CN202230093U - Leucorrhea analyzer - Google Patents

Abstract

The utility model discloses a leucorrhea analyzer, which comprises a sample conveying device, a dilution stirring device, a sample sucking device, a detection unit, an automatic controller, a washing device and a waste liquid zone. The sample conveying device is used for fixing leucorrhea samples and sending the leucorrhea samples to a follow-up station. The dilution stirring device adds dilution into the leucorrhea samples and stirs the leucorrhea samples evenly. The sample sucking device extracts diluted sample liquid from the leucorrhea samples. The detection unit is connected with a pipeline of the sample sucking device, and the sample liquid is detected under a microscope. The automatic controller is connected with the dilution stirring device, the sample sucking device and the detection unit respectively. The sample sucking device extracts washing fluid from the washing device, the washing fluid enters a waste liquid zone through a pipeline and a physical detection unit, a chemical detection unit of the detection unit can detect a plurality of items. The leucorrhea analyzer can automatically perform quantitative dilution and detection on the samples in a completely closed pipeline, reduces procedures contacted with the air, lowers pollution to the environment and a laboratory, can perform detection continuously and automatically and improves working efficiency.

Description

The leukorrhea analyser

Technical field

The utility model relates to a kind of medical science pick-up unit, specifically is a kind of leukorrhea analyser.

Background technology

Existing leukorrhea analyser all is to adopt the manual sheet mode that is coated with; With being put into microscopically behind the sample smear; Connect electronic eyepiece in the microscopically Direct observation or with microscope and in computer, observe, the defective that adopts this mode to exist at present has: 1) pure manual operations, and Interventions Requested are single; Can not do full leukorrhea routine inspection, need to cooperate additive method; 2) from sample collect the sample operation inspection and last sample liquid waste processing all has the environment of causing and breadboard pollution; 3) popular for what keep off infection, the cotton swab of the collect specimen that patient is used, the article that hold sample all will carry out special processing, and the link of processing is many more, and the probability that takes place to pollute is high more, and is in the checked operation process, also very unhygienic; 4) reporting format of unified standard; 5) can only detect a sample, detect inconvenience,, how handle discarded sample and can accomplish that timely Dishwasher also is a problem even a plurality of samples are tested.

The utility model content

The technical matters that the utility model will solve provides a kind of easy to operate leukorrhea analyser, can detect a plurality of samples, and detect finish after, instrument can automated cleaning, sample and consumptive material can be unified to disinfect, and avoid pollution.

The utility model adopts following technical scheme:

A kind of leukorrhea analyser comprises

Sample transport apparatus, said sample transport apparatus be leukorrhea sample and the leukorrhea sample delivered to follow-up station fixedly;

The dilution stirring apparatus, said dilution stirring apparatus adds dilution in the leukorrhea sample, and the leukorrhea sample is carried out stirring and evenly mixing;

Sample absorbing device, said sample absorbing device extract the sample liquid after the dilution from the leukorrhea sample;

Detecting unit, said detecting unit is connected with said sample absorbing device pipeline, and sample liquid detects at microscopically;

Self-actuated controller, said self-actuated controller are connected with detecting unit with said dilution stirring apparatus, sample absorbing device respectively;

Also comprise cleaning device and waste liquid district, said sample absorbing device extracts cleaning fluid from said cleaning device, and cleaning fluid gets into the waste liquid district through pipeline, detecting unit.

Further, said sample transport apparatus is a rotating disk, and the leukorrhea sample inserts in the said rotating disk.

Further; Said detecting unit comprises the physical detection unit; Said physical detection unit comprises external microscope, is installed in the electronic eyepiece on the microscope and is located at the counting chamber on the microscope stage, and said counting chamber is connected with the waste liquid district with sample absorbing device through pipeline respectively.

Further, said detecting unit comprises the chemical detection unit, and said chemical detection unit comprises reagent card, and said reagent card places on the rotating disk, the sample liquid of said sample absorbing device after reagent card adds dilution.

Further, said cleaning device comprises service sink and scavenging pump, and said scavenging pump is sent into cleaning fluid in the service sink through pipeline after extracting cleaning fluid.

Further, said service sink also is connected with the waste liquid district through pipeline, and cleaning fluid flows out from service sink and gets into the waste liquid district.

Further, said dilution stirring apparatus comprises sample-adding pump and liquid feeding pin, and said dilution gets into the liquid feeding pin from sample-adding pump through pipeline.

Further, said rotating disk one side is provided with first crane, and said liquid feeding pin is located on first crane.

Further; Said sample absorbing device comprises suction needle and inhales the appearance peristaltic pump; Said counting chamber is located at suction needle and is inhaled between the appearance peristaltic pump; And through pipeline and said suction needle with inhale an appearance peristaltic pump and be connected, a said suction kind peristaltic pump is located between counting chamber and the waste liquid district, and passes through pipeline and be connected with the waste liquid district with said counting chamber.

Further, said rotating disk one side is provided with second crane, and said suction needle is located on second crane, and said cleaning device comprises service sink, and said second crane drives suction needle and moves to the service sink place by the rotating disk top.

Further, also be provided with first camera on said first crane, said first camera is taken the leukorrhea sample that inserts on the rotating disk.

Further, also comprise second camera, said second camera is located at the rotating disk top, and the reagent card on the rotating disk is taken.

Further, between said suction needle and counting chamber, also be provided with electromagnetism pinch off valve.

The utility model can quantitatively dilute sample automatically, physics microscopy and chemical detection; Comparatively carrying out in the closed pipeline fully; Reduced the link that contacts with air, reduced, used computer software to control automatically environment and breadboard pollution; But continuous automatic inspection has improved work efficiency.

The principle of work of the leukorrhea analyser that the utility model relates to is: sample to be detected is put in the Riker mount; Riker mount is inserted in the rotating disk; Sample in the Riker mount is diluted stir by the dilution stirring apparatus; Draw specimen fluids by sample needle and carry out microscopically in the counting chamber and take pictures, and specimen fluids dripped to carry out chemical method on the reagent card and detect, reagent card is taken pictures by camera.Above process whole-course automation, the reviewer only need arrive and fill in testing result in the computer after detection was accomplished, and all photos can both be printed in report.

Description of drawings

The composition module diagram of the leukorrhea analyser that Fig. 1 relates to for the utility model.

The structural representation of the leukorrhea analyser that Fig. 2-4 relates to for the utility model, Fig. 2 is a front view, and Fig. 3 is a vertical view, and Fig. 4 is a left view.

Fig. 5 connects synoptic diagram for the pipeline of the leukorrhea analyser that the utility model relates to.

External microscopical synoptic diagram in the leukorrhea analyser that Fig. 6 relates to for the utility model.

The synoptic diagram of Riker mount in the leukorrhea analyser that Fig. 7 relates to for the utility model.

The synoptic diagram of reagent card in the leukorrhea analyser that Fig. 8 relates to for the utility model.

Embodiment

As shown in Figure 1, the leukorrhea analyser that the utility model relates to comprises sample transport apparatus, dilution stirring apparatus, sample absorbing device, detecting unit, self-actuated controller, cleaning device and waste liquid district.Said sample transport apparatus is leukorrhea sample and the leukorrhea sample delivered to follow-up station fixedly; Said dilution stirring apparatus adds dilution in the leukorrhea sample, and the leukorrhea sample is carried out stirring and evenly mixing; Said sample absorbing device extracts the sample liquid after the dilution from the leukorrhea sample; Said detecting unit is connected with said sample absorbing device pipeline, and sample liquid enters into detecting unit from sample absorbing device, detects at microscopically; Said self-actuated controller is connected with detecting unit with said dilution stirring apparatus, sample absorbing device respectively; Said sample absorbing device extracts cleaning fluid from said cleaning device, cleaning fluid gets into the waste liquid district at last through pipeline (seeing counting chamber pipe 18), detecting unit, and waste liquid barrel 22 in the waste liquid district, reclaims waste liquid.Self-actuated controller can adopt computer.

In conjunction with Fig. 3 and Fig. 7, said sample transport apparatus is a rotating disk 1, gathers through 10 pairs of leukorrhea samples of Riker mount, Riker mount 10 is inserted in the said rotating disk 1 again.Rotating disk 1 is divided into 24 zones, all is provided with socket in each zone, supplies Riker mount 10 to insert.Rotating disk 1 can rotate around the center, delivers on the next station through turning handle Riker mount 10.

In conjunction with Fig. 1, Fig. 5 and Fig. 6, said detecting unit comprises the physical detection unit, and said physical detection unit comprises external microscope 16, is installed in the electronic eyepiece 17 on the microscope 16 and is located at the counting chamber 15 on microscope 16 objective tables.Said counting chamber 15 is connected with the waste liquid district with sample absorbing device through pipeline respectively.Owing to be external microscope 16, therefore on the leukorrhea analyser, be provided with pipe interface, can simplify the structure on the analyser like this, and reduce instrument size.

In conjunction with Fig. 1, Fig. 3 and Fig. 8, said detecting unit also comprises the chemical detection unit, and said chemical detection unit comprises reagent card 11.Also be provided with the draw-in groove of inserting reagent card 11 in each zone of rotating disk 1, reagent card 11 is placed draw-in groove, the same with Riker mount 10, reagent card 11 also can follow the rotation of rotating disk 1 to get into follow-up station.Said sample absorbing device will produce chemical reaction to the sample liquid after reagent card 11 adds dilution.

As shown in Figure 5, said cleaning device comprises service sink 6 and scavenging pump 8, and scavenging pump 8 is a retaining valve, and said scavenging pump 8 is sent into cleaning fluid the service sink 6 through pipeline after cleaning fluid is extracted in filter washing water inlet 21.Because suction needle 5 can not extract all cleaning fluids from service sink 6, therefore said service sink 6 also is connected with the waste liquid district through pipeline (seeing waste liquid outlet 19), and cleaning fluid unnecessary in the service sink 6 can get into the waste liquid district.

In conjunction with Fig. 2 and Fig. 5; Said sample absorbing device comprises suction needle 5 and inhales appearance peristaltic pump 9; Said counting chamber 15 is located at suction needle 5 and is inhaled between the appearance peristaltic pump 9; And through pipeline and said suction needle 5 with inhale an appearance peristaltic pump 9 and be connected, a said suction kind peristaltic pump 9 is located between counting chamber 15 and the waste liquid district, and passes through pipeline and be connected with the waste liquid district with said counting chamber 15.Inhaling appearance peristaltic pump 9 is two-way valves, inhales appearance peristaltic pump 9 and is just changeing, and suction needle 5 is drawn sample liquid; Inhale 9 counter-rotatings of appearance peristaltic pump, suction needle 5 is emitted sample liquid.Consider that the sample liquid through suction needle 5 can occur stirring in flowing, therefore between said suction needle 5 and counting chamber 15, also be provided with electromagnetism pinch off valve 23, to guarantee the stable counting chamber 15 that enters into of sample liquid.Said dilution stirring apparatus comprises sample-adding pump 7, liquid feeding pin 2 and stirs hand 14 that sample-adding pump 7 is a retaining valve.Said dilution flows out through pipeline from dilution inlet 20, is added sample pump and extracts the last liquid feeding pin 2 that gets into.

Shown in Fig. 2-4, said rotating disk 1 one sides are provided with first crane 3, and said liquid feeding pin 2 is located on first crane 3.First crane 3 is provided with motor, can drive first crane 3.Likewise, also be provided with second crane 4 at said rotating disk 1 homonymy, said suction needle 5 is located on second crane 4, also is provided with motor on second crane 4.And according to demand, said second crane 4 can drive suction needle 5 and transfer to service sink 6 (i.e. B position among the figure) by rotating disk 1 top (i.e. A position, C position among the figure) and locate.In the time of promptly need inhaling kind, 5 pairs of Riker mounts 10 of suction needle (A position) sampling, sample liquid gets in the counting chambers 15 through suction needle 5; Suction needle 5 changes station again half, goes up dropping liquid at reagent card 11 (C position); When needing to clean, suction needle 5 moves on on the service sink 6 (B position).Also be provided with first camera 12 on said first crane 3, the leukorrhea sample on 12 pairs of rotating disks 1 of said first camera is taken.Said analyser also comprises second camera 13, and said second camera 13 is located at rotating disk 1 top, and the reagent card on the rotating disk 1 11 is taken.

The course of work of the leukorrhea analyser that the utility model relates to is following:

1) adopt special-purpose Riker mount 10 to gather the leukorrhea sample, the leukorrhea sample is in the more airtight environment in Riker mount 10;

2) Riker mount 10 is inserted in rotating disk 1 (sample transport apparatus) first area (seeing zone 1 among Fig. 3), simultaneously reagent card 11 is also put into the zone;

3) all samples to be measured are all placed after, booting computer is opened computation software;

4) after the analyser initialization, begin to detect;

5) first camera 12 is taken pictures to first Riker mount 10, can see the form of sample;

6) sample-adding pump 7 work, liquid feeding pin 2 descends, and inserts in the Riker mount 10 to begin to add quantitative dilution; After accomplishing, stirs liquid feeding hand 14 beginning stirring and evenly mixing leukorrhea samples;

7) station of rotating disk 1 rotation is inhaled an appearance peristaltic pump 9 and is just being changeed, and suction needle 5 rotates on the Riker mount 10 of firm mixing (position A); Insert and to draw quantitative specimen fluids in the Riker mount 10, this specimen fluids counting chamber 15 of flowing through, computer software is taken pictures at microscopically for it automatically; The number of taking pictures can be set as required; Photo is kept in the computer, also can open the software manual mode, and the manual shift microscope is also taken pictures;

8) suction needle 5 rises and changes station half, drops to reagent card 11 sample application zone (position C), inhales 9 counter-rotatings of appearance peristaltic pump, and sample suction pump is to reagent card 11 quantitative application of samples.

9) suction needle 5 rises and goes back to service sink 6 positions, drops in the service sink 6 (position B), and scavenging pump 8 is started working; Cleaning fluid is extracted in the service sink 6, inhales appearance peristaltic pump 9 subsequently and just change once more, suction needle 5 extracts cleaning fluid; Cleaning fluid is through pipeline counting chamber 15, and waste liquid is brought the waste liquid district into the most at last, after cleaning is accomplished; Suction needle 5 rises to initialized location, and the cleaning fluid in the service sink flows into the waste liquid district simultaneously;

10) continue to detect second Riker mount, process repeating step 5), take pictures, liquid feeding pin 2 descends ... rise to initialized location up to suction needle 5;

11) continue to detect the 3rd Riker mount ... amount to 24;

12) when detecting N Riker mount, (need the regular hour to the reaction completion) when chemical reaction is accomplished on first reagent card 11 from application of sample, 13 pairs of reagent cards 11 of second camera are taken pictures, and 13 pairs of all reagent cards of second camera are taken pictures successively;

13) alternative inspection report form is arranged in the function software, click first sample, information such as photo are presented in the inspection report automatically, and convenient check doctor fills in report;

14) reagent card and the Riker mount that detect after accomplishing can focus on.

Self-actuated controller in the utility model can be controlled the dilution stirring apparatus leukorrhea sample is quantitatively diluted automatically; And control dilution stirring apparatus is with the sample mixing; Control sample absorbing device and cleaning device are delivered to detecting unit with sample through pipeline and are detected, and are detecting end back cleaning detecting unit and connecting tube.Whole process comparatively carrying out in the closed pipeline, has reduced the link that contacts with the external world fully, has reduced environment and breadboard pollution.Use computer to control automatically in addition, improved work efficiency.

Claims (13)

1. a leukorrhea analyser comprises

Sample transport apparatus, said sample transport apparatus be leukorrhea sample and the leukorrhea sample delivered to follow-up station fixedly;

The dilution stirring apparatus, said dilution stirring apparatus adds dilution in the leukorrhea sample, and the leukorrhea sample is carried out stirring and evenly mixing;

Sample absorbing device, said sample absorbing device extract the sample liquid after the dilution from the leukorrhea sample;

Detecting unit, said detecting unit is connected with said sample absorbing device pipeline, and sample liquid detects at microscopically;

Self-actuated controller, said self-actuated controller are connected with detecting unit with said dilution stirring apparatus, sample absorbing device respectively;

It is characterized in that: also comprise cleaning device and waste liquid district, said sample absorbing device extracts cleaning fluid from said cleaning device, and cleaning fluid gets into the waste liquid district through pipeline, detecting unit.

2. leukorrhea analyser according to claim 1 is characterized in that: said sample transport apparatus is rotating disk (1), and the leukorrhea sample inserts in the said rotating disk (1).

3. leukorrhea analyser according to claim 1; It is characterized in that: said detecting unit comprises the physical detection unit; Said physical detection unit comprises external microscope (16); Be installed in the electronic eyepiece (17) on the microscope (16) and be located at the counting chamber (15) on microscope (16) objective table, said counting chamber (15) is connected with the waste liquid district with sample absorbing device through pipeline respectively.

4. leukorrhea analyser according to claim 2; It is characterized in that: said detecting unit comprises the chemical detection unit; Said chemical detection unit comprises reagent card (11), and said reagent card (11) places on the rotating disk (1), the sample liquid of said sample absorbing device after reagent card (11) adds dilution.

5. leukorrhea analyser according to claim 1 is characterized in that: said cleaning device comprises service sink (6) and scavenging pump (8), and said scavenging pump (8) is sent into cleaning fluid in the service sink (6) through pipeline after extracting cleaning fluid.

6. leukorrhea analyser according to claim 5 is characterized in that: said service sink (6) also is connected with the waste liquid district through pipeline, and cleaning fluid flows out from service sink (6) and gets into the waste liquid district.

7. leukorrhea analyser according to claim 2 is characterized in that: said dilution stirring apparatus comprises sample-adding pump (7) and liquid feeding pin (2), and said dilution gets into liquid feeding pin (2) from sample-adding pump (7) through pipeline.

8. leukorrhea analyser according to claim 7 is characterized in that: said rotating disk (1) one side is provided with first crane (3), and said liquid feeding pin (2) is located on first crane (3).

9. leukorrhea analyser according to claim 2; It is characterized in that: said sample absorbing device comprises suction needle (5) and inhales appearance peristaltic pump (9); Said counting chamber (15) is located at suction needle (5) and is inhaled between the appearance peristaltic pump (9); And through pipeline and said suction needle (5) with inhale an appearance peristaltic pump (9) and be connected, a said suction kind peristaltic pump (9) is located between counting chamber (15) and the waste liquid district, and passes through pipeline and be connected with the waste liquid district with said counting chamber (15).

10. leukorrhea analyser according to claim 9; It is characterized in that: said rotating disk (1) one side is provided with second crane (4); Said suction needle (5) is located on second crane (4); Said cleaning device comprises service sink (6), and said second crane (4) drives suction needle (5) and locates by moving to service sink (6) above the rotating disk (1).

11. leukorrhea analyser according to claim 8 is characterized in that: also be provided with first camera (12) on said first crane (3), said first camera (12) is gone up the leukorrhea sample that inserts to rotating disk (1) and is taken.

12. leukorrhea analyser according to claim 4 is characterized in that: also comprise second camera (13), said second camera (13) is located at rotating disk (1) top, and the reagent card (11) on the rotating disk (1) is taken.

13. leukorrhea analyser according to claim 9 is characterized in that: between said suction needle (5) and counting chamber (15), also be provided with electromagnetism pinch off valve (23).

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