CN112034193A - Full-automatic detection device for antigen and antibody of virus infected person - Google Patents

Abstract

The invention discloses a full-automatic detection device for antigen and antibody of virus infectors, which relates to the technical field of antibody detection devices and comprises a device body, wherein the left wall surface of the device body is provided with a feed chute which is in a rectangular groove shape The material taking, the detection and analysis and the inactivation classification are carried out for integral full-automatic detection, so that the effect of improving the working efficiency is achieved.

Description

Full-automatic detection device for antigen and antibody of virus infected person

Technical Field

The invention relates to the technical field of antibody detection devices, in particular to a full-automatic detection device for antigen and antibody of a virus infected person.

Background

At present, in clinical practice, there are many methods for detecting antibodies, and besides the traditional precipitation reaction, agglutination test and complement fixation test, the measurement technologies of labeled immunoassay, such as enzyme-linked immunoassay, radioimmunoassay, fluorescent immunoassay, luminescent immunoassay, etc., have become the main immunoassay technologies widely used, but some problems still exist in the process of detecting antibodies. Present when medical personnel need detect multiple antibody simultaneously, need get a plurality of culture dishes, add the culture dish with quantitative various detection medicaments again, for avoiding different detection medicament intercross pollution, take the in-process and still need use different instruments to take, thereby lead to whole detection process use tool very much, the operation is numerous, waste time and energy, very big reduction medical personnel's work efficiency, for this reason, we have proposed a virus infects full automatic checkout device of person's antigen antibody.

Disclosure of Invention

The present invention aims to provide a fully automatic detection device for antigen and antibody of virus infected person to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the device comprises a device body, wherein a feeding groove is formed in the left wall surface of the device body and is in a rectangular groove shape, a conveying block is fixedly mounted on the left wall surface of the device body and is in a rectangular block shape, a square groove is formed in the upper wall surface of the conveying block and is in a rectangular groove shape, a conveying belt capable of moving the square groove is arranged in the square groove, the conveying belt is in a rectangular belt shape, the outer wall surface of the conveying belt is sleeved with an output shaft of an external motor, pipeline blocks which are arranged at equal intervals are fixedly mounted on the upper wall surface of the conveying belt, the pipeline blocks are hollow, a sample pipe is movably connected inside each pipeline block respectively, the sample pipe is in a circular pipe shape, the sample pipe is hollow, a circular groove is formed in the upper wall surface of the device body, a collecting roller is arranged in the circular groove and is in a circular roller shape, eight collecting grooves which are arranged at equal intervals are formed in the upper end of the collecting roller, the collecting groove is in the shape of a semicircular groove, a second circular groove is formed in the upper end of the collecting roller, two clamping grooves which are in mirror symmetry are formed in the upper end of the collecting roller and are in the shape of a rectangular groove, the two clamping grooves are communicated with the second circular groove, a bottom block is arranged at the lower end of the collecting roller, and the bottom block is in a circular block shape.

Preferably, the upper end fixed mounting of bottom block has the pivot, the outer wall fixed mounting of pivot has two mirror symmetry's fixture block, pivot and two the fixture block respectively with second circular slot and two joint groove swing joint, the last wall fixed mounting of equipment body has two mirror symmetry's fixed plate, and the fixed plate is rectangular plate form, two be provided with the dead lever between the fixed plate, the dead lever is circular shaft-like, both ends respectively with two about the dead lever a side wall fixed connection that the fixed plate is close to each other.

Preferably, be located the left wall fixed mounting of the fixed plate on equipment body right side has power control equipment, and power control equipment is power supply equipment, the outer wall activity of dead lever has cup jointed the electric power slider, and the electric power slider is rectangular block-shaped, the electric power slider pass through external power supply circuit with power control equipment electric connection is in the same place, the back wall of electric power slider has been seted up and has been erect the groove, erects the groove and be rectangular groove shape, the rear of electric power slider is provided with pressure device, pressure device passes through the electric power slider and erects inslot swing joint.

Preferably, pressure device's lower wall fixed mounting has the sample needle tubing, and the sample needle tubing is circular pipeline, and the inside of sample needle tubing is hollow, the sample needle tubing passes through pressure device and can run through the sample intraduct when moving down, the third circular slot has been seted up to the equipment body upper wall, the inside rotation detection piece that is provided with of third circular slot, the rotation detection piece is circular cubic, the upper end of rotation detection piece is installed admittedly and is equipped with the notes material pipe that four equidistance were arranged, and notes material pipe is circular tubulose, and the inside of annotating the material pipe is hollow.

Preferably, the blown down tank has been seted up to the right wall of equipment body, and the blown down tank is the rectangle groove form, the back wall fixed mounting of blown down tank has categorised piece, and categorised piece is the rectangle cubic, the second square groove has been seted up to the last wall of categorised piece, and the second square groove is the rectangle groove form, the right wall fixed mounting of equipment body has the drive case, and the drive case is the rectangle box, and the inside of drive case is provided with drive arrangement, the inside motor drive arrangement output shaft end of drive case runs through the drive case.

Preferably, the output shaft end of the motor driving device in the driving box is fixedly connected with a second rotating shaft, a classification roller is arranged above the driving box and is a circular roller, a circular groove is formed in the upper end of the classification roller, the second rotating shaft is fixedly connected with the circular groove in the classification roller, a classification groove is formed in the upper end of the classification roller, and the classification groove is in the shape of a semicircular groove.

Compared with the prior art, the invention has the beneficial effects that:

(1) when the antigen-antibody full-automatic detection device for the virus infected person detects the results of the qualified sample and the unqualified sample, the samples are conveyed to the classification blocks by an instrument in the equipment body through the discharge chute, and the discharge chute is internally provided with monitoring equipment, after each sample tube comes out, the sample tube can be identified by the monitoring equipment, at the moment, the monitoring equipment in the discharge chute can transmit the specification information of the sample tube into the control equipment in the driving box, at this moment, after the classification roller is driven to rotate through the driving control equipment inside the driving box, the classification roller can classify the sample tubes coming out of the discharge chute leftwards and rightwards through the classification groove according to the instruction of the driving control equipment inside the driving box, and the whole equipment body can perform whole full-automatic detection through feeding, collecting, material taking, detection and analysis and inactivation classification, so that the effect of improving the working efficiency is achieved.

(2) This full automatic checkout device of virus infector antigen-antibody, when using, at first place the sample pipe in proper order inside the pipeline piece, at this moment the conveyer belt can remove inside the conveying material piece under outside drive arrangement drives, and the sample pipe sets gradually inside the conveying material piece through the pipeline piece, and the conveyer belt will send the conveying material piece into the equipment body through the feed chute in proper order like this inside to reach autoloading's effect.

(3) This full automatic checkout device of virus infector antigen-antibody, get into the inside back of equipment body along with the removal of conveyer belt when multiunit sample pipe through the pipeline piece, at this moment multiunit sample pipe can get into the circular slot in proper order inside, at this moment, the outside drive arrangement of the inside bottom of circular slot can drive the bottom block and rotate, at this moment, the bottom block will drive the roller rotation of gathering through pivot and fixture block, get into the circular slot in proper order after when the sample pipe, at this moment the roller of gathering will be when rotatory with sample pipe card income collecting vat in proper order wherein through the collecting vat, the roller of gathering like this will get the material to the sample pipe in proper order under outside drive arrangement drives, thereby reach the automatic effect of getting the material.

(4) The automatic antigen-antibody detection device for virus infectors comprises a circular groove, a collecting roller in the circular groove rotates under the drive of an external driving device to sequentially clamp and take sample tubes on a conveyor belt after a plurality of groups of sample tubes sequentially enter the circular groove, at the moment, an electric control device on a device body is started, the electric control device drives an electric power slide block to move left and right on the outer wall surface of a fixed rod through an external power supply control circuit, so that when the electric power slide block moves left and right, a pressure device on the electric power slide block is started to drive a sampling needle tube to move up and down, at the moment, when the electric power slide block moves to the collecting roller, the pressure device enables the sampling needle tube to move downwards to the sample tubes in a public toilet collecting tank to carry out sampling adsorption, at the moment, the pressure device extracts the sampling needle tube, and the electric power slide block moves to the right, thereby achieving the effect of automatic sampling and discharging.

(5) The full-automatic detection device for the antigen and the antibody of the virus infector comprises a collecting roller, a pressure device, a sampling needle tube, a third circular groove, a rotary detection block, a sampling needle tube, a discharge groove, a sampling needle tube, a sampling roller, a discharge groove and a sorting block, wherein when the electric power slide block moves to the upper part of the collecting roller, the pressure device drives the sampling needle tube to move downwards to sample the sample tube in the collecting groove, the sampling needle tube in the third circular groove is driven by the rotary detection block to rotate, the sampling needle tube penetrates through the sampling tube to inject a sample, when the rotary detection block rotates, the pressure device moves to the collecting roller to sample the next sample tube, the sample in the sampling tube enters the external detection tube in the device body to detect, when the sample meets the requirement, the sample is injected into the storage tube in the device body and conveyed, thereby achieving the effect of automatically detecting the sample.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is a partial schematic view of the collector roll of the present invention;

FIG. 4 is a partial schematic view of the injection tube of the present invention;

FIG. 5 is a partial schematic view of a classification roll of the present invention.

In the figure:

1. an apparatus body; 2. a feed chute; 3. a material conveying block; 4. a conveyor belt; 5. a pipe block; 6. a sample tube; 7. a square groove; 8. a circular groove; 9. a collecting roller; 10. collecting tank; 11. a second circular groove; 12. a clamping groove; 13. a bottom block; 14. a rotating shaft; 15. a clamping block; 16. a fixing plate; 17. fixing the rod; 18. a power control device; 19. an electric power slider; 20. a vertical slot; 21. a pressure device; 22. a sampling needle tube; 23. a third circular groove; 24. rotating the detection block; 25. a material injection pipe; 26. a discharge chute; 27. classifying blocks; 28. a second square groove; 29. a drive box; 30. a second rotating shaft; 31. a sorting roller; 32. and (4) a sorting groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a full-automatic detection device for antigen and antibody of a virus infected person comprises an equipment body 1, wherein a feeding groove 2 is formed in the left wall surface of the equipment body 1, the feeding groove 2 is in a rectangular groove shape, a conveying block 3 is fixedly installed on the left wall surface of the equipment body 1, the conveying block 3 is in a rectangular block shape, a square groove 7 is formed in the upper wall surface of the conveying block 3, the square groove 7 is in a rectangular groove shape, a conveying belt 4 capable of moving in a right direction is arranged inside the square groove 7, the conveying belt 4 is in a rectangular belt shape, the outer wall surface of the conveying belt 4 is sleeved with the output shaft end of an external motor, pipeline blocks 5 which are arranged at equal intervals are fixedly installed on the upper wall surface of the conveying belt 4, the inside of each pipeline block 5 is hollow, a sample pipe 6 is movably connected inside each pipeline block 5, the sample pipe 6 is in a circular pipe shape, the inside of each sample pipe 6 is hollow, a circular groove 8 is, the collecting roller 9 is arranged in the circular groove 8, the collecting roller 9 is in a circular roller shape, eight collecting grooves 10 which are arranged at equal intervals are formed in the upper end of the collecting roller 9, the collecting grooves 10 are in a semicircular groove shape, a second circular groove 11 is formed in the upper end of the collecting roller 9, two clamping grooves 12 which are in mirror symmetry are formed in the upper end of the collecting roller 9, the clamping grooves 12 are in a rectangular groove shape, the two clamping grooves 12 are communicated with the second circular groove 11, a bottom block 13 is arranged at the lower end of the collecting roller 9, the bottom block 13 is in a circular block shape, a rotating shaft 14 is fixedly installed at the upper end of the bottom block 13, two clamping blocks 15 which are in mirror symmetry are fixedly installed on the outer wall surface of the rotating shaft 14, the rotating shaft 14 and the two clamping blocks 15 are respectively movably connected with the second circular groove 11 and the two clamping grooves 12, and two fixing plates 16 which are in mirror symmetry are fixedly installed on the, the fixing plate 16 is rectangular plate-shaped, a fixing rod 17 is arranged between the two fixing plates 16, the fixing rod 17 is circular rod-shaped, the left end and the right end of the fixing rod 17 are respectively and fixedly connected with one side wall surface of the two fixing plates 16, the left wall surface of the fixing plate 16 positioned on the right side of the equipment body 1 is fixedly provided with a power control device 18, the power control device 18 is a power supply device, the outer wall surface of the fixing rod 17 is movably sleeved with a power slider 19, the power slider 19 is rectangular block-shaped, the power slider 19 is electrically connected with the power control device 18 through an external power circuit, the rear wall surface of the power slider 19 is provided with a vertical groove 20, the vertical groove 20 is rectangular groove-shaped, a pressure device 21 is arranged behind the power slider 19, the pressure device 21 is movably connected with the interior of the vertical groove 20 through the power slider, and the lower wall surface of, the sampling needle tube 22 is a circular pipeline, the inside of the sampling needle tube 22 is hollow, the sampling needle tube 22 can penetrate through the inside of the sample tube 6 when moving downwards through the pressure device 21, the upper wall surface of the equipment body 1 is provided with a third circular groove 23, the inside of the third circular groove 23 is provided with a rotation detection block 24, the rotation detection block 24 is a circular block, the upper end of the rotation detection block 24 is fixedly provided with four material injection tubes 25 arranged at equal intervals, the material injection tubes 25 are in a circular tubular shape, the inside of the material injection tubes 25 is hollow, the right wall surface of the equipment body 1 is provided with a discharge groove 26, the discharge groove 26 is in a rectangular groove shape, the rear wall surface of the discharge groove 26 is fixedly provided with a classification block 27, the classification block 27 is in a rectangular block shape, the upper wall surface of the classification block 27 is provided with a second square groove 28, the second square groove 28 is in a rectangular groove shape, the right wall surface of the equipment body, drive box 29 is the rectangle box, and the inside of drive box 29 is provided with drive arrangement, the inside motor drive arrangement output shaft end of drive box 29 runs through drive box 29, the inside motor drive arrangement output shaft end fixedly connected with second pivot 30 of drive box 29, the top of drive box 29 is provided with categorised roller 31, and categorised roller 31 is circular cylinder, the circular slot has been seted up to the upper end of categorised roller 31, second pivot 30 with circular slot fixed connection on the categorised roller 31, categorised groove 32 has been seted up to the upper end of categorised roller 31, and categorised groove 32 is semi-circular slot shape.

The working principle is as follows: when using, at first place sample pipe 6 in proper order inside pipeline piece 5, at this moment conveyer belt 4 can remove inside defeated material piece 3 under outside drive arrangement drives, and sample pipe 6 sets gradually inside defeated material piece 3 through pipeline piece 5, and conveyer belt 4 will be defeated material piece 3 and sent into equipment body 1 inside through feed chute 2 in proper order like this to reach autoloading's effect.

Get into 1 inside back of equipment body along with the removal of conveyer belt 4 when multiunit sample pipe 6 passes through pipeline piece 5, at this moment multiunit sample pipe 6 can get into circular slot 8 inside in proper order, at this moment, the external drive equipment of the inside bottom of circular slot 8 can drive bottom block 13 and rotate, at this moment, bottom block 13 will drive collection roller 9 through pivot 14 and fixture block 15 and rotate, get into 8 inside backs of circular slot in proper order when sample pipe 6, at this moment collection roller 9 will be in proper order with sample pipe 6 card income collecting vat 10 through collecting vat 10 when rotatory wherein, material roller 9 will be got material 6 in proper order to sample pipe under external drive equipment drives like this, thereby reach the automatic effect of getting the material.

When a plurality of groups of sample tubes 6 enter the circular groove 8 in sequence, the collecting roller 9 in the circular groove 8 is driven by an external driving device to rotate to clamp the sample tubes 6 on the conveying belt 4 in sequence, at the moment, the power control device 18 on the device body 1 is started, at the moment, the power control device 18 drives the power slide block 19 to move left and right on the outer wall surface of the fixing rod 17 through an external power supply control circuit, so that when the power slide block 19 moves left and right, the pressure device 21 on the power slide block 19 is started to drive the sampling needle tube 22 to move up and down, at the moment, when the power slide block 19 moves to the collecting roller 9, the pressure device 21 enables the sampling needle tube 22 to move downwards to the sample tube collecting groove 6 in the public toilet 10 to carry out sampling adsorption, at the moment, the pressure device 21 pulls out the sampling needle tube 22, and the power slide block 19 moves to the right side of the, thereby achieving the effect of automatic sampling and discharging.

When the electric power slide block 19 moves to the upper part of the material collecting roller 9, the pressure device 21 drives the sampling needle tube 22 to move downwards to sample the sample tube 6 in the collecting tank 10, after sampling is completed, the electric power slide block 19 drives the sampling needle tube 22 to move rightwards to the position of the third circular groove 23, at this time, the material injecting tube 25 in the third circular groove 23 is driven by the rotary detection block 24 to rotate, at this time, the sampling needle tube 22 penetrates through the material injecting tube 25 to inject samples, and when the rotary detection block 24 rotates, the pressure device 21 moves to the material collecting roller 9 to sample the next sample tube 6, at this time, the samples in the material injecting tube 25 enter the external detection pipeline in the device body 1 to be detected, when the requirements are met, the samples are injected into the storage pipeline in the device body 1 and conveyed to the classification block 27 through the material discharging groove 26, so that the samples in the sample tube 6 can be detected after being fed and taken, thereby achieving the effect of automatically detecting the sample.

When the qualified samples and the unqualified samples are detected, the samples are conveyed to the classification block 27 by the internal instrument of the equipment body 1 through the discharge chute 26, the discharge chute 26 is internally provided with monitoring equipment, after each sample tube 6 comes out, the sample tube 6 will be identified by the monitoring device, and the monitoring device inside the discharging chute 26 will transmit the specification information of the sample tube 6 to the control device inside the driving box 29, at this moment, after the classification roller 31 is driven to rotate by the driving control equipment inside the driving box 29, the classification roller 31 can classify the sample tubes 6 discharged from the discharge chute 26 leftwards and rightwards through the classification groove 32 according to the instruction of the control equipment inside the driving box 29, and the whole equipment body 1 can perform whole full-automatic detection from feeding, collecting, material taking, detection and analysis and inactivation classification, so that the effect of improving the working efficiency is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a full automatic checkout device of virus infector antigen antibody, includes equipment body (1), its characterized in that: the feeding groove (2) is formed in the left wall face of the equipment body (1), the conveying block (3) is fixedly mounted on the left wall face of the equipment body (1), the square groove (7) is formed in the upper wall face of the conveying block (3), the conveying belt (4) which can move oppositely is arranged in the square groove (7), the outer wall face of the conveying belt (4) is connected with the output shaft of the external motor in a sleeved mode, the pipeline blocks (5) which are arranged at equal intervals are fixedly mounted on the upper wall face of the conveying belt (4), each pipeline block (5) is movably connected with a sample pipe (6) in the inner portion, the circular groove (8) is formed in the upper wall face of the equipment body (1), the collecting roller (9) is arranged in the circular groove (8), the collecting grooves (10) which are arranged at eight equal intervals are formed in the upper end of the collecting roller (9), and the second circular groove (11) is formed in the upper end of the collecting roller, two mirror symmetry's joint groove (12), two are seted up to the upper end of collecting roller (9) joint groove (12) with second circular slot (11) communicate with each other, the lower extreme of collecting roller (9) is provided with bottom block (13), the upper end fixed mounting of bottom block (13) has pivot (14).

2. The apparatus according to claim 1, wherein the apparatus comprises: the outer wall fixed mounting of pivot (14) has two mirror symmetry's fixture block (15), pivot (14) and two fixture block (15) respectively with second circular slot (11) and two joint groove (12) swing joint, the last wall fixed mounting of equipment body (1) has two mirror symmetry's fixed plate (16).

3. The apparatus according to claim 2, wherein the apparatus comprises: two be provided with dead lever (17) between fixed plate (16), both ends respectively with two about dead lever (17) one side wall fixed connection that fixed plate (16) are close to each other, be located the left wall fixed mounting of fixed plate (16) on equipment body (1) right side has power control equipment (18).

4. The apparatus according to claim 3, wherein the apparatus comprises: the outer wall surface of the fixing rod (17) is movably sleeved with an electric power sliding block (19), the electric power sliding block (19) is electrically connected with the electric power control equipment (18) through an external power supply circuit, a vertical groove (20) is formed in the rear wall surface of the electric power sliding block (19), and a pressure device (21) is arranged behind the electric power sliding block (19).

5. The apparatus according to claim 4, wherein the apparatus comprises: the pressure device (21) is movably connected with the interior of the vertical groove (20) through an electric slider, a sampling needle tube (22) is fixedly mounted on the lower wall surface of the pressure device (21), and the sampling needle tube (22) can penetrate through the interior of the sample tube (6) when moving downwards through the pressure device (21).

6. The apparatus according to claim 1, wherein the apparatus comprises: the device is characterized in that a third circular groove (23) is formed in the upper wall surface of the device body (1), a rotary detection block (24) is arranged inside the third circular groove (23), and four material injection pipes (25) which are arranged at equal intervals are fixedly installed at the upper end of the rotary detection block (24).

7. The apparatus according to claim 1, wherein the apparatus comprises: discharge chute (26) have been seted up to the right wall of equipment body (1), the back wall fixed mounting of discharge chute (26) has categorised piece (27), second square groove (28) have been seted up to the last wall of categorised piece (27).

8. The apparatus according to claim 1, wherein the apparatus comprises: the right wall surface of the equipment body (1) is fixedly provided with a driving box (29), and the output shaft end of the motor driving equipment in the driving box (29) penetrates through the driving box (29).

9. The apparatus according to claim 8, wherein the apparatus comprises: and a second rotating shaft (30) is fixedly connected to an output shaft end of a motor driving device in the driving box (29), and a classifying roller (31) is arranged above the driving box (29).

10. The apparatus according to claim 9, wherein the apparatus comprises: circular slot has been seted up to the upper end of categorised roller (31), second pivot (30) with circular slot fixed connection on categorised roller (31), categorised groove (32) have been seted up to the upper end of categorised roller (31).

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