CN212768162U - Mobile medical waste treatment equipment - Google Patents

Abstract

The utility model discloses a portable medical waste treatment equipment, include: the medical waste treatment system comprises a box body and at least one set of medical waste treatment system arranged in the box body; the medical waste treatment system comprises: a medical waste crushing device and a medical waste sterilizing device connected with the medical waste crushing device; the medical waste crushing device is used for cutting and crushing medical waste; the medical waste crushing device comprises a feeding bin, a crushing part and a discharging bin which are connected in sequence; the medical waste sterilizing device is used for receiving and sterilizing the medical waste discharged by the medical waste crushing device; the medical waste sterilization device comprises a sterilization chamber. The utility model discloses can realize medical waste's sterilization treatment on the spot to improve sterilization treatment's convenience and high efficiency.

Description

Mobile medical waste treatment equipment

Technical Field

The utility model relates to a medical waste handles technical field, especially relates to a portable medical waste treatment equipment.

Background

Waste generated in the medical industry, particularly consumable waste is waste with high risk and high pollution, and in order to avoid secondary pollution to the waste generated in the medical industry, the waste generated in the medical industry is required to be cut, crushed and then sterilized.

In the prior art, a plurality of medical waste treatment systems can be fixed at a specific position for use, medical wastes which need to be sterilized in time exist in a plurality of hospitals, and if the medical wastes cannot be treated on site, the medical wastes of different hospitals need to be transferred to a uniform treatment place, so that on one hand, the treatment efficiency is low, transfer equipment for transferring the medical wastes needs to be prepared additionally, and the transfer equipment needs to be sterilized and disinfected frequently, and the use is extremely inconvenient; on the other hand, the virus can be dissipated in the process of transferring medical waste.

Therefore, in view of the above problems, it is desirable to design a device that can facilitate sterilization of medical waste in different places on site to improve convenience and efficiency of sterilization treatment of medical waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a portable medical waste treatment equipment to solve the technical problem who improves medical waste treatment's convenience and high efficiency.

The utility model discloses a portable medical waste treatment equipment is realized like this:

a mobile medical waste treatment apparatus comprising: the medical waste treatment system comprises a box body and at least one set of medical waste treatment system arranged in the box body;

the medical waste treatment system comprises: a medical waste crushing device and a medical waste sterilizing device connected with the medical waste crushing device; wherein

The medical waste crushing device is used for cutting and crushing medical waste; the medical waste crushing device comprises a feeding bin, a crushing part and a discharging bin which are connected in sequence;

the medical waste sterilizing device is used for receiving and sterilizing the medical waste discharged by the medical waste crushing device; the medical waste sterilization device comprises a disinfection chamber.

In a preferred embodiment of the present invention, the medical waste treatment system further comprises a medical waste transport structure disposed between the medical waste crushing device and the medical waste sterilization device and adapted to transport the medical waste crushed by the medical waste crushing device;

the medical waste conveying structure is used for receiving the medical waste discharged by the discharging bin and discharging the medical waste into the medical waste sterilizing device; the medical waste transport structure comprises a transverse transport assembly and a longitudinal transport assembly which are connected; wherein

The transverse transport assembly is connected to the medical waste fragmentation device and the longitudinal transport assembly is connected to the medical waste sterilization device.

In a preferred embodiment of the present invention, the feeding bin is adapted for the medical waste material to enter; the top and the bottom of the feeding bin are both open;

the crushing part comprises a crushing bin communicated with the bottom of the feeding bin, and a crushing and cutting assembly which is arranged in the crushing bin and is suitable for crushing and cutting the medical waste raw materials fed through the feeding bin; the top and the bottom of the crushing bin are both open; the opening at the bottom of the feeding bin is communicated with the crushing bin;

the top and the bottom of the discharging bin are open, and the top of the discharging bin is communicated with the bottom of the crushing bin; the bottom of the discharging bin is communicated with the transverse transmission assembly.

In a preferred embodiment of the present invention, the feeding bin is further provided with a blocking cover assembly adapted to simultaneously block the open top and bottom of the feeding bin;

the blocking cover assembly comprises a bottom cover suitable for sealing an open opening at the bottom of the feeding bin and a top cover connected with the bottom cover through a linkage rod and suitable for sealing the top of the feeding bin; wherein

The bottom cover is connected with the inner wall of the side plate of the feeding bin through a rotating shaft; and

the rotating shaft is connected with a rotary driving structure which is suitable for driving the rotating shaft to rotate.

In a preferred embodiment of the present invention, two ends of the rotating shaft penetrate through the side plates of the feeding bin, and one end of the rotating shaft is connected to the rotation driving structure;

the rotary driving structure comprises a movable rod and a cylinder, wherein one end of the movable rod is fixedly connected with the rotating shaft, and the cylinder is movably connected with the other end of the movable rod.

In a preferred embodiment of the present invention, the shredding assembly comprises two cutter shafts rotatably connected to the cavity wall of the crushing bin and disposed inside the crushing bin;

the two cutter shafts are arranged in a staggered manner and comprise an upper cutter shaft group positioned above and a lower cutter shaft group positioned below;

the upper cutter shaft group comprises a pair of upper cutter shafts which are arranged at intervals in parallel;

the lower cutter shaft group comprises a pair of lower cutter shafts which are arranged in parallel in an interval formed between the pair of upper cutter shafts; and

a plurality of cutters are sleeved on the upper cutter shaft and the lower cutter shaft;

the cutting knives on the upper knife shafts and the cutting knives on the lower knife shafts adjacent to the corresponding upper knife shafts in the pair of lower knife shafts are arranged in a staggered mode;

and the cutting knives on the pair of lower knife shafts are arranged in a staggered way.

In a preferred embodiment of the present invention, the lateral conveying assembly comprises a lateral conveying pipe adapted to communicate with the discharging bin and a lateral auger disposed in the lateral conveying pipe; and

the longitudinal transmission assembly comprises a longitudinal conveying pipe which is communicated with the transverse conveying pipe and is bent relative to the transverse conveying pipe, and a longitudinal packing auger arranged in the longitudinal conveying pipe; wherein

The longitudinal conveying pipe is suitable for being communicated with the disinfection cabin.

In a preferred embodiment of the present invention, a feed inlet adapted to communicate with the longitudinal conveying assembly is disposed at the top of the sterilizing chamber, and a discharge outlet is disposed at one end of the sterilizing chamber in the width direction; and

the discharge hole is also provided with a bin gate locking mechanism;

the feed inlet is also connected with a feed pipe which is integrally connected with the disinfection bin; the feed pipe is suitable for being communicated with the longitudinal transmission assembly;

a supporting plate is fixedly connected to the outer side wall of the feeding pipe;

a plugging plate suitable for plugging the nozzle of the feed pipe is arranged at the nozzle of the feed pipe;

the plugging plate is suitable for being accommodated in the supporting plate and is connected with the supporting plate through a second telescopic cylinder arranged outside the supporting plate, namely the second telescopic cylinder is suitable for driving the plugging plate to move to the pipe opening of the feeding pipe along the supporting plate so as to plug the pipe opening of the feeding pipe.

In the preferred embodiment of the utility model, a material mixing and pushing mechanism is also arranged in the disinfection bin;

mix material pushing equipment including locating disinfection storehouse in the auger, with the auger links to each other and locates the rotation axis of the other end of disinfection storehouse axis direction, and locate the outer drive that is suitable for of disinfection storehouse the rotatory rotary power structure of rotation axis.

In the preferred embodiment of the present invention, the door locking mechanism includes:

the bin cover is suitable for covering the discharge port of the disinfection bin;

the bin cover pushing unit comprises a pushing assembly connected with the bin cover so as to enable the bin cover to move along the radial line direction of the discharge port, and a pushing power structure connected with the pushing assembly and suitable for driving the pushing assembly to drive the bin cover to cover the discharge port;

the bin cover pushing unit comprises a pushing assembly and a driving structure, wherein the pushing assembly is suitable for pushing the bin cover from the end surface of one side, away from the discharge hole of the disinfection bin, of the bin cover along the axis direction of the discharge hole, and the driving structure is connected with the pushing assembly and drives the pushing assembly to push the bin cover;

the pushing assembly comprises a group of linkage plates connected with the top of the bin cover and a sliding plate connected with the group of linkage plates simultaneously;

a sliding rail in sliding fit with the sliding plate is arranged on the side wall of the disinfection bin and above the discharge port; the slide rail is positioned on the end surface of one side of the disinfection bin, which faces the bin cover; and

the pushing power structure is a first telescopic cylinder which is fixedly connected to the bin wall of the disinfection bin and is positioned above the discharge port;

the first telescopic cylinder is positioned on the end surface of one side of the disinfection bin, which is far away from the bin cover;

the pushing assembly comprises a pair of symmetrically arranged fixed block groups arranged on the side end face of the bin cover, which is far away from the discharge hole of the disinfection bin, a pair of abutting wheel groups which are respectively suitable for abutting against the fixed block groups, and a pair of eccentric shafts which are respectively connected with the abutting wheel groups to drive the abutting wheel groups to rotate;

the fixed block group comprises two fixed blocks which are arranged at intervals;

the propping wheel set comprises two propping wheels which are arranged at intervals and are respectively suitable for correspondingly propping against the two fixed blocks;

the driving structure adopts a pair of rotating cylinders respectively connected with a pair of eccentric shafts.

In a preferred embodiment of the present invention, the mobile medical waste treatment facility comprises two medical waste treatment systems disposed in a tank;

two sets of medical waste treatment systems adopt a medical waste sterilization device.

By adopting the technical scheme, the utility model discloses following beneficial effect has: the utility model discloses a portable medical waste treatment equipment, through medical waste breaker, medical waste transmission structure and the medical waste sterilization apparatus that is equipped with in the box, so, only need realize the removal to the box through the car, can remove the box to the place that needs carry out medical waste sterilization treatment to disinfect on the spot to medical waste, improve convenience and the high efficiency to medical waste sterilization treatment.

Drawings

FIG. 1 is a schematic view showing the overall structure of a mobile medical waste treatment apparatus according to the present invention;

FIG. 2 is a partial schematic view of the mobile medical waste treatment apparatus of the present invention;

FIG. 3 is a schematic view of the horizontal auger and the vertical auger of the mobile medical waste treatment device of the present invention;

FIG. 4 is a schematic view of a medical waste sterilization device of the portable medical waste treatment apparatus according to the present invention from a first perspective;

FIG. 5 is a schematic view of a medical waste sterilization device of the portable medical waste treatment apparatus according to the present invention from a second perspective;

FIG. 6 is a first partial schematic view of a medical waste sterilization device of the mobile medical waste treatment facility of the present invention;

FIG. 7 is a schematic view from a third perspective of the medical waste sterilization device of the portable medical waste treatment apparatus of the present invention;

FIG. 8 is a second partial schematic view of the medical waste sterilization device of the portable medical waste treatment facility of the present invention;

FIG. 9 is a third schematic view of a part of a medical waste sterilization device of the portable medical waste treatment apparatus of the present invention;

FIG. 10 is a schematic view of the shredding assembly of the medical waste fragmenting device of the present invention;

FIG. 11 is a schematic view of a cutting knife of the medical waste sterilization device of the present invention;

FIG. 12 is a first partial schematic view of a medical waste sterilization device of the mobile medical waste treatment facility of the present invention;

FIG. 13 is a second partial schematic view of the medical waste sterilization device of the portable medical waste treatment apparatus of the present invention;

FIG. 14 is a schematic view of a first perspective of a feed bin of the mobile medical waste treatment apparatus of the present invention;

FIG. 15 is a schematic view of a second perspective of the feed bin of the portable medical waste treatment apparatus of the present invention;

FIG. 16 is a schematic view of a first perspective of the loading unit of the mobile medical waste treatment apparatus of the present invention;

FIG. 17 is a schematic view of a second perspective of the loading unit of the mobile medical waste treatment apparatus of the present invention;

FIG. 18 is a schematic view showing the overall construction of a mobile medical waste treatment apparatus according to another embodiment of the present invention;

fig. 19 is a schematic view showing an internal structure of a mobile medical waste treatment apparatus according to another embodiment of the present invention.

In the figure: the device comprises a bin cover 100, a disinfection bin 200, a discharge port 201, a sliding plate 301, a lower hinge 302, a door hanging chain plate 303, an upper hinge 305, a sliding rail 307, a first telescopic cylinder 308, a connecting rod 309, a fixing block 310, a scraping rod 312, an eccentric shaft 401, a resisting wheel 402, a rotating gas 403, a supporting leg 405, a connecting column 407, an auger 501, a rotating shaft 503, a speed reducing motor 505, an air inlet 506, an air outlet 508, a butt joint port 510, a feeding pipe 601, a supporting plate 602, a blocking plate 604, a second telescopic cylinder 605, a containing groove 607 and a sealing ring 610.

Detailed Description

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

Example 1:

referring to fig. 1 to 15, the present embodiment provides a mobile medical waste treatment apparatus, including: the medical waste treatment system comprises a box body A and at least one set of medical waste treatment system arranged in the box body. That is, one set of medical waste treatment system or two or more sets of medical waste treatment systems can be selectively arranged in the box body according to the sizes of different box bodies. The adaptive box body can be selected according to the amount of the medical waste to be treated, so that the treatment efficiency of the medical waste is improved. When a plurality of sets of medical waste treatment systems are provided, each set of medical waste treatment systems may alternatively have the same structure and operate independently of each other, and for this case, the present embodiment will be described in detail only with respect to the structure of a single set of medical waste treatment systems.

In detail, the medical waste treatment system comprises: a medical waste crushing device and a medical waste sterilizing device connected with the medical waste crushing device. The medical waste crushing device is used for cutting and crushing medical waste; the medical waste crushing device comprises a feeding bin 1, a crushing part and a discharging bin 4 which are connected in sequence. A medical waste sterilizing device for receiving and sterilizing the medical waste discharged from the medical waste crushing device; the medical waste sterilization device comprises a sterilization chamber.

In an optional implementation case, the medical waste treatment system of the embodiment further includes a medical waste conveying structure for receiving the medical waste discharged from the discharging bin 4 and discharging the medical waste into the medical waste sterilizing device; the medical waste transport structure includes a lateral transport assembly and a longitudinal transport assembly coupled together. Wherein the transverse transport assembly is connected to the medical waste fragmentation device and the longitudinal transport assembly is connected to the medical waste sterilization device.

In more detail, the feeding bin 1 is suitable for the medical waste raw material to enter; the top and the bottom of the feeding bin 1 are both open. The crushing part comprises a crushing bin 2 communicated with the bottom of the feeding bin 1 and a crushing and cutting assembly which is arranged in the crushing bin 2 and is suitable for crushing and cutting medical waste raw materials fed through the feeding bin; the top and the bottom of the crushing bin 2 are both open; and the open mouth at the bottom of the feeding bin 1 is communicated with the crushing bin 2; the top and the bottom of the discharging bin 4 are open, and the top of the discharging bin 4 is communicated with the bottom of the crushing bin 2; the bottom of the discharging bin 4 is communicated with a transverse transmission assembly.

In addition, it should be noted that the feeding bin of this embodiment is further provided with a cover assembly adapted to close the open top and bottom of the feeding bin 1 at the same time; the blocking cover component comprises a bottom cover which is suitable for sealing an open opening at the bottom of the feeding bin 1, and a top cover 3 which is connected with the bottom cover 5 through a linkage rod 6 and is suitable for sealing the top of the feeding bin 1; wherein the top cover 3 and the bottom cover 5 are adapted to be simultaneously opened or closed with respect to the open top of the feeding chamber 1 and the open bottom of the feeding chamber 2, respectively. That is to say at the in-process that needs drop into medical waste to broken storehouse 2 for top cap 3 and bottom 5 are the open mode simultaneously, and after the material of throwing of accomplishing medical waste, make top cap 3 and bottom 5 be the closed condition simultaneously again, avoid the medical waste in broken storehouse 2 to have the dust to spill from feeding storehouse 1 part at the in-process of carrying out broken operation to medical waste.

The top cover 3 and the bottom cover 5 of the embodiment are linked through the linkage rod 6, so that the opening or closing state switching of the top cover and the bottom cover can be realized only through one driving structure, the structure can be simplified, and the energy consumption can be saved. In detail, the top cover 3 is hinged with a side plate of the feeding bin 1; the bottom cover 5 is connected with the inner wall of the side plate of the feeding bin 1 through a rotating shaft 8; and the rotating shaft 8 is connected with a rotary driving structure which is suitable for driving the rotating shaft to rotate. An optional implementation case is as an example, two ends of the rotating shaft 8 penetrate through the side plates of the feeding bin 1, and one end of the rotating shaft 8 is connected with a rotary driving structure; the rotary driving structure comprises a movable rod 9 with one end fixedly connected with the rotating shaft 8 and a cylinder 10 movably connected with the other end of the movable rod 9. This cylinder 10 is fixed on the outer wall of the curb plate of feeding storehouse 1 to make cylinder 10 flexible can drive the motion of movable rod 9, and then the rotation of rethread movable rod 9 drive pivot 8, in order to realize bottom 5 round the rotation of pivot 8 and realize the switching of the open and closed state of bottom 5. At this time, the switching of the opening and closing states of the top cover 3 is realized through the action of the linkage rod 6.

The crushing and cutting assembly adopted by the embodiment comprises two groups of cutter shafts which are arranged inside the crushing bin 2 and are rotationally connected with the cavity wall of the crushing bin 2; the two cutter shafts are arranged in a staggered manner and comprise an upper cutter shaft group positioned above and a lower cutter shaft group positioned below; the upper cutter shaft group comprises a pair of upper cutter shafts 21 which are arranged at intervals in parallel; the lower cutter shaft group comprises a pair of lower cutter shafts 22 which are arranged in parallel in an interval formed between the pair of upper cutter shafts 21; the upper cutter shaft 21 and the lower cutter shaft 22 are sleeved with a plurality of cutters 24; the cutting knife 24 on the upper knife shaft 21 and the cutting knife 24 on the lower knife shaft 22 adjacent to the corresponding upper knife shaft 21 in the pair of lower knife shafts 22 are arranged in a staggered way; and the cutting knives 24 on the pair of lower knife shafts 22 are arranged in a staggered way.

Two groups of cutter shafts in the crushing bin 2 are viewed from the angle of the feeding bin 1 in a top view, namely an upper cutter shaft 21, a lower cutter shaft 22 and the upper cutter shaft 21 in sequence, and the pair of lower cutter shafts 22 are positioned between the pair of upper cutter shafts 21 from a transverse view line. Like this, form the cutting breakage to the multidimension degree of the medical waste who gets into in broken storehouse 2 for medical waste not only has the cutting effort between lower arbor 22, also has the cutting effort between adjacent upper arbor 21 and lower arbor 22, improves the thoroughness to the cutting breakage of medical waste.

Wherein, at least one end of the pair of upper knife shafts 21 and the pair of lower knife shafts 22 is sleeved with a rotating gear 25 which is suitable for driving the corresponding knife shafts to rotate. Here, the pair of upper knife shafts 21 and the pair of lower knife shafts 22 may also be sleeved with the rotating gear 25 at both ends, and in this embodiment, in view of energy consumption of the power saving structure, the rotating gear 25 is sleeved at one end of the pair of upper knife shafts 21 and the pair of lower knife shafts 22, and the other end is sleeved with the rotating bearing, so that the upper knife shafts 21 and the lower knife shafts 22 can rotate relative to the cavity wall of the crushing bin 2. The turning gear 25 here provides the power for the rotation of the knife shaft.

Optionally, the rotating gear 25 sleeved on the end of each adjacent upper knife shaft 21 and lower knife shaft 22 is meshed and connected; and the rotating gears 25 at the ends of the pair of upper knife shafts 21 are respectively connected with a rotating power structure which is suitable for driving the rotating gears 25 to rotate. The rotary power structure here is, for example, but not limited to, a hydraulic motor 27, and under the action of the hydraulic motor 27, the rotating gear 25 on the upper knife shaft 21 rotates, and the rotating gear 25 on the lower knife shaft 22 meshed with the rotating gear 25 on the upper knife shaft 21 rotates synchronously, at this time, every adjacent upper knife shaft 21 and lower knife shaft 22 rotate oppositely to drive the cutting knives 24 on the knife shafts to generate cutting and crushing forces on the medical wastes respectively.

More specifically, the cutting blade 24 of the present embodiment includes a main body 28 and a plurality of hook-shaped teeth 29 uniformly disposed on a circumferential sidewall of the main body 28, and bending directions of the plurality of hook-shaped teeth 29 are disposed along a rotation direction of the main body 28 when rotating along with the knife shaft, where three hook-shaped teeth 29 disposed on the main body 28 are taken as an example. The hook-shaped teeth 29 of every two adjacent cutting knives 24 in the plurality of cutting knives 24 positioned on the same cutter shaft are arranged in a staggered mode, specifically, the staggered arrangement refers to that the arrangement positions of the hook-shaped teeth 29 relative to the body 28 are staggered, but the bending directions of the hook-shaped teeth 29 on the plurality of cutting knives 24 on the same cutter shaft relative to the body 28 are all kept consistent.

Optionally, the bending directions of the hook-shaped teeth 29 of the cutting knives 24 on the upper knife shafts 21 on the pair of upper knife shaft groups are oppositely arranged; and the bending directions of the hook-shaped teeth 29 of the cutting knife 24 on the pair of lower knife shafts 22 are arranged oppositely; the bending directions of the hook-shaped teeth 29 of the cutting knives 24 on each adjacent upper knife shaft 21 and lower knife shaft 22 are the same, and the rotating directions of each adjacent upper knife shaft 21 and lower knife shaft 22 are combined to rotate oppositely, so that the medical waste entering the crushing bin 2 is cut in multiple dimensions, and the cutting and crushing thoroughness of the medical waste is improved.

In the medical waste conveying structure of the embodiment, the transverse conveying component of the medical waste conveying structure comprises a transverse conveying pipe 12 suitable for being communicated with the discharging bin 4 and a transverse packing auger 13 arranged in the transverse conveying pipe; the longitudinal transmission assembly comprises a longitudinal transmission pipe 15 which is communicated with the transverse transmission pipe 12 and is bent relative to the transverse transmission pipe 12, and a longitudinal packing auger 17 arranged in the longitudinal transmission pipe 15; wherein the longitudinal duct 17 is adapted to communicate with the sterilization chamber 200.

With reference to the drawings of the present embodiment, an alternative implementation case is taken as an example: the transverse duct 12 of this embodiment is arranged at a perpendicular angle to the longitudinal duct 15. This embodiment sets up medical waste transmission structure between medical waste breaker and medical waste sterilization apparatus, has played the effect to the orderly transmission of medical waste after the breakage, and the medical waste who avoids through broken processing directly concentrates the medical waste jam that drops into to cause in the disinfection storehouse in a certain department and influence the problem production of disinfection homogeneity. But also plays a role in the transition connection of different calibers between the discharge hole of the crushing bin 2 and the feed inlet between the sterilizing bin 200 through the medical waste transmission structure.

Taking the disinfection chamber 200 of a cylindrical structure as an example with the attached drawings of the embodiment, a feed inlet is arranged at the top of the radial side wall of the disinfection chamber 200, and a discharge outlet 201 is arranged at one end of the disinfection chamber 200 in the axial direction. And a material mixing and pushing mechanism is also arranged in the disinfection bin 200. A bin gate locking mechanism is arranged on the disinfection bin 200 and at the discharge hole 201.

Door locking mechanism includes: the device comprises a bin cover 100, a bin cover pushing unit and a bin cover pushing unit, wherein the bin cover pushing unit is suitable for pushing the bin cover 100 to move along the radial line direction of a discharge port 201 of the disinfection bin 200, and the bin cover pushing unit is suitable for enabling the bin cover 100 to be tightly pressed on the discharge port 201 from the bin cover 100 along the axial line direction of the disinfection bin 200.

The bin cover 100 is suitable for covering the discharge hole 201 of the disinfection bin 200; the discharge port 201 is arranged on one side wall of the disinfection bin 200, and the caliber of the discharge port 201 is smaller than the size of the side wall of the disinfection bin 200. Under the condition that the bin cover 100 is not used, namely when the discharge port 201 is not covered, the bin cover 100 is positioned beside the discharge port 201, so that the discharge port 201 can discharge materials normally.

The bin cover pushing unit comprises a pushing assembly connected with the bin cover 100 to enable the bin cover 100 to move along the radial line direction of the discharge port 201, and a pushing power structure connected with the pushing assembly and suitable for driving the pushing assembly to drive the bin cover 100 to cover the discharge port 201.

The bin cover pushing unit comprises a pushing assembly and a driving structure, wherein the pushing assembly is suitable for pushing the bin cover 100 from one side end face of the bin cover 100, which is far away from the discharge hole 201 of the disinfection bin 200, along the axial direction of the discharge hole 201, and the driving structure is connected with the pushing assembly and drives the pushing assembly to push the bin cover 100.

It should be noted that, in order to facilitate the arrangement of the bin cover pushing unit and the bin cover pushing unit, in this embodiment, the area of the bin wall of the side of the disinfection bin 200 where the discharge port 201 is arranged is larger than the area of the side of the disinfection bin 200 away from the discharge port 201.

Specifically, the pushing assembly adopted in this embodiment includes a set of linkage plates connected to the top of the bin cover 100, and a sliding plate 301 connected to the set of linkage plates at the same time. The group of linkage plates are arranged at intervals so as to realize the stability of the group of linkage plates in the process of driving the bin cover 100 to move under the action of the sliding plate 301.

Optionally, in order to reduce the resistance of the bin cover 100 in the process of moving in the radial direction relative to the discharge port 201, the linkage plate adopted in this embodiment includes a lower hinge 302 fixedly connected to the bin cover 100, a door hanging chain plate 303 hinged to the lower hinge 302, and an upper hinge 305 hinged to the door hanging chain plate 303; the upper hinge 305 is here fixedly connected to the slide plate 301. The upper hinge 305 and the lower hinge 302 are fixedly connected to the sliding plate 301 and the bin cover 100, respectively, by means of, for example, but not limited to, screw fixation. Through the structure of the linkage plate, the bin cover 100 is not tightly attached to the discharge port 201 when moving along the radial line direction of the sliding plate 301 relative to the discharge port 201, so that the friction between the bin cover 100 and the bin wall of the disinfection bin 200 at the discharge port 201 can be reduced, namely the resistance to the movement of the bin cover 100 is reduced. And the structure of the linkage plate ensures that the bin cover 100 moves towards one side of the discharge port 201 when the bin cover pushing unit pushes the bin cover 100, so that the tight attaching effect of the bin cover 100 relative to the discharge port 201 is not influenced.

In order to adjust the tight attaching effect of the bin cover 100 relative to the discharge port 201 through the upper hinge 305, the lower hinge 302 and the door hanging chain plate 303, the bottom edge of the bin cover 100 of the embodiment is not provided with any connecting structure with the bin wall of the sterilization bin 200, so that when the bin cover pushing unit pushes against the bin cover 100, the bin cover 100 can adjust the tight attaching effect of the bin cover 100 relative to the discharge port 201 through the upper hinge 305, the lower hinge 302 and the door hanging chain plate 303, and the bottom of the bin cover 100 does not have any resistance effect. Under the condition that no bin cover 100 pushing unit applies thrust to the bin cover 100, a gap R exists between the bin cover 100 and the discharge port 201, and the existence of the gap R enables the bin cover 100 to move quickly and smoothly along the radial direction of the discharge port 201.

In an alternative embodiment, a sealing ring with an annular structure is disposed on an end surface of the discharge port 201 facing the cover 100, and the sealing ring is pressed when the cover 100 presses the discharge port 201, so as to improve the sealing effect between the cover 100 and the discharge port 201.

A sliding rail 307 which is in sliding fit with the sliding plate 301 is arranged on the side wall of the disinfection bin 200 and above the discharge hole 201; the slide rail 307 is positioned on the end surface of one side of the disinfection bin 200 facing the bin cover 100; the pushing power structure is a first telescopic cylinder 308 which is fixedly connected with the bin wall of the disinfection bin 200 and is positioned above the discharge port 201; the first telescopic cylinder 308 is located on the end surface of the disinfection bin 200 facing away from the bin cover 100. When the piston rod of the first telescopic cylinder 308 extends, the bin cover 100 is in an open state relative to the discharge port 201, and when the piston rod of the first telescopic cylinder 308 retracts, the bin cover 100 is in a closed state relative to the discharge port 201.

In order to ensure that the discharge of the discharge port 201 is not affected when the bin cover 100 is opened relative to the discharge port 201, the length of the sliding rail 307 designed in the embodiment is 1.3 to 1.6 times of the length of the side wall of the disinfection bin 200 provided with the discharge port 201; since the sliding plate 301 and the first telescopic cylinder 308 are respectively located at both sides of the wall of the sterilizing compartment 200, the end of the piston rod of the first telescopic cylinder 308 of the present embodiment is connected to the sliding plate 301 through a connecting rod 309.

More specifically, the pushing assembly includes a pair of symmetrically disposed fixed block sets disposed on a side end surface of the cap 100 away from the discharge port 201 of the sterilization chamber 200, a pair of abutting wheel sets adapted to abut against the pair of fixed block sets, and a pair of eccentric shafts 401 connected to the pair of abutting wheel sets respectively to drive the abutting wheel sets to rotate; the fixed block group comprises two fixed blocks 310 arranged at intervals; the propping wheel set comprises two propping wheels 402 which are arranged at intervals and are respectively suitable for correspondingly propping against the two fixed blocks 310; the driving structure employs a pair of rotary air cylinders 403 respectively connected to a pair of eccentric shafts 401. It should be noted that a pair of rotary air cylinders 403 are respectively arranged on a pair of front support frames, the front support frames are positioned on one side of the outside of the disinfection bin 200 facing the discharge port 201, a specific front support frame comprises a pair of support legs 405 connected with the bin wall of the disinfection bin 200 and a connecting column 407 fixedly connected between the pair of support legs 405, the rotary air cylinder 403 is arranged on one support leg 405 of the pair of support legs 405, and optionally, the rotary air cylinder 403 is arranged on the top of the support leg 405 above the pair of support legs 405; the rotary air cylinder 403 is connected to an eccentric shaft 401 passing through a support leg 405 by a coupling so that the rotary air cylinder 403 rotates the eccentric shaft 401. Furthermore, at least one pair of supporting blocks for supporting the eccentric shaft 401 is provided at one side end of the connecting column 407 facing the cover 100; the bearing block is fixedly connected with the connecting column 407, the eccentric shaft 401 is rotatably connected with the bearing block, and the eccentric shaft can be connected with the bearing block through a bearing.

In an alternative embodiment, in order to facilitate the cleaning of medical waste adhered to the outlet 201 when the outlet 201 discharges medical waste, the door locking mechanism of this embodiment further includes a scraping bar 312 disposed at one side edge of the cover 100 and adapted to be vertically distributed with respect to the sliding rail 307. That is, the first telescopic cylinder 308 drives the bin cover 100 to move along the radial direction of the discharge port 201 to drive the scraping rod 312 to clean the medical waste adhered to the discharge port 201. The side end surface of the scraping rod 312 facing the discharge port 201 is preferably provided as a cylindrical surface, and the scraping rod 312 is fixedly connected with the bin cover 100 through, for example, but not limited to, a connecting block.

The specific implementation principle of the bin gate locking mechanism of the embodiment is as follows:

under the first state, the bin cover 100 is in an open state relative to the discharge port 201, the piston rod of the first telescopic cylinder 308 at the moment is in a stretching state, when the bin cover 100 needs to be covered on the discharge port 201, the piston rod of the first telescopic cylinder 308 retracts, at the moment, the bin cover 100 stably moves along the radial line direction of the discharge port 201 to gradually cover the discharge port 201 under the action of the first telescopic cylinder 308 and the sliding plate 301, and at the moment, the bin cover 100 is switched from the first state to the second state to be covered on the discharge port 201. At this time, in order to improve the tightness after the cover between the bin cover 100 and the discharge port 201 is closed, the rotating cylinder 403 drives the eccentric shaft 401 to rotate, the eccentric shaft 401 at this time drives the abutting wheel 402 on the eccentric shaft 401 to abut against the fixing block 310 on the bin cover 100, and the bin cover 100 forms an abutting force moving towards the discharge port 201 along the axial direction of the discharge port 201 so as to resist the abutting force towards the abutting wheel 402 direction caused by the high-temperature steam in the sterilization bin 200 on the bin cover 100, thereby ensuring that the bin cover 100 is tightly attached to the discharge port 201 and ensuring the better air tightness of the discharge port 201.

In addition, more specifically, the stirring and pushing mechanism adopted in this embodiment includes an auger 501 disposed in the disinfection bin 200, a rotating shaft 503 connected to the auger 501 and disposed at the other end of the disinfection bin 200 in the axial direction, and a rotary power structure disposed outside the disinfection bin 200 and adapted to drive the rotating shaft 503 to rotate. The rotary power structure herein employs, for example, but not limited to, a reduction motor 505. It should be noted that auger 501 that this embodiment optionally adopts is the shaftless auger to avoid having the axle auger to form the problem of piling up to medical waste's dead angle department. Therefore, the rotating shaft 503 of this embodiment is only fixedly connected to one end of the screw 501, and the rotating shaft 503 passes through the other end (here, the other end is the end away from the discharge port 201) of the disinfection bin 200 in the axial direction to be connected to the speed reduction motor 505 fixed outside the disinfection bin 200.

It should be noted that, for the auger 501 of the present embodiment, on one hand, the medical waste in the disinfection chamber 200 in the disinfection state can be turned over by controlling the forward rotation and the reverse rotation of the speed reduction motor 505, so as to improve the thoroughness of the disinfection and sterilization of the medical waste in the disinfection chamber 200. On the other hand, the medical waste in the disinfection bin 200 can be discharged to one side of the discharge hole 201 through the packing auger 501, so that the medical waste in the disinfection bin 200 can be rapidly discharged under the action of the packing auger 501.

The medical waste disinfection device of the present embodiment sterilizes medical waste by using high-temperature steam for disinfection, so that at least two air inlets 506 suitable for introducing steam into the disinfection chamber 200 and at least two air outlets 508 suitable for discharging steam in the disinfection chamber 200 are provided on the side wall of the disinfection chamber 200 of the present embodiment; and at least two microwave generators (not shown) adapted to perform microwave heating inside the sterilization chamber 200 are further provided on the side wall of the sterilization chamber 200. Here, in order to facilitate maintenance of the microwave generator, the microwave generator is disposed outside the sterilization chamber, and the microwave output tube of the microwave generator is connected to the docking port 510 formed on the sidewall of the sterilization chamber 200, so that the steam inside the sterilization chamber 200 is heated by the microwave to form a high-temperature steam environment in the sterilization chamber 200.

In the embodiment, the air tightness of the feeding hole is improved, and specifically, the feeding hole is provided with a feeding pipe 601 integrally connected with the disinfection bin 200; a supporting plate 602 is fixedly connected to the outer side wall of the feeding pipe 601; a plugging plate 604 suitable for plugging the nozzle of the feed pipe 601 is arranged at the nozzle of the feed pipe 601; the plugging plate 604 is adapted to be received inside the supporting plate 602, and the plugging plate 604 is connected by a second telescopic cylinder 605 arranged outside the supporting plate 602, i.e. the second telescopic cylinder 605 is adapted to drive the plugging plate 604 to move along the supporting plate 602 towards the mouth of the feeding pipe 601 to plug the mouth of the feeding pipe 601. The support plate 602 here has a receiving function for the blocking plate 604 by the inside of the support plate, and a supporting and fixing function for the second telescopic cylinder 605 by the outside of the support plate 602.

In order to improve the plugging effect of the plugging plate 604 relative to the feeding pipe 601 in the process that the plugging plate 604 plugs the pipe orifice of the feeding pipe 601 under the pushing action of the piston rod of the second telescopic cylinder 605, the inner wall of the pipe orifice of the feeding pipe 601 is provided with an accommodating groove 607 which is of an annular structure and is suitable for being inserted into the edge of the plugging plate 604, namely, the accommodating groove 607 is clamped and embedded into the edge of the plugging plate 604, so that the edge of the plugging plate 604 cannot leak air.

In order to further improve the air tightness between the edge of the blocking plate 604 and the opening of the feeding pipe 601, in this embodiment, a sealing ring 610 is further attached to the groove wall of the accommodating groove 607 away from the sterilizing chamber 200 along the groove, so that when the high-temperature steam in the sterilizing chamber 200 forms a pushing force on the blocking plate 604 toward the opening side of the feeding pipe 601 (the side away from the sterilizing chamber 200), the blocking plate 604 can form a squeezing action on the sealing ring 610, and along with the squeezing deformation of the sealing ring 610, the air tightness of the opening of the feeding pipe 601 can be improved.

It should be noted that, in order to facilitate the mobile medical waste treatment equipment of the present embodiment to work in an environment where medical waste needs to be sterilized on site, the present embodiment further provides a self-generating device suitable for generating power in the box body a, so that even in an environment where the commercial power cannot be connected, power can be supplied to the power-requiring structure of the mobile medical waste treatment equipment through the self-generating device; of course, the electricity-requiring structure in the mobile medical waste treatment equipment of the embodiment can also be connected with the commercial power through a cable, and the self-generating structure can be used as a reserve power supply to a special environment and is not convenient for being connected with the commercial power.

Example 2:

referring to fig. 16 and 17, in the present embodiment, on the basis of the mobile medical waste treatment apparatus in embodiment 1, the medical waste treatment system further includes a feeding unit.

The feeding unit comprises a pair of feeding rails 51 arranged towards the side plates of the feeding bin 1, a feeding trolley 52 arranged on the feeding rails 51 and suitable for moving along the feeding rails 51, and a feeding power mechanism arranged on the feeding rails 51 and suitable for driving the feeding trolley 52 to move along the feeding rails 51.

The feeding power mechanism comprises a pulley assembly connected with one side end of the feeding vehicle 52 facing the feeding rail 51 and a traction assembly connected with the pulley assembly; the pulley assembly comprises a pulley fixing frame 58 and two groups of sliding wheels 59 which are in sliding connection with the pair of feeding rails 51 one by one; each set of sliding wheels 59 includes two lower sliding wheels 59 arranged in parallel and an upper sliding wheel 60 arranged separately and above the lower sliding wheels, and the pulley fixing frame 58 is connected with the lower sliding wheels 59 respectively arranged on the pair of feeding rails 51 in a matching way.

The traction assembly comprises a traction track 61 arranged between the pair of feeding tracks 51, a traction chain (not labeled in the figure) arranged along the length direction of the traction track 61, and a group of traction wheels 63 connected with the traction chain and arranged in the traction track 61; one traction wheel 63 in the group of traction wheels 63 is connected with a speed reducing motor 65 fixedly arranged at the bottom of the traction rail 61 far away from the feeding bin 1, and a traction chain is connected with the pulley fixing frame 58. That is, the drag chain is circularly rotated around the longitudinal direction of the drag rail 61 by the deceleration motor 65, and the pulley holder 58 on the drag chain is driven to reciprocate along the longitudinal direction of the drag rail 61 in the process of the circular reciprocating rotation of the drag chain. In the embodiment, the traction chain circularly and reciprocally rotates around the traction wheel 63 by controlling the forward rotation and the reverse rotation of the speed reducing motor 65, so that the feeding trolley 52 ascends and descends on the feeding track 51 to move back and forth, and the feeding and the transportation of the medical waste raw materials are realized.

The ends of the pair of loading rails 51 near the door are respectively provided with a bending part 66 bending towards the side door, and the pulley fixing frame 58 is further provided with a pair of auxiliary sliding wheels 67 which are symmetrically arranged and are suitable for being connected with the traction rail 61 in a sliding manner. A pair of auxiliary pulleys 67 are provided on the side end surfaces of the traction rails 61 respectively facing the pair of loading rails 51, the auxiliary pulleys 67 move along the traction rails 61 as the lower pulleys 59 and the upper pulleys 60 move along the pair of loading rails 51, and the maximum elevation height of the loading wagon 52 is defined by the auxiliary pulleys 67. The movement of the auxiliary sliding wheels 67 along the traction rails 61 here also improves the stability during the movement of the loading carriage 52 relative to the pair of loading rails 51.

In addition, after the loading vehicle 52 ascends to the top end of the traction rail 61 along with the auxiliary sliding wheel 67 relative to the traction rail 61, the loading vehicle 52 can be turned over to the side of the feeding bin 1 conveniently, so that the medical waste in the feeding bin 1 can be smoothly thrown into the feeding bin 1. The loading unit of this embodiment further includes a turnover driving mechanism adapted to drive the loading cart 52 to turn the charging barrel 70.

With reference to the drawings of the present embodiment, taking an alternative implementation as an example, the turnover driving structure includes a pair of fixing rods 81 connected to a pair of lower sliding wheels 59 connected to the pulley fixing frame 58 in a one-to-one correspondence manner, lower hinge linkage rods 82 respectively connected to the pair of fixing rods 81 in a one-to-one correspondence manner, and an upper linkage rod 84 rotatably connected to the upper sliding wheels; the lower articulated linkage rod 82 is fixedly coupled to the loading wagon 52, and a pair of upper linkage rods 84, which are coupled to the pair of upper pulleys 60, respectively, are coupled to a coupling shaft 83. The coupling shaft 83 is also connected to a drive member. The driving part here includes a connecting part 85 connected to the middle of the connecting shaft 83, and a telescopic cylinder 88 connected to the connecting part 85, and under the action of the telescopic cylinder 88, when the feeding cart 52 moves to the top of the traction rail 61, as the feeding cart 52 turns over toward the feeding chamber 1, the upper sliding wheel 60 moves along the bending part 66 of the feeding rail 51, so that the feeding cart 52 can smoothly move toward the feeding chamber 1, thereby putting the medical waste in the barrel into the feeding chamber 1.

Example 3:

referring to fig. 18 and 19, on the basis of the mobile medical waste treatment apparatus of embodiment 1 or embodiment 2, the mobile medical waste treatment apparatus provided by this embodiment includes two or more sets of medical waste treatment systems provided in the tank body.

It should be noted that, regarding the two or more sets of medical waste treatment systems provided in the present embodiment, each set of medical waste treatment system has its own medical waste crushing device, and in view of the simplification of the structure and the reduction of the processing and use costs, one medical waste sterilization device may be shared by two or more sets of medical waste treatment systems. Of course, each medical waste treatment system also comprises a corresponding feeding unit.

Optionally, the two or more sets of medical waste treatment systems of the present embodiment may not adopt a medical waste transport structure, or each set of medical waste treatment system may adopt a medical waste transport structure separately. This embodiment is not limited in any way.

The above embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above embodiments are only examples of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention. In the description of the present invention, it is to be understood that the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Claims (10)

1. A mobile medical waste treatment apparatus, comprising: the medical waste treatment system comprises a box body and at least one set of medical waste treatment system arranged in the box body;

the medical waste treatment system comprises: a medical waste crushing device and a medical waste sterilizing device connected with the medical waste crushing device; wherein

The medical waste crushing device is used for cutting and crushing medical waste; the medical waste crushing device comprises a feeding bin, a crushing part and a discharging bin which are connected in sequence;

the medical waste sterilizing device is used for receiving and sterilizing the medical waste discharged by the medical waste crushing device; the medical waste sterilization device comprises a disinfection chamber.

2. The mobile medical waste treatment apparatus according to claim 1, wherein the medical waste treatment system further comprises a medical waste transport structure provided between the medical waste crushing means and the medical waste sterilization means and adapted to transport the medical waste crushed by the medical waste crushing means;

the medical waste conveying structure is used for receiving the medical waste discharged by the discharging bin and discharging the medical waste into the medical waste sterilizing device; the medical waste transport structure comprises a transverse transport assembly and a longitudinal transport assembly which are connected; wherein

The transverse transport assembly is connected to the medical waste fragmentation device and the longitudinal transport assembly is connected to the medical waste sterilization device.

3. The mobile medical waste treatment facility of claim 2, wherein the feed bin is adapted for the ingress of medical waste material; the top and the bottom of the feeding bin are both open;

the crushing part comprises a crushing bin communicated with the bottom of the feeding bin, and a crushing and cutting assembly which is arranged in the crushing bin and is suitable for crushing and cutting the medical waste raw materials fed through the feeding bin; the top and the bottom of the crushing bin are both open; the opening at the bottom of the feeding bin is communicated with the crushing bin;

the top and the bottom of the discharging bin are open, and the top of the discharging bin is communicated with the bottom of the crushing bin; the bottom of the discharging bin is communicated with the transverse transmission assembly.

4. The mobile medical waste treatment apparatus according to claim 3, wherein the feeding chamber is further provided with a cover assembly adapted to close the open top and bottom of the feeding chamber simultaneously;

the blocking cover assembly comprises a bottom cover suitable for sealing an open opening at the bottom of the feeding bin and a top cover connected with the bottom cover through a linkage rod and suitable for sealing the top of the feeding bin; wherein

The bottom cover is connected with the inner wall of the side plate of the feeding bin through a rotating shaft; and

the rotating shaft is connected with a rotary driving structure which is suitable for driving the rotating shaft to rotate.

5. The mobile medical waste disposal apparatus of claim 4, wherein both ends of the shaft penetrate the side plates of the feeding chamber, and the rotary driving structure is connected to one end of the shaft;

the rotary driving structure comprises a movable rod and a cylinder, wherein one end of the movable rod is fixedly connected with the rotating shaft, and the cylinder is movably connected with the other end of the movable rod.

6. The mobile medical waste disposal device of any one of claims 4 or 5, wherein said shredding assembly comprises two sets of knife shafts disposed inside said crushing chamber and rotatably connected to the wall of said crushing chamber;

the two cutter shafts are arranged in a staggered manner and comprise an upper cutter shaft group positioned above and a lower cutter shaft group positioned below;

the upper cutter shaft group comprises a pair of upper cutter shafts which are arranged at intervals in parallel;

the lower cutter shaft group comprises a pair of lower cutter shafts which are arranged in parallel in an interval formed between the pair of upper cutter shafts; and

a plurality of cutters are sleeved on the upper cutter shaft and the lower cutter shaft;

the cutting knives on the upper knife shafts and the cutting knives on the lower knife shafts adjacent to the corresponding upper knife shafts in the pair of lower knife shafts are arranged in a staggered mode;

and the cutting knives on the pair of lower knife shafts are arranged in a staggered way.

7. The mobile medical waste treatment facility of claim 2, wherein the lateral transport assembly comprises a lateral transport pipe adapted to communicate with a discharge bin and a lateral auger disposed within the lateral transport pipe; and

the longitudinal transmission assembly comprises a longitudinal conveying pipe which is communicated with the transverse conveying pipe and is bent relative to the transverse conveying pipe, and a longitudinal packing auger arranged in the longitudinal conveying pipe; wherein

The longitudinal conveying pipe is suitable for being communicated with the disinfection cabin.

8. The mobile medical waste disposal apparatus according to claim 2, wherein the sterilizing chamber is provided at a top thereof with a feed port adapted to communicate with the longitudinal transport unit, and at one of widthwise ends thereof with a discharge port; and

the discharge hole is also provided with a bin gate locking mechanism;

the feed inlet is also connected with a feed pipe which is integrally connected with the disinfection bin; the feed pipe is suitable for being communicated with the longitudinal transmission assembly;

a supporting plate is fixedly connected to the outer side wall of the feeding pipe;

a plugging plate suitable for plugging the nozzle of the feed pipe is arranged at the nozzle of the feed pipe;

the plugging plate is suitable for being accommodated in the supporting plate and is connected with the supporting plate through a second telescopic cylinder arranged outside the supporting plate, namely the second telescopic cylinder is suitable for driving the plugging plate to move to the pipe opening of the feeding pipe along the supporting plate so as to plug the pipe opening of the feeding pipe.

9. The mobile medical waste treatment apparatus of claim 8, wherein the door locking mechanism comprises:

the bin cover is suitable for covering the discharge port of the disinfection bin;

the bin cover pushing unit comprises a pushing assembly connected with the bin cover so as to enable the bin cover to move along the radial line direction of the discharge port, and a pushing power structure connected with the pushing assembly and suitable for driving the pushing assembly to drive the bin cover to cover the discharge port;

the bin cover pushing unit comprises a pushing assembly and a driving structure, wherein the pushing assembly is suitable for pushing the bin cover from the end surface of one side, away from the discharge hole of the disinfection bin, of the bin cover along the axis direction of the discharge hole, and the driving structure is connected with the pushing assembly and drives the pushing assembly to push the bin cover;

the pushing assembly comprises a group of linkage plates connected with the top of the bin cover and a sliding plate connected with the group of linkage plates simultaneously;

a sliding rail in sliding fit with the sliding plate is arranged on the side wall of the disinfection bin and above the discharge port; the slide rail is positioned on the end surface of one side of the disinfection bin, which faces the bin cover; and

the pushing power structure is a first telescopic cylinder which is fixedly connected to the bin wall of the disinfection bin and is positioned above the discharge port;

the first telescopic cylinder is positioned on the end surface of one side of the disinfection bin, which is far away from the bin cover;

the pushing assembly comprises a pair of symmetrically arranged fixed block groups arranged on the side end face of the bin cover, which is far away from the discharge hole of the disinfection bin, a pair of abutting wheel groups which are respectively suitable for abutting against the fixed block groups, and a pair of eccentric shafts which are respectively connected with the abutting wheel groups to drive the abutting wheel groups to rotate;

the fixed block group comprises two fixed blocks which are arranged at intervals;

the propping wheel set comprises two propping wheels which are arranged at intervals and are respectively suitable for correspondingly propping against the two fixed blocks;

the driving structure adopts a pair of rotating cylinders respectively connected with a pair of eccentric shafts.

10. The mobile medical waste treatment facility of claim 1, comprising two medical waste treatment systems disposed within a tank;

two sets of medical waste treatment systems adopt a medical waste sterilization device.

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