) is connected with the motor six (6-9), the auxiliary bevel gear (6-11) is positioned at the upper side of the main bevel gear (6-10), the auxiliary bevel gear (6-11) is connected with the main bevel gear (6-10), the main support rotating rod (6-12) is positioned at the inner side of the auxiliary bevel gear (6-11), the main support rotating rod (6-12) is connected with the auxiliary bevel gear (6-11), and the main rotating horizontal rod (6-13) is positioned at the upper side of the main support rotating rod (6-, the main rotating horizontal rods (6-13) are connected with the main supporting rotating rods (6-12), the main keys (6-14) are positioned on the inner sides of the main rotating horizontal rods (6-13), the main keys (6-14) are connected with the main rotating horizontal rods (6-13), the main rotating shafts six (6-15) are positioned on the inner sides of the main rotating horizontal rods (6-13), and the main rotating shafts six (6-15) are connected with the main rotating horizontal rods (6-13);

the feeding mechanism (1) is located on the upper side of the crushing mechanism (2), the feeding mechanism (1) is connected with the crushing mechanism (2), the crushing mechanism (2) is located on the upper side of the floating pool (4), the crushing mechanism (2) is connected with the floating pool (4), the fishing mechanism (3) is located on the upper side of the floating pool (4), the floating pool (4) is located on the outer side of the main shell (5), the floating pool (4) is connected with the main shell (5), the floating pool (4) is located on the upper side of the high-temperature sterilization mechanism (6), the floating pool (4) is connected with the high-temperature sterilization mechanism (6), the main shell (5) is located on the outer side of the fishing mechanism (3), the main shell (5) is connected with the fishing mechanism (3), the main shell (5) is located on the outer side of the floating pool (4), the main shell (5) is connected with the floating pool (4), the main shell (5) is located on the outer side of the high-temperature sterilization mechanism (6), and the.

2. The device for the treatment of infectious waste from medical surgical operations according to claim 1, wherein: the connecting pin shaft (3-4) is connected with the main shell (5-1).

3. The device for the treatment of infectious waste from medical surgical operations according to claim 1, wherein: the main shell (5) is made of ceramic.

4. The device for the treatment of infectious waste from medical surgical operations according to claim 1, wherein: the number of the fishing wheels (3-5) is two.

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