CN114544990A - Sample analyzer, sample analysis system and test information display method - Google Patents

Abstract

The embodiment of the application discloses a sample analyzer, a sample analysis system and a test information display method, which are used for improving the intuitiveness and convenience of a user for checking the relevant test information of the sample analyzer. The method in the embodiment of the application comprises the following steps: the method comprises the steps of obtaining relevant test information of a sample analyzer, controlling a display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area on the left side of the system display interface, and the display detail area is arranged in a third area on the lower side of the status bar area and on the right side of the navigation bar area.

Description

Sample analyzer, sample analysis system and test information display method

Technical Field

The present application relates to the field of medical technology, and in particular, to a sample analyzer, a sample analysis system, and a test information display method.

Background

A sample analyzer is a device for measuring chemical components or physical characteristics of a sample, and the sample analyzer often generates a large amount of test data when testing the sample.

In the prior art, when the test data of the sample analyzer is displayed, various test data are generally displayed dispersedly and disorderly, so that a user is difficult to find the test data required by the user, or more redundant operations are required to be executed when the test data is found, and the user experience is poor.

Disclosure of Invention

The embodiment of the application provides a sample analyzer, a sample analysis system and a test information display method, which are used for displaying relevant test information of the sample analyzer in a system display interface comprising a status bar area, a navigation bar area and a display detail area, so that the intuitiveness and the convenience of a user for checking the relevant test information of the sample analyzer are improved.

A first aspect of embodiments of the present application provides a sample analyzer, including:

a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking the sample from the sample container and dispensing the sample into the reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

a display;

the control component is used for acquiring related test information of the sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

Preferably, the control means is specifically configured to:

and when the system display interface is controlled to execute a page switching instruction, the positions of the status bar area and the navigation bar area in the system display interface are kept unchanged.

Preferably, the overall test status information of the sample analyzer includes: at least one of operation state information of the sample analyzer, alarm prompt information of the sample analyzer, and test progress information in the sample analyzer.

Preferably, the test progress information of the sample analyzer includes:

the test progress information of all samples in the sample analyzer, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency treatment samples.

Preferably, the test progress information of all samples in the sample analyzer, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency sample are displayed in a drop-down list in the status bar area.

Preferably, the running state information and the alarm prompt information of the sample analyzer are displayed in the status bar area in the form of icon controls.

Preferably, the operation state detail information of the sample analyzer is displayed in the display detail area in response to an operation instruction of an icon control corresponding to the operation state information of the sample analyzer.

Preferably, the icon control corresponding to the prompt information is used for prompting the system abnormal number of the sample analyzer, and the icon control corresponding to the alarm information is used for displaying the alarm number of the sample analyzer.

Preferably, the service scenario information of the sample analyzer includes: at least one of a sample service, a reagent service, a calibration service, a quality control service, a system service, and a setup service.

Preferably, the sample service, the reagent service, the calibration service, the quality control service, the system service and the setting service are respectively displayed in the navigation bar area in the form of a sample control, a reagent control, a calibration control, a quality control, a system control and a setting control.

Preferably, the test detail information associated with each service scenario information includes: at least one of test detail information respectively associated with sample information, reagent information, calibration information, quality control information, system information, and setting information of the sample analyzer.

Preferably, in response to an operation instruction for the sample control, the reagent control, the calibration control, the quality control, the system control, or the setting control, the test detail information associated with the sample information, the reagent information, the calibration information, the quality control information, the system information, or the setting information is displayed in the display detail area.

A second aspect of embodiments of the present application provides a sample analysis system, including: a control component, a display, and a plurality of sample analyzers, wherein,

each sample analyzer includes:

a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking the sample from the sample container and dispensing the sample into the reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

and a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

the control component is used for acquiring relevant test information of each sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of each sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information associated with the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

A third aspect of the embodiments of the present application provides a test information display method for a sample analyzer, where the sample analyzer includes: a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking the sample from the sample container and dispensing the sample into the reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

the control unit and the display are characterized in that the test information display method comprises the following steps:

the method comprises the steps of obtaining relevant test information of the sample analyzer, and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area on the left side of the system display interface, and the display detail area is arranged in a third area on the lower side of the status bar area and on the right side of the navigation bar area.

According to the technical scheme, the embodiment of the application has the following advantages:

the embodiment of the application provides a sample analyzer, which comprises a sample device, a reagent device, a sample adding device, a reagent separate injection device, a detection device, a display and a control component, wherein the control component is used for acquiring relevant test information of the sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the overall test status information of the sample analyzer, the navigation bar area displays information of each service scenario, the display detail area displays test detail information associated with the overall test state information and the individual service scenario information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, the display detail area is arranged in a third area on the lower side of the status bar area and on the right side of the navigation bar area. Because the system display interface area of the sample analyzer is clearly divided in the embodiment, the test information of the sample analyzer is comprehensively displayed, and the intuitiveness and the convenience for a user to check the test information of the sample analyzer are improved.

Drawings

FIG. 1 is a schematic diagram of one configuration of a sample analyzer in an embodiment of the present application;

FIG. 2 is a schematic view of another embodiment of a sample analyzer according to the present application;

FIG. 3 is a schematic view of another embodiment of a sample analyzer according to the present application;

FIG. 4 is a schematic display diagram of a display interface of the system in an embodiment of the present application;

FIG. 5 is another schematic display diagram of a system display interface in an embodiment of the present application;

FIG. 6 is a schematic diagram illustrating a display of test progress information of a sample analyzer in a status bar area according to an embodiment of the present application;

FIG. 7 is a schematic diagram illustrating a display of each control in a navigation bar area according to an embodiment of the present application;

FIG. 8 is a schematic view of a display of test detail information associated with sample information of a sample analyzer in a display detail area according to an embodiment of the present application;

FIG. 9 is another schematic illustration of a display of test detail information associated with sample analyzer reagent information in a display detail section in an embodiment of the present application.

FIG. 10 is another schematic illustration of test detail information associated with sample analyzer control information in a display detail section in an embodiment of the present application;

FIG. 11 is another schematic illustration of a display of test detail information associated with sample analyzer calibration information in a display detail section in an embodiment of the present application;

FIG. 12 is another schematic illustration of a display of test detail information associated with sample analyzer system information in a display detail section in an embodiment of the present application;

FIG. 13 is another schematic view of a display of test detail information associated with sample analyzer setup information in a display detail section in an embodiment of the present application;

FIG. 14 is a schematic diagram of a sample analysis system according to an embodiment of the present application;

fig. 15 is a schematic diagram of an embodiment of a test information display method in the embodiment of the present application.

Detailed Description

The embodiment of the application provides a sample analyzer, a sample analysis system and a test information display method, which are used for displaying relevant test information of the sample analyzer in a system display interface comprising a status bar area, a navigation bar area and a display detail area, so that the intuitiveness and the convenience of a user for checking the relevant test information of the sample analyzer are improved.

In order to make the technical solutions better understood by those skilled in the art, 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 partial embodiments of the present application, but not all 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 shall fall within the protection scope of the present application.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Before describing the structure of the sample analyzer in detail, referring to fig. 1, the sample analyzer may include a sample device 10, a reagent device 20, a sample adding device 30, a reagent dispensing device 40, a detection device 50, and a control component 70.

In some embodiments, referring to fig. 2, the sample analyzer may further include a display 60. The following is a detailed description:

the Sample device 10 is used for carrying Sample containers loaded with samples, and referring to fig. 3, in some embodiments, the Sample device 10 may include a Sample Delivery Module (SDM) and a front end rail; in other examples, such as that shown in fig. 3, the sample device 10 may also be a sample tray, the sample tray includes a plurality of sample sites for placing sample tubes, and the sample tray can dispatch the samples to corresponding positions by rotating the tray structure, such as the position for the sample application device 30 to suck the samples. The sample adding device 30 is used for sucking the sample and discharging the sample into a reaction cup to be added with the sample. For example, the sample application device 30 may include a sample needle that is spatially moved in two or three dimensions by a two or three-dimensional driving mechanism, so that the sample needle can be moved to suck the sample carried by the sample device 10 and to a reaction cup to be applied with the sample and discharge the sample to the reaction cup.

The reagent device 20 is for carrying reagent containers loaded with reagents. In one embodiment, the reagent device 20 may be a reagent disk, which is configured in a disk-shaped structure and has a plurality of positions for holding reagent containers, and the reagent device 20 can rotate and drive the reagent containers held by the reagent device to rotate to a specific position, for example, a position for sucking reagent by the reagent dispensing device 40. The number of reagent devices 20 may be one or more. The reagent dispensing device 40 is used to aspirate and discharge a reagent into a reaction cuvette to which the reagent is to be added. In one embodiment, the reagent dispensing device 40 may include a reagent needle that performs a two-dimensional or three-dimensional motion in space by a two-dimensional or three-dimensional driving mechanism, so that the reagent needle may move to aspirate a reagent carried by the reagent device 20 and to a cuvette to be loaded with the reagent, and discharge the reagent to the cuvette.

The detecting device 50 is used for detecting the reaction cup loaded with the mixed solution of the sample and the reagent to obtain the test data. The detection device 50 may in some embodiments comprise an incubation device 51 and a photometric component 52. The incubation device 51 has at least one placing position for placing the cuvette and incubating the reaction solution in the cuvette. For example, the incubation device 51 may be a reaction tray, which is configured in a disc-shaped structure and has one or more placing positions for placing reaction cups, and the reaction tray can rotate and drive the reaction cups in the placing positions to rotate, so as to schedule the reaction cups in the reaction tray and incubate the reaction solution in the reaction cups. The photometric device 52 is used to perform photometric measurement on the reaction solution after completion of incubation, and to obtain reaction data of the sample. For example, the photodetector 52 detects the light emission intensity of the reaction solution to be measured, and calculates the concentration of the component to be measured in the sample from the calibration curve. In one embodiment, the photometric component 52 is separately disposed outside the incubation device 51.

The control part 70 includes at least: the device comprises a processing component, a communication interface, a memory and an I/O interface, wherein the processing component, the communication interface, the memory and the I/O interface are communicated through a bus, and the processing component can be a CPU, a GPU or other chips with operation capability. The communication interface is an interface that may be any communication protocol known at present. The communication interface communicates with the outside through a network. The control unit 70 may transmit data with any device connected through the network in a certain communication protocol through a communication interface.

The display 60 is described next, and the display 60 may be used to provide an operation interface and display information. In some embodiments, the sample analyzer itself may be integrated with a display, such as a Pad, touch display panel, or the like. In some embodiments, the sample analyzer may be coupled to a computer device (e.g., a computer) to provide an interface for manipulation and display of information via a display unit (e.g., a display screen) of the computer device, as defined and protected by the display 60 herein.

Referring to fig. 1, the sample analyzer of the present application will be described in detail below based on the embodiments illustrated in fig. 1 to 3, and with continued reference to fig. 1, an embodiment of the sample analyzer of the present application includes:

a sample device 10 for carrying a sample container loaded with a sample;

a reagent device 20 for carrying reagent containers loaded with reagents;

a sample adding device 30 for sucking a sample from the sample container and dispensing the sample into a reaction cup;

a reagent dispensing device 40 for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

a detecting unit 50 for detecting the cuvette loaded with a mixed solution of a sample and a reagent;

a display 60;

the control component 70 is configured to obtain test information related to the sample analyzer, and control the display to display a system display interface including a status bar area, a navigation bar area, and a display detail area, where the status bar area displays overall test status information of the sample analyzer, the navigation bar area displays information of each service scenario, the display detail area displays test detail information associated with the overall test status information and the information of each service scenario, the status bar area is disposed in a first area at the top of the system display interface, the navigation bar area is disposed in a second area at the left side of the system display interface, and the display detail area is disposed in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

For convenience of understanding, fig. 4 shows a display schematic diagram of a system display interface, and it should be noted that the sample analyzer in this embodiment may be a biochemical tester, an immunoassay tester, a coagulation tester, or the like according to a specific test item, and the type of the sample analyzer is not specifically limited herein.

Based on the schematic diagram of the system display interface provided in fig. 4, the status bar area disposed in the first area on the top of the system display interface in the system display interface is described in detail below.

In one embodiment, the status bar area is configured to display overall test status information of the sample analyzer, wherein the overall test status information of the sample analyzer includes: at least one of operation state information of the sample analyzer, alarm prompt information of the sample analyzer, and test progress information in the sample analyzer.

Specifically, the operation state information of the sample analyzer includes: the sample analyzer runs normally, runs in a fault or is dormant, and is mainly used for indicating the current running state of the sample analyzer.

For convenience of understanding, fig. 5 shows an icon control 501 corresponding to the sample analyzer operating state information in the status bar area, and further, in response to an operation instruction of the user on the icon control 501 corresponding to the sample analyzer operating state information, the sample analyzer operating state detail information is displayed in the display detail area shown in fig. 5, where the sample analyzer operating state detail information includes system state detail information, and in particular, a display diagram of the sample analyzer operating state detail information in the display detail area is please refer to fig. 12.

Further, the alarm prompt information of the sample analyzer is also displayed in the status bar area in the form of icon controls, such as a prompt icon 502 and an alarm icon 503 in fig. 5, where the prompt icon 502 is used for prompting the system abnormal number of the sample analyzer, and the alarm icon 503 is used for displaying the alarm number of the sample analyzer. Specifically, in response to an operation instruction of the user on the prompt icon 502 or the alarm icon 503, prompt information or alarm information of the sample analyzer is displayed respectively.

Further, the test progress information of the sample analyzer includes: the test progress information of all samples in the sample analyzer, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency treatment samples.

It should be noted that the test progress information of all samples in the sample analyzer refers to a ratio of the samples that have been tested in the sample analyzer to all test samples, and if the number of all samples in the sample analyzer is 100 and the number of the samples that have been tested is 20, the test progress of all samples in the sample analyzer is 20/100; if the identification code of the sample analyzer is M1, if the reagent tray of M1 is waiting to load reagents, the loading progress of the reagents in the reagent tray indicates that the reagent tray of M1 is waiting to load the reagents, or when the reagent tray of M1 finishes loading the reagents, the loading progress of the reagent tray of M1 is correspondingly indicated; the test progress of the emergency sample refers to the current test progress of the test sample applying for emergency, and if the identification code of the emergency sample is 1001-1002 and the sample is executing the test, it indicates that the 1001-1002 emergency sample is under test.

In order to improve the convenience of the user in checking the test progress information of the sample analyzer, in this embodiment, the test progress information of all samples, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency treatment samples are switched and displayed in a status bar area in a form of a following list, and each progress information is displayed in a test progress bar mode. Specifically, fig. 6 shows a schematic display diagram of the test progress information of the sample analyzer.

Based on the schematic diagram of the system display interface provided in fig. 4, the navigation bar area disposed in the second area on the left side of the system display interface in the system display interface is described next.

Specifically, the information of each service scene displayed in the navigation bar area includes: at least one of a sample service, a reagent service, a calibration service, a quality control service, a system service and a setting service, wherein the information is displayed in the navigation bar area in the form of a sample control, a reagent control, a calibration control, a quality control, a system control and a setting control, and a schematic diagram of each control is shown in fig. 7.

Further, in response to an operation instruction of the user on the sample control 701, the reagent control 702, the calibration control 703, the quality control 704, the system control 705, or the setting control 706, the test detail information associated with the sample information, the reagent information, the calibration information, the quality control information, the system information, or the setting information of the sample analyzer is displayed in the display detail area.

For convenience of explanation, the following description is made with respect to each control of the navigation bar area.

In response to an operation instruction of a user on the sample control 701, displaying test detail information associated with sample information of the sample analyzer in a display detail area, wherein the sample information of the sample analyzer includes: the serial number of the sample, the ID of the sample, the test progress of the sample, a prompt for whether the test result of the sample is abnormal, the type of the sample, the completion time of the test of the sample, the name of the item related to the sample, the dilution factor of the sample in the test item, the test result of the sample, the mark of the test result of the sample, and the like, wherein fig. 8 is a display diagram of the test detail information associated with the sample information of the sample analyzer in the display detail area.

Specifically, the serial number and the sample ID of the sample are both sample identification codes used for identifying the sample object; the sample category is generally divided into a conventional sample and an emergency sample according to the emergency degree of the sample to be tested; the sample testing progress is generally divided into three states of application, testing and testing completion according to the testing progress, and the marking of the sample testing result is a mark carried out by using a certain character in order to identify the testing result of a certain sample.

Secondly, in response to an operation instruction of a user on the reagent control 702, displaying the test detail information associated with the reagent information of the sample analyzer in a display detail area, wherein the test detail information associated with the reagent information of the sample analyzer includes: test items associated with the reagents, assay consumables associated with the reagents, physical locations where the reagents are stored, and reagent measurables, among others. Wherein FIG. 9 provides a schematic view of the display of test detail information associated with the sample analyzer reagent information in the display detail section.

Thirdly, in response to an operation instruction of the user on the quality control 703, displaying the test detail information associated with the sample analyzer quality control information in a display detail area, wherein the sample analyzer quality control information includes: quality control item information and a prompt indicating whether each corresponding quality control item is in control. Fig. 10 is a schematic diagram showing the display of the test detail information associated with the sample analyzer control information in the display detail area, wherein each control item is displayed in the form of a card in the display interface.

Fourthly, in response to an operation instruction of the user on the calibration control 704, displaying the test detail information associated with the sample analyzer calibration information in a display detail area, wherein the test detail information associated with the sample analyzer calibration information includes: the calibration items, the calibration state, the calibration type, the number of remaining days for calibration, the number of open-bottle days for a calibration product, the reagent lot number, the reagent bottle number, the measurable number of reagents, the calibration time, and the like, wherein fig. 11 shows a display diagram of test detail information associated with the calibration information of the sample analyzer in the display detail area, and specifically, when the user selects one of the test items on the left side, the specific calibration information of the test item may be displayed on the right side of the display detail area.

And fifthly, in response to an operation instruction of the system control 705 by a user, displaying the test detail information associated with the sample analyzer system information in a display detail area, wherein the test detail information associated with the sample analyzer system information includes a system state of a test instrument and an SDM (sample introduction module) in the test instrument, and specifically, fig. 12 shows a display diagram of the test detail information associated with the sample analyzer system information in the display detail area.

In fig. 12, the current operation states of the SDM modules in the sample analyzer M1 and the sample analyzer M1 are displayed in the form of a card assembly, specifically, the display detail area shows that the counting module and the central computer in the sample analyzer M1 operate normally, while the temperature, the power supply, the liquid path, and the lower computer unit in the sample analyzer M1 have faults, but the SDM module operates normally.

Sixthly, in response to an operation instruction of the user on the setting control 706, displaying the test detail information associated with the sample analyzer setting information in the display detail area, wherein the sample analyzer setting information comprises the verification setting.

Further, the inspection setting comprises application setting, result viewing setting and reagent setting, and specifically, the application setting comprises sample application setting, sample bar code setting, sample information area customization, patient information area customization, re-measuring rack setting and conventional quality control application setting; the result viewing setting comprises default result rule setting and automatic release samples; the reagent settings in turn include reagent barcode settings, reagent statistics, reagent acceptance, and reagent display customization, where FIG. 13 provides a schematic view of the display details of the test details information associated with the sample analyzer setting information in the display details area.

For convenience of understanding, the following takes the reagent control as an example, and the display diagram in fig. 9 is described in detail:

in the schematic diagram of fig. 9, reagent status information for each test item in the sample analyzer is displayed in an array, the array includes a plurality of array elements independent of each other, such as 36 array elements in the example of fig. 9, the array includes six rows and six columns, each array element is a display area and displays one test item, the reagent balance information displayed in each array element includes respective reagent balance data of the test item in an on-machine reagent container (such as a reagent bottle), and a total reagent requirement amount of the day, such as 0/400, where 0 indicates that the reagent balance of the test item in the on-machine reagent container is 0 and the total reagent requirement amount of the day is 400; the reagent balance information displayed in each array element further includes reagent balance data for each reagent disk, such as "R1150" and "R2200", which respectively represent the reagent balance total data on the R1 reagent disk and the reagent balance total data on the R2 reagent disk.

In addition, the reagent status information displayed within each array element also includes reagent location information. In the example of fig. 9, by indicating that the reagent position information displayed in the array element is "in", the user can intuitively know that the reagent state currently displayed in the array element is at the inner circle position of the reagent disk.

Further, each array element may also display exception prompt information for the test item, such as calibration information for the test item, availability information (whether the current test item is disabled), reagent expiration information, and the like. In the example of fig. 9, when there is an exception in one test item, prompt information about the exception may be displayed in the array element corresponding to the test item, and is prompted by various symbols, such as the one in the test item shown in fig. 9

And abnormal prompt information of calibration information, usability information (whether the current test item is forbidden), reagent expiration date information and the like corresponding to the test items respectively.

In addition, other consumable information related to the sample analyzer, such as reagent tray consumable balance information, table top consumable balance information, and cabinet consumable balance information, etc., are also shown on the right side of the graph of fig. 9. Specifically, the consumable information of the R1 tray, the R2 tray, the table top and the cabinet are correspondingly displayed on the right side of fig. 9 in the form of a progress bar, if the detection consumable with the code of 30-W in the R1 inner tray is shown to be used up, 69% of the detection consumables with the code of 31-DA remain, 80% of the detection consumables with the code of 32-DB remain, and the marks of the detection consumables in the R2 tray, the test table top and the cabinet are similar to those in the R1 tray, which is not described herein again.

It should be noted that, in the above embodiment, when the system display interface executes the page switching instruction, the positions of the status bar and the navigation bar in the system display interface remain unchanged.

The content displayed in the display detail area is described in detail from the angle of operation of each control in the navigation bar area, the display interface is clear, the content is detailed and clear, and the intuitiveness and the convenience of the system display interface in the embodiment of the application are further improved.

Next, a sample analyzer system in the embodiment of the present application is described, please refer to fig. 14, which includes a control unit, a display, and a plurality of sample analyzers, wherein a structure of each sample analyzer is similar to that described in fig. 1 to 3, and is not described herein again.

The control component in the sample analysis system is used for acquiring relevant test information of each sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of each sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information associated with the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

Specifically, the system display interface in the sample analysis system is similar to the system display interface described in fig. 4 to 13, and is not repeated here.

The sample analysis system in the embodiment of the application comprises a plurality of sample analyzers, wherein each sample analyzer can execute test items adaptive to the sample analyzer, for example, a biochemical test instrument executes biochemical test items, an immunological test instrument executes immunological test items, and a blood coagulation test instrument executes blood coagulation test items, and test processes among the instruments do not influence each other, so that the test efficiency of the test items in the test instruments is improved.

On the other hand, the embodiment of the application can also display the test detail information of a plurality of test instruments in the same system display interface, so that the convenience of checking the test information of each test instrument is improved.

Next, a description is given of a test information display method in an embodiment of the present application, referring to fig. 15, where an embodiment of the test information display method in the embodiment of the present application includes:

1501. the method comprises the steps of obtaining relevant test information of the sample analyzer, and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area on the left side of the system display interface, and the display detail area is arranged in a third area on the lower side of the status bar area and on the right side of the navigation bar area.

Specifically, the structure of the sample analyzer in this embodiment is similar to that described in fig. 1 to 3, and is not repeated here.

Further, a control component in the sample analyzer acquires test information related to the sample analyzer and controls the display to display a system display interface including a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays information of each service scene, the display detail area displays test detail information associated with the whole test status information and the information of each service scene, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area. The system display interface is similar to that described in fig. 4 to 13, and is not described herein again.

In the embodiment of the application, the related test information of the sample analyzer is displayed in the system display interface comprising the status bar area, the navigation bar area and the display detail area, so that the intuitiveness and convenience of a user for checking the related test information of the sample analyzer are improved.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed to by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (14)

1. A sample analyzer, comprising:

a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking the sample from the sample container and dispensing the sample into the reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

a display;

the control component is used for acquiring related test information of the sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

2. The sample analyzer of claim 1, wherein the control component is specifically configured to:

and when the system display interface is controlled to execute a page switching instruction, the positions of the status bar area and the navigation bar area in the system display interface are kept unchanged.

3. The sample analyzer of claim 1, wherein the overall test status information of the sample analyzer comprises: at least one item of running state information of the sample analyzer, alarm prompt information of the sample analyzer and test progress information of the sample analyzer.

4. The sample analyzer of claim 3, wherein the test progress information of the sample analyzer comprises:

the test progress information of all samples in the sample analyzer, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency treatment samples.

5. The sample analyzer of claim 4, wherein the test progress information of all samples in the sample analyzer, the loading progress information of the reagents in the reagent tray, and the test progress information of the emergency samples are displayed in a drop-down list in the status bar area.

6. The sample analyzer of claim 3, wherein the operating status information and alarm prompt information of the sample analyzer are displayed in the status bar area in the form of icon controls.

7. The sample analyzer as claimed in claim 6, wherein the operation state detail information of the sample analyzer is displayed in the display detail area in response to an operation instruction of an icon control corresponding to the operation state information of the sample analyzer.

8. The sample analyzer as claimed in claim 6, wherein the icon control corresponding to the prompt message is used to prompt the system abnormal number of the sample analyzer, and the icon control corresponding to the alarm message is used to display the alarm number of the sample analyzer.

9. The sample analyzer of claim 1, wherein the respective service scenario information of the sample analyzer comprises: at least one of a sample service, a reagent service, a calibration service, a quality control service, a system service, and a setup service.

10. The sample analyzer of claim 9, wherein the sample, reagent, calibration, quality control, system, and settings services are displayed in the navigation bar area in the form of sample, reagent, calibration, quality control, system, and settings controls, respectively.

11. The sample analyzer of claim 10, wherein the test detail information associated with the business scenario information comprises: at least one of test detail information respectively associated with sample information, reagent information, calibration information, quality control information, system information, and setting information of the sample analyzer.

12. The sample analyzer of claim 11, wherein test detail information associated with the sample information, reagent information, calibration information, quality control information, system information, or setting information of the sample analyzer is displayed in the display detail area in response to an operation instruction to the sample control, reagent control, calibration control, quality control, system control, or setting control.

13. A sample analysis system, comprising: a control component, a display, and a plurality of sample analyzers, wherein,

each sample analyzer includes:

a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking a sample from the sample container and dispensing the sample into a reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

and a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

the control component is used for acquiring relevant test information of each sample analyzer and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of each sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information associated with the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area at the left side of the system display interface, and the display detail area is arranged in a third area at the lower side of the status bar area and at the right side of the navigation bar area.

14. A test information display method for a sample analyzer, the sample analyzer comprising: a sample device for carrying a sample container loaded with a sample;

a reagent device for carrying reagent containers loaded with reagents;

the sample adding device is used for sucking the sample from the sample container and dispensing the sample into the reaction cup;

a reagent dispensing device for sucking a reagent from the reagent container and dispensing the reagent into the reaction cuvette loaded with a sample;

a detection device for detecting the reaction cup loaded with a mixed solution of a sample and a reagent;

the control unit and the display are characterized in that the test information display method comprises the following steps:

the method comprises the steps of obtaining relevant test information of the sample analyzer, and controlling the display to display a system display interface comprising a status bar area, a navigation bar area and a display detail area, wherein the status bar area displays the whole test status information of the sample analyzer, the navigation bar area displays each service scene information, the display detail area displays the test detail information related to the whole test status information and each service scene information, the status bar area is arranged in a first area at the top of the system display interface, the navigation bar area is arranged in a second area on the left side of the system display interface, and the display detail area is arranged in a third area on the lower side of the status bar area and on the right side of the navigation bar area.

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