CN115343462A - Sample analyzer, sample analysis system, and information display method - Google Patents

Abstract

The embodiment of the application discloses a sample analyzer, a sample analysis system and an information display method, which are used for switching the display mode of an information system so that the display theme of a display interface can be adapted to the watching requirement of a user on the display interface. When the display is switched to the first display mode, the processor controls the display to display at least one first display interface included in the information system; when the display mode is switched to the second display mode, the processor controls the display to display at least one second display interface included in the information system, the at least one first display interface and the at least one second display interface have different display themes, and the display themes can be different in interface brightness, background color, color of display content and the like.

Description

Sample analyzer, sample analysis system, and information display method

Technical Field

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

Background

In modern medical clinical tests, sample analyzers are widely used to detect various analytical indicators of blood, urine or other body fluids. The sample analyzer provides a display interface for a user, information such as parameter values of various indexes, equipment states, sample detection states and the like can be displayed on the display interface, and the user can monitor the detection states of the samples by observing the information displayed on the display interface.

In the use process of the sample analyzer, if the interface of the sample analyzer maintains the same display mode all the time, the interface cannot be suitable for different use periods and different use environments, and cannot be suitable for different users. For example, in a clinical laboratory with a 24-hour duty cycle, the lighting intensity of the environment of the department may vary during the day due to day-night switching, and the lighting intensity of the environment of the department may decrease relative to the lighting intensity during the day, for example, at night. Meanwhile, in order to adapt to a high-illumination department environment, the interface brightness of the sample analyzer is usually very high, and in a low-illumination department environment, if the interface of the sample analyzer still maintains the interface brightness of the previous department with high illumination brightness, the interface brightness of the sample analyzer is too high, and a user looks dazzling visually when watching the interface, especially, a low-vision person and a person sensitive to strong light watch the interface, the interface is more felt to be dazzling and dazzling, which seriously affects the user watching interface and the use of the product by the user.

In addition, if the interface of the sample analyzer is maintained at all times with a light interface, viewing the light interface by low-vision and light-sensitive people can also feel the interface obtrusive. Therefore, the requirements on the display mode of the interface are different according to different use time periods, use environments and users, and if the same display mode is maintained all the time, the interface obviously cannot be simultaneously applied to various different use scenes, which will affect the use of the interface of the sample analyzer by the user and lead to poor user experience.

Disclosure of Invention

The embodiment of the application provides a sample analyzer, a sample analysis system and an information display method, which are used for switching a display mode of an information system so that a display theme of a display interface can be adapted to the watching requirement of a user on the display interface.

A first aspect of embodiments of the present application provides a sample analyzer, which includes an analysis module and a processor;

the analysis module is used for carrying out detection analysis on a sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information, generating an information system comprising at least one interface, and controlling the display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system;

the first display interface and the second display interface both comprise sample information and/or instrument information; at least one of the first display interfaces and at least one of the second display interfaces have different display themes.

A second aspect of embodiments of the present application provides a sample analyzer, which includes an analysis module, a processor;

the analysis module is used for carrying out detection analysis on a sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information, generating an information system comprising at least one interface, and controlling a display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display a first display interface in at least one level of display interfaces included in the first display mode;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display a second display interface in at least one level of display interfaces included in the second display mode;

the first display interface and the second display interface both comprise sample information and/or instrument information; the grade of the first display interface in the first display mode is the same as that of the second display interface in the second display mode, and the display layout of the first display interface and the second display interface is different; wherein the display layout includes at least one of a display theme or display information.

A third aspect of embodiments of the present application provides a sample analysis system, comprising a first sample analyzer, a second sample analyzer, a processor; the processor is in communication with the first sample analyzer, the second sample analyzer, and the display, respectively;

the first sample analyzer and the second sample analyzer are used for carrying out detection analysis on a sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information of the first sample analyzer and the second sample analyzer, generating an information system comprising at least one interface, and controlling a display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system;

the first display interface and the second display interface both comprise sample information and/or instrument information; at least one of the first display interfaces and at least one of the second display interfaces have different display themes.

A fourth aspect of the embodiments of the present application provides an information display method applied to a sample analyzer, where the method includes:

acquiring a first display mode display instruction, wherein the first display mode display instruction is used for indicating that a first display interface corresponding to a first display mode is displayed in a daytime period;

responding to the first display mode display instruction in the daytime, and displaying the first display interface;

acquiring a second display mode display instruction, wherein the second display mode display instruction is used for indicating that a second display interface corresponding to a second display mode is displayed in a night time period;

in the night time period, responding to the second display mode display instruction, and switching the currently displayed first display interface into the second display interface;

the display theme between the first display interface and the second display interface is different, and the display theme comprises at least one of interface brightness, interface background color or display content color and display content typesetting.

A fifth aspect of embodiments of the present application provides a computer storage medium having instructions stored therein, which when executed on a computer, cause the computer to perform the method of the fourth aspect.

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

the processor of the sample analyzer is used for switching the display mode of the information system, and when the display mode is switched to the first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system; when the display mode is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included by the information system, wherein the at least one first display interface and the at least one second display interface have different display themes, and the display themes can be different in interface brightness, background color, color of display content and the like.

Drawings

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

FIG. 2 is a schematic diagram of a control device of the sample analyzer according to an embodiment of the present disclosure;

FIG. 3 is a schematic interface diagram of an overview interface according to an embodiment of the present application;

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

FIG. 5 is a schematic interface diagram of a first display interface of a daytime interval in an embodiment of the present application;

FIG. 6 is a schematic interface diagram of a second display interface during the night period in the embodiment of the present application;

fig. 7 is a schematic flowchart of an information display method in the embodiment of the present application.

Detailed Description

The embodiment of the application provides a sample analyzer, a sample analysis system and an information display method, which are used for switching the display mode of an information system so that the display theme of a display interface can be adapted to the watching requirement of a user on the display interface.

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

In sample testing operations, the information system of the sample analyzer, as a software program for the sample analyzer, may provide a display interface for a user, and the user may view information related to the sample and/or the device on the display interface to obtain a test status of the sample and an operating status of the device. When a user watches the display interface, the user has different requirements on the display effect of the display interface, for example, the brightness of the department at night is reduced compared with that of the illumination at daytime, and if the brightness of the display interface is too high, the user feels that the display interface looks very dazzling and uncomfortable, which is not friendly to people sensitive to strong light; when the brightness of the department environment is high in the daytime, if the brightness of the display interface is not high, the display interface looks dark, and the user can feel hard; meanwhile, users have different requirements on interface colors, some users want the interface colors to look soft, and some users want the interface colors to be more striking and bright so as to highlight the displayed content; in addition to interface brightness and interface color, users also want other display themes to be able to adapt to the user's viewing habits. Therefore, when there are different requirements for the display effect of the display interface for the user, one display mode is always maintained, and obviously, the method cannot adapt to different requirements for the display effect of the interface for different users or different scenes.

Therefore, the embodiment of the application provides a sample analyzer, a sample analysis system and an information display method, so that the information system switches the display mode among different display modes, and the display theme of the display interface can be adapted to the viewing requirement of a user on the display interface.

In the embodiment of the present application, the sample analyzer refers to an apparatus for performing detection analysis on a sample to be detected to obtain a detection result of the sample to be detected, and may specifically be a sample analyzer such as a blood globe, a blood reader, a biochemical analyzer, an immunoassay analyzer, and a blood analyzer. Fig. 1 provides a schematic structural diagram of a sample analyzer in an embodiment of the present application, and as shown in fig. 1, the sample analyzer 100 includes an analysis module and a processor 150, wherein the analysis module includes at least 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 a driving unit for driving the pipette to quantitatively take a sample to be tested through the pipette nozzle, for example, the sampling needle is driven by the driving unit to move into a sample container containing a blood sample to take a blood sample to be tested.

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 tested, which is sucked by the sampling device 110, and the reagent supply device is used for supplying a processing reagent to the at least one reaction cell, so that the sample to be tested, which is 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 solution to be tested.

The detecting device 130 is used for detecting the sample liquid to be detected prepared by the sample preparing device 120 to obtain a detection analysis result. For example, when the sample to be tested is a blood sample, the detection device 130 may perform a detection on the sample solution to be tested prepared by the sample preparation device 120 to obtain the blood routine parameters.

The sample analyzer may further be configured with a display 140, where the display 140 is configured to display a display interface of the information system, and the display interface may display information such as parameter values of various detection indexes, device states, and sample detection states, for example, display a detection analysis result of the sample to be detected obtained by the detection device 130. Further, the display interface can be also configured as a human-computer interaction interface, and a user can directly input touch operation on the display interface to send an instruction to the sample analyzer.

Wherein the display 140 may be provided in the same instrument as the components of the sample analyzer; or may be located outside of the instrument in which the component is located and in communicative connection with the component.

The processor 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 the status information fed back by each component. Fig. 2 provides a schematic diagram of a processor 150, and as shown in fig. 2, the processor 150 includes at least a processing component 151, a RAM152, a ROM153, a communication interface 154, a memory 156, and an I/O interface 155. Processing component 151, RAM152, ROM153, communication interface 154, memory 156, and I/O interface 155 communicate over a bus 157. The processing component may be a CPU, GPU or other chip with computing capabilities. The memory 156 stores various computer programs executed by the processing unit 151, such as an operating system and an application program, and data necessary for executing the computer programs. In addition, data stored locally during sample analysis may be stored in the 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 and an a/D converter. An input device, such as a keyboard, mouse, touch screen or other control buttons, is coupled to I/O interface 155 and may be used by a user to input data directly to processor 150. In addition, a display 140 having a display function, such as: liquid crystal screens, touch screens, LED display screens and the like. The processor 150 may output the processed data as image display data to the display 140 for display, for example: analytical data, instrument operating parameters, etc. Communication interface 154 may be an interface to any communication protocol presently known. The communication interface 154 communicates with the outside through a network. Processor 150 may communicate data with any device connected via the network via communication interface 154 using a communication protocol.

It should be noted that, in the embodiment of the present application, the sample analyzer may be a single sample analyzer, or may be formed by cascading multiple sample analyzers, in which case, multiple sample analyzers may share the same display device 140, that is, the status information of multiple sample analyzers is all displayed on the same display device, and a user may know the status information of each sample analyzer by only viewing one display device.

To address the aforementioned pain points, embodiments of the present application provide a plurality of embodiments of sample analyzers based on the aforementioned structure of sample analyzers and the structure of processor 150. As will be explained in detail below.

In one embodiment of the sample analyzer, the processor is configured to obtain the sample information and/or the instrument information, generate an information system including at least one interface, and control the display to display the at least one interface included in the information system, and the processor may switch a display mode of the information system, where the display mode of the information system includes a first display mode and a second display mode. When the display mode of the information system is switched to a first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system; when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system. The first display interface and the second display interface both comprise sample information and/or instrument information; the at least one first display interface and the at least one second display interface have different display themes.

Therefore, the information system is configured with a plurality of display modes, the display theme is changed when the display modes are switched, the display modes of the information system can be switched to the display mode which can adapt to the viewing requirements of the user, and the corresponding display theme can also meet the requirements of the user on the display effect of the display interface, for example, the requirements of the user on the interface brightness of the display interface, or the requirements of the user on the color of the display interface, and the like. Therefore, the plurality of display modes configured by the information system can be adapted to different scenes or different requirements of different users on the display effect of the display interface, the sample analyzer can display information based on the display mode meeting the watching requirements of the users, and the use experience of the users on the sample analyzer is improved.

For example, in a night period, if the user wants the interface not to be dazzled, the display mode of the information system may be switched to a display mode in which the interface brightness meets the user requirement, so that the interface brightness is suitable for the user to view the display interface, and the viewing experience of the user on the interface is improved.

The display theme may be content such as a visual style of the interface, and specifically includes at least one of interface brightness, background color, color of the display content, layout of the display content, and icon style. Therefore, the at least one first display interface and the at least one second display interface have different display themes, which may be different from any one or more display themes described above, for example, the first display interface and the second display interface may be different only in interface brightness, or may be different in 3 display themes, which are interface brightness, background color, and color of display content.

Based on the foregoing technical solution, a preferred implementation manner of this embodiment is that, among at least one first display interface included in the information system, a first overview interface for displaying overview information of sample information and/or overview information of instrument information and a first conventional interface for displaying detail information of sample information and/or detail information of instrument information are included. The information system includes at least one second display interface including a second overview interface for displaying overview information of the sample information and/or overview information of the instrument information, and a second conventional interface for displaying detail information of the sample information and/or detail information of the instrument information.

The overview information of the sample information may be partial information in the sample information, or may be information obtained by summarizing, counting, and summarizing the sample information. Similarly, the overview information of the instrument information may be partial information in the instrument information, or may be information obtained by summarizing, counting, and summarizing the instrument information.

The detail information of the sample information may be part or all of the sample information, or may be specific details of one or more items of information in the sample information. Similarly, the detail information of the instrument information may be all the information of the instrument information, or may be specific details of one or more items of information in the instrument information.

For example, fig. 3 is an interface schematic diagram of an overview interface, as shown in the figure, a display area corresponding to a sample overview, a display area corresponding to a system overview, and a plurality of function keys are distributed on the overview interface, where the display area corresponding to the sample overview is used to display overview information of sample information, and the display area corresponding to the system overview includes a display area corresponding to a biochemical analyzer M2, a display area corresponding to an immunological analyzer M1, and a display area corresponding to an SDM platform, where the SDM platform in the sample analyzer is a platform for sample recovery and temporary storage, and a sample that has been detected, a sample to be detected, and a sample waiting for scanning test information are all temporarily placed on the SDM platform.

As can be seen, the display area corresponding to the biochemical analyzer M2 in the overview interface may display overview information of the instrument information of the biochemical analyzer M2, including overview information of instrument information such as a reagent status, a consumable status, a quality control status, a calibration status, and a maintenance status; similarly, the display region corresponding to the immunoassay analyzer M1 may also display the overview information of the instrument information of the immunoassay analyzer M1, that is, the overview information of the instrument information of one sample analyzer is displayed for each display region.

Meanwhile, a display area corresponding to the sample overview in the overview interface displays overview information of sample information such as 5 abnormal samples, the total number of samples, 20 recoverable samples, 20 auditable samples, and the predicted completion time of the remaining uncompleted detected samples.

Fig. 4 provides an interface diagram of a conventional interface, and as shown in the diagram, the conventional interface displays detail information related to the detection result of the sample, such as the measurement value of the detection index of the sample and the detail information of the measurement result, the test completion time, the sample identification number, the sample serial number, and the like. Meanwhile, buttons such as 'reagent', 'quality control', 'calibration' and the like are displayed on a side column of the interface, and detailed information of instrument information such as reagent conditions, quality control conditions, calibration conditions and the like of the sample analyzer can be checked by clicking the buttons.

In some scenarios, such as a 24-hour duty-system clinical laboratory, the personnel of the department have more requirements on the display theme of the overview interface, i.e., the overview interface is required to have a different display theme than conventional interfaces, which are not required to have multiple different display themes. Therefore, a first overview interface included in the information system in the first display mode and a second overview interface included in the information system in the second display mode may have different display themes, and the display themes between a first conventional interface included in the information system in the first display mode and a second conventional interface included in the information system in the second display mode may be the same, thereby satisfying the special requirements of the user on the display themes of the overview interface and the conventional interfaces in a specific scene.

Therefore, in a scene of a clinical laboratory of a 24-hour duty system and the like, a first overview interface and a first conventional interface included in the information system in the first display mode have different display themes; the second overview interface and the second conventional interface included in the information system in the second display mode have different display themes, that is, the display themes of the overview interface and the conventional interface in the same display mode are different.

The above describes a sample analyzer with different display themes of the display interface in different display modes. In order to solve the aforementioned pain point, in another embodiment of the sample analyzer based on the aforementioned structure of the sample analyzer and the structure of the processor 150, the processor is configured to obtain sample information and/or instrument information and generate an information system including at least one interface, and control the display to display the at least one interface included in the information system, and the processor may switch a display mode of the information system, where the display mode of the information system includes a first display mode and a second display mode. When the display mode of the information system is switched to a first display mode, the processor is used for controlling the display to display a first display interface in at least one level of display interfaces included in the first display mode; when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display a second display interface in at least one level of display interfaces included in the second display mode. The first display interface and the second display interface both comprise sample information and/or instrument information; the grade of the first display interface in the first display mode is the same as that of the second display interface in the second display mode, and the display layout of the first display interface and the second display interface is different; wherein the display layout includes at least one of a display theme or display information.

The display information may be sample information and/or instrument information. At least one level of display interface included in the first display mode and at least one level of display interface included in the second display mode are mutually independent and do not have the relationship of upper and lower levels. The display mode includes at least one level of display interface, which may form a level according to multiple modes, and one mode may be that the level is determined according to an association relationship between the display interfaces, for example, one display interface includes multiple keys, and a sub-interface can be displayed by clicking any key, that is, the display interface includes multiple sub-interfaces, and then according to the association relationship between the display interface and the multiple sub-interfaces, the display interface may be determined to be a superior interface, and the sub-interface is a subordinate interface. Another way may be that one display interface is determined as a main interface, and other display interfaces may be opened through the main interface, so that the main interface is a superior interface, and the other display interfaces are subordinate interfaces of the main interface. In another mode, the upper-lower level relationship may be determined between the overview interface and the conventional interface in the same display mode, or the upper-lower level relationship may be determined between a plurality of conventional interfaces in the same display mode. The level of at least one level of display interface included in the display modes can be determined in any manner, as long as it is ensured that the level determination manner of the display interface in the first display mode is the same as the level determination manner of the display interface in the second display mode.

Therefore, the information system is configured with a plurality of display modes, the display layout is changed when the display modes are switched, the change of the display layout may be a change of the display theme and/or the display information, the display mode of the information system may be switched to a display mode capable of meeting the viewing requirements of the user, and the corresponding display layout may also meet the requirements of the user on the display effect of the display interface, for example, meet the requirements of the user on the interface brightness of the display interface, or meet the requirements of the user on the color of the display interface, or meet the requirements of the user on the display information, and so on. Therefore, the plurality of display modes configured by the information system can be adapted to different scenes or different requirements of different users on the display effect of the display interface, the sample analyzer can display information based on the display mode meeting the watching requirements of the users, and the use experience of the users on the sample analyzer is improved.

For example, in the night period, if the user wants the interface not to be dazzled, the display mode of the information system may be switched to the display mode in which the interface brightness meets the user requirement, so that the interface brightness is suitable for the user to watch the display interface, and the watching experience of the user on the interface is improved.

The display theme may be content such as a visual style of the interface, and specifically includes at least one of interface brightness, background color, color of the display content, composition of the display content, and an icon style. Therefore, the display theme between the first display interface and the second display interface is different, and may be different from any one or more display themes, for example, the first display interface and the second display interface may only be different in interface brightness, or may be different in 3 display themes, that is, interface brightness, background color, and color of display content.

In a preferred embodiment of this embodiment, the color of the background of the first display interface and the color of the background of the second display interface are different neutral colors, and the neutral color is defined as a non-spectrum-selective object surface color according to the national standard "GB/T15608-2006 chinese color system", and includes absolute white and white, absolute black and black, and gray mixed by white and black according to different proportions, and the neutral color gives people a relaxed feeling, can avoid fatigue, and is stable, vivid and elegant, and is mainly used for blending color matching, and highlighting other colors. Therefore, the background color of the first display interface and the background color of the second display interface adopt different neutral colors, a relaxed atmosphere can be created when a user watches the display interface, the user can be prevented from generating visual fatigue, the display information in the interface can be highlighted, and the attention of the user can be focused on the display information more easily.

Hue is the primary characteristic of color and is one of the most accurate criteria for distinguishing between various colors. Thus, the difference between the neutral color of the background of the first display interface and the neutral color of the background of the second display interface can be distinguished based on the characteristic hue, and the hue characteristic of the neutral color can be determined based on hue circles, which refer to a circularly arranged hue spectrum in which colors are arranged in the order in which the spectrum appears in nature. The hue circle can be determined according to different standards, for example according to the national standard GB/Z35473-2017 color design System.

In another preferred embodiment of this embodiment, the first display mode is a display mode of the information system when the sample analyzer is used in the daytime, and the second display mode is a display mode of the information system when the sample analyzer is used in the nighttime. Because the illumination brightness of the environment where the sample analyzer is located is lower than that of the daytime, a user has requirements on the display subjects of interfaces such as interface brightness and interface color, for example, the interface brightness is lower than that of the daytime and the interface color is softer during the nighttime, and because a light-color interface makes people feel very dazzling and very abrupt during the nighttime, a dark-color interface is relatively softer during the nighttime, and the color lightness is larger and lighter under general conditions, therefore, based on the requirements of the user and scene changes, the lightness of the background color of the second display interface in the second display mode (i.e., the display mode at nighttime) can be set to be smaller than that of the background color of the first display interface in the first display mode (i.e., the display mode at daytime), so that the background of the second display interface at nighttime looks darker, the interface is softer visually and the interface looks more comfortable, and eyes can be prevented from being stimulated by light to protect the vision to a certain extent.

Meanwhile, in order to enable the display content in the interface to be different from the background in color so as to highlight the display content, the lightness of the color of the display content of the first display interface can be set to be smaller than the lightness of the color of the display content of the second display interface, so that the color difference between the display content and the background is more obvious, and the attention of a user can be focused on the display content more quickly.

In addition, the color of the display content of the first display interface can be set to be the same as the color of the background of the second display interface, and the color of the display content of the second display interface is the same as the color of the background of the first display interface, so that a color reversal effect is generated when the display mode at night and the display mode at daytime are switched, and the change of the display interface is reflected.

The difference of the interface colors is described by taking the first display interface and the second display interface as overview interfaces as examples. Fig. 5 is a schematic interface diagram of a first display interface during the daytime period, and fig. 6 is a schematic interface diagram of a second display interface during the nighttime period. As shown in fig. 5 and 6, the background of the display area corresponding to the sample overview in the first display interface is white, the background of the display area corresponding to the sample overview in the second display interface is dark gray or even close to black, and the interface with dark gray in the night period is softer visually; meanwhile, in order to highlight the contents, the color of the sample overview contents in the first display interface is set to be dark gray in sharp contrast with a white background, and the color of the sample overview contents in the second display interface is set to be white in sharp contrast with a dark gray background, so that the displayed contents are more conspicuous.

In addition, based on different requirements of users and scene changes in a night scene and a day scene, the interface brightness of the second display interface in the display mode in the night time period can be lower than the interface brightness of the first display interface in the display mode in the day time period, so that the interface is not too dazzling, and eyes are prevented from being stimulated by strong light when the interface is watched at night.

In another preferred embodiment of this embodiment, the processor may automatically switch the display mode on the premise that no input instruction of the user is received, or may switch the display mode based on an instruction of the input instruction of the user. Specifically, the display mode is automatically switched on the premise that no input instruction of a user is provided, and the specific mode may be that the sample analyzer is provided with a light sensor, the light sensor is used for sensing target illumination brightness of an environment where the sample analyzer is located, and after the target illumination brightness is obtained, the processor is used for switching the display mode of the information system to the display mode corresponding to the target illumination brightness according to the corresponding relation between the illumination brightness and the display mode, so that intelligent switching of the display mode based on the illumination brightness is realized.

For example, the correspondence relationship between the illumination brightness and the display mode may be that the first illumination brightness range corresponds to the first display mode, and the second illumination brightness range corresponds to the second display mode, and if the target illumination brightness falls within the first illumination brightness range, it is determined that the target illumination brightness corresponds to the first display mode, and the display mode of the information system is switched to the first display mode.

The specific mode of automatically switching the display mode without the user input instruction may be that the processor is configured to acquire a preset display mode switching condition, where the display mode switching condition indicates a correspondence between a time period of use of the sample analyzer and the display mode, acquire the current time, determine the display mode corresponding to the current time according to the display mode switching condition, and further switch the display mode of the information system to the display mode corresponding to the current time.

For example, the display mode switching condition specifically indicates that.

Therefore, the display mode can be switched intelligently without a user input instruction, the display mode can be switched automatically according to the actual scene change and the time change, manual switching by the user is not needed, the operation of the user is reduced, and the intelligence of the instrument is reflected.

In addition, the user can also input a display mode switching instruction to the sample analyzer, and the processor is configured to receive the instruction and switch the current display mode to the display mode indicated by the instruction. Therefore, the user can flexibly change the display mode of the information system to ensure that the display effect of the display interface is adapted to the own viewing habits and requirements.

In this embodiment, if the at least one level of display interface of the display mode is determined in a manner that the main interface and the other interfaces are opened through the main interface, the first display interface may be a main interface of the at least one level of display interface included in the first display mode or a lower level interface of the main interface, and the second display interface may be a main interface of the at least one level of display interface included in the second display mode or a lower level interface of the main interface.

On the other hand, if at least one level of display interfaces of the display modes are determined in the manner of the overview interface and the conventional interface, the first display interface may be an overview interface or a conventional interface of the at least one level of display interfaces included in the first display mode; the second display interface may be a summary interface or a conventional interface of at least one level of display interfaces included in the second display mode. The specific descriptions of the overview interface and the conventional interface are mentioned above and are not repeated herein.

In the embodiment of the present application, the sample analyzer may be a single sample analyzer, or a plurality of sample analyzers may be cascaded to form a sample analysis system, in which case the plurality of sample analyzers may share the same display 140, that is, the status information of the plurality of sample analyzers is all displayed on the same display, and a user may know the status information of each sample analyzer by only viewing one display.

Therefore, to solve the aforementioned pain point, an embodiment of the present application further provides a sample analysis system, which includes a first sample analyzer, a second sample analyzer, and a processor, wherein the processor is communicatively connected to the first sample analyzer, the second sample analyzer, and the display, respectively, wherein the first sample analyzer and the second sample analyzer can refer to the structure of the sample analyzer described in fig. 1, and the processor can refer to the structure of the processor 150 described in fig. 2.

The first sample analyzer and the second sample analyzer are respectively used for carrying out detection analysis on the sample to obtain a detection analysis result of the sample. The processor is used for acquiring the sample information and/or the instrument information of the first sample analyzer and the second sample analyzer, generating an information system comprising at least one interface, and controlling the display to display the at least one interface comprised by the information system. When the display mode of the information system is switched to a first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system; when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system. The first display interface and the second display interface both comprise sample information and/or instrument information; the at least one first display interface and the at least one second display interface have different display themes.

Therefore, the information system is configured with a plurality of display modes, the display theme is changed when the display modes are switched, the display modes of the information system can be switched to the display mode which can adapt to the viewing requirements of the user, and the corresponding display theme can also meet the requirements of the user on the display effect of the display interface, for example, the requirements of the user on the interface brightness of the display interface, or the requirements of the user on the color of the display interface, and the like. Therefore, the plurality of display modes configured by the information system can be adapted to different scenes or different requirements of different users on the display effect of the display interface, the sample analyzer can display information based on the display mode meeting the watching requirements of the users, and the use experience of the users on the sample analyzer is improved.

For example, in the night period, if the user wants the interface not to be dazzled, the display mode of the information system may be switched to the display mode in which the interface brightness meets the user requirement, so that the interface brightness is suitable for the user to watch the display interface, and the watching experience of the user on the interface is improved.

In the above description, the components of the sample analyzer and the components of the sample analysis system in the embodiment of the present application implement switching of the display mode, so that the display effect of the display interface meets the viewing habit and the requirement of the user, and a specific method for displaying information when the sample analyzer switches the display mode will be further described below based on the sample analyzer as a whole. Referring to fig. 7, an embodiment of an information display method in the embodiment of the present application includes:

701. acquiring a first display mode display instruction;

the method of this embodiment is applicable to the sample analyzer described previously. The first display mode display instruction obtained by the sample analyzer is used for indicating that a first display interface corresponding to the first display mode is displayed in the daytime period.

702. Responding to a first display mode display instruction in the daytime, and displaying a first display interface;

in this embodiment, the daytime time period and the nighttime time period may be different time periods in a day preset by a user. For example, the daytime time period can be preset as 06-00, and the nighttime time period can be preset as 00-06 and 18-00.

In addition to this, the daytime time zone and the nighttime time zone may be divided according to the illumination brightness. Specifically, the sample analyzer may be configured with a light sensor, the illumination brightness of the environment where the sample analyzer is located is obtained based on the light sensor, and a time period corresponding to the illumination brightness of the environment where the sample analyzer is located in a first preset range is a daytime time period, and a time period corresponding to the illumination brightness of the environment where the sample analyzer is located in a second preset range is a nighttime period, where there is no intersection between the first preset range and the second preset range. Therefore, if the current illumination brightness of the environment where the sample analyzer is located is within a first preset range, it is determined that the current time period is in the daytime, and then the first display interface is displayed in response to the first display mode display instruction.

703. Acquiring a second display mode display instruction;

in this embodiment, the second display mode display instruction is used to instruct the second display interface corresponding to the second display mode to be displayed in the night time period.

704. In the night time period, responding to a second display mode display instruction, and switching the currently displayed first display interface into a second display interface;

in this embodiment, the manner of determining the time period at night is similar to the manner of determining the time period at day, and is not described herein again.

And when the display mode is determined to be in the night time period, responding to a second display mode display instruction, and switching the currently displayed first display interface into a second display interface to realize the switching of the display modes. The display theme between the first display interface and the second display interface is different, and the display theme comprises at least one of interface brightness, interface background color or display content color and display content typesetting.

Therefore, the sample analyzer is configured with a plurality of display modes, the display theme is changed when the display modes are switched, the display mode of the sample analyzer can be switched to a display mode which can adapt to the viewing requirements of the user, and the corresponding display theme can also meet the requirements of the user on the display effect of the display interface, for example, meet the requirements of the user on the interface brightness of the display interface, or meet the requirements of the user on the color of the display interface, and the like. Therefore, the plurality of display modes configured by the sample analyzer can be adapted to different scenes or different requirements of different users on the display effect of the display interface, the sample analyzer can display information based on the display mode meeting the watching requirements of the users, and the use experience of the users on the sample analyzer is improved.

For example, in the night period, if the user wants the interface not to be dazzled, the display mode of the sample analyzer may be switched to the display mode in which the interface brightness meets the user requirement, so that the interface brightness is suitable for the user to watch the display interface, and the watching experience of the user on the interface is improved.

In a preferred implementation manner of this embodiment, the lightness of the interface background color of the first display interface is adapted to the ambient brightness in the daytime period, for example, a color with higher lightness is adopted, and the color appears lighter, so that the user may not be affected by the high ambient illumination brightness when viewing the information of the display interface. Meanwhile, the lightness of the interface background color of the second display interface is adapted to the ambient brightness in the night time period, for example, the interface with lower lightness looks darker, so that the interface is ensured to be softer visually, the interface looks more comfortable, and meanwhile, eyes can be prevented from being stimulated by light color light to a certain extent, and the eyesight of the eyes is protected.

In a preferred embodiment of this embodiment, because the illumination brightness of the environment where the sample analyzer is located is lower than that in the daytime during the night, the user has requirements on the interface brightness and the interface color and other interface display themes, for example, the interface brightness is lower and the interface color is softer than that in the daytime during the night, and because the light-colored interface makes people feel dazzling and very obtrusive at night, the dark-colored interface is relatively softer at night, and the color lightness is larger and the color is lighter under general conditions, based on the user requirements and scene changes, the lightness of the interface background color of the second display interface can be set to be smaller than that of the interface background color of the first display interface, so that the background of the second display interface at night looks darker, so that the interface is softer in vision and the interface looks more comfortable, and at the same time, eyes can be prevented from being stimulated by light color to some extent, and the eyesight of the eyes can be protected.

Meanwhile, in order to enable the display content in the interface to be different from the background in color so as to highlight the display content, the lightness of the color of the display content of the first display interface can be set to be smaller than the lightness of the color of the display content of the second display interface, so that the color difference between the display content and the background is more obvious, and the attention of a user can be focused on the display content more quickly.

In addition, based on different requirements of users and scene changes in a night scene and a day scene, the interface brightness of the second display interface in the display mode in the night time period can be lower than the interface brightness of the first display interface in the display mode in the day time period, so that the interface is not too dazzling, and eyes are prevented from being stimulated by strong light when the interface is watched at night.

In a preferred embodiment of this embodiment, the first display interface and the second display interface may be overview interfaces, and the overview interface is used to display overview information of the sample and/or the instrument. The detailed description of the overview interface is mentioned above and will not be described herein.

An embodiment of the present application further provides a computer storage medium, where one embodiment includes: the computer storage medium has stored therein instructions that, when executed on a computer, cause the computer to perform the operations described above as being performed by the sample analyzer in the embodiment illustrated in fig. 7.

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

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

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

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

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

Claims (22)

1. A sample analyzer, comprising an analysis module, a processor;

the analysis module is used for carrying out detection analysis on a sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information, generating an information system comprising at least one interface, and controlling the display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system;

the first display interface and the second display interface both comprise sample information and/or instrument information; at least one of the first display interfaces and at least one of the second display interfaces have different display themes.

2. The sample analyzer of claim 1, wherein the display theme includes at least one of interface brightness, background color, color of display content, and composition of display content.

3. The sample analyzer of claim 1, wherein the at least one first display interface comprises a first overview interface for displaying overview information of the sample information and/or overview information of the instrument information;

the at least one second display interface comprises a second overview interface for displaying overview information of the sample information and/or overview information of the instrument information;

the first overview interface and the second overview interface have different display themes.

4. The sample analyzer of claim 3, wherein the at least one first display interface includes a first conventional interface for displaying details of the sample information and/or details of the instrument information;

the at least one second display interface comprises a second conventional interface for displaying the detail information of the sample information and/or the detail information of the instrument information;

the first conventional interface and the second conventional interface have the same display theme.

5. The sample analyzer of claim 4, wherein the first conventional interface and the first overview interface have different display themes; the second conventional interface and the second overview interface have different display themes.

6. A sample analyzer, comprising an analysis module, a processor;

the analysis module is used for carrying out detection analysis on the sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information, generating an information system comprising at least one interface, and controlling a display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display a first display interface in at least one level of display interfaces included in the first display mode;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display a second display interface in at least one level of display interfaces included in the second display mode;

the first display interface and the second display interface both comprise sample information and/or instrument information; the grade of the first display interface in the first display mode is the same as that of the second display interface in the second display mode, and the display layout of the first display interface and the second display interface is different; wherein the display layout includes at least one of a display theme or display information.

7. The sample analyzer of claim 6 wherein the color of the background of the first display interface is a different neutral color than the color of the background of the second display interface.

8. The sample analyzer of claim 6, wherein the first display mode is a display mode of the information system during daytime use of the sample analyzer, and the second display mode is a display mode of the information system during nighttime use of the sample analyzer;

the lightness of the color of the background of the first display interface is greater than the lightness of the color of the background of the second display interface.

9. The sample analyzer of claim 6, wherein the first display mode is a display mode of the information system during daytime use of the sample analyzer, and the second display mode is a display mode of the information system during nighttime use of the sample analyzer;

the lightness of the color of the display content of the first display interface is less than the lightness of the color of the display content of the second display interface.

10. The sample analyzer of claim 6, wherein the color of the display content of the first display interface is the same as the color of the background of the second display interface; the color of the display content of the second display interface is the same as the color of the background of the first display interface.

11. The sample analyzer of any of claims 6 to 10, further comprising:

the light sensor is used for sensing the target illumination brightness of the environment where the sample analyzer is located;

the processor is used for switching the display mode of the information system into the display mode corresponding to the target illumination brightness according to the corresponding relation between the illumination brightness and the display mode.

12. The sample analyzer of any of claims 6 to 10, wherein the processor is configured to receive an input display mode switching instruction and switch a current display mode to a display mode indicated by the display mode switching instruction.

13. The sample analyzer of any of claims 6 to 10, wherein the processor is specifically configured to, when switching the display mode of the information system:

acquiring a preset display mode switching condition, wherein the display mode switching condition is used for representing the corresponding relation between the use time period and the display mode of the sample analyzer;

acquiring current time;

and switching the display mode of the information system to a display mode corresponding to the current time according to the display mode switching condition.

14. The sample analyzer of any one of claims 6 to 10, wherein the first display interface is a main interface or a subordinate interface of a main interface in at least one level of display interfaces included in the first display mode; the second display interface is a main interface or a lower interface of the main interface in at least one level of display interfaces included in the second display mode.

15. The sample analyzer of any of claims 6 to 10, wherein the first display interface is an overview interface or a conventional interface of at least one level of display interfaces included in the first display mode; the second display interface is an overview interface or a conventional interface in at least one level of display interfaces included in the second display mode.

16. A sample analysis system, comprising a first sample analyzer, a second sample analyzer, a processor; the processor is in communication with the first sample analyzer, the second sample analyzer, and the display, respectively;

the first sample analyzer and the second sample analyzer are used for carrying out detection analysis on a sample to obtain a detection analysis result of the sample;

the processor is used for acquiring sample information and/or instrument information of the first sample analyzer and the second sample analyzer, generating an information system comprising at least one interface, and controlling a display to display the at least one interface comprised by the information system;

the processor is used for switching display modes of the information system, wherein the display modes comprise a first display mode and a second display mode;

when the display mode of the information system is switched to the first display mode, the processor is used for controlling the display to display at least one first display interface included in the information system;

when the display mode of the information system is switched to the second display mode, the processor is used for controlling the display to display at least one second display interface included in the information system;

the first display interface and the second display interface both comprise sample information and/or instrument information; at least one of the first display interfaces and at least one of the second display interfaces have different display themes.

17. An information display method applied to a sample analyzer, the method comprising:

acquiring a first display mode display instruction, wherein the first display mode display instruction is used for indicating that a first display interface corresponding to a first display mode is displayed in a daytime period;

responding to the first display mode display instruction in the daytime period, and displaying the first display interface;

acquiring a second display mode display instruction, wherein the second display mode display instruction is used for indicating that a second display interface corresponding to a second display mode is displayed in a night time period;

in the night time period, responding to the second display mode display instruction, and switching the currently displayed first display interface into the second display interface;

the display theme between the first display interface and the second display interface is different, and the display theme comprises at least one of interface brightness, interface background color or display content color and display content typesetting.

18. The method of claim 17, wherein the lightness of the interface background color of the first display interface is adapted to the ambient brightness at the daytime time period; the lightness of the interface background color of the second display interface is adapted to ambient brightness in a night time period.

19. The method of claim 17, wherein the interface background color of the first display interface has a greater lightness than the interface background color of the second display interface;

the lightness of the color of the display content of the first display interface is less than the lightness of the color of the display content of the second display interface.

20. The method of claim 17, wherein the daytime period and the nighttime period are different periods preset during a day.

21. The method of claim 17, wherein the daytime time period is a time period corresponding to when the brightness of the light in the environment where the sample analyzer is located is within a first preset range; the night time period is a time period corresponding to the time when the illumination brightness of the environment where the sample analyzer is located is within a second preset range.

22. The method of any one of claims 17 to 21, wherein the first display interface and the second display interface are overview interfaces for displaying overview information of a sample and/or instrument.

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