CN211652549U - Full-automatic quick drug detection device suitable for large-scale crowd - Google Patents
Full-automatic quick drug detection device suitable for large-scale crowd Download PDFInfo
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- CN211652549U CN211652549U CN202020238034.5U CN202020238034U CN211652549U CN 211652549 U CN211652549 U CN 211652549U CN 202020238034 U CN202020238034 U CN 202020238034U CN 211652549 U CN211652549 U CN 211652549U
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- 238000001514 detection method Methods 0.000 title claims abstract description 106
- 239000003814 drug Substances 0.000 title claims abstract description 16
- 229940079593 drug Drugs 0.000 title claims abstract description 16
- 238000012360 testing method Methods 0.000 claims abstract description 110
- 238000004519 manufacturing process Methods 0.000 claims abstract description 11
- 238000007789 sealing Methods 0.000 claims description 22
- 238000005070 sampling Methods 0.000 claims description 13
- 238000003825 pressing Methods 0.000 claims description 10
- 230000006835 compression Effects 0.000 claims description 8
- 238000007906 compression Methods 0.000 claims description 8
- 239000007788 liquid Substances 0.000 claims description 8
- 210000001124 body fluid Anatomy 0.000 claims description 7
- 239000010839 body fluid Substances 0.000 claims description 7
- 238000005507 spraying Methods 0.000 claims description 4
- 238000001125 extrusion Methods 0.000 abstract description 7
- 238000007689 inspection Methods 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 238000002360 preparation method Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 3
- 238000012031 short term test Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 230000003252 repetitive effect Effects 0.000 description 1
- 238000003892 spreading Methods 0.000 description 1
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Abstract
The utility model discloses a full-automatic quick drug detection device who adapts to extensive crowd, include: the test box comprises a test box body, a sample collector conveying tray and a test paper conveying tray, wherein the interior of the test box body comprises an identification code manufacturing unit, a conveying tray identification unit, a conveying tray conveying unit, a conveying positioning unit, a collector extrusion unit, a collector identification unit and a test paper identification unit; and the device is also provided with an acquisition module, a processing module and a display module. The utility model discloses can carry out the quick collection and the matching of on-the-spot personnel and sample information, realize the high-efficient detection of batch nature, reduce the human cost, improve detection efficiency and precision simultaneously to avoid the human error in the detection.
Description
Technical Field
The utility model relates to a drug detection field, specific adapt to extensive crowd's full-automatic quick drug detection device that says so.
Background
With the economic development and the continuous deepening of the openness degree of China, the drug problem presents an increasingly serious spreading trend. Recently, many field drug detection devices are available in China, and can screen important areas and important groups.
However, the existing detection instrument needs a large amount of repeated labor, and can only carry out identification and detection one by one under the detection situation of large-scale people, and batch efficient detection cannot be realized. In addition, in the existing drug detector, sample information and personnel information cannot be accurately and automatically matched, so that human errors easily occur in the detection process, and the detection result is inaccurate.
Disclosure of Invention
The utility model discloses an overcome prior art's weak point, provide a adapt to extensive crowd's full-automatic quick drug detection device to can realize improving detection efficiency and precision to extensive crowd's full-automatic short-term test of drug in phase, and reduce the manpower load.
The utility model discloses in order to reach above-mentioned invention purpose, adopt following technical scheme:
the utility model relates to a full-automatic quick drug detection device who adapts to extensive crowd's characteristics include: the device comprises a sample collector, a sample collector conveying tray, a detection test paper conveying tray and a detection box body;
the sample collector, comprising: a body fluid collecting rod and a sampling tube;
a personnel information identification code is pasted on the sampling tube; an upper sealing ring with a sealing film is arranged at the upper part of the sampling tube; a compression structure is arranged at the lower part of the sampling tube; another lower sealing ring with a sealing film is arranged below the compression structure; a liquid outlet is formed in the bottom of the lower sealing ring;
a sample tray identification code is arranged on one side of the sample collector conveying tray; a plurality of fixing hole sites are arranged on the sample collector conveying tray; each well site for placement of the sample collector; each hole site is provided with a sample position identification mark on the sample collector conveying tray correspondingly;
a test paper tray identification code is arranged on one side of the test paper conveying tray; the detection test paper conveying tray is provided with detection test paper with the same number as the fixed hole sites, and each detection test paper corresponds to a test paper position identification mark on the detection test paper conveying tray;
the top of the detection box body is provided with a hole opening groove for placing the sample collector to manufacture the identification code;
sample collector conveying ports are respectively formed in the middle upper parts of the two sides of the detection box body and used for conveying the sample collector conveying trays into corresponding input channels;
the middle lower parts of the two sides of the detection box body are respectively provided with a detection test paper conveying port for conveying the detection test paper conveying tray into a corresponding input channel;
l-shaped movable supports for supporting the tray are respectively arranged on the side part of the detection box body and below the conveying port of the sample collector and the conveying port of the detection test paper;
a display module and an acquisition module are arranged on the detection box body;
the detection box body is internally provided with a processor module, an identification code manufacturing unit, a conveying tray identification unit, a conveying tray conveying unit, a conveying positioning unit, a collector extrusion unit, a collector identification unit and a test paper identification unit;
the acquisition module is used for acquiring personnel information, transmitting the personnel information to the display module through a signal line for display, and transmitting the personnel information to the identification code manufacturing unit for manufacturing the personnel information identification code;
the identification code making unit includes: the L-shaped bracket, the light receiving lens, the emitting light source and the code spraying device are symmetrically arranged;
a light receiving lens is arranged on the L-shaped bracket; a transmitting light source is arranged on the other L-shaped bracket and at a position corresponding to the light receiving lens; an L-shaped bracket above the emission light source is provided with a code sprayer for generating the personnel information identification code; the bottom parts of the symmetrically arranged L-shaped brackets are used for supporting the sample collector;
the conveying tray identification unit comprises two tray identification lenses, wherein one tray identification lens is arranged at an inlet of a conveying port of the sample collector to acquire an image of a sample tray identification code, the other tray identification lens is arranged at an inlet of a conveying port of the detection test paper to acquire an image of the test paper tray identification code, and the acquired images are transmitted to the processor module through signal lines, so that identification information of the sample and the test paper tray is acquired by the processor module and is transmitted to the display module through the signal lines to be displayed;
the conveying tray transfer unit is disposed at both sides of the two conveying paths, and includes: the device comprises a motor, a square fixing frame, a driving rotating wheel, a belt, a driven rotating wheel, a spring and a connecting block;
each rotating wheel is fixed on the square fixed frame, and an output shaft of the motor is connected with the driving rotating wheel; the driving rotating wheel drives the driven rotating wheel through the belt, and a connecting block and a spring are connected to a connecting shaft block at the bottom of the driven rotating wheel, so that the driven rotating wheel forms a clamping structure for the tray, and the tray on the conveying channel is conveyed;
the conveying and positioning unit is arranged in the middle of the two output channels and comprises: a positioning light source and a positioning light receiving lens;
the positioning light source is arranged above the side of the middle of the output channel, the positioning light receiving lens is arranged above the other side which is symmetrical to the positioning light source in position, and after light reflected by the sample position identification mark or the test paper position identification mark is obtained, the light is transmitted to the processor through a signal line, so that the processor module obtains a matching result of the sample and the test paper, and the matching result is transmitted to the display module through the signal line to be displayed;
the collector pressing unit is disposed downstream of the conveying positioning unit of the conveying passage and includes: the motor is connected with the telescopic shaft and the squeezer;
the driving motor is connected with the processor module through a signal wire, and the bottom of the driving motor is connected with the motor connecting telescopic shaft; the lower end of the motor connecting telescopic shaft is connected with the driving squeezer; the driving squeezer forms a squeezing structure for a sealing ring on a sample collector positioned below so that a sample in the sample collector can drip on the detection test paper from a liquid outlet;
the collector identifying unit is disposed downstream of the collector pressing unit of the conveying passage, and includes: n collector recognition shots;
the n collector identification lenses are uniformly arranged on the outer circumference of the personnel information identification code of the sample collector and are used for acquiring images of the personnel information identification code and transmitting the images to the processor module through signal lines, so that corresponding personnel and sample corresponding results are obtained by the processor module and are transmitted to the display module through the signal lines to be displayed;
the test paper discriminating unit is also disposed downstream of the collector-pressing unit of the conveying path, and includes: a test paper identification lens;
the test paper identification lens is arranged above the test paper and used for transmitting the image of the test paper to the processor module through a signal line, so that a drug detection result is obtained by the processor module and is transmitted to the display module through the signal line to be displayed.
Compared with the prior art, the beneficial effects of the utility model reside in that:
1. the utility model discloses to the numerous adult crowd condition of awaiting measuring of number, through setting up the detection box body, the sample collector, the tray is carried to the sample collector, test paper carries the tray, personnel's information and sample information collection can carry out fast, and through setting up identification code preparation unit, carry tray identification unit, collector identification unit, test paper identification unit, can match personnel's information and sample information rapidly, change the original condition that needs personnel to gather the detection one by one, disposable high batch's short-term test has been realized, personnel's meaningless repetitive labor in the testing process has been reduced simultaneously, the work efficiency of testing personnel has been improved.
2. The utility model discloses utilize the identification code to make the unit, can on-spot quick preparation personnel information sign indicating number to through collector identification element, carry out accurate matching with personnel information and sample information, avoided the human error in the detection.
3. The utility model discloses utilize the position identification mark of conveying unit, transport positioning unit, sample and test paper and the cooperation integration between each component of collector extrusion unit, position accuracy and sample and test result's when having improved sample preparation in the test accuracy that corresponds greatly to the degree of automation of test has been promoted.
Drawings
FIG. 1 is a schematic view of a sample collector of the present invention in detail;
FIG. 2 is a schematic view of a detail of a sample collector transport tray of the present invention;
FIG. 3 is a schematic view of the inspection paper conveying tray of the present invention;
FIG. 4a is a schematic view of the external detail of the inspection box of the present invention;
FIG. 4b is a front view of the inner detail of the inspection box of the present invention;
FIG. 5 is a schematic diagram of the details of the identification code making unit of the present invention;
FIG. 6 is a schematic diagram of a detail of the tray recognition unit of the present invention;
FIG. 7 is a schematic view (overhead) of a detail of the transfer tray transfer unit of the present invention;
FIG. 8a is a front view of a detail of the delivery positioning unit of the present invention;
FIG. 8b is a top view of a detail of the transporting and positioning unit of the present invention;
FIG. 9 is a schematic view of a detail of the collector extrusion unit of the present invention;
FIG. 10 is a top view of a detail of the collector recognition unit of the present invention;
FIG. 11 is a schematic diagram of the details of the test paper identification unit of the present invention;
the reference numbers in the figures are: 1 sample collector, 1.1 body fluid collecting rod, 1.2 sampling tube, 1.3 personnel information identification code, 1.4 upper sealing ring with sealing film, 1.5 compression structure, 1.6 lower sealing ring with sealing film, 1.7 liquid outlet, 2 collector conveying tray, 2.1 sample tray identification code, 2.2 fixed hole site, 2.3 sample position identification mark, 3 test paper conveying tray, 3.1 test paper tray identification code, 3.2 test paper, 3.3 test paper position identification mark, 4 detection box body, 4.1 sample collector conveying port, 4.2 test paper conveying port, 4.3 'L' type movable support, 4.4 processor module, 4.5 display module, 4.6 collecting module, 4.7 perforated groove, 5 identification code making unit, 5.1 'L' type support symmetrically arranged, 5.2 light receiving lens, 5.3 emitting light source, 5.4 code spraying device, 6 conveying tray identification unit, 6.1 tray identification code making unit, 5.1 conveying lens conveying unit, 7.1 motor, 7.2 square fixed frame, 7.3 drive runners, 7.4 belts, 7.5 driven runners, 7.6 springs, 7.7 connecting blocks, 8 transport positioning unit, 8.1 location light source, 8.2 location light receiving lens, 9 collector extrusion units, 9.1 driving motor, the telescopic shaft is connected to 9.2 motor, 9.3 squeezer, 10 collector recognition unit, 10.1 collector recognition lens, 11 test paper recognition unit, 11.1 test paper recognition lens.
Detailed Description
In this embodiment, a full-automatic quick drug detection device who adapts to extensive crowd includes: the device comprises a sample collector 1, a sample collector conveying tray 2, a detection test paper conveying tray 3 and a detection box body 4;
as shown in fig. 1, the sample collector 1 includes: a body fluid collecting rod 1.1 and a sampling tube 1.2;
a personnel information identification code 1.3 is pasted on the sampling tube 1.2; an upper sealing ring 1.4 with a sealing film is arranged at the upper part of the sampling tube 1.2; a compression structure 1.5 is arranged at the lower part of the sampling tube 1.2; a lower sealing ring 1.6 with a sealing film is arranged below the compression structure 1.5; a liquid outlet 1.7 is arranged at the bottom of the lower sealing ring 1.6; collecting a body fluid sample for a person to be detected by using a sample collector by a detection person;
as shown in fig. 2, a sample tray identification code 2.1 is provided on one side of the sample collector transport tray 2; a plurality of fixing hole sites 2.2 are arranged on the sample collector conveying tray 2; each hole site for placement of a sample collector 1; each hole site is provided with a sample position identification mark 2.3 on the sample collector conveying tray 2 correspondingly; a sample collector 1 in which the body fluid of a person to be detected is put is placed on a conveying tray 2 of the sample collector by a detection person so as to carry out subsequent automatic detection;
as shown in fig. 3, a test paper tray identification code 3.1 is provided on one side of the test paper delivery tray 3; the detection test paper conveying tray 3 is provided with detection test paper 3.2 with the same quantity as the fixed hole positions 2.2, and each detection test paper corresponds to a test paper position identification mark 3.3 on the detection test paper conveying tray 3; the detection personnel prepares the detection test paper conveying tray so as to carry out subsequent automatic detection;
as shown in fig. 4a and 4b, a perforated groove 4.7 matched with the sample collector 1 in size is arranged at the top of the detection box body 4 and is used for placing the sample collector for making an identification code;
the middle upper parts of the two sides of the detection box body 4 are respectively provided with a sample collector conveying port 4.1 for conveying the sample collector conveying tray 2 into a corresponding input channel;
the middle lower parts of the two sides of the detection box body 4 are respectively provided with a detection test paper conveying port 4.2 for conveying the detection test paper conveying tray 3 into a corresponding input channel;
l-shaped movable supports 4.3 are respectively arranged on the side part of the detection box body 4 and below the sample collector test paper conveying port 4.1 and the detection test paper conveying port 4.2 and are used for supporting the in-and-out sample collector tray 2 and the detection test paper tray 3;
a display module 4.5 and an acquisition module 4.6 are arranged on the detection box body 4;
a processor module 4.4, an identification code making unit 5, a conveying tray identification unit 6, a conveying tray conveying unit 7, a conveying positioning unit 8, a collector extrusion unit 9, a collector identification unit 10, a test paper identification unit 11 and a power supply module are arranged in the detection box body 4;
the acquisition module 4.6 is used for acquiring personnel information, transmitting the personnel information to the display module through a signal line for display, and transmitting the personnel information to the identification code manufacturing unit 5 for manufacturing the personnel information identification code 1.3;
as shown in fig. 5, the identification code making unit 5 includes: the device comprises an L-shaped bracket 5.1, a light receiving lens 5.2, a transmitting light source 5.3 and a code spraying device 5.4 which are symmetrically arranged;
a light receiving lens 5.2 is arranged on the L-shaped bracket; a transmitting light source 5.3 is arranged on the other L-shaped bracket and at the position corresponding to the light receiving lens 5.2; an L-shaped bracket above the emission light source 5.3 is provided with a code sprayer 5.4 for generating a personnel information identification code 1.3; the middle position of the bottom of the symmetrically arranged L-shaped bracket 5.1 is used for supporting the sample collector 1;
a detector puts a sample collector 1 into a perforated groove 4.7 at the top of the detection box, when the sample collector 1 is put into an identification code manufacturing unit 5, the sensing light emitted by an emission light source 5.3 can be shielded due to the shielding effect, and at the moment, a light receiving lens 5.2 cannot receive the sensing light, so that the sample collector 1 is judged to be put; if the light receiving lens 5.2 can receive the sensing light, the sample collector 1 is judged not to be placed in; after the sample collector 1 is confirmed to be placed in the sample collector, the detection personnel firstly use the collection module 4.6 to collect information of the personnel to be detected, the information is transmitted to the display module 4.5 through the signal wire to be displayed, so that the detection personnel can check and check the information conveniently, and if the information is correct, the identification code making unit 5 makes the corresponding personnel information identification code 1.3; accomplish when personnel's information identification code preparation, the testing personnel utilizes the sample collector 1 with personnel's information identification code to carry out the body fluid collection to the personnel that await measuring, finishes the back of collecting, puts into sample collector and carries tray 2, opens "L" type movable support 4.3 that is located the delivery port below again, puts into the detection box 4 with sample collector tray 2 and detection test paper tray 3 together simultaneously, carries out subsequent a series of automated inspection processes: conveying tray identification → conveying tray → positioning conveying tray → pressing sample collector → identifying test paper;
as shown in fig. 6, the conveying tray identifying unit 6 includes two tray identifying lenses 6.1, one of the tray identifying lenses is disposed at an entrance of the conveying port 4.1 of the sample collector to obtain an image of the sample tray identifying code 2.1, the other tray identifying lens is disposed at an entrance of the conveying port 4.2 of the test paper to obtain an image of the test paper tray identifying code 3.1, and the obtained images are transmitted to the processor module 4.4 through signal lines, so that the processor module 4.4 obtains identifying information of the sample and the test paper tray, and transmits the identifying information to the display module 4.5 through the signal lines to be displayed;
as shown in fig. 7, the conveyance tray transfer units 7 are provided on both sides of the two conveyance paths in the detection box 4, respectively, and include: the device comprises a motor 7.1, a square fixing frame 7.2, a driving rotating wheel 7.3, a belt 7.4, a driven rotating wheel 7.5, a spring 7.6 and a connecting block 7.7;
each rotating wheel is fixed on the square fixed frame 7.2, and an output shaft of the motor 7.1 is connected with a driving rotating wheel 7.3; the driving rotating wheel 7.3 drives the driven rotating wheel 7.5 through a belt 7.4, and a connecting block 7.7 and a spring 7.6 are connected to a connecting block at the bottom of the driven rotating wheel 7.5, so that the driven rotating wheel 7.5 forms a clamping structure for the tray, and the tray on the conveying channel is conveyed;
in the concrete implementation, carry out the discernment of tray identification code respectively to the sample collector tray 2 and the test paper tray 3 of putting into earlier, gained signal transfer shows for display module 4.5, and the back is correct in the inspection personnel check-up, carries tray transfer unit 7 to begin to operate, drives drive runner 7.3 by motor 7.1, and belt 7.4 passes through drives driven runner 7.5, and compression spring 7.6 tightens the tray, carries out the conveying of tray jointly from both sides.
As shown in fig. 8a and 8b, a conveying positioning unit 8 is provided in the middle of the two output channels in the detection box 4, and includes: a positioning light source 8.1 and a positioning light receiving lens 8.2;
the positioning light source 8.1 is arranged above the side of the middle of the output channel, the positioning light receiving lens 8.2 is arranged above the other side symmetrical to the positioning light source 8.1, and after light reflected by the sample position identification mark 2.3 or the test paper position identification mark 3.3 is obtained, the light is transmitted to the processor 4.4 through a signal line, so that the matching result of the sample and the test paper is obtained by the processor module 4.4 and is transmitted to the display module 4.5 through the signal line for display;
as shown in fig. 9, a collector pressing unit 9 is provided downstream of the conveyance positioning unit 8 that detects the conveyance path in the cassette 4, and includes: a driving motor 9.1 is connected with a telescopic shaft 9.2 and an extruder 9.3;
the driving motor 9.1 is connected with the processor module 4.4 through a signal wire, and the bottom of the driving motor 9.1 is connected with a motor connecting telescopic shaft 9.2; the lower end of the motor connecting telescopic shaft 9.2 is connected with a driving squeezer 9.3; a driving squeezer 9.3 forms a squeezing structure for a sealing ring 1.4 on a sample collector 1 positioned below, so that a sample in the sample collector 1 can drip onto a detection test paper 3.2 from a liquid outlet 1.7;
in specific implementation, when the tray is conveyed, the tray needs to be positioned, so that the positions of the detection test paper and the sample collector are ensured to be in one-to-one correspondence, and the detection liquid can be successfully dripped onto the detection test paper 3.2 to complete subsequent detection; two sets of positioning units are provided, and the positioning units respectively correspond to the test paper positions and the sample position identification marks in the collection detection test paper conveying tray 3 and the sample collector conveying tray 2; in the positioning process, the positioning light source 8.1 emits light to the tray, the positioning light receiving lens 8.8 receives corresponding reflected light, and whether the position identification mark exists or not influences the reflected light, so that whether the sample collector corresponds to the detection test paper or not is judged based on the positioning light, if the position identification mark exists, the sample collector is repositioned, and if the position identification mark does not exist, the subsequent sample extrusion process is carried out, so that the sample accurately drops onto the corresponding detection test paper 3.2, and the subsequent detection is completed;
as shown in fig. 10, a collector recognition unit 10 is provided downstream of the collector pressing unit 9 that detects the conveyance path in the casing 4, and includes: n collector recognition shots 10.1;
the n collector identification lenses are uniformly arranged on the outer circumference of the personnel information identification code 1.3 of the sample collector 1 and are used for acquiring the image of the personnel information identification code 1.3 and transmitting the image to the processor module 4.4 through a signal wire, so that the processor module 4.4 acquires the corresponding result of the corresponding personnel and sample and transmits the result to the display module 4.5 through the signal wire for displaying;
as shown in fig. 11, a test paper discriminating unit 11 is further provided downstream of the collector-pressing unit 9 of the conveyance path in the detection housing 4, and includes: a test paper identification lens 11.1;
the test paper identification lens 11.1 is arranged above the test paper 3.2 and is used for acquiring an image of the test paper 3.2 and transmitting the image to the processor module 4.4 through a signal line, so that a drug detection result is obtained by the processor module 4.4 and is transmitted to the display module 4.5 through the signal line for display;
in specific implementation, the extruded sample collector 1 carries out 360-degree all-dimensional identification on the personnel information identification code 1.3 of the sample through n collector identification lenses, detection is completed through the test paper identification lens 11.1 corresponding to the lower detection test paper, corresponding personnel information and detection information are transmitted to the processor module 4.4 and the display module 4.5 through signal lines, and final personnel and detection results are published.
The L-shaped bracket 5.1, the tray identification lens 6.1, the motor 7.1, the square fixing frame 7.2, the positioning light source 8.1, the positioning light receiving lens 8.2, the driving motor 9.1, the n collector identification lenses 10.1, the test paper identification lenses 11.1 and the like which are symmetrically arranged in the device are all connected to the inner wall of the detection box body 4 through the fixing bracket for fixing. Each module and each unit are supplied with power through a power supply module connected with a power line;
in conclusion, the sample collector and the test paper in the conveying tray are detected through the processes, and the next round of test can be performed after all the samples in the tray are detected. The device can carry out quick collection and the matching of on-the-spot personnel and sample information, through disposable high batch automated inspection, detection efficiency has been improved greatly, but the identification code preparation unit that sets up in it simultaneously makes personnel's information on-the-spot for follow-up and sample, the real-time relevance of testing result, its inside a plurality of discernment and positioner, personnel, the one-to-one of sample and testing result has been ensured, greatly reduced external factor interference and personal error, improved the accuracy that detects, and the human cost has been reduced.
Claims (1)
1. The utility model provides a full-automatic quick drug detection device who adapts to extensive crowd which characterized in that includes: the device comprises a sample collector (1), a sample collector conveying tray (2), a detection test paper conveying tray (3) and a detection box body (4);
the sample collector (1) comprising: a body fluid collecting rod (1.1) and a sampling tube (1.2);
a personnel information identification code (1.3) is pasted on the sampling tube (1.2); an upper sealing ring (1.4) with a sealing film is arranged at the upper part of the sampling tube (1.2); a compression structure (1.5) is arranged at the lower part of the sampling tube (1.2); another lower sealing ring (1.6) with a sealing film is arranged below the compression structure (1.5); a liquid outlet (1.7) is arranged at the bottom of the lower sealing ring (1.6);
a sample tray identification code (2.1) is arranged on one side of the sample collector conveying tray (2); a plurality of fixing hole sites (2.2) are arranged on the sample collector conveying tray (2); each hole site for placing the sample collector (1); each hole site is provided with a sample position identification mark (2.3) corresponding to the sample collector conveying tray (2);
a test paper tray identification code (3.1) is arranged on one side of the test paper conveying tray (3); the detection test paper conveying tray (3) is provided with detection test paper (3.2) with the same number as the fixed hole sites (2.2), and each detection test paper corresponds to a test paper position identification mark (3.3) on the detection test paper conveying tray (3);
the top of the detection box body (4) is provided with a hole opening groove (4.7) for placing the sample collector (1) to manufacture an identification code;
sample collector conveying ports (4.1) are respectively arranged at the middle upper parts of the two sides of the detection box body (4) and are used for conveying the sample collector conveying tray (2) into corresponding input channels;
the middle lower parts of the two sides of the detection box body (4) are respectively provided with a detection test paper conveying port (4.2) for conveying the detection test paper conveying tray (3) into a corresponding input channel;
l-shaped movable supports (4.3) for supporting the tray are respectively arranged on the side part of the detection box body (4) and below the sample collector conveying port (4.1) and the detection test paper conveying port (4.2);
a display module (4.5) and an acquisition module (4.6) are arranged on the detection box body (4);
a processor module (4.4), an identification code making unit (5), a conveying tray identification unit (6), a conveying tray conveying unit (7), a conveying positioning unit (8), a collector extruding unit (9), a collector identification unit (10) and a test paper identification unit (11) are arranged in the detection box body (4);
the acquisition module (4.6) is used for acquiring personnel information, transmitting the personnel information to the display module through a signal line for display, and transmitting the personnel information to the identification code manufacturing unit (5) for manufacturing the personnel information identification code (1.3);
the identification code making unit (5) includes: the system comprises L-shaped brackets (5.1), a light receiving lens (5.2), a transmitting light source (5.3) and a code spraying device (5.4) which are symmetrically arranged;
a light receiving lens (5.2) is arranged on the L-shaped bracket; a transmitting light source (5.3) is arranged on the other L-shaped bracket and at a position corresponding to the light receiving lens (5.2); an L-shaped bracket above the emission light source (5.3) is provided with a code sprayer (5.4) for generating the personnel information identification code (1.3); the bottom parts of the symmetrically arranged L-shaped brackets (5.1) are used for supporting the sample collector (1);
the conveying tray identification unit (6) comprises two tray identification lenses (6.1), wherein one tray identification lens is arranged at an inlet of a conveying port (4.1) of the sample collector to acquire an image of a sample tray identification code (2.1), the other tray identification lens is arranged at an inlet of a conveying port (4.2) of the detection test paper to acquire an image of a test paper tray identification code (3.1), and the acquired images are transmitted to the processor module (4.4) through signal lines, so that the processor module (4.4) acquires identification information of a sample and a test paper tray and transmits the identification information to the display module (4.5) through the signal lines to be displayed;
the conveying tray transfer unit (7) is provided on both sides of the two conveying paths, and includes: the device comprises a motor (7.1), a square fixing frame (7.2), a driving rotating wheel (7.3), a belt (7.4), a driven rotating wheel (7.5), a spring (7.6) and a connecting block (7.7);
each rotating wheel is fixed on the square fixing frame (7.2), and an output shaft of the motor (7.1) is connected with the driving rotating wheel (7.3); the driving rotating wheel (7.3) drives the driven rotating wheel (7.5) through the belt (7.4), and a connecting block (7.6) and a spring (7.7) are connected to a connecting shaft block at the bottom of the driven rotating wheel (7.5) so that the driven rotating wheel (7.5) forms a clamping structure for the tray to realize the conveying of the tray on the conveying channel;
the delivery positioning unit (8) is arranged in the middle of the two output channels and comprises: a positioning light source (8.1) and a positioning light receiving lens (8.2);
the positioning light source (8.1) is arranged above the side of the middle of the output channel, the positioning light receiving lens (8.2) is arranged above the other side which is symmetrical to the positioning light source (8.1), and after light reflected by the sample position identification mark (2.3) or the test paper position identification mark (3.3) is obtained, the light is transmitted to the processor module (4.4) through a signal line, so that the matching result of the sample and the test paper is obtained by the processor module (4.4), and is transmitted to the display module (4.5) through the signal line for display;
the collector pressing unit (9) is arranged downstream of the conveying positioning unit (8) of the conveying channel and comprises: a driving motor (9.1) which is connected with a telescopic shaft (9.2) and an extruder (9.3);
the driving motor (9.1) is connected with the processor module (4.4) through a signal wire, and the bottom of the driving motor (9.1) is connected with the motor connecting telescopic shaft (9.2); the lower end of the motor connecting telescopic shaft (9.2) is connected with a driving squeezer (9.3); the driving squeezer (9.3) forms a squeezing structure for a sealing ring (1.4) on the sample collector (1) below, so that a sample in the sample collector (1) can drop onto the detection test paper (3.2) from the liquid outlet (1.7);
the collector recognition unit (10) is arranged downstream of the collector pressing unit (9) of the conveying passage and comprises: n collector recognition shots (10.1);
the n collector identification lenses are uniformly arranged on the outer circumference of the personnel information identification code (1.3) of the sample collector (1) and used for acquiring an image of the personnel information identification code (1.3) and transmitting the image to the processor module (4.4) through a signal line, so that the processor module (4.4) obtains a corresponding personnel and sample corresponding result and transmits the result to the display module (4.5) through the signal line for displaying;
the test paper discriminating unit (11) is also disposed downstream of the collector-pressing unit (9) of the conveyance path, and includes: a test paper identification lens (11.1);
the test paper identification lens (11.1) is arranged above the test paper (3.2) and used for acquiring an image of the test paper (3.2) and transmitting the image to the processor module (4.4) through a signal line, so that a drug detection result is obtained by the processor module (4.4) and is transmitted to the display module (4.5) through the signal line to be displayed.
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