CN217949876U - Multifunctional self-service sampling detection station and system - Google Patents

Abstract

The utility model provides a multi-functional self-service sampling test station and system relates to intelligent sampling test technical field. The sampling detection station comprises a shell and a controller, and the shell is divided into a sampling kiosk and a self-service detection reagent cabinet; the sampling kiosk includes a sampling room having one or more sampling operating spaces; a kit storage bin is arranged in the self-service detection reagent cabinet, a kit access opening is formed in the cabinet, a goods shelf and a goods delivery mechanism are arranged in the kit storage bin, and at least one goods channel is formed in the goods shelf; the goods shipment structure is arranged corresponding to the goods channel and used for moving the reagent boxes in the goods channel out of the goods channel and then entering the reagent box getting opening to send the reagent boxes to the user according to the control of the controller. The utility model discloses the promptness that has combined the reagent to detect and the accurate nature of sampling test have improved sampling test device's intellectuality and informationization, have simplified the sampling test flow, have promoted the sampling detection efficiency.

Description

Multifunctional self-service sampling detection station and system

Technical Field

The utility model relates to an intelligence sampling test technical field especially relates to a multi-functional self-service sampling test station and system.

Background

Different infectious viruses have different infectivity, and a nucleic acid detection method and an antigen and antibody detection method are important measures for epidemic prevention and control. Taking the new coronavirus as an example, nucleic acid detection and antigen detection based on nasopharyngeal swab are the most common means for detecting the new coronavirus at present.

The nucleic acid detection has the advantage of high accuracy, but in the sampling process, in order to avoid the infection of sampling personnel, the sampling personnel need to wear a tight and windproof protective clothing, wear goggles and a thick mask all the time to carry out detection and sampling on the person to be detected, and the following defects exist: 1) The wearing operation of the protective clothing is very complicated, the time consumption of the wearing process is long, and more time of sampling personnel is occupied; 2) The protective clothing needs to be worn for a long time, so that a large load is caused to the body and mind of a person; 3) The medical care personnel are isolated from the external environment only by the protective clothing, and hidden dangers are hidden for the safety of the medical care personnel; 4) The protective equipment such as protective clothing can only be used once, and the cost is high and the consumption is large. In view of the above, prior art provides products such as various portable nucleic acid sampling workstations, nucleic acid sampling pavilion, nucleic acid sampling car and nucleic acid sampling tent, and it can isolate medical personnel when the sampling to the environmental construction that will keep apart becomes clean, comfortable operational environment, is showing to have improved medical personnel's sampling environment, has reduced the sampling operation degree of difficulty, improves sampling efficiency. However, the existing mobile nucleic acid sampling device can only sample nucleic acid, and the detection needs professional medical staff to perform the detection in a satisfactory environment and under satisfactory equipment, so that the requirement is relatively high, and the detection efficiency is limited to a certain extent. Meanwhile, the function of the existing mobile nucleic acid sampling device is single, and the existing mobile nucleic acid sampling device only provides the nucleic acid sampling function and cannot provide other detection means.

In order to improve the detection efficiency and timeliness, an antigen detection method is often used in large-scale rapid screening. The antigen detection mainly adopts an immune colloidal gold method, and has the advantages of convenient detection and low cost. The immune colloidal gold rapid diagnosis technology is a new technology which is established on the basis of enzyme-linked immunosorbent assay, latex agglutination assay, monoclonal antibody technology and immune colloidal gold labeling technology, takes colloidal gold as a marker, amplifies a reaction signal by utilizing specific antigen-antibody reaction, and can judge a result by direct observation. The technology has the advantages of simplicity, rapidness, accuracy, no pollution and the like, is rapidly developed in a plurality of diagnostic fields such as clinical medical detection, animal medical detection, hormone detection, food safety detection, drug residue, rapid drug detection and the like, and is widely used as a large-scale screening means of novel coronavirus in a plurality of countries at present. However, when antigen detection is performed, the dispensing and counting of the antigen kit, and the collection and reporting of the antigen detection result are usually completed manually, and when the number of the detectors is large, the workload of the dispensing personnel is large, the dispensing efficiency is low, and meanwhile, the risk of contact infection between the dispensing personnel and the detectors may be increased. On the other hand, the operation of the reporting process of the detection result is cumbersome, and the corresponding relationship between the detection card and the detector needs to be checked manually, which results in low reporting efficiency of the detection information and long time consumption.

In summary, how to provide an intelligent sampling detection device with more various detection means, higher detection efficiency and less risk of personnel contact infection is a technical problem that needs to be solved at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an: the defects of the prior art are overcome, and a multifunctional self-service sampling detection station and a system are provided. The utility model provides a multi-functional self-service sampling test station, can provide safer comfortable sampling space so that carry out the nucleic acid sampling for the sampling personnel, detect through self-service detect reagent rack is automatic simultaneously and offer with the kit, the promptness that has combined reagent to detect and the accurate nature of sampling test, the detection means is more various, the intellectuality and the informationization of sampling detection device have been improved simultaneously, the sampling test flow has been simplified, the sampling detection efficiency has been promoted, and can show the infection risk that artifical participation brought in the reduction sampling test.

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

a multifunctional self-service sampling detection station comprises a shell and a controller, wherein the shell is divided into a sampling pavilion and a self-service detection reagent cabinet;

the sampling kiosk comprises a sampling room with one or more sampling operation spaces, and a sampling person in the sampling room samples users outside the sampling room through the sampling operation spaces;

a kit storage bin is arranged in the self-service detection reagent cabinet, a kit access opening is formed in the cabinet, a goods shelf and a goods delivery mechanism are arranged in the kit storage bin, and at least one goods channel is formed in the goods shelf; the goods shipment structure is arranged corresponding to the goods channel and used for moving the reagent boxes in the goods channel out of the goods channel according to the control of the controller, and the reagent boxes moved out of the goods channel can enter the reagent box getting openings to be dispensed to users.

Furthermore, a detection result acquisition part of the detection card is further arranged on the sampling detection station, and the detection result acquisition part is used for acquiring the detection result of the detection card of the user and then uploading the detection result to the memory.

Further, the detection result acquisition part comprises a detection card detection placing area, an image shooting structure and an image identification structure, wherein the image shooting structure is arranged corresponding to the detection card detection placing area;

the detection card detection placing area is used for a user to place a detection card for detection;

the image shooting structure is arranged corresponding to the detection card detection placing area and is used for shooting the detection result image data of the detection card in the detection card detection placing area;

the image identification structure is used for identifying the stripe information in the detection result image data to obtain a detection result and uploading the detection result to a local and/or cloud storage.

Further, a transparent sampling window and a test tube access opening are arranged in the corresponding sampling room;

the sampling operation hole is arranged on the transparent sampling window;

the test tube access opening is arranged on the side part of the transparent sampling window.

Further, be provided with the swab bag breaker between corresponding the sampling, the swab bag breaker includes that swab transmission channel, swab prepare the position and correspond the broken bag structure that the position set up is prepared to the swab, and the swab that has the wrapping bag gets into the swab through swab transmission channel and prepares the position after, breaks the bag so that the swab in the wrapping bag exposes through aforementioned broken bag structure.

Further, a detection card number information code is arranged on the detection card;

the detection result acquisition part also comprises a detection card code scanner which is used for identifying the detection card number information code on the detection card and sending the identified detection card number to the controller.

Further, be provided with human-computer interaction device on the casing, human-computer interaction device and aforementioned controller communication connection:

the man-machine interaction device comprises a scanning registration part and a testimony verification part;

the scanning registration part comprises a code scanner and a scanning port arranged corresponding to the code scanner, and the code scanner is used for scanning and identifying information codes in a scanning area of the scanning port;

the personal identification card verifying part comprises an identity card reader and a face recognition structure, the identity card reader is used for reading the identity card information of the user to perform certificate identity authentication, and the face recognition structure is used for acquiring the real-time face image of the user to perform face recognition identity authentication.

The AED comprises a case, a shell and a control unit, wherein the case is provided with a AED containing part for containing the AED; or an AED rescue room is separated from the case, and the AED rescue room is provided with the AED accommodating part for placing the AED;

and/or, be provided with stand-by power supply on the casing, stand-by power supply is arranged in supplying power to the power consumption component that sets up in sampling pavilion and the self-service detection reagent rack when external power supply can't supply power.

Further, an air conditioning device and a positive pressure fresh air system are arranged in the corresponding sampling chamber;

the air conditioning device is used for adjusting the temperature and/or humidity in the sampling room;

the positive pressure fresh air system comprises a positive pressure blower and a pressure control device, and the pressure control device is used for controlling the positive pressure blower to maintain an indoor positive pressure environment of the sampling room;

a positive pressure air inlet and a positive pressure air outlet are arranged on the sampling room corresponding to the positive pressure blower; the positive pressure air inlet is connected with the positive pressure blower through an air supply pipeline, and an air filtering structure is arranged in the air supply pipeline and is used for filtering and disinfecting fresh air input into the sampling room; the positive pressure exhaust port

For venting stale air from within the sample compartment;

correspond the malleation gas vent sets up the exhaust pipe way, it prevents the refluence indoor entering sampling room of anti-reflux structure in order to prevent outside air to install on the exhaust pipe way.

The utility model also provides a multifunctional self-service sampling detection system, which comprises one or more sampling detection stations, wherein each sampling detection station is in communication connection with the system server through a communication device so as to transmit sampling detection information;

the sampling detection station is the multifunctional self-service sampling detection station.

The utility model discloses owing to adopt above technical scheme, compare with prior art, as the example, have following advantage and positive effect: multifunctional self-service sampling test station can provide safer comfortable sampling space so that carry out the nucleic acid sampling for the sampling personnel, has combined the promptness that reagent detected and the accurate nature of sampling test, and the detection means is more various, has improved sampling test device's intellectuality and informationization simultaneously, has simplified the sampling and has detected the flow, has promoted sampling detection efficiency, and can show the infection risk that brings of artifical participation in the reduction sampling test.

Drawings

Fig. 1 is the embodiment of the utility model provides a structural schematic diagram one of multi-functional self-service sampling detection station.

Fig. 2 is a schematic structural diagram of a detection card provided by the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the detection result collecting part provided by the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the multifunctional self-service sampling and detecting station provided in the embodiment of the present invention.

Fig. 5 is the embodiment of the utility model provides a be provided with independent control cabinet's multi-functional self-service sampling detection station's structural schematic.

Description of reference numerals:

a self-service sampling detection station 10, a shifting structure 11;

the system comprises a sampling kiosk 100, a sampling room main body 110, a top frame 120, a sampling area 130, sampling gloves 131, a garbage collection port 132, a swab bag breaking machine 133, a cleaning and disinfecting device 134, a monitoring system 135, a test tube taking port 140, a label printing output port 150, an air conditioning device 160 and a positive pressure fresh air system 170;

the self-service detection kit comprises a self-service detection reagent cabinet 200, a cabinet 210, a kit getting opening 220, a detection result acquisition part 230, a detection card detection placing area 231, a camera 232, an illumination structure 233 and an object sensor 234; a human-computer interaction device 240, a code scanner 241, an identity card reader 242, a face recognition structure 243, a printing output port 244, a temperature measuring device 245, a recovery port 250, a detection monitoring system 260 and an AED accommodating part 270;

a control cabinet 300;

the detection card 20, the shell 21, the sample dropping hole 22, the result display area 23 and the detection card number information code 24.

Detailed Description

The following describes the multifunctional self-service sampling and detecting station and system disclosed in the present invention in further detail with reference to the accompanying drawings and specific embodiments. It should be noted that technical features or combinations of technical features described in the following embodiments should not be considered in isolation, and they may be combined with each other to achieve better technical effects. In the drawings of the embodiments described below, the same reference numerals appearing in the respective drawings denote the same features or components, and may be applied to different embodiments. Thus, once an item is defined in one drawing, it need not be further discussed in subsequent drawings.

It should be noted that the structures, ratios, sizes, etc. shown in the drawings of the present specification are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modifications of the structures, changes of the ratio relationships, or adjustments of the sizes should fall within the scope that the technical contents disclosed in the present invention can cover without affecting the functions and purposes that the present invention can achieve.

Examples

Refer to fig. 1 and show, do the utility model provides a pair of multi-functional self-service sampling detection station.

The multi-functional self-service sampling and detection station 10 includes a housing and a controller. The housing is divided into a sampling kiosk 100 and a self-service assay reagent cabinet 200. The controller is used as a control structure of the sampling kiosk 100 and the self-service detection reagent cabinet 200, and can adopt a single chip microcomputer, a central processing unit or other programmable logic controllers and the like. A displacement structure 11 may be fixed to the outside of the floor of the housing for positional displacement of the self-sampling testing station 10 when required. The displacement structure 11 can be, for example, a caster, and the number of casters can be set by those skilled in the art as required, and preferably, the caster can be an existing universal wheel with a caster brake.

The sampling kiosk 100 includes a sampling booth having one or more sampling operating spaces through which sampling personnel within the sampling booth sample users outside the sampling booth.

The sampling kiosk 100 may include a sampling room main body 110 formed by a housing, wherein a space for accommodating a sampling person is provided inside the sampling room main body 110, and the sampling person performs a sampling operation on a person to be detected outside the sampling room in the sampling room.

As a typical example, the main sampling room body 110 may include a bottom plate, a side plate, and a top frame 120. Can set up on the side board and open and close door and window, open and close the medical personnel business turn over between the sampling that the door is used for supplying the sampling, the window is used for forming the sampling window, and the region that the sampling window corresponds is sampling area 130, and the sampling personnel carry out sampling operation through the sampling window to the personnel of waiting to detect in sampling area. One side of the sampling area 130 may be provided with a test tube access opening 140 for the test tube to be accessed by the person to be tested.

Preferably, a sealing strip or a sealing glue is filled around the doorframe of the opening and closing door to improve the sealing performance when the opening and closing door is closed. One or more sampling operation holes are formed in the adoption window, so that sampling personnel can extend out of the hand. In a specific arrangement, two or more circular sampling operation holes may be arranged on the transparent sampling window. The diameter of the sampling operation hole can be slightly larger than the arm of the medical staff, so that the arm of the medical staff can pass through the sampling operation hole, and the setting height of the sampling operation hole is close to the height position of the hand of the medical staff.

Corresponding sampling access holes may be provided with sampling gloves 131, a waste collection port 132, a swab bag breaker 133, a sanitizing device 134, a monitoring system 135, and an intercom system.

The sampling glove 131 can be connected with the sampling operation hole in a sealing way through a sealing rubber ring or a flange. The sampling glove 131 is a rubber long-arm glove.

The garbage collection port 132 can be arranged below the sampling operation hole and used for collecting garbage generated in sampling detection, so that medical staff can rapidly process medical garbage generated in the sampling process.

The swab bag breaking machine 133 includes a swab transmission channel, a swab preparation position, and a bag breaking structure corresponding to the swab preparation position, and after the swab having the packaging bag enters the swab preparation position through the swab transmission channel, the bag is broken through the bag breaking structure to expose the swab in the packaging bag.

As an example of a typical structure, the swab breaker may comprise at least one swab magazine as a swab receiving structure for holding a swab in a bag. A swab transmission channel is arranged corresponding to each swab storage bin, the input end of the swab transmission channel is connected with the swab storage bin, and the output end of the swab transmission channel is connected with the swab preparation position. In particular, the swab transport channel may include a swab grasping structure (e.g., a gripper or a suction nozzle) and a swab transport structure, wherein the swab grasping structure grasps an uppermost swab package in the swab magazine and transports the swab package to the swab preparation position via the swab transport structure. The position is prepared to the swab is provided with broken bag structure, and the swab that has the wrapping bag gets into the swab and prepares the position after, broken bag structure can be broken the bag so that the afterbody handle pole of the swab in the wrapping bag exposes to the wrapping bag, and sampling personnel exert the pulling force after gripping swab afterbody handle pole and take out the swab from the wrapping bag.

The bag breaking structure can adopt pneumatic scissors, and the tail handle rod of the swab is exposed after one end of the packaging bag outside the swab is cut by the pneumatic scissors. Or, broken bag structure includes swab limit structure and wrapping bag pull structure, prepares the spacing back of swab on the position with the swab through swab limit structure, and pull structure with the wrapping bag backward for wrapping bag and swab produce relative motion, and swab afterbody handle pierces and stretches out behind the wrapping bag, exposes in the wrapping bag outside.

The cleaning and disinfecting device 134 is arranged at a position near the sampling glove, so that medical staff can disinfect the sampling glove conveniently. By way of example, the cleaning and disinfecting device may be a solvent cartridge containing 75% disinfecting alcohol and/or a no-rinse disinfecting hand sanitizer. Optionally, the cleaning and disinfecting device comprises an automatic pumping-out structure, and a sensor is arranged at the outlet position and used for controlling the automatic pumping-out structure to work so as to automatically pump out the disinfecting solution when an object is sensed.

The monitoring system 135 may include an internal camera for monitoring the indoor working environment of the sample chamber and an external camera for monitoring the outdoor environment of the sample chamber.

The intercom system can include the host computer of talkbacking and the extension of talkbacking, the host computer setting of talkbacking is indoor between the sampling, the extension setting of talkbacking is in the setting of the outdoor and corresponding sampling handle hole position in sampling room.

Self-service detect reagent rack 200, including rack 210, be provided with kit storage storehouse in the rack 210, be provided with kit access opening 220 on the rack 210.

The kit storage bin is provided with a goods shelf and a goods delivery mechanism, and the goods shelf is provided with at least one goods channel. The goods delivery structure is arranged corresponding to the goods channel and used for moving the reagent box in the goods channel out of the goods channel according to the control of the controller, the reagent box after moving out of the goods channel can enter the reagent box getting opening 220 to deliver the reagent box to a user, and a detection card for detection is placed in the reagent box.

Preferably, the kit is provided with a detection card packaged by an aluminum foil packaging bag, and after a user takes the kit from the kit neck 220, the user can unpack the packaging box and the aluminum foil packaging bag of the kit to obtain the detection card. Optionally, the user is issued with a dropper bottle and a sampling swab packaged with the lysate while the detection card is issued, and at this time, the dropper bottle and the sampling swab of the lysate and the detection card are preferably packaged in the same packaging box. Of course, the dropper bottle and the sampling swab packaged with the lysis solution may also be taken by a user, for example, a dropper bottle taking port and a swab taking port are provided on the cabinet, which is not limited herein.

The cargo channel of the kit storage bin can adopt a push plate cargo channel or a crawler cargo channel or a spring cargo channel; or an in-line stacking type cargo channel is adopted; or a ramp lane.

When a push plate cargo channel, a crawler cargo channel or a spring cargo channel is adopted, a push plate, a crawler or a spring is arranged in the cargo channel and is used as a cargo delivery mechanism. The push plate or the crawler belt or the spring can be started under the control of the controller to drive the reagent boxes placed in the goods channel to move out of the goods channel, and the reagent boxes moving out of the goods channel enter the reagent box getting opening through the goods outlet channel.

When the in-line stacking type goods channel is adopted, the goods shelf of the reagent box storage bin is composed of a plurality of vertically arranged goods channels, and the reagent boxes are stacked in the vertically arranged goods channels. A goods channel outlet and a goods delivery mechanism are arranged below the goods channel, the goods delivery mechanism is arranged corresponding to the goods channel outlet, and the reagent boxes are stacked on the goods delivery mechanism; when in delivery, the delivery mechanism drives the reagent boxes at the lowest layer of the delivery channel to move towards the delivery channel outlet, so that the reagent boxes at the lowest layer move out of the delivery channel.

When the slope cargo channel is adopted, a blocking structure is arranged at a cargo channel opening of each slope cargo channel in the cabinet, and the top of the blocking structure is higher than the surface of the cargo channel when the blocking structure is arranged on the cargo channel opening so as to limit the reagent box on the cargo channel; an ejection structure is arranged in the cargo channel to-be-delivered area corresponding to the blocking structure, and the ejection structure receives the control of the controller; the ejection structure can penetrate through the opening of the to-be-delivered area of the goods channel under the control of the controller to lift the reagent box on the to-be-delivered area of the goods channel and leave the goods channel after passing through the blocking structure.

Or a movable baffle plate and a baffle plate driving structure are arranged at a cargo channel opening of each slope cargo channel in the cabinet, and the movable baffle plate is blocked in front of a cargo channel opening reagent box so as to limit the reagent box on the cargo channel; the baffle drive structure can drive the movable baffle to move downwards under the control of the controller so as to relieve the limitation on the reagent box at the opening of the goods channel, and after the reagent box slides down, the movable baffle is driven to move upwards to reset so as to block the reagent box at the back from sliding out of the goods channel.

In this embodiment, the cabinet is further provided with a detection result collecting part 230 for detecting the card. The detection result acquisition part is used for acquiring the detection result of the detection card of the user and then uploading the detection result to the memory.

Preferably, the detection result acquiring unit may include a detection card detection placement area, an image capturing structure, and an image recognition structure, wherein the image capturing structure is disposed corresponding to the detection card detection placement area.

The detection card detection placing area is used for a user to place the detection card for detection. When specifically setting up, can set up objective platform in order to form on rack 110 the detection card detects and places the district, objective platform can be the indent setting on rack 110, also can be the protruding setting on rack 110, does not do the restriction here, as long as can form can place the year thing face that detects the card can.

The image shooting structure is arranged corresponding to the detection card detection placing area and is used for shooting the detection result image data of the detection card in the detection card detection placing area. The image shooting structure can upload the detection result image data to a memory for storage after acquiring the detection result image data of the detection card, so that the report of the detection result of the detection card is realized. The local and/or cloud storage can be preset by an operator and/or a manager of the sampling inspection station, and the operator and/or the manager can access the storage to acquire the inspection result image data uploaded by the user.

And the image identification structure is used for identifying the stripe information in the detection result image data to obtain a detection result. For example, after dropping the number of lysate drops in the drop bottle to the sample dropping hole of the antigen detection card, the C line appears on the antigen detection card after a predetermined time, and the T line does not appear, which indicates that the antigen detection result is negative; if the C line and the T line appear on the antigen detection card after the preset time, the antigen detection result is positive; if the C line on the antigen detection card is not displayed after the preset time, the antigen detection result is invalid. Optionally, after the image recognition structure recognizes the detection result, the detection result and the detection result image data of the detection card can be uploaded to a local and/or cloud storage together for storage.

In this embodiment, the antigen detection card (or called reagent card) may be provided with a detection card number information code. As a typical example, referring to fig. 2, the test card 20 for antigen test may include a housing 21, and a test board made by colloidal gold chromatography is mounted in the housing 21. The housing 21 is provided with a sample dropping hole 22 and a result display area 23 (or result display window). After the user drops the lysis solution in the dropper into the sample dropping hole 21 of the detection card, the strip information such as the C line and/or the T line appears on the result display area 23 of the detection card after the preset time.

The upper surface of the housing 21 is also provided with a detection card number information code 24. At this moment, correspondingly, the detection result acquisition part further comprises a detection card code scanner, and the detection card code scanner is used for identifying the detection card number information code on the detection card and sending the identified detection card number to the controller.

The detection card number information code 24 may be a one-dimensional bar code or a two-dimensional code, or a character string formed by combining a group of letters and/or numbers, and the corresponding detection card scanner may use a one-dimensional bar code or a two-dimensional code scanner (acquisition reader) to scan the identification information code. Optionally, after the detection card identification structure identifies the detection card number information, the detection card number and the detection result image data of the detection card can be uploaded to a local and/or cloud memory together for storage.

Referring to fig. 3, a typical structure of the test result collecting part 230 of the test card in the recessed arrangement is illustrated.

The detection result collecting part 230 of the detection card comprises a detection card detection placing area 231 which is arranged in a concave manner, and an image shooting structure and a code scanner which are arranged corresponding to the detection card detection placing area 231. The image capturing structure includes a camera 232 and an illumination structure 233. An object sensor 234, such as a pressure sensor, is disposed on the object carrying surface of the detection card placing area 231. The pressure sensor is connected with the controller, and the controller is in control connection with the image shooting structure and the code scanner to control the starting and the closing of the image shooting structure and the code scanner.

In the initial state, the camera 232 and the illuminating structure 233 of the image capturing structure are in the off state, and when the pressure sensor senses a pressure signal (the detection card is placed on the object carrying surface to generate pressure), the detected signal is sent to the controller. The controller controls the starting of a camera and an illumination structure of the image shooting structure, and shoots the detection card on the object carrying surface to obtain the detection result image data of the detection card. Meanwhile, the controller controls the code scanner to start, and the detection card number information code 24 on the detection card on the object carrying surface is scanned and identified to obtain the detection card number information.

In this embodiment, a human-computer interaction device may be further disposed on the housing of the self-service sampling and detecting station 10, and the human-computer interaction device is in communication connection with the controller to implement human-computer interaction.

In a specific arrangement, the human-computer interaction device may be arranged in the area of the sampling kiosk 100, for example, above a test tube access opening of the sampling kiosk; or on the self-service detection reagent cabinet 200, such as the arrangement shown in fig. 1 and 4; an independent control cabinet 300 area can also be separated from the housing of the self-service sampling and detecting station 10 through an independent cabinet body arrangement, for example, as shown in fig. 5, a controller is installed in the control cabinet 300, and a human-computer interaction device is installed on a panel of the control cabinet 300 for human-computer interaction.

Taking the example that the human-computer interaction device is disposed on the self-service detection reagent cabinet 200, in this case, the human-computer interaction device 240 preferably includes a scanning registration part and a testimony verification part.

The scan registration section includes a scanner 241 and a scanning port provided corresponding to the scanner, and the scanner 241 scans an information code for identifying a scanning area at the scanning port.

The personal identification card verification part comprises an identity card reader 242 and a face recognition structure 243, wherein the identity card reader 242 is used for reading the identity card information of the user to perform certificate identity authentication, and the face recognition structure 243 is used for acquiring the real-time face image of the user to perform face recognition identity authentication. When the identity card reader reads the identity card information of the person to be sampled, the face recognition structure can be started to collect the real-time video data of the user currently carrying out identity card recognition, and the face of the user in the real-time video is recognized. Thus, the person card verification part can perform double identification and verification of the user identity.

Further, the human-computer interaction device 240 may further include a printer and a temperature measuring device 245.

The printer can be set to one or more according to needs, and each corresponding printer can be provided with a printing output port.

By way of example of a typical approach, the printers include a first printer disposed on the sampling kiosk 100 and a second printer disposed on the self-service testing reagent cabinet 200, with a label printout 150 disposed in correspondence with the first printer and a printout 244 disposed in correspondence with the second printer.

The first printer is mainly used for receiving the sampling bar code of the person to be sampled and then printing the bar code to generate the sampling bar code sticker.

And the second printer is mainly used for printing the detection result information of the antigen detection card.

The first printer and the second printer may both employ thermal printers.

The temperature measuring device 245 is used for acquiring body temperature information of the user. Preferably, the body temperature detection of the sampled person is completed through the equipped thermal infrared imager, and the detected body temperature information is sent to the controller.

The self-service detection reagent cabinet 200 can also be provided with a recovery port 250 and a detection monitoring system 260.

The recovery port 250 is used for recovering articles such as a waste kit after detection, and a recovery bin can be arranged in the cabinet corresponding to the recovery port 250.

In specific implementation, the recovery port can be triggered to be opened through the operation of a user. For example, a recovery port door opening button is arranged near the recovery port, and the recovery port can be opened when a user triggers the opening button so as to recover articles such as a kit and the like which are discarded after detection.

Or, the recovery port is triggered to be opened through automatic induction. Specifically, an article detection structure, such as a pressure sensor, an image sensor, a photoelectric sensor, etc., may be disposed corresponding to the recycling port. Detect through article detection structure whether retrieve the mouth and have article, when article detection structure detected article, article such as the discarded kit of controller control recovery mouth was opened in order to retrieve after the detection.

The detection monitoring system 260 is configured to monitor an environment outside the cabinet, and may specifically include a monitoring camera disposed at the top of the cabinet.

In this embodiment, the self-service sampling test station 10 is further provided with a defibrillator AED receiving portion. The defibrillator AED containment portion may be located in the area of the sampling kiosk 100, the self-test reagent cabinet 200, and/or the control cabinet 300, as desired.

By way of example and not limitation, figure 4 illustrates the placement of an AED receptacle 270 on a self-testing reagent cabinet 200, and figure 5 illustrates the placement of an AED receptacle on a control cabinet 300. Those skilled in the art will appreciate that the location of the AED receiving portion should not be construed as limiting the invention.

In particular implementations, the AED containment portion may be provided on the case for placement of a defibrillator AED.

Alternatively, an AED rescue room is separated in the case, in which the AED reception portion is arranged for placement of a defibrillation AED.

Preferably, still be provided with stand-by power supply on the casing, stand-by power supply is arranged in to sampling pavilion and the self-service detection reagent rack with the electric component power supply that sets up when external power source can't supply power. Of course, when the housing includes a control cabinet, the backup power source may also provide power to the electrical components disposed in the control cabinet.

With reference to fig. 4, in this embodiment, an air conditioner 160 and a positive pressure fresh air system 170 may be further disposed in the sampling chamber corresponding to the sampling kiosk 100.

The air conditioning device is used for adjusting the indoor temperature and/or humidity of the sampling room so as to ensure the indoor comfort of the sampling room. In typical embodiments, the air conditioning unit may include an external air compressor and an internal fan. The external air compressor may be mounted on the top frame at the top of the sampling kiosk or outside the upper portion of the sampling room, and the internal blower is located within the sampling kiosk chamber. The air conditioning device can be controlled by a control switch to provide cold air or heating or humidification or dehumidification for the interior of the sampling booth.

The positive pressure fresh air system is used for timely replacing dirty air in the sampling room with fresh air, and air positive pressure is formed in the sampling room to prevent external air which is not subjected to sterilization and filtration from entering the sampling room, so that the safety of sampling detection personnel is guaranteed. Specifically, the positive pressure fresh air system may include a positive pressure blower and a pressure control device, and the pressure control device is configured to control the positive pressure blower to maintain a positive pressure environment in the sampling room.

A positive pressure air inlet and a positive pressure air outlet are arranged on the sampling room corresponding to the positive pressure blower; the positive pressure air inlet is connected with the positive pressure blower through an air supply pipeline, and an air filtering structure is arranged in the air supply pipeline and used for filtering and disinfecting fresh air input into the sampling room; the positive pressure air outlet is used for discharging the old air in the sampling room.

Correspond the malleation gas vent sets up the exhaust pipe way, it prevents the refluence indoor entering sampling room of anti-reflux structure in order to prevent outside air to install on the exhaust pipe way. Specifically, anti-reflux structure can include baffling baffle and check valve structure, and a plurality of baffling baffles set up in turn from top to bottom on exhaust pipe's the lumen inner wall in order to prevent palirrhea, set up the silica gel lamella of the single outside exhaust as the check valve in exhaust pipe's indoor tip department (being close to the indoor pipeline mouth between the sampling) simultaneously in order to prevent to flow backwards.

Optionally, the reagent box storage bin corresponding to the self-service detection reagent cabinet 200 may further be provided with a temperature and humidity control device.

When specifically implementing, temperature and humidity control device can be including the cooling part, the intensification part, dehumidification part and the humidification part that correspond kit storage storehouse and set up, cooling part, intensification part, dehumidification part and humidification part are connected with the controller, the controller can control cooling part, intensification part, dehumidification part and humidification part and open and close with the temperature and/or humidity of adjusting aforementioned kit storage storehouse. The temperature reducing member is preferably a compression refrigerator. The temperature raising means is preferably an electric resistance heater, an electromagnetic heater and/or an infrared heater. The dehumidifying part is preferably a compressor, an electronic dehumidifier and/or an adsorption dehumidifier. The humidifying component is preferably an atomizing humidifier.

Optionally, the corresponding kit storage bin, the detection card placing groove and/or the recovery bin can be further provided with an ultraviolet disinfection lamp and/or an ozone generator.

The ultraviolet disinfection lamp and/or the ozone generator are electrically connected with the controller and receive the control of the controller, and the ultraviolet disinfection lamp and/or the ozone generator are controlled by the controller to be turned on and turned off so as to disinfect a kit storage bin, a detection card placing groove, a recovery bin and the like.

The utility model discloses a another embodiment still provides a multi-functional self-service sampling detecting system.

The self-service sampling detection system can comprise one or more sampling detection stations, and each sampling detection station is in communication connection with the system server through a communication device so as to transmit sampling detection information.

The sampling detection station is the multifunctional self-service sampling detection station described in the previous embodiment, and comprises a shell and a controller, wherein the shell is divided into a sampling kiosk and a self-service detection reagent cabinet. The sampling kiosk includes a sampling room having one or more sampling operating spaces through which a sampling person within the sampling room samples a user outside the sampling room.

A kit storage bin is arranged in the self-service detection reagent cabinet, a kit leading opening is formed in the cabinet, the kit storage bin is provided with a goods shelf and a goods delivery mechanism, and at least one goods channel is formed in the goods shelf; the goods delivery structure is arranged corresponding to the goods channel and used for moving the reagent boxes in the goods channel out of the goods channel according to the control of the controller, and the reagent boxes after being moved out of the goods channel can enter the reagent box getting opening to deliver the reagent boxes to a user.

Other features are referred to in the previous embodiments and will not be described herein.

In the description above, the various components may be selectively and operatively combined in any number within the intended scope of the present disclosure. In addition, terms like "comprising," "including," and "having" should be interpreted as inclusive or open-ended, rather than exclusive or closed-ended, by default, unless explicitly defined to the contrary. All technical, scientific, or other terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. Common terms found in dictionaries should not be interpreted as being too idealized or too impractical in the context of related art documents unless the present disclosure expressly limits them to that.

While exemplary aspects of the present disclosure have been described for purposes of illustration, those skilled in the art will appreciate that the foregoing description is by way of description only of the preferred embodiments of the present disclosure and is not intended to limit the scope of the present disclosure in any way, including additional implementations, in which functions may be performed out of the order of presentation or discussion. Any changes and modifications of the present invention based on the above disclosure will be apparent to those skilled in the art from the following claims.

Claims (10)

1. The utility model provides a multi-functional self-service sampling detection station, includes casing and controller, its characterized in that: the shell is divided into a sampling pavilion and a self-service detection reagent cabinet;

the sampling kiosk comprises a sampling room with one or more sampling operation spaces, and a sampling person in the sampling room samples users outside the sampling room through the sampling operation spaces;

a kit storage bin is arranged in the self-service detection reagent cabinet, a kit leading opening is formed in the cabinet, the kit storage bin is provided with a goods shelf and a goods delivery mechanism, and at least one goods channel is formed in the goods shelf; the goods shipment structure is arranged corresponding to the goods channel and used for moving the reagent boxes in the goods channel out of the goods channel according to the control of the controller, and the reagent boxes moved out of the goods channel can enter the reagent box getting openings to be dispensed to users.

2. The multi-functional self-service sampling inspection station of claim 1, characterized in that: the sampling detection station is also provided with a detection result acquisition part of the detection card, and the detection result acquisition part is used for acquiring the detection result of the detection card of the user and then uploading the detection result to the memory.

3. The multi-functional self-service sampling inspection station of claim 2, characterized in that: the detection result acquisition part comprises a detection card detection placing area, an image shooting structure and an image identification structure, wherein the image shooting structure is arranged corresponding to the detection card detection placing area;

the detection card detection placing area is used for a user to place a detection card for detection;

the image shooting structure is arranged corresponding to the detection card detection placing area and is used for shooting the detection result image data of the detection card in the detection card detection placing area;

the image identification structure is used for identifying the stripe information in the detection result image data to obtain a detection result and uploading the detection result to a local and/or cloud storage.

4. The multi-functional self-service sampling inspection station of claim 2, characterized in that: the detection card is provided with a detection card serial number information code;

the detection result acquisition part further comprises a detection card code scanner, and the detection card code scanner is used for identifying a detection card number information code on the detection card and sending the identified detection card number to the controller.

5. The multi-functional self-service sampling inspection station of claim 1, characterized in that: a transparent sampling window and a test tube leading port are arranged in the corresponding sampling room;

the sampling operation hole is arranged on the transparent sampling window;

the test tube access opening is arranged on the side part of the transparent sampling window.

6. The multi-functional self-service sampling inspection station of claim 1, characterized in that: correspond and be provided with the swab bag breaker between the sampling, the swab bag breaker includes that swab transmission channel, swab prepare the position and correspond the broken bag structure that the position set up is prepared to the swab, and the swab that has the wrapping bag gets into the swab through swab transmission channel and prepares the position after, breaks the bag so that the swab in the wrapping bag exposes through aforementioned broken bag structure.

7. The multi-functional self-service sampling inspection station of claim 1, characterized in that: a human-computer interaction device is arranged on the shell and is in communication connection with the controller;

the man-machine interaction device comprises a scanning registration part and a testimony verification part;

the scanning registration part comprises a code scanner and a scanning port arranged corresponding to the code scanner, and the code scanner is used for scanning and identifying information codes in a scanning area of the scanning port;

the personal identification card verifying part comprises an identity card reader and a face recognition structure, the identity card reader is used for reading the identity card information of the user to perform certificate identity authentication, and the face recognition structure is used for acquiring the real-time face image of the user to perform face recognition identity authentication.

8. The multi-functional self-service sampling inspection station of claim 1, characterized in that: the AED comprises a case, a case body and a control unit, wherein the case is provided with a AED containing part for placing the AED; or an AED rescue room is separated from the case, and the AED rescue room is provided with the AED accommodating part for placing the AED;

and/or, be provided with stand-by power supply on the casing, stand-by power supply is arranged in supplying power to the power consumption component that sets up in sampling pavilion and the self-service detection reagent rack when external power supply can't supply power.

9. The multi-functional self-service sampling inspection station of claim 1, characterized in that: an air conditioning device and a positive pressure fresh air system are arranged in the corresponding sampling chamber;

the air conditioning device is used for adjusting the indoor temperature and/or humidity of the sampling room;

the positive pressure fresh air system comprises a positive pressure blower and a pressure control device, and the pressure control device is used for controlling the positive pressure blower to maintain an indoor positive pressure environment of the sampling room;

a positive pressure air inlet and a positive pressure air outlet are arranged on the sampling room corresponding to the positive pressure blower; the positive pressure air inlet is connected with the positive pressure blower through an air supply pipeline, and an air filtering structure is arranged in the air supply pipeline and is used for filtering and disinfecting fresh air input into the sampling room; the positive pressure exhaust port

For venting stale air from within the sample compartment;

correspond the malleation gas vent sets up the exhaust pipe way, it prevents the refluence indoor entering sampling room of anti-reflux structure in order to prevent outside air to install on the exhaust pipe way.

10. The utility model provides a multi-functional self-service sampling detecting system which characterized in that: the system comprises one or more sampling detection stations, wherein each sampling detection station is in communication connection with a system server through a communication device so as to transmit sampling detection information;

the sampling inspection station is the multi-functional self-service sampling inspection station of any one of claims 1-9.

Images