CN113281338A - Intelligent community comprehensive detection station - Google Patents

Abstract

The invention discloses an intelligent community comprehensive detection station which comprises a sample telescopic component, a first sample sucking component, a three-axis motion sliding seat, a dyeing component and a sample identification component, wherein the sample telescopic component comprises a mobile sliding group and a sampling platform; the first sample sucking component comprises a first sample sucking pipe for sucking a sample; the three-axis movement sliding seat comprises an X-axis moving sliding table, a Y-axis moving sliding table and a Z-axis moving sliding table, and a first sampling hand is arranged on the Z-axis moving sliding table; the staining assembly comprises a staining table, and a staining liquid pump and a staining liquid nozzle for staining the glass slide are arranged on the staining table; the sample identification assembly comprises a sample identification platform, and a detector for acquiring sample information is arranged on the sample identification platform; the invention provides an intelligent community comprehensive detection station, which solves the problem of doctor inspection by shooting an original manual interpretation detection method through a camera, transmitting an image to a database, and then carrying out AI (artificial intelligence) comparison and identification interpretation results.

Description

Intelligent community comprehensive detection station

Technical Field

The application belongs to the medical in-vitro diagnosis industry, and particularly relates to an intelligent community comprehensive detection station.

Background

Note that the contents described in this section do not represent all the related art.

On the one hand, the internet hospital can solve the problem of seeing a doctor in different places, but doctors can only inquire patients and explain the illness state of the patients on the internet, so the examination of the doctors is very large, the doctors usually inquire the specific illness state through clinic, then, a test item is developed according to the illness state, and the specific illness state of the patients is judged according to the result of a test sheet through the test sheet so as to give medicines according to the symptoms.

On the other hand, the internet hospital only solves the problem of clinical diagnosis, but most diseases can be accurately judged by a clinical laboratory test report sheet, and no test sheet is equal to a doctor who has fewer eyes, so that the condition of the disease can be judged only by listening and asking.

Disclosure of Invention

The invention mainly aims at the problems, and provides an intelligent community comprehensive detection station which solves the problem of doctor inspection by shooting an original manual interpretation detection method through a camera, transmitting an image to a database, and then carrying out AI (artificial intelligence) comparison and identification interpretation result.

In order to achieve the purpose, the invention provides an intelligent community comprehensive detection station, which comprises a detection area, wherein a sample telescopic component, a first sample absorbing component, a three-axis movement sliding seat, a dyeing component and a sample identification component are arranged on the detection area, wherein:

the sample telescopic assembly comprises a movable sliding group and a sampling table arranged on the movable sliding group, and the sampling table is used for placing a sampling pipe;

the first sample sucking component comprises a first sample sucking pipe extending into the sampling pipe to suck a sample;

the three-axis movement sliding seat comprises an X-axis moving sliding table, a Y-axis moving sliding table and a Z-axis moving sliding table, and a first sampling hand for clamping the carrier plate is arranged on the Z-axis moving sliding table;

the staining assembly comprises a staining table, and a staining liquid pump and a staining liquid nozzle for staining the glass slide are arranged on the staining table;

the sample identification assembly comprises a sample identification platform, and a detector used for obtaining sample information is arranged on the sample identification platform.

Furthermore, a biochemical reaction assembly is further arranged on the detection area, and comprises a containing platform, a second sample sucking assembly, a reaction cup and an identifier, wherein the containing platform is used for containing the sampling tube, and the second sample sucking assembly is provided with a second sample sucking tube which is used for extending into the sampling tube to suck a sample and placing the sample in the reaction cup.

Further, still be provided with on the detection zone and incubate the subassembly of heating, incubate the subassembly of heating and include rotary worktable, heat the module, the third inhales a kind subassembly, reagent and adds subassembly and integrated circuit board result identification subassembly, wherein, rotary worktable is last to have a several station, the several station on all have along with workstation pivoted integrated circuit board, the third inhales a kind subassembly and has and is used for stretching into absorb the sample in the sampling pipe and will the sample is placed the third on the integrated circuit board inhales a kind pipe.

Further, the heating module comprises a heating cover erected on a part of stations of the rotary worktable.

Further, reagent adds the subassembly including annotating the liquid pipe, annotating the liquid head and fixing annotate the liquid pipe and annotate the rack of liquid head, the lower extreme of rack is provided with the slide, be provided with fender magazine and drive on the slide keep off the magazine and be in remove on the slide to annotate the motor of liquid head lower extreme.

Furthermore, a bin and a transfer assembly are arranged on one working side of the rotary worktable, a feeding hole is communicated with the bin corresponding to the working position, and the bin is used for storing the board cards; move and carry the subassembly and correspond the material loading mouth is provided with the integrated circuit board propelling movement extremely the push pedal of station.

Further, one side of feed bin still is provided with the subassembly of snatching for realize compressing tightly and piling up of integrated circuit board.

Further, the detection zone includes urine detection zone, excrement and urine detection zone, blood detection zone, sputum detection zone, gynaecology andrology detection zone.

Compared with the prior art, the intelligent community comprehensive detection station provided by the invention solves the problem that a user can remotely provide reference for online doctors by taking a detection result from a nearby 'community comprehensive detection workstation' without using a hospital, and can reduce the burden of the hospital; other advantageous effects of the present invention are explained in the detailed description.

Drawings

Fig. 1 is an overall layout structure of an intelligent community comprehensive inspection station disclosed in the present application.

FIG. 2 is a perspective view of a front structure on a detection zone as disclosed herein.

FIG. 3 is a perspective view of a negative structure on a detection zone as disclosed herein.

Fig. 4 is a schematic perspective view of an incubation warming assembly.

FIG. 5 is a schematic perspective view of a reagent addition assembly.

Fig. 6 is a schematic perspective view of the rotary table.

Fig. 7 is a schematic perspective view of the warming cover.

Fig. 8 is a perspective view of the sample recognition assembly.

FIG. 9 is a schematic perspective view of a first wicking assembly.

FIG. 10 is a flow chart illustrating the use of the intelligent community comprehensive inspection station of the present application.

Reference numerals shown in the drawings: 1. a urine detection zone; 2. a feces detection area; 3. a blood detection zone; 4. a sputum detection zone; 5. a gynecological andrology examination area; 6. a sample retracting assembly; 7. a first wicking component; 8. a three-axis motion slide; 9. a dyeing component; 10. a sample identification component; 11. a biochemical reaction component; 12. an incubation warming component; 13. a sampling tube; 101. a sample identification stage; 102. a detector; 110. a receiving table; 111. a second sample aspirating assembly; 112. a reaction cup; 113. an identifier; 120. a rotary table; 121. a heating module; 122. a third sample aspirating assembly; 123. a reagent addition component; 124. a board card result identification component; 125. a station; 126. a board card; 127. a heating cover; 128. a storage bin; 129. a transfer component; 130. pushing the plate; 131. a grasping assembly; 1230. a liquid injection pipe; 1231. a liquid injection head; 1232. a rack; 1233. a slide base; 1234. a material blocking box; 1235. a motor; 600. moving the slide; 601. a sampling platform; 700. a first pipette; 800. an X-axis moving sliding table; 801. a Y-axis moving sliding table; 802. a Z-axis moving sliding table; 803. a first sampling hand; 900. a dyeing station; 901. a dyeing liquid pump; 902. a dyeing liquid nozzle.

Detailed Description

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

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention provides corresponding self-service detection through large-scale residences, communities, social health hospitals, urban health centers and the like, helps patients to indicate a reasonable detection scheme, information is uploaded to doctors by a detection station, and the doctors judge the specific illness state of the patients through the detected laboratory sheet result and then give medicines according to symptoms.

Next, referring to fig. 1 to 9, the intelligent community integrated inspection station will be described in detail. As shown in fig. 1, this detection station includes urine detection zone 1, excrement and urine detection zone 2, blood detection zone 3, sputum detection zone 4, gynaecology andrology detection zone 5 to the morphological staining method of one of them detection zone is taken as an example, is provided with sample flexible subassembly 6, first appearance subassembly 7 that inhale, triaxial motion slide 8, dyeing subassembly 9 and sample identification subassembly 10 on this detection zone, wherein:

as shown in fig. 4, the sample retracting assembly 6 comprises a movable slide group 600 and a sampling platform 601 arranged on the movable slide group 600, wherein a patient can take a sampling tube 13, place urine or feces, blood, sputum and the like into the sampling tube 13, and then place the sampling tube 13 with the collected sample on the sampling platform 601, so as to complete the preparation work before detection.

As shown in fig. 9, the first sample sucking member 7 includes a first sample sucking pipe 700, and the first sample sucking pipe 700 extends into the sampling pipe 13 to suck a sample.

As shown in fig. 2, the three-axis moving slide 8 includes an X-axis moving slide 800, a Y-axis moving slide 801, and a Z-axis moving slide 802, a first sampling hand 803 is disposed on the Z-axis moving slide 802, and the system controls the first sampling hand 803 to move on the three-axis moving slide 8, and grips the slide where the slide is placed, moves the slide to the sample assembly, and then samples are loaded onto the slide by the first sample-sucking tube 700.

Next, as shown in fig. 2, the staining process is started, and the staining assembly 9 includes a staining table 900, and a staining solution pump 901 and a staining solution nozzle 902 for staining the slide are provided on the staining table 900.

Finally, as shown in fig. 8, the sample recognition module 10 includes a sample recognition stage 101, a detector 102 for obtaining sample information is disposed on the sample recognition stage 101, the detector 102 includes an industrial camera, a microscope and a CCD module, after the above-mentioned staining process is completed, the first sampling hand 803 puts the slide into the sample recognition module area, automatically recognizes the bacteria under the microscope through the microscope auto-focus, and transmits the bacteria to the computer through the CCD, and the computer software recognizes the bacteria, and then sends the test result to the mobile phone or the mail of the patient according to the option design.

In the above embodiment, it should be noted that the number of the first sampling hands 803 is two, and after the first sampling tube 700 is extended into the sampling tube 13 to suck the sample, the first sampling hands 803 remove the sampling tube 13 by gripping the sampling tube 13, so as to perform the subsequent automatic sampling.

Taking the biochemical method of the detection area as an example, as shown in fig. 3, a biochemical reaction assembly 11 is further disposed on the detection area, the biochemical reaction assembly 11 includes a receiving platform 110, a second sample sucking assembly 111, a reaction cup 112 and an identifier 113, wherein the receiving platform 110 is used for receiving the sampling tube 13, the second sample sucking assembly 111 has a second sample sucking tube (not shown) which is used for extending into the sampling tube 13 to suck the sample and place the sample in the reaction cup 112, the second sample sucking assembly 111 has a structure substantially the same as that of the first sample sucking assembly 7, after the sample collected by the first sample sucking assembly 7 is placed in the biochemical reaction assembly 11 by the three-axis movement slide carriage 8, the reagent is sucked by the second sample sucking assembly 111 and placed in the reaction cup 112, after the reagent reacts with the sample, the result is identified by the built-in identifier 113 and transmitted to a computer for processing, and sending to the mobile phone or the mail of the patient according to the setting.

Taking dry chemistry and immunochemistry methods of a detection area as examples, as shown in fig. 4-7, an incubation warming assembly 12 is further disposed on the detection area, the incubation warming assembly 12 includes a rotary table 120, a warming module 121, a third sample aspirating assembly 122, a reagent adding assembly 123 and a card result identifying assembly 124, wherein the rotary table 120 has a plurality of stations 125, the stations 125 each have a card 126 rotating with the table, the third sample aspirating assembly 122 has a third sample aspirating tube (not shown) for extending into the sampling tube 13 to aspirate a sample and placing the sample on the card 126, the third sample aspirating assembly 122 has substantially the same structure as the first sample aspirating assembly 7, the sample collected by the first sample aspirating assembly 7 is clamped by the first sampling hand 803, the sample cup is moved by the three-axis movement carriage 8, and the sample is added to the card 126, reaction liquid is added to the dry chemical board card 126 through the reagent adding component 123, incubation and heating reaction is carried out through the rotary worktable 120 and the heating module 121, and then the result is interpreted through the board card result identification component 124 and sent to a mobile phone or a mail of a patient according to setting.

In the above embodiment, as shown in fig. 7, the warming module 121 includes a warming cover 127 mounted on a part of the working station of the rotary table 120.

In the disclosed example, as shown in fig. 5, the reagent adding component 123 includes an injection pipe 1230, an injection head 1231 and a rack 1232 for fixing the injection pipe 1230 and the injection head 1231, the lower end of the rack 1232 is provided with a slide base 1233, the slide base 1233 is provided with a material blocking box 1234 and a driving mechanism, the material blocking box 1234 is arranged on the slide base 1233 and moves to the motor 1235 at the lower end of the injection head 1231, it can be understood that the reagent adding component 123 adds the reaction liquid on the board card 126 through the injection pipe 1230 and the injection head 1231, in order to avoid the leakage of the reaction liquid left on the injection head 1231, the motor 1235 drives the material blocking box 1234 to move to the lower end of the injection head 1231, on the one hand, the influence on the detection result is avoided, on the other hand, the rotary worktable 120 can be kept clean, and the liquid on the material blocking box 1234 can be sucked out of the reaction liquid through the suction pipe, so as to avoid waste.

In the disclosed example, as shown in fig. 4, a stock bin 128 and a transfer component 129 are arranged on one side of the rotary table 120, a feeding port is arranged through the stock bin 128 corresponding to the station 125, and the stock bin 128 is used for storing the board cards 126; the moving and carrying assembly 129 is provided with a push plate 130 which pushes the board cards 126 to the stations 125 corresponding to the feeding port, and one side of the stock bin 128 is also provided with a grabbing assembly 131 which is used for realizing the pressing and stacking of the board cards 126, and it can be understood that the part is the feeding process of the board cards 126 at each station 125 on the rotary worktable 120, the stock bin 128 stacks the board cards 126, and the push plate 130 pushes the board cards 126 at the bottom of the stock bin 128 to the corresponding stations 125.

Through reading and understanding of the specific embodiment, a user uses a mobile phone to download a special APP by scanning a two-dimensional code matched with the device, after the APP is downloaded, personal user information is registered on the mobile phone, APP software can display a detected category for the user to select the content which the user wants to detect, different sampling pipes can be provided by the device according to the detected content, the user provides a sample according to the detected category, after the sample is placed in a device detection window, the device can automatically detect the selected detection item according to the user, the checking result is obtained by artificial intelligence identification technology, and then the checking result is sent to the user mobile phone and the mailbox according to the data registered by the user, or the user can be sent to a third-party hospital or an internet-designated hospital, so that the problem that the user can go to the hospital to perform comprehensive detection on the nearby community is solved, the detection result is obtained through a community comprehensive detection workstation, and reference basis is provided for online doctors remotely.

From a reading of the foregoing detailed description, it will be appreciated by those skilled in the art that the invention can be readily implemented. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the basis of the embodiments disclosed, a person skilled in the art can combine different features at will, so as to implement different solutions, and can combine different forms of additional functions to form other solutions. The scope of protection of the application is therefore only limited by the scope of the appended claims.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (8)

1. The utility model provides an intelligent community synthesizes inspection station, a serial communication port, includes the detection zone, be provided with sample flexible subassembly, first appearance subassembly, triaxial motion slide, dyeing subassembly and sample identification subassembly of inhaling on the detection zone, wherein:

the sample telescopic assembly comprises a movable sliding group and a sampling table arranged on the movable sliding group, and the sampling table is used for placing a sampling pipe;

the first sample sucking component comprises a first sample sucking pipe extending into the sampling pipe to suck a sample;

the three-axis movement sliding seat comprises an X-axis moving sliding table, a Y-axis moving sliding table and a Z-axis moving sliding table, and a first sampling hand for clamping the carrier plate is arranged on the Z-axis moving sliding table;

the staining assembly comprises a staining table, and a staining liquid pump and a staining liquid nozzle for staining the glass slide are arranged on the staining table;

the sample identification assembly comprises a sample identification platform, and a detector used for obtaining sample information is arranged on the sample identification platform.

2. The intelligent community comprehensive detection station according to claim 1, wherein a biochemical reaction assembly is further disposed on the detection area, and the biochemical reaction assembly comprises a holding platform, a second sample suction assembly, a reaction cup and an identifier, wherein the holding platform is used for holding the sampling tube, and the second sample suction assembly has a second sample suction tube which is used for extending into the sampling tube to suck a sample and place the sample in the reaction cup.

3. The intelligent community comprehensive detection station according to claim 1, wherein an incubation heating assembly is further arranged on the detection area, the incubation heating assembly comprises a rotary workbench, a heating module, a third sample sucking assembly, a reagent adding assembly and a board card result identification assembly, a plurality of stations are arranged on the rotary workbench, board cards rotating along with the workbench are arranged on the stations, and the third sample sucking assembly is provided with a third sample sucking pipe used for extending into the sampling pipe to suck a sample and placing the sample on the board cards.

4. The intelligent community comprehensive inspection station of claim 3, wherein the warming module comprises a warming hood erected at a part of the stations of the rotary worktable.

5. The intelligent community comprehensive detection station according to claim 3, wherein the reagent adding assembly comprises an injection pipe, an injection head and a rack for fixing the injection pipe and the injection head, a slide seat is arranged at the lower end of the rack, and a material blocking box and a motor for driving the material blocking box to move on the slide seat to the lower end of the injection head are arranged on the slide seat.

6. The comprehensive intelligent community detection station according to claim 3, wherein a bin and a transfer assembly are arranged on one working side of the rotary worktable, a feeding hole is formed in the bin corresponding to the working position, and the bin is used for storing board cards; move and carry the subassembly and correspond the material loading mouth is provided with the integrated circuit board propelling movement extremely the push pedal of station.

7. The intelligent community comprehensive detection station according to claim 6, wherein a grabbing assembly is further arranged on one side of the storage bin and used for achieving pressing and stacking of the board cards.

8. The intelligent community comprehensive testing station of any one of claims 1 to 7, wherein the testing area comprises a urine testing area, a feces testing area, a blood testing area, a sputum testing area, and a gynecological male testing area.

Images