CN114890017A - Useless collector is treated to intelligence - Google Patents

Abstract

The invention discloses an intelligent medical waste collector, relates to the field of medical waste collection, and can realize automatic uncovering of a garbage bag, avoid turbulence, realize automatic sealing and cutting separation, and avoid medical waste in the garbage bag from spreading germs. An intelligent medical waste collector comprises a shell, a barrel body output mechanism, a garbage bag laying mechanism, a sealing and cutting device and an automatic sealing cover. The barrel body is used for containing medical waste. Staving output mechanism can shift the staving to the casing outside, avoids staff manual operation, reduces the pollution risk. The automatic laying and automatic replacement of the garbage bags can be realized by the garbage bag laying mechanism, and the working efficiency is improved. The sealing and cutting device is used for sealing the garbage bag and separating the garbage bag in the can body from the garbage bag laying mechanism. The automatic sealing cover is arranged on the shell. The automatic sealing cover can realize automatic opening and closing of the intelligent medical waste collector, and meanwhile, turbulence can be avoided from being generated when the collector is opened and closed, so that the pollution risk is reduced.

Description

Useless collector is treated to intelligence

Technical Field

The invention relates to the field of medical waste collection, in particular to an intelligent medical waste collector.

Background

In medical places such as hospitals and clinics, a large amount of medical waste is generated, and a large amount of germs are carried on the medical waste. At present, a common garbage can is usually adopted for medical waste collection. When the cover of the common garbage can is opened, turbulent flow can be generated, a large amount of germs in the can are brought into the air, and potential danger is caused. And in the refuse treatment process, generally adopt ordinary disposal bag cover to establish and hold medical waste on the garbage bin, need medical personnel to pack the disposal of sealing to the disposal bag at every turn, cause the bacterium in the disposal bag to overflow easily, cause secondary pollution, produce the potential safety hazard.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides an intelligent medical waste collector which can realize automatic uncovering of a garbage bag, avoid turbulence, realize automatic sealing and cutting separation, and avoid medical waste in the garbage bag from spreading germs.

According to a first aspect of the present invention, there is provided an intelligent medical waste collector, comprising a housing; a barrel disposed in the housing, the barrel for containing medical waste; the barrel body output mechanism is movably arranged in the shell, the barrel body is arranged on the barrel body output mechanism, and the barrel body output mechanism can transfer the barrel body to the outside of the shell; the garbage bag laying mechanism is arranged on the shell and used for laying garbage bags in the barrel body; the sealing and cutting device is arranged in the shell and positioned above the can body, and is used for sealing the garbage bag and separating the garbage bag in the can body from the garbage bag laying mechanism; and the automatic sealing cover is arranged on the shell and used for sealing the shell.

Has the advantages that: an intelligent medical waste collector comprises a shell, a barrel body output mechanism, a garbage bag laying mechanism, a sealing and cutting device and an automatic sealing cover. The barrel is disposed in the housing. The barrel body is used for containing medical waste. The barrel body output mechanism is movably arranged in the shell. The barrel body is arranged on the barrel body output mechanism. Staving output mechanism can shift the staving to the casing outside, avoids staff manual operation, reduces the pollution risk. The garbage bag laying mechanism is used for laying garbage bags in the barrel body, automatic laying and automatic replacement of the garbage bags are achieved, and work efficiency is improved. The sealing and cutting device is arranged in the shell and positioned above the barrel body. The sealing and cutting device is used for sealing the garbage bag and separating the garbage bag in the can body from the garbage bag laying mechanism. The automatic sealing cover is arranged on the shell. The automatic sealing cover can realize automatic opening and closing of the intelligent medical waste collector, and meanwhile, turbulence can be avoided from being generated when the collector is opened and closed, so that the pollution risk is reduced.

According to the intelligent medical waste collector, the barrel output mechanism comprises: the tray is movably arranged in the shell, and the barrel body is arranged on the tray; the output driving mechanism is arranged on the shell and used for driving the tray to move; and the brake mechanism is arranged on the tray and is electrically connected with the output driving mechanism.

According to the intelligent medical waste collector, the barrel output mechanism further comprises a weighing system, and the weighing system comprises: the weighing device is arranged on the tray, and the barrel body is arranged on the weighing device; the display device is arranged on the shell and electrically connected with the weigher, and is used for displaying the quality of the medical waste weighed by the weigher; and the alarm device sends out an alarm signal when the weighing device detects that the quality of the medical waste reaches a set value.

According to the invention, the intelligent medical waste collector comprises a garbage bag laying mechanism and a garbage bag laying mechanism, wherein the garbage bag laying mechanism comprises: the bag plate comprises a base plate, a bag sleeving barrel, a bag pressing mechanism and a bag clamping mechanism, wherein the bag sleeving barrel is arranged on the base plate, the garbage bags are stacked and sleeved on the bag sleeving barrel, the bag pressing mechanism is arranged on the bag sleeving barrel and used for fixing one end of the garbage bags, the bag clamping mechanism is arranged at the lower end of the bag sleeving barrel, and the bag clamping mechanism is used for hooking the lower end of the garbage bags to prevent the garbage bags from naturally sliding down; and open a bag subassembly for strut the disposal bag that the cover was established on the bag dish, it includes to open a bag subassembly: the pumping and pressing assembly is arranged on the shell and connected with the barrel body, the sealing assembly is arranged on the shell, and the sealing assembly is used for sealing the barrel body and the pumping and pressing assembly.

According to the invention, the intelligent medical waste collector comprises a seal cutting device and a sealing device, wherein the seal cutting device comprises: the protective shell is arranged on the shell and positioned between the automatic sealing cover and the barrel body; the closing-in assembly is arranged on the protective shell and used for tightening a garbage bag opening; and the sealing and cutting assembly is arranged on the closing-up assembly and used for cutting off the garbage bag and sealing the garbage bag.

According to the invention, the intelligent medical waste collector comprises a closing-up component and a collecting device, wherein the closing-up component comprises: the rails are arranged on two sides of the protective shell; the first supporting plate is arranged at one end of the track and can slide along the track; the second supporting plate is arranged at the other end of the track and can slide along the track; the first clamping cable is arranged on the first supporting plate and can be driven by the first supporting plate to move; the second clamping cable is arranged on the second supporting plate and can be driven by the second supporting plate to move; the closing-in driving assembly is arranged on the protective shell and drives the first supporting plate and the second supporting plate to approach or depart from each other; the closing-in brake assembly is arranged on the protective shell and is electrically connected with the closing-in driving assembly, and the closing-in brake assembly can stop the operation of the closing-in driving assembly after the first supporting plate and/or the second supporting plate are/is in place; and the reinforcing plate is arranged on the first supporting plate and/or the second supporting plate and used for supporting the first supporting plate and/or the second supporting plate to extrude, seal and cut off the garbage bag, so that the first supporting plate and/or the second supporting plate are prevented from deforming.

According to the intelligent medical waste collector, the sealing and cutting assembly comprises at least one group of garbage bag sealing assemblies and a cutting assembly, the garbage bag sealing assemblies are arranged on the first supporting plate and/or the second supporting plate and are used for heating garbage bags to enable the garbage bags to be sealed in a hot melting mode, the cutting assembly is arranged on the first supporting plate and/or the second supporting plate and is used for cutting the garbage bags to enable the garbage bags to be cut off, and the cutting assembly is arranged in the middle of at least one group of the garbage bag sealing assemblies.

According to the intelligent medical waste collector, the garbage bag sealing assembly comprises: the sealed electric heating wire connector is arranged on the first supporting plate and/or the second supporting plate; the sealed electric heating flat wires are connected between the two sealed electric heating flat wire connectors in a tensioning mode and used for heating the garbage bag to a molten state and enabling the plastic bag to be sealed in a hot melting mode under the action of clamping force; and the sealing heating wire tensioning device is arranged on the first supporting plate and/or the second supporting plate, one end of the sealing heating wire is connected with the sealing heating wire tensioning device, and the sealing heating wire tensioning device is used for preventing the sealing heating wire from being heated and loosened.

According to the invention, the intelligent medical waste collector comprises: the cutting-off electric heating round wire is arranged on one of the first supporting plate and the second supporting plate; the cutting support bar is arranged on one of the first support plate and the second support plate without the cutting electric heating round wire, and the cutting support bar is arranged opposite to the cutting electric heating round wire; and the cutting electric heating wire tensioning device is arranged at one end of the cutting electric heating round wire and is used for preventing the cutting electric heating round wire from being loose due to heating.

According to the intelligent medical waste collector, the automatic sealing cover comprises: the outer frame is arranged on the shell and provided with a feeding port; and the cover plate assembly is arranged on the outer frame and used for sealing the feeding port, the cover plate assemblies are two groups, two groups of cover plate assemblies are symmetrically arranged along the central axis of the outer frame, each cover plate assembly comprises a driving cover, a driven cover and a cover plate driving assembly, the driving cover is arranged on the outer frame, one end of the driven cover is connected with the driving cover, the other end of the driven cover slides on the outer frame, the cover plate driving assembly is arranged on the outer frame, and the cover plate driving assembly is used for driving the driving cover to turn over.

Drawings

The invention is further described below with reference to the accompanying drawings and examples;

FIG. 1 is a first schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is a second schematic structural diagram according to a preferred embodiment of the present invention;

FIG. 3 is a front cross-sectional view of the preferred embodiment of the present invention;

FIG. 4 is a first schematic structural diagram of a first barrel output mechanism according to a preferred embodiment of the present invention;

FIG. 5 is a second structural diagram of the output mechanism of the barrel body according to the preferred embodiment of the present invention (the barrel body is omitted);

FIG. 6 is a first structural diagram (omitting tray and housing) of the output driving mechanism according to the preferred embodiment of the present invention;

FIG. 7 is a second structural diagram of the output driving mechanism according to the preferred embodiment of the present invention (omitting the tray and leaving the housing);

FIG. 8 is a schematic view of the assembly of the driving output mechanism and the tray according to the preferred embodiment of the present invention (the housing is omitted);

FIG. 9 is a schematic structural view of a tray according to a preferred embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a housing according to a preferred embodiment of the present invention;

FIG. 11 is a first schematic view of a bag tray according to a preferred embodiment of the present invention;

FIG. 12 is a side view of a bag tray according to a preferred embodiment of the present invention;

FIG. 13 is a second schematic view of a pouch tray according to a preferred embodiment of the present invention;

FIG. 14 is an enlarged view of a portion of FIG. 13 at A;

FIG. 15 is an enlarged view of a portion of FIG. 13 at B;

FIG. 16 is a cross-sectional view of the bag tray of the preferred embodiment of the present invention (with a garbage bag attached thereto)

FIG. 17 is a first schematic view of a bag opener according to a preferred embodiment of the present invention;

FIG. 18 is a schematic view of the position of the positive pressure vent of the preferred embodiment of the present invention;

FIG. 19 is a schematic structural view of a barrel body according to a preferred embodiment of the present invention;

FIG. 20 is a schematic view of the seal attachment ring and the bucket body according to the preferred embodiment of the present invention;

FIG. 21 is a cross-sectional view of the preferred embodiment of the present invention;

FIG. 22 is a schematic view of a mounting groove according to a preferred embodiment of the present invention;

FIG. 23 is a schematic view of the position of the bag opening detecting device according to the preferred embodiment of the present invention;

FIG. 24 is a first schematic view of a seal cutting apparatus according to a preferred embodiment of the present invention;

FIG. 25 is a side view of the seal cutting apparatus according to the preferred embodiment of the present invention;

fig. 26 is a second schematic structural view of the sealing and cutting device according to the preferred embodiment of the present invention (omitting the protective case);

fig. 27 is a third schematic structural view (omitting the protective case) of the sealing and cutting device according to the preferred embodiment of the present invention;

FIG. 28 is a top view of the seal cutting device according to the preferred embodiment of the present invention (with the protective case omitted);

fig. 29 is a partial enlarged view at C in fig. 26;

FIG. 30 is an enlarged view of a portion of FIG. 27 taken at D;

FIG. 31 is a schematic view of a sealing heater wire tensioning device according to a preferred embodiment of the present invention;

FIG. 32 is a schematic view of the structure of a heating wire cutting tensioner according to a preferred embodiment of the present invention;

FIG. 33 is a first diagram illustrating a closing process of the seal-severing device according to the preferred embodiment of the present invention;

FIG. 34 is a second state diagram illustrating the closing process of the seal-severing device according to the preferred embodiment of the present invention;

FIG. 35 is a schematic view of the automatic sealing cover according to the preferred embodiment of the present invention;

FIG. 36 is a top view of the automated sealing lid of the preferred embodiment of the present invention;

FIG. 37 is a cross-sectional view taken at section E-E of FIG. 36;

FIG. 38 is a cross-sectional view taken at section F-F of FIG. 36;

FIG. 39 is a schematic view of the driving cap and the driven cap according to the preferred embodiment of the present invention;

FIG. 40 is a bottom view of the automated sealing lid of the preferred embodiment of the present invention;

FIG. 41 is a schematic view of the automatic sealing cover in an open state according to the preferred embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element 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 description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 41, an intelligent medical waste collector includes a housing 10, a tub 20, a tub output mechanism 30, a disposal bag laying mechanism 40, a seal cutting device 50, and an automatic sealing cover 60. The tub 20 is disposed in the case 10. The barrel 20 is used to contain medical waste. The bowl output mechanism 30 is movably disposed in the housing 10. The tub 20 is provided on the tub output mechanism 30. The bowl output mechanism 30 can transfer the bowl 20 to the outside of the casing 10. The trash bag laying mechanism 40 is provided on the housing 10. The disposal bag placing mechanism 40 is used to place the disposal bag 1 in the tub 20. A seal cutter 50 is disposed in the housing 10 above the tub 20. The seal cutting device 50 is used to seal the garbage bag 1 and separate the garbage bag 1 in the can 20 from the garbage bag laying mechanism 40. The automatic sealing cover 60 is provided on the housing 10. The automatic sealing cover 60 is used to seal the housing 10.

Referring to fig. 1 to 10, the bowl output mechanism 30 includes: a tray 31, an output drive mechanism 32, and a brake mechanism 33. The tray 31 is movably disposed in the housing 10. The tub 20 is disposed on the tray 31. And an output drive mechanism 32 provided on the housing 10. The output driving mechanism 32 is used for driving the tray 31 to move. The brake mechanism 33 is provided on the tray 31 and electrically connected to the output drive mechanism 32.

Referring to fig. 5, the tray 31 is provided with a limiting groove 311 capable of receiving the tub 20.

It can be appreciated that the limiting groove 311 can increase the stability of the tub 20 when the tub 20 moves by the tray 31.

Referring to fig. 4 to 10, the output driving mechanism 32 includes a support assembly 321 and an output driving assembly 322. The support assembly 321 is disposed on the intelligent medical waste collector housing and below the tray 31. The support assembly 321 is used to support the tray 31. The tray 31 movement is converted from sliding friction to rolling friction. Output drive assembly 322 is disposed on the intelligent medical waste collector housing. The output driving assembly 322 is used for driving the tray 31 to move, and further driving the barrel 20 to output.

Referring to fig. 4 to 10, the output driving assembly 322 includes: a power source 322a, a drive rod 322b, an output drive gear 322c, a driven rack 322d, and a minute drive gear 322 e. The power source 322a is provided on the housing 10. The driving lever 322b is rotatably provided on the housing 10. An output drive gear 322c is provided on the drive rod 322b and meshes with the output end of the power source 322 a. The power source 322a can drive the output driving gear 322c to rotate and further drive the driving rod 322b to rotate. The driven rack 322d is provided on the tray 31. The driven rack 322d is at least two. The sub-drive gear 322e is provided on the drive lever 322b and meshes with the driven rack 322 d. The driving rod 322b rotates to drive the sub-driving gear 322e to rotate so as to make the driven rack 322d and the sub-driving gear 322e generate relative displacement.

It will be appreciated that in some embodiments of the present invention, when the output barrel 20 is required, the output end of the power source 322a rotates to drive the output driving gear 322c to rotate, and further drive the driving rod 322b to rotate. The sub-driving gears 322e provided at both ends of the driving lever 322b rotate with the driving lever 322b, and the sub-driving gears 322e are engaged with the driven rack 322d, and the sub-driving gears 322e drive the tray 31 to move.

Referring to fig. 4 to 10, the support assembly 321 includes a rolling plate 321a and a bottom support roller 321 b. The rolling plate 321a is provided on the tray 31. The bottom supporting roller 321b is rotatably disposed on the intelligent medical waste collector housing and below the rolling plate 321 a. The rolling plate 321a is movable on the bottom support roller 321 b.

It will be appreciated that in some embodiments of the present invention, the portion that does not slide out of the housing 10 is supported by the bottom support rollers 321b while the tray 31 is moving. The bottom support rollers 321b can convert sliding friction between the tray 31 and the housing 10 during movement into rolling friction, thereby reducing friction force, and further reducing power of the power source 322a and production cost.

Referring to fig. 4 to 10, the support assembly 321 further includes a slide-out support wheel 321 c. The slide-out support wheel 321c is provided at one end of the tray 31. The slide-out support wheels 321c can roll on the ground.

It will be appreciated that in some embodiments of the present invention, the part sliding out of the housing 10 is supported by the sliding out support wheels 321c as the tray 31 moves, avoiding the part of the tray 31 protruding out of the housing 10 becoming a cantilever beam, causing the tray 31 to deform.

Referring to fig. 4 to 10, the brake mechanism 33 includes: a brake detection block 331, a slide-out brake switch 332, and a reset brake switch 333. The brake detecting block 331 is provided at one side of the tray 31. The slide-out brake switch 332 is provided in the housing 10 and electrically connected to the output drive mechanism 32. When the tray 31 slides out to a designated position, the slide-out brake switch 332 is triggered by the brake detection block 331. A reset brake switch 333 is provided in the housing 10 and electrically connected to the output drive mechanism 32. When the tray 31 is completely retracted into the housing 10, the braking detection block 331 triggers the reset braking switch 333.

Referring to fig. 4-10, the detent mechanism 33 further includes a reset catch 334 and a reset pawl 335. A reset card slot 334 is provided on the tray 31. The reset pawl 335 is disposed in the housing 10. Reset pawl 335 may be received in reset catch 334. The reset pawl 335 may secure the tray 31 when the tray 31 is not required to be slid out.

Referring to fig. 4 to 10, the reset pawl 335 is an elastic pawl. When the tray 31 is driven by the output drive mechanism 32, the reset pawls 335 are disengaged from the reset catch 334.

It will be appreciated that when the tray 31 is returned, the tray 31 collides with the housing 10 by inertia and may be bounced out by a reaction force generated by the collision. In some embodiments of the present invention, by the cooperation of the reset slot 334 and the reset claws 335, when the tray 31 is received in the housing 10, the reset claws 335 can be inserted into the reset slot 334 to lock the tray 31, prevent the tray 31 from touching the housing 10, and prevent the tray 31 from rebounding.

Referring to fig. 1-5, the bowl output mechanism 30 further includes a weighing system 34. The weighing system 34 includes: a weigher 341, a display device 342, and an alarm 343. The weighing device 341 is provided on the tray 31. The tub 20 is disposed on the scale 341. The display device 342 is provided on the casing 10 and electrically connected to the scale 341. The display device 342 is used for displaying the quality of the medical waste weighed by the weigher 341. When the weighing device 341 detects that the quality of the medical waste reaches the set value, the alarm device 343 sends out an alarm signal.

It will be appreciated that in some embodiments of the present invention, the quality of the bucket 20 and the medical waste within the bucket 20 may be weighed by the scale 341 within the housing 10.

It is worth noting that in some embodiments of the present invention, the weighing system 34 further comprises a network module. The weighing machine 341 is connected to the network module. It can be understood that the quality of the medical waste detected by the weighing device 341 can be sent to the portable device through the network module, so as to remind the staff of the accommodating condition of the medical waste in the barrel 20 in real time, and facilitate timely cleaning of the staff.

It can be understood that the density of the medical waste does not change too much, and when the mass reaches a certain value, the volume change of the medical waste does not change too much, and the volume of the barrel 20 can be judged to be remained through the mass, so as to determine whether the barrel 20 needs to be cleaned. When the weighing device 341 detects that the quality of the medical waste reaches a set value, the alarm device 343 sends out a warning signal to remind the staff to clean the barrel 20.

It is understood that in some embodiments of the present invention, the alarm device 343 is a buzzer, and when the weighing device 341 detects that the quality of the medical waste reaches a set value, the buzzer sends out a sound warning signal to remind the staff to clean the barrel 20.

It is understood that in some other embodiments of the present invention, the alarm device 343 is a signal light, and when the weighing device 341 detects that the quality of the medical waste reaches the set value, the signal light flashes to emit a sound warning signal to remind the staff to clean the barrel 20.

Referring to fig. 8, in some embodiments of the invention, the upper end of the tub 20 is opened obliquely.

It can be understood that, after the staff cleared up the staving 20, can judge the direction of placing of staving 20 according to the inclined plane direction on staving 20 when putting into tray 31 staving 20, avoid the inside equipment operation that the useless collector of intelligence doctor was influenced to staving 20 direction mistake.

Referring to fig. 1 to 3 and 11 to 23, the trash bag laying mechanism 40 includes: a pocket plate 41 and a pocket opener assembly 42. The bag tray 41 includes a base plate 411, a bag sleeve 412, a bag pressing mechanism 413, and a bag clamping mechanism 414. The sleeve 412 is disposed on the base plate 411. The garbage bag 1 is stacked and sleeved on the bag sleeve 412. The bag pressing mechanism 413 is sleeved on the bag barrel 412. The bag pressing mechanism 413 is used for fixing one end of the garbage bag. The bag-clamping mechanism 414 is disposed at the lower end of the bag-sleeving barrel 412. The bag clamping mechanism 414 is used for hooking the lower end of the garbage bag to prevent the garbage bag from naturally sliding down. The bag opening assembly 42 is used for opening the garbage bag 1 sleeved on the bag tray 41. The bag opening assembly 42 includes: a pumping assembly 421, a sealing assembly 422, and a positive pressure vent conduit 423. The pumping assembly 421 is disposed on the housing 10 and connected to the tub 20. The sealing assembly 422 is provided on the housing 10. The sealing assembly 422 is used for sealing the barrel 20 and the pumping assembly 421. A positive pressure vent pipe 423 is provided on the automatic sealing cover 60. The positive pressure vent pipe 423 is used for inflating the garbage bag so as to automatically open the garbage bag.

Referring to fig. 11 to 16, the bag pressing mechanism 413 includes an upper retaining ring 413a and a lower retaining ring 413 b. The upper snap ring 413a is fitted over the sleeve 412. A plurality of snap ring fixing blocks 412a are arranged on the bagging cylinder 412. The upper snap ring 413a is connected to the bagging cylinder 412 through a snap ring fixing block 412 a. The upper snap ring 413a is provided with a hanging piece 413a 1. The lower end of the hanging piece 413a1 is provided with a locking block 413a 2. The lower snap ring 413b is provided with a hanging groove 413b 1. The hooking piece 413a1 is received in the hooking groove 413b 1. The upper end surface of the locking block 413a2 can be attached to the lower end surface of the lower snap ring 413b, so that the upper snap ring 413a and the lower snap ring 413b can be locked. One end of the garbage bag is disposed between the upper snap ring 413a and the lower snap ring 413 b.

It will be appreciated that in some embodiments of the present invention, the upper snap ring 413a is fixed to the bag housing 412 by the snap ring fixing block 412a and is in contact with the lower end surface of the base plate 411, then the upper end portion of the garbage bag is placed on the lower snap ring 413b, and then the hanging piece 413a1 is aligned with the hanging groove 413b1 such that the upper snap ring 413a and the lower snap ring 413b fix the upper end portion of the garbage bag.

Referring to fig. 11-16, the pocket mechanism 414 includes several pocket plates 414 a. The bag clamping plates 414a are uniformly arranged along the circumferential direction of the bag sleeving barrel 412. The pocket plate 414a is an arc-shaped plate. The card pocket panel 414a includes a first cambered surface 414a1 and a second cambered surface 414a 2. The first curved surface 414a1 contacts the inner surface of the trash bag. The bag clamping plates 414a are used for opening the garbage bag to prevent the garbage bag from sliding off.

It will be appreciated that when the upper end portion of the trash bag is secured and the other portion is stacked on the sleeve 412, the weight of the trash bag itself will cause the trash bag to slide down. The arc-shaped bag clamping plate 414a can open the interior of the garbage bag, and the friction force of the inner surface of the garbage bag contacting the first arc-shaped surface 414a1 and an obliquely upward supporting force can prevent the garbage bag from sliding downwards.

Further, in some embodiments of the present invention, the pocket plate 414a is a resilient plate member. After the bag clamping plate 414a has elasticity, when a new garbage bag needs to be laid, the force of pulling the garbage bag can make the bag clamping plate 414a elastically deform, so that the garbage bag can be smoothly laid, and the falling of the garbage bag cannot be influenced.

Referring to fig. 11 to 16, the lower end of the bag-locking plate 414a is further provided with a bag-hooking protrusion 414a3, and the bag-hooking protrusion 414a3 is used for hooking the garbage bag to prevent the garbage bag from sliding down.

It can be understood that when the garbage bags are stacked on the bag sleeving barrel 412, the formed garbage bag ring has a certain structural strength, and the bag hooking protrusion 414a3 can hook the garbage bag ring to prevent the garbage bag ring from falling off, so as to further improve the falling prevention capability.

Referring to fig. 11-16, the pocket-chucking mechanism 414 further includes a bunching assembly 414 b. The cinch assembly 414b includes a stringing block 414b1 and a cinch cord 414b 2. The lacing block 414b1 is disposed on the pocket board 414a and on the second cambered surface 414a 2. The stringing block 414b1 is provided with a stringing hole 414b 11. The closing rope 414b2 is arranged in the rope-threading hole 414b 11. The closing rope 414b2 passes through the rope-passing holes 414b11 on the card pocket plates 414a and is connected in a closing way to form a rope ring. The cinch cord 414b2 is connected in series with several card pocket panels 414 a. Pulling the cinch cord 414b2 causes the card pocket panels 414a to approach each other.

It will be appreciated that when a new trash bag is to be inserted, the lower ends of the plurality of bag engaging plates 414a may be tightened to be smaller than the inner diameter of the trash bag by the closing cord 414b 2.

Referring to fig. 11 to 16, the closing cord 414b2 is further provided with a gripping plate 414b 21. Pulling the handle panels 414b21 brings the card pocket panels 414a closer together.

In some embodiments of the present invention, the handle 414b21 can drive the closing rope 414b2 to move, and the pulling of the handle 414b21 can replace the pulling of the closing rope 414b2, so that the worker can avoid the injury of the hands caused by the closing rope when sleeving the garbage bag.

It should be noted that, by the pumping assembly 421, a negative pressure can be generated at the lower end of the barrel 20, the garbage bag 1 on the bag tray 41 is pulled downward and laid on the barrel 20, and the sealing assembly 422 can make the direct connection between the pumping assembly 421 and the barrel 20 airtight, so as to prevent air leakage.

Referring to fig. 18, a positive pressure vent pipe 423 is provided on the automatic sealing cover 60. The positive pressure vent pipe 423 is used for inflating the garbage bag 1.

It will be appreciated that in some embodiments of the present invention, positive pressure vent 423 inflates bag 1, expanding bag 1, and further assisting evacuation assembly 421 to apply bag 1. While still further reducing the power of the pumping assembly 421.

Referring to fig. 17 to 23, the pumping assembly 421 includes: a mounting plate 421a, and a fan 421 b. The mounting plate 421a is provided on the housing 10. The blower 421b is provided on the mounting plate 421 a. The suction port of the blower 421b communicates with the tub 20.

Referring to fig. 17 to 23, the sealing assembly 422 includes: a connector barrel 422a and a sealing boot 422 b. The connection cylinder 422a is provided on the tub 20. The connector 422a communicates with the tub 20. The sealing boot 422b is provided on the mounting plate 421 a. The connecting cylinder 422a is inserted into the sealing sleeve 422 b. Gland 422b connects fan 421b with tub 20.

It can be understood that, in some embodiments of the present invention, the connection cylinder 422a of the tub 20 is matched with the sealing sleeve 422b of the mounting plate 421a, so that the air tightness between the blower 421b and the tub 20 is provided, and it is ensured that the negative pressure at the lower end of the tub 20 is enough to pull the garbage bag 1 down. The power of the fan 421b can be reduced, the power of the device is reduced, and the production cost is reduced.

Referring to fig. 17-23, a mesh panel 422a1 is provided within the connector barrel 422 a. The mesh plate 422a1 is used to block the garbage bag 1 from being drawn out.

It will be appreciated that in some embodiments of the invention, to prevent the waste bag 1 from being sucked out of the connector barrel 422a, a mesh panel 422a1 is provided within the connector barrel 422 a. In some other embodiments of the present invention, a grid plate, a porous plate, etc. may be used to prevent the garbage bag 1 from being sucked out.

Referring to fig. 17 to 23, a seal coupling ring 424 is provided between the tub 20 and the automatic sealing cover 60. The seal attachment ring 424 allows the automated sealing cover 60 to be closed. An airtight space is formed in the tub 20.

It should be noted that, in some embodiments of the present invention, a sealing connection ring 424 is disposed between the barrel 20 and the automatic sealing cover 60, and the upper end of the barrel 20 can be sealed by the sealing connection ring 424, so that air cannot enter the barrel 20 from a gap between the bag tray 41 and the upper end of the barrel 20, which improves the pressure pumping effect of the pressure pumping assembly 421, and can be equipped with a pressure pumping assembly 421 with smaller power, thereby reducing the production cost.

Referring to fig. 17-23, the bag opening assembly 42 further includes a bag opening detection device 425. The bag opening detecting device 425 is disposed on the housing 10 and located at both sides of the tub 20. The two sides of the barrel body 20 are provided with detection holes 21. The bag opening detection device 425 can detect whether the garbage bag 1 is opened in place through the detection hole 21.

It can be understood that, whether the bag is opened in place can be detected by the bag opening detection device 425 arranged on the housing 10, and when the bag opening detection device 425 detects that the bag is opened in place, the pressure drawing assembly 421 is stopped, so that the excessive burden of the equipment caused by excessive pressure drawing is avoided, and the service life of the equipment is prolonged.

Referring to fig. 17 to 23, the housing 10 is provided with a mounting groove 11. The sealing member 422 is disposed in the mounting groove 11.

It can be understood that, set up sunken mounting groove 11 on casing 10, seal assembly 422, take out parts such as pressure subassembly 421 and all set up in mounting groove 11, cover through a apron for equipment is more pleasing to the eye, avoids fan 421b to expose simultaneously, avoids the potential safety hazard.

Referring to fig. 17 to 23, a fan fixing plate 421a1 is provided on the mounting plate 421 a. The fan 421b is disposed on the fan fixing plate 421a 1.

It can be understood that the fan fixing plate 421a1 can provide a support for fixing the fan 421b, so that the fan 421b is fixed more firmly, and the parts are prevented from loosening due to vibration generated when the fan 421b rotates.

Referring to fig. 5, the seal cutting device 50 includes: a protective shell 51, a closing-in assembly 52 and a seal-severing assembly 53. The protective shell 51 is disposed on the housing 10 between the automatic sealing cover 60 and the tub 20. The closing-in assembly 52 is disposed on the protective shell 51. The binding assembly 52 is adapted to secure the trash receptacle. A seal severing assembly 53 is disposed on the cuff assembly 52. The seal severing assembly 53 is used to sever and seal the trash bag.

Referring to fig. 24-34, the cuff assembly 52 includes: rail 521, first support plate 522, second support plate 523, first clamping cable 524, second clamping cable 525, crimping drive assembly 526, crimping brake assembly 527, and stiffening plate 528. The rails 521 are provided at both sides of the shield case 51. The first support plate 522 is provided at one end of the rail 521. The first support plate 522 is slidable along the rail 521. The second support plate 523 is disposed at the other end of the rail 521. The second support plate 523 is slidable along the rail 521. A first clamping cord 524 is disposed on the first support plate 522. The first clamping cable 524 is movable by the first support plate 522. The second clamping cord 525 is disposed on the second support plate 523. The second clamping wire 525 is movable by the second support plate 523. The closing-in driving assembly 526 is arranged on the protective shell 51. The closing-in driving assembly 526 drives the first support plate 522 and the second support plate 523 to move toward or away from each other. The closing-in braking component 527 is disposed on the protective shell 51 and electrically connected to the closing-in driving component 526, and the closing-in braking component 527 can stop the operation of the closing-in driving component 526 after the first supporting plate 522 and/or the second supporting plate 523 are in place. The reinforcing plate 528 is disposed on the first support plate 522 and/or the second support plate 523. The reinforcing plate 528 serves to support the first support plate 522 and/or the second support plate 523 to compress, seal and cut off the garbage bag, and prevent the first support plate 522 and/or the second support plate 523 from being deformed.

Referring to fig. 24 to 34, the closing-in drive assembly 526 includes: a drive motor 526a, a first drive post 526b, a first support post 526c, and a first toothed belt 526 d. The drive motor 526a is provided on the shield case 51. The first transmission column 526b is rotatably disposed on the shield case 51 at one end of the rail 521. The first drive post 526b is connected to the output of the drive motor 526 a. The driving motor 526a rotates the first transmission post 526 b. The first support post 526c is rotatably disposed at one end of the rail 521 opposite the first transmission post 526 b. The first toothed belt 526d is wound around the first transmission post 526b and the first support post 526 c. The first toothed belt 526d includes a first forward side 526d1 and a first reverse side 526d 2. One end of the first support plate 522 is fixed to the first forward side 526d 1. One end of the second support plate 523 is fixed to the first reverse side 526d 2. When the first toothed belt 526d rotates, the first support plate 522 and the second support plate 523 move closer to or away from each other.

It is understood that in some embodiments of the present invention, one end of the first support plate 522 and the second support plate 523 is connected to the closing-in driving assembly 526, and the other end is free, so that the closing-in driving assembly 526 drives the first support plate 522 and the second support plate 523 to approach each other to drive the first clamping cable 524 and the second clamping cable 525 to approach each other, thereby tightening the opening of the trash bag.

Referring to fig. 24-34, the crimping drive assembly 526 further comprises: a second drive column 526e, a second support column 526f, a second toothed belt 526g, and a third toothed belt 526 h. The second transmission post 526e is rotatably disposed on the shield case 51 at one end of the rail 521. The second support post 526f is rotatably disposed at one end of the rail 521 opposite the second drive post 526 e. The second toothed belt 526g is wound around the first drive column 526b and the second drive column 526 e. The third toothed belt 526h is wound around the second transmission column 526e and the second support column 526 f. The third toothed belt 526h includes a second forward side 526h1 and a second reverse side 526h2, the other end of the first support plate 522 is fixed on the second forward side 526h1, the other end of the second support plate 523 is fixed on the second reverse side 526h2, and when the third toothed belt 526h rotates, the first support plate 522 and the second support plate 523 approach or move away from each other.

It is understood that in some other embodiments of the present invention, one end of the first support plate 522 and one end of the second support plate 523 are connected to the first toothed belt 526d, the other end of the first support plate is connected to the third toothed belt 526h, and the first toothed belt 526d and the third toothed belt 526h are directly driven by the second toothed belt 526g, so as to achieve the synchronous action of the first toothed belt 526d and the third toothed belt 526h, and further to enable the two ends of the first support plate 522 and the second support plate 523 to move synchronously, and drive the two ends simultaneously, so as to improve the stability of the movement of the first support plate 522 and the second support plate 523.

Referring to fig. 24 to 34, the closing brake assembly 527 includes: a closing-in trigger block 527a, a tightening trigger switch 527b and a reset trigger switch 527 c. The closing-in trigger block 527a is disposed on the first support plate 522 and/or the second support plate 523. The tightening trigger switch 527b is disposed on the protective shell 51 and electrically connected to the closing-up driving assembly 526. When the first supporting plate 522 and/or the second supporting plate 523 approach to a designated position, the closing-up trigger block 527a triggers the tightening trigger switch 527 b. The reset trigger switch 527c is disposed on the protective shell 51 and electrically connected to the crimping drive assembly 526. When the first support plate 522 and/or the second support plate 523 are moved away from each other to a designated position. The closing-in trigger block 527a triggers the reset trigger switch 527 c.

It can be understood that when the first support plate 522 and the second support plate 523 approach each other to the set clamping position, the closing trigger block 527a touches the tightening trigger switch 527b, and then the tightening trigger switch 527b sends a stop signal to the driving motor 526 a. When the first support plate 522 and the second support plate 523 move away from each other to the initial position, the closing trigger block 527a touches the reset trigger switch 527c, and the reset trigger switch 527c sends a stop signal to the driving motor 526 a.

Referring to fig. 24 to 34, the sealing and cutting assembly 53 includes a garbage bag sealing assembly 531 and a cutting assembly 532, the garbage bag sealing assembly 531 is at least one group, the garbage bag sealing assembly 531 is disposed on the first support plate 522 and/or the second support plate 523, the garbage bag sealing assembly 531 is used for heating the garbage bag to thermally melt and seal the garbage bag, the cutting assembly 532 is disposed on the first support plate 522 and/or the second support plate 523, the cutting assembly 532 is used for cutting the garbage bag to cut off the garbage bag, and the cutting assembly 532 is disposed between at least one group of the garbage bag sealing assemblies 531.

It is noted that in some embodiments of the present invention, the trash bag sealing assemblies 531 are in a group and the severing assembly 532 is located below the trash bag sealing assemblies 531. The trash bag sealing assembly 531 seals the upper trash bag when the lower trash bag is cut by the cutting assembly 532.

In some other embodiments of the present invention, the garbage bag sealing members 531 are provided in two sets, the cutting member 532 is provided between the two sets of garbage bag sealing members 531, the two sets of garbage bag sealing members 531 respectively seal the top end of the garbage bag filled in the lower portion and the bottom of the garbage bag filled in the upper portion, and the cutting member 532 provided between the garbage bag sealing members 531 cuts the garbage bag to separate the garbage bag filled in the lower portion while sealing.

Of course, it should be noted that the garbage bag sealing assemblies 531 may be provided in three, four or more groups for increasing the sealing effect.

Referring to fig. 24 to 34, the garbage bag sealing assembly 531 includes a sealing electric heating flat wire connector 513a, a sealing heating flat wire 531b, and a sealing heating wire tensioning device 531 c. The sealed electric heating flat wire connector 513a is arranged on the first support plate 522 and/or the second support plate 523. The sealed heating flat wire 531b is connected between the two sealed electric heating flat wire connectors 513a in a tensioned manner. The sealed heating flat wire 531b is used for heating the garbage bag to a molten state, and the plastic bag is sealed in a hot melting mode under the action of clamping force. The sealing heating wire tensioning device 531c is provided on the first support plate 522 and/or the second support plate 523. One end of the sealed electric heating flat wire connector 513a is connected with the sealed electric heating wire tensioning device 531 c. The sealing heating wire tensioner 531c serves to prevent the sealing heating flat wire 531b from being thermally loosened.

Referring to fig. 24-34, severing assembly 532 includes: a cutting electric heating wire 532a, a cutting support bar 532b, and a cutting electric heating wire tension device 532 c. The cutoff electric heating wire 532a is disposed on one of the first support plate 522 and the second support plate 523. The cutting support bar 532b is provided on one of the first support plate 522 and the second support plate 523 where the cutting electric heating wire 532a is not installed. Cutting support bar 532b is disposed opposite cutting electric heating wire 532 a. A cutting heating wire tensioning device 532c is provided at one end of the cutting heating wire 532 a. The cutting heating wire tensioning device 532c serves to prevent the cutting heating wire 532a from being thermally loosened.

It can be understood that the heating wire may be extended after being heated, so that the length of the heating wire is long. The sealing heating wire tensioning device 531c and the cutting heating wire tensioning device 532c can stretch the cutting heating wire 532a and the sealing heating wire connector 513a, so that the heating wire is prevented from being loosened to influence the sealing and cutting effects.

With reference to fig. 24-34, the cuff assembly 52 further includes a bag-in-bag assembly 529. The bag stack assembly 529 is in two groups. The two sets of bag-in-bag assemblies 529 are arranged in mirror image along the central axis of the protective shell 51. Bag stack assembly 529 includes a first bag stack bar 529a and a second bag stack bar 529 b. The first bag stacking bar 529a has one end hinged to an end of the first support plate 522 and the other end hinged to the second bag stacking bar 529 b. The other end of the second bag stacking lever 529b is hinged to an end of the second support plate 523. When the first support plate 522 and the second support plate 523 are close to each other, the hinges of the two sets of the first bag stacking rods 529a and the second bag stacking rods 529b are close to each other, so that the garbage bag is pushed to fold.

It will be appreciated that the bag stacking assembly 529 can tighten the sides of the bag to fold the bag to enhance the sealing and cutting effect and avoid incomplete sealing or cutting.

Referring to fig. 35 to 41, the automatic sealing cover 60 includes an outer frame 61 and a cover plate assembly 62. The outer frame 61 is provided on the housing 10. The outer frame 61 is provided with a material inlet 611. The cover assembly 62 is disposed on the outer frame 61. The cover plate assembly 62 is used to seal the feed port 611. The cover plate assemblies 62 are in two groups. The two groups of cover plate components 62 are symmetrically arranged along the central axis of the outer frame 61. The cover plate assembly 62 includes a driving cover 621, a driven cover 622, and a cover plate driving assembly 623. The driving cover 621 is provided on the outer frame 61. The driven cover 622 has one end connected to the driving cover 621 and the other end sliding on the outer frame 61. The cover driving assembly 623 is disposed on the outer frame 61. The cover driving assembly 623 is used for driving the driving cover 621 to turn over.

It will be appreciated that the two sets of cover plate assemblies 62 of the side-by-side door, when opened, do not create a turbulent flow that carries pathogens out of the tub 20, avoiding potential hygienic risks.

It should be noted that, in some embodiments of the present invention, the cover plate assembly 62 is composed of a driving cover 621 and a driven cover 622 hinged to one side of the driving cover 621, when the cover plate driving assembly 623 drives the driving cover 621 to turn over, the side end of the driven cover 622 hinged to the driving cover 621 rises, and the other side of the driven cover 622 slides along the outer frame 61, so that the driving cover 621 and the driven cover 622 are gradually folded to complete the opening of the intelligent medical waste collector. The whole process is automatically opened by the cover plate driving assembly 623, operators do not need to contact the cover of the intelligent medical waste collector, and pollution is avoided.

Further, when the intelligent medical waste collector needs to be closed, the cover plate driving assembly 623 drives the driving cover 621 to reversely turn over, the side end of the driven cover 622 hinged to the driving cover 621 descends, the other side of the driven cover 622 slides along the outer frame 61, so that the driving cover 621 and the driven cover 622 gradually change from the folded state to the unfolded state, and the sealing of the garbage can is completed.

Referring to fig. 35 to 41, the deck driving assembly 623 includes a deck driving motor 623a and a deck driving gear 623 b. The cover driving motor 623a is provided on the outer frame 61. The output end of the deck driving motor 623a is provided with a deck motor gear 623a 1. The cover driving gear 623b is provided on the driving cover 621. The deck drive gear 623b meshes with a deck motor gear 623a 1.

In some embodiments of the present invention, the cover driving assembly 623 is composed of a cover driving motor 623a and a cover driving gear 623b, and the cover driving gear 623b on the driving cover 621 is driven to rotate by the cover driving motor 623a, and further the driving cover 621 is driven to rotate.

Of course, it should be noted that in some other embodiments of the present invention, a driving structure such as a pulley or a cylinder may be adopted.

Referring to fig. 35 to 41, the cover assembly 62 further includes a cover brake assembly 624, and the cover brake assembly 624 includes an open cover brake assembly 624a and a closed cover brake assembly 624 b. The cover opening stopper 624a is provided on the outer frame 61 and electrically connected to the cover driving unit 623. When the driving cover 621 is fully opened, the cover opening brake assembly 624a sends an electrical signal to stop the operation of the cover driving assembly 623. The cover closing brake assembly 624b is disposed on the outer frame 61 and electrically connected to the cover driving assembly 623. When the driving cap 621 completely seals the feeding port 611, the cover closing brake assembly 624b sends an electrical signal to stop the operation of the cover driving assembly 623.

Referring to fig. 35 to 41, the door opening brake assembly 624a includes a door opening stroke switch 624a1 and a first brake trigger block 624a 2. The cover opening stroke switch 624a1 is provided on the outer frame 61. The lid opening stroke switch 624a1 is electrically connected to the lid driving assembly 623. The first brake trigger block 624a2 is provided on the driving cover 621. When the driving cover 621 is fully opened, the first brake trigger block 624a2 triggers the cover opening stroke switch 624a 1.

It can be understood that when the driving cover 621 is fully opened by rotation, the first braking trigger block 624a2 can trigger the cover opening stroke switch 624a1 disposed on the outer frame 61, and the cover opening stroke switch 624a1 can send a stop signal to the cover driving motor 623a to stop the operation of the cover driving motor 623a, thereby preventing damage to parts due to excessive cover opening.

Referring to fig. 35 to 41, the cover closing brake assembly 624b includes a cover closing stroke switch 624b1 and a second brake trigger block 624b 2. The cover closing stroke switch 624b1 is provided on the outer frame 61. The cover closing stroke switch 624b1 is electrically connected to the cover driving assembly 623. A second brake trigger block 624b2 is provided on the driving cover 621. When the driving cap 621 completely seals the feeding port 611, the second brake trigger block 624b2 triggers the cover closing stroke switch 624b 1.

It can be understood that, after the driving cover 621 is completely closed, the second braking trigger block 624b2 can trigger the cover closing stroke switch 624b1 arranged on the outer frame 61, and at this time, the cover closing stroke switch 624b1 can send a stop signal to the cover driving motor 623a to stop the operation of the cover driving motor 623a, so as to prevent the parts from being damaged due to the excessive cover closing.

Referring to fig. 35-41, the automated sealing lid 60 further includes a sterilization spray assembly 63. The disinfecting spray assembly 63 includes a disinfecting solution tank 631 and a disinfecting solution nozzle 632. The disinfectant liquid storage 631 is provided on the driving cap 621 and/or the driven cap 622. The disinfectant tank 631 is used for accommodating disinfectant. The disinfectant nozzle 632 is disposed at the lower end of the disinfectant tank 631. The disinfectant nozzle 632 is used to spray disinfectant into the tub 20.

It can be understood that the disinfection liquid can be filled in the disinfection liquid bin 631, and before the cap is opened and after the cap is closed at each time, disinfection liquid can be sprayed into the barrel body 20 through the disinfection liquid nozzle 632 to sterilize medical wastes, so that germs in the barrel body 20 can be further prevented from spreading when the cap is opened.

Further, the disinfectant tank 631 is detachably connected to the driving cap 621.

It will be appreciated that in some embodiments of the invention, the sterilant fluid reservoir 631 is a removable sterilant fluid cartridge that is easily replaceable.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. An intelligent medical waste collector, comprising:

a housing (10);

a tub (20) disposed in the housing (10), the tub (20) for accommodating medical waste;

the barrel body output mechanism (30) is movably arranged in the shell (10), the barrel body (20) is arranged on the barrel body output mechanism (30), and the barrel body output mechanism (30) can transfer the barrel body (20) to the outside of the shell (10);

a disposal bag laying mechanism (40) provided on the housing (10), the disposal bag laying mechanism (40) being for laying a disposal bag (1) in the tub (20);

a seal cutting device (50) disposed in the housing (10) and above the can (20), the seal cutting device (50) being configured to seal the garbage bag (1) and separate the garbage bag (1) in the can (20) from the garbage bag laying mechanism (40); and

an automatic sealing cover (60) disposed on the housing (10), the automatic sealing cover (60) being for sealing the housing (10).

2. The intelligent medical waste collector of claim 1, wherein the bowl output mechanism (30) comprises:

the tray (31) is movably arranged in the shell (10), and the barrel body (20) is arranged on the tray (31);

the output driving mechanism (32) is arranged on the shell (10), and the output driving mechanism (32) is used for driving the tray (31) to move; and

and a brake mechanism (33) which is provided on the tray (31) and electrically connected to the output drive mechanism (32).

3. The intelligent medical waste collector of claim 2 wherein the bowl output mechanism (30) further comprises a weighing system (34), the weighing system (34) comprising:

a weigher (341) disposed on the tray (31), the tub (20) being disposed on the weigher (341);

a display device (342) disposed on the housing (10) and electrically connected to the scale (341), the display device (342) displaying the quality of the medical waste weighed by the scale (341); and

and the alarm device (343) sends out an alarm signal when the weighing device (341) detects that the quality of the medical waste reaches a set value.

4. The intelligent medical waste collector of claim 1, wherein the garbage bag laying mechanism (40) comprises:

the bag plate (41), the bag plate (41) includes a base plate (411), a bag sleeving barrel (412), a bag pressing mechanism (413) and a bag clamping mechanism (414), the bag sleeving barrel (412) is arranged on the base plate (411), the garbage bags (1) are stacked and sleeved on the bag sleeving barrel (412), the bag pressing mechanism (413) is arranged on the bag sleeving barrel (412), the bag pressing mechanism (413) is used for fixing one end of the garbage bags, the bag clamping mechanism (414) is arranged at the lower end of the bag sleeving barrel (412), and the bag clamping mechanism (414) is used for hooking the lower end of the garbage bags to prevent the garbage bags from naturally sliding down; and

open a bag subassembly (42), be used for strutting disposal bag (1) that the cover was established on bag dish (41), it includes to open a bag subassembly (42): pump and press subassembly (421), seal assembly (422) and malleation breather pipe (423), pump and press subassembly (421) to set up casing (10) go up and with staving (20) are connected, seal assembly (422) set up casing (10) are last, seal assembly (422) are used for sealing staving (20) with pump and press subassembly (421), malleation breather pipe (423) sets up on automatic sealing lid (60), malleation breather pipe (423) are used for aerifing in the disposal bag, make the disposal bag automatic distraction.

5. An intelligent medical waste collector as claimed in claim 1, wherein said seal cutting means (50) comprises:

a protective shell (51) arranged on the shell (10) and positioned between the automatic sealing cover (60) and the barrel body (20)

The closing-in assembly (52) is arranged on the protective shell (51), and the closing-in assembly (52) is used for tightening a garbage bag opening; and

and the sealing and cutting assembly (53) is arranged on the closing-in assembly (52), and the sealing and cutting assembly (53) is used for cutting off the garbage bag and sealing the garbage bag.

6. The intelligent medical waste collector of claim 5, wherein the cuff assembly (52) comprises:

rails (521) provided at both sides of the shield case (51);

a first support plate (522) provided at one end of the rail (521), the first support plate (522) being slidable along the rail (521);

a second support plate (523) provided at the other end of the rail (521), the second support plate (523) being slidable along the rail (521);

a first clamping cable (524) arranged on the first supporting plate (522), wherein the first clamping cable (524) can move under the driving of the first supporting plate (522);

the second clamping cable (525) is arranged on the second supporting plate (523), and the second clamping cable (525) can be driven by the second supporting plate (523) to move;

a closing-in driving assembly (526) arranged on the protective shell (51), wherein the closing-in driving assembly (526) drives the first supporting plate (522) and the second supporting plate (523) to move close to or away from each other;

the closing-in brake component (527) is arranged on the protective shell (51) and is electrically connected with the closing-in driving component (526), and the closing-in brake component (527) can stop the operation of the closing-in driving component (526) after the first supporting plate (522) and/or the second supporting plate (523) are/is in place; and

the reinforcing plate (528) is arranged on the first supporting plate (522) and/or the second supporting plate (523), and the reinforcing plate (528) is used for supporting the first supporting plate (522) and/or the second supporting plate (523) to extrude, seal and cut off the garbage bag, so that the first supporting plate (522) and/or the second supporting plate (523) are prevented from deforming.

7. An intelligent medical waste collector as claimed in claim 6, wherein the sealing and cutting assembly (53) comprises at least one garbage bag sealing assembly (531), the garbage bag sealing assembly (531) is disposed on the first support plate (522) and/or the second support plate (523), the garbage bag sealing assembly (531) is used for heating garbage bags to heat and melt and seal the garbage bags, the cutting assembly (532) is disposed on the first support plate (522) and/or the second support plate (523), the cutting assembly (532) is used for cutting the garbage bags to cut off the garbage bags, and the cutting assembly (532) is disposed under at least one group of the garbage bag sealing assembly (531).

8. The intelligent medical waste collector of claim 7, wherein the garbage bag sealing assembly (531) comprises:

the sealed electric heating flat wire connector (513a) is arranged on the first support plate (522) and/or the second support plate (523); and

the sealed heating flat wires (531b) are connected between the two sealed electric heating flat wire connectors (513a) in a tensioning mode, and the sealed heating flat wires (531b) are used for heating the garbage bag to a molten state and enabling the plastic bag to be sealed in a hot melting mode under the action of clamping force; and

sealed heating wire overspeed device tensioner (531c), set up first backup pad (522) and/or on second backup pad (523), sealed electric heat flat filament connector (513a) one end with sealed heating wire overspeed device tensioner (531c) are connected, sealed heating wire overspeed device tensioner (531c) are used for preventing sealed flat filament (531b) that generates heat is heated laxly.

9. The intelligent medical waste collector of claim 7, wherein the cutoff assembly (532) comprises:

a cut-off heating wire (532a) provided on one of the first support plate (522) and the second support plate (523);

a cutting support bar (532b) arranged on one of the first support plate (522) and the second support plate (523) without the cutting electric heating round wire (532a), wherein the cutting support bar (532b) is arranged opposite to the cutting electric heating round wire (532 a); and

the cutting electric heating wire tensioning device (532c) is arranged at one end of the cutting electric heating round wire (532a), and the cutting electric heating wire tensioning device (532c) is used for preventing the cutting electric heating round wire (532a) from being loose due to heating.

10. The intelligent medical waste collector of claim 1, wherein the automated sealing lid (60) comprises:

the outer frame (61) is arranged on the shell (10), and a feeding port (611) is formed in the outer frame (61); and

the cover plate component (62) is arranged on the outer frame (61), the cover plate component (62) is used for sealing the feeding port (611), the cover plate component (62) is two groups, the two groups of cover plate components (62) are symmetrically arranged along the central axis of the outer frame (61), the cover plate component (62) comprises a driving cover (621), a driven cover (622) and a cover plate driving component (623), the driving cover (621) is arranged on the outer frame (61), one end of the driven cover (622) is connected with the driving cover (621), the other end of the driven cover is arranged on the outer frame (61) in a sliding mode, the cover plate driving component (623) is arranged on the outer frame (61), and the cover plate driving component (623) is used for driving the driving cover (621) to overturn.

Images