CN115046836A

CN115046836A - Medical science inspection microorganism smear dyeing apparatus

Info

Publication number: CN115046836A
Application number: CN202210687922.9A
Authority: CN
Inventors: 袁吉振; 刘潇; 毕伟建; 赵�权
Original assignee: 971st Navy Hospital Of People 's Liberation Army Of China
Current assignee: 971st Navy Hospital Of People 's Liberation Army Of China
Priority date: 2022-06-16
Filing date: 2022-06-16
Publication date: 2022-09-13
Anticipated expiration: 2042-06-16
Also published as: CN115046836B

Abstract

The invention provides a medical examination microorganism smear dyeing device, and relates to the field of smear dyeing equipment. This based on medical science inspection microbial smear dyeing apparatus, including work box and micro-camera system, the inside of work box is provided with push mechanism, push mechanism's top is provided with vacuum adsorption mechanism, vacuum adsorption mechanism's bottom is provided with waste water collection mechanism, the left side of work box is provided with the dyeing wiper mechanism, the top rear portion of work box is provided with display mechanism, be provided with micro-camera system in the display mechanism. Through the synchronous operation of push mechanism, vacuum adsorption mechanism, waste water collection mechanism and dyeing wiper mechanism, the cooperation of mutually supporting makes the automation of microbial staining smear device realization microbial staining step, realizes the visualization of dyeing result through display mechanism and micro-camera system simultaneously, and the inspection personnel of being convenient for read relevant dyeing result at any time and interpret the dyeing result.

Description

Medical science inspection microorganism smear dyeing apparatus

Technical Field

The invention relates to the technical field of smear dyeing equipment, in particular to a medical examination microorganism smear dyeing device.

Background

In the process of detecting a microbial sample to be detected in a medical inspection stage, because micro-observed microbial cells are colorless and transparent and have no obvious color contrast with the background of a glass slide, the microbial cells are difficult to observe through a common optical microscope, and the microbial sample needs to be dyed in order to conveniently observe the microbial cells under the common optical microscope, so that the forms and the structures of the microbial cells can be clearly observed, the process is called as a microbial smear dyeing process, the microbial smear dyeing plays an important role in primary identification of pathogenic microbial strains, common dyeing methods comprise gram dyeing, acid-fast dyeing, weak acid-fast dyeing and the like, but the traditional manual method not only consumes time and is complex in operation, but also easily causes related problems of waste of dyeing reagents and the like, and needs to be correspondingly improved and adjusted, so as to adapt to the changeable and complicated medical examination procedures.

The existing microbial staining smear device can not realize the automation of the microbial staining step, and a special microscopic camera system is not arranged in the machine, so that the visualization of the staining result can not be realized, and the examination personnel can not conveniently read the related staining result at any time and judge the staining result.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a medical examination microbial smear dyeing device, which solves the problems that the conventional microbial smear dyeing device can not realize the automation of a microbial dyeing step, a special microscopic camera system is not arranged in a machine, the visualization of a dyeing result can not be realized, and an inspector can not read a related dyeing result at any time and can not judge the dyeing result conveniently.

In order to realize the purpose, the invention is realized by the following technical scheme: a medical examination microorganism smear dyeing apparatus comprises a work box and a microscopic camera system, wherein a pushing mechanism is arranged inside the work box, a vacuum adsorption mechanism is arranged at the top end of the pushing mechanism, a wastewater collection mechanism is arranged at the bottom end of the vacuum adsorption mechanism, a dyeing and cleaning mechanism is arranged on the left side of the work box, a display mechanism is arranged at the rear part of the top end of the work box, and the microscopic camera system is arranged in the display mechanism;

the dyeing cleaning mechanism comprises a second motor and a dyeing liquid tank, the output end of the second motor is fixedly connected with one end of a second threaded rod, the outer side of the second threaded rod is in threaded connection with a second slider, the top end of the second slider is fixedly connected with a flow divider, the front side and the rear side of the bottom end of the flow divider are respectively connected with one end of a second one-way valve through built-in pipelines, the other end of the second one-way valve is fixedly connected with a two-way nozzle, the top end of the flow divider is fixedly connected with one end of a first flexible hose, the other end of the first flexible hose is fixedly connected with the water outlet of a second water pump, the water inlet of the second water pump is communicated with the top end of a water tank through a rubber water pipe, the top end of the dyeing liquid tank is fixedly connected with one end of a connecting pipe, the other end of the connecting pipe is fixedly connected with the water inlet of a third water pump, and the water outlet of the third water pump is fixedly connected with one end of the second flexible hose, the other end of the second telescopic hose is fixedly connected to the left side of a third one-way valve, the bottom end of the third one-way valve is fixedly connected with a dyeing nozzle, and the top end of the third one-way valve is fixedly connected to the bottom end of a second sliding block;

the display mechanism comprises a rotating disk and a camera, a display device is fixedly connected to the top end of the rotating disk, alarm sounds are arranged on the left side and the right side of the display device, an alarm lamp is fixedly connected to the right side of the top end of the display device, and a display screen is arranged at the front end of the display device;

the micro-camera system comprises an independent power supply, a microcontroller, a monitoring sensing unit, a camera shooting transmission unit, a sensor, an alarm module, a dyeing feedback module, a display module, a wireless network module and a storage module, wherein the microcontroller is arranged in the independent power supply, the output end of the microcontroller is electrically connected with the monitoring sensing unit and the camera shooting transmission unit respectively, the output end of the monitoring sensing unit is electrically connected with the sensor, the alarm module and the dyeing feedback module respectively, and the output end of the camera shooting transmission unit is electrically connected with the display module, the wireless network module and the storage module respectively.

Preferably, push mechanism includes first motor, the output fixedly connected with action wheel of first motor, the action wheel passes through driving belt and links to each other from the driving wheel, the action wheel and the equal fixed connection in the one end of first threaded rod in the front end from the driving wheel, the equal threaded connection in the outside of first threaded rod has first slider, the top of first slider is fixed connection in the bottom left and right sides of bottom plate respectively.

Preferably, the vacuum adsorption mechanism includes the vacuum pump, the gas outlet fixedly connected with communicating pipe of vacuum pump, the left side equidistance of communicating pipe is provided with four first check valves, the equal fixed connection in the one end of first transmission pipe in the front and back side of first check valve, the equal fixedly connected with sucking disc of the other end of first transmission pipe, the equal fixedly connected with backup pad in top of first check valve, the equal fixedly connected with connecting plate in top left and right sides of backup pad, the equal fixedly connected with in top of connecting plate places the board, the middle part of placing the board all is provided with the draw-in groove, the equal fixedly connected with curb plate in left and right sides of placing the board.

Preferably, the wastewater collection mechanism includes the roof, the inside weeping board that all is provided with of side around the top of roof, the equal fixed passage mouth of the equal fixedly connected with in side around the bottom of roof, the equal oblique leak of the equal fixedly connected with in bottom of fixed passage mouth, the rear end the front end fixed connection of oblique leak is in the one end of second transmission pipe, the other end fixed connection of second transmission pipe is at the water inlet of first water pump, the delivery port fixed connection of first water pump is in the one end of third transmission pipe, the front end the rear end fixed connection of oblique leak is at the other end of third transmission pipe, the front end the bottom fixed connection of oblique leak has the water conservancy diversion mouth, the top outside of roof is provided with the edge board, the middle part equidistance of edge board is provided with three spacer plate.

Preferably, the front end lower part of the work box is rotatably connected with a sealing door, the upper part of the rear end of the sealing door is fixedly connected with a positive magnet, the front part of the inner wall of the top end of the work box is provided with a negative magnet, the rear part of the top end of the work box is fixedly connected with the top end of the rotating disk, and the inner wall of the rear end of the work box is provided with a camera.

Preferably, the top front portion of work box is provided with the second protective housing, the first protective housing of left end front side upper portion fixedly connected with of work box, the inside of first protective housing is provided with isolated board, the top fixedly connected with second motor of isolated board, the left end front side lower part fixedly connected with dyeing liquid case of work box, the right-hand member front side upper portion fixedly connected with water tank of work box, the top fixedly connected with U type frame of water tank, the other end of second threaded rod rotates the right side inner wall of connection at the work box.

Preferably, the equal fixed block of the left and right sides inner wall front portion of work box, the rear portion of fixed block all rotates with the other end of first threaded rod to be connected, the first motor of rear end inner wall left side fixedly connected with of work box, the rear end inner wall right side of work box rotates the one end of connecting at the dwang, the other end fixed connection of dwang is at the rear end from the driving wheel.

Preferably, the left side and the right side of the inner wall of the bottom end of the working box are respectively provided with a limiting plate, the bottom end inside the working box is provided with a waste water collecting box, and a water inlet of the waste water collecting box is communicated with the flow guide port.

The working principle is as follows: during the detection of the microbial sample to be detected in the medical examination stage, the microbial sample is dyed, a sealing door in the microbial smear dyeing device is firstly opened, then a first motor in a pushing mechanism drives a driving wheel to rotate, the driving wheel drives a driven wheel to synchronously move through a driving belt, the driving wheel and the driven wheel also drive a first threaded rod connected with the front part of the driving wheel and the driven wheel to move, the first threaded rod immediately drives a first sliding block in threaded connection to move, the first sliding block then drives a bottom plate connected with the top part of the first sliding block out of a work box, then an experimenter puts the microbial slide subjected to the drying step into a clamping groove in a placing plate, then a vacuum pump is started to carry out vacuum adsorption on the microbial slide placed in the clamping groove through the action of a vacuum pump, a communicating pipe, a first transmission pipe and two suckers, the stability of the microorganism glass slide in the subsequent dyeing stage is ensured, wherein the vacuum adsorption mechanism can control the number of the required vacuum adsorption mechanisms according to the use requirement through the action of a plurality of first check valves, the electric energy used by a vacuum pump is saved, after the vacuum adsorption mechanism finishes the adsorption operation, the bottom plate and the components on the bottom plate are sent into the work box again through the reverse operation of the pushing mechanism, the sealing door is closed, the microorganism glass slide to be dyed is positioned in a relatively closed work environment, the dyeing liquid and a water source are prevented from splashing, then, the second motor is started to drive the second threaded rod to rotate, the second threaded rod rotates to drive the second sliding block in threaded connection to move, the bottom end of the second sliding block is connected with a third check valve and a dyeing nozzle, the third check valve extracts the dyeing liquid from the dyeing liquid box through the action of a third water pump and a second telescopic hose, the microorganism glass slide placed in the feeding device is dripped with the dyeing liquid through the dyeing nozzle, after the dripping is finished, the microorganism glass slide is washed through the two-way nozzles arranged on the front side and the rear side of the second sliding block, the two-way nozzles on the front side and the rear side are connected with the flow divider through the built-in pipeline, the flow divider pumps the water source in the water tank through the action of the first flexible hose and the second water pump for the two-way nozzles to use, the two-way nozzles are also provided with the second one-way valve which is beneficial to accurately stopping water and preventing the water source from flowing back, in the whole pushing mechanism, the dyeing operation on the microorganism glass slide can be realized, the cleaning operation after the microorganism glass slide is dyed can also be realized, the dyeing and the cleaning are synchronously linked, the microorganism dyeing operation efficiency is improved, the mixed liquid of the dyeing liquid and the cleaning water source flows downwards through the water leakage plates on the front side and the rear side of the top plate and falls into respective inclined leakage openings through the fixed passage openings, the waste water collecting box is arranged below the front inclined leakage opening, so that the mixed liquid collected in the rear inclined leakage opening is transmitted into the front inclined leakage opening under the action of the first water pump, the second transmission pipe and the third transmission pipe, and the mixed liquid is transmitted into the waste water collecting box through the flow guide opening of the front inclined leakage opening to be collected and treated in a centralized manner The alarm module and the dyeing feedback module are used for feeding back the dyeing condition of the microorganism glass slide in real time, the alarm module is associated with an alarm lamp and an alarm sound in the display mechanism, the visibility and the audibility of alarm information are further improved, and the experimenter can quickly find problems, the display module and the wireless network module in the camera shooting transmission unit and the display screen in the display mechanism are used for transmitting information in real time through a wireless network, and the screen is thrown to facilitate the experimenter to observe the dyeing condition in the work box, the storage module is used for recording and backing up the experimental process in the whole dyeing stage to facilitate the experimenter to carry out subsequent experimental comparison and data analysis, finally, the display device can be rotated under the action of the rotating disk, so that the experimenter can conveniently run through the microorganism dyeing condition in different directions and can constantly, after the dyeing is finished, and taking out the microorganism glass slide, wiping off water, and carrying out an observation experiment under a microscope.

The invention provides a microbial smear dyeing device for medical examination. The method has the following beneficial effects:

1. the invention realizes the automation of the microorganism staining step of the microorganism staining smear device through the mutual cooperation and mutual cooperation of the transportation function of the pushing mechanism, the vacuum adsorption function of the vacuum adsorption mechanism on the microorganism slide glass, the collection function of the staining solution and water source mixed solution of the wastewater collection mechanism and the synchronous operation function of the staining and cleaning mechanism.

2. According to the invention, the microscopic camera system carried on the display mechanism is used for carrying out more detailed monitoring and information transmission on the microorganism glass slide in the dyeing stage, and meanwhile, the monitoring sensing unit and the camera shooting transfer unit in the microscopic camera system are used for feeding back the dyeing condition of the microorganism glass slide in real time, so that the visualization of the dyeing result is realized, and the relevant dyeing result can be conveniently read by an inspector at any time and interpreted by the inspector.

Drawings

FIG. 1 is a left side perspective view of the present invention;

FIG. 2 is a right side perspective view of the present invention;

FIG. 3 is a front view of the sealing door of the present invention;

FIG. 4 is a schematic view of the left side of the inside of the work box of the present invention;

FIG. 5 is a schematic view of the right side of the interior of the work box of the present invention;

FIG. 6 is a schematic top view of the waste water collecting mechanism of the present invention;

FIG. 7 is a schematic bottom view of the wastewater collection mechanism and the pushing mechanism of the present invention;

FIG. 8 is a schematic top view of the vacuum suction mechanism of the present invention;

FIG. 9 is a schematic bottom view of the vacuum suction mechanism of the present invention;

FIG. 10 is a schematic top view of the dyeing and cleaning mechanism of the present invention;

FIG. 11 is a right side view of the second slider according to the present invention;

fig. 12 is a schematic diagram of the architecture of the microscope imaging system of the present invention.

Wherein, 1, a work box; 2. a pushing mechanism; 201. a first motor; 202. a driving wheel; 203. a drive belt; 204. a driven wheel; 205. a first threaded rod; 206. a first slider; 207. a fixed block; 208. a base plate; 3. a vacuum adsorption mechanism; 301. a vacuum pump; 302. a communicating pipe; 303. a first check valve; 304. a first transfer tube; 305. a connecting plate; 306. a support plate; 307. a suction cup; 308. placing the plate; 309. a card slot; 310. a side plate; 4. a wastewater collection mechanism; 401. a top plate; 402. a water leakage plate; 403. fixing a crossing; 404. an inclined leakage opening; 405. a first water pump; 406. a second transfer pipe; 407. a third transfer pipe; 408. a flow guide port; 409. a wastewater collection tank; 5. a dyeing and cleaning mechanism; 501. a second motor; 502. a second threaded rod; 503. a second slider; 504. a flow divider; 505. a first flexible hose; 506. a second water pump; 507. a water tank; 508. a second check valve; 509. a bidirectional nozzle; 510. a dyeing liquid box; 511. a connecting pipe; 512. a third water pump; 513. a second flexible hose; 514. a third check valve; 515. a dyeing nozzle; 6. a display mechanism; 601. rotating the disc; 602. a display device; 603. an alarm sound box; 604. an alarm light; 605. a display screen; 606. a camera; 7. a microscopic camera system; 701. an independent power supply; 702. a microcontroller; 703. a monitoring sensing unit; 704. a camera transfer unit; 705. a sensor; 706. an alarm module; 707. a dyeing feedback module; 708. a display module; 709. a wireless network module; 710. a storage module; 8. a sealing door; 9. a positive magnet; 10. a negative magnet; 11. a first protective case; 12. an insulating panel; 13. a limiting plate; 14. an edge plate; 15. a spacing plate; 16. a U-shaped frame; 17. a second protective shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings 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 of the 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.

Example (b):

as shown in fig. 1-12, an embodiment of the present invention provides a medical examination microbial smear dyeing apparatus, including a work box 1 and a micro-camera system 7, a pushing mechanism 2 is disposed inside the work box 1, a vacuum absorbing mechanism 3 is disposed at a top end of the pushing mechanism 2, a waste water collecting mechanism 4 is disposed at a bottom end of the vacuum absorbing mechanism 3, a dyeing and cleaning mechanism 5 is disposed at a left side of the work box 1, a display mechanism 6 is disposed at a rear portion of a top end of the work box 1, the micro-camera system 7 is disposed in the display mechanism 6, the dyeing and cleaning mechanism 5 includes a second motor 501 and a dyeing liquid tank 510, an output end of the second motor 501 is fixedly connected to one end of a second threaded rod 502, a second slider 503 is threadedly connected to an outer side of the second threaded rod 502, a splitter 504 is fixedly connected to a top end of the second slider 503, front and rear sides of a bottom end of the splitter 504 are respectively connected to one end of a second check valve 508 through built-in pipes, the other ends of the second one-way valves 508 are fixedly connected with two-way nozzles 509, the top ends of the flow dividers 504 are fixedly connected to one end of a first telescopic hose 505, the other end of the first telescopic hose 505 is fixedly connected to a water outlet of a second water pump 506, a water inlet of the second water pump 506 is communicated with the top end of a water tank 507 through a rubber water pipe, the top end of a dyeing liquid tank 510 is fixedly connected to one end of a connecting pipe 511, the other end of the connecting pipe 511 is fixedly connected to a water inlet of a third water pump 512, a water outlet of the third water pump 512 is fixedly connected to one end of a second telescopic hose 513, the other end of the second telescopic hose 513 is fixedly connected to the left side of a third one-way valve 514, the bottom end of the third one-way valve 514 is fixedly connected with a dyeing nozzle 515, the top end of the third one-way valve 514 is fixedly connected to the bottom end of a second sliding block 503, the second threaded rod 502 is driven to rotate by a second motor 501, the rotation of the second threaded rod 502 drives the second sliding block 503 to move, the bottom end of the second sliding block 503 is connected with a third one-way valve 514 and a dyeing nozzle 515, the third one-way valve 514 extracts the dyeing liquid from the dyeing liquid tank 510 through the action of a third water pump 512 and a second flexible hose 513, the dyeing liquid is dripped into the microbial slide placed in the third one-way valve 514 through the dyeing nozzle 515, after the dripping is completed, the microbial slide is washed through two-way nozzles 509 arranged on the front side and the rear side of the second sliding block 503, the two-way nozzles 509 on the front side and the rear side are connected with the flow divider 504 through a built-in pipeline, the flow divider 504 extracts the water source in the water tank 507 for the two-way nozzles 509 to use through the action of the first flexible hose 505 and the second water pump 506, the second one-way valve 508 is also arranged on the two-way nozzles 509, which is beneficial to accurately stopping water and preventing the backflow of the water source, in the whole pushing mechanism 2, not only can realize the dyeing operation of the microbial slide, but also can realize the cleaning operation after the dyeing operation of the microbial slide, the dyeing and the cleaning are synchronously linked, so that the microbial dyeing operation efficiency is improved.

The display mechanism 6 comprises a rotating disk 601 and a camera 606, a display device 602 is fixedly connected to the top end of the rotating disk 601, alarm sounds 603 are arranged on the left side and the right side of the display device 602, an alarm lamp 604 is fixedly connected to the top end and the right side of the display device 602, a display screen 605 is arranged at the front end of the display device 602, the micro-camera system 7 comprises an independent power source 701, a microcontroller 702, a monitoring sensing unit 703, a camera shooting transmission unit 704, a sensor 705, an alarm module 706, a dyeing feedback module 707, a display module 708, a wireless network module 709 and a storage module 710, a microcontroller 702 is arranged in the independent power source 701, the output end of the microcontroller 702 is respectively and electrically connected with the monitoring sensing unit 703 and the camera shooting transmission unit 704, the output end of the monitoring sensing unit is respectively and electrically connected with the sensor 705, the alarm module 706 and the dyeing feedback module 707, and the output end of the camera shooting transmission unit 704 is respectively and electrically connected with the display module 703, The wireless network module 709 and the storage module 710 can clearly observe the staining condition in the work box 1 through the camera 606 in the staining and washing stage, and perform more detailed monitoring and information transmission on the microorganism slide glass in the staining stage through the microscope camera system 7 mounted on the display mechanism 6, the microscope camera system 7 has longer duration and higher observation efficiency through the independent power source 701 of the microscope camera system 7 and the function of the microcontroller 702, the microcontroller 702 is mounted with the monitoring sensing unit 703 and the camera transmission unit 704, the real-time feedback of the staining condition of the microorganism slide glass is facilitated through the functions of the sensor 705, the alarm module 706 and the staining feedback module 707 in the camera transmission unit 704, and the alarm module 706 is associated with the alarm lamp 604 and the alarm sound 603 in the display mechanism 6, so as to further improve the visible feedback of the alarm information, The audibility, help the experimenter to discover the problem fast, and the display module 708 and the wireless network module 709 in the transfer unit 704 of making a video recording and display screen 605 in the display mechanism 6 carry out the real-time transmission of information through wireless network, and throw the dyeing condition in the screen is convenient for the experimenter to observe work box 1, and memory module 710's effect lies in recording the backup with the experimental flow of whole dyeing stage, make things convenient for the experimenter to carry out follow-up experiment comparison and data analysis, and finally, display device 602 can rotate through the effect of rotary disk 601, make things convenient for the experimenter to be in different positions, also can run through the microorganism dyeing condition constantly.

The pushing mechanism 2 comprises a first motor 201, the output end of the first motor 201 is fixedly connected with a driving wheel 202, the driving wheel 202 is connected with a driven wheel 204 through a driving belt 203, the front ends of the driving wheel 202 and the driven wheel 204 are fixedly connected with one end of a first threaded rod 205, the outer side of the first threaded rod 205 is in threaded connection with a first sliding block 206, the top ends of the first sliding blocks 206 are respectively and fixedly connected with the left side and the right side of the bottom end of a bottom plate 208, the first motor 201 in the pushing mechanism 2 drives the driving wheel 202 to rotate, the driving wheel 202 then drives the driven wheel 204 to move synchronously through the driving belt 203, the driving wheel 202 and the driven wheel 204 also drive the first threaded rod 205 connected with the front part of the driving wheel to move, the movement of the first threaded rod 205 immediately drives the first sliding block 206 in threaded connection with the first threaded rod to move, and the first sliding block 206 then drives the bottom plate 208 connected with the top part of the first sliding block out of the working box 1.

The vacuum adsorption mechanism 3 comprises a vacuum pump 301, a communicating pipe 302 is fixedly connected to an air outlet of the vacuum pump 301, four first one-way valves 303 are equidistantly arranged on the left side of the communicating pipe 302, the front side and the rear side of each first one-way valve 303 are fixedly connected to one end of a first conveying pipe 304, the other end of each first conveying pipe 304 is fixedly connected with a sucker 307, the top ends of the first one-way valves 303 are fixedly connected with a supporting plate 306, the left side and the right side of the top end of the supporting plate 306 are fixedly connected with a connecting plate 305, the top end of the connecting plate 305 is fixedly connected with a placing plate 308, the middle part of the placing plate 308 is provided with a clamping groove 309, the left side and the right side of the placing plate 308 are fixedly connected with a side plate 310, firstly, an experimenter puts a microorganism slide which is subjected to a drying step into the clamping groove 309 in the placing plate 308, then, the vacuum adsorption mechanism 301 is started, and carries out vacuum adsorption on the microorganism slide which is placed in the clamping groove 309 under the action of the vacuum pump 301, the communicating pipe 302, the first conveying pipe 304 and the suckers 307, the stability of the microorganism glass slide in the subsequent dyeing stage is ensured, wherein the vacuum adsorption mechanism 3 can be controlled according to the use requirement under the action of the first one-way valves 303, so that the quantity of the required vacuum adsorption mechanisms 3 is controlled, and the electric energy used by the vacuum pump 301 is saved.

The wastewater collecting mechanism 4 comprises a top plate 401, water leakage plates 402 are arranged inside the front side and the rear side of the top end of the top plate 401, the front side and the rear side of the bottom end of the top plate 401 are fixedly connected with fixed crossing ports 403, the bottom end of the fixed crossing port 403 is fixedly connected with an inclined leakage port 404, the front end of the rear inclined leakage port 404 is fixedly connected with one end of a second transmission pipe 406, the other end of the second transmission pipe 406 is fixedly connected with a water inlet of a first water pump 405, a water outlet of the first water pump 405 is fixedly connected with one end of a third transmission pipe 407, the rear end of the front inclined leakage port 404 is fixedly connected with the other end of the third transmission pipe 407, the bottom end of the front inclined leakage port 404 is fixedly connected with a flow guide port 408, an edge plate 14 is arranged outside the top end of the top plate 401, three partition plates 15 are equidistantly arranged in the middle of the edge plate 14, mixed liquid formed by dyeing liquid and a cleaning water source flows downwards through the water leakage plates 402 on the front side and the rear side of the top plate 401 in the dyeing and cleaning stage, and fall into the respective inclined leakage openings 404 through the fixed passage openings 403, and because the waste water collection tank 409 is arranged below the front inclined leakage opening 404, the mixed liquid collected in the rear inclined leakage opening 404 is transferred into the front inclined leakage opening 404 through the action of the first water pump 405, the second transfer pipe 406 and the third transfer pipe 407, and the mixed liquid is transferred into the waste water collection tank 409 through the diversion opening 408 of the front inclined leakage opening 404 for centralized collection treatment.

The lower part of the front end of the working box 1 is rotatably connected with a sealing door 8, the upper part of the rear end of the sealing door 8 is fixedly connected with an anode magnet 9, the front part of the inner wall of the top end of the working box 1 is provided with a cathode magnet 10, the sealing door 8 can be opened and closed more conveniently and rapidly under the action of the anode magnet 9 and the cathode magnet 10, the rear part of the top end of the working box 1 is fixedly connected with the top end of a rotating disc 601, the display device 602 can be rotated and adjusted in different ranges under the rotating action of the rotating disc 601, the multi-view observation of experimenters is facilitated, the inner wall of the rear end of the working box 1 is provided with a camera 606, the front part of the top end of the working box 1 is provided with a second protective shell 17, the upper part of the front side of the left end of the working box 1 is fixedly connected with a first protective shell 11, partial mechanisms in the dyeing cleaning mechanism 5 are protected by the first protective shell 11 and the second protective shell 17, the first protective shell 11 is internally provided with an isolation plate 12, the top end of the isolation plate 12 is fixedly connected with a second motor 501, the inner space of the first protection shell 11 is divided by the isolation plate 12, the placement of the second motor 501 is convenient, the lower part of the front side of the left end of the working box 1 is fixedly connected with a dyeing liquid box 510, the upper part of the front side of the right end of the working box 1 is fixedly connected with a water box 507, the top end of the water box 507 is fixedly connected with a U-shaped frame 16, a second water pump 506 is convenient to fix through the U-shaped frame 16, the other end of the second threaded rod 502 is rotatably connected with the inner wall of the right side of the working box 1, the front parts of the inner walls of the left side and the right side of the working box 1 are both fixedly connected with a fixed block 207, the rear part of the fixed block 207 is both rotatably connected with the other end of the first threaded rod 205, the left side of the inner wall of the rear end of the working box 1 is fixedly connected with a first motor 201, the right side of the inner wall of the rear end of the working box 1 is rotatably connected with one end of a rotating rod, the other end of the rotating rod is fixedly connected with the rear end of a driven wheel 204, the side is provided with limiting plate 13 respectively about the bottom inner wall of work box 1, and the inside bottom of work box 1 is provided with waste water collection box 409, and waste water collection box 409's water inlet and water conservancy diversion mouth 408 intercommunication, through waste water collection box 409 and the relation of being connected of water conservancy diversion mouth 408, the waste water collection box 409 of being convenient for is demolishd, mixes liquid processing operation fast.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a medical science inspection microorganism smear dyeing apparatus, includes work box (1) and micro-camera system (7), its characterized in that: a pushing mechanism (2) is arranged inside the working box (1), a vacuum adsorption mechanism (3) is arranged at the top end of the pushing mechanism (2), a wastewater collection mechanism (4) is arranged at the bottom end of the vacuum adsorption mechanism (3), a dyeing and cleaning mechanism (5) is arranged on the left side of the working box (1), a display mechanism (6) is arranged at the rear part of the top end of the working box (1), and a micro-camera system (7) is arranged in the display mechanism (6);

the dyeing cleaning mechanism (5) comprises a second motor (501) and a dyeing liquid tank (510), the output end of the second motor (501) is fixedly connected to one end of a second threaded rod (502), the outer side of the second threaded rod (502) is in threaded connection with a second slider (503), the top end of the second slider (503) is fixedly connected with a flow divider (504), the front side and the rear side of the bottom end of the flow divider (504) are respectively connected with one end of a second one-way valve (508) through built-in pipelines, the other end of the second one-way valve (508) is fixedly connected with a two-way nozzle (509), the top end of the flow divider (504) is fixedly connected to one end of a first telescopic hose (505), the other end of the first telescopic hose (505) is fixedly connected to the water outlet of a second water pump (506), and the water inlet of the second water pump (506) is communicated with the top end of the water tank (507) through a rubber water pipe, the top end of the dyeing liquid tank (510) is fixedly connected to one end of a connecting pipe (511), the other end of the connecting pipe (511) is fixedly connected to a water inlet of a third water pump (512), a water outlet of the third water pump (512) is fixedly connected to one end of a second telescopic hose (513), the other end of the second telescopic hose (513) is fixedly connected to the left side of a third one-way valve (514), the bottom end of the third one-way valve (514) is fixedly connected with a dyeing nozzle (515), and the top end of the third one-way valve (514) is fixedly connected to the bottom end of a second sliding block (503);

the display mechanism (6) comprises a rotating disc (601) and a camera (606), a display device (602) is fixedly connected to the top end of the rotating disc (601), alarm sounds (603) are arranged on the left side and the right side of the display device (602), an alarm lamp (604) is fixedly connected to the right side of the top end of the display device (602), and a display screen (605) is arranged at the front end of the display device (602);

the microscopic camera system (7) comprises an independent power supply (701), a microcontroller (702), a monitoring sensing unit (703), a camera transmission unit (704), a sensor (705), an alarm module (706), a dyeing feedback module (707), a display module (708), a wireless network module (709) and a storage module (710), wherein the microcontroller (702) is arranged in the independent power supply (701), the output end of the microcontroller (702) is electrically connected with the monitoring sensing unit (703) and the camera transmission unit (704) respectively, the output end of the monitoring sensing unit (703) is electrically connected with the sensor (705), the alarm module (706) and the dyeing feedback module (707) respectively, and the output end of the camera transmission unit (704) is electrically connected with the display module (708), the wireless network module (709) and the storage module (710) respectively.

2. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: push mechanism (2) include first motor (201), the output fixedly connected with action wheel (202) of first motor (201), action wheel (202) link to each other with follow driving wheel (204) through drive belt (203), the equal fixed connection in the one end of first threaded rod (205) in front end of action wheel (202) and follow driving wheel (204), the equal threaded connection in the outside of first threaded rod (205) has first slider (206), the top of first slider (206) is fixed connection in the bottom left and right sides of bottom plate (208) respectively.

3. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: vacuum adsorption mechanism (3) are including vacuum pump (301), gas outlet fixedly connected with communicating pipe (302) of vacuum pump (301), the left side equidistance of communicating pipe (302) is provided with four first check valves (303), the equal fixed connection in one end of first transmission pipe (304) of side around first check valve (303), the equal fixedly connected with sucking disc (307) of the other end of first transmission pipe (304), the equal fixedly connected with backup pad (306) in top of first check valve (303), the equal fixedly connected with connecting plate (305) in top left and right sides of backup pad (306), the equal fixedly connected with in top of connecting plate (305) places board (308), the middle part of placing board (308) all is provided with draw-in groove (309), the equal fixedly connected with curb plate (310) in side about placing board (308).

4. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: the wastewater collecting mechanism (4) comprises a top plate (401), water leakage plates (402) are arranged inside the front side and the rear side of the top end of the top plate (401), the front side and the rear side of the bottom end of the top plate (401) are fixedly connected with fixed channel ports (403), the bottom end of each fixed channel port (403) is fixedly connected with an inclined leakage port (404), the front end of each inclined leakage port (404) is fixedly connected to one end of a second conveying pipe (406), the other end of each second conveying pipe (406) is fixedly connected to a water inlet of a first water pump (405), a water outlet of the first water pump (405) is fixedly connected to one end of a third conveying pipe (407), the rear end of each inclined leakage port (404) is fixedly connected to the other end of the third conveying pipe (407), a flow guide port (408) is fixedly connected to the bottom end of the inclined leakage port (404), and an edge plate (14) is arranged outside the top end of the top plate (401), the middle part of the edge plate (14) is equidistantly provided with three spacing plates (15).

5. The apparatus for staining a microbial smear in medical examination according to claim 1, wherein: the front end lower part of work box (1) rotates and is connected with sealing door (8), the rear end upper portion fixedly connected with positive magnet (9) of sealing door (8), the top inner wall front portion of work box (1) is provided with negative magnet (10), the top rear portion fixedly connected with of work box (1) is on the top of rotary disk (601), the rear end inner wall of work box (1) is provided with camera (606).

6. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: the utility model discloses a dyeing machine, including work box (1), top front portion of work box (1) is provided with second protective housing (17), the first protective housing of left end front side upper portion fixedly connected with (11) of work box (1), the inside of first protective housing (11) is provided with insulating board (12), the top fixedly connected with second motor (501) of insulating board (12), left end front side lower part fixedly connected with dyeing liquid case (510) of work box (1), the right-hand member front side upper portion fixedly connected with water tank (507) of work box (1), the top fixedly connected with U type frame (16) of water tank (507), the other end of second threaded rod (502) rotates the right side inner wall of connection at work box (1).

7. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: the utility model discloses a hydraulic power transmission device, including work box (1), the equal fixed connection of left and right sides inner wall front portion of work box (1) fixed block (207), the rear portion of fixed block (207) all rotates with the other end of first threaded rod (205) to be connected, the first motor of rear end inner wall left side fixedly connected with (201) of work box (1), the one end at the dwang is rotated on the rear end inner wall right side of work box (1), the other end fixed connection of dwang is at the rear end from driving wheel (204).

8. The apparatus for staining a microbial smear for medical examination according to claim 1, wherein: limiting plates (13) are respectively arranged on the left side and the right side of the inner wall of the bottom end of the working box (1), a waste water collecting box (409) is arranged at the bottom end inside the working box (1), and a water inlet of the waste water collecting box (409) is communicated with the flow guide port (408).