CN116936066A - Sample analysis system and information editing method - Google Patents

Abstract

The embodiment of the application discloses a sample analysis system and an information editing method, which are used for realizing large-batch convenient and rapid editing operation on information of objects such as samples, reagents, calibrators or quality control products. When a user edits information on a plurality of samples, the next-stage interface of the sample overview interface is not required to be frequently opened and closed, the samples can be directly switched on the next-stage interface of the sample overview interface by triggering the navigation control, and the samples needing to be edited are not required to be returned to the sample overview interface again to be selected, so that batch editing of information on the plurality of samples can be finished on the next-stage interface of the sample overview interface at one time, the operation of the user during information editing is reduced, the information editing efficiency is improved, and the use experience of the user on analyzer products is further improved.

Description

Sample analysis system and information editing method

Technical Field

The embodiment of the application relates to the field of medical equipment, in particular to a sample analysis system and an information editing method.

Background

The sample analyzer may provide an interface for a user to edit various information such as sample detail information, reagent information, and test item information of the sample. Taking the details of the edited sample as an example, the specific editing mode is that a user selects a sample needing to edit information in an interface, clicks an edit information button, and then the sample analyzer pops up a popup window on the basis of the interface, wherein the popup window displays each item of the sample selected by the user and an information editing frame corresponding to each item, and the user can input data in the information editing frame to edit the information of the selected sample.

However, after the user finishes editing the information of a certain sample, when the user needs to edit the information of a next sample, the current popup window needs to be closed, the interface is then used for selecting the next sample needing to be edited, the user clicks an edit information button after selecting the next sample needing to be edited, the interface can popup a new popup window again, and the user executes information editing on the next sample in the new popup window. Therefore, the user needs to execute complicated operations in the mode, and when a plurality of samples are edited in batches, the popup window needs to be closed and opened continuously, so that the user cannot edit the batch information of the samples conveniently and rapidly, and the work efficiency of the user is affected.

Disclosure of Invention

The embodiment of the application provides a sample analysis system and an information editing method, which are used for realizing large-batch, convenient and rapid editing operation on information of objects such as samples, reagents, calibrators or quality control products.

A first aspect of an embodiment of the present application provides a sample analysis system, including:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

A display; and

A controller;

the controller is used for controlling the display to display a sample overview interface, and the sample overview interface is used for displaying sample overview information of at least one sample;

when the editing operation triggered by a user on a selected sample in the sample overview interface is detected, controlling the display to display a next-stage interface of the sample overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays sample detail information of the selected sample, receives information input by the user in the information editing area, and stores the input information as sample detail information of the selected sample;

when the triggering operation of the navigation control by the user is detected, determining a target sample pointed by the navigation control, controlling the display to switch the sample detail information of the selected sample from the sample detail information displayed in the information editing area to the sample detail information of the target sample, receiving information input by the user in the information editing area, and storing the input information as the sample detail information of the target sample.

A second aspect of an embodiment of the present application provides a sample analysis system, including:

The sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a reagent overview interface, and the reagent overview interface is used for displaying reagent overview information of at least one bottle of reagent;

when the editing operation triggered by a user on a selected reagent in the reagent overview interface is detected, controlling the display to display a next-stage interface of the reagent overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, receives information input by the user in the information editing area, and stores the input information as reagent detail information of the selected reagent;

when the triggering operation of the navigation control by the user is detected, determining a target reagent pointed by the navigation control, controlling the display to switch the information editing area from displaying the reagent detail information of the selected reagent to the reagent detail information of the target reagent, receiving information input by the user in the information editing area, and storing the input information as the reagent detail information of the target reagent.

A third aspect of an embodiment of the present application provides a sample analysis system, including:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a calibrator overview interface, and the calibrator overview interface is used for displaying calibrator overview information of at least one calibrator;

when the user is detected to edit the selected calibrator on the calibrator overview interface, controlling the display to display a next-stage interface of the calibrator overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, receives information input by the user in the information editing area, and stores the input information as calibrator detail information of the selected calibrator;

when the triggering operation of the navigation control by the user is detected, determining a target calibrator pointed by the navigation control, controlling the display to switch the calibrator detail information of the selected calibrator into the calibrator detail information of the target calibrator in the information editing area, receiving information input by the user in the information editing area, and storing the input information as the calibrator detail information of the target calibrator.

A fourth aspect of an embodiment of the present application provides a sample analysis system, including:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a quality control product overview interface, and the quality control product overview interface is used for displaying quality control product overview information of at least one quality control product;

when the edit operation of the user on the selected quality control product in the quality control product overview interface is detected, controlling the display to display a next-stage interface of the quality control product overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays the quality control product detail information of the selected quality control product, receives the information input by the user in the information editing area, and stores the input information as the quality control product detail information of the selected quality control product;

when the triggering operation of the navigation control by the user is detected, determining a target quality control object pointed by the navigation control, controlling the display to switch the quality control object detailed information of the selected quality control object from the quality control object detailed information displayed in the information editing area to the quality control object detailed information of the target quality control object, receiving information input by the user in the information editing area, and storing the input information as the quality control object detailed information of the target quality control object.

A fifth aspect of the embodiment of the present application provides an information editing method, which is applied to a sample analysis system, the method including:

displaying a sample overview interface for displaying sample overview information of at least one sample;

when the editing operation triggered by a user on a selected sample in the sample overview interface is detected, displaying a next-stage interface of the sample overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays sample detail information of the selected sample, receives information input by the user in the information editing area, and stores the input information as sample detail information of the selected sample;

when the triggering operation of the navigation control by the user is detected, determining a target sample pointed by the navigation control, switching the sample detail information of the selected sample from the sample detail information displayed in the information editing area to the sample detail information of the target sample, receiving information input by the user in the information editing area, and storing the input information as the sample detail information of the target sample.

A sixth aspect of the embodiment of the present application provides an information editing method, which is applied to a sample analysis system, the method including:

Displaying a reagent overview interface for displaying reagent overview information of at least one bottle of reagent;

when the editing operation triggered by a user on a selected reagent in the reagent overview interface is detected, displaying a next-stage interface of the reagent overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, receives information input by the user in the information editing area, and stores the input information as reagent detail information of the selected reagent;

when the triggering operation of the navigation control by the user is detected, determining a target reagent pointed by the navigation control, switching the reagent detail information of the selected reagent from the reagent detail information displayed in the information editing area to the reagent detail information of the target reagent, receiving information input by the user in the information editing area, and storing the input information as the reagent detail information of the target reagent.

A seventh aspect of the embodiment of the present application provides an information editing method, which is applied to a sample analysis system, the method including:

displaying a calibrator material overview interface, wherein the calibrator material overview interface is used for displaying calibrator material overview information of at least one calibrator material;

When the user is detected to edit the selected calibrator on the calibrator overview interface, displaying a next-level interface of the calibrator overview interface, wherein the next-level interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, receives information input by the user in the information editing area, and stores the input information as calibrator detail information of the selected calibrator;

when the triggering operation of the navigation control by the user is detected, determining a target calibrator pointed by the navigation control, switching the calibrator detail information of the selected calibrator from the calibrator detail information displayed in the information editing area to the calibrator detail information of the target calibrator, receiving information input by the user in the information editing area, and storing the input information as the calibrator detail information of the target calibrator.

An eighth aspect of the embodiment of the present application provides an information editing method, which is applied to a sample analysis system, the method including:

displaying a quality control product overview interface, wherein the quality control product overview interface is used for displaying quality control product overview information of at least one quality control product;

When the edit operation of a user on the selected quality control product in the quality control product overview interface is detected, displaying a next-stage interface of the quality control product overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays the quality control product detail information of the selected quality control product, receives the information input by the user in the information editing area, and stores the input information as the quality control product detail information of the selected quality control product;

when the triggering operation of the navigation control by the user is detected, determining a target quality control object pointed by the navigation control, switching the quality control object detailed information of the selected quality control object from the information editing area to the quality control object detailed information of the target quality control object, receiving information input by the user in the information editing area, and storing the input information as the quality control object detailed information of the target quality control object.

From the above technical solutions, the embodiment of the present application has the following advantages:

when a user edits information on a plurality of samples, the next-stage interface of the sample overview interface is not required to be frequently opened and closed, the samples can be directly switched on the next-stage interface of the sample overview interface by triggering the navigation control, and the samples needing to be edited are not required to be returned to the sample overview interface again to be selected, so that batch editing of information on the plurality of samples can be finished on the next-stage interface of the sample overview interface at one time, the operation of the user during information editing is reduced, the information editing efficiency is improved, and the use experience of the user on analyzer products is further improved.

Drawings

FIG. 1 is a schematic diagram of a sample analyzer of a sample analysis system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a controller of a sample analysis system according to an embodiment of the present application;

FIG. 3 is a schematic diagram showing a display mode of a next-level interface of a sample overview interface according to an embodiment of the present application;

FIG. 4 is a schematic view showing a sample overview interface according to an embodiment of the present application;

FIG. 5 is a schematic view showing a display effect of a next interface of a sample overview interface according to an embodiment of the present application;

FIG. 6 is a schematic view showing an enlarged effect of a next-level interface of the sample overview interface of FIG. 5;

FIG. 7 is a schematic view showing a display effect after the next interface of the sample overview interface in FIG. 6 completes sample switching and jumping;

FIG. 8 is a schematic view showing a pop-up window of a next interface of a sample overview interface according to an embodiment of the present application;

FIG. 9 is a schematic diagram of a display effect for prompting a user that sample detail information input in a navigation input box does not exist in an embodiment of the present application;

FIG. 10 is a schematic diagram of another display effect of a next-level interface of a sample overview interface according to an embodiment of the present application;

FIG. 11 is a schematic view showing an enlarged effect of a next-level interface of the sample overview interface of FIG. 10;

FIG. 12 is a schematic view showing a display effect after the next interface of the sample overview interface in FIG. 11 completes sample switching and jumping;

FIG. 13 is a schematic diagram showing a display effect for prompting a user to input effective information according to an embodiment of the present application;

FIG. 14 is a schematic view showing a display effect of a next interface of a reagent overview interface according to an embodiment of the present application;

FIG. 15 is a schematic view of an enlarged effect of a next level interface of the reagent overview interface of FIG. 14;

FIG. 16 is a schematic view showing a display effect of a next level interface of the calibration product overview interface according to an embodiment of the present application;

FIG. 17 is a schematic diagram showing a display effect of a next interface of a quality control product overview interface according to an embodiment of the present application;

FIG. 18 is a flow chart of an information editing method according to an embodiment of the present application;

FIG. 19 is a schematic diagram of another flow chart of an information editing method according to an embodiment of the application;

FIG. 20 is a schematic diagram of another flow chart of an information editing method according to an embodiment of the application;

fig. 21 is a schematic flow chart of an information editing method according to an embodiment of the application.

Detailed Description

The embodiment of the application provides a sample analysis system and an information editing method, which are used for realizing large-batch, convenient and rapid editing operation on information of objects such as samples, reagents, calibrators or quality control products.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments described herein may be implemented in other sequences than those illustrated or otherwise 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.

In the embodiment of the application, the sample analysis system comprises a sample analyzer, wherein the sample analyzer is an instrument for detecting and analyzing a sample to be detected to obtain a detection result of the sample to be detected, and can be specifically a sample analysis instrument such as a hemocytometer, a film reader, a biochemical analyzer, an immunoassay analyzer, a blood analyzer and the like. Fig. 1 provides a schematic structural diagram of a sample analyzer according to an embodiment of the present application, and as shown in fig. 1, a sample analyzer 100 at least includes a sampling device 110, a sample preparation device 120, and a detection device 130.

The sampling device 110 has a pipette (e.g., a sampling needle) with a pipette nozzle and has a driving section for driving the pipette to quantitatively aspirate a sample to be measured through the pipette nozzle, for example, the sampling needle is moved into a sample container containing the blood sample to aspirate the blood sample to be measured by the driving of the driving section.

The sample preparation device 120 has at least one reaction cell and a reagent supply device (not shown). The at least one reaction cell is used for receiving a sample to be measured sucked by the sampling device 110, and the reagent supply device supplies a processing reagent to the at least one reaction cell, so that the sample to be measured sucked by the sampling device 110 and the processing reagent supplied by the reagent supply device are mixed in the reaction cell to prepare a sample liquid to be measured. When preparing the sample solution to be tested, if the concentration of the sample to be tested is too high, the sample preparation device 120 can also absorb the diluent and use the diluent to dilute the sample to be tested, so as to prevent inaccurate detection and analysis results caused by the too high concentration of the sample to be tested.

The detection device 130 is used for detecting the sample liquid to be detected prepared by the sample preparation device 120 to obtain a detection analysis result. For example, when the sample to be measured is a blood sample, the detection device 130 may detect the sample liquid to be measured prepared by the sample preparation device 120 to obtain the blood routine parameter.

In the embodiment of the application, the sample analysis system can be additionally provided with a display for displaying the working interface. The display 140 and the components of the sampling device 110, the sample preparation device 120, the detection device 130 and the like are arranged together on the same sample analyzer as shown in fig. 1; or independent of the sample analyzer and in communication with the sample analyzer to receive data transmitted by the sample analyzer, i.e., disposed outside of the instrument in which the component parts of the sample analyzer are located and in communication with the component parts.

The working interface displayed by the display may display information such as a test result, a device status, a sample detection status, etc. of each test item, for example, display a detection analysis result of the sample to be tested obtained by the detection device 130. Further, the working interface may be configured as a human-computer interaction interface, and the user may directly input touch operations on the working interface to issue instructions to the sample analysis system.

In the embodiment of the present application, the sample analysis system further includes a controller, where the controller and the constituent components of the sample analyzer may be disposed in the same instrument, and as shown in fig. 1, the controller 150 and the constituent components of the sampling device 110, the sample preparation device 120, the detection device 130, etc. are disposed together on the same sample analyzer; the controller may also be located outside of the instrument in which the component parts of the sample analyzer are located and in communication with the component parts.

The structure of the controller is described with reference to a case where the controller and the constituent elements of the sample analyzer are provided on the same instrument. As shown in fig. 2, the controller 150 is connected to the components of the sample analyzer such as the sampling device 110, the sample preparation device 120, and the detection device 130, and the display 140, and can receive status information fed back by the respective components. The controller 150 includes at least a processing component 151, RAM152, ROM153, a communication interface 154, memory 156, and I/O interface 155. The processing component 151, RAM152, ROM153, communication interface 154, memory 156, and I/O interface 155 communicate over bus 157. The processing component may be a CPU, GPU or other chip with computing capabilities. The memory 156 stores various computer programs such as an operating system and application programs for execution by the processing unit 151 and data necessary for execution of the computer programs. In addition, during sample analysis, data stored locally may be stored in memory 156, if desired. The I/O interface 155 is constituted by a serial interface such as USB, IEEE1394, or RS-232C, a parallel interface such as SCSI, IDE, or IEEE1284, and an analog signal interface composed of a D/a converter, an a/D converter, and the like. An input device, such as a keyboard, mouse, touch screen or other control buttons, is connected to the I/O interface 155, and a user can directly input data to the controller 150 using the input device. In addition, the I/O interface 155 may be connected to a display 140 having a display function, for example: liquid crystal screens, touch screens, LED display screens, and the like. The controller 150 may output the processed data as image display data to the display 140 for display, for example: analytical data, instrument operating parameters, etc. The communication interface 154 may be an interface of any communication protocol known to date. The communication interface 154 communicates with the outside through a network. The controller 150 may communicate data with any device connected via the network via the communication interface 154 in a communication protocol.

It should be noted that, in the embodiment of the present application, the sample analyzer included in the sample analysis system may be a single instrument, and in this case, the single sample analyzer is the sample analysis system according to the embodiment of the present application; the system can also be formed by cascading a plurality of sample analyzers, and the plurality of sample analyzers cascaded in this case can share the same display 140, that is, the state information of the plurality of sample analyzers is displayed on the same display, and a user can know the state information of each sample analyzer only by watching one display.

In the related technical scheme, when a user needs to input a large amount of information related to the test in batches, such as inputting patient information related to a plurality of samples in batches, inputting test item information of a plurality of samples in batches, inputting information of a plurality of third-party quality control products, calibration products or reagents in batches, the user needs to open a popup window of a working interface of the sample analyzer and edit information of one object (objects such as a sample, a reagent, a calibration product or a quality control product) in the popup window, after editing is completed, the user needs to close the popup window, select the next object needing information editing in the working interface, then open the popup window, edit information of the next object in the popup window, and repeatedly perform the steps until information editing of all objects is completed. Therefore, the operation of this mode is very tedious, and the user needs to constantly open and close the popup window, is difficult to conveniently and rapidly edit the information of a plurality of objects in batches without errors, and leads to poor use experience of the user on the sample analyzer.

Therefore, based on the structure of the sample analysis system and the structure of the controller described above, in one embodiment of the sample analysis system according to the embodiment of the present application, in order to solve the technical problems of complicated information editing operation and poor user experience caused by the above information editing manner, the controller may control the display to display a sample overview interface, where the sample overview interface is used to display sample overview information of at least one sample, a user may select a sample that needs information editing in the sample overview interface and trigger an information editing operation for the selected sample, and then the controller may detect an editing operation triggered by the user on the selected sample in the sample overview interface, control the display to display a next interface of the sample overview interface, where the next interface of the sample overview interface includes an information editing area and a navigation control, where the information editing area displays sample detail information of the selected sample, receive information input by the user in the information editing area, and store the input information as sample detail information of the selected sample. When the user needs to continuously edit information on other samples, the navigation control can be triggered to switch the samples, the controller can detect the triggering operation of the user on the navigation control, determine the target sample pointed by the navigation control, and control the display to switch the sample detail information of the selected sample from the sample detail information displayed on the information editing area to the sample detail information of the target sample, so that the user can continuously edit the information on the target sample on the next-level interface of the sample overview interface, namely, the information can be continuously input in the information editing area, and the controller can save the input information as the sample detail information of the target sample. Therefore, when the user edits information on a plurality of samples, the next interface of the sample overview interface does not need to be frequently opened and closed, the switching of the samples can be directly finished on the next interface of the sample overview interface, and the samples needing to be edited are not required to be returned to the sample overview interface again to be selected, so that the batch editing of the information on the plurality of samples can be finished on the next interface of the sample overview interface at one time, the operation of the user during the information editing is reduced, the information editing efficiency is improved, and the use experience of the user on an analyzer product is further improved.

The next level interface of the sample overview interface may specifically be a next level interface displayed by a popup window of the sample overview interface, as shown in a display mode a shown in fig. 3; the sample overview interface may be a next-stage interface which is displayed in a divided display area by dividing the sample overview interface into screens, as shown in display mode B in fig. 3. In addition, the next level interface of the sample overview interface may be displayed by other means, and the display manner is not limited.

In a preferred embodiment, the navigation control may specifically be a toggle control or a navigation input box. When the navigation control is a switching control, a user can click the switching control, the controller determines a target sample pointed by the switching control when detecting the triggering operation of the user on the switching control, and controls the display to switch the sample detail information of the selected sample from the sample detail information of the selected sample to the sample detail information of the target sample, so that the user can continuously edit the information of the target sample. Or when the navigation control is a navigation input box, a user can search and position a target sample through the navigation input box, namely, a search word is input in the navigation input box, the controller receives the search word and determines the target sample corresponding to the search word, and then the display is controlled to switch the sample detail information of the selected sample from the sample detail information of the selected sample to the sample detail information of the target sample, so that the user can continuously edit the information of the target sample.

Wherein the switch control can point to a specific sample in any way and be displayed on the next level interface of the sample overview interface in any style. The method for pointing to the specific sample is that the switching control comprises a jump button and a submit button, the jump button comprises a first jump button and a second jump button, and clicking the submit button triggers the controller to save information input by a user in an information editing area, and a plurality of samples in a sample overview interface are arranged in sequence, so that when determining target samples pointed to by various switching controls, if triggering operation of the first jump button by the user is detected, determining that the first jump button points to the last sample of the selected sample in the sample overview interface; if the triggering operation of the user on the second jump button is detected, determining that the second jump button points to the next sample of the selected sample in the sample overview interface; if the trigger operation of the user on the submit button is detected, determining that the submit button points to the next sample of the selected sample in the sample overview interface.

Taking a scenario of editing the project test results of the test projects of the sample in batch as an example, a sample switching manner of the next interface of the sample overview interface is illustrated with reference to fig. 4 to 7. In the scenario of editing the project test results of the samples in batches, the controller can control the display to display at least one test project and a test result input box corresponding to each test project in the information editing area, receive the test result information input by the user in the test result input box, and if the sample currently displayed in the information editing area is the target sample, save the test result information as the test result of the corresponding test project of the target sample.

Fig. 4 shows a display effect of the sample overview interface, fig. 5 shows a display effect of a next-level interface of the sample overview interface, fig. 6 shows an enlarged effect of the next-level interface of the sample overview interface in fig. 5, and fig. 7 shows an effect after the next-level interface of the sample overview interface in fig. 6 completes sample switching and jumping. In the scenario shown in fig. 4, the controller controls the display to display a Sample overview interface including a Sample list, which displays Sample overview information of a plurality of samples including the numbers of the samples, test status information, and project test results, and the plurality of samples are arranged in the Sample list sequentially from top to bottom, so that a previous Sample or a next Sample of each Sample on the Sample overview interface can be determined. When the user needs to Edit the project test Results for a plurality of samples, the user can select a Sample in the Sample list, for example, select a Sample with Sample number 1001, and click on the result editing control "Edit Results" under the Sample list, and then the controller identifies the operation of the user as an Edit instruction for the project test Results of the Sample with Sample number 1001, as shown in fig. 5, and controls the display to display a result editing popup of the Sample overview interface. As shown in fig. 6, the result editing popup may display sample detail information of the sample numbered 1001, including information related to the sample such as the sample number, patient information associated with the sample, sample type, sample status, and the like, and information related to the test items such as a plurality of test items of the sample and a test result input box, an initial result, and a test status corresponding to each test item.

When some test items of the sample are not tested on the sample analysis system, but are tested on other instrument devices, the user may input test results obtained by testing the sample by the other instrument devices on the sample analysis system. Therefore, in this scenario, the user may input the test result of each test item of the sample number 1001 in the test result input box of the result editing popup window, click the "sub" button in the popup window to Submit the edit information of the test result of the item of the sample number 1001 after the input is completed, and the controller saves the edit information input this time as the sample detail information of the sample number 1001, and displays the save success with bubbles, for example, the user inputs the test result 2.031 in the test result input box corresponding to the lactate dehydrogenase LDH item, and the controller saves 2.031 as the test result of the LDH item of the sample number 1001.

Meanwhile, when the user clicks the "sub" button, as shown in fig. 7, the controller controls the display to switch the sample detail information of the sample with the display number 1001 from the sample detail information of the sample with the display number 1001 to the sample detail information of the next sample with the display number 1001, that is, to switch the sample detail information of the sample with the display number 1002, so that the user can continuously input the test result of each test item with the sample number 1002 in the test result input box, click the "sub" button to save the information and switch the next sample … … with the sample number 1002 to and fro in a circulating manner, batch editing of the project test results of a plurality of samples can be completed in the result editing popup without repeatedly opening and closing the popup, the user operation is reduced, and the editing efficiency of the project test result is improved.

Of course, the user can also switch samples by the result editing popup window left lower corner skip buttons "<" and ">" as shown in fig. 6 or fig. 7. When the skip button is clicked, if sample detail information of the sample with the number 1002 is currently displayed, skipping to the previous sample with the number 1002, namely a sample with the number 1001; when the skip button ">" is clicked, if the sample detail information of the sample of the number 1002 is currently displayed, the process proceeds to the next sample of the number 1002. Since the sample of the number 1001 is the first sample in the sample overview interface, if the sample detail information of the sample of the number 1001 is currently displayed, the skip button "<" is not available, which indicates that it is impossible to skip to the previous sample of the number 1001.

In addition, a navigation input box is also displayed at the lower left corner of the result editing popup shown in fig. 6 or 7, and the navigation input box defaults to display the sample number of the sample currently displayed by the result editing popup, for example, the sample currently displayed by the result editing popup in fig. 6 is the sample number 1001, and then the navigation input box defaults to display "1001"; the sample currently displayed by the results editing popup in fig. 7 is sample number 1002, and the navigation input box defaults to display "1002". And, the user can input the search word in the navigation input box, and the controller receives the search word and determines a target sample corresponding to the search word, so as to control the display to switch and display the information editing area as sample detail information of the target sample. Taking fig. 7 as an example, if the user inputs the search word "1005" in the navigation input box and clicks the keyboard Enter key to confirm, the controller receives the search word and determines that the target sample corresponding to the search word is the numbered 1005 sample, and further controls the display to switch the sample detail information of the sample with the display number 1002 to the sample detail information of the sample with the number 1005, so that the user can edit the item test result of the sample with the number 1005 in the information editing area.

After completing the switching and jumping of the sample, the controller may further control the display to display the sample displayed on the next interface of the sample overview interface in a bubble to jump to the target sample, so as to prompt the user that the sample has completed the switching and jumping.

In the embodiment of the application, the controller stores the information input in the information editing area according to the operation of the user, and various modes can be adopted. One way may be as described above, namely by clicking the "Submit" button to trigger the save operation of the controller on the information entered by the user in the information editing area. And in another mode, when the triggering operation of the user on the first jump button or the second jump button is detected, or when the search word input by the user in the navigation input box is received, the display is controlled to display a popup window of a next-level interface of the sample overview interface, whether the information input by the user in the information editing area is saved is prompted in the popup window of the next-level interface, and when the confirmation operation of confirming the saving by the user is detected, the information input by the user in the information editing area is saved.

And, since the user has previously triggered the first jump button or the second jump button or has input the search word, the controller may switch the sample displayed on the next interface of the sample overview interface according to the trigger of the user to the first jump button or the second jump button, or switch the sample displayed on the next interface of the sample overview interface according to the search word, regardless of whether the user confirms the save information or cancels the save information. Therefore, when the confirmation operation of confirming the storage by the user is detected, the controller can control the display to close the popup window of the next-stage interface besides storing the information input by the user in the information editing area, and if the user triggers the first jump button, the controller controls the display to switch the sample detail information currently displayed by the next-stage interface into the sample detail information of the sample pointed by the first jump button; if the user triggers the second jump button, the controller controls the display to switch the sample detail information currently displayed by the next interface into the sample detail information of the sample pointed by the second jump button; if the user inputs the search word, the controller controls the display to switch the sample detail information currently displayed on the next-stage interface into the sample detail information of the sample corresponding to the search word input by the user in the navigation input box.

Taking fig. 6 as an example, a user inputs a project test result of a sample number 1001 in the information editing area, clicks a skip button ">" and as shown in fig. 8, the controller detects that the information input by the user has not been saved, controls the display to display a popup window of the result editing popup window (hereinafter referred to as a save prompt popup window), and prompts whether to save the information input by the user in the information editing area or not, and if the user clicks a Confirm button to Confirm the save, the project test result input by the user in the information editing area is saved as sample detail information of the sample number 1001. If the user clicks the Cancel button to Cancel saving, the information input by the user in the information editing area is not saved.

Meanwhile, since the user has triggered the skip button ">", the controller controls the display to close the saving prompt popup regardless of whether the user confirms the saving information or cancels the saving information, and controls the display to switch the sample detail information of the sample with the number 1001 currently displayed by the result editing popup to the sample detail information of the sample with the next sample with the number 1001, i.e., to the sample detail information of the sample with the number 1002.

It will be appreciated that if the information input by the user has not been saved and the jump button has been triggered, the save prompt pop-up window may not be displayed, but the information input by the user may be saved directly by default. Therefore, displaying the save prompt pop-up window is not an essential step, and the present application is not limited thereto.

In a preferred embodiment, the user may input sample detail information as a search word, and thus the controller may determine a corresponding sample according to the sample detail information input by the user at the navigation input box. When the stored sample detail information does not exist the sample detail information input by the user in the navigation input box, the controller can control the display to display the stored sample detail information, and the stored sample detail information does not exist the sample detail information input by the user in the navigation input box, so that the user is prompted to re-input other sample detail information.

For example, fig. 9 shows a display effect of prompting the user that sample detail information input in the navigation input box does not exist, wherein the user inputs "000@in the navigation input box shown in fig. 9, and when the controller detects that the search word does not conform to the naming format of the sample number, or that the sample number corresponding to the search word does not exist in all the sample numbers, an error prompt is displayed below the navigation input box, prompting that the search word does not exist in the corresponding sample number, and the sample cannot be determined, so as to prompt the user to input the correct sample number again.

In the result editing popup shown in fig. 5 to 8, after completing the batch editing of the project test results of the plurality of samples, or after the user needs to interrupt the batch editing of the project test results, the user may click the Cancel button of the Cancel button in the result editing popup to exit the batch editing of the project test results, and when the controller detects this triggering operation, the controller may control the display to close the result editing popup to return to the sample overview interface.

In addition to bulk editing of project test results for multiple samples, bulk editing of patient information associated with multiple samples may also be performed. Specifically, when the triggering operation of the navigation control by the user is detected, the controller determines a target sample pointed by the navigation control, controls the display to display the items of the patient associated with the target sample and the item information input boxes corresponding to the items in the information editing area, receives the item information input by the user in the item information input boxes, and stores the item information as the patient information associated with the target sample.

The scenario of bulk editing of sample-associated patient information is illustrated below in connection with fig. 4, 10-12.

Fig. 10 illustrates another display effect of the next interface of the sample overview interface, fig. 11 illustrates an enlarged effect of the next interface of the sample overview interface in fig. 10, and fig. 12 illustrates an effect after the next interface of the sample overview interface in fig. 11 completes sample switching and jumping. In the scenario shown in fig. 4, when the user needs to edit the associated Patient information for a plurality of samples, the user may select a Sample in the Sample list, for example, select a Sample with Sample number 1001, and click on the Patient information editing control "Patient information" under the Sample list, the controller identifies the above operation of the user as an instruction for editing the Patient information for Sample number 1001, and as shown in fig. 10, the controller displays a Patient information editing popup of the Sample overview interface. As shown in fig. 11, the Patient information editing popup may display related information of sample number 1001 and items of Patient associated therewith, and item information input boxes corresponding to each item, each item including items of Patient ID, patient name, gender, age, patient marks, etc.

Therefore, in this scenario, the user may input the item information of each item of the patient associated with the sample number 1001 in the item information input box of the patient information editing popup window, click the "Submit" button in the popup window to Submit the editing information of the patient information associated with the sample number 1001 after the input is completed, and the controller saves the editing information input this time as the patient information associated with the sample number 1001 and displays the successful saving of the information in the form of a bubble.

Meanwhile, when the user clicks the "sub" button to trigger sample switching, the controller detects that the user clicks the "sub" button to save information, and as shown in fig. 12, the controller also controls the display to switch the patient information editing popup from the patient item associated with the sample of display number 1001 to the patient item associated with the next sample of sample number 1001, that is, to switch to the patient item associated with the sample of number 1002, the user can continuously input the item information of each patient item associated with the sample of number 1002 in the item information input box, and click the "sub" button to save information and switch to the next sample … … of sample of number 1002 to perform such cycle reciprocation, so that batch editing of the patient information associated with a plurality of samples can be completed in the patient information editing popup without repeatedly opening and closing the popup, thereby reducing user operation and improving editing efficiency of the patient information associated with the sample.

Similarly, the user may trigger the jump buttons "<" and ">" in the patient information editing popup to switch samples, and the specific process is similar to the process of switching samples by triggering the jump buttons "<" and ">" in the result editing popup as described above; the display may also display a save prompt pop-up window to prompt the user whether to save the entered item information of the patient, and the specific process is similar to the process of displaying the save prompt pop-up window to prompt the user whether to save the entered item test result, which is not described herein.

When the item information of the patient associated with the sample is input or the item test result of the sample is input, if the information input by the user does not conform to the preset format, the controller may control the display to prompt the user to input valid information conforming to the preset format below the corresponding input box, that is, as shown in fig. 13, if the information input by the user does not conform to the preset format corresponding to the item of the patient ID, the controller prompts the user to input valid information below the input box.

It can be understood that if the user does not edit the project information of the patient in the patient information editing popup or does not edit the project test result in the result editing popup, that is, no information is input in the input box in the information editing area, the user directly switches to the sample corresponding to the jump button when triggering the jump button "<" and ">", and the saving prompt popup is not required to be displayed to prompt the user whether to save the information.

The above describes that the controller can save the information edited for the current sample when the user triggers the submit button, i.e. the controller is triggered to save the input information every time the information editing of one sample is completed. In another mode, the user can continuously edit the information of the samples without clicking the submit button, and only the navigation control is triggered to switch the samples for editing the information, and after the information editing of the samples is completed, the submit button is clicked to save the information of all the samples.

The scheme that a user can edit information of a plurality of samples, such as project test results or associated patient information in batches is described above, and in addition, the embodiment of the application can also be applied to a scene that reagent information of a plurality of third-party reagents is input and edited in batches. Embodiments of the present application will be described in further detail below based on this scenario.

The controller can control the display to display a reagent overview interface, the reagent overview interface displays reagent overview information of at least one bottle of reagent, a user can select the reagent needing information editing on the reagent overview interface and trigger the information editing operation of the selected reagent, then the controller can detect the editing operation of the user on the selected reagent triggered by the reagent overview interface, the display is controlled to display a next-stage interface of the reagent overview interface, the next-stage interface of the reagent overview interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, information input by the user in the information editing area is received, and the input information is stored as the reagent detail information of the selected reagent. When the user needs to edit the information of other reagents, the navigation control can be triggered to switch the reagents, the controller can detect the triggering operation of the user on the navigation control, determine the target reagent pointed by the navigation control, and control the display to switch the reagent detail information of the selected reagent from the reagent detail information displayed on the information editing area to the reagent detail information of the target reagent, so that the user can continuously edit the information of the target reagent on the next-level interface of the reagent overview interface, namely, the information can be continuously input in the information editing area, and the controller can save the input information as the reagent detail information of the target reagent. Therefore, when the user edits the information of the plurality of reagents, the next interface of the reagent overview interface does not need to be frequently opened and closed, reagent switching can be directly finished at the next interface of the reagent overview interface, and the reagent needing to be edited is not required to be returned to the reagent overview interface any more, so that batch editing of the information of the plurality of reagents can be finished at one time at the next interface of the reagent overview interface, the operation of the user during information editing is reduced, the information editing efficiency is improved, and the use experience of the user on an analyzer product is further improved.

The display mode of the next level interface of the reagent overview interface is similar to the display mode of the next level interface of the sample overview interface, and the specific type and function of the navigation control in the next level interface of the reagent overview interface are similar to those of the navigation control in the next level interface of the sample overview interface, and are not repeated herein.

Fig. 14 shows a display effect of a next interface of the reagent overview interface, and fig. 15 shows an enlargement effect of the next interface of the reagent overview interface in fig. 14. In the scenario shown in fig. 14, the controller controls the display to display a reagent overview interface including a reagent consumable list displaying reagent overview information of a plurality of bottles of reagents including the number/position of the reagents, items corresponding to the reagents, and information on the reagents such as item measurable number of the reagents, reagent type, reagent status, and the like, and the plurality of reagents are arranged in the reagent consumable list sequentially from top to bottom, so that it can be determined whether each reagent is the last reagent or the next reagent in the reagent overview interface. When the user needs to edit the reagent detail information for a plurality of reagents, the reagents in the reagent consumable part list can be selected, for example, the reagent with the reagent position number of R1-1 is selected, and an edit control (not shown) of the reagent detail information is clicked, the controller recognizes the operation of the user as an edit instruction of the reagent detail information of the reagent with the number of R1-1, and controls a display to display a reagent information edit popup of a reagent overview interface. As shown in fig. 15, the reagent information editing popup may display reagent detail information of the reagent of the number R1-1, including a plurality of items of the reagent including items related to the reagent detail information such as a reagent position number, a barcode, a reagent type, a test item corresponding to the reagent, a bottle specification, a reagent lot number, a reagent bottle number, a production expiration date, and the like, and an item information input box corresponding to each item.

Therefore, in this scenario, the user may input the item information of each item of the reagent with the number R1-1 in the item information input box of the reagent information editing popup window, click the load button in the popup window to submit the editing information of the item information of the reagent with the number R1-1 after the input is completed, and then the controller saves the editing information input this time as the reagent detail information of the reagent with the number R1-1 and displays the successful saving of the information by using the air bubbles. For example, when the user inputs 62ml of item information in the item information input box corresponding to the bottle specification item, the controller saves 62ml of item information of the bottle specification item as the reagent of the number R1-1.

Meanwhile, when the controller detects that the user clicks the loading button, as shown in fig. 15, besides saving information, the controller controls the display to switch the reagent detail information of the reagent information editing popup window from the reagent detail information of the reagent with the display number of R1-1 to the reagent detail information of the next bottle of reagent with the reagent number of R1-1, the user can continuously input the item information of each item of the next bottle of reagent in the item information input box, click the loading button to save information and switch to the next reagent … … to perform the cyclic reciprocation in this way, batch editing of the item information of a plurality of reagents can be completed in the reagent information editing popup window without repeatedly opening and closing the popup window, the user operation is reduced, and the editing efficiency of the item information is improved.

Of course, the user can also switch the reagent by editing the reagent information to "up" and "down" buttons in the lower left corner of the pop-up window. When clicking the skip button 'last', if the reagent detail information of the reagent with the number of R1-2 is displayed currently, skipping to the last bottle of the reagent with the number of R1-2, namely the reagent with the number of R1-1; when the skip button is clicked to "next", if the reagent detail information of the reagent with the number R1-2 is displayed currently, the next bottle of the reagent with the number R1-2 is skipped. Since the reagent of the number R1-1 is the first reagent in the reagent overview interface, if the reagent detail information of the reagent of the number R1-1 is currently displayed, the "last" of the jump button is not available, which indicates that the previous reagent of the number R1-1 cannot be jumped to.

Similar to the batch editing of the sample detail information, the reagent information editing popup may also be provided with a navigation input box so that a user can input a search word in the navigation input box, and the controller determines a corresponding target reagent according to the search word and controls the display to jump to the target reagent to display the reagent detail information and the item information input box of the target reagent.

After completing the switching and jumping of the reagent, the controller may further control the display to display the reagent displayed on the next interface of the reagent overview interface as a bubble to jump to the target reagent, to prompt the user that the reagent has completed the switching and jumping.

The embodiment of the application can also be applied to the scene of inputting and editing the calibrator information of a plurality of third-party calibrations in batches. Embodiments of the present application will be described in further detail below based on this scenario.

The controller can control the display to display a calibrator overview interface, the calibrator overview interface displays calibrator overview information of at least one calibrator, a user can select a calibrator needing information editing in the calibrator overview interface and trigger information editing operation on the selected calibrator, the controller can detect editing operation triggered by the user on the selected calibrator in the calibrator overview interface, the controller controls the display to display a next interface of the calibrator overview interface, the next interface of the calibrator overview interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, information input by the user in the information editing area is received, and the input information is stored as calibrator detail information of the selected calibrator. When the user needs to continuously edit information on other calibrators, the navigation control can be triggered to switch the calibrators, the controller can detect the triggering operation of the user on the navigation control, determine the target calibrators pointed by the navigation control, and control the display to switch the information editing area from the calibrator detail information displaying the selected calibrators to the calibrator detail information of the target calibrators, so that the user can continuously edit information on the target calibrators at the next level interface of the calibrator overview interface, namely, the information can be continuously input in the information editing area, and the controller can save the input information as the calibrator detail information of the target calibrators. Therefore, when the user edits information to a plurality of calibrators, the next level interface of the calibrator overview interface is not required to be frequently opened and closed, the calibrator can be directly switched to the next level interface of the calibrator overview interface, and the calibrator needing to be edited in information is not required to be selected by returning to the calibrator overview interface, so that the batch editing of the information of the calibrators can be finished at one time at the next level interface of the calibrator overview interface, the operation of the user when editing the information is reduced, the information editing efficiency is improved, and the use experience of the user on the analyzer product is further improved.

The display mode of the next level interface of the calibrator overview interface is similar to the display mode of the next level interface of the sample overview interface, and the specific type and function of the navigation control in the next level interface of the calibrator overview interface are similar to the specific type and function of the navigation control in the next level interface of the sample overview interface, and are not repeated here.

Fig. 16 shows a display effect of a next level interface of the calibrator overview interface, the controller controls the display to display the calibrator overview interface including a calibrator list that displays calibrator overview information for a plurality of calibrators, and the plurality of calibrators are arranged sequentially from top to bottom in the calibrator list, so that a previous calibrator or a next calibrator for each calibrator at the calibrator overview interface can be determined. When the user needs to edit the calibrator detail information for a plurality of calibrators, the calibrator in the calibrator list can be selected, and a new calibrator control is clicked, the controller recognizes the operation of the user as an edit instruction for the calibrator detail information of the selected calibrator, and controls the display to display a calibrator information editing popup of a calibrator overview interface. As shown in fig. 16, the calibrator information editing popup may display calibrator detail information of the selected calibrator, including a plurality of items of the calibrator including a calibrator name, lot number, expiration date, a calibrator level number, and the like, and an item information input box corresponding to each item, and including a plurality of alternative test items to be calibrated.

Therefore, in this scenario, the user can input item information of each item of the selected calibrator in the item information input box of the calibrator information editing popup, and select a test item to be calibrated. After the input is completed, clicking a submit button in the popup window to submit the edit information of the selected calibrator, and then the controller saves the edit information input this time as the calibrator detail information of the selected calibrator, and successfully saves the calibrator detail information by using bubble display information. For example, when the user inputs item information 2020.12.23 in the item information input box corresponding to the expiration date item, the controller saves 2020.12.23 as the item information of the expiration date item of the selected calibrator.

Meanwhile, the user can trigger the calibrator to switch by clicking the submit button, when the controller detects the click of the submit button by the user, besides saving information, the controller can control the display to switch the calibrator information editing popup from displaying the calibrator detail information of the selected calibrator to the calibrator detail information of the next calibrator of the selected calibrator, the user can continuously input the item information of each item of the next calibrator in the item information input box, and click the submit button to save information and switch to the next calibrator … … to and fro in such a way, batch editing of the item information of a plurality of calibrations can be completed in the calibrator information editing popup without repeatedly opening and closing the popup, so that user operation is reduced and the editing efficiency of the item information is improved.

Of course, the user can also switch the calibrator by editing the left lower corner jump button "<" and ">" of the popup window through the calibrator information. When the jump button is clicked, if the detailed information of the calibrator named PIIINP calibrator is displayed currently, jumping to the last calibrator named PIIINP calibrator; when the skip button is clicked ">", if the detailed information of the calibrator named PIIINP calibrator is currently displayed, the process skips to the next calibrator named PIIINP calibrator. If the detailed information of the first calibrator in the calibrator overview interface is currently displayed, the previous skip button is unavailable, which indicates that the previous calibrator of the first calibrator cannot be skipped.

Similar to the batch editing of the sample detail information, the calibration material information editing popup window can also be provided with a navigation input box so that a user can conveniently input a search word in the navigation input box, and the controller determines a corresponding target calibration material according to the search word and controls the display to jump to the target calibration material so as to display the calibration material detail information and the item information input box of the target calibration material.

After the switching and jumping of the calibration standards are completed, the controller can also control the display to display that the calibration standards displayed on the next interface of the calibration standard overview interface are jumped to the target calibration standards by bubbles so as to prompt the user that the calibration standards are switched and jumped.

The embodiment of the application can also be applied to the scene of inputting and editing the quality control information of a plurality of third-party quality controls in batches. Embodiments of the present application will be described in further detail below based on this scenario.

The controller can control the display to display a quality control article overview interface, the quality control article overview interface displays quality control article overview information of at least one quality control article, a user can select the quality control article needing information editing in the quality control article overview interface and trigger information editing operation of the selected quality control article, the controller can detect the editing operation of the user on the selected quality control article triggered by the quality control article overview interface, the display is controlled to display a next-level interface of the quality control article overview interface, the next-level interface of the quality control article overview interface comprises an information editing area and a navigation control, the information editing area displays quality control article detail information of the selected quality control article, information input by the user in the information editing area is received, and the input information is used as the quality control article detail information of the selected quality control article to be stored. When the user needs to continuously edit information on other quality control items, the controller can trigger the navigation control to switch the quality control items, the controller can detect the triggering operation of the user on the navigation control item, determine the target quality control item pointed by the navigation control item, and control the display to switch the information editing area from the quality control item detail information displaying the selected quality control item to the quality control item detail information of the target quality control item, so that the user can continuously edit information on the target quality control item at the next-level interface of the quality control item overview interface, namely, the controller can continuously input information in the information editing area, and the controller can store the input information as the quality control item detail information of the target quality control item. Therefore, when the user edits information on a plurality of quality control items, the next level interface of the quality control item overview interface does not need to be frequently opened and closed, the switching of the quality control items can be directly finished on the next level interface of the quality control item overview interface, and the user does not need to return to the quality control item overview interface to select the quality control items needing to be edited in information, so that the batch editing of the information on a plurality of quality control items can be finished on the next level interface of the quality control item overview interface at one time, the operation of the user when the user edits the information is reduced, the information editing efficiency is improved, and the use experience of the user on an analyzer product is further improved.

The display mode of the next level interface of the quality control product overview interface is similar to the display mode of the next level interface of the sample overview interface, and the specific type and function of the navigation control in the next level interface of the quality control product overview interface are similar to those of the navigation control in the next level interface of the sample overview interface, and are not repeated herein.

Fig. 17 shows a display effect of a next level interface of the quality control product overview interface, where the controller controls the display to display the quality control product overview interface, the quality control product overview interface includes a quality control product list, the quality control product list displays quality control product overview information of a plurality of quality control products, and the plurality of quality control products are arranged from top to bottom in the quality control product list in sequence, so that a last quality control product or a next quality control product of each quality control product in the quality control product overview interface can be determined. When the user needs to edit the quality control detail information of the plurality of quality control items, the quality control items in the quality control item list can be selected, and a new quality control item is clicked, the controller identifies the operation of the user as an edit instruction of the quality control item detail information of the selected quality control item, and controls the display to display the quality control item information editing popup window of the quality control item overview interface. As shown in fig. 17, the quality control information editing popup window may display quality control detail information of the selected quality control, including a plurality of items of the quality control, including items of quality control names, lot numbers, validity periods, quality control levels, and the like, and an item information input box corresponding to each item, and including a plurality of candidate test items requiring quality control.

Therefore, in the scene, the user can input the item information of each item of the quality control in the item information input box of the quality control information editing popup window and select the test item needing quality control. After the input is completed, clicking a submit button in the popup window to submit the edit information of the selected quality control product, and then the controller stores the edit information input this time as the quality control product detail information of the selected quality control product, and successfully stores the edit information by using bubble display information.

Meanwhile, when the controller detects that the user clicks the submit button, besides saving information, the controller can control the display to switch the quality control item information editing popup window from displaying the quality control item detail information of the selected quality control item to the quality control item detail information of the next quality control item of the selected quality control item, the user can continuously input the item information of each item of the next quality control item in the item information input box, and click the submit button to save information and switch to the next quality control item … … to conduct cyclic reciprocation in this way, batch editing of the item information of a plurality of quality control items can be completed in the quality control item information editing popup window without repeatedly opening and closing the popup window, operation of the user is reduced, and editing efficiency of the item information is improved.

Of course, the user can also edit the left lower corner jump button "<" and ">" of the popup window through the quality control information to switch the quality control. When the jump button is clicked, jumping to the last quality control product of the currently displayed quality control products; when the skip button is clicked, skip to the next quality control item of the currently displayed quality control items. If the quality control detail information of the first quality control in the quality control overview interface is displayed currently, the last skip button is unavailable, which indicates that the previous quality control of the first quality control cannot be skipped.

Similar to batch editing of sample detail information, the quality control information editing popup window can also be provided with a navigation input box so that a user can conveniently input a search word in the navigation input box, and the controller determines a corresponding target quality control according to the search word and controls the display to jump to the target quality control to display quality control detail information and item information input boxes of the target quality control.

After the switching and the jumping of the quality control product are completed, the controller can also control the display to display that the quality control product displayed on the next interface of the quality control product overview interface is jumped to the target quality control product by bubbles so as to prompt the user that the switching and the jumping of the quality control product are completed.

Therefore, through the sample analysis system and the structure and the function thereof, the information of objects such as samples, reagents, calibrators, quality control products and the like can be conveniently and rapidly edited in batches, the steps executed when a user performs the information editing operation can be greatly reduced, and meanwhile, the information editing error caused by the fact that the user performs a large number of editing operations can be avoided, so that the efficiency and the accuracy of the information editing can be improved, and the use experience of the user on analyzer products can be improved.

The information editing method performed by the sample analysis system will be further described below with the sample analysis system as a description object based on the structure of the aforementioned sample analysis system. Referring to fig. 18, an embodiment of an information editing method according to an embodiment of the present application includes:

101. displaying a sample overview interface for displaying sample overview information of at least one sample;

102. when the editing operation triggered by the user on the selected sample in the sample overview interface is detected, displaying a next-stage interface of the sample overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays sample detail information of the selected sample, information input by the user in the information editing area is received, and the input information is used as sample detail information of the selected sample to be stored;

103. When the triggering operation of the user on the navigation control is detected, determining a target sample pointed by the navigation control, switching the sample detail information of the selected sample from the display of the information editing area to the sample detail information of the target sample, receiving the information input by the user in the information editing area, and storing the input information as the sample detail information of the target sample;

in a preferred implementation manner of this embodiment, the navigation control includes a switching control and a navigation input box;

when the triggering operation of the user on the navigation control is detected, determining a target sample pointed by the navigation control, wherein the specific execution can be that when the triggering operation of the user on the switching control is detected, the target sample pointed by the switching control is determined; or,

and receiving search words input by the user in the navigation input box, and determining target samples corresponding to the search words input by the user.

In a preferred implementation manner of this embodiment, the plurality of samples in the sample overview interface are arranged in sequence; the switching control comprises a jump button and a submit button, and the jump button comprises a first jump button and a second jump button;

determining a target sample pointed by the switching control, wherein the specific implementation can be that when the triggering operation of a user on the first jump button is detected, the first jump button is determined to point to the last sample of the selected sample on the sample overview interface;

Or,

when the triggering operation of the second jump button by the user is detected, determining that the second jump button points to the next sample of the selected sample in the sample overview interface;

or,

when the triggering operation of the submitting button by the user is detected, determining that the submitting button points to the next sample of the selected sample in the sample overview interface.

In a preferred implementation manner of this embodiment, the information input by the user in the information editing area is saved, and the specific implementation may be that when the triggering operation of the submit button by the user is detected, the information input by the user in the information editing area is saved;

or,

when the triggering operation of the user on the first jump button or the second jump button is detected, or when the search word input by the user in the navigation input box is received, a popup window of the next-stage interface is displayed, whether information input by the user in the information editing area is stored is prompted in the popup window of the next-stage interface, and when the confirmation operation of confirming storage by the user is detected, the information input by the user in the information editing area is stored.

In a preferred implementation manner of this embodiment, when a confirmation operation of confirming the save by the user is detected, the information editing method further includes:

closing a popup window of the next-stage interface, and switching sample detail information currently displayed by the next-stage interface into sample detail information of a sample pointed by the first jump button or the second jump button, or into sample detail information of a sample corresponding to a search word input by a user in the navigation input box.

In a preferred implementation manner of this embodiment, the search term is sample detail information; the information editing method further includes:

and when the stored sample detail information does not exist the sample detail information input by the user in the navigation input box, displaying that the stored sample detail information does not exist the sample detail information input by the user in the navigation input box so as to prompt the user to re-input other sample detail information.

In a preferred implementation manner of this embodiment, the information input by the user in the information editing area is received, the input information is saved as sample detail information of the target sample, and specifically, the method may be performed by displaying at least one test item and a test result input box corresponding to each test item in the information editing area, receiving test result information input by the user in the test result input box, and saving the test result information as a test result of a corresponding test item of the target sample.

In a preferred embodiment of the present invention, the information input by the user in the information editing area is received, and the input information is saved as sample detail information of the target sample, and specifically, the method may be performed by displaying, in the information editing area, an item of the patient associated with the target sample and an item information input box corresponding to each item, receiving the item information input by the user in the item information input box, and saving the item information as patient information associated with the target sample.

In a preferred implementation manner of this embodiment, a next level interface of the sample overview interface is displayed, and specifically, a popup window of the sample overview interface is displayed, and the next level interface is displayed on the popup window.

The method for editing information and the specific embodiments thereof have been described in detail and illustrated in the foregoing, and will not be described in detail herein.

In this embodiment, when the user edits information on a plurality of samples, the next level interface of the sample overview interface does not need to be frequently opened and closed, so that the sample switching can be directly completed on the next level interface of the sample overview interface, and the sample needing to be edited is not required to be returned to the sample overview interface again, so that batch editing of information on a plurality of samples can be completed on the next level interface of the sample overview interface at one time, the operation of the user when editing information is reduced, the information editing efficiency is improved, and the use experience of the user on an analyzer product is further improved.

Referring to fig. 19, another embodiment of the information editing method according to the embodiment of the present application includes:

201. displaying a reagent overview interface, wherein the reagent overview interface is used for displaying reagent overview information of at least one bottle of reagent;

202. when the editing operation of the user on the selected reagent triggered by the reagent overview interface is detected, displaying a next-stage interface of the reagent overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, information input by the user in the information editing area is received, and the input information is used as reagent detail information of the selected reagent to be stored;

203. when the triggering operation of the user on the navigation control is detected, determining a target reagent pointed by the navigation control, switching the reagent detail information of the selected reagent from the reagent detail information displayed in the information editing area to the reagent detail information of the target reagent, receiving the information input by the user in the information editing area, and storing the input information as the reagent detail information of the target reagent;

the method for editing information and the specific embodiments thereof have been described in detail and illustrated in the foregoing, and will not be described in detail herein.

In this embodiment, when the user edits information on a plurality of reagents, the next interface of the reagent overview interface does not need to be frequently opened and closed, reagent switching can be directly completed at the next interface of the reagent overview interface, and reagents needing to be edited in information are not required to be returned to the reagent overview interface, so that batch editing of information on a plurality of reagents can be completed at one time at the next interface of the reagent overview interface, operations of the user during information editing are reduced, information editing efficiency is improved, and further use experience of the user on an analyzer product is improved.

Referring to fig. 20, another embodiment of the information editing method in an embodiment of the present application includes:

301. displaying a calibrator material overview interface, wherein the calibrator material overview interface is used for displaying calibrator material overview information of at least one calibrator material;

302. when the user is detected to edit the selected calibrator in the calibrator overview interface, displaying a next interface of the calibrator overview interface, wherein the next interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, information input by the user in the information editing area is received, and the input information is used as calibrator detail information of the selected calibrator to be stored;

303. When the triggering operation of the user on the navigation control is detected, determining a target calibrator pointed by the navigation control, switching the calibrator detail information of the selected calibrator from the calibrator detail information displayed in the information editing area to the calibrator detail information of the target calibrator, receiving the information input by the user in the information editing area, and storing the input information as the calibrator detail information of the target calibrator;

the method for editing information and the specific embodiments thereof have been described in detail and illustrated in the foregoing, and will not be described in detail herein.

In this embodiment, when the user edits information on a plurality of calibrators, the next level interface of the calibrator overview interface does not need to be frequently opened and closed, the calibrator can be directly switched on the next level interface of the calibrator overview interface, and the calibrator needing to be edited in information does not need to be returned to the calibrator overview interface again to be selected, so that batch editing of information on a plurality of calibrators can be finished on the next level interface of the calibrator overview interface at one time, operations of the user during information editing are reduced, information editing efficiency is improved, and use experience of the user on an analyzer product is further improved.

Referring to fig. 21, another embodiment of the information editing method in the embodiment of the application includes:

401. displaying a quality control product overview interface, wherein the quality control product overview interface is used for displaying quality control product overview information of at least one quality control product;

402. when the editing operation of the user on the selected quality control product in the quality control product overview interface is detected, displaying a next-level interface of the quality control product overview interface, wherein the next-level interface comprises an information editing area and a navigation control, the information editing area displays the quality control product detail information of the selected quality control product, receives the information input by the user in the information editing area, and stores the input information as the quality control product detail information of the selected quality control product;

403. when the triggering operation of the user on the navigation control is detected, determining a target quality control object pointed by the navigation control, switching the quality control object detailed information of the selected quality control object from the quality control object detailed information displayed in the information editing area to the quality control object detailed information of the target quality control object, receiving the information input by the user in the information editing area, and storing the input information as the quality control object detailed information of the target quality control object;

the method for editing information and the specific embodiments thereof have been described in detail and illustrated in the foregoing, and will not be described in detail herein.

In this embodiment, when the user edits information on a plurality of quality control items, the next level interface of the quality control item overview interface does not need to be frequently opened and closed, so that the switching of the quality control items can be directly completed at the next level interface of the quality control item overview interface, and the user does not need to return to the quality control item overview interface to select the quality control items needing to be edited in information, so that batch editing of information on a plurality of quality control items can be completed at one time at the next level interface of the quality control item overview interface, operations when the user edits the information are reduced, information editing efficiency is improved, and further use experience of the user on an analyzer product is improved.

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

In the several embodiments provided in the present application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, e.g., the division of the units is merely a logical function division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices or units, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown 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 may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in the embodiments of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application may be embodied essentially or in part or all of the technical solution or in part in the form of a software product stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM, random access memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Claims (16)

1. A sample analysis system, comprising:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a sample overview interface, and the sample overview interface is used for displaying sample overview information of at least one sample;

when the editing operation triggered by a user on a selected sample in the sample overview interface is detected, controlling the display to display a next-stage interface of the sample overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays sample detail information of the selected sample, receives information input by the user in the information editing area, and stores the input information as sample detail information of the selected sample;

when the triggering operation of the navigation control by the user is detected, determining a target sample pointed by the navigation control, controlling the display to switch the sample detail information of the selected sample from the sample detail information displayed in the information editing area to the sample detail information of the target sample, receiving information input by the user in the information editing area, and storing the input information as the sample detail information of the target sample.

2. The sample analysis system of claim 1, wherein the navigation control comprises a toggle control and a navigation input box;

the controller is specifically configured to determine a target sample pointed by the switching control when detecting a triggering operation of the switching control by a user; or,

and receiving search words input by the user in the navigation input box, and determining target samples corresponding to the search words input by the user.

3. The sample analysis system of claim 2, wherein the plurality of samples in the sample overview interface are arranged in a sequence; the switching control comprises a jump button and a submit button, and the jump button comprises a first jump button and a second jump button;

the controller determines a target sample pointed by the switching control, and specifically performs the following steps:

when the triggering operation of the user on the first jump button is detected, determining that the first jump button points to the last sample of the selected sample on the sample overview interface;

or,

when the triggering operation of the second jump button by the user is detected, determining that the second jump button points to the next sample of the selected sample in the sample overview interface;

Or,

when the triggering operation of the submitting button by the user is detected, determining that the submitting button points to the next sample of the selected sample in the sample overview interface.

4. A sample analysis system according to claim 3, wherein the controller stores information entered by a user in the information editing area, in particular implemented as:

when the triggering operation of the user on the submit button is detected, information input by the user in the information editing area is saved;

or,

when the triggering operation of the user on the first jump button or the second jump button is detected, or when the search word input by the user in the navigation input box is received, controlling the display to display the popup window of the next-level interface, prompting whether to store the information input by the user in the information editing area or not in the popup window of the next-level interface, and when the confirmation operation of confirming the storage by the user is detected, storing the information input by the user in the information editing area.

5. The sample analysis system according to claim 4, wherein when a user confirmation of the stored confirmation operation is detected, the controller is further configured to control the display to close a pop-up window of the next interface, and switch sample detail information currently displayed on the next interface to sample detail information of a sample pointed to by the first jump button or the second jump button, or to sample detail information of a sample corresponding to a search term input by the user at the navigation input box.

6. The sample analysis system of claim 2, wherein the search term is sample detail information;

the controller is further used for controlling the display to display the stored sample detail information without the sample detail information input by the user in the navigation input box when the stored sample detail information does not exist the sample detail information input by the user in the navigation input box, so as to prompt the user to re-input other sample detail information.

7. The sample analysis system according to claim 1, wherein the controller is specifically configured to control the display to display at least one test item and a test result input box corresponding to each test item in the information editing area, receive test result information input by a user in the test result input box, and store the test result information as a test result of a corresponding test item of the target sample.

8. The sample analysis system according to claim 1, wherein the controller is specifically configured to control the display to display, in the information editing area, items of a patient associated with the target sample and item information input boxes corresponding to each item, receive item information input by a user in the item information input boxes, and store the item information as the patient information associated with the target sample.

9. The sample analysis system of claim 1, wherein the controller controls the display to display a next level of interface of the sample overview interface, specifically implemented as:

and controlling the display to display a popup window of the sample overview interface, and displaying the next-stage interface on the popup window.

10. A sample analysis system, comprising:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a reagent overview interface, and the reagent overview interface is used for displaying reagent overview information of at least one bottle of reagent;

when the editing operation triggered by a user on a selected reagent in the reagent overview interface is detected, controlling the display to display a next-stage interface of the reagent overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, receives information input by the user in the information editing area, and stores the input information as reagent detail information of the selected reagent;

When the triggering operation of the navigation control by the user is detected, determining a target reagent pointed by the navigation control, controlling the display to switch the information editing area from displaying the reagent detail information of the selected reagent to the reagent detail information of the target reagent, receiving information input by the user in the information editing area, and storing the input information as the reagent detail information of the target reagent.

11. A sample analysis system, comprising:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a calibrator overview interface, and the calibrator overview interface is used for displaying calibrator overview information of at least one calibrator;

when the user is detected to edit the selected calibrator on the calibrator overview interface, controlling the display to display a next-stage interface of the calibrator overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, receives information input by the user in the information editing area, and stores the input information as calibrator detail information of the selected calibrator;

When the triggering operation of the navigation control by the user is detected, determining a target calibrator pointed by the navigation control, controlling the display to switch the calibrator detail information of the selected calibrator into the calibrator detail information of the target calibrator in the information editing area, receiving information input by the user in the information editing area, and storing the input information as the calibrator detail information of the target calibrator.

12. A sample analysis system, comprising:

the sample preparation device is used for preparing a biological sample into a sample liquid to be tested;

the detection device is used for detecting the sample liquid to be detected to obtain a sample detection result;

a display; and

A controller;

the controller is used for controlling the display to display a quality control product overview interface, and the quality control product overview interface is used for displaying quality control product overview information of at least one quality control product;

when the edit operation of the user on the selected quality control product in the quality control product overview interface is detected, controlling the display to display a next-stage interface of the quality control product overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays the quality control product detail information of the selected quality control product, receives the information input by the user in the information editing area, and stores the input information as the quality control product detail information of the selected quality control product;

When the triggering operation of the navigation control by the user is detected, determining a target quality control object pointed by the navigation control, controlling the display to switch the quality control object detailed information of the selected quality control object from the quality control object detailed information displayed in the information editing area to the quality control object detailed information of the target quality control object, receiving information input by the user in the information editing area, and storing the input information as the quality control object detailed information of the target quality control object.

13. An information editing method, wherein the method is applied to a sample analysis system, the method comprising:

displaying a sample overview interface for displaying sample overview information of at least one sample;

when the editing operation triggered by a user on a selected sample in the sample overview interface is detected, displaying a next-stage interface of the sample overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays sample detail information of the selected sample, receives information input by the user in the information editing area, and stores the input information as sample detail information of the selected sample;

When the triggering operation of the navigation control by the user is detected, determining a target sample pointed by the navigation control, switching the sample detail information of the selected sample from the sample detail information displayed in the information editing area to the sample detail information of the target sample, receiving information input by the user in the information editing area, and storing the input information as the sample detail information of the target sample.

14. An information editing method, wherein the method is applied to a sample analysis system, the method comprising:

displaying a reagent overview interface for displaying reagent overview information of at least one bottle of reagent;

when the editing operation triggered by a user on a selected reagent in the reagent overview interface is detected, displaying a next-stage interface of the reagent overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays reagent detail information of the selected reagent, receives information input by the user in the information editing area, and stores the input information as reagent detail information of the selected reagent;

when the triggering operation of the navigation control by the user is detected, determining a target reagent pointed by the navigation control, switching the reagent detail information of the selected reagent from the reagent detail information displayed in the information editing area to the reagent detail information of the target reagent, receiving information input by the user in the information editing area, and storing the input information as the reagent detail information of the target reagent.

15. An information editing method, wherein the method is applied to a sample analysis system, the method comprising:

displaying a calibrator material overview interface, wherein the calibrator material overview interface is used for displaying calibrator material overview information of at least one calibrator material;

when the user is detected to edit the selected calibrator on the calibrator overview interface, displaying a next-level interface of the calibrator overview interface, wherein the next-level interface comprises an information editing area and a navigation control, the information editing area displays calibrator detail information of the selected calibrator, receives information input by the user in the information editing area, and stores the input information as calibrator detail information of the selected calibrator;

when the triggering operation of the navigation control by the user is detected, determining a target calibrator pointed by the navigation control, switching the calibrator detail information of the selected calibrator from the calibrator detail information displayed in the information editing area to the calibrator detail information of the target calibrator, receiving information input by the user in the information editing area, and storing the input information as the calibrator detail information of the target calibrator.

16. An information editing method, wherein the method is applied to a sample analysis system, the method comprising:

displaying a quality control product overview interface, wherein the quality control product overview interface is used for displaying quality control product overview information of at least one quality control product;

when the edit operation of a user on the selected quality control product in the quality control product overview interface is detected, displaying a next-stage interface of the quality control product overview interface, wherein the next-stage interface comprises an information editing area and a navigation control, the information editing area displays the quality control product detail information of the selected quality control product, receives the information input by the user in the information editing area, and stores the input information as the quality control product detail information of the selected quality control product;

when the triggering operation of the navigation control by the user is detected, determining a target quality control object pointed by the navigation control, switching the quality control object detailed information of the selected quality control object from the information editing area to the quality control object detailed information of the target quality control object, receiving information input by the user in the information editing area, and storing the input information as the quality control object detailed information of the target quality control object.