CN209992518U

CN209992518U - Full-automatic fluorescence immunoassay appearance

Info

Publication number: CN209992518U
Application number: CN201920816832.9U
Authority: CN
Inventors: 刘新星; 邵伟; 肖***; 项帅
Original assignee: Yantai Baibo Automation Technology Co Ltd
Current assignee: Yantai Yuanqin Technology Development Co ltd
Priority date: 2019-06-02
Filing date: 2019-06-02
Publication date: 2020-01-24
Anticipated expiration: 2029-06-02

Abstract

The utility model discloses a full-automatic fluorescence immunoassay analyzer, which comprises a bottom plate, an application of sample arm module, an application of sample needle module, an absorption head box, a sample diluting plate, a reagent module, a sample module, a reagent card storage and automatic loading module and a turntable module, wherein in the embodiment, the application of sample arm module is arranged on the bottom plate and is controlled by a control system, and is used for driving the application of sample needle module, the absorption head box, the reagent module and the sample module to move with the sample diluting plate; the sample adding needle module is arranged on the sample adding arm module, is controlled by the control system and is used for performing liquid suction and liquid discharge actions; the suction head box is arranged on the table top fixed on the bottom plate and used for storing suction heads; the sample diluting plate is arranged on the table top and is used for diluting a sample; the utility model has the advantages that: can realize repeated continuous detection of many reagent cards, like the application of sample, dilute, incubate, reading and lose all realization automation mechanized operations such as card, its easy and simple to handle, convenient and fast saves time and manpower.

Description

Full-automatic fluorescence immunoassay appearance

Technical Field

The utility model relates to a fluorescence immunoassay appearance specifically is a full-automatic fluorescence immunoassay appearance.

Background

POCT, point-of-care testing, refers to clinical testing and bedside testing performed near a patient, and is not always performed by a clinical laboratory technician. The method is a new method for analyzing the sample immediately on the sampling site, saving complex processing procedures of the sample during laboratory test and quickly obtaining test results.

Most fluorescence immunochromatography analyzers in the market are semi-automatic analyzers at present, and the sample adding and chromatography processes are finished manually outside the equipment, so that the following defects are caused: the artificial intervention has biological pollution risk, and the artificial sample adding has sample adding error; the operation procedure is complicated and the efficiency is low.

Based on this, the application provides a full-automatic fluorescence immunoassay appearance.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic fluorescence immunoassay appearance to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

in the embodiment, the sample adding arm module is arranged on the bottom plate and is controlled by a control system for driving the sample adding needle module, the pipette tip box, the reagent module and the sample module to move with the sample diluting plate; the sample adding needle module is arranged on the sample adding arm module, is controlled by the control system and is used for performing liquid suction and liquid discharge actions; the suction head box is arranged on the table top fixed on the bottom plate and used for storing suction heads; the sample diluting plate is arranged on the table top and is used for diluting a sample; the reagent module is arranged on the table top and used for storing reagents; the sample module is arranged on the table top and used for storing samples; the reagent card storage and automatic loading module is arranged on the bottom plate, is positioned at one side position of the turntable module, is controlled by the control system, and is used for storing the reagent cards and sequentially sending the reagent cards to the turntable module; the rotary table module is arranged on the bottom plate and is controlled by the control system, is used for receiving the reagent cards sent by the reagent card storage and automatic loading module, and is provided with sample adding holes corresponding to the positions of the rotary table module on the table top; a reading and card returning integrated module; the reagent card collecting box is arranged on the bottom plate and is controlled by the control system, and is used for receiving the reagent card sent by the transfer module, detecting the reagent card and sending the reagent card into the waste card collecting box; and the transfer module is arranged on the bottom plate and controlled by the control system, and is used for sending the reagent card after the reaction is finished to the reading and card withdrawing integrated module from the turntable module.

As a further aspect of the present invention: the table surface is also provided with a head removing device, and a waste head box is arranged on the bottom plate at the position right below the head removing device.

As a further aspect of the present invention: the turntable module comprises a turntable, a rotary sleeve I and a stepping motor I, wherein the stepping motor I and the rotary sleeve I are both installed on the bottom plate, a driving gear I is installed at the output end of the stepping motor I, the output end of the driving gear I is in meshing transmission with a driven gear I fixed outside the rotary sleeve I, and the turntable is installed on the rotary sleeve I.

As a further aspect of the present invention: and the bottom plate is also provided with a photoelectric switch I.

As a further aspect of the present invention: every all install a pair of guide block through spring coupling in the reagent screens, the upper portion of guide block is equipped with the direction clamp plate, every all install the polyimide heating plate in the reagent screens.

As a further aspect of the present invention: reagent card is stored and automatic loading module includes automatic loading mechanism, reagent card box positioning mechanism, the tight mechanism in reagent card box top and reagent card box module, reagent card box module is used for storing the reagent card, and reagent card box positioning mechanism is used for fixing a position reagent card box module, still install micro-gap switch on the reagent card box positioning mechanism, when reagent card box module is placed and targets in place, micro-gap switch sends feedback signal and gives control system, installs on the reagent card box positioning mechanism and is used for pushing up tight reagent card box top mechanism to reagent card box module, when control system received feedback signal, its tight mechanism in control reagent card box top moved the top tight to reagent card box module, and automatic loading mechanism is used for inputing the reagent card in the reagent card box module in proper order on the reagent screens in the carousel module.

As a further aspect of the present invention: the reading and card returning integrated module comprises a stepping motor II, a rotary sleeve II, a linear stepping motor, a card support, a card returning push plate and a rotary plate, wherein the stepping motor II and the rotary sleeve II are both installed on a bottom plate, a driving gear II is installed at the output end of the stepping motor II, the driving gear II is meshed with a driven gear II fixed on the rotary sleeve II, the rotary plate is installed on the rotary sleeve II, the linear stepping motor is installed on the rotary plate, the linear stepping motor is connected with the card support through a servo lead screw assembly, a photoelectric detection module is further installed on the rotary plate, the photoelectric detection module is located on the stroke position of the card support, the card returning push plate is further installed on the rotary plate, and is driven by a stepping motor III and used for pushing reagent cards on the card support into a waste card collecting box.

As a further aspect of the present invention: and the bottom plate is also provided with a photoelectric switch II.

As a further aspect of the present invention: the reagent card box module comprises a card box, a drying agent box and a guide rail, wherein the drying agent box is arranged at the top of the card box, the guide rail is arranged in the card box and used for guiding the descending of the reagent card, and when the reagent card moves to the opening at the bottom of the card box, the reagent card is taken out of the turntable module by the automatic loading mechanism.

Compared with the prior art, the beneficial effects of the utility model are that: can realize repeated continuous detection of many reagent cards, like the application of sample, dilute, incubate, reading and lose all realization automation mechanized operations such as card, its easy and simple to handle, convenient and fast saves time and manpower.

Drawings

FIG. 1 is a schematic diagram of a fully automatic fluorescence immunoassay analyzer.

FIG. 2 is a top view of a fully automated fluoroimmunoassay analyzer.

FIG. 3 is a schematic structural diagram of a rotary plate module in a fully automatic fluorescence immunoassay analyzer.

FIG. 4 is a top view of a rotary plate module in a fully automatic fluoroimmunoassay analyzer.

FIG. 5 is a schematic diagram of the internal structure of a table-board in a fully automatic fluorescence immunoassay analyzer.

FIG. 6 is a schematic diagram of a reagent card storage and automatic loading module of a fully automatic fluorescence immunoassay analyzer.

FIG. 7 is a schematic diagram of the structure of a transfer module in a fully automatic fluorescence immunoassay analyzer.

FIG. 8 is a schematic structural diagram of a reading and card ejection integrated module in a fully automatic fluorescence immunoassay analyzer.

FIG. 9 is a schematic diagram of the structure of a reagent cartridge module in a fully automatic fluorescence immunoassay analyzer.

In the figure: 1-bottom plate, 2-sample adding arm module, 3-sample adding needle module, 4-suction head box, 5-sample diluting plate, 6-reagent module, 7-sample module, 8-suction head removing device, 9-table top, 10-reagent card storage and automatic loading module, 11-waste card collecting box, 12-sample adding hole, 13-turntable module, 14-reading and card withdrawing integrated module, 15-transfer module, 16-turntable, 17-rotary sleeve I, 18-photoelectric switch I, 19-stepping motor I, 20-driving gear I, 21-driven gear I, 22-spring, 23-guide block, 24-guide pressure plate, 25-automatic loading mechanism, 26-reagent card box positioning mechanism, 27-reagent card box jacking mechanism, 28-a microswitch, 29-a reagent card box module, 30-a stepping motor II, 31-a driving gear II, 32-a rotary sleeve II, 33-a driven gear II, 34-a photoelectric switch II, 35-a linear stepping motor, 36-a stepping motor III, 37-a photoelectric detection module, 38-a card holder, 39-a card withdrawing push plate, 40-a rotary plate, 41-a card box, 42-a drying agent box, 43-a guide rail and 44-a reagent card.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Please refer to fig. 1-2, in an embodiment of the present invention, a full-automatic fluorescence immunoassay analyzer includes a bottom plate 1, a sample-adding arm module 2, a sample-adding needle module 3, a suction head box 4, a sample dilution plate 5, a reagent module 6, a sample module 7, a reagent card storage and automatic loading module 10, and a turntable module 13, in this embodiment, the sample-adding arm module 2 is installed on the bottom plate 1 and is controlled by a control system to drive the sample-adding needle module 3, the suction head box 4, the reagent module 6, the sample module 7, and the sample dilution plate 5 to move, the sample-adding arm module 2 is actually an mechanical arm structure with multiple degrees of freedom, no redundant description is performed here, the sample-adding needle module 3 is installed on the sample-adding arm module 2 and is controlled by the control system, and is used for performing liquid suction and discharge actions, i.e. sample or reagent suction; the suction head box 4 is arranged on a table top 9 fixed on the bottom plate 1 and used for storing suction heads, and the suction heads of the sample adding needle module 3 need to be replaced after the sample or the reagent is completely pumped and placed; the sample diluting plate 5 is arranged on the table top 9 and is used for diluting a sample; the reagent module 6 is arranged on the table top 9 and used for storing reagents; the sample module 7 is arranged on the table top 9 and used for storing samples; the reagent card storage and automatic loading module 10 is arranged on the bottom plate 1 and at one side position of the rotary table module 13, is controlled by the control system, and is used for storing the reagent cards and sequentially sending the reagent cards to the rotary table module 13; the rotary disk module 13 is installed on the bottom plate 1 and controlled by the control system, and is used for receiving the reagent cards sent by the reagent card storage and automatic loading module 10, and the table-board 9 is provided with the sample adding holes 12 of the rotary disk module 13 corresponding to the positions, and the sample adding needle module 3 can drop the samples and the reagents into the reagent cards on the rotary disk module 13 through the sample adding holes 12.

A reading and card returning integrated module 14; the reagent card collecting box is arranged on the bottom plate 1 and is controlled by a control system, and is used for receiving the reagent card sent by the transfer module 15, detecting the reagent card and sending the reagent card into the waste card collecting box 11;

and the transfer module 15 is arranged on the bottom plate 1 and controlled by a control system, and is used for feeding the reagent cards after the reaction is finished to the reading and card withdrawing integrated module 14 from the turntable module 13.

In this embodiment, the platform 9 is further provided with a head remover 8 for facilitating the replacement of the suction head, and preferably, the bottom plate 1 may be provided with a waste suction head box at a position right below the head remover 8.

In practical application, the reagent card storage and automatic loading module 10 sequentially sends reagent cards to the turntable module 13, and meanwhile, the sample adding arm module 2 drives the sample adding needle module 3 to move, and the specific process is that after the sample is absorbed by the sample adding needle module 3 from the sample module 7, the sample is injected to the reagent card through the sample adding hole 12, then the suction head is replaced, the reagent is absorbed and injected into the reagent card, if the sample needs to be diluted, the sample needs to be firstly absorbed to the sample diluting plate 5 from the sample module 7 for dilution operation, after full reaction, the reagent card is transferred to the reading and card withdrawing integrated module 14 by the transfer mechanism 15 for reading the fluorescence value, and then the reading and card withdrawing integrated module 14 pushes the detected reagent card into the waste card collecting box 11.

Example 2

Referring to fig. 1-9, in an embodiment of the present invention, a fully automatic fluorescence immunoassay analyzer, the turntable module 13 includes a turntable 16, a rotary sleeve I17 and a stepping motor I19, the stepping motor I19 and the rotary sleeve I17 are both mounted on the bottom plate 1, the output end of the stepping motor I19 is mounted with a driving gear I20, the output end of the driving gear I20 is in meshing transmission with a driven gear I21 fixed outside the rotary sleeve I17, here, the driven gear I21 is actually a gear ring, the rotary sleeve I17 is mounted with the turntable 16, when the stepping motor I19 outputs power, the rotation of the turntable 16 can be driven by the meshing action between teeth, so as to achieve synchronous rotation of the reagent card thereon, and finally, the reagent card box module 29 in the reagent card storage and automatic loading module 10 can correspond to the position of the reagent card, in order to achieve accuracy of angular rotation of the turntable 16, the base plate 1 is also provided with a photoelectric switch I18, namely, the position of the turntable 16 generates a feedback signal to a control system through a photoelectric switch I18, thereby ensuring the accurate positioning of the turntable 16.

Further, in order to perform good positioning and installation on the reagent cards in the reagent card positions in the rotary table 16, each reagent card position is internally provided with a pair of guide blocks 23 connected through a spring 22, under the action of the spring 22, the guide blocks 23 can clamp the reagent cards (namely, positioning in the horizontal direction), the upper parts of the guide blocks 23 are provided with guide pressing plates 24 for performing positioning in the vertical direction on the reagent cards, and in addition, each reagent card position is internally provided with a polyimide heating plate, so that the rotary table 16 can keep constant temperature heating, the reaction process of the reagent cards is accelerated, and the reaction time is shortened.

The reagent card storage and automatic loading module 10 comprises an automatic loading mechanism 25, a reagent card box positioning mechanism 26, a reagent card box jacking mechanism 27 and a reagent card box module 29, wherein the reagent card box module 29 is used for storing reagent cards, the reagent card box positioning mechanism 26 is used for positioning the reagent card box module 29, as can be seen from the figure, a cavity of the reagent card box module 29 for accommodating is arranged in the reagent card box positioning mechanism 26, in addition, a microswitch 28 is also arranged on the reagent card box positioning mechanism 26, when the reagent card box module 29 is placed in place, the microswitch 28 is triggered, the microswitch 28 can send a feedback signal to a control system, the reagent card box jacking mechanism 27 for jacking the reagent card box module 29 is arranged on the reagent card box positioning mechanism 26, the reagent card box jacking mechanism 27 can be an air cylinder, an electric push rod and the like as a power source, when the control system receives the feedback signal, it controls the action of the reagent card box pushing mechanism 27, i.e. the air cylinder, the electric push rod, etc. extend out to push the reagent card box module 29, and the automatic loading mechanism 25 is used to sequentially input the reagent cards in the reagent card box module 29 to the reagent card position in the rotary disk module 13.

Specifically, the automatic loading mechanism 25 includes a stepping motor, a timing belt, a linear guide, etc. and is used to sequentially load the reagent cards in the reagent card cartridge module 29 onto the turntable 16.

Referring to fig. 7, the transfer module 15 is configured to send the reagent card on the rotary disk 16 into the reading and card returning integrated module 14, and as can be seen from fig. 7, the transfer module 15 is provided with a motor, a synchronous belt, a push block, and the like, and the synchronous belt drives the push block to move, so as to push the reagent card on the rotary disk 16 into the reading and card returning integrated module 14.

Specifically, the reading and card withdrawing integrated module 14 includes a stepping motor II30, a rotating sleeve II32, a linear stepping motor 35, a card holder 38, a card withdrawing push plate 39 and a rotating plate 40, wherein the stepping motor II30 and the rotating sleeve II32 are both mounted on the bottom plate 1, the output end of the stepping motor II30 is mounted with a driving gear II31, the driving gear II31 is meshed with a driven gear II33 fixed on the rotating sleeve II32, that is, when the stepping motor II30 outputs power, the rotating sleeve II32 is driven to rotate by the meshing action between teeth, of course, in order to ensure the rotation accuracy of the rotating sleeve II32, the bottom plate 1 is further mounted with a photoelectric switch II34, the rotating sleeve II32 is mounted with a rotating plate 40, the rotating plate 40 is mounted with the linear stepping motor 35, the linear stepping motor 35 is connected with the card holder 38 through a servo screw assembly, which can drive the card holder 38 to move, the card holder 38 is used for receiving reagent cards carried by the reading and card withdrawing integrated module 14, the rotating plate 40 is further provided with a photoelectric detection module 37 for detecting the reagent card, of course, the photoelectric detection module 37 is located at the stroke position of the card holder 38, the rotating plate 40 is further provided with a card ejection pushing plate 39, and the card ejection pushing plate 39 is driven by a stepping motor III36 and is used for pushing the reagent card on the card holder 38 into the waste card collecting box 11.

When the reaction of the reagent card on the turntable 16 is finished and the detection is needed, the rotating plate 40 rotates to the reagent card on the turntable 16, the reagent card is pushed into the card holder 38 under the action of the reading and card withdrawing integrated module 14, then the linear stepping motor 35 drives the card holder 38 to detect through the photoelectric detection module 37, after the detection is finished, the rotating plate 40 rotates to the upper part of the waste card collecting box 11, and the stepping motor III36 drives the card withdrawing push plate 39 to push the detected reagent card into the waste card collecting box 11.

More specifically, the waste card collecting box 11 is located below the table 9 and is used for collecting the detected reagent cards.

In addition, the reagent cartridge module 29 includes a cartridge 41, a drying agent box 42 and a guide rail 43, the drying agent box 42 is disposed on the top of the cartridge 41 for ensuring the storage environment of the reagent cards 44 to be in a dry state, the guide rail 43 is installed in the cartridge 41 for guiding the reagent cards 44 to descend, as can be seen from the figure, the guide rail 43 is in sliding fit with the reagent cards 44, 30 reagent cards 44 can be stored in the cartridge 41 at a time, and when the reagent cards 44 move to the bottom opening of the cartridge 41, the reagent cards can be taken out by the automatic loading mechanism 25.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A full-automatic fluorescence immunoassay analyzer is characterized by comprising:

the sample adding arm module (2) is arranged on the bottom plate (1), is controlled by the control system and is used for driving the sample adding needle module (3), the suction head box (4), the reagent module (6), the sample module (7) and the sample diluting plate (5) to move;

the sample adding needle module (3) is arranged on the sample adding arm module (2), is controlled by the control system and is used for carrying out liquid suction and liquid discharge actions;

the suction head box (4) is arranged on a table board (9) fixed on the bottom board (1) and is used for storing suction heads;

the sample diluting plate (5) is arranged on the table top (9) and is used for diluting a sample;

the reagent module (6) is arranged on the table top (9) and is used for storing reagents;

the sample module (7) is arranged on the table top (9) and is used for storing samples;

the reagent card storage and automatic loading module (10) is arranged on the bottom plate (1), is positioned at one side position of the rotary table module (13), is controlled by the control system, is used for storing the reagent cards and sequentially sends the reagent cards to the rotary table module (13);

the rotary table module (13) is arranged on the bottom plate (1), is controlled by the control system and is used for receiving the reagent cards sent by the reagent card storage and automatic loading module (10), and the table top (9) is provided with a sample adding hole (12) of the rotary table module (13) corresponding to the position of the sample adding hole;

the reading and card returning integrated module (14) is arranged on the bottom plate (1) and is controlled by the control system, and is used for receiving the reagent card sent by the transfer module (15) and sending the reagent card into the waste card collecting box (11) after detecting the reagent card;

and the transfer module (15) is arranged on the bottom plate (1) and is controlled by the control system, and is used for feeding the reagent cards after the reaction is finished to the reading and card withdrawing integrated module (14) from the turntable module (13).

2. The full-automatic fluoroimmunoassay analyzer according to claim 1, wherein the table top (9) is further provided with a head remover (8), and the bottom plate (1) is provided with a waste head box at a position right below the head remover (8).

3. The full-automatic fluoroimmunoassay analyzer according to claim 1, wherein the turntable module (13) comprises a turntable (16), a rotary sleeve I (17) and a stepping motor I (19), the stepping motor I (19) and the rotary sleeve I (17) are both installed on the bottom plate (1), a driving gear I (20) is installed at the output end of the stepping motor I (19), the output end of the driving gear I (20) is in meshing transmission with a driven gear I (21) fixed outside the rotary sleeve I (17), and the turntable (16) is installed on the rotary sleeve I (17).

4. The full-automatic fluoroimmunoassay analyzer according to claim 3, wherein the base plate (1) is further provided with a photoelectric switch I (18).

5. The full-automatic fluoroimmunoassay analyzer according to claim 1, wherein a pair of guide blocks (23) connected by a spring (22) is installed in each reagent card, a guide pressure plate (24) is arranged on the upper portion of each guide block (23), and a polyimide heating plate is installed in each reagent card.

6. The automated fluoroimmunoassay instrument of claim 1, wherein the reagent card storage and automatic loading module (10) comprises:

a reagent cartridge module (29) for storing a reagent card;

the automatic loading mechanism (25) is used for sequentially inputting the reagent cards in the reagent card box module (29) to the reagent card positions in the rotary disk module (13);

the reagent card box positioning mechanism (26) is used for positioning the reagent card box module (29), the reagent card box positioning mechanism (26) is also provided with a microswitch (28), and when the reagent card box module (29) is placed in place, the microswitch (28) sends a feedback signal to the control system;

and a reagent card box pushing mechanism (27), wherein when the control system receives the feedback signal, the reagent card box pushing mechanism (27) acts to push the reagent card box module (29).

7. The full-automatic fluoroimmunoassay analyzer according to claim 1, wherein the reading and card returning integrated module (14) comprises a stepping motor II (30), a rotary sleeve II (32), a linear stepping motor (35), a card holder (38), a card returning push plate (39) and a rotary plate (40), the stepping motor II (30) and the rotary sleeve II (32) are both installed on the bottom plate (1), a driving gear II (31) is installed at the output end of the stepping motor II (30), the driving gear II (31) is meshed with a driven gear II (33) fixed on the rotary sleeve II (32), the rotary plate (40) is installed on the rotary sleeve II (32), the linear stepping motor (35) is installed on the rotary plate (40), the card holder (38) is connected to the linear stepping motor (35) through a servo screw rod assembly, and a photoelectric detection module (37) is further installed on the rotary plate (40), the photoelectric detection module (37) is positioned at the stroke position of the card support (38), the rotating plate (40) is also provided with a card withdrawing push plate (39), and the card withdrawing push plate (39) is driven by a stepping motor III (36) and is used for pushing the reagent card on the card support (38) into the waste card collection box (11).

8. The full-automatic fluoroimmunoassay analyzer according to claim 7, wherein the base plate (1) is further provided with a photoelectric switch II (34).

9. The full-automatic fluoroimmunoassay analyzer according to claim 6, wherein the reagent cartridge module (29) comprises a cartridge (41), a drying agent box (42) and a guide rail (43), the drying agent box (42) is arranged on the top of the cartridge (41), the guide rail (43) is installed in the cartridge (41) and used for guiding the descending of the reagent card (44), and when the reagent card (44) moves to the bottom opening of the cartridge (41), the reagent card is taken out of the rotary disk module (13) by the automatic loading mechanism (25).