CN115267226A

CN115267226A - Analyzer, calibration application method, and storage medium therefor

Info

Publication number: CN115267226A
Application number: CN202210808087.XA
Authority: CN
Inventors: 念洛竹; 周丹萍; 马德新
Original assignee: Zhongyuan Huiji Biotechnology Co Ltd
Current assignee: Zhongyuan Huiji Biotechnology Co Ltd
Priority date: 2022-07-08
Filing date: 2022-07-08
Publication date: 2022-11-01

Abstract

The invention discloses an analyzer, a calibration application method and a storage medium, and belongs to the field of analyzers. The method comprises the steps of displaying a first identifier corresponding to a reagent and comprising target information on an interface, wherein the target information comprises a batch number and/or a bottle number of the reagent; responding to a first selected instruction of the first identification, determining that a reagent corresponding to the first selected instruction is a target reagent, and displaying a second identification of a calibration solution corresponding to the target reagent on the interface; in response to a second selected instruction of the second identifier, determining that the calibration solution corresponding to the second selected instruction is a target calibration solution; and the target reagent and the target calibration solution are calibrated, so that the convenience of the calibration application of the analyzer is improved.

Description

Analyzer, calibration application method, and storage medium therefor

Technical Field

The present invention relates to the field of analyzers, and in particular, to an analyzer, a calibration application method, and a storage medium therefor.

Background

The analyzer is used for detecting items, and generally needs to calibrate reagents of the items by the analyzer, and before calibration, an interface is provided for a user to perform calibration application so as to calibrate the reagents required by the user.

When the existing analyzer is subjected to calibration application, item buttons are generally displayed on an interface, after a user selects an item through the item buttons, all calibration solutions associated with the item and relevant reagent information are displayed, and the user displays required reagents and calibration solutions from the displayed information to perform calibration application.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide an analyzer, a calibration application method and a storage medium thereof, aiming at improving the convenience of the calibration application of the analyzer.

In order to achieve the above object, the present invention provides a calibration application method, which includes the steps of:

displaying a first identifier which corresponds to a reagent and comprises target information on an interface, wherein the target information comprises a batch number and/or a bottle number of the reagent;

in response to a first selected instruction of the first identification, determining that a reagent corresponding to the first selected instruction is a target reagent, and displaying a second identification of a calibration solution corresponding to the target reagent on the interface;

responding to a second selected instruction of the second identifier, and determining the calibration liquid corresponding to the second selected instruction as a target calibration liquid;

and calibrating the target reagent and the target calibration solution.

Optionally, the first identification is more than one, and the step of determining, in response to a first selected instruction of the first identification, that a reagent corresponding to the first selected instruction is a target reagent, and displaying, on the interface, a second identification of a calibration solution corresponding to the target reagent includes:

when more than one first selected instruction is received, determining that the reagent corresponding to each first selected instruction is a target reagent respectively;

and sequentially displaying the second identifications corresponding to more than one target reagent according to the received sequence of more than one first selected instruction.

Optionally, the number of the calibration solutions corresponding to the target reagents is one or more than one, and the step of sequentially displaying the second identifications corresponding to more than one target reagents according to the received sequence of more than one first selected instruction comprises:

and sequentially displaying a target list corresponding to more than one target reagent according to the sequence, wherein the target list comprises second identifications of all the calibration solutions corresponding to the corresponding target reagents.

Optionally, a target calibration solution exists in calibration solutions corresponding to more than one target reagent, and a second identifier corresponding to the target calibration solution is displayed in a target list corresponding to each target reagent; wherein, the target calibration solution is a calibration solution corresponding to more than one target reagent.

Optionally, the step of displaying a first identifier corresponding to the reagent and including target information on the interface includes:

obtaining a current calibration state of the reagent;

determining a first display parameter of the first identifier according to the scaling state, wherein different scaling states correspond to different first display parameters;

and displaying the first identification according to the first display parameter.

obtaining status information of said reagent, said status information characterizing whether said reagent satisfies a condition for a calibration application and whether said reagent is in a calibration-applied and uncalibrated test;

determining second display parameters of the first identifier according to the state information, wherein different state information corresponds to different second display parameters;

and displaying the first identifier according to the second display parameter to prompt whether the first identifier is allowed to be selected or not.

Optionally, after the step of displaying the first identifier corresponding to the reagent and including the target information on the interface, the method further includes:

adjusting said second display parameter in response to said first selected instruction or an instruction to deselect said first indicator or an instruction to the state of said reagent from which a calibration test has been initiated, and displaying said first indicator according to the adjusted second display parameter.

Optionally, the step of displaying a first identifier corresponding to the reagent and including the target information on the interface includes:

acquiring a calibration mode;

when the calibration mode is a first calibration mode, displaying a first identifier comprising the batch number, wherein the first calibration mode is a mode for calibrating the reagent by taking a batch as a unit;

displaying a first identifier including the bottle number when the calibration mode is a second calibration mode, the second calibration mode being a mode in which reagents are calibrated in units of bottles.

Further, to achieve the above object, the present invention also provides an analyzer comprising: a memory, a processor, and a targeted application program stored on the memory and executable on the processor, the targeted application program configured to implement the steps of the targeted application method as described above.

In addition, to achieve the above object, the present invention also provides a storage medium having a targeted application program stored thereon, which when executed by a processor implements the steps of the targeted application method as described above.

The method comprises the steps of displaying a first identifier corresponding to a reagent and including target information on an interface, wherein the target information includes a batch number and/or a bottle number of the reagent, responding to a first selected instruction of the first identifier, determining that the reagent corresponding to the first selected instruction is a target reagent, displaying a second identifier of a calibration solution corresponding to the target reagent on the interface, responding to a second selected instruction of the second identifier, determining that the calibration solution corresponding to the second selected instruction is the target calibration solution, and calibrating the target reagent and the target calibration solution. In the calibration application process, information related to the project is not displayed, the reagent identification is displayed by using the batch number and/or the bottle number, so that a user can quickly find the reagent of the required batch number and/or bottle number, the corresponding calibration solution identification is screened out by selecting the reagent by the user and displayed for the user to select, and all the calibration solutions in the project are not displayed without screening, so that the user quickly finds the reagent required to apply for calibration and the corresponding calibration solution, and the convenience of the calibration application of the analyzer is improved.

Drawings

FIG. 1 is a schematic diagram of an analyzer for a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of the calibration application method of the present invention;

FIG. 3 is a flowchart illustrating a second embodiment of the calibration application method of the present invention;

FIG. 4 is a schematic interface diagram of a first calibration mode of an embodiment of the calibration application method of the present invention;

FIG. 5 is a schematic interface diagram of a second scaling mode of an embodiment of the scaling application method of the present invention;

FIG. 6 is a detailed flowchart of step S20 in FIG. 2;

FIG. 7 is a flowchart illustrating a third exemplary embodiment of a method for targeting applications;

fig. 8 is a detailed flowchart of step S10 in fig. 2.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an analyzer of a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the analyzer may include: a processor 1001, such as a Central Processing Unit (CPU), and a memory 1002. The Memory 1002 may be a high-speed Random Access Memory (RAM) Memory, or may be a Non-Volatile Memory (NVM), such as a disk Memory. The memory 1002 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration shown in FIG. 1 does not constitute a limitation of the analyzer, and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1002, which is a storage medium, may include therein an operating system, a data storage module, a network communication module, a user interface module, and a targeted application program.

In the analyzer shown in fig. 1, the processor 1001 and the memory 1002 of the analyzer according to the embodiment of the present invention may be disposed in the analyzer, and the analyzer calls the calibration application program stored in the memory 1002 through the processor 1001 and executes the calibration application method according to the embodiment of the present invention.

An embodiment of the present invention provides a calibration application method, and referring to fig. 2, fig. 2 is a flowchart illustrating a first embodiment of the calibration application method according to the present invention.

In this embodiment, the method for applying for calibration includes:

s10, displaying a first identifier corresponding to a reagent and comprising target information on an interface, wherein the target information comprises a batch number and/or a bottle number of the reagent;

the interface is an interactive interface of the analyzer used by a user and is used for the user to operate to carry out calibration application. In this embodiment, the left side of the interface is the reagent information, and the right side of the interface is the calibration solution information. In other embodiments, the calibration solution information may be provided on the left side of the interface, and the reagent information may be provided on the right side of the interface.

When the analyzer is used for testing, the reagent needs to be calibrated when a new item or the reagent batch number of each item is replaced, so that the accuracy of a test result of the analyzer can be ensured. The reagent, also called biochemical reagent or reagent, is mainly pure chemical for implementing chemical reaction, analysis and test, research and test, teaching and experiment and chemical formula.

In this embodiment, the target information further includes the name of the reagent and the calibration status. In other embodiments, the target information may also include reagent-related information such as reagent formula, reagent configuration method, and reagent location. The reagent lot number may be customized according to the date of shipment of the reagent, for example, 20211026 is used as the lot number. The reagent bottle number may be indicated by adding parentheses and numerals after the reagent lot number, for example, using (1) as the bottle number.

In this embodiment, the first indicator is a reagent button, records reagent-related information, and has a plurality of display modes, such as representing specific reagent information in different colors or representing specific reagent information in different shapes. In other embodiments, the first identifier may also be a form.

The lot number of the reagent is determined at the time of shipment of the reagent.

Specifically, first identifications of all reagents at the current moment are displayed on an interface. It can be known that all the reagent buttons at the current time are displayed on the left side of the interface, and the reagent buttons record the batch numbers and/or bottle numbers of the corresponding reagents.

In particular, the interface may display one or more first identifiers, with different first identifiers including different target information. When the first mark comprises a batch number, the first mark represents all reagents of the batch number; when the first identification comprises a bottle number, the first identification represents a reagent corresponding to the bottle number; when the first identification comprises a batch number and a bottle number, the first identification represents a reagent corresponding to the corresponding bottle number under the batch number.

The reagents are all reagents currently loaded by the analyzer.

Step S20, responding to a first selected instruction of the first identification, determining that a reagent corresponding to the first selected instruction is a target reagent, and displaying a second identification of a calibration solution corresponding to the target reagent on the interface;

the first selected instruction refers to an instruction where the first identification of the target agent is selected by the user. The target reagent is the reagent selected by the user for calibration at the current moment. Specifically, all reagents associated with the target information included in the first identifier corresponding to the first selected instruction may be determined as target reagents. For example, a reagent associated with a bottle number contained in a first identifier corresponding to a first selected instruction is determined as a target reagent; in another example, all reagents associated with the lot number included in the first identifier corresponding to the first selected instruction are determined as target reagents.

The calibration of the reagent needs to be completed by using a calibration solution, and the calibration solution is used for reagent calibration. In this embodiment, the second identifier of the calibration solution includes the lot number, name, concentration level, location, status, calibration rule, and corresponding reagent lot number of the calibration solution. In other embodiments, the second identification of the calibration fluid may also include a recipe, a configuration method, and the like.

It should be noted that the display interface of each reagent lot correspondingly displays at least one second identifier of the calibration solution. Before the reagent is calibrated by using the calibration solution, that is, before step S20, the method further includes, in response to a new calibration solution instruction of the target reagent, increasing a second identifier of the calibration solution corresponding to the target reagent; and associating the second identifier with the batch number of the target reagent, and displaying the batch number and the second identifier on an interface. Therefore, it can be seen that the second label of the calibration solution corresponding to the lot number is displayed on the interface according to the different reagent lot numbers.

The batch number of the calibration solution is determined when the calibration solution leaves a factory.

Specifically, when a first selected instruction of a first identifier is received, in response to the first selected instruction of the first identifier, a reagent corresponding to the first selected instruction is determined to be a target reagent, and a second identifier of a calibration solution corresponding to the target reagent is displayed on the interface.

Step S30, responding to a second selected instruction of the second identifier, and determining the calibration solution corresponding to the second selected instruction as a target calibration solution;

after the user selects the target reagent, the target calibration solution is selected to carry out calibration application.

The second selected instruction is an instruction that the second identification of the target calibration fluid is selected by the user. The target calibration liquid is the calibration liquid selected by the user at the current moment for calibration.

And S40, calibrating the target reagent and the target calibration solution.

It should be noted that calibration is to determine a reference point, i.e. K value or F value, by the reagent and the calibration solution.

In this embodiment, in the embodiment of the present invention, a first identifier corresponding to a reagent and including target information is displayed on an interface, where the target information includes a lot number and/or a bottle number of the reagent, a reagent corresponding to a first selected instruction is determined as a target reagent in response to a first selected instruction of the first identifier, a second identifier of a calibration solution corresponding to the target reagent is displayed on the interface, a calibration solution corresponding to a second selected instruction is determined as a target calibration solution in response to a second selected instruction of the second identifier, and the target reagent and the target calibration solution are calibrated. In the calibration application process, information related to the project is not displayed, the reagent identification is displayed by using the batch number and/or the bottle number, so that a user can quickly find the reagent of the required batch number and/or bottle number, the corresponding calibration solution identification is screened out by selecting the reagent by the user and displayed for the user to select, and all the calibration solutions in the project are not displayed without screening, so that the user quickly finds the reagent required to apply for calibration and the corresponding calibration solution, and the convenience of the calibration application of the analyzer is improved.

Further, referring to fig. 3, based on the above embodiment, a second embodiment is proposed by the calibration application method of the present invention, and based on the embodiment shown in fig. 3, the step S10 includes:

step S01, obtaining a calibration mode;

specifically, a scaling mode is displayed on the interface, and the scaling mode is acquired in response to a selected instruction of the scaling mode.

Step S02, when the calibration mode is a first calibration mode, displaying a first identifier comprising the batch number, wherein the first calibration mode is a mode for calibrating the reagent by taking a batch as a unit;

it should be noted that the first identifier of the first calibration pattern includes a reagent name, a batch number, and a calibration status corresponding to the target reagent.

Referring to fig. 4, fig. 4 is a schematic interface diagram of a first calibration mode according to an embodiment of the calibration application method of the present invention.

When the user selects the scaling application as the first scaling mode on the interface, the first identifiers including the lot numbers of all reagents are displayed on the left side of the interface. Specifically, the reagent names, lot numbers and calibration status of all reagents are displayed on the left side of the interface. For example, the reagent name of the reagent is TSH, lot number 20211026 and the calibration status is failed, which is shown on the left side of the interface.

And S03, when the calibration mode is a second calibration mode, displaying a first mark comprising the bottle number, wherein the second calibration mode is a mode for calibrating the reagent by taking the bottle as a unit.

It should be noted that the first identifier of the second calibration mode includes a reagent name, a lot number, a bottle number and a calibration state corresponding to the target reagent.

Referring to fig. 5, fig. 5 is a schematic interface diagram of a second scaling mode according to an embodiment of the scaling application method of the present invention.

When the user selects the calibration application as the second calibration mode on the interface, the first identification including the vial number of all reagents is displayed on the left side of the interface. Specifically, the reagent names, batch numbers, bottle numbers and calibration states of all reagents are displayed on the left side of the interface. For example, the reagent name of the reagent is TSH, lot number 20211026, vial number (1), and the calibration status is failed, which are shown on the left side of the interface.

In the embodiment, reagent can be rapidly calibrated in a targeted manner through two calibration modes, so that convenience in calibrating and applying the analyzer is improved.

Further, referring to fig. 6, the first identifier is more than one, and the step S20 includes:

step S21, when more than one first selected instruction is received, determining that the reagent corresponding to each first selected instruction is a target reagent;

it should be noted that the reagent information on the left side of the interface of the present embodiment may be used for the user to select multiple reagents for calibration, that is, the left side reagent button may be selected multiple times.

And S22, sequentially displaying the second identifications corresponding to more than one target reagent according to the receiving sequence of more than one first selected instruction.

The order in which the first selected instructions are received refers to the order in which the target agents are selected by the user one after another.

Here, when the user selects the first target reagent on the left side of the interface, in response to the instruction for selecting the first identification of the first target reagent, displaying the second identification of the calibration solution corresponding to the first target reagent on the right side of the interface; when the user selects a second target reagent on the left side of the interface, responding to a selection instruction of the first identification of the second target reagent, and displaying a second identification of the calibration solution corresponding to the second target reagent on the right side of the interface; when the user selects the third target agent on the left side of the interface, the same applies, until the user does not select the target agent on the left side of the interface.

And when the user does not select the target reagent on the left side of the interface, stopping on the current interface, and adding no second mark for displaying the target calibration solution on the right side of the interface.

Specifically, the sequence of more than one target reagent is determined according to the sequence received by more than one first selected instruction, and the second identifier corresponding to more than one target reagent is sequentially displayed according to the sequence of more than one target reagent.

In this embodiment, the second identifiers of the calibration solutions corresponding to the target reagents are sequentially displayed according to the selected sequence of the first identifiers of the selected target reagents, so that the target calibration solutions can be searched according to the sequence of the target reagents when the target calibration solutions are selected, calibration solutions corresponding to different or the same reagents can be conveniently searched according to the selected sequence, the speed of determining the target calibration solutions through the target reagents is increased, and the convenience of the calibration application of the analyzer is improved.

Specifically, when a user selects a calibration application as a first calibration mode on an interface, more than one selected batch number instruction is received, and a reagent corresponding to the batch number is determined as a target reagent; and sequentially displaying second identifications corresponding to more than one target reagent according to the receiving sequence of more than one selected batch number instruction.

When a user selects a calibration application as a second calibration mode on an interface, receiving more than one instruction of selecting a bottle number, and determining a reagent corresponding to the bottle number as a target reagent; and sequentially displaying second identifications corresponding to more than one target reagent according to the receiving sequence of more than one selected batch number instruction.

In other embodiments, the second marks of the target calibration solutions can also be sequentially displayed in the display sequence of the first marks of the target reagents on the interface.

Further, the number of the calibration solutions corresponding to the target reagent is one or more than one, and the step S22 includes:

All second identifications of the calibration solutions corresponding to one target reagent correspond to one target list, which contains one or more than one calibration solutions.

It should be noted that the second identifier includes the lot number, name, concentration level, position, status, calibration rule of the calibration solution and the corresponding reagent lot number. The lot number may be customized according to the date of shipment of the reagent. The second marks can be sequentially displayed on the target list according to the sequence that the calibration solution is newly added to the analyzer, and can also be sequentially displayed on the target list according to the time sequence of the batch numbers of the second marks.

In this embodiment, the target calibration solution corresponding to one target reagent is contained in one target list, and the second identifiers of the target calibration solutions are sequentially displayed according to the selected sequence of the first identifiers of the target reagents, so that the calibration solutions corresponding to one reagent are continuously displayed, the calibration solutions corresponding to the same reagent can be conveniently searched, and convenience in calibration application of the analyzer is improved.

Specifically, when a user selects a calibration application as a first calibration mode on an interface, more than one selected batch number instruction is received, and a reagent corresponding to the batch number is determined as a target reagent; and sequentially displaying a target list corresponding to more than one target reagent according to the receiving sequence of more than one selected batch number instruction, wherein the target list comprises second identifications of all the calibration solutions corresponding to the corresponding target reagents.

When a user selects a calibration application as a second calibration mode on an interface, receiving more than one instruction of selecting a bottle number, and determining a reagent corresponding to the bottle number as a target reagent; and sequentially displaying a target list corresponding to more than one target reagent according to the receiving sequence of more than one selected batch number instruction, wherein the target list comprises second identifications of all the calibration solutions corresponding to the corresponding target reagents.

Further, a target calibration solution exists in calibration solutions corresponding to more than one target reagent, and a second identifier corresponding to the target calibration solution is displayed in a target list corresponding to each target reagent; wherein, the target calibration solution is a calibration solution corresponding to more than one target reagent.

The interface is an interactive interface of the analyzer used by a user and is used for the user to operate to carry out calibration application. In this embodiment, the left side of the interface is the reagent information, and the right side of the interface is the calibration solution information.

Specifically, when a calibration solution corresponds to multiple batches of reagents, the calibration solution is displayed on a calibration solution list on the right side of the interface corresponding to each of the multiple batches of reagents, that is, a target list corresponding to each of the target reagents contains the calibration solution.

In this embodiment, one calibration solution is displayed in the target list corresponding to a plurality of batches of reagents, so that the calibration solution corresponding to the reagents is prevented from being missed, the calibration solution corresponding to the reagents is convenient to search, that is, the calibration solution corresponding to the reagents is convenient to select, and the convenience of the calibration application of the analyzer is improved.

Further, referring to fig. 7, a third embodiment of the present invention provides a method for scaling application, based on the above embodiment shown in fig. 7, where the step S10 includes:

step S11, obtaining the current calibration state of the reagent;

the calibration state comprises an un-calibration state, an application state, a calibration in-progress state, a success state, a failure state, an expiration state and a postponement state. The calibration state is updated in real time based on the state of the reagent. All reagent buttons at the current moment are displayed on the left side of an interactive interface of the analyzer, and in the embodiment, the first identifier of the reagent is the reagent button and records the relevant information of the reagent.

Here, the analyzer may obtain the current calibration state of the reagent by detecting application information of the reagent at the current time, and the application information may be information described in a reagent button or calibration application list information stored in the system. In other embodiments, the current calibration status of the reagent may also be obtained by user input of the current status of the reagent.

Step S12, determining a first display parameter of the first identifier according to the calibration state, wherein different calibration states correspond to different first display parameters;

in this embodiment, the first display parameter is a color, and different colors correspond to different calibration states. In other embodiments, the first display parameter may also be a shape, with different shapes corresponding to different scaling states.

And S13, displaying the first identifier according to the first display parameter.

Here, the first mark is displayed according to different calibration states of the reagent, and the first mark includes a lot number of the reagent. Specifically, the reagent lot numbers are displayed according to different calibration states of the reagents.

For example, when a reagent is in a failed state, the lot number of the reagent is displayed in red; when the reagent is in an expired state, the lot number of the reagent is displayed in yellow.

In this embodiment, the first identifier, i.e., the lot number, of the reagent is displayed in different colors according to the calibration state of the reagent, so that the calibration state of the reagent can be quickly determined according to the color on the interface, the speed of obtaining the calibration state of the reagent is increased, and the calibration state of each reagent can be clearly seen on the interface, thereby improving the convenience of reagent calibration application.

It should be noted that step S11, step S12, and step S13 follow step S01, step S02, and step S03.

Specifically, when a user selects a calibration application as a first calibration mode on an interface, a current calibration state of the reagent is obtained, a first display parameter of a batch number corresponding to the reagent is determined according to the calibration state, different first display parameters correspond to different calibration states, and the batch number is displayed according to the first display parameter.

When a user selects a calibration application as a second calibration mode on an interface, acquiring the current calibration state of the reagent, determining first display parameters of a batch number and a bottle number corresponding to the reagent according to the calibration state, wherein different calibration states correspond to different first display parameters, and displaying the batch number and the bottle number according to the first display parameters.

Further, referring to fig. 8, the step S10 includes:

step S111, obtaining status information of the reagent, wherein the status information represents whether the reagent meets a calibration application condition and whether the reagent is in a calibration and non-calibration test;

it should be noted that different projects have different calibration application conditions, which are specifically formulated according to the requirements of different projects.

All reagent buttons at the current moment are displayed on the left side of an interactive interface of the analyzer, and in the embodiment, the first identifier of the reagent is the reagent button and records the relevant information of the reagent. Here, the analyzer may obtain the current status information of the reagent by detecting the current status information of the reagent, and the application information may be information described in a reagent button. In other embodiments, the current status information of the reagent may also be obtained by a user inputting the current status information of the reagent.

Step S112, determining a second display parameter of the first identifier according to the state information, wherein different state information corresponds to different second display parameters;

when the reagent meets the condition of the calibration application, determining that the first identifier corresponds to a first parameter;

when the reagent does not meet the condition of the calibration application, determining that the first mark corresponds to a second parameter;

determining that said first identifier corresponds to a third parameter when said reagent has been subjected to a calibration and non-calibration test;

wherein the second display parameters include a first parameter, a second parameter, and a third parameter.

In this embodiment, the second display parameter is the brightness of the first identifier, and the different state information corresponds to different brightness. Specifically, the first parameter, the second parameter, and the third parameter are three different luminances. In other embodiments, the second display parameter may also be a pattern, and the different status information corresponds to different patterns.

For example, the first parameter is blank button, the second parameter is gray setting, and the third parameter is low brightness.

Step S113, displaying the first identifier according to the second display parameter, so as to prompt whether the first identifier is allowed to be selected.

And displaying the first identification through the second display parameter according to different state information of the reagent.

It is noted that when said reagent fulfils the target application conditions and said first identifier has been selected at the present moment, it is determined that said first identifier is not allowed to be selected.

For example, when the reagent satisfies the target application condition, displaying the first identifier as blank to indicate that the first identifier is allowed to be selected;

when the reagent does not satisfy the target application condition, displaying the first identifier as graying out to prompt that the first identifier is not allowed to be selected;

displaying said first indicia as low light when said reagent is in a test for which a calibration and an uncalibrated test is applied, to indicate that said first indicia is not allowed to be selected;

when the reagent meets the target application condition and the first identifier has been selected at the present time, displaying the first identifier as highlighted to indicate that the first identifier is not allowed to be selected.

In the embodiment, the first identifier is displayed through different status information of the reagent, so that the status information of the reagent is quickly determined to determine whether the first identifier is allowed to be selected, the quick calibration application is facilitated, and the convenience of the calibration application of the analyzer is improved.

It should be noted that step S111, step S112, and step S113 are not in the order of step S11, step S12, and step S13, and step S111, step S112, and step S113 are after step S01, step S02, and step S03.

Further, after the step S10, the method further includes:

It is noted that when said reagent satisfies the target application condition and said first identifier is not selected, it is determined that said first identifier is allowed to be selected.

For example, when the reagent satisfies the target application condition and the first identifier is not selected, it is determined that the first identifier is allowed to be selected and the first identifier is blank.

In this embodiment, the second display parameter is the brightness of the reagent button, and the different status information corresponds to different brightness. In other embodiments, the second display parameter may also be a pattern, and the different status information corresponds to different patterns.

In this embodiment, the brightness of the reagent button is adjusted through the status instruction of the reagent, so that the status information of the reagent is determined in time, the rapid calibration application is facilitated, and the convenience of the calibration application of the analyzer is improved.

Specifically, the second display parameters include a first parameter, a second parameter, a third parameter and a fourth parameter;

when the reagent meets the condition of a targeted application and the first identifier is selected, determining that the first identifier corresponds to the fourth parameter, responding to a deselection instruction of the first identifier, adjusting the fourth parameter to be the first parameter, and displaying the first identifier according to the first parameter;

when said reagent satisfies a target application condition and said first identifier is not selected, determining that said first identifier corresponds to said first parameter, adjusting said first parameter to said fourth parameter in response to said first selected instruction, displaying said first identifier according to said fourth parameter;

when the reagent is in a condition for applying a calibration and non-calibration test, determining that the first identifier corresponds to a third parameter, responding to a status instruction of the reagent for starting the calibration test, adjusting the third parameter to be the second parameter, and displaying the first identifier according to the second parameter.

For example, when the reagent satisfies the target application condition and the first identifier has been selected, determining that the first identifier is highlighted, and displaying the first identifier as blank in response to an instruction to deselect the first identifier;

when said reagent satisfies a target application condition and said first identifier is not selected, determining said first identifier as blank and displaying said first identifier as highlighted in response to said first selected instruction;

when the reagent is already in a condition for applying a calibration and non-calibration test, determining that the first indicator is low-lighted, and displaying that the first indicator is blank in response to a status instruction of the reagent that a calibration test has been started.

In addition, an embodiment of the present invention further provides an analyzer, including: the system comprises a memory, a processor and a targeted application program stored on the memory and capable of running on the processor, wherein the targeted application program is configured to realize the relevant steps of any embodiment of the targeted application method.

In addition, an embodiment of the present invention further provides a storage medium, where the storage medium stores a calibration application program, and the calibration application program, when executed by a processor, implements the relevant steps of any embodiment of the above calibration application method.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention or portions thereof contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) as described above and includes several instructions for enabling a terminal device (which may be a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A method for targeted application, comprising the steps of:

responding to a first selected instruction of the first identification, determining that a reagent corresponding to the first selected instruction is a target reagent, and displaying a second identification of a calibration solution corresponding to the target reagent on the interface;

in response to a second selected instruction of the second identifier, determining that the calibration solution corresponding to the second selected instruction is a target calibration solution;

and calibrating the target reagent and the target calibration solution.

2. The targeted application method of claim 1, wherein the first indicia is more than one, and wherein the step of determining, in response to a first selected command of the first indicia, that the reagent to which the first selected command corresponds is the target reagent, and displaying on the interface a second indicia of the calibration solution to which the target reagent corresponds comprises:

when more than one first selected instruction is received, determining that the reagent corresponding to each first selected instruction is a target reagent;

3. The targeted application method of claim 2, wherein the quantity of the targeting fluid corresponding to the target agent is one or more than one, and the step of sequentially displaying the second identifications corresponding to more than one of the target agents according to the received sequence of more than one of the first selected instructions comprises:

4. The targeted application method of claim 3, wherein a target calibration solution is present in a calibration solution corresponding to more than one of said target agents, and wherein a second identifier corresponding to said target calibration solution is displayed in a target list corresponding to each of said target agents; wherein the target calibration solution is a calibration solution corresponding to more than one target reagent.

5. The targeted application method of claim 1, wherein the step of displaying a first indication corresponding to a reagent at the interface that includes target information comprises:

obtaining a current calibration state of the reagent;

and displaying the first identifier according to the first display parameter.

6. The targeted application method of claim 1, wherein displaying at the interface a first indicator corresponding to the reagent that includes the target information comprises:

7. The targeted application method of claim 6, wherein after the step of displaying the first indicia corresponding to the reagent that includes the target information at the interface, further comprising:

and adjusting the second display parameter in response to the first selected instruction, or the deselection instruction of the first identifier, or the status instruction of the reagent for which the calibration test has been started, and displaying the first identifier according to the adjusted second display parameter.

8. The targeted application method of any one of claims 1-7, wherein displaying at the interface a first indication corresponding to the reagent that includes the target information comprises:

acquiring a calibration mode;

when the calibration mode is a first calibration mode, displaying a first mark comprising the batch number, wherein the first calibration mode is a mode for calibrating the reagent by taking a batch as a unit;

9. An analyzer, comprising: a memory, a processor, and a targeted application program stored on the memory and executable on the processor, the targeted application program configured to implement the steps of the targeted application method as claimed in any one of claims 1 to 8.

10. A storage medium having stored thereon a targeted application program which, when executed by a processor, carries out the steps of the targeted application method according to any one of claims 1 to 8.