CN113680747A

CN113680747A - Clean integral type ultrasonic cleaning device of surgical instruments

Info

Publication number: CN113680747A
Application number: CN202110972933.7A
Authority: CN
Inventors: 刘明峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-24
Filing date: 2021-08-24
Publication date: 2021-11-23

Abstract

The invention discloses an integrated ultrasonic cleaning device for cleaning surgical instruments, which comprises a water purifying and disinfecting mechanism, a conveying mechanism, a storage and drying mechanism, a cleaning mechanism, a top cover plate, universal wheels, a mechanism fixing baffle plate and a drain pipe I, wherein the conveying mechanism is arranged on one side of the water purifying and disinfecting mechanism, the mechanism fixing baffle plate is arranged on one side of the water purifying and disinfecting mechanism, the universal wheels are arranged on the other side of the water purifying and disinfecting mechanism, the storage and drying mechanism is arranged on one side of the conveying mechanism, the mechanism fixing baffle plate is arranged on the other side of the conveying mechanism, the mechanism fixing baffle plate is arranged on one side of the storage and drying mechanism, the top cover plate is arranged on one side of the cleaning mechanism, the mechanism fixing baffle plate is arranged on the other side of the cleaning mechanism, the drain pipe I is positioned on the inner side of each mechanism, the top end of the drain pipe I is positioned on the cleaning mechanism, and the cleaning and drying processes can be completed under the aseptic condition of the whole process, and can carry out the pertinence clearance to test tube and biochemical test container etc. labour saving and time saving.

Description

Clean integral type ultrasonic cleaning device of surgical instruments

Technical Field

The invention belongs to the technical field of medical instrument cleaning, and particularly relates to an integrated ultrasonic cleaning device for cleaning surgical instruments.

Background

In order to improve the cleaning efficiency of medical instruments, special medical cleaning equipment is adopted in large and medium hospitals for cleaning.

The existing medical instrument cleaning equipment has the following defects: 1) after the cleaning equipment is used for cleaning, water stains are left on the surface of the medical instrument, so that the medical instrument can be in a relatively humid environment and bacteria are easy to breed; 2) the existing cleaning equipment is mainly used for cleaning instruments such as scalpels, hemostatic forceps and the like, and can adopt manual cleaning to ensure the cleanness of the inner side wall of a glass container when cleaning the glass containers such as test tubes, biochemical examination containers and the like, so that the labor intensity of workers is increased, and the cleaning efficiency is reduced.

Disclosure of Invention

It is an object of the present invention to provide an integrated ultrasonic cleaning device for cleaning surgical instruments that overcomes the above-mentioned deficiencies in the art.

In order to achieve the purpose, the invention adopts the technical scheme that:

an integrated ultrasonic cleaning device for cleaning surgical instruments comprises a water purification and disinfection mechanism, a conveying mechanism, a storage and drying mechanism, a cleaning mechanism, a top cover plate, universal wheels, a mechanism fixing baffle and a drain pipe I, wherein the conveying mechanism is arranged on one side of the water purification and disinfection mechanism, the mechanism fixing baffle is arranged on one side of the water purification and disinfection mechanism, the universal wheels are arranged on the other side of the water purification and disinfection mechanism, the storage and drying mechanism is arranged on one side of the conveying mechanism, the mechanism fixing baffle is arranged on the other side of the conveying mechanism, the mechanism fixing baffle is arranged on one side of the storage and drying mechanism, the mechanism fixing baffle is arranged on the other side of the storage and drying mechanism, the top cover plate is arranged on one side of the cleaning mechanism, the mechanism fixing baffle is arranged on the other side of the cleaning mechanism, the drain pipe I is positioned on the inner side of each mechanism, and the top end of the drain pipe I is positioned on the cleaning mechanism;

the water purification and disinfection mechanism comprises a shell I, a water inlet hole I, a water outlet hole I, a cover plate I, a pipeline through hole I, an ultraviolet sterilization bin, a water filtering mechanism, a water supply pipe II and a water inlet pipe, wherein the cover plate I is arranged on one side of the shell I; the ultraviolet sterilization bin is fixedly connected to the shell I, the water filtering mechanism is fixedly connected to the water inlet pipe, and the other water filtering mechanism is fixedly connected to the water supply pipe II;

the ultraviolet sterilization bin comprises a water supply pipe I, a shell II, a flow dividing pipe, an ultraviolet lamp, a flow dividing bin and a drain pipe II, wherein the ultraviolet lamp is arranged on one side of the shell II, the flow dividing pipe is arranged on one side of the ultraviolet lamp, the flow dividing bin is arranged on one side of the flow dividing pipe, the water supply pipe I is arranged on one side of one of the two flow dividing bins, and the drain pipe II is arranged on one side of the other flow dividing bin; ultraviolet lamp and II fixed connection of shell, shell and reposition of redundant personnel storehouse fixed connection, reposition of redundant personnel storehouse and shunt tubes fixed connection, reposition of redundant personnel storehouse and I fixed connection of feed pipe, reposition of redundant personnel storehouse and II fixed connection of drain pipe.

Ultraviolet sterilization storehouse during operation, water gets into the reposition of redundant personnel storehouse from feed pipe I, divide into the tiny rivers of stranded, get into shell II through the shunt tubes, the irradiation through ultraviolet lamp is disinfected, get into another reposition of redundant personnel storehouse and backward converge afterwards, it finishes the process of disinfecting to water to get into next mechanism from drain pipe II at last, water purification disinfection mechanism during operation, external water gets into the inlet tube from inlet opening I, get into water filter mechanism by the inlet tube, get into the ultraviolet sterilization storehouse by water filter mechanism, get into another water filter mechanism after disinfecting by the ultraviolet sterilization storehouse, the water after will purifying and disinfecting at last carries next mechanism through feed pipe II, I outflow feed pipe II of pipeline through-hole and the space that drain pipe I arrived next mechanism, and provide supporting role.

The conveying mechanism comprises a shell III, a cover plate II, a pipeline through hole II, a sterilization cleaning liquid conveying mechanism, a water supply pipe V, a water pump II, a water discharge pipe III, a motor, a bevel gear I and a bevel gear II, wherein the cover plate II is arranged on one side of the shell III; the utility model discloses a sterilization cleaning solution conveying mechanism, including shell III and apron II fixed connection, shell III and sterilization cleaning solution conveying mechanism fixed connection, shell III and feed pipe V fixed connection, feed pipe V and II fixed connection of water pump, water pump II and III fixed connection of drain pipe, motor and I fixed connection of bevel gear, bevel gear I and II meshing of bevel gear, pipeline through-hole II and II fixed connection of apron, conveying mechanism during operation, water is driven by II of water pump, absorbs water to drain pipe III from feed pipe V, carries and reachs next mechanism, and compound cleaning enzyme and antiseptic solution carry wiper mechanism through sterilization cleaning solution conveying mechanism.

The storage and drying mechanism comprises a shell IV, air holes, a cover plate III, a pipeline through hole III, a water storage mechanism, a drying mechanism and a water supply pipe VI, wherein the cover plate III is arranged on one side of the shell IV, and the pipeline through hole III is positioned on one side of the cover plate III; a water storage mechanism is arranged on one side of the shell IV, a drying mechanism is arranged on one side of the water storage mechanism, the air holes are formed in one side of the shell IV, and the water supply pipe VI is located on one side of the water storage mechanism; the drying mechanism is fixedly connected with the shell IV, the air holes are fixedly connected onto the shell IV, and the water supply pipe VI is fixedly connected with the water storage mechanism; pipeline through-hole III provides the space that reaches next mechanism for drain pipe I, drain pipe III, washing axis of rotation, feed pipe III, inferior fluid-discharge tube I, provides certain supporting role.

The cleaning mechanism comprises a glass container cleaning mechanism, a multiplexing cleaning mechanism, an ultrasonic wave generating mechanism I, an ultrasonic wave generating mechanism II, a drain pipe IV and a shell VIII, wherein the glass container cleaning mechanism is arranged on the inner side of the shell VIII; the drain pipe IV is fixedly connected with the glass container cleaning mechanism, the glass container cleaning mechanism is fixedly connected with the multiplexing cleaning mechanism, the glass container cleaning mechanism is fixedly connected with the shell VIII, the multiplexing cleaning mechanism is fixedly connected with the shell VIII, the glass container cleaning mechanism is connected with the ultrasonic generation mechanism I, and the multiplexing cleaning mechanism is connected with the ultrasonic generation mechanism II.

The glass container cleaning mechanism comprises a cleaning mechanism, an inner wall hairbrush, a cleaning rotating shaft, a shell VI, a flow divider, a water outlet pipe I, a telescopic rod mechanism, a wind outlet pipe II and a wind outlet II, wherein the inner wall hairbrush is arranged on one side of the shell VI, the cleaning rotating shaft is arranged on the other side of the shell VI, the wind outlet pipe II is arranged on one side of the shell VI, the wind outlet II is arranged on one side of the wind outlet pipe II, the flow divider is arranged on one side of the cleaning rotating shaft, the water outlet pipe I is arranged on one side of the flow divider, the telescopic rod mechanism is arranged on the other side of the flow divider, and the cleaning mechanism is arranged on one side of the telescopic rod mechanism; inner wall brush and shell VI fixed connection, wash axis of rotation and shell VI fixed connection, shell VI and play II fixed connection of tuber pipe, go out II fixed connection air outlets on the tuber pipe II, shunt and I fixed connection of outlet pipe, shunt and telescopic link mechanism fixed connection, telescopic link mechanism and cleaning mechanism fixed connection.

The multiplexing cleaning mechanism comprises a cleaning screen frame, an air outlet I, a water outlet hole, a water outlet pipe II, an air outlet pipe I and a shell VII, wherein the air outlet I is arranged on one side of the shell VII, the water outlet hole is arranged on one side of the shell VII, the cleaning screen frame is arranged on one side of the shell VII, the water outlet pipe II is arranged on one side of the cleaning screen frame, and the air outlet pipe I is also arranged on one side of the cleaning screen frame; air outlet I and shell VII fixed connection, apopore and shell VII fixed connection wash the screen frame and be connected with shell VII, outlet pipe II with wash screen frame fixed connection, go out tuber pipe I and wash screen frame fixed connection.

When multiplexing wiper mechanism was used, the disinfection washing liquid got into shell VII by outlet pipe II to the apopore, under rivers and ultrasonic wave generating mechanism II's combined action, will place the surgical equipment sanitization in wasing the screen frame, and waste water passes through I discharge cleaning machine of drain pipe.

The stoving process, from the compressed air that stoving mechanism produced, through air feed pipe I and air feed pipe II, through going out tuber pipe I and play tuber pipe II again, from the mechanism that air outlet I and II entering of air outlet need be dried, compressed air passes through drain pipe I and the discharge of drain pipe IV discharge cleaning machine at last.

Preferably, the water filtering mechanism comprises a water inlet hole II, a filtering bin, a filter screen filtering bin, a precipitation bin, an adsorption bin, a water outlet hole II, an activated carbon material and a filtering membrane, wherein the filtering bin is arranged on one side of the water inlet hole II, the filter screen filtering bin is arranged on one side of the filtering bin, the precipitation bin is arranged on one side of the filter screen filtering bin, the adsorption bin is arranged on one side of the precipitation bin, the water outlet hole II is arranged on one side of the adsorption bin, the activated carbon material is located on the inner side of the adsorption bin, and the filtering membrane 137 is located on the inner side of the filter screen filtering bin; the water inlet hole II is fixedly connected with the filtering bin, the filter screen filtering bin is fixedly connected with the filtering membrane, the settling bin is fixedly connected with the filtering bin, the settling bin is fixedly connected with the adsorption bin, the adsorption bin is fixedly connected with the activated carbon material, and the adsorption bin is fixedly connected with the water outlet hole II;

the during operation of water filtering mechanism, external water gets into the inlet tube by inlet opening I, lead to water filtering mechanism by the inlet tube, get into inlet opening II, it filters to get into the filtration storehouse afterwards, filter the great impurity in aquatic, later get into the filter screen and filter the storehouse, further become more meticulous with water under the effect of filter screen and filter, it deposits the storehouse to filter back water entering, the little impurity that will pass through the filter screen under the action of gravity sinks to the bottom, water reachs the absorption storehouse afterwards, adsorb by the active carbon material, get rid of all impurity, get rid of various peculiar smells simultaneously, water arrives II completions filter processes of wash port at last.

Preferably, the sterilizing cleaning fluid conveying mechanism comprises a storage cabinet, a water supply pipe III, a water pump I, a pipette, a main liquid discharge pipe, a secondary liquid discharge pipe I, a control switch I, a secondary liquid discharge pipe II and a water supply pipe IV, wherein the pipette is positioned on one side of the storage cabinet, the water pump I is arranged on one side of the pipette, the main liquid discharge pipe is arranged on one side of the water pump I, the secondary liquid discharge pipe I is arranged on one side of the main liquid discharge pipe, the secondary liquid discharge pipe II is arranged on the other side of the main liquid discharge pipe, the water supply pipe IV is arranged on one side of the secondary liquid discharge pipe II, the water supply pipe III is arranged on the other side of the secondary liquid discharge pipe II, and the control switch I is arranged on one side of the secondary liquid discharge pipe I; store cabinet and pipette fixed connection, pipette and I fixed connection of water pump, water pump I and main fluid-discharge tube fixed connection, I fixed connection of main fluid-discharge tube and inferior fluid-discharge tube, main fluid-discharge tube and II fixed connection of inferior fluid-discharge tube, inferior fluid-discharge tube II and I fixed connection of control switch, inferior fluid-discharge tube II and IV fixed connection of feed pipe.

When the sterilizing cleaning liquid conveying mechanism works, the water pump I works, the liquid suction pipe sucks compound cleaning enzyme and disinfectant from the storage cabinet, the sterilizing cleaning liquid is pumped to the main liquid discharge pipe, the main liquid discharge pipe conveys the sterilizing cleaning liquid to the secondary liquid discharge pipe I and the secondary liquid discharge pipe II, the control switch I controls the secondary liquid discharge pipe II to be opened and output when the glass container cleaning mechanism works, the control switch II controls the water supply pipe III to be opened and output when the glass container cleaning mechanism works, and the two switches control the circulation of water and the sterilizing cleaning liquid to prevent the waste of the water and the sterilizing cleaning liquid when the glass container cleaning mechanism does not work; the pipeline through hole II flows out of the drain pipe I, the water supply pipe III, the water supply pipe V, the drain pipe III, the secondary drain pipe I and the cleaning rotating shaft to reach the space of the next mechanism, and a supporting effect is provided.

Preferably, the water storage mechanism comprises a shell V, a control switch III, a water storage bin and a control switch II, the water storage bin is positioned on the inner side of the shell V, the control switch III is arranged on one side of the shell V, and the control switch II is arranged on the other side of the shell V; the water storage bin is positioned inside the shell V and is fixedly connected with the shell V, the control switch III is fixedly connected with the shell V, and the control switch II is connected with the shell V through a water supply pipe III; when the water storage mechanism works, water enters the water storage bin from the water discharge pipe III, and is discharged from the water supply pipe VI or not under the control of the control switch III and is discharged from the water supply pipe III or not under the control of the control switch II.

Preferably, the drying mechanism comprises an air compressor, a ventilation pipe, an air supply fan I, an air supply fan II, an air supply pipe I, an air supply pipe II, a control switch IV, a gas storage bin, a gas pressure reduction cooling bin and a partition plate, wherein the ventilation pipe is arranged on one side of the air compressor, the gas storage bin is arranged on one side of the ventilation pipe, the partition plate is arranged on one side of the gas storage bin, the gas pressure reduction cooling bin is arranged on one side of the partition plate, the control switch IV is positioned on one side of the gas storage bin, the air supply fan I is arranged on one side of the gas pressure reduction cooling bin, the air supply pipe I is arranged on one side of the air supply fan I, the air supply fan II is arranged on the other side of the gas pressure reduction cooling bin, and the air supply pipe II is arranged on one side of the air supply fan II; air compressor and ventilation pipe fixed connection, ventilation pipe and gas storage storehouse fixed connection, gas storage storehouse and baffle fixed connection, baffle and gaseous step-down cooling bin fixed connection, gaseous step-down cooling bin is connected with air supply fan I, gaseous step-down cooling bin and II fixed connection of air supply fan, air supply fan I and I fixed connection of air supply pipe, air supply fan II and II fixed connection of air supply pipe, control switch IV and gas storage storehouse fixed connection.

When the stoving mechanism during operation, at first provide the air for air compressor by the bleeder vent, produce the highly compressed air of high temperature through air compressor, compressed air gets into the gas storage storehouse by the ventilation pipe, and the compressed air that acts on under control switch IV's control gets into gaseous step-down cooling storehouse, carries out the step-down cooling with compressed air, and gaseous step-down cooling storehouse is through air supply fan I and air supply fan II, through air supply pipe I and air supply pipe II, sends into next mechanism suitable step-down cooling compressed air.

Preferably, the cleaning mechanism comprises a water outlet, a top brush, a side brush, a bottom support and a cleaning shaft, wherein the cleaning shaft is arranged on one side of the bottom support, the side brush is arranged on one side of the cleaning shaft, the top brush is arranged on the other side of the cleaning shaft, and the water outlet is formed in the cleaning shaft; the bottom support is fixedly connected with the cleaning shaft, the cleaning shaft is fixedly connected with the side brush, the cleaning shaft is fixedly connected with the top brush, and the water outlet is fixed in the cleaning shaft.

Preferably, the telescopic rod mechanism comprises a fixed rod, a telescopic rod fixing shell, a spring, a limiting block and a movable rod, wherein the telescopic rod fixing shell is arranged on one side of the fixed rod, the spring is arranged on one side of the fixed rod, the limiting block is arranged on the other side of the fixed rod, and the movable rod is arranged on the other side of the telescopic rod fixing shell; the fixed rod and the limiting block are fixedly connected, the telescopic rod fixing shell is connected with the fixed rod, the telescopic rod fixing shell is connected with the movable rod, and the spring is fixedly connected with the fixed rod.

Preferably, the top cover plate comprises a hinge, a downward-pressing brush head, an electric pushing cylinder I, a top cover and a handle, the hinge is arranged on one side of the top cover, the handle is arranged on one side of the top cover, the electric pushing cylinder I is arranged on the other side of the top cover, and the downward-pressing brush head is arranged on one side of the electric pushing cylinder I; the hinge is fixedly connected with the top cover, the handle is fixedly connected with the top cover, the top cover is fixedly connected with the electric pushing cylinder I, and the electric pushing cylinder I is fixedly connected with the downward-pressing brush head; the hinge is fixed on the top cover, when the handle is moved, the top cover drives the electric pushing cylinder I and the downward-pressing brush head to rotate along the hinge, and when the electric pushing cylinder I acts, the downward-pressing brush head is driven to move downwards to complete cleaning in cooperation with the glass container cleaning mechanism.

When the glass container cleaning mechanism acts, the cylindrical instrument is reversely buckled on the cleaning mechanism, water and sterilization cleaning liquid are conveyed by the cleaning rotating shaft, and then reach the water outlet pipe I through the flow divider to flow out of the outer wall of the cleaning instrument, and part of mixed liquid flows from the flow divider to the telescopic rod mechanism to reach the cleaning mechanism and flow out of the water outlet to clean the inner wall of the cleaning instrument; simultaneously the motor drives bevel gear I, bevel gear I and II meshing synchronous motion of bevel gear, it rotates to drive the washing axis of rotation, wash axis of rotation and the fixed synchronous motion of shunt, drive the telescopic link mechanism motion fixed with the shunt, make washing mechanism rotatory at last, wash the inside of cylindrical instrument, the spring is outwards pushed the movable rod, make cylindrical instrument outer wall press close to the outer wall brush, cylindrical instrument self is rotatory equally under the effect of centrifugal force, wash cylindrical instrument outer wall, push down the brush head downstream, wash cylindrical instrument bottom, simultaneously under the effect of ultrasonic wave generating mechanism I, accomplish the class cylinder instrument and do not have the dead angle and wash, waste water passes through drain pipe IV and the cleaning machine of I discharge of drain pipe.

Preferably, the drainage pipe I comprises a drainage hole III, a drainage hole IV, an electric pushing cylinder II, a baffle, a drainage through hole and a drainage pipe, wherein the drainage through hole is formed in one side of the drainage pipe, the drainage hole III is formed in one side of the drainage through hole, the drainage hole IV is formed in one side of the drainage through hole, the baffle is arranged on the other side of the drainage through hole, and the electric pushing cylinder II is arranged on one side of the baffle; the electric pushing cylinder II is fixedly connected with the baffle, the baffle is connected with the water drainage through hole, the baffle is fixedly connected to the water drainage pipe I, the water drainage hole III is fixedly connected with the water drainage pipe, and the water drainage hole IV is fixedly connected with the water drainage pipe.

The universal wheels facilitate the movement of the cleaning machine; the mechanism fixing baffle is used for fixedly connecting each mechanism, when the cleaned waste water and waste gas are discharged, the electric pushing cylinder II contracts to drive the baffle to leave the drainage through hole, and the waste water and the waste gas from the drainage hole III and the drainage hole IV are discharged through the drainage pipeline.

Compared with the prior art, the invention has the beneficial effects that:

1) the water filtering mechanism filters large-particle impurities from the external force water through the filtering bin, the external force water is finely filtered through the filtering net in the filtering bin of the filtering net, then physical sedimentation is carried out in the sedimentation bin, tiny impurities which cannot be filtered out are precipitated, the tiny impurities are adsorbed by the activated carbon material in the adsorption bin to remove peculiar smell and other impurities, the filtered water is shunted by the ultraviolet sterilization mechanism, then sterilization is carried out by ultraviolet irradiation, then microbial debris is removed through the water filtering mechanism after confluence, the whole process is carried out with purification and sterilization treatment before the water for cleaning the medical equipment, so that the medical equipment is really clean and sterile after the cleaning is finished;

produce high-temperature high-pressure compressed air through air compressor simultaneously, through ventilation pipe to gas storage storehouse, the gas storage storehouse is under control, with compressed air transfer to step-down cooling storehouse, the cooling step-down reaches the regulation requirement, carry the wiper mechanism through air feed fan and pipeline afterwards and dry, guaranteed that whole washing stoving process is aseptic to advance, and then solved the problem that the medical instrument surface leaves the water stain and breed the bacterium easily from the source, the in-process of transferring to the stoving by the washing has also been prevented, the contaminated condition of medical instrument takes place.

2) The cylindrical instrument is reversely buckled on the cleaning mechanism, water and sterilization cleaning liquid are conveyed through the cleaning rotating shaft, and then reach the water outlet pipe I through the flow divider to flow out of the outer wall of the cleaning instrument, and part of mixed liquid flows to the telescopic rod mechanism from the flow divider to flow out of the cleaning mechanism from the water outlet to clean the inner wall of the instrument; simultaneously the motor drives bevel gear I, bevel gear I and bevel gear II mesh synchronous motion, it rotates to drive the washing axis of rotation, wash axis of rotation and the fixed synchronous motion of shunt, drive the telescopic link mechanism motion fixed with the shunt, make washing mechanism rotatory at last, wash the inside of cylindrical instrument, the spring is outwards pushed the movable rod, make cylindrical instrument outer wall press close to the outer wall brush, cylindrical instrument self is rotatory equally under the effect of centrifugal force, wash cylindrical instrument outer wall, push down the brush head downstream, wash cylindrical instrument bottom, simultaneously under the effect of ultrasonic wave generating mechanism I, accomplish the class cylinder instrument and do not have the dead angle and wash, waste water passes through drain pipe IV and drain pipe I discharge cleaning machine, and then make the container inner wall can obtain abundant cleanness, artificial intensity of labour has also been reduced.

Drawings

FIG. 1 is a schematic view of an integrated ultrasonic cleaning apparatus for cleaning surgical instruments according to the present invention.

FIG. 2 is a schematic view of the internal structure of an integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 3 is a schematic structural diagram of a water purification and disinfection mechanism in the integrated ultrasonic cleaning device for cleaning surgical instruments according to the invention.

FIG. 4 is a schematic view of the internal structure of a water filtering mechanism in the integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 5 is a schematic structural view of an ultraviolet sterilization chamber in the integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 6 is a schematic view of a top cover plate of an integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 7 is a schematic view of a conveying mechanism of an integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 8 is a schematic structural view of a storage and drying mechanism in the integrated ultrasonic cleaning apparatus for cleaning surgical instruments according to the present invention.

FIG. 9 is a schematic view of a cleaning mechanism of the integrated ultrasonic cleaning apparatus for cleaning surgical instruments according to the present invention.

FIG. 10 is a schematic view of the internal structure of the cleaning mechanism of the integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 11 is a schematic structural diagram of a glass container cleaning mechanism in the integrated ultrasonic cleaning device for cleaning surgical instruments according to the invention.

FIG. 12 is a schematic structural diagram of a cleaning mechanism of the integrated ultrasonic cleaning apparatus for cleaning surgical instruments according to the present invention.

FIG. 13 is a schematic structural view of a drainage pipe I of the integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

FIG. 14 is a schematic structural view of an air outlet pipe II in the integrated ultrasonic cleaning device for cleaning surgical instruments according to the present invention.

In the figure: 1. a water purification and disinfection mechanism; 10. a shell I; 101. a water inlet hole I; 102. a drain hole I; 11. a cover plate I; 110. a pipeline through hole I; 12. an ultraviolet sterilization bin; 120. a water supply pipe I; 121. a shell II; 122. a shunt tube; 123. an ultraviolet lamp; 124. a flow distribution bin; 125. a water discharge pipe II; 13. a water filtration mechanism; 130. a water inlet hole II; 131. a filtering bin; 132. a filter screen filtering bin; 133. a settling bin; 134. an adsorption bin; 135. a water drainage hole II; 136. an activated carbon material; 137. a filtration membrane; 14. a water supply pipe II; 15. a water inlet pipe; 2. a conveying mechanism; 21. a housing III; 22. a cover plate II; 220. a pipeline through hole II; 23. a sterilizing cleaning liquid conveying mechanism; 230. a storage cabinet; 231. a water supply pipe III; 232. a water pump I; 233. a pipette; 234. a main liquid discharge pipe; 235. a secondary liquid discharge pipe I; 236. a control switch I; 237. a secondary liquid discharge pipe II; 238. a water supply pipe IV; 24. a water supply pipe V; 25. a water pump II; 26. a water discharge pipe III; 27. a motor; 28. a bevel gear I; 29. a bevel gear II; 3. a storage drying mechanism; 31. a housing IV; 310. air holes are formed; 32. a cover plate III; 320. a pipeline through hole III; 33. a water storage mechanism; 330. a housing V; 331. a control switch III; 332. a water storage bin; 333. A control switch II; 34. a drying mechanism; 340. An air compressor; 341. a vent pipe; 342. An air supply fan I; 343. an air supply fan II; 344. an air supply pipe I; 345. an air supply pipe II; 346. a control switch IV; 347. a gas storage bin; 348. a gas decompression cooling bin; 349. a partition plate; 35. a water supply pipe VI; 4. a cleaning mechanism; 41. a glass container cleaning mechanism; 410. a scrubbing mechanism; 4101. a water outlet; 4102. a top brush; 4103. a side brush; 4104. a bottom support; 4105. cleaning the shaft; 411. an inner wall brush; 412. cleaning the rotating shaft; 413. a housing VI; 414. a flow divider; 415. a water outlet pipe I; 416. a telescopic rod mechanism; 4161. fixing the rod; 4162. the telescopic rod is fixed on the shell; 4163. a spring; 4164. a limiting block; 4165. a movable rod; 417. an air outlet pipe II; 418. an air outlet II; 42. reusing the cleaning mechanism; 420. cleaning the screen frame; 421. an air outlet I; 422. a water outlet hole; 423. a water outlet pipe II; 424. an air outlet pipe I; 425. the outer shell VII; 43. an ultrasonic generating mechanism I; 44. an ultrasonic generating mechanism II; 45. a drain pipe IV; 46. an outer shell VIII; 5. a top cover plate; 51. a hinge; 52. pressing down the brush head; 53. an electric pushing cylinder I; 54. a top cover; 55. a handle; 6. a universal wheel; 7. a mechanism fixing baffle; 8. a drain pipe I; 81. a drain hole III; 82. a drain hole IV; 83. an electric pushing cylinder II; 84. a baffle plate; 85. a drain through hole; 86. and (4) a water drainage pipeline.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 14 in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An integrated ultrasonic cleaning device for cleaning surgical instruments comprises a water purifying and disinfecting mechanism 1, a conveying mechanism 2, a storage and drying mechanism 3, a cleaning mechanism 4, a top cover plate 5, universal wheels 6, a mechanism fixing baffle 7 and a drain pipe I8, wherein the conveying mechanism 2 is arranged on one side of the water purifying and disinfecting mechanism 1, the mechanism fixing baffle 7 is arranged on one side of the water purifying and disinfecting mechanism 1, the universal wheels 6 are arranged on the other side of the water purifying and disinfecting mechanism 1, the storage and drying mechanism 3 is arranged on one side of the conveying mechanism 2, the mechanism fixing baffle 7 is arranged on the other side of the conveying mechanism 2, the cleaning mechanism 4 is arranged on one side of the storage and drying mechanism 3, the mechanism fixing baffle 7 is arranged on the other side of the storage and drying mechanism 3, the top cover plate 5 is arranged on one side of the cleaning mechanism 4, and the mechanism fixing baffle 7 is arranged on the other side of the cleaning mechanism 4, drain pipe I8 is located each inboard of mechanism, and I8 tops of drain pipe are located wiper mechanism 4.

The water purification and disinfection mechanism 1 comprises a shell I10, a water inlet hole I101, a water discharge hole I102, a cover plate I11, a pipeline through hole I110, an ultraviolet sterilization bin 12, a water filtering mechanism 13, a water supply pipe II 14 and a water inlet pipe 15, wherein the cover plate I11 is arranged on one side of the shell I10, the water inlet hole I101 is arranged on one side of the shell I10, the water discharge hole I102 is arranged on one side of the water inlet hole I101, the pipeline through hole I110 is positioned on one side of the cover plate I11, the pipeline through hole I110 is fixed on the cover plate I11, the ultraviolet sterilization bin 12 is arranged on the inner side of the shell I10, the water filtering mechanism 13 is arranged on one side of the ultraviolet sterilization bin 12, the water inlet pipe 15 is arranged on one side of the water filtering mechanism 13, and the water supply pipe II 14 is arranged on the other side of the water filtering mechanism 13; the ultraviolet sterilization cabinet is characterized in that one side of the shell I10 is fixedly connected with a water inlet hole I101 and a water drain hole I102, the other side of the shell I10 is fixedly connected with a cover plate I11, one side of the cover plate I11 is fixedly connected with a pipeline through hole I110, the ultraviolet sterilization cabinet 12 is fixedly connected onto the shell I10, the water filtering mechanism 13 is fixedly connected with a water inlet pipe 15, and the other water filtering mechanism 13 is fixedly connected with a water supply pipe II 14.

The water filtering mechanism 13 comprises a water inlet II 130, a filtering bin 131, a filter screen filtering bin 132, a settling bin 133, an adsorbing bin 134, a water outlet II 135, an activated carbon material 136 and a filtering membrane 137, wherein the filtering bin 131 is arranged on one side of the water inlet II 130, the filter screen filtering bin 132 is arranged on one side of the filtering bin 131, the settling bin 133 is arranged on one side of the filter screen filtering bin 132, the adsorbing bin 134 is arranged on one side of the settling bin 133, the water outlet II 135 is arranged on one side of the adsorbing bin 134, the activated carbon material 136 is positioned on the inner side of the adsorbing bin 134, and the filtering membrane 137 is positioned on the inner side of the filter screen filtering bin 132; the water inlet II 130 is fixedly connected with the filtering bin 131, the filter screen filtering bin 132 is fixedly connected with the filtering membrane 137, the precipitating bin 133 is fixedly connected with the filtering bin 131, the precipitating bin 133 is fixedly connected with the adsorbing bin 134, the adsorbing bin 134 is fixedly connected with the activated carbon material 136, and the adsorbing bin 134 is fixedly connected with the water outlet II 135.

The ultraviolet sterilization bin 12 comprises a water supply pipe I120, a shell II 121, a shunt pipe 122, an ultraviolet lamp 123, shunt bins 124 and a drain pipe II 125, wherein the ultraviolet lamp 123 is arranged on one side of the shell II 121, the shunt pipe 122 is arranged on one side of the ultraviolet lamp 123, the shunt bins 124 are arranged on one side of the shunt pipe 122, the water supply pipe I120 is arranged on one side of one of the shunt bins 124, and the drain pipe II 125 is arranged on one side of the other shunt bin 124; the ultraviolet lamp 123 is fixedly connected with the shell II 121, the shell is fixedly connected with the shunt bin 124, the shunt bin 124 is fixedly connected with the shunt tube 122, the shunt bin 124 is fixedly connected with the water supply pipe I120, and the shunt bin 124 is fixedly connected with the water discharge pipe II 125.

The conveying mechanism 2 comprises a shell III 21, a cover plate II 22, a pipeline through hole II 220, a sterilization cleaning solution conveying mechanism 23, a water supply pipe V24, a water pump II 25, a water discharge pipe III 26, a motor 27, a bevel gear I28 and a bevel gear II 29, wherein the cover plate II 22 is arranged on one side of the shell III 21, the sterilization cleaning solution conveying mechanism 23 is arranged on the inner side of the shell III 21, the water supply pipe V24 is arranged on one side of the shell III 21, the water pump II 25 is arranged on one side of the water supply pipe V24, the water discharge pipe III 26 is arranged on one side of the water pump II 25, the motor 27 is arranged on one side of the shell III 21, the bevel gear I28 is arranged on one side of the motor 27, the bevel gear II 29 is arranged on one side of the bevel gear I28, and the pipeline through hole II 220 is positioned on one side of the cover plate II 22; the outer shell III 21 is fixedly connected with the cover plate II 22, the outer shell III 21 is fixedly connected with the sterilizing cleaning liquid conveying mechanism 23, the outer shell III 21 is fixedly connected with the water supply pipe V24, the water supply pipe V24 is fixedly connected with the water pump II 25, the water pump II 25 is fixedly connected with the water discharge pipe III 26, the motor 27 is fixedly connected with the bevel gear I28, the bevel gear I28 is meshed with the bevel gear II 29, and the pipeline through hole II 220 is fixedly connected with the cover plate II 22.

The sterilizing cleaning liquid conveying mechanism 23 comprises a storage cabinet 230, a water supply pipe III 231, a water pump I232, a liquid suction pipe 233, a main liquid discharge pipe 234, a secondary liquid discharge pipe I235, a control switch I236, a secondary liquid discharge pipe II 237 and a water supply pipe IV 238, wherein the liquid suction pipe 233 is positioned on one side of the storage cabinet 230, the water pump I232 is arranged on one side of the liquid suction pipe 233, the main liquid discharge pipe 234 is arranged on one side of the water pump I232, the secondary liquid discharge pipe I235 is arranged on one side of the main liquid discharge pipe 234, the secondary liquid discharge pipe II 237 is arranged on the other side of the main liquid discharge pipe 234, the water supply pipe IV 238 is arranged on one side of the secondary liquid discharge pipe II 237, the water supply pipe III 231 is arranged on the other side of the secondary liquid discharge pipe II 237, and the control switch I236 is arranged on one side of the secondary liquid discharge pipe I235; the storage cabinet 230 is fixedly connected with the liquid suction pipe 233, the liquid suction pipe 233 is fixedly connected with the water pump I232, the water pump I232 is fixedly connected with the main liquid discharge pipe 234, the main liquid discharge pipe 234 is fixedly connected with the secondary liquid discharge pipe I235, the main liquid discharge pipe 234 is fixedly connected with the secondary liquid discharge pipe II 237, the secondary liquid discharge pipe II 237 is fixedly connected with the control switch I236, and the secondary liquid discharge pipe II 237 is fixedly connected with the water supply pipe IV 238.

The storage drying mechanism 3 comprises a shell IV 31, an air hole 310, a cover plate III 32, a pipeline through hole III 320, a water storage mechanism 33, a drying mechanism 34 and a water supply pipe VI 35, wherein the cover plate III 32 is arranged on one side of the shell IV 31, and the pipeline through hole III 320 is positioned on one side of the cover plate III 32; a water storage mechanism 33 is arranged on one side of the shell IV 31, a drying mechanism 34 is arranged on one side of the water storage mechanism 33, the air holes 310 are formed in one side of the shell IV 31, and the water supply pipe VI 35 is arranged on one side of the water storage mechanism 33; the shell IV 31 is fixedly connected with the cover plate III 32, the pipeline through hole III 320 is fixedly connected with the cover plate III 32, the water storage mechanism 33 is fixedly connected with the shell IV 31, the drying mechanism 34 is fixedly connected with the shell IV 31, the air hole 310 is fixedly connected onto the shell IV 31, and the water supply pipe VI 35 is fixedly connected with the water storage mechanism 33; the pipeline through hole III 320 provides a space for the drain pipe I8, the drain pipe III 26, the cleaning rotating shaft 412, the water supply pipe III 231 and the secondary drain pipe I235 to reach the next mechanism, and provides a certain supporting effect.

The water storage mechanism 33 comprises a shell V330, a control switch III 331, a water storage bin 332 and a control switch II 333, wherein the water storage bin 332 is positioned at the inner side of the shell V330, the control switch III 331 is arranged at one side of the shell V330, and the control switch II 333 is arranged at the other side of the shell V330; the water storage bin 332 is positioned inside the shell V330 and is fixedly connected with the shell V330, the control switch III 331 is fixedly connected with the shell V330, and the control switch II 333 is connected with the shell V330 through a water supply pipe III 231.

The drying mechanism 34 comprises an air compressor 340, a ventilation pipe 341, an air supply fan I342, an air supply fan II 343, an air supply pipe I344, an air supply pipe II 345, a control switch IV 346, an air storage bin 347, a gas pressure reduction cooling bin 348 and a partition 349, wherein the ventilation pipe 341 is arranged on one side of the air compressor 340, the air storage bin 347 is arranged on one side of the ventilation pipe 341, the partition 349 is arranged on one side of the air storage bin 347, the gas pressure reduction cooling bin 348 is arranged on one side of the partition 349, the control switch IV 346 is positioned on one side of the air storage bin 347, the air supply fan I342 is arranged on one side of the gas pressure reduction cooling bin 348, the air supply pipe I344 is arranged on one side of the air supply fan I342, the air supply fan II 343 is arranged on the other side of the gas pressure reduction cooling bin 348, and the air supply pipe II 345 is arranged on one side of the air supply fan II 343; the air compressor 340 is fixedly connected with the ventilation pipe 341, the ventilation pipe 341 is fixedly connected with the air storage bin 347, the air storage bin 347 is fixedly connected with the partition 349, the partition 349 is fixedly connected with the gas pressure reduction cooling bin 348, the gas pressure reduction cooling bin 348 is connected with the air supply fan I342, the gas pressure reduction cooling bin 348 is fixedly connected with the air supply fan II 343, the air supply fan I342 is fixedly connected with the air supply pipe I344, the air supply fan II 343 is fixedly connected with the air supply pipe II 345, and the control switch IV 346 is fixedly connected with the air storage bin 347.

The cleaning mechanism 4 comprises a glass container cleaning mechanism 41, a multiplexing cleaning mechanism 42, an ultrasonic wave generation mechanism I43, an ultrasonic wave generation mechanism II 44, a drain pipe IV 45 and a shell VIII 46, wherein the glass container cleaning mechanism 41 is arranged on the inner side of the shell VIII 46, the multiplexing cleaning mechanism 42 is arranged on one side of the glass container cleaning mechanism 41, the ultrasonic wave generation mechanism I43 is arranged on one side of the glass container cleaning mechanism 41, the ultrasonic wave generation mechanism II 44 is arranged on one side of the multiplexing cleaning mechanism 42, the drain pipe IV 45 is arranged on one side of the glass container cleaning mechanism 41, and the drain pipe IV 45 is arranged on one side of the multiplexing cleaning mechanism 42; the drain pipe IV 45 is fixedly connected with the glass container cleaning mechanism 41, the glass container cleaning mechanism 41 is fixedly connected with the multiplexing cleaning mechanism 42, the glass container cleaning mechanism 41 is fixedly connected with the shell VIII 46, the multiplexing cleaning mechanism 42 is fixedly connected with the shell VIII 46, the glass container cleaning mechanism 41 is connected with the ultrasonic wave generating mechanism I43, and the multiplexing cleaning mechanism 42 is connected with the ultrasonic wave generating mechanism II 44.

The glass container cleaning mechanism 41 comprises a cleaning mechanism 410, an inner wall brush 411, a cleaning rotating shaft 412, a shell VI 413, a flow divider 414, a water outlet pipe I415, a telescopic rod mechanism 416, a water outlet pipe II 417 and a water outlet II 418, wherein the inner wall brush 411 is arranged on one side of the shell VI 413, the cleaning rotating shaft 412 is arranged on the other side of the shell VI 413, a water outlet pipe II 417 is arranged on one side of the shell VI 413, the water outlet II 418 is arranged on one side of the water outlet pipe II 417, the flow divider 414 is arranged on one side of the cleaning rotating shaft 412, the water outlet pipe I415 is arranged on one side of the flow divider 414, the telescopic rod mechanism 416 is arranged on the other side of the flow divider 414, and the cleaning brush mechanism 410 is arranged on one side of the telescopic rod mechanism 416; inner wall brush 411 and shell VI 413 fixed connection, wash axis of rotation 412 and shell VI 413 fixed connection, shell VI 413 and play tuber pipe II 417 fixed connection, go out the last fixed connection air outlet II 418 of tuber pipe II 417, shunt 414 and outlet pipe I415 fixed connection, shunt 414 and telescopic link mechanism 416 fixed connection, telescopic link mechanism 416 and the scrubbing mechanism 410 fixed connection.

The cleaning mechanism 410 comprises a water outlet 4101, a top brush 4102, a side brush 4103, a bottom support 4104 and a cleaning shaft 4105, wherein one side of the bottom support 4104 is provided with the cleaning shaft 4105, one side of the cleaning shaft 4105 is provided with the side brush 4103, the other side of the cleaning shaft 4105 is provided with the top brush 4102, and the inside of the cleaning shaft 4105 is provided with the water outlet 4101; the bottom support 4104 is fixedly connected with the cleaning shaft 4105, the cleaning shaft 4105 is fixedly connected with the side hairbrush 4103, the cleaning shaft 4105 is fixedly connected with the top hairbrush 4102, and the water outlet 4101 is fixed in the cleaning shaft 4105.

The telescopic rod mechanism 416 comprises a fixed rod 4161, a telescopic rod fixing shell 4162, a spring 4163, a limit block 4164 and a movable rod 4165, wherein the telescopic rod fixing shell 4162 is arranged on one side of the fixed rod 4161, the spring 4163 is arranged on one side of the fixed rod 4161, the limit block 4164 is arranged on the other side of the fixed rod 4161, and the movable rod 4165 is arranged on the other side of the telescopic rod fixing shell 4162; the fixed rod 4161 is fixedly connected with the limit block 4164, the telescopic rod fixing shell 4162 is connected with the fixed rod 4161, the telescopic rod fixing shell 4162 is connected with the movable rod 4165, and the spring 4163 is fixedly connected with the fixed rod 4161.

The top cover plate 5 comprises a hinge 51, a downward-pressing brush head 52, an electric pushing cylinder I53, a top cover 54 and a handle 55, wherein the hinge 51 is arranged on one side of the top cover 54, the handle 55 is arranged on one side of the top cover 54, the electric pushing cylinder I53 is arranged on the other side of the top cover 54, and the downward-pressing brush head 52 is arranged on one side of the electric pushing cylinder I53; the hinge 51 is fixedly connected with the top cover 54, the handle 55 is fixedly connected with the top cover 54, the top cover 54 is fixedly connected with the electric pushing cylinder I53, and the electric pushing cylinder I53 is fixedly connected with the lower pressing brush head 52; hinge 51 is fixed on top cover 54, and when removing handle 55, top cover 54 drives electric push cylinder I53 and pushes down brush head 52 and rotates along hinge 51, and when electric push cylinder I53 acted, drives and pushes down brush head 52 and down the motion, accomplishes the washing in coordination with glass container wiper mechanism 41.

The multiplex cleaning mechanism 42 comprises a cleaning screen frame 420, an air outlet I421, a water outlet hole 422, a water outlet pipe II 423, an air outlet pipe I424 and a shell VII 425, wherein the air outlet I421 is arranged at one side of the shell VII 425, the water outlet hole 422 is arranged at one side of the shell VII, the cleaning screen frame 420 is arranged at one side of the shell VII, the water outlet pipe II 423 is arranged at one side of the cleaning screen frame 420, and the air outlet pipe I424 is also arranged at one side of the cleaning screen frame 420; air outlet I421 and shell VII 425 fixed connection, apopore 422 and shell VII fixed connection, wash screen frame 420 and shell VII connected, outlet pipe II 423 and washing screen frame 420 fixed connection, outlet pipe I424 and washing screen frame 420 fixed connection.

The drainage pipe I8 comprises a drainage hole III 81, a drainage hole IV 82, an electric pushing cylinder II 83, a baffle 84, a drainage through hole 85 and a drainage pipe 86, wherein the drainage through hole 85 is formed in one side of the drainage pipe 86, the drainage hole III 81 is formed in one side of the drainage through hole 85, the drainage hole IV 82 is formed in one side of the drainage through hole 85, the baffle 84 is formed in the other side of the drainage through hole 85, and the electric pushing cylinder II 83 is formed in one side of the baffle 84; the electric pushing cylinder II 83 is fixedly connected with a baffle 84, the baffle 84 is connected with a water drainage through hole 85, the baffle 84 is fixedly connected to a water drainage pipe I8, the water drainage hole III 81 is fixedly connected with a water drainage pipe 86, and the water drainage hole IV 82 is fixedly connected with the water drainage pipe 86.

An integrated ultrasonic cleaning device for cleaning surgical instruments works as follows:

the during operation of water filtering mechanism 13, external water gets into inlet tube 15 by inlet opening I101, lead to water filtering mechanism 13 by inlet tube 15, get into inlet opening II 130, it filters to get into filter bin 131 afterwards, filter the great impurity in aquatic, later get into filter screen filter bin 132, further refine the filtration with water under the effect of filter screen, water gets into and deposits storehouse 133 after filtering, the little impurity that will pass through the filter screen sinks to the bottom under the action of gravity, water reachs and adsorbs storehouse 134 afterwards, adsorb by activated carbon material 136, get rid of all impurities, get rid of various peculiar smells simultaneously, water reachs wash port II 135 at last and accomplishes the filtering process.

When the ultraviolet sterilization bin 12 works, water enters the diversion bin 124 from the water supply pipe I120, is divided into a plurality of strands of fine water flows, enters the shell II 121 through the diversion pipe 122, is sterilized by irradiation of the ultraviolet lamp 123, then enters the other diversion bin 124 for reverse confluence, and finally enters the next mechanism from the drainage pipe II 125 to finish the sterilization process of the water.

The working process of the water purifying and sterilizing mechanism 1 is that outside water enters the water inlet pipe 15 from the water inlet hole I101, enters the water filtering mechanism 13 from the water inlet pipe 15, enters the ultraviolet sterilizing bin 12 from the water filtering mechanism 13, enters the other water filtering mechanism 13 after being sterilized by the ultraviolet sterilizing bin 12, finally, the purified and sterilized water is conveyed to the next mechanism through the water supply pipe II 14, and the pipeline through hole I110 flows out of the water supply pipe II 14 and the water discharge pipe I8 to reach the space of the next mechanism and provide a supporting effect.

When the sterilizing cleaning liquid conveying mechanism 23 works, the water pump works, the liquid suction pipe 233 sucks compound cleaning enzyme and disinfectant from the storage cabinet 230, the sterilizing cleaning liquid is pumped to the main liquid discharge pipe 234, the main liquid discharge pipe 234 conveys the sterilizing cleaning liquid to the secondary liquid discharge pipe I235 and the secondary liquid discharge pipe II 237, the control switch I236 controls the secondary liquid discharge pipe II 237 to be opened and output when the glass container cleaning mechanism 41 works, the control switch II 333 controls the water supply pipe III 231 to be opened and output when the glass container cleaning mechanism 41 works, and the two switches control the circulation of water and the sterilizing cleaning liquid to prevent the waste of the water and the sterilizing cleaning liquid when the glass container cleaning mechanism 41 does not work; the pipe through hole II 220 flows out of the drain pipe I8, the water supply pipe III 231, the water supply pipe V24, the drain pipe III 26, the secondary drain pipe I235 and the cleaning rotating shaft 412 to reach the space of the next mechanism and provides a supporting function.

When the conveying mechanism 2 works, water is driven by a water pump II 25 to be sucked from a water supply pipe V24 to a water discharge pipe III 26 and conveyed to the next mechanism; the compound cleaning enzyme and the disinfection solution are conveyed to the cleaning mechanism 4 through the sterilization cleaning solution conveying mechanism 23.

When the water storage mechanism 33 works, water enters the water storage bin 332 from the water discharge pipe III 26, whether the working water is discharged from the water supply pipe VI 35 or not is controlled by the control switch III 331, and whether the working water is discharged from the water supply pipe III 231 or not is controlled by the control switch II 333.

When the drying mechanism 34 works, firstly, air is provided for the air compressor 340 through the air holes 310, high-temperature and high-pressure compressed air is generated by the air compressor 340, the compressed air enters the air storage bin 347 through the ventilation pipe 341, the compressed air enters the air pressure reduction cooling bin 348 under the control of the control switch iv 346 and is subjected to pressure reduction cooling, and the air pressure reduction cooling bin 348 sends the compressed air subjected to pressure reduction cooling to the next mechanism through the air supply fan i 342 and the air supply fan ii 343 and the air supply pipe i 344 and the air supply pipe ii 345.

During the working process of the glass container cleaning mechanism 41, the cylindrical instrument is reversely buckled on the cleaning mechanism 410, water and sterilization cleaning liquid are conveyed by the cleaning rotating shaft 412 and flow out of the outer wall of the cleaning instrument from the water outlet pipe I415 through the flow divider 414, and part of mixed liquid flows from the flow divider 414 to the telescopic rod mechanism 416 and flows out of the water outlet 4101 to the cleaning mechanism 410 to clean the inner wall of the cleaning instrument; meanwhile, the motor 27 drives the bevel gear I28, the bevel gear I28 and the bevel gear II 29 are in meshed synchronous motion to drive the cleaning rotating shaft 412 to rotate, the cleaning rotating shaft 412 and the shunt 414 are in fixed synchronous motion to drive the telescopic rod mechanism 416 fixed with the shunt 414 to move, finally, the cleaning mechanism 410 is made to rotate to clean the inside of the cylindrical instrument, the movable rod 4165 is pushed outwards by the spring 4163 to enable the outer wall of the cylindrical instrument to be close to the outer wall brush, the cylindrical instrument rotates similarly under the action of centrifugal force to clean the outer wall of the cylindrical instrument, the lower press brush head 52 moves downwards to clean the bottom of the cylindrical instrument, meanwhile, under the action of the ultrasonic generation mechanism I43, dead-angle-free cleaning of the cylindrical instrument is completed, and wastewater is discharged out of the cleaning machine through the drainage pipe IV 45 and the drainage pipe I8.

Reuse wiper mechanism 42 working process, disinfection washing liquid gets into shell VII 425 from outlet pipe II 423 to apopore 422, under the combined action of rivers and ultrasonic wave generation mechanism II 44, will place the surgical equipment sanitization in wasing screen frame 420, and waste water passes through drain pipe I8 discharge cleaning machine.

During the drying process of the instrument, compressed air generated by the drying mechanism 34 passes through the air supply pipe I344, the air supply pipe II 345, the air outlet pipe I424 and the air outlet pipe II 417, enters the mechanism needing drying from the air outlet I421 and the air outlet II 418, and finally is discharged out of the cleaning machine through the water discharge pipe I8 and the water discharge pipe IV 45.

The universal wheels 6 facilitate the movement of the cleaning machine; the mechanism fixing baffle 7 is used for fixedly connecting the mechanisms.

When the cleaning mechanism 4 discharges clean waste water and waste gas, the electric pushing cylinder II 83 contracts to drive the baffle to leave the drainage through hole 85, and the waste water and the waste gas from the drainage hole III 81 and the drainage hole IV 82 are discharged through the drainage pipeline 86 in the working process of the drainage pipe I8.

While embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made herein without departing from the principles of the invention, and it is intended to cover all such modifications, alterations and adaptations that fall within the scope of the invention, as defined by the appended claims.

Claims

1. An integrated ultrasonic cleaning device for cleaning surgical instruments comprises a water purifying and disinfecting mechanism, a conveying mechanism, a storage and drying mechanism, a cleaning mechanism, a top cover plate, universal wheels, a mechanism fixing baffle plate and a drain pipe I, and is characterized in that the conveying mechanism is arranged on one side of the water purifying and disinfecting mechanism, the mechanism fixing baffle plate is arranged on one side of the water purifying and disinfecting mechanism, the universal wheels are arranged on the other side of the water purifying and disinfecting mechanism, the storage and drying mechanism is arranged on one side of the conveying mechanism, the mechanism fixing baffle plate is arranged on the other side of the conveying mechanism, the cleaning mechanism is arranged on one side of the storage and drying mechanism, the mechanism fixing baffle plate is arranged on the other side of the storage and drying mechanism, the top cover plate is arranged on one side of the cleaning mechanism, the mechanism fixing baffle plate is arranged on the other side of the cleaning mechanism, the drain pipe I is positioned on the inner side of each mechanism, and the top end of the drain pipe I is positioned on the cleaning mechanism;

the ultraviolet sterilization bin comprises a water supply pipe I, a shell II, a flow dividing pipe, an ultraviolet lamp, a flow dividing bin and a drain pipe II, wherein the ultraviolet lamp is arranged on one side of the shell II, the flow dividing pipe is arranged on one side of the ultraviolet lamp, the flow dividing bin is arranged on one side of the flow dividing pipe, the water supply pipe I is arranged on one side of one of the two flow dividing bins, and the drain pipe II is arranged on one side of the other flow dividing bin; the ultraviolet lamp is fixedly connected with the shell II, the shell is fixedly connected with the diversion bin, the diversion bin is fixedly connected with the diversion pipe, the diversion bin is fixedly connected with the water supply pipe I, and the diversion bin is fixedly connected with the water discharge pipe II;

the conveying mechanism comprises a shell III, a cover plate II, a pipeline through hole II, a sterilization cleaning liquid conveying mechanism, a water supply pipe V, a water pump II, a water discharge pipe III, a motor, a bevel gear I and a bevel gear II, wherein the cover plate II is arranged on one side of the shell III; the shell III is fixedly connected with the cover plate II, the shell III is fixedly connected with the sterilizing cleaning liquid conveying mechanism, the shell III is fixedly connected with a water supply pipe V, the water supply pipe V is fixedly connected with a water pump II, the water pump II is fixedly connected with a water discharge pipe III, the motor is fixedly connected with a bevel gear I, the bevel gear I is meshed with the bevel gear II, and the pipeline through hole II is fixedly connected with the cover plate II;

the storage and drying mechanism comprises a shell IV, air holes, a cover plate III, a pipeline through hole III, a water storage mechanism, a drying mechanism and a water supply pipe VI, wherein the cover plate III is arranged on one side of the shell IV, and the pipeline through hole III is positioned on one side of the cover plate III; a water storage mechanism is arranged on one side of the shell IV, a drying mechanism is arranged on one side of the water storage mechanism, the air holes are formed in one side of the shell IV, and the water supply pipe VI is located on one side of the water storage mechanism; the drying mechanism is fixedly connected with the shell IV, the air holes are fixedly connected onto the shell IV, and the water supply pipe VI is fixedly connected with the water storage mechanism;

the cleaning mechanism comprises a glass container cleaning mechanism, a multiplexing cleaning mechanism, an ultrasonic wave generating mechanism I, an ultrasonic wave generating mechanism II, a drain pipe IV and a shell VIII, wherein the glass container cleaning mechanism is arranged on the inner side of the shell VIII; the drain pipe IV is fixedly connected with the glass container cleaning mechanism, the glass container cleaning mechanism is fixedly connected with the multiplexing cleaning mechanism, the glass container cleaning mechanism is fixedly connected with the shell VIII, the multiplexing cleaning mechanism is fixedly connected with the shell VIII, the glass container cleaning mechanism is connected with the ultrasonic wave generating mechanism I, and the multiplexing cleaning mechanism is connected with the ultrasonic wave generating mechanism II;

the glass container cleaning mechanism comprises a cleaning mechanism, an inner wall hairbrush, a cleaning rotating shaft, a shell VI, a flow divider, a water outlet pipe I, a telescopic rod mechanism, a wind outlet pipe II and a wind outlet II, wherein the inner wall hairbrush is arranged on one side of the shell VI, the cleaning rotating shaft is arranged on the other side of the shell VI, the wind outlet pipe II is arranged on one side of the shell VI, the wind outlet II is arranged on one side of the wind outlet pipe II, the flow divider is arranged on one side of the cleaning rotating shaft, the water outlet pipe I is arranged on one side of the flow divider, the telescopic rod mechanism is arranged on the other side of the flow divider, and the cleaning mechanism is arranged on one side of the telescopic rod mechanism; the inner wall brush is fixedly connected with the shell VI, the cleaning rotating shaft is fixedly connected with the shell VI, the shell VI is fixedly connected with the air outlet pipe II, the air outlet pipe II is fixedly connected with the air outlet II, the flow divider is fixedly connected with the water outlet pipe I, the flow divider is fixedly connected with the telescopic rod mechanism, and the telescopic rod mechanism is fixedly connected with the cleaning mechanism;

2. The integrated ultrasonic cleaning device for cleaning surgical instruments as claimed in claim 1, wherein the water filtering mechanism comprises a water inlet hole II, a filtering bin, a filtering screen filtering bin, a settling bin, an adsorption bin, a water outlet hole II, an activated carbon material and a filtering membrane, the filtering bin is arranged on one side of the water inlet hole II, the filtering screen filtering bin is arranged on one side of the filtering bin, the settling bin is arranged on one side of the filtering screen filtering bin, the adsorption bin is arranged on one side of the settling bin, the water outlet hole II is arranged on one side of the adsorption bin, the activated carbon material is positioned on the inner side of the adsorption bin, and the filtering membrane is positioned on the inner side of the filtering screen filtering bin; the filter screen is fixedly connected with the filter bin, the precipitation bin is fixedly connected with the filter bin, the adsorption bin is fixedly connected with the adsorption bin, the adsorption bin is fixedly connected with the activated carbon material, and the adsorption bin is fixedly connected with the drain hole.

3. The integrated ultrasonic cleaning device for cleaning surgical instruments according to claim 1, wherein the sterilizing cleaning solution conveying mechanism comprises a storage cabinet, a water supply pipe III, a water pump I, a pipette, a main liquid discharge pipe, a secondary liquid discharge pipe I, a control switch I, a secondary liquid discharge pipe II and a water supply pipe IV, the pipette is positioned on one side of the storage cabinet, the water pump I is arranged on one side of the pipette, the main liquid discharge pipe is arranged on one side of the water pump I, the secondary liquid discharge pipe I is arranged on one side of the main liquid discharge pipe, the secondary liquid discharge pipe II is arranged on the other side of the main liquid discharge pipe, the water supply pipe IV is arranged on one side of the secondary liquid discharge pipe II, the water supply pipe III is arranged on the other side of the secondary liquid discharge pipe II, and the control switch I is arranged on one side of the secondary liquid discharge pipe I; store cabinet and pipette fixed connection, pipette and I fixed connection of water pump, water pump I and main fluid-discharge tube fixed connection, I fixed connection of main fluid-discharge tube and inferior fluid-discharge tube, main fluid-discharge tube and II fixed connection of inferior fluid-discharge tube, inferior fluid-discharge tube II and I fixed connection of control switch, inferior fluid-discharge tube II and IV fixed connection of feed pipe.

4. The integrated ultrasonic cleaning device for cleaning surgical instruments according to claim 1, wherein the water storage mechanism comprises a housing V, a control switch III, a water storage bin and a control switch II, the water storage bin is positioned at the inner side of the housing V, the control switch III is arranged at one side of the housing V, and the control switch II is arranged at the other side of the housing V; the water storage bin is positioned inside the shell V and fixedly connected with the shell V, the control switch III is fixedly connected with the shell V, and the control switch II is connected with the shell V through the water supply pipe III.

5. The integrated ultrasonic cleaning device for cleaning surgical instruments according to claim 1, wherein the drying mechanism comprises an air compressor, a ventilation pipe, an air supply fan I, an air supply fan II, an air supply pipe I, an air supply pipe II, a control switch IV, an air storage bin, a gas pressure reduction cooling bin and a partition plate, wherein the ventilation pipe is arranged on one side of the air compressor, the air storage bin is arranged on one side of the ventilation pipe, the partition plate is arranged on one side of the air storage bin, the gas pressure reduction cooling bin is arranged on one side of the partition plate, the control switch IV is positioned on one side of the air storage bin, the air supply fan I is arranged on one side of the gas pressure reduction cooling bin, the air supply pipe I is arranged on one side of the air supply fan I, the air supply fan II is arranged on the other side of the gas pressure reduction cooling bin, and the air supply pipe II is arranged on one side of the air supply fan II; air compressor and ventilation pipe fixed connection, ventilation pipe and gas storage storehouse fixed connection, gas storage storehouse and baffle fixed connection, baffle and gaseous step-down cooling bin fixed connection, gaseous step-down cooling bin is connected with air supply fan I, gaseous step-down cooling bin and II fixed connection of air supply fan, air supply fan I and I fixed connection of air supply pipe, air supply fan II and II fixed connection of air supply pipe, control switch IV and gas storage storehouse fixed connection.

6. The integrated ultrasonic cleaning device for cleaning surgical instruments as claimed in claim 1, wherein the cleaning mechanism comprises a water outlet, a top brush, a side brush, a bottom support and a cleaning shaft, wherein one side of the bottom support is provided with the cleaning shaft, one side of the cleaning shaft is provided with the side brush, the other side of the cleaning shaft is provided with the top brush, and the cleaning shaft is internally provided with the water outlet; the bottom support is fixedly connected with the cleaning shaft, the cleaning shaft is fixedly connected with the side brush, the cleaning shaft is fixedly connected with the top brush, and the water outlet is fixed in the cleaning shaft.

7. The integrated ultrasonic cleaning device for cleaning surgical instruments as claimed in claim 1, wherein the telescopic rod mechanism comprises a fixed rod, a telescopic rod fixing housing, a spring, a limiting block and a movable rod, the telescopic rod fixing housing is arranged at one side of the fixed rod, the spring is arranged at one side of the fixed rod, the limiting block is arranged at the other side of the fixed rod, and the movable rod is arranged at the other side of the telescopic rod fixing housing; the fixed rod and the limiting block are fixedly connected, the telescopic rod fixing shell is connected with the fixed rod, the telescopic rod fixing shell is connected with the movable rod, and the spring is fixedly connected with the fixed rod.

8. The integrated ultrasonic cleaning device for cleaning surgical instruments as claimed in claim 1, wherein the top cover plate comprises a hinge, a downward-pressing brush head, an electric pushing cylinder I, a top cover and a handle, the hinge is arranged on one side of the top cover, the handle is arranged on one side of the top cover, the electric pushing cylinder I is arranged on the other side of the top cover, and the downward-pressing brush head is arranged on one side of the electric pushing cylinder I; the hinge is fixedly connected with the top cover, the handle is fixedly connected with the top cover, the top cover is fixedly connected with the electric pushing cylinder I, and the electric pushing cylinder I is fixedly connected with the downward-pressing brush head; the hinge is fixed on the top cover, when the handle is moved, the top cover drives the electric pushing cylinder I and the downward-pressing brush head to rotate along the hinge, and when the electric pushing cylinder I acts, the downward-pressing brush head is driven to move downwards to complete cleaning in cooperation with the glass container cleaning mechanism.

9. The integrated ultrasonic cleaning device for cleaning surgical instruments as claimed in claim 1, wherein the drain pipe I comprises a drain hole III, a drain hole IV, an electric pushing cylinder II, a baffle plate, a drain through hole and a drain pipe, wherein the drain pipe is provided with a drain through hole at one side, the drain hole III is provided with the drain hole III at one side, the drain hole IV is provided with the drain hole at one side, the baffle plate is provided at the other side of the drain through hole, and the electric pushing cylinder II is provided at one side of the baffle plate; the electric pushing cylinder II is fixedly connected with the baffle, the baffle is connected with the water drainage through hole, the baffle is fixedly connected to the water drainage pipe I, the water drainage hole III is fixedly connected with the water drainage pipe, and the water drainage hole IV is fixedly connected with the water drainage pipe.