CN114955065A - Automatic transmission method of neocorolla antigen detection kit - Google Patents

Abstract

The invention relates to the technical field of antigen detection, and discloses an automatic transmission method of a neocorona antigen detection kit, which comprises the following steps: 1) the reagent box is placed on a moving carrier of the feeding position; 2) the movable carrier covers the protective film; 3) when the residence time of the mobile carrier from the loading position to the detection position is not less than the reaction detection time of the test strip, the detection result of the test strip is identified and uploaded to the control center; 4) after the mobile carrier moves to the blanking position, the reagent box is separated from the mobile carrier; 5) and the mobile carrier for unloading the reagent box moves to the reset buffer area from the blanking position, and then enters the loading position to wait for bearing the next reagent box. The reagent kit is placed on the moving carrier of the feeding position, automatic operation such as film covering, caching, time checking, detection and blanking is automatically realized along with the moving carrier, the process is simple, and the collected sample is not secondarily polluted.

Description

Automatic transmission method of neocorolla antigen detection kit

Technical Field

The invention relates to the technical field of antigen detection, in particular to an automatic transmission method of a neocorona antigen detection kit.

Background

The novel coronavirus is a novel coronavirus which can cause pneumonia/lung infection of human, belongs to a coronavirus family with common cold, Severe Acute Respiratory Syndrome (SARS) and Middle East Respiratory Syndrome (MERS), and is named as 2019 novel coronavirus, namely 2019-nCoV, by the world health organization.

The novel coronavirus pneumonia is mainly manifested by fever, dry cough, hypodynamia and the like, a few patients have upper respiratory tract and digestive tract symptoms such as nasal obstruction, watery nasal discharge, diarrhea and the like, severe cases mostly have dyspnea after 1 week, and severe patients rapidly progress to acute respiratory distress syndrome, sepsis shock, metabolic acidosis which is difficult to correct, coagulation dysfunction, multiple organ failure and the like.

The detection method of the novel coronavirus mainly comprises a plurality of methods such as nucleic acid detection, antibody detection, antigen detection and the like. Among them, nucleic acid detection has high requirements for detection instruments, laboratory standards and operators, and when large-scale rapid detection is required, large financial and material resources are often required.

At present, in order to establish a rapid and accurate specificity detection method, better epidemic situation control is realized, and high-throughput screening of novel coronavirus is realized. The antigen detection can directly detect whether the human body sample contains the novel coronavirus, the diagnosis is rapid, the requirements on equipment and personnel are low, the production is easy, and the kit is suitable for detecting the novel coronavirus in a large range.

In the prior art, a user adopts a swab to collect a sample, the sample is mixed in an extracting solution, the extracting solution of the mixed sample is placed on a kit, a test strip is arranged on the kit, and according to the detection result of the sample, the test strip can correspondingly display whether the sample contains the novel coronavirus or not, so that the effect of detecting the novel coronavirus is achieved.

However, after the user finishes sampling, the transmission of the kit often adopts manual operation, which not only is complicated in operation, but also has the problem that the sample is easily secondarily polluted.

Disclosure of Invention

The invention aims to provide an automatic transmission method of a neocorona antigen detection kit, and aims to solve the problem that the kit adopts manual transmission operation in the prior art.

The invention is realized in this way, the new crown antigen detection kit automatic transmission method, including the following transmission steps:

1) placing a kit on a moving carrier at a feeding position, wherein the kit is provided with a groove for containing a collected sample and a test strip for displaying a detection result;

2) the mobile carrier moves to a film covering position to cover a protective film, and the protective film covers and seals the groove of the kit;

3) when the residence time of the mobile carrier from the loading position to the detection position is not less than the reaction detection time of the test strip, the detection result of the test strip is identified by using the detection unit and uploaded to the control center;

4) after the mobile carrier moves to the blanking position, the reagent box is separated from the mobile carrier and falls into a recovery box at the blanking position;

5) and the mobile carrier for unloading the reagent box moves to the reset cache region from the blanking position, and enters the loading position from the reset cache region to wait for bearing the next reagent box.

Furthermore, the kit is provided with a two-dimensional code, and after the kit is placed on the mobile carrier, the two-dimensional code on the kit is scanned by the scanning head, and the scanning structure is transmitted to the control center.

Furthermore, the loading position is provided with a loading partition door, in the transmission step 1), when the reagent kit needs to be placed on the mobile carrier, the loading partition door is opened, and after the reagent kit is placed on the mobile carrier, the loading partition door is closed, so that the loading position and the external partition are arranged.

Furthermore, a conveying belt which is horizontally conveyed and arranged in a surrounding manner is arranged between the feeding position and the discharging position, a plurality of moving carriers are arranged on the conveying belt, and the moving carriers are arranged at intervals along the moving direction of the conveying belt; the conveying belt drives the plurality of movable carriers to circularly convey from top to bottom between the loading position and the unloading position.

Furthermore, the conveying belt is provided with a blanking transition section which is arranged in a vertically bent manner, and the recovery box is arranged on the outer side of the blanking transition section;

in the conveying step 4), when the mobile carrier carrying the reagent kit moves to the blanking transition section, the mobile carrier is arranged longitudinally, the reagent kit is arranged towards the recovery box, and the reagent kit is separated from the mobile carrier and enters the recovery box.

Furthermore, the recycling box is provided with a recycling side wall facing the blanking transition section, the recycling side wall is provided with a recycling opening communicated with the interior of the recycling box, the recycling opening is provided with a swinging door which swings up and down, when the swinging door swings inwards, the swinging door closes the recycling opening, and when the swinging door swings outwards, the swinging door opens the recycling opening;

in the conveying step 4), when the mobile carrier carrying the reagent kit moves downwards along with the conveying belt to the front of the arc-shaped section, the swing door swings outwards to open the recovery opening, the swing door is abutted against the reagent kit to separate from the mobile carrier, and the reagent kit separated from the mobile carrier passes through the recovery opening along the swing door and falls into the recovery box.

Further, the conveying belt is provided with a feeding transition section which is arranged in a vertically bent mode, and the feeding transition section is located at a feeding position; a sterilizer is arranged on the outer side of the feeding transition section;

in the conveying step 5), when the mobile carrier with the reagent box unloaded moves to the feeding transition section along with the conveying belt, the sterilizer sterilizes the mobile carrier.

Furthermore, the loading position is provided with a loading module, a channel with the shape consistent with that of the kit is arranged in the loading module, and the channel vertically penetrates through the loading module; a horizontally moving baffle is arranged below the feeding module, the baffle is provided with a blocking part and a penetrating part, and the penetrating part is provided with a notch which penetrates up and down;

when the blocking part is positioned below the channel, the blocking part seals the lower part of the channel, and when the penetrating part is positioned below the channel, the channel is communicated with the notch;

in the transmission step 1), the reagent kit is placed in a channel of the feeding module, the baffle retracts, the blocking part deviates from the lower part of the channel, the penetrating part is located below the channel, the reagent kit penetrates through the channel and the notch, and after the reagent kit falls onto the movable carrier, the baffle resets, and the blocking part is located below the channel.

Further, the bottom of the blocking part is provided with a roller, and in the transmission step 1), when the reagent kit falls on the mobile carrier, the roller presses the reagent kit from top to bottom in the process of resetting the baffle; after the baffle resets and finishes, break away from the butt between gyro wheel and the kit.

Furthermore, a film covering device is arranged above the film covering position, in the transmission step 2), after the mobile carrier carrying the reagent kit moves to the position below the film covering device, the film covering device moves from top to bottom to cover the protective film on the mobile carrier, and the reagent kit and the outside are isolated and arranged by the protective film.

Compared with the prior art, the automatic transmission method of the neocorolla antigen detection kit provided by the invention has the advantages that after the user carries out self-service antigen detection, the kit is directly placed on the mobile carrier at the feeding position, automatic operations such as film covering, caching, time checking, detection and blanking are automatically realized along with the transmission and movement of the mobile carrier, the process is simple, the collected sample is not secondarily polluted, and the detection result is prevented from being influenced.

Drawings

FIG. 1 is a schematic flow chart of the automatic transmission method of the neocorona antigen detection kit provided by the invention;

FIG. 2 is a schematic front view of a recovery tank provided by the present invention;

FIG. 3 is a schematic front view of a kit provided by the present invention;

FIG. 4 is a schematic front view of a baffle provided by the present invention;

fig. 5 is a schematic front view of a conveyor and a plurality of mobile carriers according to the present invention;

fig. 6 is a schematic front view of a mobile carrier according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-6, preferred embodiments of the present invention are shown.

The automatic transmission method of the neocorona antigen detection kit comprises the following transmission steps:

1) placing the reagent kit 200 on a mobile carrier 500 at a feeding position, wherein the reagent kit 200 is provided with a groove 201 for containing a collected sample and a test strip 202 for displaying a detection result;

after the user performs self-help novel coronavirus antigen detection, the kit 200 with the collected sample is placed on the mobile carrier 500, the test strip 202 on the kit 200 can judge the collected sample, check whether the novel coronavirus antigen exists or not, and display the sample through the stripes of the test strip 202;

2) the mobile carrier 500 moves to the film coating position to cover the protective film, and the protective film covers and seals the groove 201 of the kit 200; the collected sample on the kit 200 is protected by a protective film, so that the secondary pollution caused by the contact with the outside in the transmission process is avoided;

3) the mobile carrier 500 moves from the loading position to the detection buffer area 403, and moves from the detection buffer area 403 to the detection position, when the residence time of the mobile carrier 500 from the loading position to the detection position is not less than the reaction detection time of the test strip 202, the detection result of the test strip 202 is identified by using the detection unit, and the detection result is uploaded to the control center; the detection unit can be a camera, and the camera shoots the detection stripes of the test strip 202, so that whether the collected sample contains the novel coronavirus or not is judged;

since the test strip 202 needs a reaction time for detecting the new coronavirus, the utilization rate of reagent detection is increased by using a queue buffer area. Alternatively, the buffering time of the mobile carrier 500 in the detection buffer 403 may be recorded separately, and when the buffering time is not less than the reaction detection time of the test strip 202, the detection result of the test strip 202 is identified by the detection unit,

4) after the mobile carrier 500 moves to the blanking position, the reagent box 200 is separated from the mobile carrier 500 and falls into the recovery box 100 at the blanking position; the detected reagent box 200 can be separated from the mobile carrier 500 and enter the recycling box 100, and the mobile carrier 500 is reset to the material inlet position to wait for the next transmission;

5) the mobile carrier 500 with the reagent cartridge 200 unloaded is moved from the unloading position to the reset buffer 404, and enters the loading position from the reset buffer 404 to wait for carrying the next reagent cartridge 200.

According to the automatic transmission method of the neocorolla antigen detection kit, after the user performs self-service antigen detection, the kit 200 is directly placed on the mobile carrier 500 at the material inlet position, automatic operations such as film covering, caching, time checking, detection and blanking are automatically realized along with the transmission and the movement of the mobile carrier 500, the process is simple, the collected sample is not secondarily polluted, and the detection result is prevented from being influenced.

In this embodiment, the two-dimensional code 203 is disposed on the reagent kit 200, and when the reagent kit 200 is placed on the mobile carrier 500, the two-dimensional code 203 on the reagent kit 200 is scanned by the scanning head, and the scanning structure is transmitted to the control center.

Thus, the two-dimensional code 203 on the reagent kit 200 is scanned to establish correspondence between the reagent kit 200 and the user information, so that correspondence of the whole information is realized, a chaotic phenomenon is avoided, and whether the reagent kit 200 is accurately placed on the mobile carrier 500 can be judged.

The loading position is provided with a loading partition door, in the transmission step 1), when the reagent kit 200 needs to be placed on the mobile carrier 500, the loading partition door is opened, and after the reagent kit 200 is placed on the mobile carrier 500, the loading partition door is closed, and the loading position and the outside are arranged in a partition manner.

A conveying belt 400 which is horizontally conveyed and arranged in a surrounding manner is arranged between the feeding position and the discharging position, a plurality of mobile carriers 500 are arranged on the conveying belt 400, and the mobile carriers 500 are arranged at intervals along the moving direction of the conveying belt 400; the conveyor 400 carries a plurality of mobile carriers 500 to circulate up and down between the loading position and the unloading position.

Fix a plurality of removal carriers 500 on transmission band 400 to transmission band 400 encircles and arranges, can upper and lower circulation removal, like this, can realize the effect that a plurality of kits 200 progressively transmitted the detection, realizes the operation of continuous smooth and easy transmission, and when removal carrier 500 along with transmission band 400 top-down remove the back, remove carrier 500 and be in arranging downwards, can empty some impurity on it out, avoid influencing the new bearing transmission.

In this embodiment, the conveyor 400 has a feeding transition section 402 which is bent up and down, and the recycling bin 100 is disposed outside the feeding transition section 402; in the conveying step 4), when the mobile carrier 500 carrying the reagent kit 200 moves to the blanking transition section 402, the mobile carrier 500 is arranged longitudinally, the reagent kit 200 is arranged towards the recovery box 100, and the reagent kit 200 is separated from the mobile carrier 500 and enters the recovery box 100.

Thus, when the reagent cartridges 200 pass through the detection position and move to the blanking transition section 402 along with the conveyor belt 400, the mobile carrier 500 is arranged longitudinally, so that the reagent cartridges 200 in the mobile carrier 500 can be conveniently separated.

Preferably, the recycling bin 100 has a recycling side wall facing the blanking transition section 402, the recycling side wall is provided with a recycling port 101 communicated with the interior of the recycling bin 100, the recycling port 101 is provided with a swinging door 102 swinging up and down, when the swinging door 102 swings inwards, the swinging door 102 closes the recycling port 101, and when the swinging door 102 swings outwards, the swinging door 102 opens the recycling port 101; of course, the swinging of the swinging door 102 may be directly driven by a motor, or driven by other structures.

In the conveying step 4), when the mobile carrier 500 carrying the reagent kit 200 moves downward to the front of the arc section along with the conveyor belt 400, the swing door 102 swings outward to open the recovery opening 101, the swing door 102 abuts against the reagent kit 200 to separate from the mobile carrier 500, and the reagent kit 200 separated from the mobile carrier 500 passes through the recovery opening 101 along the swing door 102 and falls into the recovery box 100.

When the swing door 102 is opened, the upper end of the swing door 102 is arranged to be deviated from the recovery box 100, and at this time, the mobile carrier 500 carrying the reagent kit 200 gradually enters the blanking transition section 402, firstly enters in an inclined state, and gradually shifts to a longitudinal direction, so that the swing door 102 is opened in advance, the swing door 102 is embedded into the mobile carrier 500 in advance, the reagent kit 200 is separated from the mobile carrier 500, enters the recovery box 100 along the swing door 102, and then the swing door 102 is closed to prepare for the next operation.

In this embodiment, the conveyor 400 has a feeding transition section 401 arranged in a vertically curved manner, and the feeding transition section 401 is located at a feeding level; a sterilizer is arranged on the outer side of the feeding transition section 401; in the conveying step 5), when the mobile carrier 500 from which the reagent kit 200 is unloaded moves to the feeding transition section 401 along with the conveyor 400, the sterilizer sterilizes the mobile carrier 500.

Thus, after the mobile carrier 500 enters the loading position, the mobile carrier is in a sterilized state, so that some impurities and the like in the last loading can be eliminated, or factors and the like which are possibly polluted in the transmission process can be completely eliminated.

In this embodiment, the loading position has a loading module, a channel having the same shape as the reagent kit 200 is arranged in the loading module, and the channel penetrates through the loading module from top to bottom; a horizontally moving baffle is arranged below the feeding module, the baffle is provided with a blocking part 301 and a penetrating part 302, and the penetrating part 302 is provided with a notch 303 which penetrates up and down; when the blocking portion 301 is located below the channel, the blocking portion 301 closes the lower side of the channel, and when the passing portion 302 is located below the channel, the channel communicates with the notch 303.

In the transmission step 1), after the reagent kit 200 is placed in the channel of the feeding module, the baffle plate retracts, the blocking part 301 deviates from the lower part of the channel, the penetrating part 302 is positioned below the channel, the reagent kit 200 penetrates through the channel and the notch 303, and after falling onto the mobile carrier 500, the baffle plate resets, and the blocking part 301 is positioned below the channel.

When the reagent kit 200 needs to be placed at the loading position, the reagent kit 200 is directly placed in the channel of the reagent kit 200, at this time, the reagent kit 200 is positioned in the channel under the blocking of the blocking part 301, the blocking part 301 deviates from the lower part of the channel along with the retraction of the baffle plate, the penetrating part 302 is positioned below the channel, and at this time, the reagent kit 200 passes through the channel and the notch 303 from top to bottom and falls onto the moving carrier 500 below.

The bottom of the blocking part 301 is provided with a roller, and in the transmission step 1), when the reagent kit 200 falls on the mobile carrier 500 and the baffle is reset, the roller presses the reagent kit 200 from top to bottom; after the baffle resets and finishes, break away from between gyro wheel and the reagent box 200 and butt.

Thus, when the reagent kit 200 falls on the mobile carrier 500, the baffle plate is reset, and the reagent kit 200 is pressed from top to bottom by the roller below the blocking part 301, so that the reagent kit 200 can be accurately positioned in the mobile carrier 500.

In this embodiment, a film covering device is disposed above the film covering position, and in the transmission step 2), after the mobile carrier 500 carrying the reagent kit 200 moves to a position below the film covering device, the film covering device moves from top to bottom to cover the protective film on the mobile carrier 500, and the protective film separates the reagent kit 200 from the outside.

The protective film can be a thin film, and the film covering device moves downwards to directly cover the protective film on the mobile carrier 500, so that the reagent kit 200 placed in the mobile carrier 500 is isolated from the outside, and the reagent kit 200 is prevented from being polluted in the transmission process.

In this embodiment, the mobile carrier 500 has a carrying groove 501, two sides of the carrying groove 501 are outwardly expanded to form a side groove, the side groove is communicated with the carrying groove 501, and the side groove is equivalent to outwardly expanding the middle of the carrying groove 501, so that the reagent kit 200 can conveniently fall into the carrying groove 501.

Secondly, the side trough has an inclined wall, the bottom of the inclined wall is communicated to the bottom of the carrying trough 501, the top of the inclined wall is communicated to the outer surface of the mobile carrier 500, and the inclined wall is obliquely arranged towards the carrying trough 501 along the extending direction from top to bottom, so that when the mobile carrier 500 enters a discharging position, the swing door 102 can be embedded into the carrying trough 501 along the inclined wall to separate the reagent box 200 from the mobile carrier 500, and the phenomena of interference, blocking and the like between the swing door 102 and the mobile carrier 500 are avoided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The automatic transmission method of the neocoronal antigen detection kit is characterized by comprising the following transmission steps:

1) placing a kit on a moving carrier at a feeding position, wherein the kit is provided with a groove for containing a collected sample and a test strip for displaying a detection result;

2) the mobile carrier moves to a film covering position to cover a protective film, and the protective film covers and seals the groove of the kit;

3) when the residence time of the mobile carrier from the loading position to the detection position is not less than the reaction detection time of the test strip, the detection result of the test strip is identified by using the detection unit, and the detection result is uploaded to the control center;

4) after the mobile carrier moves to the blanking position, the reagent box is separated from the mobile carrier and falls into a recovery box at the blanking position;

5) and the mobile carrier for unloading the reagent box moves to the reset cache region from the blanking position, and enters the loading position from the reset cache region to wait for bearing the next reagent box.

2. The method for automatically transporting a neocoronary antigen detection kit according to claim 1, wherein the kit is provided with a two-dimensional code, and when the kit is placed on the mobile carrier, the two-dimensional code on the kit is scanned by the scanning head and the scanning structure is transmitted to the control center.

3. The method for automatically transporting the neocorolla antigen detection kit according to claim 1, wherein the loading position is provided with a loading partition door, and in the transporting step 1), when the kit needs to be placed on the mobile carrier, the loading partition door is opened, and when the kit is placed on the mobile carrier, the loading partition door is closed, and the loading position is arranged to be partitioned from the outside.

4. The method for automatically transporting neocorolla antigen detection kits according to any one of claims 1 to 3, wherein a conveyor belt which is horizontally transported and arranged in a surrounding manner is arranged between the loading position and the unloading position, a plurality of the mobile carriers are arranged on the conveyor belt, and the mobile carriers are arranged at intervals along the moving direction of the conveyor belt; the conveying belt drives the plurality of movable carriers to circularly convey from top to bottom between the loading position and the unloading position.

5. The method for automatically transporting a neocorolla antigen detection kit according to claim 4, wherein the conveyor belt has a feeding transition section which is arranged in a vertically bent manner, and the recovery box is arranged outside the feeding transition section;

in the conveying step 4), when the mobile carrier carrying the reagent kit moves to the blanking transition section, the mobile carrier is arranged longitudinally, the reagent kit is arranged towards the recovery box, and the reagent kit is separated from the mobile carrier and enters the recovery box.

6. The method for automatically transferring neocorolla antigen detection kits according to claim 5, wherein the recovery box has a recovery side wall facing the blanking transition section, the recovery side wall is provided with a recovery port communicating with the interior of the recovery box, the recovery port is provided with a swing door swinging up and down, the swing door closes the recovery port when the swing door swings inward, and the swing door opens the recovery port when the swing door swings outward;

in the conveying step 4), when the mobile carrier carrying the reagent kit moves downwards along with the conveying belt to the front of the arc-shaped section, the swing door swings outwards to open the recovery opening, the swing door is abutted against the reagent kit to separate from the mobile carrier, and the reagent kit separated from the mobile carrier passes through the recovery opening along the swing door and falls into the recovery box.

7. The method for automatically conveying the neocoronary antigen detection kit according to claim 4, wherein the conveying belt is provided with a feeding transition section which is arranged in an up-and-down bending manner, and the feeding transition section is positioned at a feeding level; a sterilizer is arranged on the outer side of the feeding transition section;

in the conveying step 5), when the mobile carrier with the reagent box unloaded moves to the feeding transition section along with the conveying belt, the sterilizer sterilizes the mobile carrier.

8. The method for automatically transporting the neocorolla antigen detection kit according to any one of claims 1 to 3, wherein the loading position is provided with a loading module, a channel which is consistent with the shape of the kit is arranged in the loading module, and the channel penetrates through the loading module from top to bottom; a horizontally moving baffle is arranged below the feeding module, the baffle is provided with a blocking part and a penetrating part, and the penetrating part is provided with a notch which penetrates up and down;

when the blocking part is positioned below the channel, the blocking part seals the lower part of the channel, and when the penetrating part is positioned below the channel, the channel is communicated with the notch;

in the transmission step 1), the reagent kit is placed in a channel of the feeding module, the baffle retracts, the blocking part deviates from the lower part of the channel, the penetrating part is located below the channel, the reagent kit penetrates through the channel and the notch, and after the reagent kit falls onto the movable carrier, the baffle resets, and the blocking part is located below the channel.

9. The method for automatically transferring the neocorolla antigen detection kit according to claim 8, wherein the bottom of the blocking portion is provided with a roller, and in the transferring step 1), when the kit is dropped on the mobile carrier and the blocking plate is reset, the roller presses the kit from top to bottom; after the baffle resets and finishes, break away from the butt between gyro wheel and the kit.

10. The method for automatically transporting neocorolla antigen detection kits according to any one of claims 1 to 3, wherein a membrane covering device is arranged above the membrane covering position, and in the transporting step 2), after the mobile carrier carrying the kits moves to the position below the membrane covering device, the membrane covering device moves from top to bottom to cover the mobile carrier with a protective membrane, and the protective membrane separates the kits from the outside.

Images