CN115902252A - Sample analyzer and information display method - Google Patents

Abstract

The invention provides a sample analyzer and an information display method, wherein calibration detection result descriptions corresponding to all calibration items are displayed in a calibration page; and responding to the checking operation of the calibration result of the target item, and displaying a calibration detection result description, a calibration curve and a calibration trend corresponding to the target item in a calibration result checking sub-interface in a calibration page, wherein the target item is any one of the calibration items. The user can learn the main information of each calibration item in the calibration page, and when the detailed information of the target item needs to be deeply known, the user can further check the calibration detection result description, the calibration curve and the calibration trend of the target item through operation, so that the operation steps of the user are reduced, the operation time of the user can be greatly saved, and the working efficiency of the user is improved.

Description

Sample analyzer and information display method

Technical Field

The invention relates to the technical field of sample analyzers, in particular to a sample analyzer and an information display method.

Background

As a test instrument, the sample analyzer is popular with users due to its high degree of automation and high test speed. When a reagent of a sample analyzer is calibrated, abnormal information of a calibration result needs to be acquired, and the reason for the abnormal information is checked according to the abnormal information.

At present, the status and related information of the calibration result are usually presented in the form of a table and a dialog box, and a user needs to look at the information in the table one by one to find abnormal information of the calibration result. This method requires a lot of time, resulting in low work efficiency for the user.

Disclosure of Invention

In view of this, embodiments of the present invention provide a sample analyzer and an information display method to improve the working efficiency of a user.

In order to achieve the above purpose, the embodiments of the present invention provide the following technical solutions:

according to a first aspect, there is provided in one embodiment a sample analyzer comprising:

a sample supply device for supplying a measurement sample;

a reagent supply device for supplying a reagent;

a sample preparation device for mixing the measurement sample provided by the sample supply device and the reagent provided by the reagent supply device to prepare a sample to be measured;

the measuring device is used for checking the sample to be measured corresponding to at least one calibration item to obtain a calibration detection result;

the display device is used for displaying the calibration detection result descriptions corresponding to all the calibration items in a calibration page;

and the control device is used for responding to the calibration result viewing operation of the target item, controlling the display device to display the calibration detection result description, the calibration curve and the calibration trend corresponding to the target item in the calibration result viewing sub-interface in the calibration page, wherein the target item is any one of the calibration items.

In an embodiment, the calibration page further includes a calibration overview sub-interface, and the display device is specifically configured to: and displaying the calibration detection result description corresponding to all the calibration items in the form of a card in the calibration overview sub-interface.

In one embodiment, the calibration detection result comprises an abnormal calibration result, a warning of the calibration result, or a normal calibration result;

correspondingly, the display device is also used for: and displaying the calibration detection result descriptions corresponding to all the calibration items in a color matched with the calibration detection result in the calibration overview sub-interface.

In an embodiment, the control device is specifically configured to: and in response to an instruction for selecting a target item in the calibration overview sub-interface, controlling the display device to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, wherein the calibration result viewing sub-interface can switch and display a calibration curve and a calibration trend corresponding to the target item, and the calibration trend at least comprises a calibration trend graph corresponding to the same calibrator with different concentrations in the target item.

In an embodiment, the calibration overview sub-interface is at least provided with a calibration curve entry and a calibration trend entry corresponding to each calibration item, and the calibration result viewing sub-interface is configured to display the calibration curve and the calibration trend in a switchable manner, and the control device is specifically configured to:

when an instruction of clicking a calibration curve inlet corresponding to the target item is detected, controlling the display device to display a calibration curve corresponding to the target item in the calibration result viewing sub-interface;

and when an instruction of clicking a calibration trend inlet corresponding to the target item is detected, controlling the display device to display the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

In an embodiment, the control device is specifically configured to: and in response to an instruction for selecting a target item in the calibration overview sub-interface, controlling the display device to switch from the calibration overview sub-interface to a calibration result viewing sub-interface, and displaying a calibration curve and a calibration trend corresponding to the target item in the calibration result viewing sub-interface.

In one embodiment, the control device is further configured to: and in response to an instruction of clicking on the calibration trend graph of any calibrator of the target item, controlling the display device to enlarge and display the clicked calibration trend graph, wherein each data point in the clicked calibration trend graph is associated with the reaction curve of any calibrator.

In one embodiment, the calibration page further includes a response curve sub-interface, and the control device is further configured to: when a reaction curve viewing operation in the calibration curve or calibration trend for the target item is detected, controlling the display device to switch from the calibration result viewing sub-interface to the reaction curve sub-interface, and displaying a reaction curve of any calibrator in the target item in the reaction curve sub-interface.

In one embodiment, the calibration page further includes a response curve sub-interface, and the control device is further configured to: and responding to the response curve viewing operation of the target item, and displaying the response curve of any calibrator in the target item in the response curve sub-interface.

In one embodiment, the reaction curve sub-interface is provided with a recalculation control.

In one embodiment, the calibration result viewing sub-interface further comprises: and the calibration item list is arranged on top of the calibration item list, displays the calibration detection result description corresponding to the target item and displays the item identifications of other calibration items, and the sequence of the item identifications of other calibration items displayed by the calibration item list is the same as that of the calibration overview sub-interface.

In one embodiment, the control device is further configured to: and controlling the display device to display the calibration information corresponding to the selected data point in response to an instruction for selecting any data point in the calibration trend graph.

According to a second aspect, there is provided in an embodiment an information display method, the method comprising:

displaying calibration detection result descriptions corresponding to all calibration items in a calibration page;

and responding to a calibration result viewing operation of a target item, and displaying a calibration detection result description, a calibration curve and a calibration trend corresponding to the target item in a calibration result viewing sub-interface in the calibration page, wherein the target item is any one of the calibration items.

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

the user can know the main information of each calibration item in the calibration page, and when the detailed information of the target item needs to be deeply known, the user can further check the calibration detection result description, the calibration curve and the calibration trend of the target item through operation, so that the operation steps of the user are reduced, the operation time of the user can be greatly saved, and the working efficiency of the user is improved.

Drawings

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

Fig. 1 is a schematic structural diagram of a sample analyzer according to an embodiment of the present invention;

FIG. 2 (a) is an exemplary diagram of a calibration overview sub-interface; FIG. 2 (b) is another exemplary diagram of a calibration overview sub-interface; FIG. 2 (c) is another exemplary diagram of a calibration overview sub-interface;

FIG. 3 (a) is an exemplary diagram of a calibration result viewing sub-interface; FIG. 3 (b) is another exemplary diagram of a calibration result viewing sub-interface;

FIG. 4 (a) is an exemplary plot of a calibration trend plot; FIG. 4 (b) is another exemplary graph of a calibration trend graph;

FIG. 4 (c) is an exemplary plot of a calibration trend plot;

FIG. 5 (a) is an exemplary plot of a reaction curve sub-interface; FIG. 5 (b) is another exemplary graph of a reaction curve sub-interface;

fig. 6 is a flowchart of an information display method according to an embodiment of the present invention.

Detailed Description

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

In this application, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

At present, when the state and the related information of the calibration result are displayed, the state and the related information are usually displayed in the form of a table and a dialog box, and in such a display mode, a user needs to check the information in the table one by one to find the abnormal information of the calibration result. This method requires a lot of time, resulting in low working efficiency for the user.

The inventor finds out through repeated research and verification that the main information of each calibration item is provided for the user through the calibration page, when the user needs to deeply know the detailed information of a certain calibration item, the user can further check and check the calibration detection result description, the calibration curve and the calibration trend of the calibration item needing to be known through operation, the operation steps of the user are reduced, the operation time of the user can be greatly saved, and the working efficiency of the user is further improved.

By applying some embodiments of the present invention, the actual application scenarios are as follows: the user knows the main information of each calibration item through the calibration page, which includes but is not limited to: when a user needs to deeply check the detailed information of a certain calibration item, the user can further check the calibration detection result description, the calibration curve and the calibration trend of the calibration item through operation, a hierarchical information checking mode is provided for the user, the operation time of the user can be greatly saved, and the working efficiency of the user is further improved.

The present invention will be described in detail below with reference to examples.

Some embodiments of the invention disclose a sample analyzer. Referring to fig. 1, the sample analyzer in some embodiments includes: a sample supply device 100, a reagent supply device 200, a sample preparation device 300, a measurement device 400, a display device 500, and a control device 600.

Specifically, the specimen-supply device 100 is used to supply a measurement specimen; a reagent supply device 200 for supplying a reagent; a sample preparation device 300 for mixing the measurement sample supplied from the sample supply device 100 and the reagent supplied from the reagent supply device 300 to prepare a sample to be measured; the measuring device 400 is used for checking the sample to be measured corresponding to at least one calibration item to obtain a calibration detection result; the display device 500 is used for displaying the calibration detection result descriptions corresponding to all the calibration items in the calibration page; the control device 600 is configured to control the display device 500 to display, in response to the calibration result viewing operation on the target item, the calibration detection result description, the calibration curve, and the calibration trend corresponding to the target item in the calibration result viewing sub-interface in the calibration page, where the target item is any calibration item.

It can be understood that the display device 500 displays a calibration page, in which calibration detection results corresponding to each calibration item are displayed, and a user can check the calibration detection results corresponding to each calibration item through the calibration page displayed by the display device 500, so as to know the calibration state of each calibration item, select a calibration item (i.e., a target item) in which detailed information needs to be checked in depth according to actual needs, and display a calibration detection result description, a calibration curve, and a calibration trend corresponding to the target item in a calibration result checking sub-interface.

In some embodiments, the calibration page further includes a calibration overview sub-interface, and the display device 500 displays the calibration detection result descriptions corresponding to all calibration items in the calibration overview sub-interface in the form of cards; specifically, a plurality of cards are displayed in the calibration overview sub-interface, each card corresponds to one calibration item, and a calibration detection result description corresponding to the calibration item is displayed on each card.

In some embodiments, the calibration result corresponding to each calibration item is abnormal, warning or normal, and the display device 500 displays the calibration result descriptions corresponding to all calibration items in a color matching with the calibration result in the calibration overview sub-interface; wherein the abnormal calibration result indicates a calibration delay or a calibration coverage, and the warning of the calibration result indicates an expired calibration or a failed calibration.

As shown in fig. 2 (a), the calibration overview sub-interface (taking the biochemical analyzer as an example) clicks the "calibration overview" button in the navigation bar, the calibration overview sub-interface displays the calibration test result description corresponding to each calibration item in the form of a card, and displays the calibration result warning in red, displays the calibration result abnormality in orange, displays the calibration result abnormality in non-color filling, and displays the calibration test result warning (calibration failure) of the calibration item "CA125" in fig. 2 (a) in red, then displays the card corresponding to the calibration item "CA125" in red; if the calibration detection result of the calibration item "MYO" in fig. 2 (a) is abnormal (calibration override), the card corresponding to the calibration item "MYO" is displayed in orange; if the calibration result of the calibration item "ProGRP" in fig. 2 (a) is normal (successful calibration), the card corresponding to the calibration item "ProGRP" has no filling color. It should be noted that, in the calibration overview sub-interface shown in fig. 2 (a), the given color for displaying the calibration detection result descriptions corresponding to the different calibration detection results is only used for illustration, and is not specifically limited, and the calibration detection result descriptions corresponding to the different calibration detection results may also be displayed in other colors according to the actual situation; in the calibration overview sub-interface shown in fig. 2 (a), the style of the card used for showing the calibration detection result description is also used for illustration only, and cards of other styles may also be used for showing, which is not illustrated in the embodiment of the present invention.

In the above embodiment, regarding how to display the relevant content of the calibration detection result description of the calibration item in the calibration overview sub-interface, the user can know the main information of each calibration item through the card corresponding to the calibration item displayed in the calibration overview sub-interface, and does not need to look up the main information of each calibration item one by looking up the information in the table, so that the time of the user can be greatly saved, and the use experience of the user is improved.

It is to be understood that, in the above embodiments, the calibration overview sub-interface displays the calibration test result descriptions corresponding to all the calibration items in the form of cards, and in some specific embodiments, the calibration overview sub-interface may also display the calibration test result descriptions corresponding to all the calibration items in the form of lists. Specifically, in the list displayed on the calibration overview sub-interface, each column of data corresponds to a calibration test result description of a calibration item, as shown in another exemplary diagram of the calibration overview sub-interface shown in fig. 2 (b), a "calibration result view" button in the navigation bar is clicked, the calibration test result description corresponding to each calibration item is displayed in the calibration overview sub-interface in the form of a list, wherein the calibration test result descriptions corresponding to all calibration items are also displayed in a color matching with the calibration test result, which is detailed in the exemplary content of fig. 2 (a), and is not repeated herein.

In the above embodiment, calibration test result descriptions corresponding to all calibration items may also be displayed in the calibration overview sub-interface in a list form, and a user may select to display the calibration test result descriptions corresponding to all calibration items in a card form or a list form according to actual requirements, so as to meet diversified requirements of the user and improve user experience.

In some embodiments, the control device 600, in response to an instruction for selecting a target item in the calibration overview sub-interface, controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, where the calibration result viewing sub-interface can switch to display a calibration curve and a calibration trend corresponding to the target item, where the calibration trend includes at least a calibration trend graph corresponding to different concentrations of the same calibrator in the target item. That is to say, the control device 600, in response to an instruction of selecting a target item in the calibration overview sub-interface by a user, controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and switches and displays the calibration curve or the calibration trend corresponding to the target item in the calibration result viewing sub-interface, that is, in response to a switching instruction of the user, controls the display device 500 to switch and display the calibration curve and the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

Through the content of the above embodiment, an actual application scenario is as follows: the user knows the calibration test results of the calibration items through the calibration test result descriptions corresponding to the calibration items displayed in the form of a card (or in the form of a list) on the calibration overview sub-interface. At this time, the user clicks (or in other triggering manners) the card corresponding to the calibration item (at this time, the calibration item is the target item) for which the calibration detection result is a calibration result warning, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and the user can switch to display the calibration curve and the calibration trend corresponding to the target item through the operation in the calibration result viewing sub-interface.

It should be noted that the instruction for selecting the target item in the calibration overview sub-interface may be a trigger manner such as clicking or right sliding by a gesture, and a specific trigger manner of the instruction for selecting the target item is not specifically limited in the embodiment of the present invention.

For example, in the exemplary diagram of the calibration result viewing sub-interface shown in fig. 3 (a), in response to an instruction for selecting a target item "TP" in the calibration overview sub-interface, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and displays the calibration curve of the target item in the calibration result viewing sub-interface, where information of the name, concentration, reactivity, batch number, parameters, parameter values, and the like of the calibrator corresponding to each calibrator of the target item is displayed in a right area (by way of example only) of the calibration curve.

With reference to the content shown in fig. 3 (a), when the calibration result viewing sub-interface displays the calibration curve corresponding to the target item, the control device 600 may control the display device 500 to switch and display the calibration trend corresponding to the target item in the calibration result viewing sub-interface in response to a switching instruction of the user, for example, clicking the "calibration trend" button in fig. 3 (a), where the switched and displayed calibration trend is shown in fig. 3 (b), and the calibration trend corresponding to the target item is displayed in the calibration result viewing sub-interface shown in fig. 3 (b), where the calibration trend includes at least a calibration trend graph corresponding to the same calibrator with different concentrations in the target item.

It can be understood that, when the calibration result viewing sub-interface displays the calibration trend of the target item, the user may view the calibration trend graph to know the historical calibration trend of the target item, for example, in fig. 3 (b), the user may view the calibration trend graph (the horizontal axis in the calibration trend graph is a number of times, and may be used to reflect time) to know the historical calibration trend of the target item, and if the calibration detection result of the target item is a calibration result warning, the user may screen a reason that the current calibration detection result of the target item is a calibration result warning through the historical calibration trend.

In some embodiments, in the case that the display device 500 displays the calibration result viewing sub-interface, the control device 600 controls the display device 500 to return to the calibration overview sub-interface from the calibration result viewing sub-interface in response to the instruction of returning to the calibration overview sub-interface, that is, supports the function of returning to the calibration overview sub-interface by one key.

The content of the above embodiment can realize the hierarchical progressive checking of the detailed information of the calibration item, that is, the user can select the target item from the calibration overview sub-interface, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and the user can switch to check the calibration curve and the calibration trend of the target item through the operation in the calibration result viewing sub-interface; similarly, the calibration curve and calibration trend of the target item can be viewed in other ways, as described in detail below.

In some embodiments, the calibration overview sub-interface is provided with at least a calibration curve entry and a calibration trend entry corresponding to each calibration item, and the calibration result viewing sub-interface can switch to display the calibration curve and the calibration trend, such as another exemplary diagram of the calibration overview sub-interface shown in fig. 2 (c), the calibration overview sub-interface displays calibration detection result descriptions corresponding to all calibration items in the form of cards, and the cards corresponding to the calibration items are provided with the calibration curve entries and the calibration trend entries; similarly, when the calibration overview sub-interface displays the calibration detection result descriptions corresponding to all the calibration items in a list, the calibration curve entry and the calibration trend entry corresponding to each calibration item may also be set at the corresponding position of each column of data, which is not illustrated herein.

When detecting an instruction for clicking the calibration curve entry corresponding to the target item, the control device 600 controls the display device 500 to display the calibration curve corresponding to the target item in the calibration result viewing sub-interface; when detecting an instruction of clicking the calibration trend entry corresponding to the target item, the control device 600 controls the display device 500 to display the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

That is, when detecting an instruction to click the calibration curve entry corresponding to the target item in the calibration overview sub-interface, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and displays the calibration curve corresponding to the target item in the calibration result viewing sub-interface; when detecting an instruction to click the calibration trend entry corresponding to the target item in the calibration overview sub-interface, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and displays the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

In the above embodiment, the calibration curve entry and the calibration trend entry corresponding to the calibration item are set in the calibration overview sub-interface, so that the user can view the corresponding calibration curve through the calibration curve entry of the target item and view the corresponding calibration trend through the calibration trend entry of the target item in the calibration overview sub-interface. Similarly, the calibration curve and calibration trend of the target item can be viewed in other ways, as detailed below.

In some embodiments, in response to the instruction for selecting the target item in the calibration overview sub-interface, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and display the calibration curve and the calibration trend corresponding to the target item in the calibration result viewing sub-interface. That is to say, the control device 600 controls the display device 500 to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, and displays the calibration curve and the calibration trend corresponding to the target item in the calibration result viewing sub-interface in a centralized manner, that is, the calibration curve and the calibration trend corresponding to the target item are displayed on the same page, for example, the page is a folding page, and the user can unfold the page and view the calibration curve and the calibration trend corresponding to the target item by means of a sliding roller; another example is: the page comprises two switchable sub-pages, and the calibration curve and the calibration trend corresponding to the target item can be checked by switching the sub-pages.

The content of each embodiment provides various modes for checking the calibration curve and the calibration trend of the target item for the user, so that the diversified requirements of the user are met, and the use experience of the user is improved.

In some embodiments, the calibration result viewing sub-interface further comprises: and the calibration item list is arranged at the top of the calibration item list to display the calibration detection result description corresponding to the target item and the item identifications of other calibration items, and the sequence of the item identifications of the other calibration items displayed in the calibration item list is the same as the sequence of the item identifications of the other calibration items displayed in the calibration overview sub-interface. For example: as shown in fig. 3 (a), the exemplary diagram of the calibration result viewing sub-interface is that the area below the "item name" is the calibration item list, and the calibration item "TP" is the target item, at this time, the calibration detection result description corresponding to "TP" is displayed at the top in the calibration item list, and for other calibration items, only the item identifiers of other calibration items are displayed in the calibration item list, and the display order of the item identifiers of other calibration items in the calibration item list is the same as the display order of the calibration overview sub-interface.

In some embodiments, as can be seen from the above, the calibration trend displayed in the calibration result viewing sub-interface at least includes calibration trend graphs corresponding to the same calibrator with different concentrations in the target item, that is, displays multiple calibration trend graphs of the target item, where any displayed calibration trend graph can be enlarged, and the specific implementation manner is: the control device 600 controls the display device 500 to enlarge and display the clicked calibration trend chart in response to an instruction of clicking on the calibration trend chart of any calibrator of the target item, wherein each data point in the clicked calibration trend chart is associated with a response curve of any calibrator. For example: the calibration result viewing sub-interface shown in fig. 3 (b) displays a plurality of calibration trend graphs corresponding to the target items, and the control device 600 controls the display device 500 to enlarge and display the calibration trend graph of "WATER" in response to an instruction of clicking the calibration trend graph of "WATER", and the enlarged and displayed calibration trend graph of "WATER" is shown in fig. 4 (a).

It should be noted that, each data point in the clicked calibration trend graph is associated with a reaction curve of any calibrator in the target item; as shown in fig. 4 (a), the right area (only example) of the calibration trend graph of "WATER" displayed in an enlarged manner shows information such as the number of each calibrator, the test time, and the concentration, and each data point in the calibration trend graph is associated with a reaction curve of the calibrator having the same number of times as its corresponding data point, for example, a reaction curve of the calibrator having a number 2 is associated with a data point having a number 2.

In some embodiments, the control device 600, in response to an instruction for selecting any data point in the calibration trend graph (which may be an unmagnified calibration trend graph or an enlarged calibration trend graph), controls the display device 500 to display the calibration information corresponding to the selected data point; the method is divided into two cases, wherein the first case is as follows: the control device 600 controls the display device 500 to display the calibration information corresponding to the selected data point in response to an instruction for selecting any data point in the calibration trend graph which is not displayed in an enlarged manner; as an example diagram of the calibration trend graph shown in fig. 4 (b), the control device 600 controls the display device 500 to display the calibration information corresponding to the selected data point in response to an instruction to select a data point in the calibration trend graph which is not displayed in an enlarged manner; the second case is: the control device 600 responds to an instruction for selecting any data point in the amplified and displayed calibration trend graph, and controls the display device 500 to display the calibration information corresponding to the selected data point; as an example diagram of the calibration trend graph shown in fig. 4 (c), the control device 600 controls the display device 500 to display the calibration information corresponding to the selected data point in response to an instruction to select the data point in the calibration trend graph displayed in an enlarged manner. It is understood that the calibration information for the data points in the calibration trend graph includes at least: reactivity, calibration time, number of times, etc.

In some specific embodiments, when the calibration curve or the calibration trend of the target item is displayed, the user can view the reaction curve of any calibrator in the target item, and the specific implementation manner is as follows: the calibration page further includes a response curve sub-interface, and when the control device 600 detects a response curve viewing operation in the calibration curve or the calibration trend for the target item, the control device controls the display device 500 to switch from the calibration result viewing sub-interface to the response curve sub-interface, and display a response curve of any calibrator in the target item in the response curve sub-interface.

That is, when the control device 600 detects a reaction curve viewing operation of the calibration curve for the target item, the control display device 500 switches from the calibration result viewing sub-interface to the reaction curve sub-interface in which the reaction curve of any one of the calibrators in the target item is displayed. For example: when the "response curve" button in fig. 3 (a) is triggered, the control device 600 detects a response curve viewing operation in the calibration curve for the target item, and controls the display device 500 to switch from the calibration result viewing sub-interface to the response curve sub-interface, where the displayed response curve of the response curve sub-interface is as shown in fig. 5 (a).

When the control device 600 detects a response curve viewing operation of the calibration trend for the target item, the control device 500 switches from the calibration result viewing sub-interface to a response curve sub-interface in which the response curve of any one of the calibrators in the target item is displayed. For example: when the "response curve" button corresponding to any calibrator in the right area of the calibration trend graph displayed in an enlarged manner in fig. 4 (a) is triggered, the control device 600 detects a response curve viewing operation in the calibration trend for the target item, and controls the display device 500 to switch from the calibration result viewing sub-interface to the response curve sub-interface, where the response curve displayed by the response curve sub-interface is as shown in fig. 5 (b).

The content of each of the above embodiments is related to switching from the calibration result viewing sub-interface to the reaction curve sub-interface when a reaction curve viewing operation in the calibration curve or the calibration trend for the target item is detected. In some specific embodiments, the target item may be further subjected to corresponding operations in the calibration page to check a reaction curve of any calibrator in the target item, and the specific implementation manner is as follows: the control means 600 displays the reaction curve of any of the calibrators in the target item in the reaction curve sub-interface in response to the reaction curve viewing operation for the target item.

In some embodiments, the reaction curve sub-interface is provided with a recalculation control, such as the "recalculation" control illustrated in fig. 5 (a) and 5 (b). When the control apparatus 600 detects that a re-calculation control in the reaction curve sub-interface is triggered, the control apparatus 600 may re-calculate based on the re-selected parameters or calibration method.

The content of the above embodiment is about providing the main information of each calibration item to the user through the calibration page, and the user can further check the related content of the detailed information of the calibration item to be known through operation, so as to provide a hierarchical progressive information checking manner for the user, reduce the operation steps of the user, greatly save the operation time of the user, and further improve the working efficiency of the user.

The above is some description about the sample analyzer, and some embodiments of the present invention also disclose an information display method.

Referring to fig. 6, in some embodiments, the information display method includes the following steps:

step S601: and displaying the calibration detection result descriptions corresponding to all the calibration items in the calibration page.

In some embodiments, the calibration page further includes a calibration overview sub-interface, in which calibration test result descriptions corresponding to all calibration items are displayed in the form of cards.

In some embodiments, the calibration detection result comprises an abnormal calibration result, a warning of a normal calibration result, or a normal calibration result; in the calibration overview sub-interface, calibration test result descriptions corresponding to all calibration items are displayed in a color matching the calibration test results.

Step S602: and responding to the checking operation of the calibration result of the target item, and displaying the calibration detection result description, the calibration curve and the calibration trend corresponding to the target item in a calibration result checking sub-interface in the calibration page.

The target item is any calibration item.

In some embodiments, in response to an instruction for selecting a target item in the calibration overview sub-interface, switching from the calibration overview sub-interface to the calibration result viewing sub-interface, where the calibration result viewing sub-interface may switch to display a calibration curve and a calibration trend corresponding to the target item, and the calibration trend includes at least a calibration trend graph corresponding to the same calibrator with different concentrations in the target item.

In some embodiments, the calibration overview sub-interface is at least provided with a calibration curve entry and a calibration trend entry corresponding to each calibration item, and when an instruction for clicking the calibration curve entry corresponding to the target item is detected, the calibration curve corresponding to the target item is displayed in the calibration result viewing sub-interface; and when an instruction of clicking a calibration trend inlet corresponding to the target item is detected, displaying the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

In some embodiments, in response to an instruction to select a target item in the calibration overview sub-interface, switching from the calibration overview sub-interface to the calibration result viewing sub-interface, and displaying a calibration curve and a calibration trend corresponding to the target item in the calibration result viewing sub-interface.

In some embodiments, in response to an instruction to click on a calibration trend graph of any calibrator for the target item, the clicked calibration trend graph is displayed in an enlarged manner, and each data point in the clicked calibration trend graph is associated with a response curve of any calibrator.

In some embodiments, the calibration page further includes a reaction curve sub-interface, and when a reaction curve viewing operation in the calibration curve or calibration trend for the target item is detected, the calibration result viewing sub-interface is switched to the reaction curve sub-interface, and the reaction curve of any calibrator in the target item is displayed in the reaction curve sub-interface.

In some embodiments, in response to a response curve viewing operation on the target item, a response curve for any of the calibrators in the target item is displayed in the response curve sub-interface.

In some embodiments, the reaction curve sub-interface is provided with a recalculation control.

In some embodiments, the calibration result viewing sub-interface further comprises: and the calibration item list is arranged on the top to display the calibration detection result description corresponding to the target item and the item identifications of other calibration items, and the sequence of the item identifications of the other calibration items displayed by the calibration item list is the same as that of the calibration overview sub-interface.

In some embodiments, in response to an instruction to select any data point in the calibration trend graph, calibration information corresponding to the selected data point is displayed.

It should be noted that, the execution principle of each step in fig. 6 has been described in detail above for the sample analyzer, and is not repeated herein.

As can be seen from the above, after applying the present invention, one application scenario may be: the user can learn the main information of each calibration item through the calibration page, when the user needs to deeply check the detailed information of a certain calibration item, the user can check the calibration detection result description, the calibration curve and the calibration trend of the calibration item in a progressive mode through operation, a progressive information checking mode is provided for the user, the operation time of the user can be greatly saved, and the working efficiency of the user is further improved.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Those of skill would further appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the components and steps of the various examples have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (13)

1. A sample analyzer, comprising:

a sample supply device for supplying a measurement sample;

a reagent supply device for supplying a reagent;

a sample preparation device for mixing the measurement sample provided by the sample supply device and the reagent provided by the reagent supply device to prepare a sample to be measured;

the measuring device is used for checking the sample to be measured corresponding to at least one calibration item to obtain a calibration detection result;

the display device is used for displaying calibration detection result descriptions corresponding to all the calibration items in a calibration page, and the calibration page comprises a calibration result viewing sub-interface;

and the control device is used for responding to the calibration result viewing operation of the target item, controlling the display device to display the calibration detection result description, the calibration curve and the calibration trend corresponding to the target item in the calibration result viewing sub-interface, wherein the target item is any one of the calibration items.

2. The sample analyzer of claim 1, wherein the calibration page further includes a calibration overview sub-interface, and the display device is specifically configured to: and displaying the calibration detection result descriptions corresponding to all the calibration items in the form of cards in the calibration overview sub-interface.

3. The sample analyzer of claim 2, wherein the calibration detection result includes a calibration result anomaly, a calibration result warning, or a calibration result normality;

correspondingly, the display device is also used for: and displaying the calibration detection result descriptions corresponding to all the calibration items in a color matched with the calibration detection result in the calibration overview sub-interface.

4. The sample analyzer of claim 2, wherein the control device is specifically configured to: and in response to an instruction for selecting a target item in the calibration overview sub-interface, controlling the display device to switch from the calibration overview sub-interface to the calibration result viewing sub-interface, wherein the calibration result viewing sub-interface can switch and display a calibration curve and a calibration trend corresponding to the target item, and the calibration trend at least comprises a calibration trend graph corresponding to the same calibrator with different concentrations in the target item.

5. The sample analyzer as claimed in claim 2, wherein the calibration overview sub-interface is provided with at least a calibration curve entry and a calibration trend entry corresponding to each calibration item, and the calibration result viewing sub-interface is configured to display the calibration curve and the calibration trend in a switchable manner, and the control device is specifically configured to:

when an instruction of clicking a calibration curve inlet corresponding to the target item is detected, controlling the display device to display a calibration curve corresponding to the target item in the calibration result viewing sub-interface;

and when an instruction of clicking a calibration trend inlet corresponding to the target item is detected, controlling the display device to display the calibration trend corresponding to the target item in the calibration result viewing sub-interface.

6. The sample analyzer of claim 2, wherein the control device is specifically configured to: and in response to an instruction of selecting a target item in the calibration overview sub-interface, controlling the display device to switch from the calibration overview sub-interface to a calibration result viewing sub-interface, and displaying a calibration curve and a calibration trend corresponding to the target item in the calibration result viewing sub-interface.

7. The sample analyzer of claim 4, 5 or 6, wherein the control device is further configured to: and in response to an instruction of clicking on a calibration trend graph of any calibrator of the target item, controlling the display device to display the clicked calibration trend graph in an enlarged mode, wherein each data point in the clicked calibration trend graph is associated with a reaction curve of any calibrator.

8. The sample analyzer of claim 5, 6 or 7 wherein the calibration page further comprises a reaction curve sub-interface, the control means further for: when a response curve viewing operation in the calibration curve or calibration trend for the target item is detected, controlling the display device to switch from the calibration result viewing sub-interface to the response curve sub-interface, and displaying a response curve of any calibrator in the target item in the response curve sub-interface.

9. The sample analyzer of claim 1 wherein the calibration page further includes a response curve sub-interface, the control device further configured to: and responding to the response curve viewing operation of the target item, and displaying the response curve of any calibrator in the target item in the response curve sub-interface.

10. The sample analyzer of claim 8 or 9 wherein the reaction curve sub-interface is provided with a recalculation control.

11. The sample analyzer of claim 1 wherein the calibration result viewing sub-interface further comprises: and the calibration item list is arranged on top of the calibration item list, displays the calibration detection result description corresponding to the target item and displays the item identifications of other calibration items, and the sequence of the item identifications of other calibration items displayed by the calibration item list is the same as that of the calibration overview sub-interface.

12. The sample analyzer of claim 7, wherein the control device is further configured to: and controlling the display device to display the calibration information corresponding to the selected data point in response to an instruction for selecting any data point in the calibration trend graph.

13. An information display method, characterized in that the method comprises:

displaying calibration detection result descriptions corresponding to all calibration items in a calibration page;

and responding to a calibration result viewing operation of a target item, and displaying a calibration detection result description, a calibration curve and a calibration trend corresponding to the target item in a calibration result viewing sub-interface in the calibration page, wherein the target item is any one of the calibration items.

Images