CN113369220A

CN113369220A - Medical glass sheet cleaning and sterilizing machine and using method thereof

Info

Publication number: CN113369220A
Application number: CN202110604262.9A
Authority: CN
Inventors: 郭豆林
Original assignee: Xiamen Xiangling Trading Co ltd
Current assignee: Xiamen Xiangling Trading Co ltd
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-09-10

Abstract

The invention discloses a medical glass sheet cleaning and sterilizing machine and a using method thereof, wherein the medical glass sheet cleaning and sterilizing machine comprises a sterilizing cabinet and two tripods, a first cavity is arranged in the sterilizing cabinet, a first through hole which penetrates through the sterilizing cabinet leftwards is formed in the left side surface of the first cavity, a first motor is arranged in the rear wall of the first cavity, a first driving shaft is connected to the first motor in a rotating manner, the tripods are positioned on the left side of the sterilizing cabinet, and a first driven shaft is connected between the tripods in a rotating manner; the glass sheet cleaning device can clean the glass sheet, and water for cleaning the glass sheet is in a flowing state; the glass sheet packaging machine can sterilize and dry glass sheets, and can package the glass sheets after the glass sheets are processed.

Description

Medical glass sheet cleaning and sterilizing machine and using method thereof

Technical Field

The invention relates to the technical field of medical glass, in particular to a medical glass sheet cleaning and sterilizing machine and a using method thereof.

Background

Medical blood tests are often used as an auxiliary means for disease diagnosis, and doctors can preliminarily determine the illness state of patients by interpreting blood routine test data. In the process of medical blood test, blood samples of patients are usually collected on the medical glass sheets, so that the consumption of the medical glass sheets is extremely high, the existing medical glass sheets are generally disposable articles, the medical glass sheets only containing blood are convenient to clean, and if the medical glass sheets are used once, the medical glass sheets are discarded, so that the waste of resources is caused.

Disclosure of Invention

The invention aims to provide a medical glass sheet cleaning and sterilizing machine and a using method thereof, which are used for overcoming the defects in the prior art.

The medical glass sheet cleaning and sterilizing machine comprises a sterilizing cabinet and two tripods, wherein a first cavity is arranged in the sterilizing cabinet, a first through hole penetrating the sterilizing cabinet leftwards is formed in the left side surface of the first cavity, a first motor is arranged in the rear wall of the first cavity, a first driving shaft is connected to the first motor in a rotating mode, the tripods are located on the left side of the sterilizing cabinet, a first driven shaft is connected between the tripods in a rotating mode, the first driving shaft and the first driven shaft are connected through a first conveyor belt, a baffle is fixedly arranged on the front and rear walls of the first cavity and located on the right side of the first driving shaft, a first sliding groove is communicated with the rear wall of the first cavity and located on the left side of the baffle and located on the lower side of the first driving shaft, be equipped with in the spout and make its be convenient for clear separating mechanism with laminating glass piece separation together, be equipped with ultrasonic sterilizer and sterilamp on the cavity side, be equipped with No. two cavities in the sterilizer, be equipped with in the right flank of a cavity and link up right extremely No. two through-holes in No. two cavities, be equipped with transport mechanism in the cavity, transport mechanism can transport the glass piece through disinfection processing extremely in No. two cavities, sliding connection has a slider on the downside of No. two cavities, and sliding connection has No. two sliders around on the downside of No. two cavities, No. two sliders are located the rear side of a slider, be equipped with on the side of No. two cavities and can make a slider with an electro-magnet of No. two slider motions, the leading flank of No. two sliders, The left surface of a slider, the left surface of No. two cavities with respectively be equipped with a spring and spacing slide on the leading flank of No. two cavities, spacing slide is located the upside of a spring, and spacing slide is located the downside of No. two through-holes, the end of a spring is connected with a butt joint board jointly, be equipped with packaging hardware in No. two cavities, packaging hardware can will through handling and fall in the glass piece encapsulation of a spring upside.

Optionally, the transfer mechanism comprises a motor cavity arranged in the disinfection cabinet, the motor cavity is located at the rear side of the first cavity, a second motor is arranged on the rear side face of the motor cavity, a second driving shaft which is penetrated into the first cavity forwards and is connected to the front side face of the first cavity in a rotating manner is mounted on the front side face of the second motor, a second driven shaft is connected to the front wall and the rear wall of the first cavity in a rotating manner, the second driven shaft and the second driving shaft are connected through a second conveyor belt, the second conveyor belt is located at the lower side of the first sliding groove, a third driven shaft is connected to the rear side face of the motor cavity in a rotating manner, the third driven shaft is penetrated into the first cavity forwards and is connected to the front side face of the first cavity in a rotating manner, the third driven shaft is located at the lower side of the second driving shaft, and is connected with the second driving shaft through a synchronous belt, the hold-in range is located the motor intracavity, No. two through-hole front and back wall internal rotations are connected with No. four driven shafts, No. four driven shafts with No. three driven shafts are connected through No. three conveyer belts, be equipped with on No. two through-hole front and back sides and prevent that the glass piece from falling on slide on No. two through-hole downside, be equipped with in the cavity and erode drying device, it can be to being located to erode drying device carry out aftertreatment to the glass piece on No. three conveyer belts.

Optionally, the flushing and drying device comprises a water faucet and a high-temperature dryer which are respectively arranged on the upper side and the lower side of the third conveying belt, the high-temperature dryer is located on the upper right side of the water faucet, the water faucet is communicated with a water source and can flow out purified water, and the high-temperature dryer can form high-temperature hot air flow.

Optionally, the separating mechanism comprises a manifold block connected in the first sliding groove in a sliding manner, a threaded hole which is communicated left and right is arranged in the manifold block, a third motor is arranged in the left side face of the first sliding groove, a first threaded shaft connected with the threaded hole in a threaded manner is arranged on the right side face of the third motor, a second sliding groove is arranged on the ring face of the first threaded shaft, a ring groove is arranged in the ring face of the threaded hole, a third cavity connected with the ring groove is arranged in the lower side face of the threaded hole in a communicated manner, the third cavity is communicated forwards, a first gear is rotatably connected in the right side face of the ring groove, a driving block extending into the second sliding groove is fixedly arranged on the inner ring of the first gear, a first rotating shaft is rotatably connected on the right side face of the third cavity, and a second gear meshed with the first gear is arranged on the first rotating shaft, and the left end of the first rotating shaft is provided with a first bevel gear, the rear wall of the third cavity is rotationally connected with a second rotating shaft which extends forwards into the first cavity, the second rotating shaft is provided with a second bevel gear which is meshed with the first bevel gear, the second rotating shaft is provided with a friction wheel, the friction wheel is positioned in the first cavity, and the distance between the lower side surface of the friction wheel and the upper side surface of the second conveying belt is smaller than the thickness formed by stacking two glass sheets.

Optionally, the packaging device includes a pneumatic rod disposed on the upper side of the second cavity, a pneumatic device capable of driving the pneumatic rod to move up and down is disposed in the upper side of the second cavity, a packaging block is fixedly disposed at the lower end of the pneumatic rod, a packaging cavity with a downward opening is disposed in the packaging block, a heat insulation block is slidably connected in the packaging cavity up and down, the heat insulation block is connected to the upper side of the packaging cavity through a plurality of second springs, a second electromagnet capable of repelling the heat insulation block is disposed on the upper side of the packaging cavity, a heat seal knife combined into a rectangle is disposed on the lower side of the heat insulation block, an airtight groove is disposed in the lower side of the packaging block, the airtight groove is located in the outer ring of the packaging cavity, an airtight block is slidably connected in the airtight groove up and down, the airtight block cannot slide out of the airtight groove, and a third electromagnet capable of attracting the airtight block is disposed on the upper side of the airtight groove, and a feeding device for providing packaging materials is arranged on the disinfection cabinet.

Optionally, the feeding device comprises four groups of supporting blocks arranged on the right side surface of the disinfection cabinet, a driving rod which can be driven by a fourth motor and a fifth motor is rotatably connected between the first group of supporting blocks and the third group of supporting blocks from top to bottom, a driven rod is rotatably connected between the second group of supporting blocks and the fourth group of supporting blocks, a plastic film is wound on the driven rod, a third through hole and a fourth through hole which penetrate into the second cavity leftwards are arranged in the right side surface of the disinfection cabinet, the third through hole is positioned on the upper side of the fourth through hole, a fifth through hole which penetrates through the disinfection cabinet rightwards is arranged in the right side surface of the second through hole, two first limiting rods are rotatably connected in the front and rear walls of the second through hole, an upper film is separated from a plastic film roll on the driven rod positioned on the upper side, the upper film passes through the third through hole and passes through the fifth through hole rightwards after being wound on the two first limiting rods, last membrane is around being located the upside on the drive lever, be equipped with downwardly extending behind the left extension to the left in No. two cavity left walls to link up right finally No. six through-holes of sterilizer, No. six through-hole front and back wall internal rotation are connected with No. two gag lever posts, No. seven through-holes that link up about being equipped with in the spring are located the downside the plastic film on the driven lever rolls up and separates the lower membrane, the membrane passes through down No. four through-holes with No. seven through-holes and around two pass through right behind No. two gag lever posts No. six through-holes, finally the membrane is around being located the downside on the driven lever, be equipped with in No. two cavity back walls and cut the groove, cut the inslot be equipped with can be right go up the cutting device that the membrane cut.

Optionally, the cutting device comprises a No. six motor arranged in the rear wall of the cutting groove, a movable block is connected with the front and the back of the cutting groove in a sliding manner, a No. two threaded shafts connected with the movable block in a threaded manner are mounted on the No. six motor, a movable plate and a fixed plate are arranged on the front side surface of the No. six motor, the fixed plate is connected with the lower side surface of the movable plate through a No. three spring, a No. four electromagnet capable of attracting the movable plate is arranged in the fixed plate, a through hole penetrating up and down is arranged in the movable plate, a No. one blade is arranged on the lower side surface of the movable plate, the No. one blade is positioned on the outer ring of the through hole, a No. one discharge port penetrating up and down is arranged in the No. one butt plate, a butt groove is arranged in the right side surface of the No. one discharge port, and a No. two butt plates are hinged on the left side surface of the No. one discharge port, the side of going up of butt joint groove is equipped with and can attracts No. four electro-magnets of No. two butt joint boards, be equipped with the No. two bin outlets that link up backward after downwardly extending in the downside of No. two cavities, the side of going up of a butt joint board is equipped with No. two blades, No. two blades are located the outer loop of a bin outlet.

Optionally, a liquid discharge hole which is communicated downwards is formed in the lower side face of the first cavity, a ball valve is arranged in the liquid discharge hole, a workbench is arranged on the right side face of the tripod, and water which does not pass through the second conveying belt but is lower than the faucet is arranged in the first cavity.

A use method of a medical glass sheet cleaning and sterilizing machine comprises the following specific steps:

firstly, when a medical worker needs to perform blood examination, a glass sheet with blood is placed on a first conveyor belt on the upper side of a workbench and is examined, the glass sheet needs to be cleaned after the examination is completed, the worker energizes a motor at the moment, the first conveyor belt is rotated by driving a first driving shaft when the motor is energized, the glass sheet on the first conveyor belt moves rightwards at the moment, the motor is powered off after the glass sheet is separated from the first conveyor belt for a certain time, the glass sheets which are overlapped together and have blood fall on a second conveyor belt at the moment, an ultrasonic sterilizer, an ultraviolet sterilizing lamp and a third motor are energized at the moment, a ball valve is opened at the moment, a water faucet and a high-temperature dryer work, purified water flows into the first cavity when the water faucet works, and water in the first cavity flows out when the ball valve is opened, the flowing water and the flowing water flow are equal, the high-temperature dryer can blow out high-temperature hot air when working, the ultrasonic sterilizer and the ultraviolet sterilizing lamp can generate cleaning effect on the glass sheets when being electrified, the third motor can drive the first threaded shaft to rotate when being electrified, the first threaded shaft can drive the integrated block to move left and right when rotating, the first threaded shaft can drive the first gear to rotate through the driving block when rotating, the first rotating shaft can drive the second gear to rotate when rotating, the second rotating shaft can drive the second rotating shaft to rotate through the mutually meshed bevel gears when rotating, the friction wheel is driven to rotate at the moment, when the friction wheel moves left and right and rotates and contacts the glass sheets, the glass sheets at the lower side can not be driven due to the friction force between the glass sheets and the second conveyor belt, the glass sheets at the upper side can be driven by the friction wheel and can be separated from the glass sheets at the lower side, after a certain time, the third motor is powered off;

the second step is that the ultrasonic sterilizer and the ultraviolet sterilizing lamp are powered off after a certain time, the ball valve is closed at the moment, the cleaning and sterilizing work of the glass sheets is completed at the moment, then the second motor is powered on, the second motor drives the second driving shaft to rotate when being powered on, the second driving shaft drives the second conveyor belt to rotate when rotating, and the second driving shaft drives the third driven shaft to rotate through the synchronous belt when rotating, at the moment, two glass sheets positioned on the second conveyor belt are driven to move and fall on the third conveyor belt, the glass sheets positioned on the third conveyor belt are cleaned by water from a tap and then dried by the high-temperature dryer, then the glass sheets fall on the second cavity, the glass sheets moving to the second cavity are limited at the falling point position by the limiting sliding plate, finally the glass sheets fall on the upper side of the lower film and are positioned on the second motor in a butting way, and the second motor is powered off after a certain time, then, packaging work is required;

thirdly, the zero electromagnet is electrified and attracts the first sliding block and the second sliding block, the first sliding block moves rightwards and the second sliding block moves backwards, in the moving process of the first sliding block and the second sliding block, the glass sheet keeps a relative position relation with the first abutting plate, then the sixth motor is electrified and drives the second threaded shaft to enable the sixth motor to move forwards, after a certain time, the sixth motor is powered off, the upper film is positioned between the movable plate and the fixed plate, the left end of the second threaded shaft is positioned at the right side of the movable plate, then the fourth electromagnet is electrified and attracts the movable plate, the upper film is cut by the first blade, then the pneumatic device drives the pneumatic rod to enable the packaging block to move downwards, the packaging block is abutted against the upper side face of the fixed plate through the through hole, and then the third electromagnet is electrified and attracts the airtight block, the cut upper film is absorbed on the lower side surface of the packaging block, then the packaging block moves upwards, then the electromagnet of four numbers is powered off, at the moment, the movable plate moves upwards due to the elasticity of the spring of three numbers, then the motor of six numbers is powered on until the motor of six numbers completes the reset backwards, after the motor of six numbers completes the reset, the pneumatic device drives the packaging block downwards until the packaging block abuts against the upper side surface of the abutting plate of one number, at the moment, the blade of two numbers can cut the lower film, then the electromagnet of two numbers is powered on and the heat sealing knife is powered on, at the moment, the heat insulation block moves downwards and enables the upper film and the lower film to be hot-melted and adhered, at the moment, the glass sheet can be packaged between the upper film and the lower film, after a certain time, the electromagnet of three numbers is powered off and the packaging block moves upwards, then the electromagnet of four numbers is powered off, at the moment, the packaged glass sheet on the abutting plate of two numbers can be discharged through the material outlet of one number and the material outlet of two numbers, then the encapsulation piece upwards moves and resets, then zero electromagnet cuts off the power supply, at this moment, because the elasticity of a spring makes a slider and a second slider reset, then four motors and five motors are electrified for a period of time to make the cut film move for a certain distance and then cut off the power supply, then five motors drive the driven lever to rotate reversely for a certain time to make the lower film relax, and at this moment, the disinfection encapsulation work of a glass sheet is completed.

The invention has the beneficial effects that: the glass sheet conveying device integrates the workbench, and the medical staff can automatically convey the glass sheet away from the workbench after observing the blood on the glass sheet;

the glass sheet cleaning device can clean the glass sheet, and water for cleaning the glass sheet is in a flowing state;

the glass sheet packaging machine can sterilize and dry glass sheets, and can package the glass sheets after the glass sheets are processed.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic structural view of a medical glass sheet cleaning and sterilizing machine according to the present invention;

FIG. 2 is a schematic view of the structure at the first slider in FIG. 1;

FIG. 3 is a schematic structural view of the first abutting plate in FIG. 1;

FIG. 4 is a schematic diagram of the structure of the cavity II in FIG. 1;

FIG. 5 is a schematic view of the structure A-A of FIG. 4;

FIG. 6 is a schematic diagram of the package block of FIG. 4;

FIG. 7 is a schematic diagram of the structure of the integrated block of FIG. 1;

fig. 8 is a schematic structural view of the transfer device of fig. 1.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-8, a medical glass sheet cleaning and sterilizing machine according to an embodiment of the present invention includes a sterilizing cabinet 11 and two tripods 12, a first cavity 13 is provided in the sterilizing cabinet 11, a first through hole 14 penetrating the sterilizing cabinet 11 leftward is provided in a left side surface of the first cavity 13, a first motor is provided in a rear wall of the first cavity 13, a first driving shaft 15 is rotatably connected to the first motor, the tripods 12 are located on a left side of the sterilizing cabinet 11, a first driven shaft 16 is rotatably connected between the tripods 12, the first driving shaft 15 and the first driven shaft 16 are connected by a first conveyor 17, a baffle 18 is fixedly provided on a front and rear wall of the first cavity 13, the baffle 18 is located on a right side of the first driving shaft 15, and a first chute 19 is provided in a rear wall of the first cavity 13, the first sliding groove 19 is located on the left side of the baffle 18, the first sliding groove 19 is located on the lower side of the first driving shaft 15, a separating mechanism 101 which can separate glass sheets which are attached together to enable the glass sheets to be convenient to clean is arranged in the first sliding groove 19, an ultrasonic sterilizer 21 and an ultraviolet sterilizing lamp 23 are arranged on the side face of the first cavity 13, a second cavity 20 is arranged in the sterilizing cabinet 11, a second through hole 22 which penetrates into the second cavity 20 rightwards is arranged in the right side face of the first cavity 13, a transferring mechanism 102 is arranged in the first cavity 13, the transferring mechanism 102 can transfer the glass sheets which are subjected to sterilization treatment into the second cavity 20, a first sliding block 24 is connected to the lower side face of the second cavity 20 in a left-right sliding mode, and a second sliding block 25 is connected to the lower side face of the second cavity 20 in a front-back sliding mode, the second sliding block 25 is located on the rear side of the first sliding block 24, a first electromagnet capable of enabling the first sliding block 24 and the second sliding block 25 to move is arranged on the side face of the second cavity 20, a first spring 27 and a limiting sliding plate 28 are respectively arranged on the front side face of the second sliding block 25, the left side face of the first sliding block 24, the left side face of the second cavity 20 and the front side face of the second cavity 20, the limiting sliding plate 28 is located on the upper side of the first spring 27, the limiting sliding plate 28 is located on the lower side of the second through hole 22, the tail end of the first spring 27 is commonly connected with a first abutting plate 26, a packaging device 103 is arranged in the second cavity 20, and the packaging device 103 can package a glass sheet which is processed and falls on the upper side of the first spring 27.

Preferably, transport mechanism 102 is including locating the motor chamber in sterilizer 11, the motor chamber is located the rear side of a cavity 13, and be equipped with No. two motors on the motor chamber trailing flank, No. two motor leading flanks install and link up forward in a cavity 13 and rotate and connect in No. two driving shafts 29 in a cavity 13 front flank, No. 13 preceding back wall internal rotation is connected with No. two driven shafts 30, No. two driven shafts 30 with connect through No. two conveyer belts 31 between No. two driving shafts 29, and No. two conveyer belts 31 are located the downside of a spout 19, motor chamber trailing flank internal rotation is connected with No. three driven shafts 32, No. three driven shafts 32 link up forward in a cavity 13 and rotate and connect in the front flank of a cavity 13, No. three driven shafts 32 are located the downside of No. two driving shafts 29, and No. three driven shafts 32 with No. two driving shafts 29 are connected through the hold-in range, the hold-in range is located the motor intracavity, No. two through-hole 22 preceding back wall internal rotations are connected with No. four driven shafts 33, No. four driven shafts 33 with No. three driven shafts 32 connect through No. three conveyer belts 34, be equipped with on No. two through-hole 22 front and back sides and prevent that the glass piece from falling on slide on No. two through-hole 22 downside, be equipped with in No. one cavity 13 and erode drying device 104, it can be to being located to erode drying device 104 No. three glass pieces on the conveyer belt 34 carry out aftertreatment.

Preferably, the washing and drying device 104 includes a water tap 35 and a high temperature dryer 36 respectively disposed on the upper and lower sides of the third conveyor belt 34, the high temperature dryer 36 is disposed on the upper right side of the water tap 35, the water tap 35 is communicated with a water source and can flow out purified water, and the high temperature dryer 36 can form high temperature hot air flow.

Preferably, separating mechanism 101 includes sliding connection in manifold block 38 in spout 19, threaded hole 39 that link up about being equipped with in manifold block 38, be equipped with No. three motor 37 in the spout 19 left surface, install on the No. three motor 37 right flank with No. one threaded shaft 40 of threaded hole 39 threaded connection, be equipped with No. two spouts 41 on the anchor ring of a threaded shaft 40, be equipped with annular groove 42 in the anchor ring of threaded hole 39, and the intercommunication is equipped with No. three cavity 43 that annular groove 42 is connected in the lower flank of threaded hole 39, No. three cavity 43 link up forward, the right flank internal rotation of annular groove 42 is connected with a gear 44, set firmly on the inner ring of a gear 44 extend to drive block 45 in No. two spouts 41, it is connected with a rotation axis 46 to rotate on the No. three cavity 43 right flank, the first rotating shaft 46 is provided with a second gear 47 meshed with the first gear 44, the left end of the first rotating shaft 46 is provided with a first bevel gear, the rear wall of the third cavity 43 is rotationally connected with a second rotating shaft 48 extending forwards into the first cavity 13, the second rotating shaft 48 is provided with a second bevel gear meshed with the first bevel gear, the second rotating shaft 48 is provided with a friction wheel 49, the friction wheel 49 is positioned in the first cavity 13, and the distance between the lower side surface of the friction wheel 49 and the upper side surface of the second conveyor belt 31 is smaller than the thickness formed by stacking two glass sheets.

Preferably, the packaging device 103 comprises a pneumatic rod 50 arranged on the upper side of the second cavity 20, a pneumatic device 105 capable of driving the pneumatic rod 50 to move up and down is arranged on the upper side of the second cavity 20, a packaging block 51 is fixedly arranged at the lower end of the pneumatic rod 50, a packaging cavity 52 with a downward opening is arranged in the packaging block 51, a heat insulation block 53 is connected in the packaging cavity 52 in a sliding manner up and down, the heat insulation block 53 is connected on the upper side of the packaging cavity 52 through a plurality of second springs 54, a second electromagnet 55 capable of repelling the heat insulation block 53 is arranged on the upper side of the packaging cavity 52, a heat sealing knife 56 combined into a rectangle is arranged on the lower side of the heat insulation block 53, a sealing groove 57 is arranged in the lower side of the packaging block 51, the sealing groove 57 is arranged on the outer ring of the packaging cavity 52, and a sealing block 58 is connected in the sealing groove 57 in a sliding manner up and down, the airtight block 58 cannot slide out of the airtight groove 57, a third electromagnet 59 capable of attracting the airtight block 58 is arranged on the upper side surface of the airtight groove 57, and a feeding device 106 for providing packaging materials is arranged on the disinfection cabinet 11.

Preferably, the feeding device 106 comprises four sets of supporting blocks 60 arranged on the right side surface of the disinfection cabinet 11, from top to bottom, a driving rod 61 which can be driven by a fourth motor and a fifth motor is rotatably connected between the first set of supporting blocks 60 and the third set of supporting blocks 60, a driven rod 62 is rotatably connected between the second set of supporting blocks 60 and the fourth set of supporting blocks 60, a plastic film is wound on the driven rod 62, a third through hole and a fourth through hole which penetrate into the second cavity 20 leftwards are arranged in the right side surface of the disinfection cabinet 11, the third through hole is arranged on the upper side of the fourth through hole, a fifth through hole which penetrates through the disinfection cabinet 11 rightwards is arranged in the right side surface of the second through hole 22, two first limiting rods are rotatably connected in the front and rear walls of the second through hole 22, an upper film is separated from a plastic film roll on the driven rod 62 arranged on the upper side, the upper film passes through the third through hole and winds the two first limiting rods and then passes through the fifth through hole rightwards, finally the upper film winds the driving rod 61 positioned on the upper side, the left wall of the second cavity 20 is internally provided with a left extending part and then extends downwards, and finally pass through the number six through holes of the disinfection cabinet 11 rightwards, the front wall and the rear wall of the number six through holes are rotationally connected with two number two limiting rods, a seventh through hole which is through from left to right is arranged in the first spring 27, a lower film is separated from a plastic film roll on the driven rod 62 which is positioned at the lower side, the lower film passes through the fourth through hole and the seventh through hole and winds the two second limiting rods and then passes through the sixth through hole rightwards, and finally the lower film winds the driven rod 62 positioned on the lower side, a cutting groove 63 is formed in the rear wall of the second cavity 20, and a cutting device 107 capable of cutting the upper film is arranged in the cutting groove 63.

Preferably, the cutting device 107 comprises a sixth motor 64 arranged in the rear wall of the cutting groove 63, a movable block 81 is slidably connected with the front and rear sides of the cutting groove 63, a second threaded shaft 65 in threaded connection with the movable block 81 is mounted on the sixth motor 64, a movable plate 67 and a fixed plate 66 are arranged on the front side surface of the sixth motor 64, the fixed plate 66 is connected with the lower side surface of the movable plate 67 through a third spring 68, a fourth electromagnet 69 capable of attracting the movable plate 67 is arranged in the fixed plate 66, a through hole 70 which is through up and down is arranged in the movable plate 67, a first blade 71 is arranged on the lower side surface of the movable plate 67, the first blade 71 is positioned on the outer ring of the through hole 70, a first discharge port 72 which is through up and down is arranged in the first abutting plate 26, and an abutting groove is arranged in the right side surface of the first discharge port 72, there is No. two butt plates 73 articulated on the left surface of a bin outlet 72, the side of going up in butt groove is equipped with and can attracts No. four electro-magnets 74 of No. two butt plates 73, be equipped with No. two bin outlets that link up backward after downwardly extending in the downside of No. two cavities 20, the side of going up of a butt plate 26 is equipped with No. two blades 77, No. two blades 77 are located the outer loop of a bin outlet 72.

Preferably, a drain hole 75 penetrating downwards is formed in the lower side surface of the first cavity 13, a ball valve 78 is arranged in the drain hole 75, a workbench 76 is arranged on the right side surface of the tripod 12, and water which does not pass through the second conveyor belt 31 but is lower than the water faucet 35 is arranged in the first cavity 13.

firstly, when a medical worker needs to perform blood examination, a glass sheet with blood is placed on the first conveyor belt 17 on the upper side of the workbench 76 and is examined, the glass sheet needs to be cleaned after the examination is completed, the worker energizes the first motor, the first motor drives the first driving shaft 15 to rotate the first conveyor belt 17 when the first motor is energized, the glass sheet on the first conveyor belt 17 moves rightwards at the moment, the first motor is de-energized after the glass sheet is separated from the first conveyor belt 17 after a certain time, the glass sheets with blood are superposed together and fall on the second conveyor belt 31 at the moment, the ultrasonic sterilizer 21, the ultraviolet sterilizing lamp 23 and the third motor 37 are energized at the moment, the ball valve 78 is opened at the moment, the water faucet 35 and the high-temperature dryer 36 work, clean water flows into the first cavity 13 when the water in the first cavity 13 flows out when the ball valve 78 is opened, at this time, the inflow water and the outflow water flow are equal, the high temperature dryer 36 will blow out high temperature hot air when working, the ultrasonic sterilizer 21 and the ultraviolet sterilization lamp 23 will generate cleaning effect to the glass sheets when being electrified, the third motor 37 will drive the first screw shaft 40 to rotate when being electrified, the first screw shaft 40 will make the integrated block 38 move left and right when rotating, the first screw shaft 40 will drive the first gear 44 to rotate through the driving block 45 when rotating, the first gear 44 will drive the second gear 47 to rotate when rotating, the first rotating shaft 46 will make the second rotating shaft 48 rotate through the mutually meshed bevel gears when rotating, at this time, the friction wheel 49 is driven to rotate, when the friction wheel 49 in left and right movement and rotating contacts with the glass sheets, the glass sheets at the lower side will not be driven because of the friction force between the glass sheets and the second conveyor belt 31, the glass sheets at the upper side will be driven by the friction wheel 49 and make them separate from the glass sheets at the lower side, after a certain time, the third motor 37 is powered off;

after a certain time, the ultrasonic sterilizer 21 and the ultraviolet sterilizing lamp 23 are powered off, the ball valve 78 is closed at the moment, the cleaning and sterilizing work of the glass sheets is completed, then the second motor is powered on, the second motor drives the second driving shaft 29 to rotate when being powered on, the second driving shaft 29 drives the second conveyor belt 31 to rotate when rotating, the second driving shaft 29 drives the third driven shaft 32 to rotate through a synchronous belt when rotating, at the moment, two glass sheets on the second conveyor belt 31 are driven to move and fall on the third conveyor belt 34, the glass sheets on the third conveyor belt 34 are cleaned by water from a water tap 35 and then dried by the high-temperature dryer 36, then the glass sheets fall on the second cavity 20, the glass sheets moving to the second cavity 20 are limited in the falling point positions by the limiting sliding plate 28, and finally the glass sheets fall on the upper side of the lower film, the second motor is powered off after a certain time, and then packaging work is required;

third, the zero electromagnet is electrified and attracts the first slider 24 and the second slider 25, the first slider 24 moves rightwards and the second slider 25 moves backwards, the glass sheet keeps relative position relation with the first abutting plate 26 in the moving process of the first slider 24 and the second slider 25, then the sixth motor 64 is electrified and drives the second threaded shaft 65 to enable the sixth motor 64 to move forwards, the sixth motor 64 is powered off after a certain time, the upper film is positioned between the movable plate 67 and the fixed plate 66, the left end of the second threaded shaft 65 is positioned at the right side of the movable plate 67, then the fourth electromagnet 69 is electrified and attracts the movable plate 67, the upper film is cut by the first blade 71, then the pneumatic device 105 drives the pneumatic rod 50 to enable the packaging block 51 to move downwards, and the packaging block 51 abuts against the upper side face of the fixed plate 66 through the through hole 70, then the third electromagnet 59 is electrified and attracts the airtight block 58, the upper film which is cut at this time is adsorbed on the lower side surface of the packaging block 51, then the packaging block 51 moves upwards, then the fourth electromagnet 69 is powered off, at this time, the movable plate 67 moves upwards due to the elasticity of the third spring 68, then the sixth motor 64 is electrified until the sixth motor 64 completes the resetting backwards, after the sixth motor 64 completes the resetting, the pneumatic device 105 drives the packaging block 51 to move downwards until the packaging block 51 abuts against the upper side surface of the first abutting plate 26, at this time, the second blade 77 cuts the lower film, then the second electromagnet 55 is electrified and the heat sealing knife 56 is electrified, at this time, the heat insulation block 53 moves downwards and enables the upper film and the lower film to be hot-melted and attached, at this time, after a certain time, the third electromagnet 59 is powered off and the packaging block 51 moves upwards, then the fourth electromagnet 74 is powered off, the glass piece that is located No. two butt plates 73 and is accomplished by the encapsulation can discharge through bin outlet 72 and No. two bin outlets this moment, later encapsulation piece 51 upward movement and reset, later No. zero electro-magnet outage, this moment because the elasticity of a spring 27 makes a slider 24 and No. two sliders 25 reset, later No. four motors and No. five motors circular telegram for a period of time make the membrane that is cut move behind the certain distance outage, later No. five motors drive driven lever 62 reversal for a certain time and make the lower membrane lax, accomplish the disinfection encapsulation work of a glass piece this moment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a medical glass piece cleaning and sterilizing machine, includes sterilizer and two tripods, its characterized in that: the disinfection cabinet is characterized in that a first cavity is arranged in the disinfection cabinet, a first through hole penetrating the disinfection cabinet leftwards is formed in the left side face of the first cavity, a first motor is arranged in the rear wall of the first cavity, a first driving shaft is connected to the first motor in a rotating mode, a tripod is located on the left side of the disinfection cabinet, a first driven shaft is connected between the tripods in a rotating mode, the first driving shaft and the first driven shaft are connected through a first conveyor belt, baffles are fixedly arranged on the front wall and the rear wall of the first cavity and located on the right side of the first driving shaft, a first sliding groove is communicated in the rear wall of the first cavity and located on the left side of the baffles and located on the lower side of the first driving shaft, and a separating mechanism capable of separating glass sheets attached together to enable the glass sheets to be convenient to clean is arranged in the first sliding groove, the utility model discloses a glass sheet disinfection cabinet, including a disinfection cabinet, a first cavity, a second cavity, a through hole, a first slider, a second slider, a first electromagnet, a first spring and a limiting slide plate, wherein the first cavity side is provided with an ultrasonic sterilizer and an ultraviolet sterilization lamp, the disinfection cabinet is provided with the second cavity, the right side face of the first cavity is internally provided with a through hole which is communicated with the second cavity right, the first cavity is internally provided with a transfer mechanism which can transfer the disinfected glass sheet into the second cavity, the lower side face of the second cavity is connected with the first slider in a sliding way, the lower side face of the second cavity is connected with the second slider in a sliding way, the second slider is positioned at the rear side of the first slider, the side face of the second cavity is provided with the first electromagnet which can make the first slider and the second slider move, the front side face of the second slider, the left side face of the first slider, the left side face of the second cavity and the front side face of the second cavity are respectively provided with the first spring and the limiting slide plate, the limiting sliding plate is located on the upper side of the first spring, the limiting sliding plate is located on the lower side of the second through hole, the tail end of the first spring is connected with a first abutting plate, a packaging device is arranged in the second cavity, and the packaging device can package a processed glass sheet falling on the upper side of the first spring.

2. The medical glass sheet cleaning and sterilizing machine as claimed in claim 1, wherein: the transfer mechanism comprises a motor cavity arranged in the disinfection cabinet, the motor cavity is positioned at the rear side of the first cavity, a second motor is arranged on the rear side surface of the motor cavity, the front side surface of the second motor is provided with a second driving shaft which is penetrated forwards into the first cavity and is rotatably connected into the front side surface of the first cavity, the front and rear walls of the first cavity are rotatably connected with a second driven shaft, the second driven shaft and the second driving shaft are connected through a second conveyor belt, the second conveyor belt is positioned at the lower side of the first sliding groove, the rear side surface of the motor cavity is rotatably connected with a third driven shaft, the third driven shaft is penetrated forwards into the first cavity and is rotatably connected into the front side surface of the first cavity, the third driven shaft is positioned at the lower side of the second driving shaft, and the third driven shaft and the second driving shaft are connected through a synchronous belt, the hold-in range is located the motor intracavity, No. two through-hole front and back wall internal rotations are connected with No. four driven shafts, No. four driven shafts with No. three driven shafts are connected through No. three conveyer belts, be equipped with on No. two through-hole front and back sides and prevent that the glass piece from falling on slide on No. two through-hole downside, be equipped with in the cavity and erode drying device, it can be to being located to erode drying device carry out aftertreatment to the glass piece on No. three conveyer belts.

3. The medical glass sheet cleaning and sterilizing machine as claimed in claim 2, wherein: the flushing and drying device comprises a water faucet and a high-temperature dryer which are respectively arranged on the upper side and the lower side of the third conveying belt, the high-temperature dryer is located on the upper right side of the water faucet, the water faucet is communicated with a water source and can flow out purified water, and the high-temperature dryer can form high-temperature hot air flow.

4. The medical glass sheet cleaning and sterilizing machine as claimed in claim 3, wherein: the separating mechanism comprises a manifold block which is connected in the first sliding groove in a sliding manner, a threaded hole which is communicated with the left and right in the manifold block is arranged, a motor with three sides is arranged in the left side face of the first sliding groove, a threaded shaft which is connected with the threaded hole in a threaded manner is arranged on the right side face of the motor with three sides, a second sliding groove is arranged on the ring face of the threaded shaft, a ring groove is arranged in the ring face of the threaded hole, a cavity with three sides which is connected with the ring groove is communicated with the lower side face of the threaded hole, the cavity with three sides is communicated forwards, a gear is rotationally connected in the right side face of the ring groove, a driving block which extends into the second sliding groove is fixedly arranged on the inner ring of the gear, a rotating shaft is rotationally connected on the right side face of the cavity with one side, a gear which is meshed with the first gear is arranged on the rotating shaft, and a bevel gear is arranged at the left end of the rotating shaft, no. three cavity back wall internal rotation are connected with and extend to forward No. two axis of rotation in the cavity, be equipped with on No. two axis of rotation with No. two bevel gear meshing of a bevel gear, and be equipped with the friction pulley on No. two axis of rotation, the friction pulley is located No. one the cavity, and the distance between the downside of friction pulley and the side of going up of No. two conveyer belts is less than the thickness that two glass pieces were piled up.

5. The medical glass sheet cleaning and sterilizing machine as claimed in claim 4, wherein: the packaging device comprises a pneumatic rod arranged on the upper side of the second cavity, a pneumatic device capable of driving the pneumatic rod to move up and down is arranged in the upper side of the second cavity, a packaging block is fixedly arranged at the lower end of the pneumatic rod, a packaging cavity with a downward opening is arranged in the packaging block, a heat insulation block is connected in the packaging cavity in a vertical sliding manner, the heat insulation block is connected to the upper side of the packaging cavity through a plurality of second springs, a second electromagnet capable of repelling the heat insulation block is arranged on the upper side of the packaging cavity, a heat sealing knife combined into a rectangle is arranged on the lower side of the heat insulation block, an airtight groove is arranged in the lower side of the packaging block, the airtight groove is positioned in the outer ring of the packaging cavity, an airtight block is connected in the airtight groove in a vertical sliding manner, the airtight block cannot slide out of the airtight groove, and a third electromagnet capable of attracting the airtight block is arranged on the upper side of the airtight groove, and a feeding device for providing packaging materials is arranged on the disinfection cabinet.

6. The medical glass sheet cleaning and sterilizing machine as claimed in claim 5, wherein: the feeding device comprises four groups of supporting blocks arranged on the right side surface of the disinfection cabinet, a driving rod which can be driven by a fourth motor and a fifth motor is rotatably connected between the first group of supporting blocks and the third group of supporting blocks from top to bottom, a driven rod is rotatably connected between the second group of supporting blocks and the fourth group of supporting blocks, a plastic film is wound on the driven rod, a third through hole and a fourth through hole which penetrate into the second cavity leftwards are arranged in the right side surface of the disinfection cabinet, the third through hole is positioned on the upper side of the fourth through hole, a fifth through hole which penetrates through the disinfection cabinet rightwards is arranged in the right side surface of the second through hole, two first limiting rods are rotatably connected in the front and back walls of the second through hole, an upper film is separated from a plastic film roll on the driven rod positioned on the upper side, the upper film passes through the third through hole and passes through the fifth through hole rightwards after being wound on the two first limiting rods, last membrane is around being located the upside on the drive lever, be equipped with downwardly extending behind the left extension to the left in No. two cavity left walls to link up right finally No. six through-holes of sterilizer, No. six through-hole front and back wall internal rotation are connected with No. two gag lever posts, No. seven through-holes that link up about being equipped with in the spring are located the downside the plastic film on the driven lever rolls up and separates the lower membrane, the membrane passes through down No. four through-holes with No. seven through-holes and around two pass through right behind No. two gag lever posts No. six through-holes, finally the membrane is around being located the downside on the driven lever, be equipped with in No. two cavity back walls and cut the groove, cut the inslot be equipped with can be right go up the cutting device that the membrane cut.

7. The medical glass sheet cleaning and sterilizing machine as claimed in claim 6, wherein: the cutting device comprises a number six motor arranged in the rear wall of the cutting groove, a movable block is connected with the front and the back of the cutting groove in a sliding manner, a number two threaded shaft connected with the movable block in a threaded manner is mounted on the number six motor, a movable plate and a fixed plate are arranged on the front side surface of the number six motor, the fixed plate is connected with the lower side surface of the movable plate through a number three spring, a number four electromagnet capable of attracting the movable plate is arranged in the fixed plate, a through hole which is communicated up and down is arranged in the movable plate, a number one blade is arranged on the lower side surface of the movable plate, the number one blade is positioned on the outer ring of the through hole, a number one discharge port which is communicated up and down is arranged in the number one abutting plate, an abutting groove is arranged in the right side surface of the number one discharge port, a number two abutting plate is hinged on the left side surface of the number one discharge port, and a number four electromagnet capable of attracting the number two abutting plate is arranged on the upper side surface of the abutting groove, be equipped with the bin outlet of No. two that link up backward after downwardly extending in the downside of No. two cavities, the side of going up of a butt joint board is equipped with No. two blades, No. two blades are located the outer loop of a bin outlet.

8. The medical glass sheet cleaning and sterilizing machine as claimed in claim 7, wherein: a liquid discharge hole which is communicated downwards is formed in the lower side face of the first cavity, a ball valve is arranged in the liquid discharge hole, a workbench is arranged on the right side face of the tripod, and water which does not pass through the second conveying belt but is lower than the faucet is arranged in the first cavity.

9. The use method of the medical glass sheet cleaning and sterilizing machine as claimed in claim 8, which comprises the following steps: