CN217112372U

CN217112372U - High-flux full-automatic immune luminescence analysis system

Info

Publication number: CN217112372U
Application number: CN202123254651.8U
Authority: CN
Inventors: 何宗平
Original assignee: Fosun Diagnostic Technology Hefei Co ltd
Current assignee: Fosun Diagnostic Technology Hefei Co ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2022-08-02
Anticipated expiration: 2031-12-21

Abstract

The utility model relates to a biological monitoring and clinical examination equipment field, specific is a full-automatic immune luminescence analysis system of high flux, including sample delivery track, be provided with the application of sample arm between sample delivery track and the reaction dish, be provided with the arm between reagent storehouse and the application of sample subassembly. The utility model discloses sample conveying track carries the sample frame to specific position, draws the sample by the application of sample arm and puts into reaction cup in the reaction disc, washs the application of sample needle in dashing the needle station after drawing, then reaction disc rotation to specific position, has added sample conveying track and application of sample arm, improves work efficiency; the reaction cup is clamped by the mechanical arm to be placed into the mixing mechanism during mixing, the reaction cup is clamped by the mechanical arm to be placed into the reaction disc for incubation reaction after mixing, the reaction cup is clamped by the mechanical arm of the cleaning station to be cleaned in the cleaning station after incubation, the reaction cup is clamped by the mechanical arm of the cup falling mechanism to the measuring position of the measuring chamber after cleaning, and the reaction cup is clamped by the mechanical arm of the cup falling mechanism to be placed into the cup falling mechanism after measuring, so that the working efficiency is improved.

Description

High-flux full-automatic immune luminescence analysis system

Technical Field

The utility model relates to a biological monitoring and clinical examination equipment field, specifically are a full-automatic immune luminescence analysis system of high flux.

Background

With the development of scientific technology, chemiluminescence, which uses light excited during a chemical reaction and bioluminescence, which uses light generated by enzymatic catalysis during a chemical reaction, and biochemical luminescence measurement, which has become common in recent years, have been used to determine the content of an unknown component in a sample to be measured, and have also played an important role in the study of gene expression and regulation in the past decade. Compared with other measurement technologies, the chemical and biochemical luminescence measurement technologies have the following advantages: extremely high sensitivity, wide dynamic range and continuous emergence of luminescence measuring reagent. The luminescence measurement has an extremely high sensitivity, which is 10 higher than that of the spectral absorption measurement technique ⁵ The power is at least 1000 times higher than that of the fluorescence measurement technology.

In the prior art, patent publication No. CN112213508A (a high-throughput fully-automatic immuno-luminescence analysis system) has disclosed an integrated analysis system, which is provided with sample chambers between reagent chambers, and requires manual transportation of samples to the sample chambers; meanwhile, the sample and the reagent are required to be manually placed in the reaction disc after being mixed, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the above mentioned deficiencies in the background art, the present invention provides a high throughput fully automatic immuno-luminescence assay system.

The purpose of the utility model can be realized by the following technical scheme:

a high-flux full-automatic immune luminescence analysis system comprises an integral support, wherein a reagent bin, a reaction disc, a sample adding assembly, a needle punching station, an automatic loading assembly, a cleaning station assembly, a measurement darkroom assembly and a blending mechanism are arranged on the integral support;

a sample adding arm capable of lifting and rotating is arranged between the sample conveying track and the reaction disc, and a sample adding needle is arranged on the sample adding arm, so that a sample on the sample rack can be conveniently added into a reaction cup in the reaction disc;

the reagent feeding device is characterized in that a liftable and rotatable mechanical arm is arranged between the reagent bin and the sample feeding assembly, the sample feeding assembly is used for extracting a reagent and adding the reagent into a reaction cup in the reaction tray, and the mechanical arm is used for clamping the reaction cup, putting the reaction cup into a mixing mechanism and clamping the reaction cup to the reaction tray for incubation after mixing.

Further, the application of sample subassembly includes that X is to supporting seat, first Y to supporting seat, first Z to supporting seat, second Y to supporting seat, second Z to supporting seat, and reagent needle is installed respectively to the bottom of first Z to supporting seat and second Z to the supporting seat.

Further, the automatic loading assembly is arranged above the reaction tray and comprises a slide way, and the reaction cups loaded in the automatic loading assembly fall into the reaction tray through the slide way.

Furthermore, the cleaning station assembly comprises a cleaning station mechanical arm, and the cleaning station mechanical arm is used for clamping and taking the reaction cup and then cleaning the reaction cup;

the measurement darkroom assembly comprises a cup dropping mechanical arm which is used for clamping the reaction cup to a measurement position of the measurement chamber, and the reaction cup is discarded after being clamped by the cup dropping mechanical arm after measurement is completed.

The utility model has the advantages that:

the utility model is designed with a sample conveying track, the sample conveying track conveys a sample frame to a specific position, a sample is extracted by a sample adding arm and is put into a reaction cup in a reaction disc, a sample adding needle is cleaned in a needle punching station after extraction, then the reaction disc rotates to the specific position, the sample conveying track and the sample adding arm are additionally arranged, and the working efficiency is improved;

the utility model discloses a design has a plurality of arms, gets the reaction cup by the arm clamp during the mixing and put into mixing mechanism, gets the reaction of growing in the reaction disc with the reaction cup clamp by the arm after the mixing, gets the reaction cup by the cleaning station arm clamp after the incubation and washs in wasing the station, and then get the reaction cup by the clamp of cup arm of falling and measure the position to the measuring chamber after wasing, measurationing and accomplish the back reaction cup and get by the clamp of cup arm of falling and fall in the cup mechanism, whole operation has improved work efficiency widely.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts;

FIG. 1 is a schematic view of the overall structure of the present invention excluding the structure of the sample conveying track;

figure 2 is a schematic top view of figure 1 of the present invention;

FIG. 3 is a schematic view of a part of the structure of the present invention;

fig. 4 is a schematic view of a part of the structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

A high-flux full-automatic immune luminescence analysis system is shown in figures 1-4 and comprises an integral support 20, wherein a reagent bin 1, a reaction disc 3, a sample adding assembly 4, a needle punching station 7, an automatic loading assembly 8, a cleaning station assembly 9, a measurement darkroom assembly 10 and a mixing mechanism are arranged on the integral support 20, the mixing mechanism is arranged at the side end of the reaction disc 3, air blowing and mixing are adopted by the mixing mechanism, and a plurality of needle punching stations 7 are arranged.

Wherein, the patent publication No. CN112213508A (a high-flux full-automatic immune luminescence analysis system) and the patent publication No. CN112285370A (a reaction cup automatic loading component) disclose a reagent bin 1, a reaction disc 3, a sample adding component 4, a needle punching station 7, an automatic loading component 8, a cleaning station component 9, a measurement darkroom component 10 and the like, wherein the needle punching station 7 is used for flushing needle bodies such as a reagent needle, a sample adding needle and the like. The automatic loading assembly 8 is arranged above the reaction tray 3, the automatic loading assembly 8 comprises a slide way, and the reaction cups loaded in the automatic loading assembly 8 fall into the reaction tray 3 through the slide way.

The outer side end of the integral support 20 is provided with a sample conveying track 5, the sample conveying track 5 is provided with a sample rack 50, the sample rack 50 is provided with a plurality of sample test tubes, the patent publication No. CN113148576A (a sample track conveying system) discloses the sample conveying track 5, a liftable and rotatable sample adding arm 6 is arranged between the sample conveying track 5 and the reaction disk 3, and the sample adding arm 6 is provided with a sample adding needle, so that a sample on the sample rack 50 can be conveniently added into a reaction cup in the reaction disk 3.

A liftable and rotatable mechanical arm 2 is arranged between the reagent bin 1 and the sample adding assembly 4, the sample adding assembly 4 is used for extracting a reagent and adding the reagent into a reaction cup in the reaction disc 3, the sample adding assembly 4 comprises an X-direction supporting seat, a first Y-direction supporting seat, a first Z-direction supporting seat, a second Y-direction supporting seat and a second Z-direction supporting seat, and reagent needles are respectively arranged at the bottom ends of the first Z-direction supporting seat and the second Z-direction supporting seat; the mechanical arm 2 is used for clamping the reaction cup, putting the reaction cup into the blending mechanism and clamping the reaction cup into the reaction tray 3 for incubation after blending.

The cleaning station assembly 9 comprises a cleaning station mechanical arm 90, and the cleaning station mechanical arm 90 is used for clamping and taking the reaction cup and then cleaning the reaction cup;

the measurement darkroom assembly 10 comprises a cup dropping mechanical arm 101, the cup dropping mechanical arm 101 is used for clamping a reaction cup to a measurement position of the measurement chamber, and the reaction cup is discarded after being clamped by the cup dropping mechanical arm 101 after measurement.

When the sample mixing device is used, the sample conveying track 5 conveys the sample rack 50 to a specific position, the sample is extracted by the sample adding arm 6 and put into reaction cups in the reaction disc 3, the sample adding needle is cleaned in the needle punching station 7 after extraction, then the reaction disc 3 rotates to a specific position, and the reaction cups are clamped by the mechanical arm 2 and put into the mixing mechanism.

In actual work, the reagent bin 1 can store at most 62 reagent boxes (two sides are counted), reagent and magnetic beads are extracted by reagent needles to be placed in reaction cups of a blending mechanism and then are blended in the blending mechanism, then the reagent needles are cleaned in a needle punching station 7, the reaction cups are clamped to a reaction disc by a mechanical arm 2 after blending for incubation reaction, the reaction cups are clamped to a cleaning station by a mechanical arm 90 of the cleaning station after incubation for cleaning, the reaction cups are clamped to a measuring position of a measuring chamber by a cup dropping mechanical arm 101 after cleaning, the reaction cups are clamped to a cup dropping mechanism by a cup dropping mechanical arm 101 after measurement is completed, waste liquid is extracted by a waste liquid extraction needle, and the reaction cups are moved by a cup dropping electromagnet to be placed into a garbage can below.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims

1. A high-flux full-automatic immune luminescence analysis system comprises an integral support (20), wherein a reagent bin (1), a reaction disc (3), a sample adding component (4), a needle punching station (7), an automatic loading component (8), a cleaning station component (9), a measurement darkroom component (10) and a blending mechanism are arranged on the integral support (20), and the blending mechanism is arranged at the side end of the reaction disc (3), and is characterized in that a sample conveying track (5) is arranged at the outer side end of the integral support (20), a sample rack (50) is arranged on the sample conveying track (5), and a plurality of sample test tubes are arranged on the sample rack (50);

a sample adding arm (6) which can be lifted and rotated is arranged between the sample conveying track (5) and the reaction disc (3), and a sample adding needle is arranged on the sample adding arm (6) so as to conveniently add a sample on the sample rack (50) into a reaction cup in the reaction disc (3);

be provided with liftable, rotatory arm (2) between reagent storehouse (1) and application of sample subassembly (4), application of sample subassembly (4) are used for extracting the reagent and add it to the reaction cup in reaction dish (3), arm (2) are arranged in pressing from both sides after pressing from both sides the reaction cup put into mixing mechanism with it and press from both sides the reaction cup after the mixing and press from both sides to carry out the incubation in reaction dish (3).

2. The high-throughput full-automatic immune luminescence analysis system according to claim 1, wherein said sample feeding assembly (4) comprises an X-direction support, a first Y-direction support, a first Z-direction support, a second Y-direction support, and a second Z-direction support, and the bottom ends of the first Z-direction support and the second Z-direction support are respectively provided with a reagent needle.

3. The high-throughput full-automatic immune luminescence analysis system according to claim 1, characterized in that the automatic loading assembly (8) is arranged above the reaction tray (3), the automatic loading assembly (8) comprises a slide way, and the reaction cups loaded in the automatic loading assembly (8) fall into the reaction tray (3) through the slide way.

4. The high throughput full-automatic immunofluorescence analysis system according to claim 1, wherein, the cleaning station assembly (9) comprises a cleaning station mechanical arm (90), the cleaning station mechanical arm (90) is used for clamping the reaction cup and then cleaning the reaction cup;

the measurement darkroom assembly (10) comprises a cup dropping mechanical arm (101), the cup dropping mechanical arm (101) is used for clamping the reaction cup to a measurement position of the measurement chamber, and the reaction cup is discarded after being clamped by the cup dropping mechanical arm (101) after measurement.