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Small full-automatic chemiluminescence analysis system

An automatic chemical and luminescent analysis technology, applied in the direction of chemiluminescence/bioluminescence, analyzing materials through chemical reactions, analyzing materials, etc., can solve problems such as too many parts, complex structure, high failure rate, etc., and achieve the degree of automation High, small size, low cost effect

Pending Publication Date: 2021-06-04
GUANGZHOU KEFEN BIOTECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, chemiluminescence immunoassay analyzers in the industry generally have large volume, complex structure, high cost, high failure rate, and too many parts

Method used

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  • Small full-automatic chemiluminescence analysis system
  • Small full-automatic chemiluminescence analysis system
  • Small full-automatic chemiluminescence analysis system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] Embodiment one: one-step method A

[0041] see Figure 9 , the one-step method A provided by Embodiment 1 of the present invention includes:

[0042] Step S101: the mechanical gripper grabs a new cuvette from the cuvette tray to the cuvette hole of the mixing assembly;

[0043] Step S102: the sampling needle draws the sample of the sample tube in the tray of the reagent sample assembly, and adds the sample to the reaction cup, and then cleans the sampling needle;

[0044] Step S103: the sampling needle moves to the tray of the reagent sample assembly to absorb the reagent, and adds the reagent to the reaction cup, and then cleans the sampling needle;

[0045] Step S104: After the mixing component mixes the cuvette, the mechanical gripper grabs the cuvette with the sample and reagent added to the incubation plate for incubation;

[0046] Step S105: The mechanical gripper takes the cuvette out of the incubation tray and sends it to the magnetic separation and cleaning ...

Embodiment 2

[0049] Embodiment two: one-step method B

[0050] see Figure 10 , the one-step method B provided by Embodiment 2 of the present invention includes:

[0051] Step S201: the mechanical gripper grabs a new cuvette from the cuvette tray to the cuvette hole of the mixing assembly;

[0052] Step S202: the sampling needle draws the sample of the sample tube in the tray of the reagent sample assembly, and adds the sample into the reaction cup, and then cleans the sampling needle;

[0053] Step S203: the sampling needle moves to the tray of the reagent sample assembly to absorb the reagent, and adds the reagent to the cuvette, and then cleans the sampling needle;

[0054] Step S204: After the mixing component mixes the cuvette, the mechanical gripper grabs the cuvette with the sample and reagent added to the incubation plate for incubation;

[0055] Step S205: the mechanical gripper takes the cuvette out of the incubation tray and sends it to the mixing component;

[0056] Step S2...

Embodiment 3

[0061] Embodiment three: two-step method

[0062] see Figure 11 , the two-step method provided by Embodiment 3 of the present invention includes:

[0063] Step S301: the mechanical gripper grabs a new cuvette from the cuvette tray to the cuvette hole of the mixing assembly;

[0064] Step S302: the sampling needle draws the sample of the sample tube in the tray of the reagent sample assembly, and adds the sample into the reaction cup, and then cleans the sampling needle;

[0065] Step S303: the sampling needle moves to the tray of the reagent sample assembly to absorb the reagent, and adds the reagent to the cuvette, and then cleans the sampling needle;

[0066]Step S304: After the mixing component mixes the cuvette, the mechanical gripper grabs the cuvette with the sample and reagent added to the incubation plate for incubation;

[0067] Step S305: The mechanical gripper takes the cuvette out of the incubation tray and sends it to the magnetic separation cleaning component...

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PUM

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Abstract

The invention discloses a small full-automatic chemiluminescence analysis system which comprises a rack, a control part and an analysis part, wherein the rack is provided with a bottom plate, and the control part is fixed on the rack; the analysis part comprises a main control board as well as a reaction cup assembly, a three-dimensional gripper assembly, a reagent sample assembly, an incubation assembly, a magnetic separation cleaning assembly, an optical detection assembly, a uniform mixing assembly, a sample adding needle assembly and a waste liquid needle assembly which are arranged on the bottom plate and are respectively connected with the main control board; the main control board is connected with the control part; and the control part controls each component of the analysis part through the main control board. According to the small full-automatic chemiluminescence analysis system provided by the invention, various components for chemiluminescence analysis are integrated on the rack to realize and support various reaction methodologies, and the small full-automatic chemiluminescence analysis system is high in automation degree, small in size, simple in structure, low in cost and complete in function.

Description

technical field [0001] The invention relates to the technical field of small-scale full-automatic chemiluminescence analysis, in particular to a small-scale full-automatic chemiluminescence analysis system. Background technique [0002] Currently in the field of in vitro diagnostics, Chemiluminescence Immunoassay (CLIA) combines a highly sensitive chemiluminescence assay with a highly specific immune response method to quantitatively detect various antigens, haptens, antibodies, Analytical techniques for hormones, enzymes, fatty acids, vitamins and drugs, etc. The fully automatic chemiluminescent immunoassay analyzer includes functional modules such as a sample module, a reagent module, a reaction module and a detection module. The detection process of the analyzer generally includes: first put the sample and reagent into the sample module and the reagent module respectively, then add the sample and reagent into the cuvette, then let the cuvette go through the incubation an...

Claims

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Application Information

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IPC IPC(8): G01N35/00G01N35/02G01N35/04G01N35/10G01N21/76
CPCG01N35/00G01N35/0099G01N35/026G01N35/1009G01N35/04G01N21/76G01N2035/00356G01N2035/00465
Inventor 宋德键张靖
Owner GUANGZHOU KEFEN BIOTECH CO LTD