CN115343490A - Sample analyzer - Google Patents

Abstract

The application provides a sample analyzer, which comprises an analyzer body, a display device and a control device; the analyzer body is used for preparing reaction liquid of at least one sample, and detecting at least one item of the reaction liquid of the sample to obtain detection information of the item; the control device is used for controlling the display device to display an item result detail interface, the item result detail interface comprises result detail information obtained based on the detection information of the item, and the result detail information comprises at least two items of detection result description, alarm information, a response curve and detection result tracing information.

Description

Sample analyzer

The present application claims priority from the chinese patent application filed on 12.05/2021 at the chinese patent office under the application number 202110519286.4 entitled "sample analyzer," the entire contents of which are incorporated herein by reference.

Technical Field

The present application relates to the field of medical device technology, and more particularly, to a sample analyzer.

Background

The sample analyzer is a medical device commonly used in clinical laboratory, and has the advantages of high automation degree, high detection speed, accurate and reliable detection result and the like. The sample analyzer can detect various indexes of samples such as blood, urine and the like, and presents the detection result on a display interface for medical personnel to check.

If the abnormal condition in the detection result is found, the medical staff needs to further check more detailed sample detection information, such as result marking explanation, alarm information, reaction curve, result tracing information and the like, so as to comprehensively analyze and obtain the reason of the abnormal occurrence. The current sample analyzer can provide a plurality of items of detailed detection information, but medical staff needs to manually operate the equipment for many times to switch between different display interfaces so as to respectively search different detailed detection information.

It can be seen that when medical personnel carried out reason location to sample analyzer's unusual testing result, need switch over different display interface many times, the operation is complicated, time-consuming and miss information easily, and user experience is not good enough.

Disclosure of Invention

In view of this, the application provides a sample analyzer for simplify the tedious operation steps when the reason is located to the user's unusual testing result, save user operation time and avoid the information omission problem, improve user experience. In order to achieve the purpose of the invention, the technical scheme provided by the application is as follows.

In a first aspect, an embodiment of the present application provides a sample analyzer, including:

the analyzer body is used for preparing reaction liquid of at least one sample, and detecting at least one item of the reaction liquid of the sample to obtain detection information of the item;

a display device;

the control device is respectively in communication connection with the display device and the at least one analyzer body, and is configured to control the display device to display an item result detail interface, wherein the item result detail interface comprises result detail information obtained based on the detection information of the item, and the result detail information comprises at least two items of detection result description, alarm information, a reaction curve and detection result tracing information.

In a second aspect, embodiments of the present application provide a sample analyzer, including:

the analyzer body is used for preparing reaction liquid of a sample placed in a sample rack, and detecting at least one item of the reaction liquid of the sample to obtain detection information of the item;

a display device;

the control device is used for controlling the display device to display a sample detection result interface of the sample or a rack state interface of the sample rack; and the number of the first and second groups,

under the condition that the display device displays the sample detection result interface, responding to the trigger operation of a user on the sample detection result interface, and controlling the display device to switch from the sample detection result interface to an item result detail interface;

under the condition that the display device displays the rack state interface, responding to the triggering operation of a user on the rack state interface, and controlling the display device to be switched from the rack state interface to an item result detail interface;

the project result detail interface comprises result detail information obtained based on the detection information of the project, and the result detail information comprises at least two items of detection result description, alarm information, a response curve and detection result tracing information.

In a third aspect, an embodiment of the present application provides a sample analyzer, including:

the analyzer body is used for preparing a reaction liquid for a sample in at least one test tube carried by at least one sample rack and detecting the reaction liquid of the sample;

a display device;

a control device in communication connection with the display device and the at least one analyzer body, respectively, the control device being configured to determine a detection mode of the at least one analyzer body and control the display device to display a rack status interface of the at least one sample rack corresponding to the detection mode;

wherein the detection mode comprises a few sample mode or a multiple sample mode; the number of sample racks detected by the at least one analyzer body in the low-sample mode is lower than a first preset number threshold, and the number of sample racks detected by the at least one analyzer body in the multi-sample mode is higher than a second preset number threshold;

in the rack state interface corresponding to the less-sample mode, the detection state icon of the sample is an icon of a test tube front view style; in the rack state interface corresponding to the multi-sample mode, the detection state icon of the sample is an icon of a test tube top view pattern.

According to the technical scheme, the method has the following beneficial effects:

the sample analyzer integrates at least one item of result detail information at item result detail interface for medical personnel to look over in unison, thereby medical personnel need not to operate sample analyzer many times and switch to different display interface in order to seek each item information respectively, and the operating mode is simple and convenient relatively, saves operating time and reduces the possibility that the information is omitted, and user's use experience is better.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIGS. 1A-1C are schematic diagrams of three different configurations of a sample analyzer;

FIGS. 2A-2B are exemplary diagrams of a project result detail interface;

FIG. 3A is another exemplary diagram of a project results details interface;

FIG. 3B is an exemplary diagram of a calibration result viewing interface;

FIGS. 4A-4B are two exemplary diagrams of a sample assay result interface;

FIG. 5 is an exemplary diagram of a rack status interface;

6A-6B are exemplary diagrams of rack status interfaces corresponding to two different detection modes;

FIG. 7A is a diagram of an example of selecting a target sample in a rack status interface corresponding to a few samples mode;

FIG. 7B is a diagram of an example of selecting a target sample rack in a rack status interface corresponding to the low sample mode;

FIG. 7C is an exemplary view of a rack status interface displaying sample rack detail areas for the less sample mode;

FIG. 8A is a diagram of an example of selecting a target sample rack in a rack status interface corresponding to a multiple sample mode;

fig. 8B is an exemplary view of a rack status interface corresponding to the multiple sample mode displaying a sample rack detail area.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

A sample analyzer is a medical device for analyzing and detecting a sample such as a body fluid, and the detection result may be abnormal, such as abnormality of result data or failure to obtain the result data. When medical personnel detect abnormal reasons, relatively complex interface switching operation needs to be executed on the sample analyzer, and then result detail information related to the abnormality can be collected from different display interfaces, so that the reasons for the abnormality and an abnormality processing mode are obtained through comprehensive analysis.

For example, a detection result of a certain sample in a sample detection result interface is abnormal, and a result mark "re.1" is prompted, a medical worker firstly clicks a help file to check a result meaning corresponding to the result mark, assuming that the result meaning is "trigger a reaction curve abnormal alarm", the medical worker exits from the help file and then enters a reaction curve interface to check a reaction curve of the sample, and analyzes possible reasons of the abnormality according to a specific form of the reaction curve, such as abnormality of a detection light source lamp, too high concentration of the sample, reagent bubbles added, sample interference, and the like, in order to further determine specific reasons of the abnormality, the medical worker needs to exit the reaction curve interface and return to the sample detection result interface, and determines whether each possible reason of the abnormality has corresponding alarm information on the sample detection result interface, and needs to search detection result tracing information of the sample detection result, such as a reagent batch number, a reagent bottle number, a calibration batch number, and the like. It should be noted that the search of the alarm information and the detection result tracing information may switch different display tabs in the sample detection result interface, or switch from the sample detection result interface to another display interface. Therefore, when the medical staff positions the cause of the abnormal detection result of the sample, different display interfaces need to be repeatedly switched for many times.

It is understood that the result detail information includes at least one item, and typically specifically includes at least one item of a detection result description, an alarm information, a response curve, and a detection result tracing information. At present, various items of result detail information of the sample analyzer are dispersedly displayed on different display interfaces, medical workers need to switch the display interfaces for multiple times to collect different pieces of result detail information, so that the operation of the medical workers is complicated, the time consumption for searching abnormal reasons is long, the instrument learning and using cost of the medical workers is increased, and one or more pieces of result detail information can be omitted if the medical workers are not skilled in the searching process. Such inconvenience in use can result in a poor user experience.

Therefore, the embodiment of the application provides a sample analyzer, which can intensively display at least one item of result detail information so as to improve the device use experience of a user. Referring to fig. 1A, an embodiment of a sample analyzer is shown, which includes an analyzer body 100, a display device 200, and a control device 300. The analyzer body 100, the display device 200, and the control device 300 may be provided as separate devices, or any two of them may be provided integrally in the same device.

The analyzer body 100 is configured to prepare a reaction solution of at least one sample, and perform detection of at least one item on the reaction solution of the sample to obtain detection information of the item.

Specifically, a single detection process of the analyzer body 100 may be performed on a single sample, or a plurality of samples may be detected in batch, for example, a plurality of samples are placed in a sample rack and sent to the analyzer body 100 together for detection. When the number of samples is plural, each sample reacts with a corresponding reagent to obtain a reaction solution of each sample, and then at least one item of the reaction solution is detected to obtain detection information of at least one item of each sample.

The items can be referred to as detection items and refer to detection contents performed on the sample, in practical application, the sample can be a blood sample prepared from blood, and the sample analyzer body performs detection items related to biochemical immune subjects on the blood sample, for example, the sample is subjected to detection of a plurality of items such as CA19-9 (cancer antigen 19-9), T3 (triiodothyronine), HCG (human chorionic gonadotropin) and the like. The sample analyzer body can also perform items related to the blood sample in the blood coagulation department, such as seven items of routine tests of blood coagulation, specifically including Activated Partial Thromboplastin Time (APTT), plasma Prothrombin Time (PT), thrombin Time (TT), fibrinogen (FIB), D-Dimer (D-Dimer), fibrin Degradation Products (FDP) and antithrombin III (AT-III).

It should be noted that the detection information is information related to the sample item detection process, and may include information before detection, such as sample information, information generated by the detection process, and detection result information. Illustratively, sample information, detection result tracing information, alarm information, and the like are included.

In one embodiment, as shown in fig. 1B, the analyzer body 100 may include at least a sampling device 101, a sample preparation device 102, and a detection device 103; the sampling device 101 is used for collecting and conveying a sample to the sample preparation device 102, the sample preparation device 102 has a reaction cell and a reagent supply portion, the reagent supply portion is used for providing a processing reagent, the reaction cell is used for providing a reaction place for the reaction between the sample and the processing reagent to prepare a reaction solution, and the detection device 103 is used for performing item detection on the reaction solution to obtain detection information of an item. It should be noted that the specific structure of the analyzer body 100 is not limited to the above example, and any analyzer body capable of performing item detection on a sample is included in the scope of the present application.

The display device 200 is at least used for displaying a display interface obtained by the sample analyzer provided in the embodiment of the present application, such as a project result detail interface. Illustratively, the display device 200 may be embodied as a display. It should be noted that the display device 200 may be integrated with the analyzer body 100 or may be provided separately from the analyzer body 100, which is not particularly limited in the present application. As shown in fig. 1C, the control device 300 is integrated with the analyzer body 100, at least one of the integrated devices is respectively in communication with the display device 200, and the display device 200 displays the display interface (such as a sample test result interface, an item result detail interface, a rack status interface, etc.) generated by the control device 300.

The control device 300 is configured to control the display device 200 to display an item result detail interface, where the item result detail interface includes result detail information obtained based on the detection information of the item, and the result detail information includes at least one of a detection result description, alarm information, a response curve, and detection result tracing information. In one embodiment, the result detail information includes a detection result description and alarm information, so that a user can confirm the relevant condition of the abnormal item based on the detection result description and alarm information. In one embodiment, the result detail information includes a description of the detection result, a warning message, and a response curve. In one embodiment, the result detail information includes a description of the detection result, an alarm message, and a detection result tracing message.

Specifically, the control device 300 obtains item detection information obtained by the analyzer body 100, selects one or more items of result detail information from the detection information, and collectively displays the result detail information on a display interface, which may be referred to as an item result detail interface for convenience of description. It should be noted that, in the application scenario of the embodiment of the present application, the result detail information is mainly used to help medical staff to know the cause of the abnormal detection result, and one or more of the following information may be determined according to the experience of sample detection and analysis, and is generally information that is relatively concerned when the medical staff performs abnormal analysis: description of detection results, alarm information, response curves and detection result tracing information.

Wherein: the detection result description is a summary of the detection result, and both the normal detection result and the abnormal detection result may have corresponding detection result descriptions, or the detection result description may be displayed only for the abnormal detection result in order to further simplify the interface display content. The alarm information is an abnormal alarm generated in the sample detection process, and comprises an abnormal alarm related to the sample, and can also comprise an abnormal alarm unrelated to the sample, such as an alarm of equipment environmental parameters and the like. The reaction curve is used for recording the biochemical reaction trend of the sample detection, which can reflect the abnormal condition in the detection process to a certain extent, and it can be understood that the result detail information can comprise the reaction curve if the sample is subjected to the biochemical detection, and the result detail information does not comprise the reaction curve if the sample is subjected to the immunological detection. The test result tracing information refers to information of test factors that can affect the accuracy of the test result, such as calibration information, reagent information, stir bar information, and the like. It should be noted that the result detail information may not be limited to only the four items, and may be set as other information items according to the actual requirement of the anomaly analysis.

In one embodiment, the detection result description includes a result flag and a flag description of the abnormal detection result, or further includes an abnormal processing mode. It should be noted that the result flag may only indicate that the detection result of the item is abnormal, that is, if a certain item in the sample detection result interface indicates the result flag. The result mark may be embodied in various forms such as a symbol, a number, an icon, and the like, and the embodiment of the present application is not particularly limited.

The alarm information comprises at least one of an alarm number, an alarm title, an alarm solution and a skip label associated to the alarm detail interface. The skipping label can be linked with the alarm detail interface, and a user can trigger the alarm detail interface to be displayed by clicking the skipping label. The alarm detail interface can be displayed in various ways, for example, the display device can switch the project result detail interface into the alarm detail interface, or the alarm detail interface is displayed in the form of a pop-up window which can be suspended above the project result detail interface or embedded into the project result detail interface. It should be noted that there may be multiple alarm information items, each alarm information item may respectively display a jump tag, and after a user clicks a jump tag corresponding to a certain alarm information item, the alarm detail interface may only display details corresponding to the alarm information item, or display details of all the alarm information items and prompt the alarm information item corresponding to the triggered jump tag, such as a highlight prompt.

The response curve includes a trend curve view and/or a trend data view.

The detection result tracing information comprises calibration tracing information and/or detection tracing information, wherein the calibration tracing information comprises at least one item of calibration time, a name of a calibrator and a number of a reagent batch bottle for calibration, and the detection tracing information comprises at least one item of item related information of a previous item of reaction liquid prepared by the reaction liquid preparation component, a reagent batch bottle number, a reaction cup, a stirring rod, a sample needle, a reagent needle and a reagent taking serial number of the reagent bottle. Among them, a plurality of items can be used for preparing a reaction solution by sucking a reagent from the same reagent bottle, and for information tracing, the serial numbers such as 1, 2, and 3 of the reagents taken from the same reagent bottle are sequentially recorded. If the reagent is taken for a plurality of times before or last after the reagent bottle is opened, impurities such as air can be absorbed, so that the detection result of the item is influenced, the reagent taking sequence number of the reagent bottle can be traced, and a user can be helped to analyze whether the detection result is abnormal or not due to the reagent taking sequence. In addition, the reaction solution preparation components such as the reagent needle and the stirring rod are reusable instrument components, the reaction solution of the previous project is prepared and then cleaned and is continuously used for the next project, and if the reaction solution of the previous project is not cleaned completely, cross contamination among the reaction solutions of the projects can be caused, so that the relevant information of the project of the previous project for which the components are used can be stored and recorded to serve as the detection result tracing information of the project. Project-related information may include, but is not limited to, project name, sample information, reagent information, etc., for tracking back the specifics of the previous project.

See fig. 2A and 2B, which provide examples of project result detail interfaces for a sample. The project result detail interface comprises four label controls of marking prompt, alarm information, reaction curve and result tracing, and the four label controls respectively correspond to four display areas of detection result description, alarm information, reaction curve and detection result tracing information. It should be noted that the display area corresponding to the label control may have two states of being retracted and expanded, for example, an arrow control on one side of the label control is used to indicate an area state, an arrow corresponds to an expanded state upward, and an arrow corresponds to a retracted state downward. In a specific embodiment, if the result detail information corresponding to the label control is null, the label control defaults to the retracted state.

As shown in fig. 2A, the detection result indicates that the corresponding display area has the prompting content of "re.1 trigger response curve abnormal alarm, suggest dilution retest", which can prompt the result mark "re.1" of the abnormal detection result to indicate that the response curve abnormal alarm is triggered, and provide a processing suggestion of retest after dilution of the sample.

The alarm information display area is in a retracted state, and the alarm content is not displayed. And after the user clicks the alarm information label control, if the item has alarm information, displaying the item in the expanded alarm information display area.

The reaction curve display area comprises two switching controls of a trend curve and trend data, and a user can view two different forms of reaction curves of the sample through the selection controls. In fig. 2A, a trend curve control (which may be set to display a trend curve by default) is in a selected state, and the area shows a trend curve of the sample detected by the analyzer body. In this example, the trend curve includes three curves under different state conditions: the wavelength distribution of the light source may be, for example, a wavelength distribution of the light source, a wavelength distribution of the light source, or a wavelength distribution of the light source. In addition, the region can further provide an operation control, so that medical personnel can selectively check or process the displayed reaction curve, for example, the all-curve control enables the medical personnel to select one or more types of trend curves to check according to requirements, the filtering selection control can be set by the medical personnel for generating conditions of the trend curves, and the curve adjustment control enables the medical personnel to adjust the display style of the reaction curve according to requirements.

See FIG. 3A, which provides an example of an item result detail interface for another sample. The alarm information in the interface example comprises three pieces, namely ' 1 ' quality control out of control ', ' 2 ' reagent consumable material stability, calibration expiration 10 days ' and ' 3 ' reflecting system temperature abnormity '. A skip label 303 of "view details" may be set for each piece of alarm information (only skip labels corresponding to the first piece of alarm information and the second piece of alarm information are shown in the figure), and the user may click the skip label to enter an alarm details interface to view specific alarm information. If the user wants to check the specific alarm information of the third piece of alarm information, after the corresponding skip label is clicked and the alarm detail interface enters the alarm detail interface, the alarm detail interface can highlight the alarm information, so that the user can accurately and quickly locate the information content expected to be checked, and the user experience is better.

In another embodiment, the item result detail interface only sets a "view details" jump tab 303, and the user triggers the jump tab and then enters the alarm details interface to view more detailed content of the alarm information. If there are multiple alarm messages, the detailed information of multiple alarm messages can be integrated into an alarm detailed interface.

In another specific embodiment, an alarm detail interface is respectively set for the detail information of different alarm information, and the alarm details corresponding to the alarm information are displayed after the user triggers the skip tag of which alarm information. As shown in fig. 3A, a user triggers a "reapplication for quality control" skip label 301 to enter a quality control out-of-control alarm detail interface; the user-triggered "recalibration" jump tab 302 may enter a calibration alarm details interface (otherwise known as a calibration results viewing interface), an example of which is shown in FIG. 3B. Furthermore, an alarm processing key is arranged on the alarm detail interface, and if a user needs to process the alarm information on the basis of checking the alarm details, the key can be triggered to enable the control device to execute a corresponding alarm processing flow. As shown in fig. 3B, the calibration result viewing interface may be provided with a "recalibration" button 304, which is triggered by the user to cause the control device to perform the recalibration process. In the specific embodiment, after checking the alarm details, the user can trigger the alarm processing flow on the same interface, the user can check and confirm the alarm information details, the interface does not need to be switched again when the alarm processing is triggered, the operation is simple and convenient, and the user experience is good.

It should be noted that, in the above embodiments, the tag content of the jump tag associated to the alarm detail interface is not limited to "view details": "Reapply for quality control" and "recalibration" may be any content that prompts the user for a detailed view.

In an embodiment, the item result detail area may provide an up-down slider, and the user drags the up-down slider to switch what kind of result detail information is specifically displayed in the item result detail area, for example, the user drags the up-down slider 201 of fig. 2A downward to obtain the display effect of fig. 2B, that is, the item result detail areas of the two figures display result detail information of the same item. Or, in order to avoid the sliding operation of the user, in another specific implementation manner, the item result detail interface may further include at least multiple tabs, and the different result detail information of the same item is switched and displayed on the same item result detail interface through switching tabs. For example, four tabs of detection result description, alarm information, a response curve and detection result tracing information are set, and a user clicks different tabs to check different result detail information. Of course, the same tab may include one or more items of result detail information, for example, the detection result description, the alarm information, and the response curve are displayed in the same tab interface, and the detection result tracing information may be set up in a single tab interface due to a large amount of data.

It should be noted that the project result detail interface may include result detail information of a plurality of projects of a sample, and the display manner of the result detail information may be various. In a specific embodiment, the result detail information of a plurality of items may be displayed in the item result detail interface at different regions simultaneously, specifically, the item result detail interface may set a corresponding item result detail region for each item to include the result detail information of each item, and a window slider (e.g., an up-down slider and/or a left-right slider) is provided, and the medical staff may drag the window slider to make the display device display the result detail information of different item result detail regions. In another embodiment, the project result detail interface may include a plurality of project toggle controls (e.g., each project name as a toggle control) and a project result detail area, and the healthcare worker triggers different project toggle controls to toggle the project result detail area to display result detail information corresponding to different projects. As shown in fig. 2A, the project result detail interface includes a project name area 202 and a project result detail area 203, the project result detail area displays the result detail information corresponding to the Glu-G project after the user clicks the project name Glu-G, and the project result detail area switches to display the result detail information corresponding to the TP project if the user clicks the project name TP. In this embodiment, the control means 300 is arranged to control the item result detail interface to switch from result detail information comprising the first item to result detail information comprising the second item in response to a user switching operation from the first item to the second item.

It is understood that, in the case where the number of the sample reaction solution detection items is plural, the detection results of all the items may not be abnormal, and the result detail information in the item result detail interface may be displayed in different manners. For example, the project result detail interface only contains the result detail information of the abnormal project, and does not show the result detail information of the normal project; if the result detail information of the abnormal project is displayed according to any scheme, the result detail information area of the normal project is empty; for another example, the result detail information area of the normal item may display a part of the result detail information that can be obtained by the detection information, and the result detail information that is not obtained by the detection information is empty. For example, the detection information of the normal item may not include the detection result flag and any alarm information, but may include the response song and the detection result tracing information, and the item result detail interface may display the latter two items of result detail information.

According to the technical scheme, the sample analyzer integrates the at least one item of result detail information on the item result detail interface for medical staff to check in a unified mode, so that the medical staff do not need to operate the sample analyzer for multiple times to switch to different display interfaces to respectively search the information, the operation mode is simple and convenient, the operation time is saved, the possibility of information omission is reduced, and the use experience of a user is good.

In one particular implementation, the project result detail interface may contain a jump tag associated to the calibration curve viewing interface. Specifically, if the result detail information includes the alarm information related to calibration, a skip label may be set for the alarm information correspondingly, and a trigger operation performed on the skip label by the user is received, and the control device 300 may further respond to the trigger operation and control the display device 200 to switch the project result detail interface to the calibration curve viewing interface (or directly display the calibration curve viewing interface without switching the project result detail interface). The calibration curve viewing interface may provide more detailed calibration information. The calibration curve viewing interface may further provide a return key, and the control device 300 may further control the display device 200 to return the item result detail interface from the calibration curve viewing interface in response to a user's trigger operation on the return key. If the item result detail interface contains alarm information, a user may want to check the alarm information details to further analyze the reason of the abnormal occurrence, the interface switching display mode can meet the checking requirements of the user, one-key returning can be realized, and the user can return the item result detail interface to continuously check other detection result information.

The sample test result interface may include a summary of the test results of the item, and in order to help the user to know more detailed information of the item, the item result detail interface may include the test details of the item after entering the item result detail interface from the sample test result interface. It should be noted that the details of the detection are not limited to the details of the detection result, and may be any detailed information related to the item, such as the dilution factor of the sample for detecting the item, the reactivity, and the like. The detection details can be displayed in a detection detail area of a project result detail interface, the detection details have a retracting state and an expanding state, when a user clicks the project name of a certain project, the detection details of the project are switched from the retracting state to the expanding state, and meanwhile, the detection details expanded previously are switched to the retracting state. In a specific implementation manner, after a sample detection result interface clicks a target item of a sample to enter an item result detail interface, result detail information of the target item is displayed in a default condition, and further, if a user wants to check the result detail information of other items of the sample, the user may click item names of other items to implement a switching operation. The realization mode can help the user to quickly realize switching and checking of the item result detail information on the item result detail interface without returning to the sample detection result interface, so that the user operation steps are saved, the fault feeling caused by repeated switching of the interface is avoided, and the user experience is better.

When the project result detail interface contains the alarm information, in order to simplify the operation flow of the user, a corresponding alarm processing key can be set for the alarm information on the project result detail interface. Specifically, on the basis of the sample analyzer shown in fig. 1A and 1B, the control device 300 is further configured to respond to a user's triggering operation on the alarm processing key, and execute an alarm processing procedure associated with the alarm processing key. It should be noted that the alarm processing flows corresponding to different alarm information may be different. Furthermore, after the alarm processing flow is executed, a return key can be provided on a flow execution result interface, and a user can return to a project result detail interface after triggering the return key.

Describing by combining the project result detail interface shown in fig. 3A, the "quality control out of control" alarm in the alarm information corresponds to an alarm processing key, that is, a "reapplication for quality control" key 301, and if the user triggers the alarm processing key, the control device directly enters the quality control process; the reagent consumables are stable, the alarm corresponds to the alarm processing button, namely the recalibration button 302 after the calibration is overdue for 10 days, and if the user triggers the alarm processing button, the control device directly enters the calibration process. In the specific implementation mode, the user can directly trigger the alarm processing flow aiming at each alarm message without jumping to an alarm detail interface, the operation mode is simpler and more convenient, and the user experience is better.

The sample detection result interface can contain result markers of abnormal detection results, such as "&" "or" > "; "etc., in order to save the display space of the interface, the result mark is usually set in the form of a simple symbol, which does not represent specific meaning by itself, and the user needs to refer to the help file to clarify the specific representation meaning of the result mark. In order to help the user quickly and conveniently understand the meaning of the result mark, in a specific implementation, the control device 300 is further configured to respond to the user's trigger operation on the result mark, and pop up a floating control, such as a bubble box, where the floating control includes a mark description of the result mark and/or a handling manner of the abnormal detection result. Illustratively, the user's trigger operation on the result mark may include, but is not limited to, a touch operation such as hovering, clicking, double clicking, etc.; the user may not directly trigger the result mark, or may trigger an item corresponding to the result mark. The content contained in the floating control can be displayed according to a certain rule, such as "result marking: label description + solution ".

As illustrated with reference to the sample detection result interface provided in fig. 4A, if the user clicks the result flag ">, EXP" of the second item in the item list area, or clicks the item name "HBsAg" of the second item, or clicks the result "positive" of the second item, a bubble box may pop up on the upper layer of the content such as the result flag, the result, and the like in the sample detection result interface, and the bubble box includes the flag ">: if the result exceeds the upper limit of the linear range, please dilute and re-measure or reduce and re-measure, EXP: if the reagent is expired, please replace the reagent ", and the label description is used to explain the meaning of each result label. If the result identification of one project exceeds the preset number, in order to avoid excessive shielding of information in the lower-layer sample detection result interface caused by the overlarge area of the suspension control, the suspension control is not popped up, and the project result detail interface is directly switched to view the result detail information. The specific implementation mode can enable a user to check the specific meaning of the result mark directly on the sample detection result interface, and compared with a mode of clicking the help file to reposition the result mark part for comparison checking, the operation mode is simpler, the content prompt is more intuitive, and the user experience is better.

The project result detail interface displays at least one item of result detail information in an integrated mode, so that complicated operation that a user switches different display interfaces to search each item of result detail information is avoided, and if the process that the user enters the project result detail interface is complex, the use experience of the user is influenced to a certain extent. Thus, the sample analyzer may further control the manner in which to switch to the project result detail interface.

The control device 300 is further configured to control the display device 200 to display a sample test result interface of at least one sample; and controlling the display device 200 to switch from the sample detection result interface to the item result detail interface in response to the one-step triggering operation or the two-step triggering operation of the user on the sample detection result interface.

Specifically, the sample detection result interface can comprehensively display various items of detection result information of the sample, and a user can usually enter the interface to check the overall condition of sample detection after the sample detection is finished, so that an entry can be arranged on the sample detection result interface for the user to trigger to enter the item result detail interface. The sample test result interface can be understood as the interface at the upper level of the item result detail interface, and this entry mode can be referred to as progressive entry. It should be noted that the item result detail interface may also provide a return button, so that the user can return to the sample test result interface by one button.

Illustratively, the sample test results interface can be one that is embedded within the main display interface of the sample analyzer. Specifically, the main display interface may set a tab corresponding to the sample detection result, and after the user clicks the tab, the main display interface uses the main display area to display information related to the sample detection result, so as to obtain a sample detection result interface.

The sample detection result interface can provide a trigger control correlated to the project result detail interface, and a user can skip to the project result detail interface from the sample detection result interface after executing trigger operation on the sample detection result interface. It should be noted that the association between the trigger control and the item result detail interface may be direct association, so that the user may directly enter the item result detail interface by performing one-step trigger operation, and this interface jump mode is the simplest and most convenient; or the number of the trigger controls can be two, one of the trigger controls is directly associated with the project result detail interface, and the other trigger control is used for associating with the directly associated trigger control, in this case, the user needs to perform two-step trigger operation to switch to the project result detail interface.

It should be noted that the trigger operation may be a touch operation such as double-click, single-click, selection, hovering, or the like, or may also be a non-contact control operation such as voice operation, gesture operation, or the like. In the embodiment of the application, the user can switch the sample detection result interface to the project result detail interface by performing at most two touch operations, the operation mode is simple, and the user experience is good.

In one embodiment, the control device 300 may enter the project result detail interface in response to a two-touch operation by the user. Specifically, the sample test result interface displayed by the display device 200 includes a test result profile of at least one sample; the control device 300 is used for responding to a selection operation of a user on a target sample in at least one sample, displaying a detection result profile of at least one item of the target sample, and responding to a trigger operation (such as a click operation on a result detail label of the target item) of the user on the target item in at least one item, and controlling the display device to switch from the sample detection result interface to an item result detail interface, wherein the item result detail interface displays result detail information associated with the target item.

The sample test results interface can include a sample list area for displaying a test results profile for the sample. The number of samples is at least one, and the test result profile of one sample is shown in the sample list area in the form of one record. It should be noted that, if the detection result of any item of the sample is abnormal, the display style of the detection result profile of the sample in the sample list area may be distinguished from other samples, so as to prompt the user that the detection result of the sample is abnormal. The manner in which the display style is distinguished may include, but is not limited to, a highlighted cue, a color changing cue, a background color cue, and the like.

The first step of touch operation: if a user wants to view item detection result information of a certain sample, the user clicks and selects the sample in the sample list area, and for convenience of description, the sample selected by the user may be referred to as a target sample. The control means 300 controls the display means 200 to display a detection result profile of at least one item of the target sample in the item list region in response to a user's selection operation of the target sample.

For example, the sample list area and the item list area may be arranged horizontally, side by side, vertically, or in other positional relationships. It should be noted that, the detection result profile of an item in the item list area may also be displayed as a record, and if a detection result of a certain item is abnormal, the detection result profile record corresponding to the item may display a prompt message to prompt the user, where the prompt message includes, but is not limited to, a highlight prompt, a color change prompt, a background color prompt, and the like. In addition, the item's test result profile may include, but is not limited to, item name, results, result tags, test completion time, and the like. It should be noted that, the sample test result interface sets a result detail label for the test result profile of the item, and the label is used for associating the item result detail interface.

And a second step of touch operation: if the user wants to view the detection result details of a certain item, the user clicks the result detail label of the item, so that the display device 200 is switched from the sample detection result interface to the item result detail interface. For convenience of description, the item selected by the user may be referred to as a target item. In a specific embodiment, the sample detection result interface may set a corresponding result detail label for each item, and after the user clicks the result detail label of the target item, the switched item result detail interface directly displays the result detail information of the target item. It should be noted that the result detail label may be various controls that can perform interface jump in response to the trigger operation. In addition, the result detail label is used for being associated to the item result detail interface, and the "result detail" does not constitute a limitation to the label content, and it is within the protection scope of the present application as long as the user can be prompted to skip to view the label content of the item detection result detail by clicking the control.

Referring to fig. 4B, an exemplary diagram of a sample test result interface is shown, which includes a sample list area 401 and an item list area 402. The sample list area 401 displays the detection result profiles of a plurality of samples, such as category, serial number, sample ID, position, test progress, test completion time, and the like, the sample with an abnormal detection result is marked red for reminding, and the item list area 402 displays the detection result profiles of the items corresponding to the abnormal sample, such as item name, result, mark, test completion time, and the like, after the user clicks the abnormal sample. Similarly, the items with abnormal detection results may be marked in red, and each item is correspondingly provided with a result detail label, and if the user wants to check the detection result details of a certain item and click on the corresponding result detail label, the display device jumps from the sample detection result interface to the item result detail interface shown in fig. 2A and 2B. The project result detail interface may directly display result detail information for the target project. Therefore, a user can enter a project result detail interface by executing two-step clicking operation on the sample detection result interface, and the operation mode is simple and convenient.

In one embodiment, after the user performs a selection operation on a target sample of the at least one sample, the control device 300 controls the display device 200 to switch from the sample test result interface to the item result detail interface in response to the selection operation of the user. As shown in fig. 4B, after the user selects an abnormal sample as the target sample in the sample list area, the display device may directly switch to the project result detail interface. Different from the two-step operation triggering switching, the switched item result detail interface displays the result detail information of which item in a plurality of ways: for example, result detail information of all items is displayed, result detail information of an abnormal item is displayed, result detail information of the first abnormal item is displayed and result detail information of an item after switching is displayed after a user switches items, and the like.

In addition to the above entry into the project result detail interface from the sample test result interface, the embodiments of the present application also provide an implementation scheme for entering into the project result detail interface from the rack status interface.

Specifically, a plurality of samples can be placed in the same sample rack, and one or more sample racks are sent to the sample analyzer for batch detection, so as to obtain the overall detection result of at least one sample rack. The information of the detection result of each sample in the sample rack can be integrally displayed on an interface, which can be called a rack state interface. Similar to the sample test result interface, the rack status interface may be an independent display interface or a tab interface embedded in the main display interface.

On the basis of the sample analyzer shown in fig. 1A and 1B, the control device 300 is further configured to control the display device to display a rack status interface of the sample rack; and responding to one-step triggering operation or two-step triggering operation or three-step triggering operation of the user on the rack state interface, and controlling the display device to be switched from the rack state interface to the project result detail interface. It should be noted that, similarly to the sample detection result interface, the rack state interface may provide a trigger control directly or indirectly associated with the item result detail interface, and the user may perform a trigger operation on the trigger control to implement switching from the rack state interface to the item result detail interface, where the switching may be direct switching or switching via another interface. It should be noted that, in order to simplify the operation flow of the user, the trigger operation is guaranteed within three actions, so as to improve the user experience.

In one embodiment, the three-step trigger operation may switch to a project result detail interface to view result detail information for the project. Specifically, the control device 300 displays a detection profile of at least one sample of the target sample rack in response to a user's selection operation of the target sample rack; responding to the selection operation of a user on a target sample in at least one sample of the target sample rack, and displaying a detection result profile of at least one item of the target sample; and responding to a triggering operation (such as clicking operation on a result detail label of the target item) of a user on the target item in at least one item, and controlling the display device to switch to the item result detail interface, wherein the item result detail interface displays result detail information associated with the target item. Therefore, the progressive switching mode from the sample rack to the sample and then to the item can reduce the fault feeling of the user on the disordered and disordered jump of the page, accords with the viewing habit of the user, and has better equipment use experience.

Specifically, the rack status interface displays the test result information of at least one sample rack, the test result information of each sample rack may be displayed as a record (one record may be regarded as one drawer, and thus the display area of the record may be regarded as a rack drawer area), and the sample rack containing the abnormal test result sample may be marked to alert the user. For example, the record of the detection result information of one sample rack may include detection status icons of a plurality of samples of the sample rack, and if the detection result of a certain sample is abnormal, the record may be prompted by the detection status icons of the sample, for example, different display patterns of the detection status icons of the samples represent different detection statuses, and the icon of the sample of the abnormal detection result may be set to a pattern such as red, an exclamation mark, or the like, so as to achieve the purpose of prompting. The display style may include, but is not limited to, any one or a combination of a plurality of forms of a graphic shape, a graphic line color, a graphic fill content, and the like.

The sample detection status can be varied, for example, biochemical immune subjects can include urgent, idle, application, sample application completed, test in, completed, unfinished, sample abnormal, code scanning abnormal, LIS download failed, no project sample, test in abnormal, and the like, and for example, coagulation subjects can include idle, application, analysis in, completed, abnormal, and the like. Wherein, the idle state indicates that no sample test tube is arranged at the sample position corresponding to the sample rack; the application may specifically include both a manual application and an automatic application, where if a user manually applies for a test on a certain sample, the sample becomes an application state, or if a sample analyzer automatically applies for obtaining correct detection information of the sample from the LIS, the sample becomes an automatic application state; the analysis means that the state of the sample becomes in analysis after the first reaction solution is loaded; finishing the detection process to indicate that all the detection processes of the sample are finished and obtaining the detection results of all the detection items; the abnormality may include sample abnormality, code scanning abnormality, and the like, and specifically indicates that a detection result of the sample cannot be obtained. The detection states of the samples are various, and accordingly the detection state icons of the samples are various, so that the memory cost of a user is high, in order to enable the user to visually and conveniently know the corresponding state of each display mode, the rack state interface can further comprise description information of the detection state icons, the description information can be displayed at a position, related to the sample rack display area, in the rack state interface, as shown in fig. 5-8B, various types of detection state icons which may appear in the samples are displayed at the upper position of the sample rack state area, and the description information of the detection state icon is displayed at the related position of each detection state icon, so that the user can conveniently check the detection state icons.

The three-step triggering operation for switching from the shelf status interface to the project result detail interface may specifically include:

the first step of triggering operation: the user selects a sample rack to cause the rack status interface to display a detection profile of at least one sample of the sample rack. For ease of description, the sample rack selected by the user may be referred to as a target sample rack. In one embodiment, the rack status interface may include a sample rack status area for displaying test result information for a sample rack and a sample rack detail area for displaying test profile information for a sample in the sample rack. Optionally, the sample rack detail area may be fixedly displayed, and if the user does not select the target sample rack, the display content of the area is empty; or the sample rack detail area has two states of unfolding and folding, if the user selects the target sample rack, the area is unfolded and displayed, the area occupied by the rack state interface is correspondingly reduced in the sample rack state area, and if the user does not select the target sample rack or trigger the hidden control, the sample rack detail area can be folded, and the area occupied by the rack state interface is correspondingly enlarged in the sample rack state area. For the sample related information, the summary of the detection displayed on the rack status interface can be simplified relative to the summary of the detection displayed on the sample detection result interface, so as to simplify the display content of the rack status interface.

See fig. 5, which shows an exemplary view of a shelf status interface for a biochemical immunoassay. After the shelf status tab in the main display interface is selected, a shelf status interface is obtained, and the interface comprises a sample shelf status area 501 and a sample shelf detail area 502. The sample rack status area 501 displays two recovery areas, each including a plurality of sample racks, each containing icons of a plurality of samples (the circle icon represents one sample). Different display styles of the icons represent different states of the samples, such as an open circle with a white color line representing an idle state, an open circle with a red color line representing an emergency, a circle filled with red color representing an incomplete state, and so on. Assuming that the user selects the sample rack numbered N0002 in the collection area 1 in the sample rack status area 501, a selection box surrounding the sample rack is displayed, and the prompt text "sample rack 1 selected" indicating that the number of sample racks has been selected is displayed. Accordingly, the sample rack details area 502 displays a summary of the testing of each sample in the sample rack, including the sample rack number, serial number, sample ID, patient ID, and patient name, among others.

The second step is touch operation: in at least one sample displayed on the rack status interface, a user may select a sample by clicking or the like, so that the display device displays the summary of the detection result of at least one item of the sample. For ease of description, the user-selected sample may be referred to as a target sample. In one embodiment, the shelf status interface may include an item detail area, and the display device may display the summary of the detection result of the at least one item directly on the shelf status interface without switching the interface, thereby minimizing the interface switching process and improving the display efficiency. The detailed display mode of the item detail area can be referred to the description of the sample rack detail area, and is not described herein.

In another specific implementation manner, in response to a trigger operation of selecting a target sample by a user, the display device may switch the rack state interface to a sample detection result interface, and display a detection result summary of at least one item of the sample on the sample detection result interface. Taking fig. 5 as an example, when the user selects the sample with the number 3 in the sample rack detail area 502, the display device may switch the rack status interface shown in fig. 5 to the sample test result interface shown in fig. 4B, display the summary of the test result of the sample with the number 3 in the sample list area 401 of the sample test result interface, and display the summary of the test result of each item of the sample in the item list area 402. The test result summary has a corresponding result detail label. It should be noted that, there are many ways for the user to select the target sample to enter the sample test result interface. In an embodiment, similarly to the sample detection result interface, the rack status interface may set a result detail label for each sample displayed in the sample rack detail area, and after the user clicks the result detail label of the target sample to enter the sample detection result interface, the sample detection result interface only displays the detection result information of the target sample; in another embodiment, the user may select multiple target samples at a time, and taking fig. 5 as an example, the user may select multiple samples as target samples through check boxes in the sample detail area 502, so that the switched sample detection result interface may display detection result information of the multiple target samples. In yet another embodiment, after the user selects a target sample from at least one sample in the sample rack, the switched sample test result interface may display the test result information of all samples in the sample rack, but perform a distinguishing prompt for the target sample, such as highlighting the display style of the target sample. Therefore, the operation of selecting the target sample in the sample rack detail area by the user has at least two operation meanings, namely, the sample detection result interface only displays the related information of the target sample, and the sample detection result interface distinctively prompts the related information of the target sample.

The third step of touch operation: and the user triggers (such as clicks) the result detail label of the target item in the at least one item to control the display device to be switched into an item result detail interface so as to display the result detail information associated with the item. For the description of the touch operation, reference may be made to the above description of entering the item result detail interface from the sample detection result interface, which is not described herein again.

According to the technical scheme, the sample analyzer provided by the embodiment of the application can display the sample information of the rack state based on the rack state information, the item overview information of the sample based on the sample information and the result detail information of the item based on the item overview information in sequence based on the three-step triggering operation of the user. The progressive display mode accords with the user looking up habit, the operation mode is simple and convenient, and the user experience is better.

The embodiment of the application also provides a sample analyzer, wherein a user executes at least five-step triggering operation on the sample analyzer, and can switch from a rack state interface to a project result detail interface. Specifically, the sample analyzer is based on the structure shown in fig. 1A and 1B, and the control device 300 is further configured to control the display device to display a rack status interface, where the rack status interface is configured to display information of a detection result of a sample in at least one sample rack; responding to the selection operation of a user on a target sample rack in the at least one sample rack and the clicking operation of a release position button, and displaying the detection profile of the at least one sample of the target sample rack on a rack state interface; in response to the user's selection operation of the target sample in the at least one sample of the target sample rack and the trigger operation of the result positioning key, displaying a detection result profile of the at least one item of the target sample (for example, controlling the display device to switch from the rack state interface to a sample detection result interface, where the sample detection result interface is used for displaying the detection result profile of the at least one item of the target sample); and responding to a triggering operation (such as a clicking operation on a result detail label of the target item) of a target item in at least one item of the target sample by a user, and controlling the display device to be switched from the sample detection result interface to an item result detail interface, wherein the item result detail interface displays result detail information associated with the target item.

Specifically, the control device 300 may display the rack status interface, and unlike the previous embodiment, the rack status interface may be preset to a locked state in which the user's trigger operation is an invalid operation to prevent the user from performing a wrong operation on the rack status interface, so that the interface display is safer and more stable. Accordingly, the shelf status interface may provide controls, such as a release position button, for unlocking the status of the interface to change the shelf status interface from a locked state to an activated state.

A first step of triggering operation and a second step of triggering operation: after the user selects the target sample rack on the rack state interface, the user needs to further click the release position key, and the detection summary of the sample of the target sample rack is displayed on the rack state interface in response to the two-step triggering operation. As shown in fig. 5, the shelf status interface may include a key area 503, which specifically includes keys for releasing position, positioning result, and the like. After the user selects the sample rack with the number N0002 in the sample rack status area 501, the release position key is changed from the unavailable state to the available state, and after the user clicks the release position key, the sample rack detail area 502 displays the summary of the detection of at least one sample in the sample rack. The mode of activating the rack state interface is not limited to clicking the position release button, and other touch modes can be provided, such as hovering the rack in a certain row for a preset time length, and the like.

A third step of triggering operation and a fourth step of triggering operation: after the user selects the target sample, the user needs to further click the result positioning key to switch the display device from the rack state interface to the sample detection result interface. Obviously, the result positioning key is also a control key set for preventing the user from misoperation, and after the two trigger operations executed by the user are detected, the user is determined to have the requirement of skipping the interface to view more detailed information and then switch to the sample detection result interface. Taking fig. 5 as an example for explanation, after the user selects a target sample in the sample rack detail area 502, the result positioning key in the key area 503 is changed from the unavailable state to the available state, and the user may further click the result positioning key to implement interface switching.

And a fifth step of triggering operation: and clicking the result detail label of the target item in at least one item in the sample detection result interface by the user, and controlling the display device to switch from the sample detection result interface to the item result detail interface. The description of the operation of this step can refer to the related description above, and is not repeated here.

According to the technical scheme, the rack state interface can be preset to be in a locking state by the sample analyzer, after the user selects the target sample rack and the target sample, one more step of triggering operation needs to be executed respectively to confirm whether the page information display or page switching process meets the user expectation, so that the interface operation mode is safer, and the interface display is more stable.

In practical applications, there may be a case where the number of samples detected by the sample analyzer at one time in different detection scenes may be different, so that the number of samples included in the detection interface displayed by the display device is different. In different detection scenes, the focus attention content of the user to the sample detection information may be different, so that a detection interface capable of reflecting scene characteristics can be displayed for different detection scenes, the user can conveniently position and view the focus attention content, and the interface reading experience of the user in different detection scenes is improved.

For convenience of understanding, the following description will be given by taking the rack state interface under the blood coagulation detection subject as an example, and it should be noted that the rack state interface under other detection subjects, such as the biochemical immunoassay subject, can be set by reference in the same manner.

The detection scene may also be referred to as a detection mode for reflecting the number of detected samples, and thus may be specifically referred to as a detection mode related to the number of samples. It will be appreciated that samples are typically loaded into the tube containers and placed in sample racks, and one or more sample racks are fed as a batch into the analyzer body for testing. Thus, the detection mode may comprise a multi-sample mode in which the number of detected sample racks is below a first preset number threshold and a low-sample mode in which the number of sample racks is above a second preset number threshold. It should be noted that the first preset number threshold and the second preset number threshold may be the same or different, and are specifically set according to actual detection requirements, and if the two values are different, the second preset number threshold is greater than the first preset number threshold. In other particular cases, the above-mentioned higher and lower may include equal cases.

When the control device controls the display device to display the rack state interface of the sample rack, the method can be specifically realized as follows: and determining the detection mode of at least one analyzer body, and controlling a display device to display a rack state interface corresponding to the detection mode. The rack state interfaces corresponding to different detection modes emphasize different reflected information, for example, in a multi-sample mode, the number of samples is more concerned about the overall situation of the sample detection result than that of multiple users, and the rack state interfaces corresponding to the detection modes can emphasize the overall sample detection result; in the less-sample mode, the user with less samples pays more attention to the detection result of a single sample, and the frame state interface corresponding to the detection mode can highlight the detection result of the single sample. Different viewing requirements of users are met by displaying different styles of shelf state interfaces according to different detection scenes.

For ease of understanding, a specific implementation of the detection mode will be described first. It is understood that the sample analyzer may include one or more analyzer bodies. If the analyzer body is one, the number of the sample racks detected by the sample analyzer can be considered to be small, and if the analyzer body is multiple, the number of the sample racks detected by the sample analyzer body can be considered to be large. Based on this, when the control device determines the detection mode of the at least one analyzer body, it may be specifically implemented as: if the number of the analyzer bodies in communication connection with the control device is one, determining that the detection mode of at least one analyzer body is a few-sample mode; and if a plurality of analyzer bodies are in communication connection with the control device, determining that the detection mode of at least one analyzer body is a multi-sample mode. In a specific implementation manner, the control device may integrate two detection modes, and then execute a determination step before displaying the rack status interface, that is, determine whether the number of the analyzer bodies in communication connection with the control device is one or more, and then determine the overall detection mode of at least one analyzer body according to the determination result. In the above embodiment, the small sample mode may be referred to as a single-sample mode, and the multi-sample mode may be referred to as an on-line mode, where the on-line mode indicates that a plurality of analyzer bodies collectively perform detection on a batch of sample racks.

In the above implementation, the number of analyzer bodies is a main consideration for determining the detection mode, and the detection mode of the sample analyzer may be determined in other manners. For example, whether the sample analyzer includes one or more analyzer bodies, the number of sample racks may be determined by sensor detection or user input, and the detection mode may be determined as a multiple-sample mode or a few-sample mode according to a preset number threshold.

In a specific implementation manner, the rack status interface includes at least one rack drawer area, the rack drawer area is used for displaying the detection status icons of the samples of the same sample rack, and the display styles of the detection status icons of the samples are different when the detection statuses of the samples are different. For example, referring to two different rack status interface diagrams shown in fig. 6A and 6B, fig. 6A is an example of a rack status interface corresponding to the low sample mode, which includes a smaller number of rack drawer areas indicating that the number of sample racks to be tested is smaller, and the test status icons of the samples in the rack drawer areas are test tube front view type icons to emphasize the respective test condition of each sample; fig. 6B is an example of a rack state interface corresponding to the multi-sample mode, where the rack drawer areas include a larger number of rack drawer areas, which indicates that the number of sample racks to be detected is larger, and the detection state icons of the samples in the rack drawer areas are icons in the test tube top view style, so as to reflect the overall detection condition of the sample racks, and a user can more conveniently analyze the number of samples in each detection state or the ratio of the number of samples, thereby easily obtaining the overall analysis result.

It can be understood that the icons in the test tube top view style are circular, and the display area occupied by the icons in the strip-shaped test tube front view style is smaller, so that the rack state interface in the multi-sample mode can accommodate more sample racks in the relatively-few-sample mode, but the icons in the test tube front view style are intuitive and easy to read, and the requirement of a user for paying attention to a single sample can be met.

In addition, the user also has a requirement for checking the detection state of a single sample in the low-sample mode, and therefore the embodiment of the application also provides the sample analyzer, the control device of which can be used for responding to the selection operation of the user on the detection state icon of the target sample in the rack state interface corresponding to the low-sample mode, displaying the detection state icon of the target sample in a mode with a prompt effect, and displaying the sample state information of the target sample. It should be noted that the target sample may be any sample in the rack status interface.

The description will be made with reference to fig. 6A and 7A. As shown in fig. 7A, the user may click the detection state icon of sample No. 3 in the sample rack numbered 17 in the rack state interface shown in fig. 6A, the control device responds to the selection operation to move the position of the detection state icon of the sample upward, so as to prompt the user that the sample is selected, and as shown in fig. 6A, the sample state information "selected" of the sample is displayed in the lower left corner of the rack state interface: n017_3 sample number: 0133832 results abnormal ". Further, as shown in fig. 7A, the user clicks the detection state icon of the sample moved up again, the control device clears the prompt effect pattern to restore the display pattern of the detection state icon, and deletes the sample state information of the sample. It should be noted that the display style in the drawings is only for illustration and does not limit the present application. For example, a user may select a sample that may be in an abnormal state, and may select a sample in another state; the pattern of the prompt effect can be position shift, or frame selection, background color addition, highlight and the like; the sample state information may be displayed at other positions on the rack state interface or may be displayed in a pop-up manner such as a pop-up bubble.

By the method, a user can conveniently and directly check the detection result of a single sample, the user can conveniently locate and search the checked sample in the sample rack, and particularly, secondary rechecking or processing of an abnormal sample is convenient and quick.

Of course, in the rack status interface corresponding to the less-sample mode, the user may also select the entire sample rack for result viewing. As shown in fig. 7B, if the user clicks the number N017 of the sample rack, a check mark is displayed in the sample rack number selection box in the rack drawer area to indicate that the sample rack is selected, and meanwhile, as shown in fig. 7C, a sample rack detail area 702 is displayed on the right side of the sample rack state area 701 in the rack state interface, and a summary of detection of each sample in the sample rack, such as a sample rack number, a serial number, a sample number, completion time, and the like, is displayed in the sample rack detail area 702. As shown in fig. 7B, after the user clicks the number N017 of the sample rack again or selects another sample rack number, the control device clears the selection pattern of the sample rack numbered N017 to restore the display state of the sample rack.

In a multi-sample detection scene, a user pays attention to the detection result of the whole sample rack, so that the whole sample rack in a certain rack drawer area can be selected for checking.

As shown in the rightmost diagram in fig. 8A, after the user clicks the sample rack with the selection number N0002, the display style of the rack drawer region corresponding to the sample rack is changed to the style shown in the leftmost diagram, that is, the background color is added to the rack drawer region to prompt the user that the sample rack is in the selection state, and as shown in fig. 8B, the right side of the rack state interface displays the sample rack detail region, such as the sample rack number, the serial number, the sample number, the completion time, and the like, and the specific implementation manner of the display process may refer to the description of the related embodiment of fig. 5, which is not repeated here. It should be noted that the display patterns in the drawings are merely examples and do not limit the present application. With continued reference to the middle diagram of fig. 8A, when the user wants to deselect a sample rack, a click operation may be performed on the sample rack in the selected state, and the background color added to the rack drawer region is cleared to restore the display style of the sample rack shown in the rightmost diagram.

With respect to any of the sample rack detail sections in the rack status interface, it should be noted that the sample rack detail section may be a drawer section pushed out from the rack status interface, or may be a section divided from the rack status interface as the sample rack detail section. As shown in fig. 8B, a separator bar may also be generated between the sample rack detail region 801 and the sample rack status region 802, which may be dragged. Under the condition that the two areas are distributed left and right, the areas of the sample rack detail area and the sample rack state area are reduced or enlarged based on left and right dragging operation of a user. It can be understood that if the two areas are distributed up and down, the areas of the sample rack detail area and the sample rack status area can also be reduced or enlarged adaptively based on the up-and-down dragging operation of the user.

In one specific implementation, as can be seen from a comparison between fig. 6B and fig. 8B, when the rack status interface displays the sample rack detail area 802, the area of the sample rack status area 801 may be adaptively reduced, and a portion of the rack drawer area included therein may be changed to a hidden state. As shown in fig. 8B, a scroll view control, such as a horizontal scroll bar within the sample rack status area 801, may be generated in the sample rack status area 801 and may show the rack drawer area hidden when the user drags the scroll view control.

In practical application, if the sample in the sample rack which completes one detection needs to be retested, if abnormal samples are retested and confirmed, the sample rack can be unloaded and then put into the analyzer body again for detection, and at this time, the display content of the rack state interface can be updated. To accomplish this, the rack status interface includes an unload rack control, as shown in fig. 6A, 6B, 7C, and 8B, and the lower left corner of the rack status interface includes an unload rack button. The user may select a sample rack and then touch the unload tube rack button, or touch the unload tube rack button and then select a sample rack, and for convenience of description, the sample rack selected by the user may be referred to as a target sample rack. And the control device responds to the selection operation of the user on the target sample rack in the rack state interface and the touch operation on the unloading rack control, deletes the detection state icon of the sample of the target sample rack and clears the displayed detection general profile of the target sample rack. In another implementation manner, the sample analyzer further includes an unloading mechanism, and in response to a selection operation of a user on the target sample rack and a touch operation on the unloading rack control, the control device may further send an unloading instruction to the unloading mechanism corresponding to the target sample rack to instruct the unloading mechanism to unload the target sample rack to the designated area.

In order to avoid the user from feeling pause in visual viewing after the detection scenes are switched, the consistency of state detection icons under the same condition under different detection scenes can be ensured as much as possible. For example, the detection status icons of the samples displayed in the detail area of the sample rack in the multiple-sample mode in fig. 8B are the same as the detection status icons of the samples in the few-sample mode, and are all icons in the form of test tube front views.

It should be noted that, the rack status interface for the coagulopathy department may refer to a rack status interface related to a biochemical and immunological subject, and in response to a selection operation of a user on a sample or a sample rack in the rack status interface, the control device controls the display device to switch from the rack status interface to the item result detail interface, and the related switching manner may refer to the above related description, which is not described herein again. Only the process of switching from the rack status interface corresponding to the low-sample mode to the project result detail interface will be described below.

In one embodiment, the switching from the shelf status interface to the project results detail interface may be performed in a two-step operation. For example, in the rack status interface corresponding to the less-sample mode, a user may select a detection status icon of a certain sample (for convenience of description, may be referred to as a target sample) in the rack status interface, and the control device controls the display device to switch from the rack status interface to the sample detection result interface in response to the selection operation, where reference may be made to the above description for the sample detection result interface, which is not repeated herein.

It should be noted that, the selection operation on the target sample may also trigger the rack status interface to perform other operations, for example, in response to the operation of selecting the target sample by the user, the rack status interface may also highlight the related information of the target sample as shown in fig. 6A, for example, emphasizing a detection status icon highlighting the target sample and displaying the sample status information at the lower left corner, but not performing an interface switching operation. For ease of distinction, the two operation types may be referred to as a first type of selection operation and a second type of selection operation, respectively. Of course, single click and double click are only exemplary illustrations, and other different selection operation types can be set according to application requirements in practical application.

In another implementation, the trigger conditions of the two processing schemes may be distinguished in other ways. Specifically, the rack state interface may include a control for jumping to the sample detection result interface, such as a sample check button, after the user selects a detection state icon of the target sample on the rack state interface, the relevant information of the target sample may be highlighted on the rack state interface, and after the user further triggers the jump control, the rack state interface is switched to the sample detection result interface. By the switching mode, before the user checks the details of the detection result of the target sample, the user can also know the general view of the detection state of the sample, and the searched information content is richer.

After the rack state interface is switched to the sample detection result interface, the sample detection result interface can display the detection result overview of at least one item of the target sample, and the user can further select a certain item to be viewed on the sample detection result interface to view the detection result details of the item. For ease of description, this item may be referred to as a target item. The control device responds to the triggering operation of a user on a result detail label of a target item in at least one item of the target sample, and controls the display device to be switched from the sample detection result interface to the item result detail interface; and the project result detail interface displays result detail information associated with the target project. For the switching process, reference may be made to the related description in the above embodiments, which is not described herein again.

In addition, the embodiment of the application also provides a sample analyzer, which comprises an analyzer body, a display device and a control device. For the description of the analyzer body and the display device, reference may be made to the description of fig. 1A and 1B, which are not repeated herein, and only the control device is described in detail below.

The control device is used for controlling the display device to display a sample detection result interface of the sample or a rack state interface of the sample rack; under the condition that the display device displays the sample detection result interface, responding to the trigger operation of a user on the sample detection result interface, and controlling the display device to switch from the sample detection result interface to the project result detail interface; under the condition that the display device displays the rack state interface, responding to the triggering operation of a user on the rack state interface, and controlling the display device to be switched from the rack state interface to the project result detail interface; the project result detail interface comprises result detail information obtained based on the detection information of the project, and the result detail information comprises at least one item of detection result description, alarm information, a response curve and detection result tracing information.

For the description of the sample detection result interface and the rack status interface, reference may be made to the related description in the above embodiments, and further description is omitted here. The sample detection result interface and the rack state interface displayed by the sample analyzer may both be used as switching entries, and on one hand, a user may perform a trigger operation on the sample detection result interface to enter the item result detail interface, and on the other hand, a user may also perform a trigger operation on the rack state interface to enter the item result detail interface. Therefore, the sample analyzer can provide a multi-inlet entry project result detail interface, the switching mode of the project result detail interface is flexible, and different requirements of a user for entering the project result detail interface in the sample detection result interface and the rack state interface can be met.

In the above description of the disclosed embodiments, features described in various embodiments in this specification can be substituted for or combined with each other to enable those skilled in the art to make or use the present application. Reference is made herein to various exemplary embodiments. However, those skilled in the art will recognize that changes and modifications may be made to the exemplary embodiments without departing from the scope hereof. For example, the various operational steps, as well as the components used to perform the operational steps, may be implemented in differing ways depending upon the particular application or consideration of any number of cost functions associated with operation of the system (e.g., one or more steps may be deleted, modified or incorporated into other steps).

The terms "first," "second," and the like in the description and claims herein and in the above-described drawings are used for distinguishing between different objects and not necessarily for describing a particular sequential order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements but may alternatively include other steps or elements not expressly listed or inherent to such process, method, or apparatus.

Additionally, as will be appreciated by one skilled in the art, the principles herein may be reflected in a computer program product on a computer readable storage medium, which is pre-loaded with computer readable program code. Any tangible, non-transitory computer-readable storage medium may be used, including magnetic storage devices (hard disks, floppy disks, etc.), optical storage devices (CD-ROMs, DVDs, blu Ray disks, etc.), flash memory, and/or the like. These computer program instructions may be loaded onto a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions which execute on the computer or other programmable data processing apparatus create means for implementing the functions specified. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including means for implementing the function specified. The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified.

The foregoing detailed description has been described with reference to various embodiments. However, one of ordinary skill in the art would recognize that various modifications and changes can be made without departing from the scope of the present disclosure. Accordingly, the disclosure is to be considered in all respects as illustrative and not restrictive, and all such modifications are intended to be included within the scope thereof. Also, advantages, other advantages, and solutions to problems have been described above with regard to various embodiments. However, the benefits, advantages, solutions to problems, and any element(s) that may cause any element(s) to occur or become more pronounced are not to be construed as a critical, required, or essential feature or element of any or all the claims. As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, system, article, or apparatus. Furthermore, the term "coupled," and any other variation thereof, as used herein, refers to a physical connection, an electrical connection, a magnetic connection, an optical connection, a communicative connection, a functional connection, and/or any other connection.

The above examples only show some embodiments, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (27)

1. A sample analyzer, comprising:

the analyzer body is used for preparing reaction liquid of at least one sample, and detecting at least one item of the reaction liquid of the sample to obtain detection information of the item;

a display device;

the control device is respectively in communication connection with the display device and the at least one analyzer body, and is configured to control the display device to display an item result detail interface, wherein the item result detail interface contains result detail information obtained based on detection information of the item, and the result detail information comprises detection result description and alarm information.

2. The sample analyzer of claim 1 wherein the result detail information further comprises a reaction curve and/or assay result traceability information.

3. The sample analyzer of claim 1,

the detection result description comprises a result mark and a mark description of an abnormal detection result;

the alarm information comprises at least one of an alarm number, an alarm title, an alarm solution method and a skip label associated to an alarm detail interface;

the reaction curve comprises a trend curve view and/or a trend data view;

the detection result tracing information comprises calibration tracing information and/or detection tracing information, wherein the calibration tracing information comprises at least one item of calibration time, a name of a calibrator and a number of a reagent batch bottle for calibration, and the detection tracing information comprises at least one item of item related information of a reagent batch bottle number, a reaction cup, a stirring rod, a sample needle, a reagent taking serial number of a reagent bottle and a previous item reaction liquid.

4. The sample analyzer of claim 1,

the control device is further used for controlling the display device to display a sample detection result interface of the at least one sample, wherein the sample detection result interface comprises a result mark of an abnormal detection result; and responding to the triggering operation of the user on the result mark, and popping up a suspension control, wherein the suspension control comprises the mark description of the result mark and/or the processing mode of the abnormal detection result.

5. The sample analyzer of claim 4, wherein the item result detail interface includes a return button associated to the sample test result interface;

the control device is also used for responding to the triggering operation of the user on the return key and controlling the display device to switch from the interface for displaying the item result details to the interface for displaying the sample detection result.

6. The sample analyzer of claim 1, wherein the project result detail interface includes a jump tag associated to a calibration curve viewing interface;

the control device is also used for responding to the triggering operation of the user on the jump label and controlling the display device to be switched from the project result detail interface to the calibration curve viewing interface.

7. The sample analyzer of claim 1, wherein the item result detail interface contains test details for at least one item of the sample, the test details being derived based on the test information;

the control device is further used for responding to the operation of switching from a first item to a second item in the at least one item by a user, and controlling the item result detail interface to be switched from result detail information comprising the first item to result detail information comprising the second item.

8. The sample analyzer of claim 1 wherein the alert information of the project result detail interface has a corresponding alert process button;

the control device is also used for responding to the triggering operation of the user on the alarm processing key and executing the alarm processing flow associated with the alarm processing key.

9. The sample analyzer of claim 1,

the control device is further used for controlling the display device to display a sample detection result interface of the at least one sample; and controlling the display device to switch from the sample detection result interface to the item result detail interface in response to one-step triggering operation or two-step triggering operation of the user on the sample detection result interface.

10. The sample analyzer of claim 9, wherein the sample test result interface is configured to display a test result profile of the at least one sample;

the control device is specifically configured to:

responding to the selection operation of a user on a target sample in the at least one sample, and displaying a detection result profile of at least one item of the target sample;

responding to the triggering operation of a user on a target item in the at least one item, and controlling the display device to switch from the sample detection result interface to the item result detail interface; and the project result detail interface displays result detail information associated with the target project.

11. The sample analyzer of claim 1, wherein the at least one sample is placed in at least one sample holder;

the control device is also used for controlling the display device to display a rack state interface of the sample rack; and responding to one-step triggering operation or two-step triggering operation or three-step triggering operation of the frame status interface by a user, and controlling the display device to be switched from the frame status interface to the project result detail interface.

12. The sample analyzer of claim 11, wherein the rack status interface is configured to display information about the results of the testing of the samples in the at least one sample rack;

the control device is specifically configured to:

displaying a detection profile of at least one sample of the at least one sample rack in response to a user selection operation on a target sample rack of the at least one sample rack;

responding to the selection operation of a user on a target sample in at least one sample of the target sample rack, and displaying a detection result profile of at least one item of the target sample;

responding to the triggering operation of a user on a target item in the at least one item, and controlling the display device to switch to the item result detail interface; and the project result detail interface displays the result detail information associated with the target project.

13. The sample analyzer of claim 1, wherein the at least one sample is placed in at least one sample holder;

the control device is further configured to: controlling the display device to display a rack state interface of the sample rack, wherein the rack state interface is used for displaying detection result information of samples in at least one sample rack, and comprises a release position key and a result positioning key;

responding to the selection operation of a user on a target sample rack in the at least one sample rack and the triggering operation of the release position key, and displaying a detection profile of at least one sample of the target sample rack on the rack state interface;

responding to the selection operation of a user on a target sample in at least one sample of the target sample rack and the trigger operation of the result positioning key, and displaying a detection result profile of at least one item of the target sample;

responding to the triggering operation of a user on a target item in at least one item of the target sample, and controlling the display device to be switched to the item result detail interface; and the project result detail interface displays the result detail information associated with the target project.

14. The sample analyzer of any of claims 11 to 13 wherein the rack status interface contains a test status icon for each type of sample and descriptive information for the test status icon.

15. The sample analyzer of any of claims 11 to 13, wherein the control device controls the display device to display a rack status interface of the sample rack, comprising:

the control device is specifically configured to determine a detection mode of the at least one analyzer body, and control the display device to display a rack status interface corresponding to the detection mode.

16. The sample analyzer of claim 15, wherein the rack status interface comprises at least one rack drawer area for displaying a test status icon for each sample of the same sample rack;

the detection mode comprises a few sample mode or a multiple sample mode; wherein the number of sample racks detected by the at least one analyzer body in the low-sample mode is lower than a first preset number threshold, and the number of sample racks detected by the at least one analyzer body in the multi-sample mode is higher than a second preset number threshold;

wherein: in the rack state interface corresponding to the less-sample mode, the detection state icon of the sample in the rack drawer area is an icon of a test tube front view style; in the rack state interface corresponding to the multi-sample mode, the detection state icons of the samples in the rack drawer area are test tube top view type icons.

17. The sample analyzer of claim 16,

the control device is further used for responding to the first type of selection operation of a user on the detection state icon of the target sample in the rack state interface corresponding to the low-sample mode, displaying the detection state icon of the target sample in a mode with a prompt effect, and displaying the sample state information of the target sample.

18. The sample analyzer of claim 16,

the control device is specifically configured to, in the rack status interface corresponding to the low-sample mode, respond to a second type of selection operation of a user on a detection status icon of a target sample in the rack status interface, and control the display device to display a detection result overview of at least one item of the target sample;

responding to the triggering operation of a user on a target item in at least one item of the target sample, and controlling the display device to be switched to the item result detail interface; and the project result detail interface displays result detail information associated with the target project.

19. The sample analyzer of claim 16,

the control device is further configured to, in the rack status interface corresponding to the multiple-sample mode, respond to a selection operation of a user on a rack drawer area in the rack status interface, and display a detection profile of a sample rack corresponding to the rack drawer area.

20. The sample analyzer of claim 16 wherein the rack status interface includes an unloading rack control;

and the control device is also used for responding to the selection operation of a user on a target rack drawer area in the rack state interface and the touch operation on the unloading pipe rack control, deleting the target rack drawer area and clearing the displayed detection general situation of the sample rack corresponding to the target rack drawer area.

21. The sample analyzer of claim 15 wherein the control means determining the detection mode of the at least one analyzer body comprises:

the control device is specifically configured to determine that the detection mode of the at least one analyzer body is the low-sample mode if one analyzer body is communicatively connected to the control device;

and if the number of the analyzer bodies which are in communication connection with the control device is multiple, determining that the detection mode of the at least one analyzer body is a multi-sample mode.

22. A sample analyzer, comprising:

the analyzer body is used for preparing reaction liquid of a sample placed in a sample rack, and detecting at least one item of the reaction liquid of the sample to obtain detection information of the item;

a display device;

the control device is used for controlling the display device to display a sample detection result interface of the sample or a rack state interface of the sample rack; and (c) a second step of,

under the condition that the display device displays the sample detection result interface, responding to the trigger operation of a user on the sample detection result interface, and controlling the display device to be switched from the sample detection result interface to an item result detail interface;

under the condition that the display device displays the rack state interface, responding to the triggering operation of a user on the rack state interface, and controlling the display device to be switched from the rack state interface to an item result detail interface;

the project result detail interface comprises result detail information obtained based on the detection information of the project, and the result detail information comprises at least two items of detection result description, alarm information, a response curve and detection result tracing information.

23. A sample analyzer, comprising:

the analyzer body is used for preparing reaction liquid for a sample in at least one test tube carried by at least one sample rack and detecting the reaction liquid of the sample;

a display device;

a control device in communication connection with the display device and the at least one analyzer body, respectively, the control device being configured to determine a detection mode of the at least one analyzer body and control the display device to display a rack status interface of the at least one sample rack corresponding to the detection mode;

wherein the detection pattern comprises a few sample pattern or a multiple sample pattern; the number of sample racks detected by the at least one analyzer body in the low-sample mode is lower than a first preset number threshold, and the number of sample racks detected by the at least one analyzer body in the multi-sample mode is higher than a second preset number threshold;

in the rack state interface corresponding to the less-sample mode, the detection state icon of the sample is an icon of a test tube front view style; in the rack state interface corresponding to the multi-sample mode, the detection state icon of the sample is an icon of a test tube top view pattern.

24. The sample analyzer of claim 23, wherein the rack status interface includes an off-load rack control;

the control device is further used for responding to the selection operation of a user on a target sample rack in the rack state interface and the touch operation of the unloading rack control, deleting the detection state icon of the sample of the target sample rack and clearing the displayed detection general profile of the target sample rack.

25. The sample analyzer of claim 23,

and the control device is also used for responding to the selection operation of a user on the detection state icon of the target sample in the rack state interface corresponding to the less-sample mode, displaying the detection state icon of the target sample in a mode with a prompt effect, and displaying the sample state information of the target sample.

26. The sample analyzer of claim 22,

the control device is further configured to, in a rack status interface corresponding to the multi-sample mode, respond to a selection operation of a user on a target sample rack in the rack status interface, and display a detection profile of the target sample rack.

27. The sample analyzer of claim 23, wherein, in performing the step of determining the detection mode of the at least one analyzer body, the control device is specifically configured to:

if the number of the analyzer bodies in communication connection with the control device is one, determining that the detection mode of the at least one analyzer body is a few-sample mode;

and if the number of the analyzer bodies which are in communication connection with the control device is multiple, determining that the detection mode of the at least one analyzer body is a multi-sample mode.

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