CN116158788A

CN116158788A - Medical data acquisition method and system based on artificial intelligence

Info

Publication number: CN116158788A
Application number: CN202211408924.6A
Authority: CN
Inventors: 胡凯
Original assignee: Zhejiang Medical Device Evaluation Center Zhejiang Medical Device Adverse Event Monitoring Center
Current assignee: Zhejiang Medical Device Evaluation Center Zhejiang Medical Device Adverse Event Monitoring Center
Priority date: 2022-11-11
Filing date: 2022-11-11
Publication date: 2023-05-26
Anticipated expiration: 2042-11-11
Also published as: CN116158788B

Abstract

The invention discloses a medical data acquisition method and a system based on artificial intelligence, in particular to the technical field of intelligent medical appliances, and the medical data acquisition method comprises a first base, wherein a telescopic rod is fixedly arranged at one side end of the first base, a second base is fixedly arranged at the driving end of the telescopic rod, a clamping seat is fixedly arranged at the top end of the second base, a liquid storage mechanism is movably clamped at the top of the clamping seat, and a support frame is fixedly arranged at the top end of the first base; the liquid discharging mechanism is matched for use, so that classification detection of primary urine, middle urine and final urine is carried out, and the acquisition quality of urine detection medical data is further improved.

Description

Medical data acquisition method and system based on artificial intelligence

Technical Field

The invention relates to the technical field of intelligent medical appliances, in particular to a medical data acquisition method and system based on artificial intelligence.

Background

Artificial intelligence is a new technical science for researching, developing theories, methods, technologies and application systems for simulating, extending and expanding human intelligence, and can be used in the technical field of medical treatment, namely, information in the technical field of medical treatment can be collected and summarized so as to facilitate data collection and other operations;

when the patient is checked, the urine needs to be detected, the traditional urine detection is divided into primary urine, middle urine and final urine, special medical instruments are used for respectively detecting the primary urine, the middle urine and the final urine and simultaneously intelligently collecting medical data, but before the traditional urine detection medical data are collected, the patient needs to collect the urine, the traditional urine is collected, a plurality of manual urine collecting pipes are used for holding urine, the needed urine is input into the urine collecting pipes, the control of the urine volume is inconvenient, and accordingly the collection quality of the follow-up urine detection medical data can be affected.

Disclosure of Invention

The invention aims to provide a medical data acquisition method and system based on artificial intelligence, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a medical data acquisition system based on artificial intelligence, includes first base, one side fixed mounting of first base has the telescopic link, the driving end fixed mounting of telescopic link has the second base, the top fixed mounting of second base has the cassette, the top activity card of cassette is equipped with stock solution mechanism, the top fixed mounting of first base has the support frame, fixed mounting has the flowing back mechanism that uses with stock solution mechanism cooperation in the support frame.

Preferably, the liquid storage mechanism includes the stock solution outer tube, stock solution outer tube activity joint is at the top of cassette, the closing cap is installed at the top screw thread of stock solution outer tube, the fixing clip is equipped with two separation discs in the stock solution outer tube, two the separation disc divide into three stock solution cavity with the stock solution outer tube, the middle part fixing clip of stock solution outer tube, closing cap and two separation discs is equipped with interior slide tube, slip card is equipped with the feed liquor inner tube in the interior slide tube, be equipped with the seal cover between the outside of feed liquor inner tube and the inboard of interior slide tube, the feed liquor groove has been seted up at the top of feed liquor inner tube, the feed liquor logical groove has been seted up to the bottom of feed liquor groove, be located all seted up into liquid logical groove on the interior slide tube at stock solution cavity top, the steady voltage through groove of mutual intercommunication has been seted up on separation disc and the stock solution outer tube, the bottom fixing clip of steady voltage through groove is equipped with the air film frame, the fixed card is equipped with the air film frame on the closing cap.

Preferably, a liquid inlet hopper is fixedly arranged at the top end of the liquid inlet inner cylinder.

Preferably, a liquid discharge pipe is uniformly formed on the liquid storage outer pipe at the bottom of the liquid storage cavity, a limiting ring is fixedly clamped in the liquid discharge pipe, and one side of the limiting ring is fixedly connected with a sealant ring.

Preferably, the liquid discharging mechanism comprises three liquid control outer frames corresponding to the quantity of the liquid discharging pipes and the positions of the liquid control outer frames, the three liquid control outer frames are fixedly installed in the supporting frame, liquid control balls are fixedly installed in the liquid control outer frames in a rotating mode, liquid control shafts are formed in the middle of the liquid control balls in a uniform mode, the liquid control shafts are installed on the corresponding liquid control outer frames in a sealing mode, dredging grooves are formed in the outer sides of the liquid control balls, penetrating grooves are formed in the middle of the liquid control shafts, and inner clamping rings are fixedly clamped at the tops of the penetrating grooves.

Preferably, one side integrated into one piece of accuse liquid frame has first pipe, one side activity joint that accuse liquid frame was kept away from to first pipe is in corresponding fluid-discharge tube, the tip of first pipe and corresponding seal gum ring contact, the outside rotation of first pipe is installed interior spiral shell sleeve, interior spiral shell sleeve screw thread installation is in the outside of corresponding fluid-discharge tube.

Preferably, a second pipe is integrally formed on one side, far away from the first pipe, of the liquid control outer frame, and a connecting hose is fixedly arranged at the end part of the second pipe.

Preferably, the liquid draining mechanism further comprises a rotating seat, the rotating seat is rotatably arranged on the first base, a lifting rod is fixedly arranged at the top end of the rotating seat, a driving shaft is fixedly arranged at the driving end of the lifting rod, the driving shaft movably penetrates through three penetrating grooves, a bottom chuck, a middle chuck and a top chuck which are matched with the inner clamping ring for use are fixedly sleeved on the outer side of the driving shaft in the penetrating grooves respectively, the bottom chuck, the middle chuck and the top chuck can be movably clamped in the corresponding inner clamping ring, the bottom chuck is located at the bottom of the corresponding penetrating groove, the middle chuck is located at the middle of the corresponding penetrating groove, and the top chuck is located at the top of the corresponding penetrating groove.

Preferably, a crown gear is fixedly arranged at the bottom of the rotating seat, a driving motor is fixedly arranged in the first base, and a driving gear in meshed connection with the crown gear is fixedly arranged at the driving end of the driving motor.

An artificial intelligence-based medical data acquisition method comprises the following steps:

step one, movably clamping a liquid storage outer tube at the top of a clamping seat, starting a telescopic rod to drive a second base to move to a side close to a first base for horizontal movement, movably clamping one side, far away from a liquid control outer frame, of the first tube in a corresponding liquid discharge tube, enabling the end part of the first tube to be in contact with a corresponding sealing rubber ring, installing an inner screw sleeve on the outer side of the corresponding liquid discharge tube through threads, installing sealing threads between three liquid control outer frames and the corresponding liquid discharge tube, and connecting the end parts of three connecting hoses to a detection instrument;

step two, collecting primary urine, middle urine and final urine, wherein the primary urine is collected by holding the liquid inlet hopper, sleeving the liquid inlet hopper at a urine outlet of the patient, holding the liquid storage outer tube by the other hand, vertically sliding the liquid storage outer tube, enabling the inner sliding tube to vertically slide and lift in a sealing manner outside the liquid inlet inner tube, firstly enabling the liquid inlet through-slot to be communicated with the liquid inlet through-slot at the bottom, enabling urine to enter the liquid inlet slot in the liquid inlet inner tube through the liquid inlet hopper, enabling the urine to enter the liquid storage cavity at the bottom through the liquid inlet through-slot, collecting the primary urine, enabling the liquid inlet through-slot to be communicated with the liquid inlet through-slot at the middle when the primary urine is collected, enabling the urine to directly enter the liquid inlet slot in the liquid inlet inner tube through the liquid inlet hopper, enabling the urine to enter the liquid inlet through-slot at the top through the liquid inlet through-slot, and enabling the urine to enter the liquid storage cavity at the liquid inlet through-slot at the middle part after the primary urine is collected, and enabling the urine to enter the liquid inlet through-slot at the top liquid inlet through-slot after the liquid inlet through-slot and the liquid inlet through-slot at the top urine collecting end, and collecting the urine through the liquid inlet through-slot at the top urine collecting end section and the liquid inlet through-slot at the top urine collecting section;

step three, the classification detection of first section urine, middle section urine and last section urine is used, when the last section urine is needed, a lifting rod is started to drive a driving shaft to ascend, a top chuck is engaged and clamped with an inner clamping ring at the top position, a bottom chuck and a middle chuck are not engaged and clamped with the inner clamping ring, a driving motor drives a driving gear to drive a crown gear and a rotating seat to rotate, a driving shaft is driven to rotate, a top position inner clamping ring, a liquid control shaft and a liquid control ball are driven to rotate in a corresponding liquid control outer frame, a first pipe and a second pipe are opened, the last section urine enters a detection instrument through a dredging groove, a second pipe and a connecting hose in the corresponding first pipe, when the middle section urine is needed, the driving shaft is driven to ascend again, the middle chuck is engaged and clamped with the inner clamping ring at the middle position, the bottom chuck and the top chuck are not engaged and clamped with the inner clamping ring, the driving shaft is driven to rotate, the middle position inner clamping ring, the liquid control shaft and the liquid control ball are driven to rotate in the corresponding liquid control outer frame, the first pipe and the second pipe are communicated, middle-stage urine enters the detection instrument through the dredging groove, the second pipe and the connecting hose in the corresponding first pipe and the liquid control outer frame, when primary-stage urine is needed to be used, the driving shaft is driven to ascend again, the middle clamping disc is engaged and clamped with the middle position inner clamping ring, the bottom clamping disc and the top clamping disc are not engaged and clamped with the inner clamping ring, the driving shaft is driven to rotate, the middle position inner clamping ring, the liquid control shaft and the liquid control ball are driven to rotate in the corresponding liquid control outer frame, the first pipe and the second pipe are communicated, primary-stage urine enters the detection instrument through the dredging groove, the second pipe and the connecting hose in the corresponding first pipe and the liquid control outer frame, and classification detection of primary-stage urine, middle-stage urine and final-stage urine is carried out.

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

by arranging the liquid storage mechanism, the quick collection of primary urine, middle urine and final urine is realized, and the collected primary urine, middle urine and final urine are respectively placed in the corresponding liquid storage cavities for collection, so that the primary urine, middle urine and final urine are respectively detected and used later, and the collection quality of medical data of the subsequent urine detection is improved; the liquid discharging mechanism is matched for use, so that classification detection of primary urine, middle urine and final urine is carried out, and the acquisition quality of urine detection medical data is further improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Figure 1 is a schematic diagram of the structure of the present invention,

figure 2 is a schematic diagram of the structure of the invention after disassembly,

FIG. 3 is a schematic diagram showing the structural connection of the liquid storage mechanism in the invention,

figure 4 is an enlarged view of the invention at a in figure 3,

figure 5 is an enlarged view of the invention at B in figure 3,

figure 6 is an enlarged view of figure 3 at C of the present invention,

figure 7 is an enlarged view of the invention at D in figure 3,

figure 8 is a schematic view showing the structural connection of the first base and the liquid draining mechanism in the invention,

figure 9 is an enlarged view of the invention at E in figure 8,

figure 10 is an enlarged view of the invention at F in figure 8,

FIG. 11 is a schematic diagram showing the connection of the parts of the liquid discharging mechanism in the present invention.

In the figure: 1. a first base; 2. a telescopic rod; 3. a second base; 4. a clamping seat; 5. a liquid storage mechanism; 6. a support frame; 7. a liquid discharge mechanism; 8. a driving motor; 9. a liquid inlet hopper; 51. a liquid storage outer tube; 52. a cover; 53. a separation plate; 531. stabilizing pressure and penetrating the groove; 532. a breathable film frame; 54. an inner slide tube; 541. feeding into a liquid through groove; 55. a liquid inlet inner cylinder; 551. a liquid inlet through groove; 552. a liquid inlet tank; 56. sealing sleeve; 57. a liquid discharge pipe; 58. a limiting ring; 581. a sealant ring; 71. a liquid control outer frame; 711. a first tube; 712. a second tube; 72. a liquid control ball; 721. dredging the groove; 73. a liquid control shaft; 731. a through groove; 74. an inner snap ring; 75. an internal screw sleeve; 751. a connecting hose; 76. a drive shaft; 761. a bottom chuck; 762. a middle chuck; 763. a top chuck; 77. a rotating seat; 78. a lifting rod; 79. a crown gear; 791. and a drive gear.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-11, the invention provides a medical data acquisition system based on artificial intelligence, which comprises a first base 1, wherein a telescopic rod 2 is fixedly arranged at one side end of the first base 1, a second base 3 is fixedly arranged at the driving end of the telescopic rod 2, the telescopic rod 2 is controlled and started to drive the second base 3 to horizontally move, a clamping seat 4 is fixedly arranged at the top end of the second base 3, a liquid storage mechanism 5 is movably clamped at the top end of the clamping seat 4, a supporting frame 6 is fixedly arranged at the top end of the first base 1, and a liquid draining mechanism 7 matched with the liquid storage mechanism 5 is fixedly arranged in the supporting frame 6.

The liquid storage mechanism 5 comprises a liquid storage outer tube 51, the liquid storage outer tube 51 is movably clamped at the top of the clamping seat 4, the disassembly and the positioning of the liquid storage mechanism 5 are facilitated, a sealing cover 52 is arranged at the top of the liquid storage outer tube 51 in a threaded manner, two separation discs 53 are fixedly clamped in the liquid storage outer tube 51, the liquid storage outer tube 51 is divided into three liquid storage cavities by the two separation discs 53, an inner slide tube 54 is arranged at the middle fixing clamp of the liquid storage outer tube 51, the sealing cover 52 and the two separation discs 53, a liquid inlet inner tube 55 is slidably clamped in the inner slide tube 54, a sealing sleeve 56 is arranged between the outer side of the liquid inlet inner tube 55 and the inner side of the inner slide tube 54, a liquid inlet groove 552 is formed at the top of the liquid inlet inner tube 55 in a sealing manner, and the top of the liquid inlet inner tube 55 is fixedly provided with a liquid inlet bucket 9; the bottom of feed liquor groove 552 has seted up feed liquor logical groove 551, all seted up into liquid logical groove 541 on the inner slide 54 that is located the liquid storage cavity top, feed liquor logical groove 551 and go into liquid logical groove 541 cooperation and use, set up the steady voltage of intercommunication on separating dish 53 and the liquid storage outer tube 51 and wear the groove 531, the bottom fixation card of groove 531 is worn in the steady voltage is equipped with ventilated membrane frame 532, also the fixation card is equipped with ventilated membrane frame 532 on the closing cap 52, through setting up steady voltage and wear groove 531 cooperation ventilated membrane frame 532, carry out every liquid storage cavity and external space's communication, be convenient for urine get into in the liquid storage cavity, and through setting up ventilated membrane frame 532, prevent that the urine from leaking through steady voltage wear groove 531.

When the urine collecting device is used, a patient holds the liquid inlet bucket 9 by hand, the liquid inlet bucket 9 is sleeved at the urine outlet of the patient, the other hand holds the liquid storage outer tube 51, the liquid storage outer tube 51 is vertically slid, the inner sliding tube 54 is arranged on the outer side of the liquid inlet inner tube 55 and is in sealed vertical sliding lifting, firstly, the liquid inlet through groove 551 and the liquid inlet through groove 541 at the bottom are communicated, at the moment, urine enters the liquid inlet groove 552 in the liquid inlet inner tube 55 through the liquid inlet bucket 9, and enters the liquid storage cavity at the bottom through the liquid inlet through groove 551 and the liquid inlet through groove 541 at the top, primary section urine is collected, when primary section urine is collected, the liquid inlet through groove 551 and the liquid inlet through groove 541 at the bottom are communicated, urine directly enters the liquid inlet through groove 551 and the liquid inlet through groove 541 at the middle part, at the moment, urine directly enters the liquid inlet through groove 551 and the liquid inlet through groove 541 at the top are directly arranged in the liquid inlet through groove 551 and the liquid inlet through groove 541 at the bottom, and the liquid inlet through groove 541 at the top is quickly detected, and the urine is collected in the liquid inlet through groove 551 and the liquid inlet through groove and the liquid inlet through groove 541 at the liquid inlet through groove at the top and the liquid inlet through groove 55, and the liquid inlet through groove 541 at the top, and the liquid inlet through groove is respectively, and the urine is collected in the liquid inlet through groove and the liquid inlet through groove and the liquid inlet groove.

The liquid storage outer tube 51 positioned at the bottom of the liquid storage cavity is provided with a liquid discharge tube 57 in a uniform and integrated manner, a limiting ring 58 is fixedly clamped in the liquid discharge tube 57, and one side of the limiting ring 58 is fixedly connected with a sealing glue ring 581.

The liquid draining mechanism 7 comprises three liquid controlling outer frames 71 which correspond to the liquid draining pipes 57 in number and positions, the three liquid controlling outer frames 71 are fixedly arranged in the supporting frame 6, a first pipe 711 is integrally formed on one side of the liquid controlling outer frames 71, one side of the first pipe 711, which is far away from the liquid controlling outer frames 71, is movably clamped in the corresponding liquid draining pipe 57, the end part of the first pipe 711 is contacted with the corresponding sealing glue ring 581, an inner screw sleeve 75 is rotatably arranged on the outer side of the first pipe 711, the inner screw sleeve 75 is arranged on the outer side of the corresponding liquid draining pipe 57 in a threaded manner, and sealing threaded arrangement between the three liquid controlling outer frames 71 and the corresponding liquid draining pipes 57 is carried out;

a second pipe 712 is integrally formed on one side of the liquid control outer frame 71 far away from the first pipe 711, and a connecting hose 751 is fixedly arranged at the end part of the second pipe 712, and when in use, the end parts of the three connecting hoses 751 are connected to a detecting instrument;

the liquid control frame 71 is internally provided with a liquid control ball 72 in a rotating way, the middle part of the liquid control ball 72 is integrally provided with a liquid control shaft 73, the liquid control shaft 73 is installed on the corresponding liquid control frame 71 in a sealing way in a rotating way, the outer side of the liquid control ball 72 is provided with a dredging groove 721, when the dredging groove 721 is horizontal with the first pipe 711 and the second pipe 712, the first pipe 711 and the second pipe 712 are opened, when the dredging groove 721 is vertical with the first pipe 711 and the second pipe 712, the first pipe 711 and the second pipe 712 are closed, the middle part of the liquid control shaft 73 is provided with a penetrating groove 731, the top of the penetrating groove 731 is fixedly provided with an inner clamping ring 74, and the corresponding liquid control shaft 73 and the liquid control ball 72 are driven to rotate in the corresponding liquid control frame 71 through driving the inner clamping ring 74, so that the opening and the closing between the first pipe 711 and the second pipe 712 are realized.

The liquid discharging mechanism 7 further comprises a rotating seat 77, the rotating seat 77 is rotatably arranged on the first base 1, a crown gear 79 is fixedly arranged at the bottom of the rotating seat 77, a driving motor 8 is fixedly arranged in the first base 1, a driving gear 791 in meshed connection with the crown gear 79 is fixedly arranged at the driving end of the driving motor 8, and when the liquid discharging mechanism is used, the driving motor 8 is started to drive the driving gear 791 to drive the crown gear 79 and the rotating seat 77 to rotate;

the top end of the rotating seat 77 is fixedly provided with a lifting rod 78, the driving end of the lifting rod 78 is fixedly provided with a driving shaft 76, the driving shaft 76 movably penetrates through three penetrating grooves 731, the rotating seat 77 rotates to drive the lifting rod 78 and the driving shaft 76 to rotate, the lifting rod 78 is started to drive the driving shaft 76 to lift, the outer sides of the driving shaft 76 in the three penetrating grooves 731 are respectively fixedly sleeved with a bottom chuck 761, a middle chuck 762 and a top chuck 763 which are matched with the inner clamping ring 74, the bottom chuck 761, the middle chuck 762 and the top chuck 763 can be movably clamped in the corresponding inner clamping ring 74, the bottom chuck 761 is positioned at the bottom of the corresponding penetrating groove 731, the middle chuck 762 is positioned at the middle of the corresponding penetrating groove 731, the top chuck 763 is positioned at the top of the corresponding penetrating groove 731, when the lifting rod 78 is started to drive the driving shaft 76 to lift, the top chuck 763 is firstly meshed and clamped with the inner clamping ring 74 at the top position, the bottom chuck 761 and the middle chuck 762 are not engaged with the inner clamping ring 74, the driving shaft 76 is driven to rotate, the top position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 are driven to rotate in the corresponding liquid control outer frame 71, the driving shaft 76 is driven to ascend again, the middle chuck 762 is engaged with the middle position inner clamping ring 74, the bottom chuck 761 and the top chuck 763 are not engaged with the inner clamping ring 74, the driving shaft 76 is driven to rotate, the middle position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 are driven to rotate in the corresponding liquid control outer frame 71, the driving shaft 76 is driven to ascend again, the bottom position inner clamping ring 74, the middle chuck 762 and the top chuck 763 are not engaged with the inner clamping ring 74, and the driving shaft 76 is driven to rotate, and the bottom position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 are driven to rotate in the corresponding liquid control outer frame 71.

step one, movably clamping a liquid storage outer tube 51 on the top of a clamping seat 4, starting a telescopic rod 2 to drive a second base 3 to move towards one side close to a first base 1 for horizontal movement, movably clamping one side of a first tube 711 away from a liquid control outer frame 71 in a corresponding liquid discharge tube 57, enabling the end part of the first tube 711 to be in contact with a corresponding sealing glue ring 581, installing an inner screw sleeve 75 on the outer side of the corresponding liquid discharge tube 57 in a threaded manner, installing sealing threads between three liquid control outer frames 71 and the corresponding liquid discharge tube 57, and connecting the end parts of three connecting hoses 751 to a detection instrument;

step two, collecting first-stage urine, middle-stage urine and last-stage urine, wherein a patient holds the liquid inlet bucket 9 by hand, the liquid inlet bucket 9 is sleeved at a urine outlet of the patient, the other hand holds the liquid storage outer tube 51, the liquid storage outer tube 51 is vertically slid, the inner sliding tube 54 is hermetically and vertically lifted at the outer side of the liquid inlet inner tube 55, firstly, the liquid inlet through-groove 551 is communicated with the bottom liquid inlet through-groove 541, at this moment, urine enters the liquid inlet groove 552 in the liquid inlet inner tube 55 through the liquid inlet bucket 9, and enters a liquid storage cavity at the bottom through the liquid inlet through-groove 551 and the liquid inlet through-groove 541, and is collected in the first-stage urine, when the first-stage urine is collected, the liquid inlet through-groove 551 is communicated with the middle liquid inlet through-groove 541, at this moment, the urine directly enters the liquid inlet groove 552 in the liquid inlet inner tube 55 through the liquid inlet through-groove 551 and the liquid inlet through-groove 541 in the middle, and is collected in the middle-stage urine through the liquid inlet through-groove 551, and the liquid inlet through-groove 541 in the upper-stage urine is collected in the liquid inlet inner tube 55, and the urine is collected in the liquid inlet through-groove 551 and the top-stage urine through the liquid inlet through-groove 541 in the liquid inlet through-groove, and the top-stage urine is collected in the liquid inlet through-groove 551, and the top-stage urine is directly enters the liquid inlet through-groove in the liquid inlet through-groove into the liquid inlet groove 55, and at the top-section through-section;

step three, the classification detection of first section urine, middle section urine and last section urine is used, when the last section urine is needed, the lifting rod 78 is started to drive the driving shaft 76 to ascend, the top chuck 763 is engaged and clamped with the top position inner clamping ring 74, the bottom chuck 761 and the middle chuck 762 are not engaged and clamped with the inner clamping ring 74, the driving motor 8 drives the driving gear 791 to drive the crown gear 79 and the rotating seat 77 to rotate, the driving shaft 76 is driven to rotate, the top position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 are driven to rotate in the corresponding liquid control outer frame 71, the first pipe 711 and the second pipe 712 are opened, the last section urine enters the detection instrument through the dredging groove 721 in the corresponding first pipe 711, the liquid control outer frame 71, the second pipe 712 and the connecting hose 751, when the middle section urine is needed, the driving shaft 76 is driven to ascend again, the middle chuck 762 is engaged and clamped with the middle position inner clamping ring 74, the bottom chuck 761 and the top chuck 763 are not engaged and clamped with the inner clamping ring 74, the driving shaft 76 is driven to rotate to drive the middle position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 to rotate in the corresponding liquid control outer frame 71, the first pipe 711 and the second pipe 712 are opened, middle urine enters the detecting instrument through the dredging groove 721, the second pipe 712 and the connecting hose 751 in the corresponding first pipe 711 and the liquid control outer frame 71, when primary urine is needed to be used, the driving shaft 76 is driven to ascend again, the middle clamping ring 762 is engaged and clamped with the middle position inner clamping ring 74, the bottom clamping ring 761 and the top clamping ring 763 are not engaged and clamped with the inner clamping ring 74, the driving shaft 76 is driven to rotate to drive the middle position inner clamping ring 74, the liquid control shaft 73 and the liquid control ball 72 to rotate in the corresponding liquid control outer frame 71, the first pipe 711 and the second pipe 712 are opened, primary urine enters the detecting instrument through the dredging groove 721, the second pipe 712 and the connecting hose 751 in the corresponding first pipe 711 and the liquid control outer frame 71, and performing classification detection on primary urine, middle urine and final urine.

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

Claims

1. Medical data acquisition system based on artificial intelligence, including first base (1), its characterized in that: one side fixed mounting of first base (1) has telescopic link (2), the driving end fixed mounting of telescopic link (2) has second base (3), the top fixed mounting of second base (3) has cassette (4), the top activity card of cassette (4) is equipped with stock solution mechanism (5), the top fixed mounting of first base (1) has support frame (6), fixed mounting has flowing back mechanism (7) that use with stock solution mechanism (5) cooperation in support frame (6).

2. An artificial intelligence based medical data acquisition system according to claim 1 wherein: the utility model provides a liquid storage mechanism (5) is including stock solution outer tube (51), the top at cassette (4) is installed at stock solution outer tube (51) activity joint, closing cap (52) are installed to the top screw thread of stock solution outer tube (51), fixed block is equipped with two separation dish (53) in stock solution outer tube (51), two separate dish (53) divide into three stock solution cavity with stock solution outer tube (51), middle part fixed block of closing cap (52) and two separation dish (53) is equipped with interior slide pipe (54), slide block is equipped with feed liquor inner tube (55) in interior slide pipe (54), be equipped with seal cover (56) between the outside of feed liquor inner tube (55) and the inboard of interior slide pipe (54), feed liquor through groove (551) have been seted up at the top of feed liquor inner tube (55), be located all set up into stock solution through groove (541) on interior slide pipe (54) at stock solution outer tube (51) top, separate and set up feed liquor through groove (532) on the interior slide pipe (53) and the inner tube (54), seal cover (532) have also been seted up on the steady voltage membrane (532) of mutual ventilation film (531).

3. An artificial intelligence based medical data acquisition system according to claim 2 wherein: the top end of the liquid inlet inner cylinder (55) is fixedly provided with a liquid inlet hopper (9).

4. An artificial intelligence based medical data acquisition system according to claim 2 wherein: the liquid storage outer tube (51) positioned at the bottom of the liquid storage cavity is provided with a liquid discharge tube (57) in a uniform and integrated manner, a limiting ring (58) is fixedly clamped in the liquid discharge tube (57), and one side of the limiting ring (58) is fixedly connected with a sealing rubber ring (581).

5. An artificial intelligence based medical data acquisition system according to claim 4 and wherein: the liquid draining mechanism (7) comprises three liquid controlling outer frames (71) corresponding to the liquid draining pipes (57) in number and positions, the three liquid controlling outer frames (71) are fixedly installed in the supporting frame (6), liquid controlling balls (72) are rotatably clamped in the liquid controlling outer frames (71), liquid controlling shafts (73) are integrally formed in the middle of the liquid controlling balls (72), the liquid controlling shafts (73) are rotatably installed on the corresponding liquid controlling outer frames (71) in a sealing mode, dredging grooves (721) are formed in the outer sides of the liquid controlling balls (72), penetrating grooves (731) are formed in the middle of the liquid controlling shafts (73), and inner clamping rings (74) are fixedly clamped at the tops of the penetrating grooves (731).

6. An artificial intelligence based medical data acquisition system according to claim 5 wherein: one side integrated into one piece of accuse liquid frame (71) has first pipe (711), one side activity joint that accuse liquid frame (71) was kept away from to first pipe (711) is in corresponding fluid-discharge tube (57), the tip of first pipe (711) and corresponding seal gum ring (581) contact, interior screw sleeve (75) are installed in the outside rotation of first pipe (711), interior screw sleeve (75) screw thread installation is in the outside of corresponding fluid-discharge tube (57).

7. The artificial intelligence based medical data acquisition system of claim 6, wherein: a second pipe (712) is integrally formed on one side, far away from the first pipe (711), of the liquid control outer frame (71), and a connecting hose (751) is fixedly arranged at the end part of the second pipe (712).

8. An artificial intelligence based medical data acquisition system according to claim 5 wherein: the liquid draining mechanism (7) further comprises a rotating seat (77), the rotating seat (77) is rotatably arranged on the first base (1), a lifting rod (78) is fixedly arranged at the top end of the rotating seat (77), a driving shaft (76) is fixedly arranged at the driving end of the lifting rod (78), the driving shaft (76) movably penetrates through three penetrating grooves (731), bottom chucks (761), middle chucks (762) and top chucks (763) which are matched with the inner clamping rings (74) in use are fixedly sleeved on the outer sides of the driving shaft (76) in the penetrating grooves (731) respectively, the bottom chucks (761), the middle chucks (762) and the top chucks (763) can be movably clamped in corresponding inner clamping rings (74), the bottom chucks (761) are located at the bottoms of corresponding penetrating grooves (731), the middle chucks (762) are located at the middle parts of the corresponding penetrating grooves (731), and the top chucks (763) are located at the tops of the corresponding penetrating grooves (731).

9. The artificial intelligence based medical data acquisition system of claim 8, wherein: the bottom of the rotating seat (77) is fixedly provided with a crown gear (79), the first base (1) is fixedly provided with a driving motor (8), and the driving end of the driving motor (8) is fixedly provided with a driving gear (791) which is meshed with the crown gear (79).

10. The medical data acquisition method based on artificial intelligence is characterized by comprising the following steps of:

step one, movably clamping a liquid storage outer tube (51) at the top of a clamping seat (4), opening a telescopic rod (2) to drive a second base (3) to move towards one side close to a first base (1) to horizontally move, movably clamping one side, far away from a liquid control outer frame (71), of a first tube (711) in a corresponding liquid discharge tube (57), enabling the end part of the first tube (711) to be in contact with a corresponding sealing rubber ring (581), installing an inner screw sleeve (75) on the outer side of the corresponding liquid discharge tube (57) through threads, installing sealing threads between the three liquid control outer frames (71) and the corresponding liquid discharge tube (57), and connecting the end parts of three connecting hoses (751) to a detection instrument;

step two, collecting primary stage urine, middle stage urine and final stage urine, the patient holds the liquid inlet bucket (9), the liquid inlet bucket (9) is sleeved at the urine outlet of the patient, the liquid storage outer tube (51) is held by the other hand, the liquid storage outer tube (51) is vertically slid, the inner slide tube (54) is vertically slid and lifted in a sealing mode on the outer side of the liquid inlet inner tube (55), firstly, the liquid inlet through groove (551) is communicated with the bottommost liquid inlet through groove (541), at this time, urine enters the liquid inlet groove (552) in the liquid inlet inner tube (55) through the liquid inlet bucket (9), and enters the liquid storage cavity at the bottom through the liquid inlet through groove (551) and enters the liquid inlet through groove (541), and the primary stage urine is collected, when the primary stage urine is completely collected, the liquid storage outer tube (51) is slid upwards, the liquid inlet through groove (541) is communicated with the middle liquid inlet through groove (552), at this time, urine directly enters the liquid inlet groove (552) in the liquid inlet inner tube (55) through the liquid inlet through groove (551) and the liquid inlet through groove (551), urine directly enters the liquid inlet groove (552) in the liquid inlet through groove (541), and the liquid inlet through groove (541) at this time, urine is directly enters the liquid inlet through groove (541) and is directly communicated with the liquid inlet through groove (55) and the liquid inlet through groove (55) at the bottom The liquid inlet through groove (541) enters the uppermost liquid storage cavity to collect the tail urine, so that the rapid collection of the primary urine, the middle urine and the tail urine is realized, and the collected primary urine, middle urine and tail urine are respectively placed in the corresponding liquid storage cavities to be collected;

step three, the classification detection of the first-stage urine, the middle-stage urine and the last-stage urine is used, when the last-stage urine is needed, a lifting rod (78) is started to drive a driving shaft (76) to ascend, a top chuck (763) is engaged and clamped with an inner clamping ring (74) at the top position, a bottom chuck (761) and a middle chuck (762) are not engaged and clamped with the inner clamping ring (74), a driving motor (8) drives a driving gear (791) to drive a crown gear (79) and a rotating seat (77) to rotate, the driving shaft (76) is driven to rotate, the inner clamping ring (74) at the top position, a liquid control shaft (73) and a liquid control ball (72) are driven to rotate in a corresponding liquid control outer frame (71), the first tube (711) and the second tube (712) are opened, end urine enters the detection instrument through a dredging groove (721), the second tube (712) and a connecting hose (751) in the corresponding first tube (711) and the liquid control outer frame (71), when middle-section urine is needed to be used, the driving shaft (76) is driven to ascend again, the middle chuck (762) is engaged and clamped with the middle position inner clamping ring (74), the bottom chuck (761) and the top chuck (763) are not engaged and clamped with the inner clamping ring (74), the driving shaft (76) is driven to rotate, the middle position inner clamping ring (74), the liquid control shaft (73) and the liquid control ball (72) are driven to rotate in the corresponding liquid control outer frame (71), and the first tube (711), the second pipe (712) is opened, middle section urine is through dredging groove (721) in corresponding first pipe (711), accuse liquid frame (71), second pipe (712), coupling hose (751) get into detecting instrument, when needs use first section urine, drive shaft (76) again and rise, middle chuck (762) and middle part position inner snap ring (74) meshing joint, bottom chuck (761), top chuck (763) do not mesh joint with inner snap ring (74), drive shaft (76) rotation, drive middle part position inner snap ring (74), accuse liquid axle (73), accuse liquid ball (72) rotate in corresponding accuse liquid frame (71), open between first pipe (711), second pipe (712), first section urine is through dredging groove (721) in corresponding first pipe (711), accuse liquid frame (71), second pipe (712), coupling hose (751) get into detecting instrument, carry out the classification of first section urine, middle section urine and last section urine and use.