CN105571928A - Sample detection system and sample detection method - Google Patents
Sample detection system and sample detection method Download PDFInfo
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- CN105571928A CN105571928A CN201510750769.XA CN201510750769A CN105571928A CN 105571928 A CN105571928 A CN 105571928A CN 201510750769 A CN201510750769 A CN 201510750769A CN 105571928 A CN105571928 A CN 105571928A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/38—Diluting, dispersing or mixing samples
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N21/00—Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
- G01N21/17—Systems in which incident light is modified in accordance with the properties of the material investigated
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/38—Diluting, dispersing or mixing samples
- G01N2001/386—Other diluting or mixing processes
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- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
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- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
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- Automatic Analysis And Handling Materials Therefor (AREA)
Abstract
The invention discloses a sample detection system and a sample detection method. The sample detection system comprises a sample vessel and a detection apparatus. The sample vessel comprises a primary vessel and four secondary vessels. Each of the four secondary vessels comprises a gas discharge tube, a gas discharge tube valve, a cavity partitioned by a sealing diaphragm, a reagent cavity, a diluent cavity and a sample cavity. The detection apparatus comprises a base plate and a plurality of compartments which are partitioned by vertical plates; each compartment is provided with a light receiver and a light emitter. The sample detection system is convenient to use, high in efficiency and capable of realizing detection of multiple items of a sample each time.
Description
Technical field
The present invention relates to medical field, be specifically related to a kind of pattern detection system and method.
Background technology
Sample analysis is very common at medical field, along with growth in the living standard, people more paid attention to health check-up originally, usually needed a female sample to be divided into multiple subsample in physical examination, respectively each subsample were carried out to the detection of different test item, in prior art, analytical instrument usually needs to attract female sample, and part is noted in different subsample containers afterwards, then adds different reagent respectively, complex operation, and in operating process, if the cleanliness of environment are inadequate, possible contaminated sample.
Summary of the invention
Goal of the invention: the present invention is intended to the defect overcoming prior art, provides a kind of pattern detection system and method.
Technical scheme: a kind of pattern detection system, comprises pick-up unit and sample container,
Described sample container comprises female container, the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container;
First sub-container is connected by the first pipeline with female container, and the first pipeline is provided with the first valve; Described first sub-container is cylindrical transparent containers, be divided into the first cavity, the first reagent chamber, the first dilution sap cavity, the first sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described first reagent chamber pre-installs the first reagent, described first dilution sap cavity pre-installs the first dilution, described in separate each chamber diaphragm seal can break when external force rocks the first sub-container; Be provided with the first separating part being fixedly connected on the first sub-container top in described first sample chamber and the first sample chamber be divided into the first main chamber of sample and the secondary chamber of the first sample, UNICOM bottom the secondary chamber of the first main chamber of sample and the first sample, the first float of sheet is provided with in the secondary chamber of described first sample, the secondary top of chamber of described first sample is provided with the first outlet pipe, first outlet pipe is provided with first and gives vent to anger valve, when the secondary chamber of the first sample is full of liquid, described first float floats and closes the opening of the secondary chamber of the first sample and the first outlet pipe UNICOM; First pipeline is connected to the top in the first main chamber of sample;
Second sub-container is connected by second pipe with female container, and second pipe is provided with the second valve; Described second sub-container is cylindrical transparent containers, be divided into the second cavity, the second reagent chamber, the second dilution sap cavity, the second sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described second reagent chamber pre-installs the second reagent, described second dilution sap cavity pre-installs the second dilution, described in separate each chamber diaphragm seal can break when external force rocks the second sub-container; Be provided with the second separating part being fixedly connected on the second sub-container top in described second sample chamber and the second sample chamber be divided into the second main chamber of sample and the secondary chamber of the second sample, UNICOM bottom the secondary chamber of the second main chamber of sample and the second sample, the second float of sheet is provided with in the secondary chamber of described second sample, the secondary top of chamber of described second sample is provided with the second outlet pipe, second outlet pipe is provided with second and gives vent to anger valve, when the secondary chamber of the second sample is full of liquid, described second float floats and closes the opening of the secondary chamber of the second sample and the second outlet pipe UNICOM; Second pipe is connected to the top in the second main chamber of sample;
3rd sub-container is connected by the 3rd pipeline with female container, and the 3rd pipeline is provided with the 3rd valve; Described 3rd sub-container is cylindrical transparent containers, be divided into the 3rd cavity, the 3rd reagent chamber, the 3rd dilution sap cavity, the 3rd sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 3rd reagent chamber prepackage the 3rd reagent, described 3rd dilution sap cavity prepackage the 3rd dilution, described in separate each chamber diaphragm seal can break when external force rocks the 3rd sub-container; Be provided with the 3rd separating part being fixedly connected on the 3rd sub-container top in described 3rd sample chamber and the 3rd sample chamber be divided into the 3rd main chamber of sample and the secondary chamber of the 3rd sample, UNICOM bottom the secondary chamber of the 3rd main chamber of sample and the 3rd sample, the 3rd float of sheet is provided with in the secondary chamber of described 3rd sample, the secondary top of chamber of described 3rd sample is provided with the 3rd outlet pipe, 3rd outlet pipe is provided with the 3rd and gives vent to anger valve, when the secondary chamber of the 3rd sample is full of liquid, described 3rd float floats and closes the opening of the secondary chamber of the 3rd sample and the 3rd outlet pipe UNICOM; 3rd pipeline is connected to the top in the 3rd main chamber of sample;
4th sub-container is connected by the 4th pipeline with female container, and the 4th pipeline is provided with the 4th valve; Described 4th sub-container is cylindrical transparent containers, be divided into the 4th cavity, the 4th reagent chamber, the 4th dilution sap cavity, the 4th sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 4th reagent chamber prepackage the 4th reagent, described 4th dilution sap cavity prepackage the 4th dilution, described in separate each chamber diaphragm seal can break when external force rocks the 4th sub-container; Be provided with the 4th separating part being fixedly connected on the 4th sub-container top in described 4th sample chamber and the 4th sample chamber be divided into the 4th main chamber of sample and the secondary chamber of the 4th sample, UNICOM bottom the secondary chamber of the 4th main chamber of sample and the 4th sample, the 4th float of sheet is provided with in the secondary chamber of described 4th sample, the secondary top of chamber of described 4th sample is provided with the 4th outlet pipe, 4th outlet pipe is provided with the 4th and gives vent to anger valve, when the secondary chamber of the 4th sample is full of liquid, described 4th float floats and closes the opening of the secondary chamber of the 4th sample and the 4th outlet pipe UNICOM; 4th pipeline is connected to the top in the 4th main chamber of sample;
Described pick-up unit comprises base plate and 5 the parallel risers be arranged on base plate, base plate superjacent air space is divided into the first compartment, the second compartment, the 3rd compartment, the 4th compartment; The base plate of described each compartment is provided with circular groove for placing sub-container; Described first compartment two ends are provided with the first optical receiver and the first optical transmitting set, and the first optical transmitting set is parallel with riser with the line of the first optical receiver; Described second compartment two ends are provided with the second optical receiver and the second optical transmitting set, and the second optical transmitting set is parallel with riser with the line of the second optical receiver; Described 3rd compartment two ends are provided with the 3rd optical receiver and the 3rd optical transmitting set, and the 3rd optical transmitting set is parallel with riser with the line of the 3rd optical receiver; Described 4th compartment two ends are provided with the 4th optical receiver and the 4th optical transmitting set, and the 4th optical transmitting set is parallel with riser with the line of the 4th optical receiver.
Further, described first dilution, the second dilution, the 3rd dilution, the 4th dilution are identical dilution; Described first reagent, the second reagent, the 3rd reagent, the 4th reagent are different reagent.
Further, described first pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are hard glass pipeline.
Further, described first pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are all connected to the bottom of female container.
Further, all diaphragm seals of sample container are circular seal film, are made up of two semicircle diaphragm seals, and two semicircle diaphragm seal rosin joints connect.
Further, described 5 risers are opaque riser.
Further, the liquid volume of described first reagent chamber, the second reagent chamber, the 3rd reagent chamber, the 4th reagent chamber, the first dilution sap cavity, the second dilution sap cavity, the 3rd dilution sap cavity, the 4th dilution sap cavity prepackage is no more than 2/3 of the volume in chamber, place.
Further, pick-up unit also comprises the controller controlling first, second, third and fourth optical transmitting set and first, second, third and fourth optical receiver.
Use an above-mentioned pattern detection systematic sample detection method, comprise the steps:
1) make the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th valve of giving vent to anger of giving vent to anger of giving vent to anger of giving vent to anger is in open mode;
2) female container splendid attire sample to be tested is utilized;
3) close the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th of giving vent to anger of giving vent to anger of giving vent to anger gives vent to anger valve;
4) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container is rocked;
5) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container are put into respectively the circular groove of the first compartment, the second compartment, the 3rd compartment, the 4th compartment;
6) the first optical transmitting set and the first optical receiver, the second optical transmitting set and the second optical receiver, the 3rd optical transmitting set and the 3rd optical receiver, the 4th optical transmitting set and the 4th optical receiver is utilized to detect the mixed liquor in the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container respectively.
Beneficial effect: pattern detection system and method for the present invention, use simple, only need directly sample to be put into female container, female sample just can be automatically realized to be divided into multiple subsample, and only need rock the mixing that operation just can realize subsample, dilution, reagent, and can carry out the detection of four test items when testing, easy to use, efficiency is high simultaneously.
Accompanying drawing explanation
Fig. 1 is sample container schematic diagram of the present invention;
Fig. 2 is pick-up unit schematic top plan view of the present invention;
Fig. 3 is that sample container of the present invention and pick-up unit coordinate schematic diagram;
Fig. 4 is diaphragm seal schematic diagram.
Embodiment
Reference numeral: 1 first sub-container; 2 second sub-containers; 3 the 3rd sub-containers; 4 the 4th sub-containers; 5 female containers; 1.1 first cavitys; 1.2 first reagent chamber; 1.3 first dilution sap cavities; 1.4 first sample chamber; 1.5 first floats; 1.6 first separating parts; 1.7 first outlet pipes; 1.8 first outlet pipe valves; 1.9 first valves; 1.10 the first pipeline; 11 base plates; 12,13,14,15,16 risers; 17 first optical transmitting sets; 18 first optical receivers.
Illustrate below in conjunction with accompanying drawing:
A kind of pattern detection system, comprise sample container and pick-up unit, sample container comprises the sub-container 2 of female container the 5, first sub-container 1, second, the 3rd sub-container 3, the 4th sub-container 4; First sub-container is connected by the first pipeline 1.10 with female container, and the first pipeline is provided with the first valve 1.9; Described first sub-container is cylindrical transparent containers, be divided into the first cavity 1.1, first reagent chamber 1.2, first dilution sap cavity 1.3, first sample chamber 1.4 from top to bottom successively, separated by diaphragm seal between each chamber, described first reagent chamber pre-installs the first reagent, described first dilution sap cavity pre-installs the first dilution, described in separate each chamber diaphragm seal can break when external force rocks the first sub-container; Be provided with the separating part 1.6 being fixedly connected on the first sub-container top in described first sample chamber and the first sample chamber be divided into the first main chamber of sample and the secondary chamber of the first sample, UNICOM bottom the secondary chamber of the first main chamber of sample and the first sample, the first float 1.5 of sheet is provided with in the secondary chamber of described first sample, the secondary top of chamber of described first sample is provided with the first outlet pipe 1.7, first outlet pipe is provided with first and gives vent to anger valve 1.8, when the secondary chamber of the first sample is full of liquid, described first float floats and closes the opening of the secondary chamber of the first sample and the first outlet pipe UNICOM; First pipeline is connected to the top in the first main chamber of sample;
Second sub-container is connected by second pipe with female container, and second pipe is provided with the second valve; Described second sub-container is cylindrical transparent containers, be divided into the second cavity, the second reagent chamber, the second dilution sap cavity, the second sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described second reagent chamber pre-installs the second reagent, described second dilution sap cavity pre-installs the second dilution, described in separate each chamber diaphragm seal can break when external force rocks the second sub-container; Be provided with the separating part being fixedly connected on the second sub-container top in described second sample chamber and the second sample chamber be divided into the second main chamber of sample and the secondary chamber of the second sample, UNICOM bottom the secondary chamber of the second main chamber of sample and the second sample, the second float of sheet is provided with in the secondary chamber of described second sample, the secondary top of chamber of described second sample is provided with the second outlet pipe, second outlet pipe is provided with second and gives vent to anger valve, when the secondary chamber of the second sample is full of liquid, described second float floats and closes the opening of the secondary chamber of the second sample and the second outlet pipe UNICOM; Second pipe is connected to the top in the second main chamber of sample;
3rd sub-container is connected by the 3rd pipeline with female container, and the 3rd pipeline is provided with the 3rd valve; Described 3rd sub-container is cylindrical transparent containers, be divided into the 3rd cavity, the 3rd reagent chamber, the 3rd dilution sap cavity, the 3rd sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 3rd reagent chamber prepackage the 3rd reagent, described 3rd dilution sap cavity prepackage the 3rd dilution, described in separate each chamber diaphragm seal can break when external force rocks the 3rd sub-container; Be provided with the separating part being fixedly connected on the 3rd sub-container top in described 3rd sample chamber and the 3rd sample chamber be divided into the 3rd main chamber of sample and the secondary chamber of the 3rd sample, UNICOM bottom the secondary chamber of the 3rd main chamber of sample and the 3rd sample, the 3rd float of sheet is provided with in the secondary chamber of described 3rd sample, the secondary top of chamber of described 3rd sample is provided with the 3rd outlet pipe, 3rd outlet pipe is provided with the 3rd and gives vent to anger valve, when the secondary chamber of the 3rd sample is full of liquid, described 3rd float floats and closes the opening of the secondary chamber of the 3rd sample and the 3rd outlet pipe UNICOM; 3rd pipeline is connected to the top in the 3rd main chamber of sample;
4th sub-container is connected by the 4th pipeline with female container, and the 4th pipeline is provided with the 4th valve; Described 4th sub-container is cylindrical transparent containers, be divided into the 4th cavity, the 4th reagent chamber, the 4th dilution sap cavity, the 4th sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 4th reagent chamber prepackage the 4th reagent, described 4th dilution sap cavity prepackage the 4th dilution, described in separate each chamber diaphragm seal can break when external force rocks the 4th sub-container; Be provided with the separating part being fixedly connected on the 4th sub-container top in described 4th sample chamber and the 4th sample chamber be divided into the 4th main chamber of sample and the secondary chamber of the 4th sample, UNICOM bottom the secondary chamber of the 4th main chamber of sample and the 4th sample, the 4th float of sheet is provided with in the secondary chamber of described 4th sample, the secondary top of chamber of described 4th sample is provided with the 4th outlet pipe, 4th outlet pipe is provided with the 4th and gives vent to anger valve, when the secondary chamber of the 4th sample is full of liquid, described 4th float floats and closes the opening of the secondary chamber of the 4th sample and the 4th outlet pipe UNICOM; 4th pipeline is connected to the top in the 4th main chamber of sample.
Sample in first to fourth sub-container can be respectively used to the detection of different test item, because the reagent used in different test item is different, so the first reagent, the second reagent, the 3rd reagent, the 4th reagent can be different reagent, the first dilution, the second dilution, the 3rd dilution, the 4th dilution can have some identical also can be different between two.In addition, the first pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are hard glass pipeline, like this in the operation of rocking sample container, can rock together each sub-container.First pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are all connected to the bottom of female container, are conducive to sample like this and flow in sub-container from female container.All diaphragm seals of sample container are circular seal film, are made up of two semicircle diaphragm seals, and two semicircle diaphragm seal rosin joints connect.Certain diaphragm seal also can be the more fragile diaphragm seal of whole piece.Sealing film strength will arrange suitable, ensure that diaphragm seal can not break, when firmly rocking sample container when normal transport sample container, liquid in each chamber can due to inertia impact diaphragm seal thus by diaphragm seal concussion fracture, thus sample, reagent, dilution realize mixing.The effect arranging cavity is that the proportion that mixed liquor accounts for sub-container total measurement (volume) is not too large, thus is convenient to mix, if the mixed liquor overfill in container, mixed effect is bad when sample, reagent, dilution mixing.
Pick-up unit comprises base plate 11 and 5 the parallel riser 12-16 be arranged on base plate, base plate superjacent air space is divided into the first compartment, the second compartment, the 3rd compartment, the 4th compartment; The base plate of described each compartment is provided with circular groove for placing sub-container; Described first compartment two ends be provided with the first optical receiver 18 and the first optical transmitting set 17, first optical transmitting set parallel with riser with the line of the first optical receiver; Described second compartment two ends are provided with the second optical receiver and the second optical transmitting set, and the second optical transmitting set is parallel with riser with the line of the second optical receiver; Described 3rd compartment two ends are provided with the 3rd optical receiver and the 3rd optical transmitting set, and the 3rd optical transmitting set is parallel with riser with the line of the 3rd optical receiver; Described 4th compartment two ends are provided with the 4th optical receiver and the 4th optical transmitting set, and the 4th optical transmitting set is parallel with riser with the line of the 4th optical receiver.5 risers are opaque riser, can avoid interfering with each other when detecting each sub-container sample like this.
Concrete detection method, comprises the steps:
1) make the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th valve of giving vent to anger of giving vent to anger of giving vent to anger of giving vent to anger is in open mode;
2) female container splendid attire sample to be tested is utilized; Directly can accept the body fluid (such as urine, blood) of patient body outflow with female container, also can be pour sample into female container with other container, also can be that dispenser is by female sample dispensing extremely female container.
3) close the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th of giving vent to anger of giving vent to anger of giving vent to anger gives vent to anger valve;
4) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container is rocked;
5) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container are put into respectively the circular groove of the first compartment, the second compartment, the 3rd compartment, the 4th compartment;
6) the first optical transmitting set and the first optical receiver, the second optical transmitting set and the second optical receiver, the 3rd optical transmitting set and the 3rd optical receiver, the 4th optical transmitting set and the 4th optical receiver is utilized to detect the mixed liquor in the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container respectively.
Concrete to realize former road as follows: step 1) open each valve; Step 2) in, sample becomes owner of sample container from female container flow, thus by float slowly levitating, thus the opening of connection outlet pipe that final float is blocked, prevent the sample of female container to continue to flow in sample chamber; Step 3) close each valve, now each sub-container have collected enough samples to be tested, and if there are some unnecessary samples to be tested also can remain on female container, can not bring harmful effect to detection.Step 4) mixing of sample, dilution, reagent can be realized; Step 5), 6) detection of the mixed liquor to each subsample can be realized.
Although the present invention illustrates with regard to preferred implementation and describes, only it will be understood by those of skill in the art that otherwise exceed claim limited range of the present invention, variations and modifications can be carried out to the present invention.
Claims (7)
1. a pattern detection system, comprises pick-up unit and sample container, it is characterized in that:
Described sample container comprises female container, the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container;
First sub-container is connected by the first pipeline with female container, and the first pipeline is provided with the first valve; Described first sub-container is cylindrical transparent containers, be divided into the first cavity, the first reagent chamber, the first dilution sap cavity, the first sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described first reagent chamber pre-installs the first reagent, described first dilution sap cavity pre-installs the first dilution, described in separate each chamber diaphragm seal can break when external force rocks the first sub-container; Be provided with the first separating part being fixedly connected on the first sub-container top in described first sample chamber and the first sample chamber be divided into the first main chamber of sample and the secondary chamber of the first sample, UNICOM bottom the secondary chamber of the first main chamber of sample and the first sample, the first float of sheet is provided with in the secondary chamber of described first sample, the secondary top of chamber of described first sample is provided with the first outlet pipe, first outlet pipe is provided with first and gives vent to anger valve, when the secondary chamber of the first sample is full of liquid, described first float floats and closes the opening of the secondary chamber of the first sample and the first outlet pipe UNICOM; First pipeline is connected to the top in the first main chamber of sample;
Second sub-container is connected by second pipe with female container, and second pipe is provided with the second valve; Described second sub-container is cylindrical transparent containers, be divided into the second cavity, the second reagent chamber, the second dilution sap cavity, the second sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described second reagent chamber pre-installs the second reagent, described second dilution sap cavity pre-installs the second dilution, described in separate each chamber diaphragm seal can break when external force rocks the second sub-container; Be provided with the second separating part being fixedly connected on the second sub-container top in described second sample chamber and the second sample chamber be divided into the second main chamber of sample and the secondary chamber of the second sample, UNICOM bottom the secondary chamber of the second main chamber of sample and the second sample, the second float of sheet is provided with in the secondary chamber of described second sample, the secondary top of chamber of described second sample is provided with the second outlet pipe, second outlet pipe is provided with second and gives vent to anger valve, when the secondary chamber of the second sample is full of liquid, described second float floats and closes the opening of the secondary chamber of the second sample and the second outlet pipe UNICOM; Second pipe is connected to the top in the second main chamber of sample;
3rd sub-container is connected by the 3rd pipeline with female container, and the 3rd pipeline is provided with the 3rd valve; Described 3rd sub-container is cylindrical transparent containers, be divided into the 3rd cavity, the 3rd reagent chamber, the 3rd dilution sap cavity, the 3rd sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 3rd reagent chamber prepackage the 3rd reagent, described 3rd dilution sap cavity prepackage the 3rd dilution, described in separate each chamber diaphragm seal can break when external force rocks the 3rd sub-container; Be provided with the 3rd separating part being fixedly connected on the 3rd sub-container top in described 3rd sample chamber and the 3rd sample chamber be divided into the 3rd main chamber of sample and the secondary chamber of the 3rd sample, UNICOM bottom the secondary chamber of the 3rd main chamber of sample and the 3rd sample, the 3rd float of sheet is provided with in the secondary chamber of described 3rd sample, the secondary top of chamber of described 3rd sample is provided with the 3rd outlet pipe, 3rd outlet pipe is provided with the 3rd and gives vent to anger valve, when the secondary chamber of the 3rd sample is full of liquid, described 3rd float floats and closes the opening of the secondary chamber of the 3rd sample and the 3rd outlet pipe UNICOM; 3rd pipeline is connected to the top in the 3rd main chamber of sample;
4th sub-container is connected by the 4th pipeline with female container, and the 4th pipeline is provided with the 4th valve; Described 4th sub-container is cylindrical transparent containers, be divided into the 4th cavity, the 4th reagent chamber, the 4th dilution sap cavity, the 4th sample chamber from top to bottom successively, separated by diaphragm seal between each chamber, described 4th reagent chamber prepackage the 4th reagent, described 4th dilution sap cavity prepackage the 4th dilution, described in separate each chamber diaphragm seal can break when external force rocks the 4th sub-container; Be provided with the 4th separating part being fixedly connected on the 4th sub-container top in described 4th sample chamber and the 4th sample chamber be divided into the 4th main chamber of sample and the secondary chamber of the 4th sample, UNICOM bottom the secondary chamber of the 4th main chamber of sample and the 4th sample, the 4th float of sheet is provided with in the secondary chamber of described 4th sample, the secondary top of chamber of described 4th sample is provided with the 4th outlet pipe, 4th outlet pipe is provided with the 4th and gives vent to anger valve, when the secondary chamber of the 4th sample is full of liquid, described 4th float floats and closes the opening of the secondary chamber of the 4th sample and the 4th outlet pipe UNICOM; 4th pipeline is connected to the top in the 4th main chamber of sample;
Described pick-up unit comprises base plate and 5 the parallel risers be arranged on base plate, base plate superjacent air space is divided into the first compartment, the second compartment, the 3rd compartment, the 4th compartment; The base plate of described each compartment is provided with circular groove for placing sub-container; Described first compartment two ends are provided with the first optical receiver and the first optical transmitting set, and the first optical transmitting set is parallel with riser with the line of the first optical receiver; Described second compartment two ends are provided with the second optical receiver and the second optical transmitting set, and the second optical transmitting set is parallel with riser with the line of the second optical receiver; Described 3rd compartment two ends are provided with the 3rd optical receiver and the 3rd optical transmitting set, and the 3rd optical transmitting set is parallel with riser with the line of the 3rd optical receiver; Described 4th compartment two ends are provided with the 4th optical receiver and the 4th optical transmitting set, and the 4th optical transmitting set is parallel with riser with the line of the 4th optical receiver.
2. pattern detection system according to claim 1, is characterized in that, described first dilution, the second dilution, the 3rd dilution, the 4th dilution are identical dilution; Described first reagent, the second reagent, the 3rd reagent, the 4th reagent are different reagent.
3. pattern detection system according to claim 1, is characterized in that, described first pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are hard glass pipeline.
4. pattern detection system according to claim 1, is characterized in that, described first pipeline, the second pipeline, the 3rd pipeline, the 4th pipeline are all connected to the bottom of female sample container.
5. pattern detection system according to claim 1, is characterized in that, all diaphragm seals of sample container are circular seal film, is made up of two semicircle diaphragm seals, and two semicircle diaphragm seal rosin joints connect.
6. pattern detection system according to claim 1, is characterized in that, described 5 risers are opaque riser.
7. use the pattern detection systematic sample detection method described in any one of claim 1-6, it is characterized in that comprising the steps:
1) make the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th valve of giving vent to anger of giving vent to anger of giving vent to anger of giving vent to anger is in open mode;
2) female container splendid attire sample to be tested is utilized;
3) close the first valve, the second valve, the 3rd valve, the 4th valve, first valve, second valve, the 3rd valve, the 4th of giving vent to anger of giving vent to anger of giving vent to anger gives vent to anger valve;
4) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container is rocked;
5) the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container are put into respectively the circular groove of the first compartment, the second compartment, the 3rd compartment, the 4th compartment;
6) the first optical transmitting set and the first optical receiver, the second optical transmitting set and the second optical receiver, the 3rd optical transmitting set and the 3rd optical receiver, the 4th optical transmitting set and the 4th optical receiver is utilized to detect the mixed liquor in the first sub-container, the second sub-container, the 3rd sub-container, the 4th sub-container respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510750769.XA CN105571928A (en) | 2015-11-06 | 2015-11-06 | Sample detection system and sample detection method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510750769.XA CN105571928A (en) | 2015-11-06 | 2015-11-06 | Sample detection system and sample detection method |
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CN105571928A true CN105571928A (en) | 2016-05-11 |
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Cited By (2)
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CN109425702A (en) * | 2017-08-24 | 2019-03-05 | 湖南三德科技股份有限公司 | Sample liquid sampling analysis method, apparatus and elemental analyser |
CN109425506A (en) * | 2017-08-24 | 2019-03-05 | 湖南三德科技股份有限公司 | A kind of sample liquid sampling analysis method, apparatus and elemental analyser |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109425702A (en) * | 2017-08-24 | 2019-03-05 | 湖南三德科技股份有限公司 | Sample liquid sampling analysis method, apparatus and elemental analyser |
CN109425506A (en) * | 2017-08-24 | 2019-03-05 | 湖南三德科技股份有限公司 | A kind of sample liquid sampling analysis method, apparatus and elemental analyser |
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