CN113680755A - Uropoiesis surgical instrument cleaning equipment - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to urinary surgery instrument cleaning equipment, a cleaning device cleans medical instruments, a drying device dries the cleaned instruments, a sliding block drives a first bevel gear shaft and further drives a rocker to drive a bevel gear shaft, a chain drives a drying lamp to dry the medical instruments, a sterilizing device sterilizes the cleaned instruments, a lifting assembly conveys the cleaned instruments to an equipment outlet, a first clutch is meshed with a second clutch through a third turbine to drive the lifting rod to adjust the height of an instrument tray, a cooling assembly physically cools the instruments, a second trigger block is contacted with the instrument tray, a fourth straight gear shaft drives a transmission belt eight to drive a fifth rack to be meshed with a planetary gear, and therefore cooling liquid in a water storage tank is released, the invention dries, disinfects and cools medical instruments after cleaning, so that the instruments can be cleaned more quickly.

Description

Uropoiesis surgical instrument cleaning equipment

Technical Field

The invention relates to the technical field of medical equipment, in particular to urinary surgery instrument cleaning equipment.

Background

At present the washing of uropoiesis surgical equipment is washd through artificial mode to the abluent speed of uropoiesis surgical equipment is slower, and abluent quality is not good, causes cross infection easily, and manual cleaning causes operating personnel to be injured easily simultaneously. For example, a urinary surgical instrument cleaning device with patent number CN201821749612.0 comprises a base, wherein an ultrasonic cleaning box is fixedly connected to the upper surface of the base, an ultrasonic generator is fixedly connected to the outer surface of the ultrasonic cleaning box, a vibration steel plate is arranged inside the ultrasonic cleaning box, the vibration steel plate is attached to the inner bottom wall of the ultrasonic cleaning box, and an ultrasonic transducer is embedded and installed in the ultrasonic cleaning box; the ultrasonic cleaning box is internally and slidably connected with a storage basket for storing medical equipment, the upper end surface of the storage basket is connected with one end of a connecting rope, and the other end of the connecting rope penetrates through the ultrasonic cleaning box and is tied on a winding roller; the winding roller is connected with the stand that two symmetries set up through the pivot rotation, and the stand is connected with the last fixed surface of ultrasonic cleaning case, and the one end of pivot runs through corresponding stand and fixedly connected with handle, and threaded connection has the fastening bolt who is used for locking the handle position on the handle, and fastening bolt's tail end and stand extrusion contact, equipment when wasing, still need contact with medical personnel for cleaning process is convenient and fast more inadequately.

Disclosure of Invention

The invention aims to provide a urinary surgery instrument cleaning device, which can be used for cleaning medical instruments through a cleaning device, wherein the drying device is used for drying the cleaned instruments, the sterilizing device is used for sterilizing the cleaned instruments, the lifting assembly is used for conveying the cleaned instruments to an equipment outlet, and the cooling assembly is used for physically cooling the instruments.

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

the utility model provides an uropoiesis surgical instrument cleaning equipment, includes belt cleaning device, drying device, degassing unit, lifting unit, cooling assembly, belt cleaning device is connected with drying device, and belt cleaning device is connected with degassing unit, and belt cleaning device is connected with lifting unit, and belt cleaning device is connected with cooling assembly, and drying device is connected with degassing unit, and drying device is connected with lifting unit, and drying device is connected with cooling assembly, and degassing unit is connected with lifting unit, and degassing unit is connected with cooling assembly.

As a further optimization of the technical scheme, the invention relates to urinary surgery instrument cleaning equipment, which comprises an ultrasonic cleaning box, a convex block, a first spring, an instrument tray, a first trigger block, a second spring, a first end face gear, a first straight-tooth shaft, a first transmission belt, a first straight-tooth gear, a first worm, a first turbine, a first screw rod, a first cleaning box cover, a second transmission belt, a second worm, a second turbine and a second screw rod, wherein the convex block is in sliding connection with the instrument tray, one end of the first spring is in contact with the convex block, the other end of the first spring is in contact with the instrument tray, the instrument tray is in sliding connection with the ultrasonic cleaning box, the instrument tray is in contact with the first trigger block, the first trigger block is in sliding connection with the ultrasonic cleaning box, one end of the second spring is in contact with the ultrasonic cleaning box, the other end of the second spring is in contact with the first trigger block, the first end face gear is fixedly connected with the first trigger block, and the first end face gear is in meshing connection with the straight-tooth shaft, the first end face gear is meshed with the first straight gear, the first straight gear shaft is rotatably connected with the ultrasonic cleaning box, the first transmission belt is matched and connected with the first straight gear shaft, the first straight gear shaft is fixedly connected with the first worm, the first worm is rotatably connected with the ultrasonic cleaning box, the first worm is meshed and connected with the first worm wheel, the first worm wheel is fixedly connected with the first lead screw, the first lead screw is rotatably connected with the ultrasonic cleaning box, the first lead screw is in threaded connection with the cleaning box cover, the cleaning box cover is in sliding connection with the ultrasonic cleaning box, the second transmission belt is matched and connected with the first worm, the second transmission belt is matched and connected with the second worm, the second worm is rotatably connected with the ultrasonic cleaning box, the second worm wheel is meshed and connected with the second ultrasonic cleaning box, the second worm wheel is in threaded connection with the second lead screw, and the second lead screw is in contact with an instrument tray.

As a further optimization of the technical scheme, the urinary surgery instrument cleaning device comprises a sliding block, a sliding block bracket, a spring III, a drying box, a bevel gear shaft I, a bevel gear shaft II, a straight gear wheel II, an idler wheel, a bevel gear shaft III, a transmission belt III, a roller bracket, a transmission belt IV, a rocker, a rack I, a straight gear wheel III, a rack bracket I, a straight gear wheel IV, a chain, a straight gear wheel V and a drying lamp, wherein an instrument tray is in contact with the sliding block, the sliding block is in sliding connection with the sliding block bracket, the sliding block bracket is fixedly connected with an ultrasonic cleaning box, the sliding block bracket is fixedly connected with the drying box, one end of the spring III is in contact with the sliding block, the other end of the spring III is in contact with the sliding block bracket, the drying box is fixedly connected with the ultrasonic cleaning box, the bevel gear shaft I is in rotating connection with the sliding block, the bevel gear shaft I is in meshing connection with the bevel gear shaft II, a bevel gear shaft II is rotationally connected with the ultrasonic cleaning box, a bevel gear shaft II is rotationally connected with the drying box, the bevel gear shaft II is fixedly connected with a straight gear shaft II, an idler gear is rotationally connected with the ultrasonic cleaning box, the idler gear is meshed with a bevel gear shaft III, the bevel gear shaft III is rotationally connected with the ultrasonic cleaning box, a transmission belt III is in fit connection with the bevel gear shaft III, the transmission belt III is in fit connection with a roller, the roller is rotationally connected with a roller bracket, the roller bracket is fixedly connected with the ultrasonic cleaning box, the roller bracket is fixedly connected with the drying box, a transmission belt IV is in fit connection with the roller, a rocker is fixedly connected with the bevel gear shaft III, the rocker is fixedly connected with a rack I, the rack I is in mesh connection with a straight gear III, the straight gear III is fixedly connected with a straight gear IV, the rack bracket I is rotationally connected with a straight gear III, the rack bracket I is slidably connected with the rack I, the straight gear IV is rotationally connected with the drying box, and the straight gear IV is meshed with a chain, the chain is meshed with the straight gear five, the straight gear five is rotatably connected with the drying box, the drying lamp is slidably connected with the drying box, and the drying lamp is fixedly connected with the chain.

As a further optimization of the technical scheme, the urinary surgery instrument cleaning device comprises a second end face gear, a fourth spring, a sterilizing box, a first bevel gear, a fourth bevel gear shaft, a fifth transmission belt, a second straight gear shaft, a cam, a fixed support, a sterilizing lamp and a fifth spring, wherein an instrument tray is in contact with the second end face gear, the second end face gear is in sliding connection with the sterilizing box, one end of the fourth spring is in contact with the instrument tray, the other end of the fourth spring is in contact with the sterilizing box, the sterilizing box is fixedly connected with a drying box, the first bevel gear is fixedly connected with the second end face gear, the first bevel gear is in meshing connection with the fourth bevel gear shaft, the fourth bevel gear shaft is in rotating connection with the sterilizing box, the fifth transmission belt is in matching connection with the fourth bevel gear shaft, the fifth transmission belt is in matching connection with the second bevel gear shaft, the second straight gear shaft is in meshing connection with the second end face gear, the second straight gear shaft is in rotating connection with the sterilizing box, and the second straight gear shaft is fixedly connected with the cam, the cam is rotatably connected with the fixed support, the fixed support is connected with the disinfection box in a sliding mode, the fixed support is fixedly connected with the disinfection lamp, one end of the five springs is in contact with the disinfection box, and the other end of the five springs is in contact with the fixed support.

As a further optimization of the technical scheme, the invention relates to an urological instrument cleaning device, which comprises a third turbine, a third worm, a sixth straight gear, a second rack support, a seventh straight gear, a notched disc, a first rotating arm, a grooved wheel, an eighth straight gear, a third rack, a first clutch, a cross rod support, a third end face gear, a ninth straight gear, a motor, a second clutch, a fourth turbine, a fourth worm, a sixth driving belt, a third straight gear shaft, a fourth rack, a rack box, a lifting rod, a spring sleeve and a sixth spring, wherein the third turbine is fixedly connected with the second straight gear shaft, the third turbine is meshed with the third worm, the third worm is rotatably connected with a disinfection box, the third worm is fixedly connected with the sixth straight gear, the sixth straight gear is meshed with the second rack, the second rack is slidably connected with the second rack support, the second rack is meshed with the seventh straight gear, and the disinfection box, a spur gear seventh is rotationally connected with a rack bracket II, the spur gear seventh is fixedly connected with a notched disc, the spur gear seventh is fixedly connected with a rotating arm I, a sheave is rotationally connected with a rack bracket II, a sheave is rotationally connected with the notched disc, the sheave is engaged with a rotating arm I, the sheave is fixedly connected with a spur gear eighth, the spur gear eighth is engaged with a rack gear III, the rack gear III is slidably connected with a rack bracket II, a clutch I is rotationally connected with a rack gear III, the clutch I is slidably connected with a cross rod, the cross rod is rotationally connected with a cross rod bracket, the cross rod bracket is fixedly connected with a disinfection box, a face gear III is fixedly connected with the cross rod, a face gear III is engaged with a spur gear nine, the face gear III is engaged with a spur gear II, the spur gear nine is fixedly connected with a motor, the motor is fixedly connected with the disinfection box, the clutch II is engaged with the clutch I, and the clutch II is fixedly connected with a turbine IV, the second clutch is rotatably connected with the disinfection box, the fourth worm wheel is meshed with the fourth worm, the fourth worm is rotatably connected with the disinfection box, the sixth driving belt is cooperatively connected with the fourth worm, the sixth driving belt is cooperatively connected with the third straight-tooth shaft, the third straight-tooth shaft is meshed with the fourth rack, the third straight-tooth shaft is rotatably connected with the rack box, the fourth rack is slidably connected with the rack box, the fourth rack is fixedly connected with the lifting rod, the rack box is fixedly connected with the disinfection box, the lifting rod is slidably connected with the spring sleeve, the lifting rod is in contact with the instrument tray, the spring sleeve is fixedly connected with the disinfection box, one end of the six springs is in contact with the lifting rod, and the other end of the six springs is in contact with the spring sleeve.

As a further optimization of the technical scheme, the urological instrument cleaning device comprises a cooling component, a second trigger block, a second bevel gear, a seventh spring, a third bevel gear shaft, a seventh transmission belt, a fourth end face gear, a fourth straight gear shaft, a water spraying tank, an eighth transmission belt, a third bevel gear, a fan, a fourth bevel gear shaft, a second rotating arm, a fifth rack, a planet gear, a rack support, a fifth straight gear shaft, a sixth rack, a water discharging opening and a water storage tank, wherein the second trigger block is in contact with an instrument tray, the second trigger block is in sliding connection with a sterilizing tank, the second trigger block is fixedly connected with the second bevel gear, the second bevel gear is meshed with the third bevel gear shaft, one end of the seventh spring is in contact with the second trigger block, the other end of the seventh spring is in contact with the sterilizing tank, the third bevel gear shaft is in rotating connection with the sterilizing tank, the seventh transmission belt is in matching connection with the third bevel gear shaft, the seventh transmission belt is in matching connection with the second bevel gear shaft, a seventh driving belt is in fit connection with a fourth end face gear, the fourth end face gear is in rotation connection with the disinfection box, the fourth end face gear is in mesh connection with a fourth straight-tooth shaft, the fourth straight-tooth shaft is in rotation connection with a water spraying box, the water spraying box is fixedly connected with the disinfection box, an eighth driving belt is in fit connection with the fourth straight-tooth shaft, the eighth driving belt is in fit connection with a fan, a third bevel gear is fixedly connected with the fan, a third bevel gear is in mesh connection with a fourth bevel-tooth shaft, the fan is in rotation connection with the water spraying box, the fourth bevel-tooth shaft is fixedly connected with a second rotating arm, the fourth bevel-tooth shaft is in rotation connection with the water spraying box, the second rotating arm is fixedly connected with a fifth rack, the fifth rack is in mesh connection with a planetary gear, the fifth rack is in slide connection with a rack support, the planetary gear is in rotation connection with the rack support, the fifth straight-tooth shaft is in mesh connection with a sixth rack, the sixth rack is meshed with the water outlet, the water outlet is connected with the water storage tank in a sliding mode, and the water storage tank is fixedly connected with the water spraying tank.

The urinary surgery instrument cleaning equipment has the beneficial effects that: the cleaning device is characterized in that an end face gear I is meshed with a straight-tooth shaft I and a straight-tooth gear I through contact of an instrument tray and a trigger block I, a first driving turbine I drives a first screw rod and a cleaning box cover, when the medical instrument is cleaned, the equipment is closed, a first driving transmission belt II drives a second screw rod, the second screw rod drives the instrument tray to slide in an ultrasonic cleaning box, a drying device drives a first bevel gear shaft I to be meshed with a second bevel gear shaft and an idler wheel through a sliding block, a third bevel gear shaft drives a roller to rotate, the third bevel gear shaft drives a rocker, the first rack drives the third straight-tooth gear to reciprocate, a driving chain drives a drying lamp to dry the medical instrument, the sterilizing device is formed by that the medical instrument is in contact with the second end face gear and further the first bevel gear shaft is meshed with the fourth bevel gear shaft, the second driving straight-tooth shaft drives a cam to rotate in a fixed support, and the sterilizing lamp is used for sterilizing the medical instrument, the lifting assembly rotates through a turbine III, so that a rack II drives a straight gear VII to drive a rotating arm I to be meshed with a grooved pulley, the grooved pulley drives a straight gear VIII to be meshed with a clutch II, a driving transmission belt VI drives a straight gear III to be meshed with a rack IV, so that the lifting rod adjusts the height of an instrument tray, the cooling assembly is in contact with the instrument tray through a trigger block II, so that an end face gear IV is meshed with a bevel gear III and the straight gear IV, the straight gear IV drives the transmission belt VIII after rotating, so that the bevel gear III drives the bevel gear IV to rotate, the bevel gear IV drives the rotating arm II to drive a rack V to be meshed with a planetary gear, so that the planetary gear drives the straight gear V, the straight gear V drives the rack VI after rotating, so as to release cooling liquid in a water storage tank, and the medical instrument is dried after being cleaned, and 3, sterilization and cooling are performed, so that the cleaning of the instrument is quicker.

Drawings

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

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

FIG. 2 is a first schematic structural view of a cleaning apparatus according to the present invention;

FIG. 3 is a schematic structural view of a second cleaning apparatus according to the present invention;

FIG. 4 is a first schematic structural diagram of a drying apparatus according to the present invention;

FIG. 5 is a schematic structural diagram of a second drying apparatus according to the present invention;

FIG. 6 is a third schematic structural view of the drying apparatus of the present invention;

FIG. 7 is a first schematic view of the disinfection device of the present invention;

FIG. 8 is a second schematic view of the sterilization device of the present invention;

FIG. 9 is a third schematic view of the sterilization device of the present invention;

FIG. 10 is a first schematic view of the lift assembly of the present invention;

FIG. 11 is a second schematic structural view of the lift assembly of the present invention;

FIG. 12 is a third schematic structural view of the lift assembly of the present invention;

FIG. 13 is a fourth schematic structural view of the lift assembly of the present invention;

FIG. 14 is a fifth structural schematic view of the lift assembly of the present invention;

FIG. 15 is a first schematic view of a cooling assembly according to the present invention;

FIG. 16 is a schematic structural view of a cooling assembly of the present invention;

FIG. 17 is a third schematic view of the cooling assembly of the present invention;

fig. 18 is a fourth structural schematic diagram of the cooling assembly of the present invention.

In the figure: a cleaning device; 1-1 of an ultrasonic cleaning box; 1-2 of a bump; 1-3 of a first spring; 1-4 of an instrument tray; 1-5 of a trigger block I; 1-6 parts of a second spring; 1-7 of a face gear I; 1-8 of a straight gear shaft I; 1-9 parts of a first transmission belt; 1-10 parts of a straight gear I; 1-11 parts of a worm; 1-12 of a turbine I; 1-13 parts of a first lead screw; cleaning the box covers 1-14; a second transmission belt 1-15; 1-16 parts of a worm II; a second turbine 1-17; 1-18 parts of a second screw rod; a drying device 2; 2-1 of a slide block; 2-2 of a slide block bracket; 2-3 parts of a spring; 2-4 of a drying box; 2-5 of a bevel gear shaft I; 2-6 parts of a bevel gear shaft II; 2-7 parts of a second straight gear; idler pulleys 2-8; 2-9 parts of a bevel gear shaft; 2-10 parts of a transmission belt III; 2-11 of rollers; 2-12 of roller support; driving belts IV 2-13; 2-14 parts of a rocker; 2-15 parts of a first rack; 2-16 parts of a straight gear; 2-17 of a rack bracket I; 2-18 parts of straight gears; 2-19 parts of chains; 2-20 parts of a straight gear; 2-21 parts of a drying lamp; a sterilizing device 3; a second face gear 3-1; a fourth spring 3-2; 3-3 of a disinfection box; 3-4 parts of a first bevel gear; 3-5 parts of a bevel gear shaft; 3-6 parts of a transmission belt; 3-7 parts of a straight gear shaft II; 3-8 parts of a cam; 3-9 parts of a fixed bracket; 3-10 parts of a disinfection lamp; 3-11 parts of a spring; a lifting assembly 4; a turbine three 4-1; 4-2 parts of worm; 4-3 parts of a straight gear; 4-4 of a rack II; 4-5 of a rack bracket II; 4-6 parts of a spur gear seven; 4-7 of a notch disc; 4-8 of a rotating arm I; 4-9 grooved wheels; eight 4-10 straight gears; 4-11 parts of a rack; 4-12 parts of a first clutch; 4-13 parts of a cross rod; 4-14 of a cross bar bracket; 4-15 parts of a face gear; nine 4-16 straight gears; 4-17 of a motor; a second clutch 4-18; 4-19 parts of turbine; 4-20 parts of worm; six transmission belts 4-21; 4-22 parts of a straight gear shaft; 4-23 of a rack; 4-24 rack boxes; 2-25 of a lifting rod; spring sleeves 2-26; six springs 2-27; a temperature reduction component 5; a second trigger block 5-1; 5-2 parts of a bevel gear II; 5-3 parts of a spring seven; 5-4 parts of a bevel gear shaft; 5-5 parts of a transmission belt seven; 5-6 parts of a transmission belt; 5-7 parts of face gear; 5-8 of a straight gear shaft; 5-9 parts of a water spraying box; eight 5-10 parts of a transmission belt; 5-11 parts of bevel gear III; 5-12 parts of a fan; a bevel gear shaft IV is 5-13; 5-14 parts of a second rotating arm; 5-15 parts of a rack; 5-16 of planetary gear; 5-17 of a rack bracket; 5-18 parts of a straight gear shaft; six racks 5-19; 5-20 parts of a water discharge port; and 5-21 parts of a water storage tank.

Detailed Description

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

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

The first embodiment is as follows:

the ultrasonic cleaning box 1-1 is used for cleaning medical instruments, the medical instruments are placed in an instrument tray 1-4 and are in contact with a projection 1-2, so that the projection 1-2 compresses a spring I1-3 to fix the medical instruments, when the instrument tray 1-4 is in contact with a trigger block I1-5, the trigger block I1-5 compresses a spring II 1-6 to slide in the ultrasonic cleaning box 1-1, the trigger block I1-5 is connected with a face gear I1-7, the trigger block I1-5 slides to drive the face gear I1-7 to be meshed with a straight gear shaft I1-8 and a straight gear I1-10, the straight gear shaft I1-8 is driven to rotate by a transmission belt I1-9, the face gear I1-7 is driven after the straight gear shaft I1-8 rotates, the end face gear I1-7 drives the straight gear I1-10 to rotate, the straight gear I1-10 is connected with the worm I1-11, the worm I1-11 is driven to rotate in the ultrasonic cleaning box 1-1 after the straight gear I1-10 rotates, the worm I1-11 is meshed with the turbine I1-12 after the worm I1-11 rotates, the turbine I1-12 is driven to rotate, the turbine I1-12 is connected with the screw I1-13, the turbine I1-12 drives the screw I1-13 to be in threaded connection with the cleaning box cover 1-14 after the turbine I1-12 rotates, so that the cleaning box cover 1-14 slides in the ultrasonic cleaning box 1-1, the equipment is sealed when the medical equipment is cleaned, and the driving belt II 1-15 is in matched connection with the worm I1-11 and the worm II 1-16, the first worm 1-11 rotates and then drives the second transmission belt 1-15 to transmit, the second transmission belt 1-15 transmits and then drives the second worm 1-16 to rotate in the ultrasonic cleaning box 1-1, the second worm 1-16 rotates and then drives the second turbine 1-17 to rotate, the second turbine 1-17 rotates and then is in threaded connection with the second lead screw 1-18, so that the second lead screw 1-18 drives the instrument tray 1-4 to lift, and the next operation is performed after cleaning.

The second embodiment is as follows:

when medical instruments in the instrument tray 1-4 are cleaned and then are contacted with the sliding block 2-1, the sliding block 2-1 compresses the spring III 2-3 to slide in the sliding block bracket 2-2, the sliding block 2-1 drives the bevel gear shaft I2-5 to be meshed with the bevel gear shaft II 2-6 and the idle gear 2-8 after sliding, the bevel gear shaft II 2-6 is connected with the straight gear II 2-7, the bevel gear shaft II 2-6 drives the bevel gear shaft I2-5 to rotate in the sliding block bracket 2-2 after rotating, the bevel gear shaft I2-5 drives the idle gear 2-8 to rotate in the ultrasonic cleaning box 1-1 after rotating, the idle gear 2-8 drives the bevel gear shaft III 2-9 after rotating, the transmission belt III 2-10 is connected with the bevel gear shaft III 2-9 and the roller 2-11 in a matching way, the three 2-9 of the bevel gear shaft rotates to drive the three 2-10 of the transmission belt to transmit, the three 2-10 of the transmission belt drives the roller 2-11 to rotate in the roller bracket 2-12, the roller 2-11 rotates to drive the four 2-13 of the transmission belt to rotate, so that the roller 2-11 transmits the instrument tray 1-4, the rocker 2-14 is connected with the three 2-9 of the bevel gear shaft, one end of the rocker 2-14 is provided with the first 2-15 of the rack, when the three 2-9 of the bevel gear shaft drives the rocker 2-14 to rotate, the rocker 2-14 rotates to drive the first 2-15 of the rack to be meshed with the third 2-16 of the straight gear, so that the first 2-15 of the rack drives the third 2-16 of the straight gear to reciprocate, the third 2-16 of the straight gear is connected with the fourth 2-18 of the straight gear, the rack support I2-17 fixes the rack I2-15, the straight gear III 2-16 rotates to drive the straight gear IV 2-18 to rotate, the straight gear IV 2-18 drives the chain 2-19, so that the chain 2-19 drives the straight gear V2-20, the drying lamp 2-21 is fixed on the chain 2-19, and when the straight gear III 2-16 reciprocates, the chain 2-19 drives the drying lamp 2-21 to slide in the drying box 2-4 to dry the medical instrument.

The third concrete implementation mode:

when the medical instrument is dried and contacts with the end face gear II 3-1, the end face gear II 3-1 is driven to compress the spring IV 3-2 to slide in the disinfection box 3-3, the bevel gear I3-4 is fixed on the end face gear II 3-1, the end face gear II 3-1 slides to drive the bevel gear I3-4 to be meshed with the bevel gear shaft IV 3-5, the transmission belt V3-6 is in fit connection with the bevel gear shaft II 2-6 and the bevel gear shaft IV 3-5, the bevel gear shaft II 2-6 rotates to drive the transmission belt V3-6 to transmit, the transmission belt V3-6 transmits to drive the bevel gear shaft IV 3-5 to rotate, the bevel gear shaft IV 3-5 rotates to drive the bevel gear I3-4, so that the end face gear II 3-1 drives the straight gear shaft II 3-7 to rotate, the straight-tooth shaft II 3-7 is connected with the cam 3-8, after the straight-tooth shaft II 3-7 drives the cam 3-8, the fixed support 3-9 is compressed by a fifth spring 3-11 in the disinfection box 3-3, the disinfection lamp 3-10 is fixed on the fixed support 3-9, and when the fixed support 3-9 slides in the fifth spring 3-11, the disinfection lamp 3-10 is driven to disinfect medical instruments in a reciprocating manner.

The fourth concrete implementation mode:

the third turbine 4-1 is fixed on the second straight-toothed shaft 3-7, the third straight-toothed shaft 3-7 drives the third turbine 4-1 to rotate after rotating, the third turbine 4-1 drives the third worm 4-2, the third worm 4-2 is connected with the sixth straight-toothed gear 4-3, the third worm 4-2 drives the sixth straight-toothed gear 4-3 to be meshed with the second rack 4-4 after rotating, so that the second rack 4-4 slides on the second rack support 4-5, the second rack support 4-5 is fixed in the sterilizing box 3-3, the second rack 4-4 slides and then drives the seventh straight-toothed gear 4-6 to rotate, the seventh straight-toothed gear 4-6 is connected with the notched disc 4-7 and the tumbler arm one 4-8, and after the seventh straight-toothed gear 4-6 rotates, the notched disc 4-7 is driven to be in contact with the grooved wheel 4-9, the first rotating arm 4-8 drives the sheave 4-9 to rotate, so that the sheave 4-9 indirectly moves, the sheave 4-9 is connected with the eighth straight gear 4-10, the sheave 4-9 drives the eighth straight gear 4-10 after rotating, so that the eighth straight gear 4-10 drives the third rack 4-11 to slide, the third rack 4-11 fixes the first clutch 4-12, the first clutch 4-12 is driven to slide in the cross rod 4-13 after the third rack 4-11 slides, the cross rod 4-13 is connected with the third end face gear 4-15, the motor 4-17 outputs power, the motor 4-17 is connected with the ninth straight gear 4-16, the motor 4-17 drives the ninth straight gear 4-16 to be meshed with the third end face gear 4-15, the end face gear three 4-15 rotates to drive the cross rod 4-13 to rotate in the cross rod support 4-14, the end face gear three 4-15 drives the straight gear two 2-7 to enable the whole device to transmit, when the rack three 4-11 drives the clutch one 4-12 to slide and the clutch two 4-18, the clutch one 4-12 drives the clutch two 4-18 to rotate, the clutch two 4-18 is connected with the turbine four 4-19, the clutch two 4-18 rotates to drive the turbine four 4-19 to be meshed with the worm four 4-20 to enable the worm four 4-20 to rotate, the driving belt six 4-21 is in fit connection with the worm four 4-20 and the straight gear shaft three 4-22, and the driving belt six 4-21 is driven to transmit after the worm four 4-20 rotates, the transmission belt six 4-21 drives the straight gear shaft three 4-22 to rotate, the straight gear shaft three 4-22 drives the rack four 4-23 to slide in the rack box 4-24 after rotating, the rack four 4-23 drives the lifting rod 2-25 to slide in the spring sleeve 2-26 after sliding, the lifting rod 2-25 drives the instrument tray 1-4 to ascend after sliding, so that the medical instrument performs the next operation, the spring six 2-27 is connected with the lifting rod 2-25, so that the spring six 2-27 drives the whole lifting assembly to reset after the instrument tray 1-4 is separated from the lifting rod 2-25,

the fifth concrete implementation mode:

when the instrument tray 1-4 rises, the instrument tray 1-4 is driven to contact with the trigger block II 5-1, so that the trigger block II 5-1 slides in the disinfection box 3-3, the trigger block II 5-1 slides to compress the spring seventh 5-3, the trigger block II 5-1 is connected with the bevel gear II 5-2, the trigger block II 5-1 slides to drive the bevel gear II 5-2 to be meshed with the bevel gear shaft III 5-4, the transmission belt seventh 5-5 is connected with the bevel gear shaft II 2-6 and the bevel gear shaft III 5-4 in a matching manner, the bevel gear shaft II 2-6 drives the transmission belt seventh 5-5 to transmit, the transmission belt seventh 5-5 drives the bevel gear shaft III 5-4 to rotate after being transmitted, so that the bevel gear shaft III 5-4 rotates, and the transmission belt seventh 5-6 is connected with the bevel gear shaft III 5-4, The end face gear four 5-7 is connected in a matching way, the bevel gear shaft three 5-4 drives the transmission belt seven 5-6 to transmit, the transmission belt seven 5-6 drives the end face gear four 5-7 to be meshed with the straight gear shaft four 5-8 to enable the straight gear shaft four 5-8 to rotate in the water spraying tank 5-9, the transmission belt eight 5-10 is connected with the straight gear shaft four 5-8 and the bevel gear three 5-11 in a matching way, the straight gear shaft four 5-8 drives the transmission belt eight 5-10 to transmit, the transmission belt eight 5-10 drives the bevel gear three 5-11 to transmit, the bevel gear three 5-11 is connected with the fan 5-12, the fan 5-12 is driven to rotate in the water spraying tank 5-9 after the bevel gear three 5-11 rotates, and the fan 5-12 cools the medical instrument, a bevel gear shaft IV 5-13 is fixed on a water spraying box 5-9, a bevel gear III 5-11 is meshed with the bevel gear shaft IV 5-13, the bevel gear III 5-11 drives the bevel gear shaft IV 5-13 to rotate after rotating, the bevel gear shaft IV 5-13 is connected with a rotating arm II 5-14, one end of the rotating arm II 5-14 is fixed with a rack V5-15, the bevel gear shaft IV 5-13 drives the rotating arm II 5-14 to rotate, then the rack V5-15 is driven to be meshed with a planetary gear 5-16, a rack bracket 5-17 fixes the rack V5-15 and the planetary gear 5-16, after the rack V5-15 drives the planetary gear 5-16 to rotate, the straight gear shaft V5-18 is driven after the planetary gear 5-16 rotates, and after the straight gear shaft V5-18 rotates, the rack V5-19 is driven, the rack six 5-19 is connected with the water outlet 5-20, the rack six 5-19 drives the water outlet 5-20 to slide after sliding, so that the water outlet 5-20 releases the cooling liquid in the water storage tank 5-21, and the medical instrument is cleaned and then cooled.

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

Claims (6)

1. A urological instrument cleaning apparatus, characterized by: including belt cleaning device (1), drying device (2), degassing unit (3), lifting unit (4), cooling component (5), belt cleaning device (1) is connected with drying device (2), and belt cleaning device (1) is connected with degassing unit (3), and belt cleaning device (1) is connected with lifting unit (4), and belt cleaning device (1) is connected with cooling component (5), and drying device (2) is connected with degassing unit (3), and drying device (2) is connected with lifting unit (4), and drying device (2) is connected with cooling component (5), and degassing unit (3) is connected with lifting unit (4), and degassing unit (3) is connected with cooling component (5).

2. A urological instrument cleaning apparatus according to claim 1, wherein: the cleaning device (1) comprises an ultrasonic cleaning box (1-1), a convex block (1-2), a first spring (1-3), an instrument tray (1-4), a first trigger block (1-5), a second spring (1-6), a first end face gear (1-7), a first straight-tooth shaft (1-8), a first transmission belt (1-9), a first straight-tooth gear (1-10), a first worm (1-11), a first turbine (1-12), a first lead screw (1-13), a cleaning box cover (1-14), a second transmission belt (1-15), a second worm (1-16), a second turbine (1-17) and a second lead screw (1-18), wherein the convex block (1-2) is connected with the instrument tray (1-4) in a sliding manner, one end of the first spring (1-3) is contacted with the convex block (1-2), the other end of the first spring (1-3) is in contact with an instrument tray (1-4), the instrument tray (1-4) is in sliding connection with the ultrasonic cleaning box (1-1), the instrument tray (1-4) is in contact with the first trigger block (1-5), the first trigger block (1-5) is in sliding connection with the ultrasonic cleaning box (1-1), one end of the second spring (1-6) is in contact with the ultrasonic cleaning box (1-1), the other end of the second spring (1-6) is in contact with the first trigger block (1-5), the first end face gear (1-7) is fixedly connected with the first trigger block (1-5), the first end face gear (1-7) is in meshing connection with the first straight-tooth shaft (1-8), and the first end face gear (1-7) is in meshing connection with the first straight-tooth gear (1-10), a straight-tooth shaft I (1-8) is rotatably connected with an ultrasonic cleaning box (1-1), a transmission belt I (1-9) is in matched connection with the straight-tooth shaft I (1-8), a straight gear I (1-10) is fixedly connected with a worm I (1-11), the worm I (1-11) is rotatably connected with the ultrasonic cleaning box (1-1), the worm I (1-11) is meshed with a turbine I (1-12), the turbine I (1-12) is fixedly connected with a lead screw I (1-13), the lead screw I (1-13) is rotatably connected with the ultrasonic cleaning box (1-1), the lead screw I (1-13) is in threaded connection with a cleaning box cover (1-14), the cleaning box cover (1-14) is in sliding connection with the ultrasonic cleaning box (1-1), the transmission belt II (1-15) is in matched connection with the worm I (1-11), the driving belt II (1-15) is connected with the worm II (1-16) in a matching mode, the worm II (1-16) is rotatably connected with the ultrasonic cleaning box (1-1), the worm II (1-16) is meshed with the turbine II (1-17), the turbine II (1-17) is rotatably connected with the ultrasonic cleaning box (1-1), the turbine II (1-17) is in threaded connection with the screw rod II (1-18), and the screw rod II (1-18) is in contact with the instrument tray (1-4).

3. A urological instrument cleaning apparatus according to claim 1, wherein: the drying device (2) comprises a sliding block (2-1), a sliding block support (2-2), a spring III (2-3), a drying box (2-4), a bevel gear shaft I (2-5), a bevel gear shaft II (2-6), a straight gear II (2-7), an idler wheel (2-8), a bevel gear shaft III (2-9), a transmission belt III (2-10), a roller (2-11), a roller support (2-12), a transmission belt IV (2-13), a rocker (2-14), a rack I (2-15), a straight gear III (2-16), a rack support I (2-17), a straight gear IV (2-18), a chain (2-19), a straight gear V (2-20) and a drying lamp (2-21), wherein an instrument tray (1-4) is in contact with the sliding block (2-1), the slide block (2-1) is connected with the slide block bracket (2-2) in a sliding way, the slide block bracket (2-2) is fixedly connected with the ultrasonic cleaning box (1-1), the slide block bracket (2-2) is fixedly connected with the drying box (2-4), one end of a spring III (2-3) is contacted with the slide block (2-1), the other end of the spring III (2-3) is contacted with the slide block bracket (2-2), the drying box (2-4) is fixedly connected with the ultrasonic cleaning box (1-1), a cone gear shaft I (2-5) is rotationally connected with the slide block (2-1), a cone gear shaft I (2-5) is meshed with a cone gear shaft II (2-6), the cone gear shaft I (2-5) is meshed with an idler wheel (2-8), the cone gear shaft II (2-6) is rotationally connected with the ultrasonic cleaning box (1-1), a bevel gear shaft II (2-6) is rotationally connected with a drying box (2-4), the bevel gear shaft II (2-6) is fixedly connected with a straight gear shaft II (2-7), an idler gear (2-8) is rotationally connected with an ultrasonic cleaning box (1-1), the idler gear (2-8) is meshed with a bevel gear shaft III (2-9), the bevel gear shaft III (2-9) is rotationally connected with the ultrasonic cleaning box (1-1), a transmission belt III (2-10) is matched and connected with the bevel gear shaft III (2-9), the transmission belt III (2-10) is matched and connected with a roller (2-11), the roller (2-11) is rotationally connected with a roller bracket (2-12), the roller bracket (2-12) is fixedly connected with the ultrasonic cleaning box (1-1), the roller bracket (2-12) is fixedly connected with the drying box (2-4), a transmission belt IV (2-13) is matched and connected with the roller column (2-11), a rocker (2-14) is fixedly connected with a bevel gear shaft III (2-9), the rocker (2-14) is fixedly connected with a rack I (2-15), the rack I (2-15) is meshed and connected with a straight gear III (2-16), the straight gear III (2-16) is fixedly connected with a straight gear IV (2-18), a rack support I (2-17) is rotationally connected with the straight gear III (2-16), the rack support I (2-17) is slidably connected with the rack I (2-15), the straight gear IV (2-18) is rotationally connected with the drying box (2-4), the straight gear IV (2-18) is meshed and connected with a chain (2-19), the chain (2-19) is meshed and connected with a straight gear V (2-20), the straight gear V (2-20) is rotatably connected with the drying box (2-4), the drying lamp (2-21) is slidably connected with the drying box (2-4), and the drying lamp (2-21) is fixedly connected with the chain (2-19).

4. A urological instrument cleaning apparatus according to claim 1, wherein: the disinfection device (3) comprises a second end face gear (3-1), a fourth spring (3-2), a disinfection box (3-3), a first bevel gear (3-4), a fourth bevel gear shaft (3-5), a fifth transmission belt (3-6), a second straight-tooth shaft (3-7), a cam (3-8), a fixed support (3-9), a disinfection lamp (3-10) and a fifth spring (3-11), an instrument tray (1-4) is in contact with the second end face gear (3-1), the second end face gear (3-1) is in sliding connection with the disinfection box (3-3), one end of the fourth spring (3-2) is in contact with the instrument tray (1-4), the other end of the fourth spring (3-2) is in contact with the disinfection box (3-3), the disinfection box (3-3) is fixedly connected with a drying box (2-4), the bevel gear I (3-4) is fixedly connected with the end face gear II (3-1), the bevel gear I (3-4) is meshed with the bevel gear shaft II (3-5), the bevel gear shaft II (3-5) is rotatably connected with the disinfection box (3-3), the transmission belt V (3-6) is matched and connected with the bevel gear shaft IV (3-5), the transmission belt V (3-6) is matched and connected with the bevel gear shaft II (2-6), the straight gear shaft II (3-7) is meshed and connected with the end face gear II (3-1), the straight gear shaft II (3-7) is rotatably connected with the disinfection box (3-3), the straight gear shaft II (3-7) is fixedly connected with the cam (3-8), the cam (3-8) is rotatably connected with the fixed support (3-9), and the fixed support (3-9) is slidably connected with the disinfection box (3-3), the fixed support (3-9) is fixedly connected with the disinfection lamp (3-10), one end of the spring five (3-11) is contacted with the disinfection box (3-3), and the other end of the spring five (3-11) is contacted with the fixed support (3-9).

5. A urological instrument cleaning apparatus according to claim 1, wherein: the lifting assembly (4) comprises a turbine III (4-1), a worm III (4-2), a straight gear VI (4-3), a rack II (4-4), a rack support II (4-5), a straight gear VII (4-6), a notched disc (4-7), a rotating arm I (4-8), a grooved wheel (4-9), a straight gear VIII (4-10), a rack III (4-11), a clutch I (4-12), a cross rod (4-13), a cross rod support (4-14), an end face gear III (4-15), a straight gear nine (4-16), a motor (4-17), a clutch II (4-18), a turbine IV (4-19), a worm IV (4-20), a transmission belt VI (4-21), a straight gear shaft III (4-22), A rack four (4-23), a rack box (4-24), a lifting rod (2-25), a spring sleeve (2-26) and a spring six (2-27), a worm gear three (4-1) is fixedly connected with a straight-tooth shaft two (3-7), the worm gear three (4-1) is meshed with a worm gear three (4-2), the worm gear three (4-2) is rotatably connected with a sterilizing box (3-3), the worm gear three (4-2) is fixedly connected with a straight-tooth gear six (4-3), the straight-tooth gear six (4-3) is meshed with a rack two (4-4), the rack two (4-4) is slidably connected with a rack support two (4-5), the rack two (4-4) is meshed with a straight-tooth gear seven (4-6), the rack support two (4-5) is fixedly connected with the sterilizing box (3-3), a spur gear seven (4-6) is rotationally connected with a rack support II (4-5), the spur gear seven (4-6) is fixedly connected with a notch disc (4-7), the spur gear seven (4-6) is fixedly connected with a rotating arm I (4-8), a grooved pulley (4-9) is rotationally connected with the rack support II (4-5), the grooved pulley (4-9) is rotationally connected with the notch disc (4-7), the grooved pulley (4-9) is meshed with the rotating arm I (4-8), the grooved pulley (4-9) is fixedly connected with a spur gear eight (4-10), the spur gear eight (4-10) is meshed with a rack III (4-11), the rack III (4-11) is slidably connected with the rack support II (4-5), a clutch I (4-12) is rotationally connected with the rack III (4-11), the first clutch (4-12) is connected with the cross rod (4-13) in a sliding manner, the cross rod (4-13) is connected with the cross rod support (4-14) in a rotating manner, the cross rod support (4-14) is fixedly connected with the disinfection box (3-3), the third end face gear (4-15) is fixedly connected with the cross rod (4-13), the third end face gear (4-15) is connected with the ninth spur gear (4-16) in a meshing manner, the third end face gear (4-15) is connected with the second spur gear (2-7) in a meshing manner, the ninth spur gear (4-16) is fixedly connected with the motor (4-17), the motor (4-17) is fixedly connected with the disinfection box (3-3), the second clutch (4-18) is connected with the first clutch (4-12) in a meshing manner, the second clutch (4-18) is fixedly connected with the fourth turbine (4-19), the second clutch (4-18) is rotationally connected with the disinfection box (3-3), the fourth turbine (4-19) is meshed with the fourth worm (4-20), the fourth worm (4-20) is rotationally connected with the disinfection box (3-3), the sixth transmission belt (4-21) is in fit connection with the fourth worm (4-20), the sixth transmission belt (4-21) is in fit connection with the third straight-tooth shaft (4-22), the third straight-tooth shaft (4-22) is meshed with the fourth rack (4-23), the third straight-tooth shaft (4-22) is rotationally connected with the rack box (4-24), the fourth rack (4-23) is in sliding connection with the rack box (4-24), the fourth rack (4-23) is fixedly connected with the lifting rod (2-25), the rack box (4-24) is fixedly connected with the disinfection box (3-3), the lifting rod (2-25) is connected with the spring sleeve (2-26) in a sliding mode, the lifting rod (2-25) is in contact with the instrument tray (1-4), the spring sleeve (2-26) is fixedly connected with the disinfection box (3-3), one end of the spring six (2-27) is in contact with the lifting rod (2-25), and the other end of the spring six (2-27) is in contact with the spring sleeve (2-26).

6. A urological instrument cleaning apparatus according to claim 1, wherein: the cooling component (5) comprises a trigger block II (5-1), a bevel gear II (5-2), a spring seventh (5-3), a bevel gear shaft III (5-4), a transmission belt seventh (5-5), a transmission belt seventh (5-6), a face gear fourth (5-7), a straight-tooth shaft fourth (5-8), a water spray tank (5-9), a transmission belt eighth (5-10), a bevel gear III (5-11), a fan (5-12), a bevel gear shaft fourth (5-13), a rotating arm II (5-14), a rack fifth (5-15), a planetary gear (5-16), a rack support (5-17), a straight-tooth shaft fifth (5-18), a rack sixth (5-19), a water discharge port (5-20) and a water storage tank (5-21), wherein the trigger block II (5-1) is in contact with an instrument tray (1-4), the second trigger block (5-1) is in sliding connection with the second disinfection box (3-3), the second trigger block (5-1) is fixedly connected with the second bevel gear (5-2), the second bevel gear (5-2) is in meshing connection with the third bevel gear shaft (5-4), one end of the seventh spring (5-3) is in contact with the second trigger block (5-1), the other end of the seventh spring (5-3) is in contact with the disinfection box (3-3), the third bevel gear shaft (5-4) is in rotating connection with the disinfection box (3-3), the seventh transmission belt (5-5) is in matching connection with the third bevel gear shaft (5-4), the seventh transmission belt (5-5) is in matching connection with the second bevel gear shaft (2-6), the seventh transmission belt (5-6) is in matching connection with the second trigger block (5-1), the seventh transmission belt (5-6) is in matching connection with the fourth end face gear (5-7), end face gear four (5-7) is rotationally connected with the disinfection box (3-3), end face gear four (5-7) is in meshed connection with straight-tooth shaft four (5-8), straight-tooth shaft four (5-8) is rotationally connected with water spraying box (5-9), water spraying box (5-9) is fixedly connected with disinfection box (3-3), driving belt eight (5-10) is in matched connection with straight-tooth shaft four (5-8), driving belt eight (5-10) is in matched connection with fan (5-12), bevel gear three (5-11) is fixedly connected with fan (5-12), bevel gear three (5-11) is in meshed connection with bevel gear shaft four (5-13), fan (5-12) is rotationally connected with water spraying box (5-9), bevel gear shaft four (5-13) is fixedly connected with rotary arm two (5-14), a bevel gear shaft IV (5-13) is rotationally connected with a water spraying tank (5-9), a rotating arm II (5-14) is fixedly connected with a rack V (5-15), the rack V (5-15) is meshed with a planetary gear (5-16), the rack V (5-15) is slidably connected with a rack support (5-17), the planetary gear (5-16) is rotationally connected with the rack support (5-17), the planetary gear (5-16) is meshed with a straight gear shaft V (5-18), the rack support (5-17) is fixedly connected with the water spraying tank (5-9), the straight gear shaft V (5-18) is rotationally connected with the water spraying tank (5-9), the straight gear shaft V (5-18) is meshed with a rack VI (5-19), the rack VI (5-19) is meshed with a water discharging port (5-20), the water outlet (5-20) is connected with the water storage tank (5-21) in a sliding way, and the water storage tank (5-21) is fixedly connected with the water spraying tank (5-9).

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