CN112229839A

CN112229839A - Biological cell mark microscopic detector

Info

Publication number: CN112229839A
Application number: CN202011115193.7A
Authority: CN
Inventors: 梁世淼
Original assignee: Guangzhou Jiyuan Biotechnology Co ltd
Current assignee: Guangzhou Jiyuan Biotechnology Co ltd
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-01-15

Abstract

The invention discloses a biological cell mark microscopic detector, which comprises a placement block, wherein a placement cavity with a leftward opening is arranged in the placement block, a sampling mechanism is arranged in the placement cavity, the sampling mechanism comprises a fixed slide rail fixedly connected with the inner wall of the lower side of the placement cavity, a moving motor in sliding connection is arranged on the fixed slide rail, a lifting fixed block in fixed connection is arranged on the upper end surface of the moving motor, and a lifting chute with an upward opening is arranged in the lifting fixed block. Not only improves the efficiency, but also reduces the pollution of the detection sample.

Description

Biological cell mark microscopic detector

Technical Field

The invention relates to the field of biological detection, in particular to a biological cell marker microscopic detector.

Background

The microscopic detector is an optical instrument which utilizes optics to amplify tiny organisms such as biological cells to the extent that the tiny organisms can be seen by naked eyes, is a mark of human entering atomic times, can detect the tiny organisms by collecting body fluid or tissues such as biological blood and the like and observing cells after amplifying the body fluid or the tissues, however, the prior biological cell microscopic detector needs to sample the human blood and the like in a manual mode firstly in use, then manufacture a slide specimen and then place the slide specimen on a detection instrument for detection, so that the sample is easy to pollute, the efficiency is reduced, and the time is wasted.

Disclosure of Invention

The invention aims to provide a biological cell marker microscopic detector, which solves the problem that a slide sample needs to be manually made before biological cell detection.

The invention is realized by the following technical scheme.

The invention relates to a biological cell mark microscopic detector, which comprises an arranging block, wherein an arranging cavity with a leftward opening is arranged in the arranging block, a sampling mechanism is arranged in the arranging cavity and comprises a fixed slide rail fixedly connected with the inner wall of the lower side of the arranging cavity, a moving motor in sliding connection is arranged on the fixed slide rail, a lifting fixed block in fixed connection is arranged on the upper end surface of the moving motor, a lifting slide groove with an upward opening is arranged in the lifting fixed block, a lifting slide block in sliding connection is arranged in the lifting slide groove, a lifting rotating shaft in rotating connection is arranged on the lifting slide block, a sector gear shaft in rotating connection is arranged on the moving motor, the two sector gear shafts are bilaterally symmetrical relative to the moving motor, a rack in fixed connection is arranged on the fixed slide rail, and a sector gear in fixed connection is arranged on the, the sector gear can be meshed with the rack, a connecting rod rotating shaft which is connected in a rotating way is arranged on the sector gear, a lifting connecting rod which is connected in a rotating way is arranged on the connecting rod rotating shaft, the lifting connecting rod is connected with the lifting rotating shaft in a rotating way, a lifting sucker which is fixedly connected is arranged on the lifting sliding block, a detection glass sheet which is connected with the sucker is arranged on the lifting sucker, a hand stretching groove is arranged on the inner wall of the left side of the placing cavity, a sampling motor which is fixedly connected is arranged on the inner wall of the left side of the placing cavity, a motor starting switch which is fixedly connected is arranged on the lower end face of the sampling motor, a baffle block sliding groove with a downward opening is arranged in the motor starting switch, a motor starting switch which is fixedly connected is arranged on the motor starting switch, and a, the lower end face of the stop block slide bar is provided with a fixedly connected hand stop block, the upper end face of the sampling motor is provided with a sampling motor telescopic shaft in sliding connection, the sampling motor telescopic shaft is provided with a fixedly connected sampling rotating motor, the sampling rotating motor is in sliding connection with the mounting block, the right end face of the sampling rotating motor is provided with a sampling rotating motor shaft in rotating connection, the sampling rotating motor shaft is provided with a fixedly connected pricking needle clamping fixed block, the pricking needle clamping fixed block is provided with a fixedly connected pricking needle clamping motor, the pricking needle clamping motor is provided with a rotatably connected pricking needle clamping motor shaft, the pricking needle clamping motor shaft is provided with a fixedly connected pricking needle clamping reel, the pricking needle clamping fixed block is provided with a clamping fixed spring, the clamping fixed spring is internally provided with a fixedly connected pricking needle clamping spring, and the pricking needle clamping springs are provided with two bilateral, the pricking needle clamping motor is characterized in that pricking needle clamping blocks which are connected in a sliding mode are arranged on the clamping and fixing springs, the pricking needle clamping springs are fixedly connected with the pricking needle clamping blocks, the pricking needle clamping blocks are bilaterally symmetrical to the pricking needle clamping motor, a clamping pricking needle is arranged on each pricking needle clamping block, a waste pricking needle taking-out port is arranged at the upper end of the arranging cavity, the waste pricking needle taking-out port and the pricking needle clamping motor are located at the same vertical position, a fixedly connected pricking needle conveying motor is arranged on the inner wall of the upper side of the arranging cavity, a pricking needle fixing sliding groove with a front opening is formed in each pricking needle conveying motor, a plurality of pricking needles are arranged in each pricking needle fixing sliding groove, a fixedly connected pricking needle conveying motor is arranged on the inner wall of the rear side of each pricking needle fixing sliding groove, the pricking pin conveying motor is characterized in that a pricking pin conveying reel is fixedly connected to a shaft of the pricking pin conveying motor, a pricking pin conveying spring is fixedly connected to the inner wall of the rear side of the pricking pin fixing sliding groove, the pricking pin conveying spring is vertically symmetrical to the pricking pin conveying motor, a pricking pin conveying push plate is slidably connected to the pricking pin fixing sliding groove, the pricking pin conveying push plate is fixedly connected to the pricking pin conveying spring, and the pricking pin conveying reel is fixedly connected to the pricking pin conveying push plate through a winding wire;

a detection mechanism is arranged in the placing cavity, the detection mechanism comprises a microscopic detector fixedly connected with the placing block, a sampling slide supporting table is arranged in the placing cavity, a fixedly connected supporting table moving motor is arranged on the sampling slide supporting table, a rotatably connected moving motor shaft is arranged on the supporting table moving motor, a fixedly connected supporting table moving gear is arranged on the moving motor shaft, the supporting table moving gear is fixedly connected with the fixed slide rail, a fixedly connected slide moving motor is arranged on the sampling slide supporting table, a rotatably connected driving transmission shaft is arranged on the slide moving motor, a fixedly connected driving transmission wheel is arranged on the driving transmission shaft, a transmission belt in frictional and rotational connection is arranged on the driving transmission wheel, a fixedly connected slide moving driving wheel is arranged on the driving transmission shaft, the sampling slide supporting platform is provided with a driven transmission shaft in rotating connection, the driven transmission shaft is provided with a driven transmission wheel in fixed connection, the driven transmission wheel is in frictional and rotating connection with the transmission belt, and the driven transmission shaft is provided with a slide moving driven wheel in fixed connection.

Preferably, sampling mechanism still include with settle chamber right side inner wall fixed connection's hydraulic press, be equipped with fixed connection's hydraulic oil transport block on the hydraulic press, hydraulic oil transport block about two of symmetry around the hydraulic press is equipped with, be equipped with the hydraulic oil conveyer trough in the hydraulic press, be equipped with fixed connection's extension spring in the hydraulic oil conveyer trough, be equipped with sliding connection's extrusion slide bar in the hydraulic oil conveyer trough, the extrusion slide bar with extension spring fixed connection, be equipped with fixed connection's extrusion connecting block on the extrusion slide bar, it is equipped with fixed connection's burette fixed block to settle chamber right side inner wall, be equipped with sliding connection's burette on the burette fixed block, it takes out the mouth to settle and be equipped with the burette on the block, the burette take out.

Preferably, the sampling mechanism further comprises a mounting block pushing motor hinged with the inner wall of the right side of the mounting cavity, the mounting block pushing motor is provided with a mounting block pushing shaft in sliding connection, the inner wall of the right side of the mounting cavity is provided with a mounting block supporting rod in fixed connection, the mounting block supporting rod is provided with a mounting block rotating shaft in rotating connection, the mounting block rotating shaft is provided with a fixedly connected cover plate mounting cavity, the cover plate mounting cavity is provided with a pushing chute with a rightward opening, the pushing chute is internally provided with a pushing slide block in sliding connection, the pushing slide block is hinged with the mounting block pushing shaft, the cover plate mounting block is provided with a cover plate mounting cavity with an upward opening, the inner wall of the lower side of the cover plate mounting cavity is provided with a fixedly connected cover plate supporting motor, the cover plate supporting motor is provided with a fixedly connected gravity sensor, and the cover plate supporting winding shaft, the cover plate supports and is equipped with fixed connection's cover plate on the spool and supports the reel, the cover plate is settled chamber downside inner wall and is equipped with fixed connection's cover plate supporting spring, cover plate supporting spring about the cover plate supports two that the motor was equipped with bilateral symmetry, the cover plate is settled the intracavity and is equipped with sliding connection's cover plate supporting slide, cover plate supporting slide with cover plate supporting spring fixed connection, cover plate supporting slide with the cover plate supports the reel and passes through winding line fixed connection.

The invention has the beneficial effects that: according to the invention, the finger is stretched into the device to collect and sample blood of the finger for multiple times, and after sampling, the preparation of the sampling slide is carried out to prepare for the subsequent biological cell marker detection.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

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

FIG. 2 is a schematic view of the direction of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is an enlarged schematic view of the embodiment of the present invention at C in FIG. 2;

FIG. 5 is a schematic diagram of the orientation of D-D in FIG. 2 according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of the directions of E-E in FIG. 4 according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The microscopic biological cell marker detector described with reference to fig. 1-6 comprises a placement block 10, a placement cavity 11 with a left opening is provided in the placement block 10, a sampling mechanism 90 is provided in the placement cavity 11, the sampling mechanism 90 comprises a fixed slide rail 12 fixedly connected to the inner wall of the lower side of the placement cavity 11, a sliding connection moving motor 14 is provided on the fixed slide rail 12, a fixed connection lifting fixing block 15 is provided on the upper end surface of the moving motor 14, a lifting slide groove 16 with an upward opening is provided in the lifting fixing block 15, a sliding connection lifting slide block 18 is provided in the lifting slide groove 16, a rotatably connected lifting rotating shaft 13 is provided on the lifting slide block 18, a rotatably connected sector gear shaft 75 is provided on the moving motor 14, two sector gear shafts 75 are provided with bilateral symmetry with respect to the moving motor 14, the fixed slide rail 12 is provided with a fixedly connected rack 76, the sector gear shaft 75 is provided with a fixedly connected sector gear 74, the sector gear 74 can be meshed with the rack 76, the sector gear 74 is provided with a rotatably connected connecting rod rotating shaft 73, the connecting rod rotating shaft 73 is provided with a rotatably connected lifting connecting rod 72, the lifting connecting rod 72 is rotatably connected with the lifting rotating shaft 13, the lifting slider 18 is provided with a fixedly connected lifting sucker 19, the lifting sucker 19 is provided with a sucker connected detection slide 20, the left inner wall of the placement cavity 11 is provided with a hand stretching groove 21, the left inner wall of the placement cavity 11 is provided with a fixedly connected sampling motor 27, the lower end face of the sampling motor 27 is provided with a fixedly connected motor start switch 26, the motor start switch 26 is provided with a stop 24 with a downward opening, a fixedly connected motor starting switch 26 is arranged on the inner wall of the upper side of the stop block sliding groove 24, a fixedly connected stop block supporting spring 25 is arranged on the motor starting switch 26, a slidably connected stop block sliding rod 23 is arranged in the stop block sliding groove 24, a fixedly connected hand stop block 22 is arranged on the lower end face of the stop block sliding rod 23, a slidably connected sampling motor telescopic shaft 28 is arranged on the upper end face of the sampling motor 27, a fixedly connected sampling rotating motor 29 is arranged on the sampling motor telescopic shaft 28, the sampling rotating motor 29 is slidably connected with the mounting block 10, a rotatably connected sampling rotating motor shaft 30 is arranged on the right end face of the sampling rotating motor 29, a fixedly connected puncture needle clamping fixed block 35 is arranged on the sampling rotating motor shaft 30, a fixedly connected puncture needle clamping motor 36 is arranged on the puncture needle clamping fixed block 35, and a rotatably connected puncture needle clamping motor shaft 37 is arranged on the clamping motor, the pricking needle clamping motor shaft 37 is provided with a fixedly connected pricking needle clamping reel 38, the pricking needle clamping fixing block 35 is provided with a clamping fixing spring 39, the clamping fixing spring 39 is internally provided with a fixedly connected pricking needle clamping spring 88, the pricking needle clamping spring 88 is provided with two bilaterally symmetrical needles relative to the lifting chute 16, the clamping fixing spring 39 is provided with a slidably connected pricking needle clamping block 40, the pricking needle clamping spring 88 is fixedly connected with the pricking needle clamping block 40, the pricking needle clamping block 40 is provided with two bilaterally symmetrical needles relative to the pricking needle clamping motor 36, the pricking needle clamping block 40 is provided with a clamped pricking needle 34, the upper end of the arranging cavity 11 is provided with a waste pricking needle taking-out port 71, the waste pricking needle taking-out port 71 and the pricking needle clamping motor 36 are positioned at the same vertical position, and the inner wall of the upper side of the arranging cavity 11, the needle conveying motor 66 is internally provided with a needle fixing chute 33 with a front opening, the needle fixing chute 33 is internally provided with a needle 34 which is connected in a sliding way, the pricking needles 34 are arranged in a plurality of pricking needle fixing chutes 33, the inner wall of the rear side of the pricking needle fixing chute 33 is provided with a pricking needle conveying motor 66 which is fixedly connected, a needle conveying motor shaft 67 which is connected in a rotating way is arranged on the needle conveying motor 66, a needle conveying reel 68 which is fixedly connected is arranged on the needle conveying motor shaft 67, the rear inner wall of the needle fixing sliding groove 33 is provided with fixedly connected needle conveying springs 65, the needle conveying springs 65 are provided with two needle conveying motors 66 which are symmetrical up and down, a needle conveying push plate 69 which is connected in a sliding way is arranged in the needle fixing slide groove 33, the needle conveying push plate 69 is fixedly connected with the needle conveying spring 65, the needle conveying reel 68 and the needle conveying push plate 69 are fixedly connected through a winding wire;

the device is characterized in that a detection mechanism 91 is arranged in the mounting cavity 11, the detection mechanism 91 comprises a microscopic detector 53 fixedly connected with the mounting block 10, a sampling slide supporting table 41 is arranged in the mounting cavity 11, a fixedly connected supporting table moving motor 50 is arranged on the sampling slide supporting table 41, a rotatably connected moving motor shaft 52 is arranged on the supporting table moving motor 50, a fixedly connected supporting table moving gear 51 is arranged on the moving motor shaft 52, the supporting table moving gear 51 is fixedly connected with the fixed slide rail 12, a fixedly connected slide moving motor 42 is arranged on the sampling slide supporting table 41, a rotatably connected driving transmission shaft 46 is arranged on the slide moving motor 42, a fixedly connected driving transmission wheel 45 is arranged on the driving transmission shaft 46, and a transmission belt 44 in friction and rotation connection is arranged on the driving transmission wheel 45, the driving transmission shaft 46 is provided with a fixedly connected slide moving driving wheel 43, the sampling slide supporting platform 41 is provided with a rotatably connected driven transmission shaft 49, the driven transmission shaft 49 is provided with a fixedly connected driven transmission wheel 48, the driven transmission wheel 48 is in frictional and rotary connection with the transmission belt 44, and the driven transmission shaft 49 is provided with a fixedly connected slide moving driven wheel 47.

Advantageously, the sampling mechanism 90 further comprises a hydraulic press 17 fixedly connected to the inner wall of the right side of the housing chamber 11, the hydraulic press 17 is provided with a hydraulic oil conveying block 77 which is fixedly connected, the hydraulic oil conveying block 77 is provided with two hydraulic oil conveying blocks which are symmetrical in front and back relative to the hydraulic press 17, a hydraulic oil conveying groove 78 is arranged in the hydraulic machine 17, an extension spring 79 fixedly connected is arranged in the hydraulic oil conveying groove 78, an extrusion sliding rod 80 which is connected in a sliding manner is arranged in the hydraulic oil conveying groove 78, the extrusion sliding rod 80 is fixedly connected with the extension spring 79, the extrusion slide bar 80 is provided with an extrusion connecting block 81 which is fixedly connected, the inner wall of the right side of the arrangement cavity 11 is provided with a burette fixing block 64 which is fixedly connected, the dropper fixing block 64 is provided with a dropper 82 in sliding connection, the mounting block 10 is provided with a dropper outlet 70, and the dropper outlet 70 and the dropper 82 are located at the same vertical position.

Beneficially, the sampling mechanism 90 further comprises a placement block pushing motor 84 hinged to the inner wall of the right side of the placement cavity 11, the placement block pushing motor 84 is provided with a slidably connected placement block pushing shaft 85, the inner wall of the right side of the placement cavity 11 is provided with a fixedly connected placement block supporting rod 62, the placement block supporting rod 62 is provided with a rotatably connected placement block rotating shaft 63, the placement block rotating shaft 63 is provided with a fixedly connected cover sheet placement cavity 55, the cover sheet placement cavity 55 is provided with a pushing chute 86 with an opening facing to the right, the pushing chute 86 is provided with a slidably connected pushing slider 87, the pushing slider 87 is hinged to the placement block pushing shaft 85, the cover sheet placement block 54 is provided with a cover sheet placement cavity 55 with an upward opening, the inner wall of the lower side of the cover sheet placement cavity 55 is provided with a fixedly connected cover sheet supporting motor 61, the cover sheet supporting motor 61 is provided with a fixedly connected gravity sensor 83, the cover plate supports and is equipped with the cover plate that rotates the connection on the motor 61 and supports spool 60, the cover plate supports the cover plate that is equipped with fixed connection on the spool 60 and supports reel 59, the cover plate is settled chamber 55 downside inner wall and is equipped with fixed connection's cover plate supporting spring 58, cover plate supporting spring 58 about the cover plate supports motor 61 and is equipped with two of bilateral symmetry, the cover plate is settled and is equipped with sliding connection's cover plate support slider 57 in the chamber 55, cover plate support slider 57 with cover plate supporting spring 58 fixed connection, cover plate support slider 57 with the cover plate supports reel 59 and passes through winding line fixed connection.

In the initial state, the stopper support spring 25 is in the normal state, the rack 76 and the sector gear 74 are not engaged with each other, the lifting slider 18 is located at the lowermost end of the lifting chute 16, the cover plate support spring 58 is in the compressed state, the lancet feeding spring 65 is in the compressed state, the extension spring 79 is in the normal state, the lancet holding block 40 holds the lancet 34, the lancet holding spring 88 is in the compressed state, and the lancet holding block 40 holds the lancet 34.

A finger is inserted into the placing cavity 11 through the finger inserting groove 21, the finger is upward, along with the continuous insertion of the finger, the hand stop 22 is continuously pushed, the hand stop 22 moves upward, the hand stop 22 drives the stop slide rod 23 to move upward, when the stop slide rod 23 contacts with the motor start switch 26, the finger reaches a position to be sampled, at this time, the sampling motor 27 is started, the sampling motor 27 drives the sampling motor telescopic shaft 28 to move downward, the sampling motor telescopic shaft 28 drives the sampling rotating motor 29 to move downward, the sampling rotating motor 29 drives the sampling rotating motor shaft 30 to move downward, the sampling rotating motor shaft 30 drives the puncture needle clamping fixing block 35 to move downward, the puncture needle clamping fixing block 35 drives the puncture needle 34 to move downward, the puncture needle 34 is pricked on a finger and is punctured to enable blood to flow out, at the moment, the sampling motor telescopic shaft 28 moves upwards, the sampling motor telescopic shaft 28 drives the puncture needle clamping fixing block 35 to return to an initial position, at the moment, the finger rotates one hundred eighty degrees, the finger faces downwards, at the moment, the moving motor 14 is started, the moving motor 14 drives the sector gear shaft 75 to rotate, the sector gear shaft 75 drives the sector gear 74 to rotate, the sector gear 74 drives the connecting rod rotating shaft 73 to rotate, the connecting rod rotating shaft 73 drives the lifting connecting rod 72 to move upwards, the lifting connecting rod 72 drives the lifting rotating shaft 13 to move upwards, the lifting rotating shaft 13 drives the lifting slide block 18 to move upwards, the lifting slide block 18 drives the lifting suction cup 19 to move upwards, and the lifting suction cup 19 drives the detection slide 20 to move upwards, the upper end face of the detection slide 20 is contacted with fingers, so that blood flowing out from the fingers is adhered to the upper end face of the detection slide 20, the sector gear shaft 75 continues to rotate to drive the sector gear 74 to rotate, the sector gear 74 drives the connecting rod rotating shaft 73 to move downwards, the connecting rod rotating shaft 73 drives the lifting connecting rod 72 to move downwards, the lifting connecting rod 72 drives the lifting rotating shaft 13 to move downwards, the lifting rotating shaft 13 drives the lifting slide block 18 to move downwards, the lifting slide block 18 drives the lifting suction cup 19 to move downwards, the lifting suction cup 19 drives the detection slide 20 to move downwards, the detection slide 20 is separated from the fingers, at this time, the sector gear 74 is meshed with the rack 76, the sector gear 74 drives the moving motor 14 to move backwards, and the moving motor 14 drives the lifting fixing block 15 to move backwards, the lifting fixing block 15 drives the lifting slide block 18 to move backwards, the lifting slide block 18 drives the lifting suction cup 19 to move backwards, the lifting suction cup 19 drives the test slide 20 to move backwards, when the rack 76 is disengaged from the rack 76, the test slide 20 moves backwards for a certain distance, at this time, the connecting rod rotating shaft 73 drives the lifting connecting rod 72 to move upwards again, so that the test slide 20 samples finger blood, the process is repeated until the finger blood is sampled for three times, meanwhile, the sampling rotating motor 29 is started, the sampling rotating motor 29 drives the sampling rotating motor shaft 30 to rotate, the sampling rotating motor shaft 30 drives the puncture needle clamping fixing block 35 to rotate, the puncture needle clamping fixing block 35 drives the puncture needle 34 to rotate by one hundred eighty degrees, and at this time, the puncture needle clamping motor 36 is started, the needle clamping motor 36 drives the needle clamping motor shaft 37 to rotate, the needle clamping motor shaft 37 drives the needle clamping reels 38 to rotate, the winding wires on the needle clamping reels 38 are tightened, at the moment, the needle clamping blocks 40 move towards two sides, the needles 34 are not clamped any more, the needles 34 are taken out through the waste needle taking-out opening 71, after the needles are taken out, the needle conveying motor 66 is started, the needle conveying motor 66 drives the needle conveying motor shaft 67 to rotate, the needle conveying motor shaft 67 drives the needle conveying reels 68 to rotate, the winding wires on the needle conveying reels 68 are loosened, and due to the elastic force of the needle conveying spring 65, the needle conveying push plate 69 moves forwards to push the new needles 34 to move forwards, so that the new needles 34 are clamped in the needle clamping blocks 40, at the moment, the puncture needle clamping motor 36 is started, so that the puncture needle clamping block 40 clamps a new puncture needle 34 to prepare for next sampling, meanwhile, the sector gear 74 drives the moving motor 14 to move backwards, the moving motor 14 drives the lifting fixing block 15 to move backwards, the lifting fixing block 15 drives the lifting sliding block 18 to move backwards, the lifting sliding block 18 drives the lifting sucking disc 19 to move backwards, the lifting sucking disc 19 drives the detection slide 20 to move backwards, when the blood sampling position on the detection slide 20 and the dropper 82 are at the same vertical position, the hydraulic machine 17 is started, the hydraulic machine 17 injects hydraulic oil into the hydraulic oil conveying groove 78, the hydraulic oil conveying groove 78 pushes the extrusion sliding rod 80 to be close to a section of distance, and the extrusion sliding rod 80 pushes the extrusion connecting block 81 to be close to a section of distance, the squeezing connecting block 81 squeezes the dropper 82 to drop observation liquid onto the detection slide 20, because the detection slide 20 is provided with three sampling points, the hydraulic press 17 is intermittently started three times along with the backward movement of the detection slide 20 until all the three sampling points on the detection slide 20 are dropped with observation liquid, the moving motor 14 continues to move backward, when the first sampling point on the detection slide 20 and the cover plate arranging cavity 55 are at the same vertical position, the movement is stopped, the arranging block pushing motor 84 is started, the arranging block pushing motor 84 drives the arranging block pushing shaft 85 to move leftward, the arranging block pushing shaft 85 drives the pushing slide block 87 to slide downward, and meanwhile, the pushing slide block 87 drives the cover plate arranging block 54 to rotate around the arranging block supporting rod 62 to incline for a certain angle, so that the cover plate 56 slides downward, and the first sampling point can be covered, at this time, the setting block pushing motor 84 is reversely started to vertically set the cover sheet setting block 54, the cover sheet supporting motor 61 is started due to the action of the gravity sensor 83, the cover sheet supporting motor 61 drives the cover sheet supporting spool 60 to rotate, the cover sheet supporting spool 60 drives the cover sheet supporting reel 59 to rotate, the winding wire on the cover sheet supporting reel 59 is loosened, the cover sheet supporting slider 57 moves upwards due to the elastic force of the cover sheet supporting spring 58, the cover sheet supporting slider 57 pushes the cover sheet 56 to move upwards, when the first sampling point on the detection slide 20 is covered, the moving motor 14 is started to continue moving backwards, so that the second sampling point on the detection slide 20 is at the same vertical position as the cover sheet setting cavity 55, the placing block pushing motor 84 is started again, so that the cover plate 56 covers the second sampling point of the detection slide 20, the movement is repeated until all the sampling points on the detection slide 20 are covered, the moving motor 14 continues to move backwards, the moving motor 14 drives the detection slide 20 to move backwards, when the detection slide 20 moves backwards to the same horizontal position as the sampling slide support 41, the support moving motor 50 is started, the support moving motor 50 drives the moving motor shaft 52 to rotate, the moving motor shaft 52 drives the support moving gear 51 to rotate, because the support moving gear 51 is meshed with the fixed slide rail 12, the moving motor shaft 52 drives the sampling slide support 41 to move forwards, and the sampling slide support 41 drives the slide moving motor 42 to move forwards, the slide moving motor 42 drives the slide moving driving wheel 43 to move forward, the slide moving driven wheel 47 is driven by the slide sampling support table 41 to move forward, so that the slide moving driven wheel 47 is positioned at the lower side of the slide 20, at this time, the slide moving motor 42 is started, the slide moving motor 42 drives the driving transmission shaft 46 to rotate, the driving transmission shaft 46 drives the driving transmission wheel 45 to rotate, the driving transmission wheel 45 drives the transmission belt 44 to rotate in a friction manner, the transmission belt 44 drives the driven transmission wheel 48 to rotate in a friction manner, the driven transmission wheel 48 drives the driven transmission shaft 49 to rotate in a friction manner, the driven transmission shaft 49 drives the slide moving driven wheel 47 to rotate, and as the slide moving driven wheel 47 is in mutual contact with the lower end surface of the slide 20, the slide moving driven wheel 47 drives the slide 20 to move backward, at this time, the lifting suction cup 19 no longer holds the lifting suction cup 19, the detection slide 20 slides on the upper end surface of the sampling slide support platform 41, so that the detection slide 20 is placed on the sampling slide support platform 41, at this time, the support platform moving motor 50 is started, the support platform moving motor 50 drives the moving motor shaft 52 to rotate in the reverse direction, the moving motor shaft 52 drives the support platform moving gear 51 to rotate in the reverse direction, the support platform moving gear 51 drives the sampling slide support platform 41 to return to the initial position, so that the microscopic detection instrument 53 can detect the sampling on the detection slide 20.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A biological cell mark microscopic detector comprises a mounting block, and is characterized in that: the device is characterized in that a mounting cavity with an opening facing left is arranged in the mounting block, a sampling mechanism is arranged in the mounting cavity and comprises a fixed slide rail fixedly connected with the inner wall of the lower side of the mounting cavity, a sliding-connected moving motor is arranged on the fixed slide rail, a fixedly-connected lifting fixed block is arranged on the upper end surface of the moving motor, a lifting slide groove with an upward opening is arranged in the lifting fixed block, a lifting slide block in sliding connection is arranged in the lifting slide groove, a lifting rotating shaft in rotating connection is arranged on the lifting slide block, a sector gear shaft in rotating connection is arranged on the moving motor, the sector gear shaft is provided with two bilaterally symmetrical parts relative to the moving motor, a fixedly-connected rack is arranged on the fixed slide rail, a fixedly-connected sector gear is arranged on the sector gear shaft, the fan-shaped gear is provided with a connecting rod rotating shaft which is rotationally connected, the connecting rod rotating shaft is provided with a lifting connecting rod which is rotationally connected, the lifting connecting rod is rotationally connected with the lifting rotating shaft, the lifting sliding block is provided with a lifting sucker which is fixedly connected, the lifting sucker is provided with a detection slide which is connected with the sucker, the inner wall of the left side of the placement cavity is provided with a hand stretching groove, the inner wall of the left side of the placement cavity is provided with a sampling motor which is fixedly connected, the lower end surface of the sampling motor is provided with a motor starting switch which is fixedly connected, a stop block sliding groove with a downward opening is arranged in the motor starting switch, the upper side inner wall of the stop block sliding groove is provided with a motor starting switch which is fixedly connected, the motor starting switch is provided with a stop block supporting spring which is fixedly connected, the upper end surface of the sampling motor is provided with a sampling motor telescopic shaft in sliding connection, the sampling motor telescopic shaft is provided with a sampling rotating motor in fixed connection, the sampling rotating motor is in sliding connection with the mounting block, the right end surface of the sampling rotating motor is provided with a sampling rotating motor shaft in rotating connection, the sampling rotating motor shaft is provided with a pricking needle clamping fixed block in fixed connection, the pricking needle clamping fixed block is provided with a pricking needle clamping motor in fixed connection, the pricking needle clamping motor is provided with a pricking needle clamping motor shaft in rotating connection, the pricking needle clamping motor shaft is provided with a pricking needle clamping reel in fixed connection, the pricking needle clamping fixed block is provided with a clamping fixed spring, the clamping fixed spring is internally provided with a pricking needle clamping spring in fixed connection, and the pricking needle clamping spring is provided with two bilaterally, the pricking needle clamping motor is characterized in that pricking needle clamping blocks which are connected in a sliding mode are arranged on the clamping and fixing springs, the pricking needle clamping springs are fixedly connected with the pricking needle clamping blocks, the pricking needle clamping blocks are bilaterally symmetrical to the pricking needle clamping motor, a clamping pricking needle is arranged on each pricking needle clamping block, a waste pricking needle taking-out port is arranged at the upper end of the arranging cavity, the waste pricking needle taking-out port and the pricking needle clamping motor are located at the same vertical position, a fixedly connected pricking needle conveying motor is arranged on the inner wall of the upper side of the arranging cavity, a pricking needle fixing sliding groove with a front opening is formed in each pricking needle conveying motor, a plurality of pricking needles are arranged in each pricking needle fixing sliding groove, a fixedly connected pricking needle conveying motor is arranged on the inner wall of the rear side of each pricking needle fixing sliding groove, the pricking pin conveying motor is characterized in that a pricking pin conveying reel is fixedly connected to a shaft of the pricking pin conveying motor, a pricking pin conveying spring is fixedly connected to the inner wall of the rear side of the pricking pin fixing sliding groove, the pricking pin conveying spring is vertically symmetrical to the pricking pin conveying motor, a pricking pin conveying push plate is slidably connected to the pricking pin fixing sliding groove, the pricking pin conveying push plate is fixedly connected to the pricking pin conveying spring, and the pricking pin conveying reel is fixedly connected to the pricking pin conveying push plate through a winding wire;

2. The micro-meter of claim 1, wherein: sampling mechanism still include with settle chamber right side inner wall fixed connection's hydraulic press, be equipped with fixed connection's hydraulic oil transport block on the hydraulic press, hydraulic oil transport block about two of symmetry around the hydraulic press is equipped with, be equipped with the hydraulic oil conveyer trough in the hydraulic press, be equipped with fixed connection's extension spring in the hydraulic oil conveyer trough, be equipped with sliding connection's extrusion slide bar in the hydraulic oil conveyer trough, the extrusion slide bar with extension spring fixed connection, be equipped with fixed connection's extrusion connecting block on the extrusion slide bar, it is equipped with fixed connection's burette fixed block to settle chamber right side inner wall, be equipped with sliding connection's burette on the burette fixed block, it takes the mouth to settle and is equipped with the burette on the piece, the burette take the.

3. The micro-meter of claim 1, wherein: the sampling mechanism also comprises a mounting block pushing motor hinged with the inner wall of the right side of the mounting cavity, a mounting block pushing shaft in sliding connection is arranged on the mounting block pushing motor, a mounting block supporting rod in fixed connection is arranged on the inner wall of the right side of the mounting cavity, a mounting block rotating shaft in rotating connection is arranged on the mounting block supporting rod, a cover plate mounting cavity in fixed connection is arranged on the mounting block rotating shaft, a pushing chute with a rightward opening is arranged on the cover plate mounting cavity, a pushing slide block in sliding connection is arranged in the pushing chute, the pushing slide block is hinged with the mounting block pushing shaft, a cover plate mounting cavity with an upward opening is arranged on the cover plate mounting block, a cover plate supporting motor in fixed connection is arranged on the inner wall of the lower side of the cover plate mounting cavity, a gravity sensor in fixed connection is arranged on the cover plate supporting motor, and a cover plate, the cover plate supports and is equipped with fixed connection's cover plate on the spool and supports the reel, the cover plate is settled chamber downside inner wall and is equipped with fixed connection's cover plate supporting spring, cover plate supporting spring about the cover plate supports two that the motor was equipped with bilateral symmetry, the cover plate is settled the intracavity and is equipped with sliding connection's cover plate supporting slide, cover plate supporting slide with cover plate supporting spring fixed connection, cover plate supporting slide with the cover plate supports the reel and passes through winding line fixed connection.