CN107167468A - Magnetic particle chemiluminescence immunoassay analyzer - Google Patents

Abstract

The invention discloses a magnetic particle chemiluminescence immunoassay analyzer, which comprises a supporting platform and reaction cup strips, wherein a cup discharging system, a sample filling system, a reagent filling system, an incubation system, a washing system, a substrate filling system, a detection system and a cup strip grabbing and transporting mechanism are arranged on the supporting platform; a sample system is arranged below the sample filling system, a reagent system is arranged below the reagent filling system, and a garbage bin is arranged below the detection system. The effect of adopting the present case is, has optimized the overall arrangement of each system to regard a plurality of magnetic particle reaction cups as detecting element, get into each system in batches through the reaction cup strip, practiced thrift detection time greatly, efficiency is higher.

Description

Magnetic microparticle chemiluminescence immune assay instrument

Technical field

The present invention relates to a kind of medicine equipment, and in particular to a kind of magnetic microparticle chemiluminescence immune assay instrument.

Background technology

Immunoassay experienced the different times such as radioimmunoassay, fluorescence immunoassay are examined, enzyme-labeled immunity is examined, and Full-automatic chemiluminescence immunity inspection is a new stage of immunoassay development, and its environmental protection, fast and accurately feature have obtained the generally understanding of people.Full-automatic chemiluminescence immunoassay analysis meter is, by detecting patients serum so as to carry out the medical laboratory instrument of immunoassay to human body, various detections to be carried out to blood with Full-automatic chemiluminescence immunoassay analysis meter, can improve detection efficiency and detection quality.

Magnetic particle refers to that what magnetic nano-particle and inorganic or organic molecule combined to form is dispersed in the colloidal state composite in certain base fluid with high stability.Because magnetic particle has magnetic responsiveness, cost is low, less energy consumption and free of contamination feature, the bioactive substances such as enzyme, antibody, oligonucleotides are fixed on magnetic particle surface or by the functional group on magnetic particle surface by people, can be further used for isolating and purifying and the field such as hybridization check for enzyme immobilizatio, target medicine carrier, cell sorting, immune detection, albumen and nucleic acid.

Traditional immunology detection is more using ELISA Plate as solid phase carrier, suspension magnetic particle has higher specific surface area as carrier, can substantially more with example reaction, in addition the flexible Application of externally-applied magnetic field, there is higher sensitivity, faster detection speed and more preferable repeatability than ELISA Plate, be widely used in the fields such as biological and medical science detection at present.

In existing magnetic microparticle chemiluminescence analyzer, each system is arranged on same layer, and single reaction cup is operated in each system successively as delivery unit, and detection efficiency is very low.

The content of the invention

In view of said one or multiple defects in the prior art is solved, the present invention provides a kind of magnetic microparticle chemiluminescence immune assay instrument.

Technical scheme is as follows：

A kind of magnetic microparticle chemiluminescence immune assay instrument, its key is：Including support platform and reaction cup bar, provided with row's cup system in the support platform, sample loading system, reagent loading system, incubation system, washing system, substrate loading system, detecting system and cup bar crawl transport establishment, magnetic particle reaction cup is provided with row cup system, reaction cup feeding mechanism is provided between row's cup system and sample loading system, magnetic particle reaction cup is sent into the reaction cup bar by the reaction cup feeding mechanism, the reaction cup bar is sequentially sent to the sample loading system by the cup bar crawl transport establishment, reagent loading system, incubation system, washing system and substrate loading system, reaction cup shift-out mechanism is provided between the substrate loading system and detecting system, the magnetic particle reaction cup is sent into the detecting system by the reaction cup shift-out mechanism；

Sample system is provided with below the sample loading system, reagent system is provided with below the reagent loading system, trash repository is provided with below the detecting system.

Remarkable result using above technical scheme is; change the layout type of traditional magnetic microparticle chemiluminescence analyzer; sample loading system is directly sampled from sample system below, and reagent loading system directly takes reagent from reagent system below, so as to reduce sampling and take the time of reagent；Meanwhile, multiple magnetic particle reaction cups constitute a detection unit by reaction cup bar, and detection efficiency is higher；Trash repository below detecting system is used to collect reaction cup after the completion of detection.

Provided with two cup bar crawl transport establishments in above-mentioned support platform, the incubation system, washing system, substrate loading system, detecting system are located between two cup bar crawl transport establishments, row's cup system, sample loading system and reagent loading system are located therein on the outside of any cup bar crawl transport establishment, and the reagent loading system is close to the incubation system.Using above technical scheme, two cup bars capture transport establishment, and the distribution relation of each system can further improve the running efficiency of reaction cup bar.

It is provided with close to above-mentioned sample loading system plus sample channel, reagent adding passage is provided with close to the reagent loading system, between the incubation system and washing system passage is mixed provided with reagent, passage is waited provided with detection between the substrate loading system and detecting system, the reaction cup shift-out mechanism is located at the detection and waited between passage and detecting system.Using above technical scheme, plus sample channel can contain reaction cup bar when filling sample, reagent adding passage can contain reaction cup bar when filling reagent, reagent, which mixes passage, can will enter the magnetic particle reaction cup mixing before incubation system, detection waits passage to be used to contain reaction cup bar to be detected, reaction cup shift-out mechanism, which is used to detect, waits the reaction cup to be detected in passage to send into detecting system, and can remove the reaction cup after system detectio after testing, loses into trash repository.

Surge flask rest area is provided with close to its edge in above-mentioned support platform, electric-control system is provided with below the incubation system, close to the sample loading system provided with tip rest areas.Using above technical scheme, surge flask rest area is used to place cleaning fluid, clear water and washing lotion, is arranged on the convenient operation in support platform edge.

At least one transfer hole is vertically offered on above-mentioned reaction cup bar and at least one reaction cup being adapted with the magnetic particle reaction cup places through hole, the bottom of the magnetic particle reaction cup passes the reaction cup and places the stopper slot that arc is equipped with through hole, the two sides of the reaction cup bar.Using above technical scheme, magnetic particle reaction cup is during transfer, it is ensured that detection is normally carried out；The bottom of magnetic particle reaction cup passes reaction cup and places through hole, convenient that magnetic particle reaction cup bottom is tapped, and magnetic particle reaction cup is shaken up.

Above-mentioned washing system includes substrate, the substrate is provided with supporting vertical plate, the supporting vertical plate is provided with vertical lifting mechanism, the vertical lifting mechanism is provided with first level sliding equipment, the first level sliding equipment is provided with washing pin, the second horizontal sliding equipment is provided with the substrate, the second horizontal sliding equipment is mutually perpendicular to the first level sliding equipment, the second horizontal sliding equipment is provided with washing dolly, the washing dolly is located at below the washing pin, provided with least two glasss of bar holding grooves on the washing dolly, the length direction of the cup bar holding groove is parallel with the glide direction of the described second horizontal sliding equipment, the two ends of the cup bar holding groove are open, the bottom opening of the cup bar holding groove, reaction cup uniform shaking mechanism is provided with the substrate below the washing dolly.Using above technical scheme, elevating mechanism and first level sliding equipment drive washing pin to do two dimensional motion, second horizontal sliding equipment drives washing cart vertical to be moved in first level sliding equipment, multiple reaction cup bars can be set on washing dolly, moved more than, washing pin can be washed to the reaction cup in multiple reaction cup bars, and efficiency is greatly improved.

Washing head is provided with above-mentioned first level sliding equipment, provided with pin is at least washed described in 2 groups on the washing head, length direction of the washing head along the cup bar holding groove is distributed.Using above technical scheme, set multigroup washing pin to be washed simultaneously to multiple magnetic particle reaction cups, greatly save the time.

Dolly locating rod is provided with above-mentioned washing head, the dolly locating rod is used to stretch into the transfer hole, multiple magnet is distributed with two internal groove side walls of the cup bar holding groove, the magnet is interspersed along the cup bar holding groove length direction.Using above technical scheme, dolly locating rod and washing pin are lowered into behind transfer hole, and reaction cup bar is positioned, and the second horizontal sliding equipment drives washing moving of car, magnetic particle reaction cup in reaction cup bar sequentially passes through the magnet being interspersed, and moves back and forth the magnetic particle in magnetic particle reaction cup.

Above-mentioned reaction cup uniform shaking mechanism include it is fixed on the substrate shake up motor, the output shaft for shaking up motor is connected with after protruding upward and shakes up disk, shaken up at this provided with eccentric thimble on disk, it is described when shaking up disc spins, drive eccentric thimble to tap the magnetic particle reaction cup bottom.Using above technical scheme, shake up motor belt motor and shake even disk, make the continuous drumming reaction cup bottom in eccentric top, mix magnetic particle reaction cup.

Beneficial effect：Using the magnetic microparticle chemiluminescence immune assay instrument of the present invention, the layout of each system is optimized, and regard multiple magnetic particle reaction cups as detection unit; each system is entered by reaction cup bar batch, detection time is greatlyd save, it is more efficient; reaction cup bar can be recycled, and save cost.

Brief description of the drawings

Fig. 1 is structural representation of the invention；

Fig. 2 is the distribution schematic diagram of each system in support platform 1；

Fig. 3 is the distribution schematic diagram of each system in the lower section of support platform 1；

The structural representation that Fig. 4 is washing system f in Fig. 2；

Fig. 5 is washing dolly f8 and reaction cup uniform shaking mechanism f10 corresponding relation figure；

Fig. 6 is distribution maps of the magnet f12 along cup bar holding groove f9 length directions；

Fig. 7 is reaction cup bar a structural representation；

Fig. 8 is magnetic particle reaction cup j and reaction cup bar a installation graph.

Embodiment

With reference to embodiment and accompanying drawing, the invention will be further described.

As shown in Fig. 1 to Fig. 8, a kind of magnetic microparticle chemiluminescence immune assay instrument, including support platform 1 and reaction cup bar a, provided with row's cup system b in the support platform 1, sample loading system c, reagent loading system d, incubation system e, washing system f, substrate loading system g, detecting system h and cup bar crawl transport establishment i, magnetic particle reaction cup j is provided with row cup system b, reaction cup feeding mechanism k is provided between row's cup system b and sample loading system c, magnetic particle reaction cup j is sent into the reaction cup bar a by the reaction cup feeding mechanism k, the reaction cup bar a is sequentially sent to the sample loading system c by the cup bar crawl transport establishment i, reagent loading system d, incubation system e, washing system f and substrate loading system g, reaction cup shift-out mechanism u is provided between the substrate loading system g and detecting system h, the magnetic particle reaction cup j is sent into the detecting system h by the reaction cup shift-out mechanism u；

Sample system m is provided with below the sample loading system c, reagent system n is provided with below the reagent loading system d, trash repository p is provided with below the detecting system h.

Provided with two cup bar crawl transport establishment i in the support platform 1, the incubation system e, washing system f, substrate loading system g, detecting system h are located between two cup bar crawl transport establishment i, row's cup system b, sample loading system c and reagent loading system d are located therein on the outside of any cup bar crawl transport establishment i, and the reagent loading system d is close to the incubation system e.

It is provided with close to the sample loading system c plus sample channel q, reagent adding passage r is provided with close to the reagent loading system d, between the incubation system e and washing system f passage s is mixed provided with reagent, passage t, the reaction cup shift-out mechanism u are waited between the detection waits passage t and detecting system h provided with detection between the substrate loading system g and detecting system h.

Surge flask rest area v is provided with close to its edge in the support platform 1, electric-control system w is provided with below the incubation system e, close to the sample loading system c provided with tip rest area x.

At least one transfer hole a1 is vertically offered on the reaction cup bar a and at least one reaction cup being adapted with the magnetic particle reaction cup j places through hole a2, the bottom of the magnetic particle reaction cup j passes the reaction cup and places the stopper slot a3 that arc is equipped with through hole a2, the two sides of the reaction cup bar a.

The washing system f includes substrate f1, substrate f1 is provided with supporting vertical plate f2, supporting vertical plate f2 is provided with vertical lifting mechanism f3, vertical lifting mechanism f3 is provided with first level sliding equipment f4, first level sliding equipment f4 is provided with washing pin f5, the second horizontal sliding equipment f7 is provided with the substrate f1, the second horizontal sliding equipment f7 and first level sliding equipment f4 is mutually perpendicular to, the second horizontal sliding equipment f7 is provided with washing dolly f8, washing dolly f8 is located at below the washing pin f5, provided with least two glasss of bar holding groove f9 on the washing dolly f8, the length direction of the cup bar holding groove f9 is parallel with the described second horizontal sliding equipment f7 glide direction, the two ends of the cup bar holding groove f9 are open, the bottom opening of the cup bar holding groove f9, reaction cup uniform shaking mechanism f10 is provided with the substrate f1 below the washing dolly f8.

Washing head f11 is provided with the first level sliding equipment f4, it is provided with washing head f11 and pin f5 is washed at least described in 2 groups, length direction distributions of the washing head f11 along the cup bar holding groove f9, dolly locating rod f6 is provided with the washing head f11, dolly locating rod f6 is used to stretch into the transfer hole a1, multiple magnet f12 are distributed with two internal groove side walls of the cup bar holding groove f9, the magnet f12 is interspersed along the cup bar holding groove f9 length directions.

The reaction cup uniform shaking mechanism f10 includes being fixed on the substrate f1 shaking up motor f101, the output shaft for shaking up motor f101 is connected with after protruding upward and shakes up disk f102, shaken up at this on disk f102 provided with eccentric thimble f103, it is described when shaking up disk f102 rotations, drive eccentric thimble f103 to tap the magnetic particle reaction cup j bottoms.

It is last it should be noted that; foregoing description is only the preferred embodiments of the present invention; one of ordinary skill in the art is under the enlightenment of the present invention; on the premise of without prejudice to present inventive concept and claim; expression as multiple types can be made, such conversion is each fallen within protection scope of the present invention.

Claims (9)

1. a kind of magnetic microparticle chemiluminescence immune assay instrument, it is characterised in that：Including support platform (1) and Reaction cup bar (a), in the support platform (1) provided with row cup system (b), sample loading system (c), Reagent loading system (d), incubation system (e), washing system (f), substrate loading system (g), detection system Unite (h) and cup bar crawl transport establishment (i), magnetic particle reaction cup (j) be provided with row cup system (b), Reaction cup feeding mechanism (k) is provided between row's cup system (b) and sample loading system (c), this is anti- Answer cup feeding mechanism (k) that magnetic particle reaction cup (j) is sent into the reaction cup bar (a), the cup bar crawl The reaction cup bar (a) is sequentially sent to the sample loading system (c), reagent and filled by transport establishment (i) System (d), incubation system (e), washing system (f) and substrate loading system (g), the substrate filling Reaction cup shift-out mechanism (u), the reaction cup shift-out mechanism are provided between system (g) and detecting system (h) (u) the magnetic particle reaction cup (j) is sent into the detecting system (h)；

Sample system (m) is provided with below the sample loading system (c), in the reagent loading system (d) Lower section is provided with reagent system (n), and trash repository (p) is provided with below the detecting system (h).

2. magnetic microparticle chemiluminescence immune assay instrument according to claim 1, it is characterised in that：Institute Support platform (1) is stated provided with two cup bars crawl transport establishments (i), the incubation system (e), Washing system (f), substrate loading system (g), detecting system (h) are located at two cup bar crawl transports Between mechanism (i), row's cup system (b), sample loading system (c) and reagent loading system (d) It is located therein on the outside of any cup bar crawl transport establishment (i), the reagent loading system (d) is close to institute State incubation system (e).

3. magnetic microparticle chemiluminescence immune assay instrument according to claim 1, it is characterised in that：It is close The sample loading system (c) sets provided with sample channel (q) is added close to the reagent loading system (d) There is reagent adding passage (r), passage is mixed provided with reagent between the incubation system (e) and washing system (f) (s) passage (t), institute, are waited provided with detection between the substrate loading system (g) and detecting system (h) Reaction cup shift-out mechanism (u) is stated to be located between the detection wait passage (t) and detecting system (h).

4. the magnetic microparticle chemiluminescence immune assay instrument according to claim 1,2,3, it is characterised in that： Surge flask rest area (v) is provided with close to its edge in the support platform (1), in the incubation system (e) Lower section is provided with electric-control system (w), close to the sample loading system (c) provided with tip rest areas (x).

5. the magnetic microparticle chemiluminescence immune assay instrument according to claim 1,2,3, it is characterised in that： Vertically offered on the reaction cup bar (a) at least one transfer hole (a1) and at least one with it is described The reaction cup that magnetic particle reaction cup (j) is adapted places through hole (a2), the magnetic particle reaction cup (j) Bottom passes and is equipped with arc on reaction cup placement through hole (a2), the two sides of the reaction cup bar (a) Stopper slot (a3).

6. magnetic microparticle chemiluminescence immune assay instrument according to claim 5, it is characterised in that：It is described Washing system (f) includes substrate (f1), and the substrate (f1) is provided with supporting vertical plate (f2), the supporting vertical plate (f2) vertical lifting mechanism (f3) is provided with, the vertical lifting mechanism (f3) is slided provided with first level Mechanism (f4), the first level sliding equipment (f4) is provided with washing pin (f5), at the substrate (f1) The second horizontal sliding equipment (f7) is provided with, the second horizontal sliding equipment (f7) slides with the first level Motivation structure (f4) is mutually perpendicular to, and the second horizontal sliding equipment (f7), should provided with washing dolly (f8) Wash dolly (f8) to be located at below the washing pin (f5), provided with least on the washing dolly (f8) Two cup bar holding grooves (f9), length direction and second level of the cup bar holding groove (f9) are slided The glide direction of mechanism (f7) is parallel, and the two ends of the cup bar holding groove (f9) are open, and the cup bar is held The bottom opening of access slot (f9), reaction cup is provided with the substrate (f1) below the washing dolly (f8) Uniform shaking mechanism (f10).

7. magnetic microparticle chemiluminescence immune assay instrument according to claim 6, it is characterised in that：Institute First level sliding equipment (f4) is stated provided with washing head (f11), provided with extremely on the washing head (f11) Washing pin (f5), length side of the washing head (f11) along the cup bar holding groove (f9) described in few 2 groups To distribution.

8. magnetic microparticle chemiluminescence immune assay instrument according to claim 7, it is characterised in that：Institute Washing head (f11) is stated provided with dolly locating rod (f6), the dolly locating rod (f6) is used to stretch into the shifting Hole (a1) is sent, multiple magnet (f12) are distributed with two internal groove side walls of the cup bar holding groove (f9), The magnet (f12) is interspersed along cup bar holding groove (f9) length direction.

9. magnetic microparticle chemiluminescence immune assay instrument according to claim 1, it is characterised in that：It is described Reaction cup uniform shaking mechanism (f10) includes being fixed on the substrate (f1) shaking up motor (f101), and this shakes The output shaft of even motor (f101) is connected with after protruding upward and shakes up disk (f102), and disk (f102) is shaken up at this It is described when shaking up disk (f102) rotation provided with eccentric thimble (f103), drive eccentric thimble (f103) Tap magnetic particle reaction cup (j) bottom.