CN113425334A - Sampling analysis device and sampling analysis method for digestive system department - Google Patents

Abstract

The invention relates to a sampling and analyzing device and a sampling and analyzing method for a digestive system department, which comprise a shell, a control button, a touch display panel, a warning lamp, an electron microscope, a conveyor belt component and a supporting plate, wherein the shell is provided with a plurality of control buttons; the gastric condition can be amplified, the corresponding images are generated, the images are sent to the touch display panel, automatic extraction of gastric juice in the stomach is achieved, gastric juice analysis specimens are automatically manufactured, the working efficiency is improved, the gastric juice in the gastric juice analysis specimens is amplified through the electron microscope, the amplified images are sent to the touch display panel, the touch display panel receives the gastric juice and the amplified images in the stomach and displays the images on the display screen, and a doctor comprehensively observes the two images, so that the condition of a patient can be accurately judged.

Description

Sampling analysis device and sampling analysis method for digestive system department

Technical Field

The invention relates to the technical field of medical sampling analysis, in particular to a sampling analysis device and a sampling analysis method for digestive system department.

Background

The patient in digestive system department has influence on the normal excretion of body due to the problem of digestive tract system, and in order to analyze the digestive condition of the stomach of the patient, the gastric condition and gastric juice in the stomach of the patient need to be detected, generally, the gastroscope is inserted into the stomach of the patient through manual operation, the gastric condition of the patient in the stomach is observed through the gastroscope, or the sampling tube is inserted into the stomach of the patient through manual operation, the gastric juice is extracted and collected, the collected gastric juice is made into a gastric juice analysis specimen through manual operation and a glass slide, the glass slide is placed on a microscope, the gastric juice analysis specimen is amplified to generate a picture, the picture is made into a finished product, and finally, a doctor observes the picture to judge the state of an illness;

this results in: on one hand, the stomach condition or the gastric juice condition is detected only in a single way, so that the stomach condition of a patient is not analyzed accurately enough, on the other hand, when gastric juice is extracted and a glass slide is manufactured, because manual operation is too much, the interference influence on the gastric juice detection is more, the authenticity of data analysis is reduced, and the working efficiency caused by manual operation is too low;

in view of the technical defects in the two aspects, on the basis of doubtful data analysis authenticity, the stomach condition cannot be accurately analyzed, and the data reliability and accuracy of stomach sampling analysis are greatly reduced.

Disclosure of Invention

The invention aims to: through setting up the casing, the outer sleeving body, the sampling tube, the miniature liquid pump of negative pressure, the drain nozzle, the gastroscope pipe, the conveyer belt subassembly, the subassembly is transported to the bit, carry the glass substrate board, carry glass card pressure subassembly, electron microscope and touch display panel, can realize enlargeing the image that the situation and generate corresponding in the stomach, then send the image for touch display panel, and realize simultaneously that the automation to stomach gastric juice draws and make into gastric juice analysis sample by oneself, work efficiency has been improved, and gastric juice in the gastric juice analysis sample is enlarged through electron microscope, send the image of enlargeing for touch display panel, touch display panel receives the enlarged image in gastric juice and the stomach and shows in its display screen department, the doctor carries out the integrated observation to two sets of images, the state of an illness of judgment disease that can be more accurate.

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

a sampling analysis device for digestive system department comprises a shell, a control button, a touch display panel, a warning lamp, an electron microscope, a conveyor belt assembly and a supporting plate, wherein the conveyor belt assembly is arranged in the shell, the supporting plate is fixedly arranged in the shell and is abutted against the inner end of the conveyor belt assembly, the supporting plate is perpendicular to the conveyor belt assembly, a glass substrate plate is fixedly arranged at the top of the supporting plate, a glass substrate groove is formed in the glass substrate plate, a dropping transfer assembly and a glass carrying clamping and pressing assembly are arranged in the shell, the dropping transfer assembly is arranged right above the supporting plate, and the glass carrying clamping and pressing assembly is arranged right above the glass substrate plate;

the fixed overcoat body that is equipped with in the outside of casing, the internal fixedly connected with sampling tube of outer tube and gastroscope pipe, and the overcoat body one side of keeping away from the casing is equipped with the locking closure, the one end fixed connection of locking closure and overcoat body, first thief hole, loop type thief hole and second thief hole have been seted up in the locking closure, first thief hole, loop type thief hole and second thief hole through connection, the second thief hole is equipped with a plurality ofly and uses the central point of locking closure to press annular array to distribute as the centre of a circle, first thief hole and sampling tube through connection, the one end through connection of sampling tube has the miniature liquid pump of negative pressure and goes out the liquid nozzle, it passes through hose and the miniature liquid pump of negative pressure through connection to go out the liquid nozzle, the miniature liquid pump of negative pressure is fixed to be located in the casing.

Further, the drip transfer assembly comprises a drip sampling needle, a drip cylinder sleeve, a connecting sleeve ring, a first micro cylinder, a first micro motor and a fixed block, the top of the drip sampling needle is slidably arranged in the drip cylinder sleeve, the drip cylinder sleeve is fixedly arranged at the bottom end of the connecting sleeve ring, the connecting sleeve ring is fixedly connected with a piston rod of the first micro cylinder, the top end of the first micro cylinder is fixedly arranged at the bottom of the fixed block, the top end of the fixed block is abutted against the top wall of the shell, and connecting blocks are fixedly arranged at two ends of the fixed block;

the connecting block is connected with a sliding rod in a sliding mode, the outer end of the sliding rod is sleeved with the connecting block, two ends of the sliding rod are fixedly arranged in the shell, the fixed block is connected with a lead screw in a threaded mode, the lead screw is rotatably arranged in the shell, one end of the lead screw penetrates through the inner wall of the shell, extends to the outside of the shell and is fixedly connected with an output shaft of the first micro motor, and the first micro motor is fixedly arranged on the shell;

the bit sampling needle is equipped with extrusion bubble and first slider, the extrusion bubble is installed on the top of bit sampling needle, and extrudees bubble and bit sampling needle through connection, the outer end of bit sampling needle is located to first slider symmetry, smooth chamber and first spout have been seted up in the bit cylinder liner, it plays the cover to slide the intracavity to be equipped with the return, the both ends of return bullet cover respectively with the top of bit sampling needle and the top butt in smooth chamber, the inside of return bullet cover is located to the extrusion bubble, first slider slides and locates in the first spout, a thief hole has been seted up at least to the lateral wall of bit sampling needle bottom.

Furthermore, the glass-carrying clamping and pressing assembly comprises a second micro motor, a rotating plate and a second micro cylinder, the second micro cylinder is fixedly arranged at the top of the rotating plate, an output shaft of the second micro motor is fixedly connected with the rotating plate, the second micro motor is vertically arranged at the bottom of the rotating plate, the second micro motor is fixedly arranged in the shell, and a hinged rotating rod is fixedly arranged on one side of the rotating plate, which is far away from the second micro cylinder;

the outer end of the piston rod of the second micro cylinder is fixedly provided with two hinge blocks, the two hinge blocks are symmetrically arranged on two sides of the piston rod of the second micro cylinder, the top end of the piston rod of the second micro cylinder is fixedly provided with a third slide block, the third slide block is provided with a slide way, the outer end of the hinge rotating rod is rotatably sleeved with a first rotating sleeve and a second rotating sleeve, and the top end of the hinge rotating rod is fixedly provided with a u-shaped hinge piece;

the outer end of the first rotating sleeve is fixedly connected with a first hinging hand, the outer end of the second rotating sleeve is fixedly connected with a second hinging hand, the second hinging hand and the first hinging hand are oppositely arranged, a first hinging rod is arranged between the first hinging hand and the hinging block, two ends of the first hinging rod are respectively hinged with the first hinging hand and the hinging block, a second hinging rod is arranged between the second hinging hand and the hinging block, two ends of the second hinging rod are respectively hinged with the second hinging hand and the hinging block, and the second hinging hand and the first hinging hand are arranged in parallel;

the inboard of u type articulated elements articulates there is the third articulated hand, be equipped with the third articulated pole between third articulated hand and the third slider, the fixed slide bar that is equipped with in one end of third articulated pole, the slide bar run through the slide of articulated piece and rather than sliding connection, its other end and third articulated hand fixed connection, the third articulated pole is the contained angle setting with the third articulated hand, the third articulated hand is located on the axis between first articulated hand and the second articulated hand, first articulated hand, second articulated hand and the articulated hand clearance fit of second constitute and carry glass lid to press from both sides and block solid space.

Furthermore, the opposite surfaces of the first hinge joint and the second hinge joint are respectively provided with an elastic clamping strip, and a clamping groove for the glass cover is formed in the elastic clamping strip.

Furthermore, a butt joint ball is fixedly arranged at the bottom end of the third hinge joint hand.

Furthermore, the outer end of the bottom of the piston rod of the second micro cylinder is fixedly provided with a second sliding block, the top of the rotating plate is provided with a second sliding groove, and the second sliding block is slidably arranged in the second sliding groove.

Furthermore, a bottle opening and a bottle outlet are formed in two sides of the shell, and the bottle opening and the bottle outlet are respectively formed in two ends of the conveyor belt assembly.

Furthermore, a glass carrying port for taking and placing the glass carrier is formed in the side wall of the shell, which is positioned at the glass carrying clamping and pressing assembly.

The sampling analysis method of the sampling analysis device for the digestive system department comprises the following specific sampling analysis methods:

the first step is to place the utensil: putting the glass slide plate of the slide plate into the shell from the glass slide port and embedding the glass slide plate into the groove of the glass slide plate, then putting the glass slide cover of the slide plate on the glass slide clamping and pressing assembly and clamping the glass slide cover, putting the scale bottle on the conveyor belt of the conveyor belt assembly from the bottle placing port, and then closing the corresponding sealing door to enable the equipment to be in a sealed state;

the second step is to carry out preliminary analysis and judgment on the state of an illness: the outer cannula body is held and inserted into the stomach from the mouth of a patient, the gastroscope tube amplifies the condition in the stomach after the outer cannula body reaches the stomach, then an enlarged image in the stomach is sent to the touch display panel, the touch display panel displays the received enlarged image on the touch display screen, when a doctor observes the condition information of the enlarged image in the stomach, screenshot is carried out on the enlarged image, and the screenshot is amplified, so that the doctor can preliminarily judge and analyze the condition of the patient;

thirdly, sampling gastric juice: the touch display panel controls the negative pressure micro liquid pump to be opened, the negative pressure micro liquid pump generates negative pressure suction force after being opened and transmits the negative pressure suction force to the sampling tube, the sampling tube sequentially transmits the negative pressure suction force to the first sampling hole, the annular sampling hole and the second sampling hole of the lock cover after generating the negative pressure suction force, so that the negative pressure suction force is generated on the annular side of the lock cover after the second sampling hole generates the negative pressure suction force, therefore, the gastric juice flows into the second sampling hole and enters the sampling tube through the ring-shaped sampling hole and the first sampling hole, then the negative pressure micro liquid pump extracts gastric juice in the sampling tube and injects the gastric juice into the liquid outlet nozzle through the hose, simultaneously the touch control display panel controls the conveyor belt component to open and drives the scale bottle to move to one side far away from the bottle opening, when the scale bottle moves to the position right below the liquid outlet nozzle, gastric juice in the liquid outlet nozzle is injected into the scale bottle, and when the gastric juice in the scale bottle is collected to a certain degree, the touch display panel controls the conveyor belt assembly to be opened and drives the scale bottle to move towards the direction of the bottle outlet;

fourthly, manufacturing a gastric juice analysis specimen: when the scale bottle is positioned under the drip transfer assembly, the touch display panel controls the conveyor belt assembly to stop running, and simultaneously controls the drip transfer assembly to run, gastric juice in the scale bottle is absorbed after the drip transfer assembly runs, then the drip transfer assembly transfers gastric juice and extrudes the gastric juice onto a glass slide at the top of the glass slide, after the gastric juice falls on the glass slide, the drip transfer assembly is far away from the glass slide, after the drip transfer assembly is far away from the glass slide, the touch display panel controls the glass slide clamping assembly to rotate and place the glass slide, when the glass slide is positioned right above the glass slide, the glass slide clamping assembly extrudes the glass slide to clamp the glass slide and the glass slide, and the glass slide are clamped to form a gastric juice analysis sample;

fifthly, deep analysis and judgment are carried out on the disease condition: after the gastric juice analysis specimen is manufactured, and the drip transfer assembly and the glass-carrying card pressing assembly are reset, the electronic microscope is turned on to amplify gastric juice of the gastric juice analysis specimen and send an amplified image to the touch display panel, the touch display panel displays the received image information on a touch display screen, and then a doctor comprehensively observes the amplified image in the stomach and the amplified image of the gastric juice so as to carry out depth analysis and judgment on the state of an illness;

sixth step, recovering and preserving gastric juice: after the bit sampling needle absorbs appropriate amount of gastric juice, open the conveyer belt subassembly and transport the glass carrying mouth department of casing with the scale bottle, carry out the degree of depth analysis to the state of an illness when the doctor and judge the completion after, take off scale bottle and stomach fluid analysis sample by medical personnel and preserve it.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

the invention can realize the amplification of the gastric condition and generate corresponding images through the arranged shell, the outer cannula body, the sampling tube, the negative pressure micro liquid pump, the liquid outlet nozzle, the gastroscope tube, the conveyor belt assembly, the drip transfer assembly, the glass-carrying bottom plate, the glass-carrying clamping assembly, the electronic microscope and the touch display panel, then send the images to the touch display panel, and simultaneously realize the automatic extraction of gastric juice in the stomach and the automatic preparation of gastric juice analysis specimens, thereby improving the working efficiency, amplifying the gastric juice in the gastric juice analysis specimens through the electronic microscope, sending the amplified images to the touch display panel, receiving the amplified images in the gastric juice and the stomach by the touch display panel and displaying the amplified images on the display screen, and the doctor comprehensively observes the two groups of images, can more accurately judge the illness state of patients, solves the traditional gastric juice sampling analysis operation, and on the basis of doubtful data analysis authenticity, and the condition of the stomach cannot be accurately analyzed, so that the data reliability and accuracy of the sampling analysis of the stomach are greatly reduced.

Drawings

Figure 1 shows a perspective view of a device provided according to the invention;

FIG. 2 illustrates an internal structural view of a housing provided in accordance with the present invention;

FIG. 3 shows a cross-sectional view at A-A of FIG. 2;

FIG. 4 shows a cross-sectional view of a sliding connection of a drip needle to a drip cylinder liner provided in accordance with the present invention;

FIG. 5 shows a partial enlarged view at C of FIG. 3;

FIG. 6 is a schematic view showing an internal structure of a casing body according to the present invention;

FIG. 7 shows a cross-sectional view at B-B of FIG. 6;

FIG. 8 is a schematic view of a slide clamping assembly in relation to a slide substrate plate provided in accordance with the present invention;

fig. 9 is a schematic structural view illustrating a glass carrier card pressing assembly according to the present invention;

FIG. 10 shows a partial enlarged view at D of FIG. 9;

illustration of the drawings: 1. a housing; 101. a control button; 102. a touch display panel; 103. a warning light; 104. discharging the bottle mouth; 105. placing a bottle mouth; 106. a glass carrying port; 107. a support plate; 2. a cannula body; 201. a sampling tube; 202. a negative pressure micro liquid pump; 203. a liquid outlet nozzle; 204. a gastroscope tube; 205. a gastroscope body; 206. a locking cover; 207. a first sampling hole; 208. an annular sampling hole; 209. a second sampling hole; 3. a drip transport assembly; 301. a drip sampling needle; 302. a drip cylinder sleeve; 303. a connecting lantern ring; 304. a first microcylinder; 305. a fixed block; 306. connecting blocks; 307. a screw rod; 308. a slide bar; 309. a first micro motor; 310. a slide chamber; 311. a first chute; 312. a return elastic sleeve; 313. extruding the bubbles; 314. a first slider; 315. dropping a sampling hole; 4. an electron microscope; 5. a glass slide substrate plate; 501. a groove for the glass carrier film; 6. a glass loading clamping and pressing assembly; 601. a second micro motor; 602. rotating the plate; 603. a second microcylinder; 604. a hinged block; 605. a first hinge lever; 606. a second hinge lever; 607. a third hinge rod; 608. a first hinge arm; 609. a second articulating hand; 610. a third articulating hand; 611. a hinged rotating rod; 612. a first rotating sleeve; 613. a second rotating sleeve; 614. a u-shaped hinge; 615. abutting the ball; 616. an elastic clamping strip; 617. a glass carrier cover clamping groove; 618. a second slider; 619. a second chute; 7. a conveyor belt assembly.

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.

Referring to fig. 1-10, the present invention provides a technical solution:

a sampling analysis device for digestive system department comprises a shell 1, a control button 101, a touch display panel 102, a warning lamp 103, an electron microscope 4, a conveyor belt component 7 and a support plate 107, wherein the control button 101 is used for opening and operating the control device, the electron microscope 4 is used for amplifying gastric juice to generate images and sending the images to the touch display panel 102, the warning lamp 103 is used for prompting the operation quality of the device, the conveyor belt component 7 is used for conveying a measuring cylinder, the support plate 107 is used for supporting a conveyor belt of the conveyor belt component 7, the conveyor belt component 7 is arranged in the shell 1, the support plate 107 is fixedly arranged in the shell 1, the support plate 107 is abutted against the inner end of the conveyor belt component 7, the support plate 107 is perpendicular to the conveyor belt component 7, bottle placing openings 105 and bottle discharging openings 104 are formed in two sides of the shell 1, and the bottle placing openings 105 and the bottle discharging openings 104 are respectively, a glass slide plate 5 is fixedly arranged at the top of the supporting plate 107, a glass slide plate groove 501 for placing a glass slide plate is formed in the glass slide plate 5, a drip transfer assembly 3 and a glass slide clamping and pressing assembly 6 are arranged in the shell 1, the drip transfer assembly 3 is arranged right above the supporting plate 107, the glass slide clamping and pressing assembly 6 is arranged right above the glass slide plate 5, a glass slide opening 106 for taking and placing a glass slide is formed in the side wall of the shell 1 at the position of the glass slide clamping and pressing assembly 6, corresponding sealing doors are arranged at the positions of the glass slide opening 106, the bottle placing opening 105 and the bottle outlet 104, and the sealing doors are closed to enable the equipment to be in a sealing state;

the external side of the shell 1 is fixedly provided with an outer tube body 2, the interior of the outer tube body 2 is fixedly connected with a sampling tube 201 and a gastroscope tube 204, one side of the outer tube body 2, which is far away from the shell 1, is provided with a lock cover 206 for simultaneously stabilizing the sampling tube 201 and the gastroscope tube 204, the lock cover 206 is fixedly connected with one end of the outer tube body 2, the lock cover 206 is internally provided with a first sampling hole 207, an annular sampling hole 208 and a second sampling hole 209, the first sampling hole 207, the annular sampling hole 208 and the second sampling hole 209 are in through connection, the second sampling hole 209 is provided with a plurality of sampling holes and distributed according to an annular array by taking the central point of the lock cover 206 as the circle center, the first sampling hole 207 is in through connection with the sampling tube 201, one end of the sampling tube 201 is in through connection with a negative pressure micro liquid pump 202 and a liquid outlet 203, the liquid outlet 203 is in through connection with the negative pressure micro liquid pump 202 through a hose, and the negative pressure micro liquid pump 202 is fixedly arranged in the shell 1;

the touch display panel 102 controls the negative pressure micro liquid pump 202 to be opened, the negative pressure micro liquid pump 202 generates negative pressure suction force after being opened and transmits the negative pressure suction force to the sampling tube 201, the sampling tube 201 generates negative pressure suction force and then sequentially transmits the negative pressure suction force to the first sampling hole 207, the annular sampling hole 208 and the second sampling hole 209 of the lock cover 206, the second sampling hole 209 generates negative pressure suction force and then the annular side of the lock cover 206 has negative pressure suction force, the lock cover 206 sucks gastric juice in the stomach from the position abutting against the stomach, then the gastric juice sequentially enters the sampling tube 201 from the second sampling hole 209, the annular sampling hole 208 and the first sampling hole 207 of the lock cover 206 and is injected into the liquid outlet nozzle 203 through the hose under the action of the negative pressure micro liquid pump 202, meanwhile, the touch display panel 102 controls the conveyor belt assembly 7 to be opened and drives the scale bottle to move to the side far away from the liquid outlet nozzle 105, when the scale bottle moves to the position under the liquid outlet nozzle 203, the gastric juice in the liquid outlet nozzle 203 is injected into the graduated flask, so that the gastric juice is collected, and the second sampling holes 209 are distributed according to an annular array and ensure that the gastric juice is more convenient to absorb by taking the central point of the lock cover 206 as the center of a circle;

the drip transfer component 3 comprises a drip sampling needle 301, a drip cylinder sleeve 302, a connecting sleeve ring 303, a first micro cylinder 304, a first micro motor 309 and a fixed block 305, the top of the drip sampling needle 301 is slidably arranged in the drip cylinder sleeve 302, the drip cylinder sleeve 302 is fixedly arranged at the bottom end of the connecting sleeve ring 303, the connecting sleeve ring 303 is fixedly connected with a piston rod of the first micro cylinder 304, the top end of the first micro cylinder 304 is fixedly arranged at the bottom of the fixed block 305, the top end of the fixed block 305 is abutted against the top wall of the shell 1, and two ends of the fixed block 305 are fixedly provided with connecting blocks 306;

the connecting block 306 is connected with a sliding rod 308 in a sliding manner, the outer end of the sliding rod 308 is sleeved with the connecting block 306, two ends of the sliding rod 308 are fixedly arranged in the shell 1, the fixing block 305 is connected with a screw rod 307 in a threaded manner, the screw rod 307 is rotatably arranged in the shell 1, one end of the screw rod 307 penetrates through the inner wall of the shell 1, extends to the outside of the shell and is fixedly connected with an output shaft of a first micro motor 309, and the first micro motor 309 is fixedly arranged on the shell 1;

the drip sampling needle 301 is provided with an extrusion bubble 313 and a first sliding block 314, the extrusion bubble 313 is installed at the top end of the drip sampling needle 301, the extrusion bubble 313 is communicated with the drip sampling needle 301, the first sliding block 314 is symmetrically arranged at the outer end of the drip sampling needle 301, a sliding cavity 310 and a first sliding groove 311 are arranged in the drip cylinder sleeve 302, a return elastic sleeve 312 is arranged in the sliding cavity 310, two ends of the return elastic sleeve 312 are respectively abutted against the top of the drip sampling needle 301 and the top end of the sliding cavity 310, the extrusion bubble 313 is arranged in the return elastic sleeve 312, the first sliding block 314 is slidably arranged in the first sliding groove 311, and at least one sampling hole 315 is formed in the side wall of the bottom of the drip sampling needle 301;

when the graduated flask containing gastric juice is positioned right below the drip sampling needle 301, the touch display panel 102 controls the conveyor belt assembly 7 to stop running, and simultaneously controls the first micro cylinder 304 to be opened, the piston rod of the extrusion cylinder drives the connecting lantern ring 303 fixed with the extrusion cylinder to move downwards after the extrusion cylinder is opened, the connecting lantern ring 303 moves downwards and drives the drip cylinder sleeve 302 fixed with the connecting lantern ring to move downwards, the drip cylinder sleeve 302 moves downwards after moving downwards and drives the drip sampling needle 301 sliding with the drip cylinder sleeve to move downwards, when the drip sampling needle 301 moves downwards and abuts against the bottom of the graduated flask, the drip cylinder sleeve 302 continues to move downwards, at the moment, the drip cylinder sleeve 302 extrudes the return elastic sleeve 312 and the extrusion bubble 313 in the sliding cavity 310 of the drip cylinder sleeve 302 to elastically contract, the piston rod slides towards the sliding cavity 310 of the drip cylinder sleeve 302, and simultaneously, the first sliding block 314 at the outer end of the piston rod slides upwards along the sliding first sliding chute 311;

when the squeeze bubble 313 elastically contracts, the air in the squeeze bubble 313 is squeezed into the drip sampling needle 301, the air in the drip sampling needle 301 is squeezed out, when the piston rod returns, the return elastic sleeve 312 recovers the state when not squeezed and squeezes the drip sampling needle 301, the bottom end of the drip sampling needle 301 is always abutted against the bottom of the graduated bottle, meanwhile, the squeeze bubble 313 recovers, suction force is generated due to recovery of the squeeze bubble 313 and air in the drip sampling needle 301 is sucked, the air in the piston rod is sucked by the squeeze bubble 313 to generate negative pressure suction force, the drip sampling hole 315 in the side wall of the drip sampling needle 301 generates negative pressure suction force and sucks gastric juice to flow into the drip sampling needle 301, and the amount of the gastric juice sucked when the squeeze bubble 313 completely recovers is just suitable;

after the drip sampling needle 301 absorbs a proper amount of gastric juice, the touch display panel 102 controls the first micro cylinder 304 to open and close and immediately opens the first micro motor 309 to work, the first micro motor 309 controls the output shaft of the first micro motor 309 to rotate in the forward direction, the output shaft of the first micro motor 309 drives the lead screw 307 to rotate with the lead screw 307, the lead screw 307 drives the fixing block 305 in threaded connection with the lead screw to be away from the conveyor belt assembly 7 after rotating, the fixing block 305 indirectly drives the drip sampling needle 301 to move towards the glass slide plate 5 after being away from the conveyor belt assembly 7, when the drip sampling needle 301 is positioned right above the glass slide plate groove 501 of the glass slide plate 5, the first micro motor 309 is closed, the drip sampling needle 301 is suspended right above the glass slide plate groove 501, a glass slide plate is placed in the glass slide plate groove 501, the first micro cylinder 304 is opened to do piston movement downwards and indirectly drives the drip sampling needle 301 to abut against the glass slide plate and reset, so as to extrude the gastric juice to the glass slide, after the first micro cylinder 304 is closed, the output shaft of the first micro motor 309 is controlled to rotate reversely, and the drip sampling needle 301 is far away from the glass slide;

the glass carrying and clamping assembly 6 comprises a second micro motor 601, a rotating plate 602 and a second micro cylinder 603, the second micro cylinder 603 is fixedly arranged at the top of the rotating plate 602, an output shaft of the second micro motor 601 is fixedly connected with the rotating plate 602, the second micro motor 601 is vertically arranged at the bottom of the rotating plate 602, the second micro motor 601 is fixedly arranged in the housing 1, and a hinged rotating rod 611 is fixedly arranged at one side of the rotating plate 602, which is far away from the second micro cylinder 603;

the outer end of the piston rod of the second micro cylinder 603 is fixedly provided with two hinge blocks 604, the two hinge blocks 604 are symmetrically arranged at two sides of the piston rod of the second micro cylinder 603, the top end of the piston rod of the second micro cylinder 603 is fixedly provided with a third slide block, the third slide block is provided with a slide way, the outer end of the hinge rotating rod 611 is rotatably sleeved with a first rotating sleeve 612 and a second rotating sleeve 613, and the top end of the hinge rotating rod 611 is fixedly provided with a u-shaped hinge 614;

the outer end of the first rotating sleeve 612 is fixedly connected with a first hinge hand 608, the outer end of the second rotating sleeve 613 is fixedly connected with a second hinge hand 609, the second hinge hand 609 and the first hinge hand 608 are arranged oppositely, a first hinge rod 605 is arranged between the first hinge hand 608 and the hinge block 604, two ends of the first hinge rod 605 are respectively hinged with the first hinge hand 608 and the hinge block 604, a second hinge rod 606 is arranged between the second hinge hand 609 and the hinge block 604, two ends of the second hinge rod 606 are respectively hinged with the second hinge hand 609 and the hinge block 604, and the second hinge hand 609 and the first hinge hand 608 are arranged in parallel;

a third hinge joint hand 610 is hinged to the inner side of the u-shaped hinge joint 614, a third hinge joint rod 607 is arranged between the third hinge joint hand 610 and the third sliding block, one end of the third hinge joint rod 607 is fixedly provided with a sliding rod, the sliding rod penetrates through the sliding way of the hinge joint block 604 and is in sliding connection with the sliding way, the other end of the sliding rod is fixedly connected with the third hinge joint hand 610, the third hinge joint rod 607 and the third hinge joint hand 610 are arranged at an included angle, the third hinge joint hand 610 is arranged on a central axis between the first hinge joint hand 608 and the second hinge joint hand 609, and the first hinge joint hand 608, the second hinge joint hand 609 and the second hinge joint hand 609 are in clearance fit to form a glass-carrying cover clamping and clamping space;

the opposite surfaces of the first hinge hand 608 and the second hinge hand 609 are provided with elastic clamping strips 616, the elastic clamping strips 616 are provided with glass cover clamping grooves 617 for embedding glass covers, the bottom end of the third hinge hand 610 is fixedly provided with abutting balls 615 matched with the elastic clamping strips 616, the outer end of the bottom of a piston rod of the second micro cylinder 603 is fixedly provided with a second sliding block 618, the top of the rotating plate 602 is provided with a second sliding groove 619, and the second sliding block 618 is slidably arranged in the second sliding groove 619;

when gastric juice is extruded onto the glass slide and the drip sampling needle 301 is far away from the glass slide, the glass slide is placed in the two glass slide clamping grooves 617, the first hinge hand 608 and the second hinge hand 609 extrude two sides of the glass slide, and the abutting ball 615 abuts against the top center of the glass slide, so that the glass slide is arranged in the glass slide clamping space, after the glass slide is placed, the touch display panel 102 controls the second micro electric to rotate forward for a certain angle, the rotating plate 602 and the support plate 107 are arranged in parallel, the glass slide is positioned right above the glass slide, when the glass slide is positioned right above the glass slide, the touch display panel 102 controls the second micro electric to stop rotating and controls the second micro air cylinder 603 to operate, after the second micro air cylinder 603 operates, the piston rod of the second micro air cylinder drives the two hinge blocks 604 fixedly connected with the second micro electric cylinder to move leftward, after the two hinge blocks 604 move leftward, the first hinge rod and the second hinge rod 606 are correspondingly hinged with the two hinge blocks to move leftward, the first hinge rod 605 and the second hinge rod 606 move leftwards and then drive the first hinge hand 608 and the second hinge hand 609 which are respectively hinged with the first hinge rod 605 and the second hinge hand 609 to move backwards, the first hinge hand 608 and the second hinge hand 609 move backwards and backwards, specifically, the first hinge hand 608 and the second hinge hand 609 rotate around the hinge rotating rod 611, so that the gap between the first hinge hand 608 and the second hinge hand 609 is increased, the glass cover is separated from the glass cover clamping groove 617, the second micro cylinder 603 drives the third slider at the top end of the piston rod to move leftwards, after the third slider moves leftwards, the third hinge rod 607 slides through the slide way of the third slider due to the slide rod at one end of the third hinge rod 607, and the third hinge rod 607 and the third hinge hand 610 are arranged in a v shape, so the third hinge rod 607 moves upwards along the slide way of the third slider, and the hinge joint 610 deflects downwards around the hinge center of the u-shaped 614, the third hinge hand 610 extrudes and stabilizes the glass-carrying cover all the time, and the glass-carrying cover is clamped with the glass-carrying bottom plate under the action of the third hinge hand 610, so that a gastric juice analysis specimen is automatically manufactured;

the gastroscope tube 204 is connected with the gastroscope main body 205, the gastroscope main body 205 is arranged in the shell 1, the gastroscope main body 205, the conveyor belt component 7, the drip transport component 3, the glass-carrying clamping and pressing component 6 and the negative pressure micro liquid pump 202 are all electrically connected with the touch display panel 102, and the touch display panel 102 further comprises a control module which is used for controlling the operation of the gastroscope main body 205, the conveyor belt component 7, the drip transport component 3, the glass-carrying clamping and pressing component 6 and the negative pressure micro liquid pump 202;

the working steps are as follows:

the first step is to place the utensil: putting the glass slide plate of the slide plate into the shell 1 from the glass slide opening 106 and embedding the glass slide plate into the glass slide plate groove 501 of the glass slide plate 5, then putting the glass slide cover of the slide plate on the glass slide clamping and pressing assembly 6 and clamping the glass slide cover, putting the scale bottle on the conveyor belt of the conveyor belt assembly 7 from the bottle placing opening 105, and then closing the corresponding sealing door to enable the equipment to be in a sealed state;

the second step is to carry out preliminary analysis and judgment on the state of an illness: the outer cannula body 2 is held and inserted into the stomach of a patient from the mouth of the patient, the gastroscope tube 204 amplifies the condition in the stomach after reaching the stomach, then an amplified image in the stomach is sent to the touch display panel 102, the touch display panel 102 displays the received amplified image on the touch display screen, when a doctor observes the amplified image condition information in the stomach, screenshot processing is carried out on the amplified image, and the screenshot is amplified, so that the doctor can conveniently preliminarily judge and analyze the condition of the patient;

thirdly, sampling gastric juice: the touch display panel 102 controls the negative pressure micro liquid pump 202 to be opened, the negative pressure micro liquid pump 202 generates negative pressure suction force after being opened and transmits the negative pressure suction force to the sampling tube 201, the sampling tube 201 generates negative pressure suction force and then sequentially transmits the negative pressure suction force to the first sampling hole 207, the annular sampling hole 208 and the second sampling hole 209 of the lock cover 206, the second sampling hole 209 generates negative pressure suction force and then the annular side of the lock cover 206 has negative pressure suction force, so that the gastric juice flows into the second sampling hole 209 and enters the sampling tube 201 through the annular sampling hole 208 and the first sampling hole 207, then the negative pressure micro liquid pump 202 extracts the gastric juice in the sampling tube 201 and injects the gastric juice into the liquid outlet nozzle 203 through the hose, meanwhile, the touch display panel 102 controls the conveyor belt assembly 7 to be opened and drives the scale bottle to move to one side far away from the liquid outlet nozzle 105, when the gastric juice moves to the position under the liquid outlet nozzle 203, the gastric juice in the liquid outlet nozzle 203 is injected into the scale bottle, when the gastric juice in the graduated flask is collected to a certain degree, the touch display panel 102 controls the conveyor belt assembly 7 to be opened and drives the graduated flask to move towards the direction of the flask outlet 104;

fourthly, manufacturing a gastric juice analysis specimen: when the scale bottle is positioned right below the drip transfer assembly 3, the touch display panel 102 controls the conveyor belt assembly 7 to stop running, and simultaneously controls the drip transfer assembly 3 to run, gastric juice in the scale bottle is absorbed after the drip transfer assembly 3 runs, then the drip transfer assembly 3 transfers the gastric juice and extrudes the gastric juice onto a glass slide bottom plate at the top of the glass slide bottom plate 5, after the gastric juice falls on the glass slide bottom plate, the drip transfer assembly 3 is far away from the glass slide bottom plate 5, after the drip transfer assembly 3 is far away from the glass slide bottom plate, the touch display panel 102 controls the glass slide clamping assembly 6 to rotate and place the glass slide cover, and when the glass slide cover is positioned right above the glass slide bottom plate, the glass slide clamping assembly 6 extrudes the glass slide bottom plate to clamp the glass slide cover, and the glass slide bottom plate is clamped with the glass slide cover to form a gastric juice analysis specimen;

fifthly, deep analysis and judgment are carried out on the disease condition: after the gastric juice analysis specimen is manufactured, and the drip transport assembly 3 and the glass-carrying card pressing assembly 6 are reset, the electron microscope 4 is opened to amplify gastric juice of the gastric juice analysis specimen and send an amplified image to the touch display panel 102, the touch display panel 102 displays the received image information on a touch display screen, and then a doctor comprehensively observes the amplified image in the stomach and the amplified image of the gastric juice, so that the deep analysis and judgment of the state of an illness are carried out;

sixth step, recovering and preserving gastric juice: after the bit sampling needle 301 absorbs appropriate amount of gastric juice, open conveyer belt subassembly 7 and transport the glass carrying mouth 106 department of casing 1 with the scale bottle, carry out degree of depth analysis to the state of an illness when the doctor and judge the completion after, take off scale bottle and stomach fluid analysis sample by medical personnel and preserve it.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. A sampling analysis device for digestive system department, comprises a shell (1), a control button (101), a touch display panel (102), a warning light (103), an electron microscope (4), a conveyor belt assembly (7) and a support plate (107), wherein the conveyor belt assembly (7) is arranged in the shell (1), the support plate (107) is fixedly arranged in the shell (1), the support plate (107) is abutted against the inner end of the conveyor belt assembly (7), and the support plate (107) is perpendicular to the conveyor belt assembly (7), the sampling analysis device is characterized in that a glass substrate plate (5) is fixedly arranged at the top of the support plate (107), a glass substrate groove (501) is formed in the glass substrate plate (5), a drip transfer assembly (3) and a glass substrate clamping assembly (6) are arranged in the shell (1), the drip transfer assembly (3) is arranged right above the support plate (107), the glass carrying clamping and pressing assembly (6) is arranged right above the glass carrying bottom plate (5);

the endoscope comprises a shell (1), an outer tube body (2) is fixedly arranged on the outer side of the shell (1), a sampling tube (201) and a gastroscope tube (204) are fixedly connected in the outer tube body (2), a lock cover (206) is arranged on one side, far away from the shell (1), of the outer tube body (2), the lock cover (206) is fixedly connected with one end of the outer tube body (2), a first sampling hole (207), an annular sampling hole (208) and a second sampling hole (209) are formed in the lock cover (206), the first sampling hole (207), the annular sampling hole (208) and the second sampling hole (209) are in through connection, the second sampling hole (209) is provided with a plurality of sampling holes which are distributed in an annular array by taking the central point of the lock cover (206) as the circle center, the first sampling hole (207) is in through connection with the sampling tube (201), one end of the sampling tube (201) is in through connection with a negative pressure micro liquid pump (202) and a liquid outlet nozzle (203), the liquid outlet nozzle (203) is communicated with the negative pressure micro liquid pump (202) through a hose, and the negative pressure micro liquid pump (202) is fixedly arranged in the shell (1).

2. The sampling analysis device for the department of gastroenterology according to claim 1, wherein the drip transfer component (3) comprises a drip sampling needle (301), a drip cylinder sleeve (302), a connecting sleeve ring (303), a first micro cylinder (304), a first micro motor (309) and a fixed block (305), the top of the drip sampling needle (301) is slidably arranged in the drip cylinder sleeve (302), the drip cylinder sleeve (302) is fixedly arranged at the bottom end of the connecting sleeve ring (303), the connecting sleeve ring (303) is fixedly connected with a piston rod of the first micro cylinder (304), the top end of the first micro cylinder (304) is fixedly arranged at the bottom of the fixed block (305), the top end of the fixed block (305) is abutted against the top wall of the shell (1), and the two ends of the fixed block (305) are fixedly provided with connecting blocks (306);

the connecting block (306) is connected with a sliding rod (308) in a sliding mode, the outer end of the sliding rod (308) is sleeved with the connecting block (306), two ends of the sliding rod (308) are fixedly arranged in the shell (1), the fixing block (305) is connected with a lead screw (307) in a threaded mode, the lead screw (307) is rotatably arranged in the shell (1), one end of the lead screw (307) penetrates through the inner wall of the shell (1) to extend to the outside of the shell and is fixedly connected with an output shaft of a first micro motor (309), and the first micro motor (309) is fixedly arranged on the shell (1);

drip sampling needle (301) are equipped with extrusion bubble (313) and first slider (314), install on the top of drip sampling needle (301) extrusion bubble (313), and extrude bubble (313) and drip sampling needle (301) through connection, the outer end of drip sampling needle (301) is located to first slider (314) symmetry, set up slide chamber (310) and first spout (311) in drip cylinder sleeve (302), be equipped with return elastic sleeve (312) in slide chamber (310), the both ends of return elastic sleeve (312) respectively with the top of drip sampling needle (301) and the top butt of slide chamber (310), the inside of return elastic sleeve (312) is located in extrusion bubble (313), first slider (314) slide and locate in first spout (311), drip sampling needle (301) bottom's lateral wall has seted up one bit thief hole (315) at least.

3. The sampling analysis device for the digestive system department according to claim 1, wherein the glass-loading card pressing assembly (6) comprises a second micro motor (601), a rotating plate (602) and a second micro cylinder (603), the second micro cylinder (603) is fixedly arranged at the top of the rotating plate (602), the output shaft of the second micro motor (601) is fixedly connected with the rotating plate (602), the second micro motor (601) is vertically arranged at the bottom of the rotating plate (602), the second micro motor (601) is fixedly arranged in the shell (1), and a hinged rotating rod (611) is fixedly arranged at one side of the rotating plate (602) far away from the second micro cylinder (603);

the outer end of the piston rod of the second micro cylinder (603) is fixedly provided with two hinge blocks (604), the two hinge blocks (604) are symmetrically arranged on two sides of the piston rod of the second micro cylinder (603), the top end of the piston rod of the second micro cylinder (603) is fixedly provided with a third sliding block, the third sliding block is provided with a sliding way, the outer end of the hinge rotating rod (611) is rotatably sleeved with a first rotating sleeve (612) and a second rotating sleeve (613), and the top end of the hinge rotating rod (611) is fixedly provided with a u-shaped hinge (614);

the outer end of the first rotating sleeve (612) is fixedly connected with a first hinging hand (608), the outer end of the second rotating sleeve (613) is fixedly connected with a second hinging hand (609), the second hinging hand (609) and the first hinging hand (608) are arranged oppositely, a first hinging rod (605) is arranged between the first hinging hand (608) and the hinging block (604), two ends of the first hinging rod (605) are hinged with the first hinging hand (608) and the hinging block (604) respectively, a second hinging rod (606) is arranged between the second hinging hand (609) and the hinging block (604), two ends of the second hinging rod (606) are hinged with the second hinging hand (609) and the hinging block (604) respectively, and the second hinging hand (609) and the first hinging hand (608) are arranged in parallel;

the inboard of u type articulated elements (614) articulates there is third hinge hand (610), be equipped with third hinge pole (607) between third hinge hand (610) and the third slider, the fixed slide bar that is equipped with of one end of third hinge pole (607), the slide bar run through the slide of articulated piece (604) and rather than sliding connection, its other end and third hinge hand (610) fixed connection, third hinge pole (607) is the contained angle setting with third hinge hand (610), third hinge hand (610) are located on the axis between first hinge hand (608) and second hinge hand (609), first hinge hand (608), second hinge hand (609) and second hinge hand (609) clearance fit constitute and carry glass lid to press from both sides the card and fix the space.

4. A sampling and analysis device for use in the department of gastroenterology according to claim 3, characterised in that the opposing faces of the first hinge hand (608) and the second hinge hand (609) are each provided with an elastic snap strip (616), the elastic snap strip (616) being provided with a glass-cap-loaded snap groove (617).

5. A sampling and analysis device for use in the digestive system, according to claim 3, characterised in that the bottom end of the third hinged hand (610) is fixedly provided with an abutment ball (615).

6. The sampling and analyzing device for the department of gastroenterology according to claim 3, wherein a second sliding block (618) is fixedly arranged at the outer end of the bottom of the piston rod of the second microcylinder (603), a second sliding groove (619) is formed in the top of the rotating plate (602), and the second sliding block (618) is slidably arranged in the second sliding groove (619).

7. The sampling and analyzing device for the digestive system department according to the claim 1, characterized in that the two sides of the shell (1) are opened with a bottle opening (105) and a bottle outlet (104), the bottle opening (105) and the bottle outlet (104) are respectively arranged at the two ends of the conveyor belt component (7).

8. The sampling and analyzing device for the department of gastroenterology according to claim 1, wherein the side wall of the housing (1) at the slide clamping and pressing assembly (6) is provided with a slide port (106) for taking and placing a slide.

9. A sampling analysis method of a sampling analysis device for digestive system according to any one of claims 1 to 8, wherein the specific sampling analysis method is as follows:

the first step is to place the utensil: putting the glass slide film of the slide glass into the shell (1) from the glass slide opening (106) and embedding the glass slide film into the glass slide film groove (501) of the glass slide film plate (5), then putting the glass slide cover of the slide glass on the glass slide clamping and pressing assembly (6) and clamping the glass slide cover, putting the scale bottle onto the conveying belt of the conveying belt assembly (7) from the bottle placing opening (105), and then closing the corresponding sealing door to enable the equipment to be in a sealing state;

the second step is to carry out preliminary analysis and judgment on the state of an illness: the outer cannula body (2) is held and inserted into the stomach from the mouth of a patient, the gastroscope tube (204) amplifies the situation in the stomach after reaching the stomach, then an amplified image in the stomach is sent to the touch display panel (102), the touch display panel (102) displays the received amplified image on a touch display screen, when a doctor observes the amplified image situation information in the stomach, screenshot processing is carried out on the amplified image, and the screenshot is amplified, so that the doctor can conveniently and preliminarily judge and analyze the disease situation of the patient;

thirdly, sampling gastric juice: the touch display panel (102) controls the negative pressure micro liquid pump (202) to be opened, the negative pressure micro liquid pump (202) generates negative pressure suction force after being opened and transmits the negative pressure suction force to the sampling tube (201), the sampling tube (201) generates negative pressure suction force and then sequentially transmits the negative pressure suction force to the first sampling hole (207), the annular sampling hole (208) and the second sampling hole (209) of the lock cover (206), the second sampling hole (209) generates negative pressure suction force and then the annular side of the lock cover (206) has negative pressure suction force, so that gastric juice flows into the second sampling hole (209) and enters the sampling tube (201) through the annular sampling hole (208) and the first sampling hole (207), then the negative pressure micro liquid pump (202) extracts the gastric juice in the sampling tube (201) and injects the gastric juice into the liquid outlet nozzle (203) through a hose, and simultaneously the touch display panel (102) controls the transmission panel (7) to be opened and drives the scale bottle to move to one side far away from the release belt assembly (105), when the scale bottle moves to the position right below the liquid outlet nozzle (203), gastric juice in the liquid outlet nozzle (203) is injected into the scale bottle, and when the gastric juice in the scale bottle is collected to a certain degree, the touch display panel (102) controls the conveyor belt assembly (7) to be opened and drives the scale bottle to move towards the direction of the bottle outlet (104);

fourthly, manufacturing a gastric juice analysis specimen: when the scale bottle is positioned under the drip transferring component (3), the touch display panel (102) controls the conveyor belt component (7) to stop running, meanwhile, the drip transport component (3) is controlled to operate, and the drip transport component (3) absorbs gastric juice in the graduated flask after operating, then the drip transferring component (3) transfers gastric juice and extrudes the gastric juice onto a glass slide at the top of the glass slide plate (5), after the gastric juice falls on the glass slide, the drip transfer component (3) is far away from the glass slide bottom plate (5), when the drip transfer component (3) is far away from the glass slide film, the touch display panel (102) controls the glass slide clamping and pressing component (6) to rotate and place the glass slide cover, when the glass slide cover is positioned right above the glass slide film, the glass carrying clamping and pressing assembly (6) extrudes the glass carrying clamping and pressing assembly to clamp the glass carrying negative plate and the glass carrying cover, and the glass carrying negative plate and the glass carrying cover are clamped to form a gastric juice analysis specimen;

fifthly, deep analysis and judgment are carried out on the disease condition: after the gastric juice analysis specimen is manufactured, and the drip transfer component (3) and the glass-carrying card pressing component (6) are reset, the electron microscope (4) is opened to amplify gastric juice of the gastric juice analysis specimen and send the amplified image to the touch display panel (102), the touch display panel (102) displays the received image information on a touch display screen, and then a doctor comprehensively observes the amplified image in the stomach and the amplified image of the gastric juice, so that the deep analysis and judgment of the state of an illness are carried out;

sixth step, recovering and preserving gastric juice: after an infusion sampling needle (301) absorbs a proper amount of gastric juice, the conveyor belt assembly (7) is opened to transport the scale bottle to the glass carrying port (106) of the shell (1), and after a doctor carries out deep analysis and judgment on the state of an illness and finishes the process, the scale bottle and a gastric juice analysis specimen are taken down by medical personnel to be stored.

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