CN113130051A - Reagent amount management method and device - Google Patents

Abstract

The application provides a reagent amount management method and device. The method comprises the following steps: generating a preset page; obtaining a target reagent tube containing a test reagent in a plurality of reagent tubes; acquiring the number of residual dose points in the target reagent tube after the reagent in the target reagent tube is sucked; and when the number of the residual dose points is smaller than the point threshold value, generating prompt information of insufficient dose points corresponding to the target reagent tube in the preset page. This application realizes reagent volume real time monitoring in the reagent pipe through the preset page that the terminal generated to when remaining dose point in the reagent pipe is less than the threshold value of counting, in time send the suggestion to the user, can avoid arranging special staff and monitor the reagent volume in the reagent pipe, reduced human cost's input, and can not influence the normal clear of test.

Description

Reagent amount management method and device

Technical Field

The present application relates to the field of medical technology, and in particular, to a reagent amount management method and apparatus.

Background

With the continuous application of the diagnostic equipment, the accuracy and the detection efficiency of the sample test result can be realized.

At present, each flow of the diagnostic equipment is controlled by manual management, and in the test process of the test item, the test reagent needs to be continuously sucked from the reagent tube, the sample test item and the test reagent are added into the reaction cup for testing, and in the process that the test reagent in the reagent tube is continuously sucked, the test reagent is possibly insufficient or no test reagent exists in the reagent tube, so that the test process is interrupted.

In order to avoid the above problems, in the prior art, a worker is usually arranged to monitor the test reagent in the reagent tube in real time to avoid reagent loss, and in this way, the worker needs to be specially arranged to monitor, which causes human cost input, and the problem of insufficient test reagent caused by a manual monitoring mode inevitably affects the test.

Disclosure of Invention

The application provides a reagent amount management method and device to solve the problems that in the prior art, workers need to be specially arranged to monitor, the investment of labor cost is caused, and the problem that testing reagents are insufficient due to the fact that manual monitoring is unavoidable can be caused, and testing is affected.

In order to solve the above problem, the present application discloses a reagent amount management method applied to a diagnostic device or a terminal connected to the diagnostic device, where the diagnostic device includes a reagent module, the reagent module is provided with a plurality of reagent tube holes, and each reagent tube hole has a reagent tube placed therein, including:

generating a preset page;

obtaining a target reagent tube containing a test reagent in a plurality of reagent tubes;

acquiring the number of residual dose points in the target reagent tube after the reagent in the target reagent tube is sucked;

and when the number of the residual dose points is smaller than the point threshold value, generating prompt information of insufficient dose points corresponding to the target reagent tube in the preset page.

Optionally, before the generating a preset page, the method further includes:

acquiring the number of target dose points and the type of the reagent in the target reagent tube;

dividing the volume of the reagent tube of the target reagent tube to obtain a dividing result;

and determining the point threshold corresponding to the target reagent tube according to the division result.

Optionally, the obtaining the number of remaining dose points in the target reagent tube after the reagent in the target reagent tube is sucked comprises:

acquiring the number of reagent dose points sucked in the target reagent tube after the reagent in the target reagent tube is sucked;

determining the remaining dose point number based on the target dose point number and the reagent dose point number.

Optionally, after the obtaining of the number of remaining dose points in the target reagent tube, the method further includes:

displaying the number of the residual dose points in the preset page;

when the number of the remaining dose points is 0, receiving a stop instruction executed by a user and aiming at the sample test item matched with the reagent type;

and stopping testing the sample test item matched with the reagent type according to the stopping instruction.

Optionally, after the prompt information that the number of dosage points corresponding to the target reagent tube is insufficient is generated in the preset page, the method further includes:

receiving a user-executed reagent addition instruction for the target reagent tube;

sending the reagent adding instruction to the diagnostic device so that the diagnostic device adds the test reagent into the target reagent tube according to the reagent adding instruction.

Optionally, the terminal establishes a connection with the diagnostic device through a controller area network bus.

In order to solve the above problem, the present application discloses a reagent amount management device, which is applied to a diagnostic device or a terminal connected to the diagnostic device, wherein the diagnostic device includes a reagent module, the reagent module is provided with a plurality of reagent tube holes, and each reagent tube hole is provided with a reagent tube, and the reagent tube management device is characterized by comprising:

the preset page generating module is used for generating a preset page;

the target reagent tube obtaining module is used for obtaining a plurality of target reagent tubes containing test reagents;

the residual dose acquisition module is used for acquiring the number of residual dose points in the target reagent tube after the reagent in the target reagent tube is sucked;

and the prompt information generation module is used for generating prompt information that the number of the corresponding dose points of the target reagent tube is insufficient in the preset page when the number of the remaining dose points is less than the point threshold value.

Optionally, the method further comprises:

the target dose acquisition module is used for acquiring the number of target dose points and the type of the reagent in the target reagent tube;

the division result acquisition module is used for dividing the volume of the reagent tube of the target reagent tube to obtain a division result;

and the point threshold value determining module is used for determining a point threshold value corresponding to the target reagent tube according to the division result.

Optionally, the residual dose acquiring module comprises:

a dose point number acquisition unit for acquiring the number of reagent dose points sucked in the target reagent tube after the reagent in the target reagent tube is sucked;

a remaining number of dots determination unit configured to determine the remaining number of dose dots based on the target number of dose dots and the reagent number of dose dots.

Optionally, the method further comprises:

the residual dose point display module is used for displaying the residual dose points in the preset page;

the stopping instruction receiving module is used for receiving a stopping instruction executed by a user and aiming at the sample test item matched with the reagent type when the number of the residual dosage points is 0;

and the test stopping module is used for stopping testing the sample test item matched with the reagent type according to the stopping instruction.

Optionally, the method further comprises:

the reagent adding instruction receiving module is used for receiving a reagent adding instruction executed by a user and aiming at the target reagent tube;

and the reagent adding instruction sending module is used for sending the reagent adding instruction to the diagnostic equipment so as to add the test reagent into the target reagent tube by the diagnostic equipment according to the reagent adding instruction.

Optionally, the terminal establishes a connection with the diagnostic device through a controller area network bus.

Compared with the prior art, the method has the following advantages:

the embodiment of the application provides a reagent amount management method and device, a preset page is generated to obtain a target reagent tube containing a test reagent in a plurality of reagent tubes, after the reagent in the target reagent tube is absorbed, the number of residual dose points in the target reagent tube is obtained, and when the number of residual dose points is smaller than a point threshold value, prompt information that the number of dose points corresponding to the target reagent tube is insufficient is generated in the preset page. The embodiment of the application realizes reagent amount real-time monitoring in the reagent pipe through the preset page generated by the terminal, and timely sends out a prompt to a user when the number of residual doses in the reagent pipe is less than the point threshold value, so that the arrangement of special workers for monitoring the reagent amount in the reagent pipe can be avoided, the investment of labor cost is reduced, and the normal operation of testing can not be influenced.

Drawings

Fig. 1 is a schematic structural diagram illustrating a fully automatic laser chemiluminescence detector according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a front side of a fully automatic laser chemiluminescence detector provided by an embodiment of the present application after a housing is removed;

FIG. 3 is a schematic view illustrating a structure of a fully automatic laser chemiluminescence detector according to an embodiment of the present disclosure, after a housing is removed;

fig. 4 is a schematic structural diagram illustrating a slat clamping device according to an embodiment of the present disclosure;

FIG. 5 is a flow chart illustrating steps of a reagent amount management method provided by an embodiment of the present application;

fig. 6 shows a schematic structural diagram of a reagent amount management device provided in an embodiment of the present application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

The diagnosis device in the embodiment of the present application may be described as follows by taking a fully automatic laser-activated chemiluminescence detector as an example, and then, the structure of the fully automatic laser-activated chemiluminescence detector is described as follows with reference to fig. 1, fig. 2, fig. 3, and fig. 4.

As shown in fig. 1, 2, 3 and 4, the fully automatic light-activated chemiluminescence detector may include: the device comprises a plate taking frame module 83, a pushing device 84, a sample adding arm module 4, a sample adding module 85, a sample frame module 86, an incubation module 87, a reagent module 5 and a detection module 88, wherein the plate strip 3 on the plate taking frame module 83 is pushed to the sample adding module 85 through the pushing device 84, a sample and a reagent are added into a reaction cup on the plate strip on the sample adding module 85 through the sample adding arm module 4, the plate strip on the sample adding module 85 is pushed into the incubation module 87 through the pushing device 84, and the plate strip enters the detection module 88 for detection after the incubation is finished.

Get the frame module 83 and locate the front portion of frame 2, be equipped with shell 1 in frame 2 outside, the carousel is located the rear of getting frame module 83, temperature culture module 87 is located carousel one side, sample frame module 86 and reagent module 5 are located the both sides of getting frame module 83 respectively, pusher 84 includes X to push mechanism 6 and Y to push mechanism 7, it pushes to carousel 19 through Y to push mechanism 7 to get the lath on the frame module 83, lath 3 on the carousel 19 passes through X to push mechanism 6 and gets into temperature culture module 87, get into detection module 88 after the temperature culture finishes and detect.

The incubation module 87 comprises an incubation plate 8 and a first slide mechanism by which the incubation plate 8 is slidably connected to the frame 2, the incubation plate 8 being provided with a slat clamping device 90.

The incubation module 87 comprises two incubation plates 8 arranged in parallel, and the two incubation plates are respectively connected with the frame 2 in a sliding manner through a set of first sliding mechanism, the first sliding mechanism comprises a first motor 9 and a first sliding rail 10, the incubation plates 8 are arranged on the first sliding rail 10, the first motor 9 is connected with the incubation plates 8 through a first synchronous belt 11, and the first motor 9 rotates to drive the incubation plates 8 to slide along the first sliding rail 10.

The incubation is divided into two incubation plates 87 to be respectively carried out, different times of incubation can be respectively realized, and the speed of the incubation plate 8 moving back and forth can be determined by the rotation speed of the first motor 9, so that the oscillation mixing in different degrees can be realized, and the operation is more flexible and changeable.

Next, the reagent amount management method provided in the present application will be described in detail with reference to specific examples.

Referring to fig. 5, a flowchart illustrating steps of a reagent amount management method according to an embodiment of the present disclosure is shown, where the reagent amount management method may be applied to a diagnostic device or a terminal connected to the diagnostic device, where the diagnostic device includes a reagent module, the reagent module is provided with a plurality of reagent tube holes, and each reagent tube hole is configured to accommodate a reagent tube, where the method specifically includes the following steps:

step 101: and generating a preset page.

In this embodiment of the application, the terminal may be a mobile electronic Device such as a mobile phone and a PAD (Portable Android Device), and may also be a Personal Computer (PC) terminal such as a desktop Computer and a notebook Computer, and specifically, may be determined according to a service requirement, which is not limited in this embodiment of the application.

The diagnostic device may be a device used in medical diagnosis or testing, including but not limited to: biochemical analyzer, chemiluminescence immunity analyzer, fluorescence immunity analyzer, immune turbidimetry analyzer, biochemical immunity integrated machine and gene sequencer. This embodiment is described in detail with a fully automatic light-activated chemiluminescent detector.

The communication connection is pre-established between the terminal and the full-automatic light-activated chemiluminescence detector, specifically, the terminal CAN be connected with the full-automatic light-activated chemiluminescence detector through a Controller Area Network (CAN) bus in a communication manner, and the CAN bus is connected through a serial data line through a CAN bus, a sensor, a Controller and an actuator. The network can detect and correct data errors caused by electromagnetic interference in the data transmission process according to the protocol, and the communication protocol of the network is equivalent to a data link layer in an ISO/OSI reference model.

After the terminal and the full-automatic light-activated chemical light-emitting detector are in communication connection through the CAN bus, data interaction between the terminal and the full-automatic light-activated chemical light-emitting detector CAN be realized.

The preset page is a page which is created on the terminal side and used for managing and controlling each module of the full-automatic light-activated chemical light-emitting detector.

The preset page may be an html page or a web page, and specifically, may be determined according to a service requirement, which is not limited in this embodiment of the present application.

When background management control is needed to be performed on a sample to be tested on the full-automatic light-activated chemical luminescence detector, a preset page can be created on a terminal side in advance.

After a preset page is generated, a graph of each reagent tube may be drawn in the preset page, then, the reagent amount of the test reagent in each reagent tube may be marked in the preset page, the reagent tubes may be divided, and the number threshold of the reagent tubes may be set, which may be described in detail in combination with the following specific implementation manner.

In a specific implementation manner of the present application, before the step 101, the method may further include:

step A1: and acquiring the target dose point number and the reagent type in the target reagent tube.

In the embodiment of the present application, the target reagent tube refers to a reagent tube requiring reagent monitoring.

In practical applications, all reagent tubes placed on the reagent module may be used as target reagent tubes, or reagent tubes placed on the reagent module and multiplied by a test reagent may be used as target reagent tubes, specifically, the target reagent tubes may be determined according to business requirements, and the embodiment of the present application is not limited thereto.

The target dose point number refers to the dose point number of the test reagent contained in the target reagent tube.

The reagent type refers to the type of test reagent contained in the target reagent tube.

After determining the target reagent tube on the reagent module, the target dose point number and the reagent type in the target reagent tube may be obtained, and then step a2 is performed.

Step A2: and dividing the volume of the reagent tube of the target reagent tube to obtain a dividing result.

The reagent tube volume refers to the volume of the target reagent tube.

After obtaining the volume of the target reagent tube, the volume of the target reagent tube may be divided into 100 equal parts, for example, 0.1ML each, and the volume of the container holding the reagent may be 10 ML.

After dividing the reagent vessel volume of the target reagent vessel to obtain the division result, step a3 is executed.

Step A3: and determining the point threshold corresponding to the target reagent tube according to the division result.

After the division result is obtained, a point threshold corresponding to the target reagent tube may be determined according to the division result, for example, the point threshold is set to 10.

After a preset page is generated, step 102 is performed.

Step 102: and obtaining a target reagent tube containing a test reagent in a plurality of reagent tubes.

After the preset page is generated, the target reagent tube containing the test reagent in the plurality of reagent tubes may be obtained, for example, the plurality of reagent tubes may include the reagent tube 1, the reagent tube 2, and the reagent tube 3, and when the test reagent is contained in the reagent tube 1 and the reagent tube 3, the reagent tube 1 and the reagent tube 3 are used as the target reagent tube.

After the target reagent vessel is obtained, step 103 is performed.

Step 103: acquiring the number of remaining dose points in the target reagent tube after the reagent in the target reagent tube is sucked.

The number of remaining dose dots indicates the number of dots of the remaining reagent in the target reagent tube after the reagent in the target reagent tube is aspirated.

After the reagent in the target reagent tube is aspirated, the number of remaining dose dots in the target reagent tube may be obtained, and in particular, may be described in detail in conjunction with the specific implementation described below.

In a specific implementation manner of the present application, the step 103 may include:

substep B1: acquiring the number of reagent dose dots sucked in the target reagent tube after the reagent in the target reagent tube is sucked.

In the embodiment of the application, the number of reagent dots of the target reagent tube, that is, the number of target dose dots, can be marked in the preset page.

After the reagent in the target reagent tube is aspirated, the number of reagent dose dots aspirated in the target reagent tube may be obtained, and then, sub-step B2 is performed.

Substep B2: determining the remaining dose point number based on the target dose point number and the reagent dose point number.

After the remaining dose point number is obtained, the remaining dose point number may also be displayed in a preset page, which is described in detail in conjunction with the following specific implementation.

In a specific implementation manner of the present application, after the step 103, the method may further include:

step C1: and displaying the number of the residual dose points in the preset page.

In the embodiment of the present application, after obtaining the number of remaining dose points in the target reagent tube, the number of remaining dose points may be displayed in a preset page, for example, the number of remaining dose points is displayed directly below or above the target reagent tube in the preset page so as to correspond to the target reagent tube.

After the remaining number of dose points is displayed in the preset page, step C2 is performed.

Step C2: when the number of the remaining dose points is 0, receiving a stop instruction executed by a user for the sample test item matched with the reagent type.

When the number of remaining dose points is 0, a user may execute a stop instruction for a sample test item matching the reagent type, that is, the test flow of a test item tested with a reagent of the reagent type may be stopped by the stop instruction.

After receiving a stop instruction for the reagent type-matched sample test item executed by the user, step C3 is executed.

Step C3: and stopping testing the sample test item matched with the reagent type according to the stopping instruction.

After receiving the stop instruction, the test of the sample test item matched with the reagent type can be stopped according to the stop instruction, and the user is prompted to add the test reagent of the corresponding reagent type into the target reagent tube in time.

After the number of sucked reagent dose points is obtained, a remaining dose point can be determined by combining the number of target dose points and the number of reagent dose points, specifically, the remaining dose point is equal to the number of target dose points-the number of remaining dose points.

After the number of remaining dose points in the target reagent tube is obtained, step 104 is performed.

Step 104: and when the number of the residual dose points is smaller than the point threshold value, generating prompt information of insufficient dose points corresponding to the target reagent tube in the preset page.

The prompt information is used for indicating that the number of dosage points in the target reagent tube is insufficient.

When the number of remaining dose points is less than the point threshold value, a prompt message indicating that the number of dose points corresponding to the target reagent tube is insufficient can be generated in a preset page to prompt a user that the amount of the reagent in the target reagent tube is insufficient, so as to prompt the user to add a test reagent into the target reagent tube in time, and specifically, the detailed description is performed in combination with the following specific implementation mode.

In a specific implementation manner of the present application, after the step 104, the method may further include:

step D1: receiving a user-executed reagent addition instruction for the target reagent tube.

In the present embodiment, the reagent addition instruction is an instruction to add a reagent into a target reagent tube.

After the prompt message indicating that the number of dose points corresponding to the target reagent tube is insufficient is generated, the user may execute a reagent addition instruction for the target reagent tube, and then execute step D2.

Step D2: sending the reagent adding instruction to the diagnostic device so that the diagnostic device adds the test reagent into the target reagent tube according to the reagent adding instruction.

After the reagent adding instruction is received, the reagent adding instruction can be sent to the full-automatic light-activated chemical light-emitting detector, so that the full-automatic light-activated chemical light-emitting detector can add the test reagent into the target reagent tube according to the reagent adding instruction, and normal operation of a test process can not be influenced.

The embodiment of the application realizes reagent amount real-time monitoring in the reagent pipe through the preset page generated by the terminal, and timely sends out a prompt to a user when the number of residual doses in the reagent pipe is less than the point threshold value, so that the arrangement of special workers for monitoring the reagent amount in the reagent pipe can be avoided, the investment of labor cost is reduced, and the normal operation of testing can not be influenced.

According to the reagent amount management method provided by the embodiment of the application, a preset page is generated to obtain the target reagent tubes containing the test reagent in the plurality of reagent tubes, the number of the residual dose points in the target reagent tubes is obtained after the reagent in the target reagent tubes is sucked, and when the number of the residual dose points is smaller than a point threshold value, prompt information that the number of the dose points corresponding to the target reagent tubes is insufficient is generated in the preset page. The embodiment of the application realizes reagent amount real-time monitoring in the reagent pipe through the preset page generated by the terminal, and timely sends out a prompt to a user when the number of residual doses in the reagent pipe is less than the point threshold value, so that the arrangement of special workers for monitoring the reagent amount in the reagent pipe can be avoided, the investment of labor cost is reduced, and the normal operation of testing can not be influenced.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present application is not limited by the order of acts or acts described, as some steps may occur in other orders or concurrently with other steps in accordance with the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

Referring to fig. 6, a schematic structural diagram of a reagent amount management device provided in an embodiment of the present application is shown, where the reagent amount management device may be applied to a diagnostic device or a terminal connected to the diagnostic device, where the diagnostic device includes a reagent module, where a plurality of reagent tube holes are formed in the reagent module, and each reagent tube hole has a reagent tube placed therein, and the reagent amount management device specifically includes the following modules:

the preset page generating module 210 is configured to generate a preset page;

a target reagent tube acquiring module 220, configured to acquire a target reagent tube containing a test reagent among the plurality of reagent tubes;

a remaining dose acquiring module 230, configured to acquire a number of remaining dose points in the target reagent tube after the reagent in the target reagent tube is aspirated;

and a prompt information generating module 240, configured to generate, in the preset page, prompt information that the number of dose points corresponding to the target reagent tube is insufficient when the number of remaining dose points is less than a point threshold value.

Optionally, the apparatus further comprises:

the target dose acquisition module is used for acquiring the number of target dose points and the type of the reagent in the target reagent tube;

the division result acquisition module is used for dividing the volume of the reagent tube of the target reagent tube to obtain a division result;

and the point threshold value determining module is used for determining a point threshold value corresponding to the target reagent tube according to the division result.

Optionally, the remaining dose acquiring module 230 comprises:

a dose point number acquisition unit for acquiring the number of reagent dose points sucked in the target reagent tube after the reagent in the target reagent tube is sucked;

a remaining number of dots determination unit configured to determine the remaining number of dose dots based on the target number of dose dots and the reagent number of dose dots.

Optionally, the apparatus further comprises:

the residual dose point display module is used for displaying the residual dose points in the preset page;

the stopping instruction receiving module is used for receiving a stopping instruction executed by a user and aiming at the sample test item matched with the reagent type when the number of the residual dosage points is 0;

and the test stopping module is used for stopping testing the sample test item matched with the reagent type according to the stopping instruction.

Optionally, the apparatus further comprises:

the reagent adding instruction receiving module is used for receiving a reagent adding instruction executed by a user and aiming at the target reagent tube;

and the reagent adding instruction sending module is used for sending the reagent adding instruction to the diagnostic equipment so as to add the test reagent into the target reagent tube by the diagnostic equipment according to the reagent adding instruction.

Optionally, the terminal establishes a connection with the diagnostic device through a controller area network bus.

The reagent amount management device provided by the embodiment of the application obtains the target reagent tubes containing the test reagent in the plurality of reagent tubes by generating the preset page, obtains the number of the residual dose points in the target reagent tubes after the reagent in the target reagent tubes is absorbed, and generates the prompt information that the number of the dose points corresponding to the target reagent tubes is insufficient in the preset page when the number of the residual dose points is less than the point threshold value. The embodiment of the application realizes reagent amount real-time monitoring in the reagent pipe through the preset page generated by the terminal, and timely sends out a prompt to a user when the number of residual doses in the reagent pipe is less than the point threshold value, so that the arrangement of special workers for monitoring the reagent amount in the reagent pipe can be avoided, the investment of labor cost is reduced, and the normal operation of testing can not be influenced.

Additionally, an embodiment of the present application further provides an electronic device, including: a processor, a memory and a computer program stored on the memory and executable on the processor, the processor implementing the above reagent amount management method when executing the program.

An embodiment of the present application further provides a computer-readable storage medium, on which a computer program is stored, which when executed by a processor implements the reagent amount management method described above.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, 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 phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The reagent amount management method and the reagent amount management device provided by the present application are introduced in detail, and specific examples are applied in the present application to explain the principle and the implementation manner of the present application, and the description of the above embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A reagent amount management method is applied to diagnostic equipment or a terminal connected with the diagnostic equipment, the diagnostic equipment comprises a reagent module, a plurality of reagent pipe holes are arranged on the reagent module, and a reagent pipe is placed in each reagent pipe hole, and the reagent amount management method is characterized by comprising the following steps:

generating a preset page;

obtaining a target reagent tube containing a test reagent in a plurality of reagent tubes;

acquiring the number of residual dose points in the target reagent tube after the reagent in the target reagent tube is sucked;

and when the number of the residual dose points is smaller than the point threshold value, generating prompt information of insufficient dose points corresponding to the target reagent tube in the preset page.

2. The method of claim 1, prior to said generating a preset page, further comprising:

acquiring the number of target dose points and the type of the reagent in the target reagent tube;

dividing the volume of the reagent tube of the target reagent tube to obtain a dividing result;

and determining the point threshold corresponding to the target reagent tube according to the division result.

3. The method of claim 2, wherein obtaining remaining dose points within the target reagent tube after the reagent within the target reagent tube is aspirated comprises:

acquiring the number of reagent dose points sucked in the target reagent tube after the reagent in the target reagent tube is sucked;

determining the remaining dose point number based on the target dose point number and the reagent dose point number.

4. The method of claim 2, further comprising, after said obtaining a number of remaining dose points within said target reagent tube:

displaying the number of the residual dose points in the preset page;

when the number of the remaining dose points is 0, receiving a stop instruction executed by a user and aiming at the sample test item matched with the reagent type;

and stopping testing the sample test item matched with the reagent type according to the stopping instruction.

5. The method of claim 1, wherein after generating the prompt message of insufficient number of dose points corresponding to the target reagent tube in the preset page, the method further comprises:

receiving a user-executed reagent addition instruction for the target reagent tube;

sending the reagent adding instruction to the diagnostic device so that the diagnostic device adds the test reagent into the target reagent tube according to the reagent adding instruction.

6. The method of claim 1, wherein the terminal establishes a connection with the diagnostic device through a controller area network bus.

7. A reagent amount management device is applied to diagnostic equipment or a terminal connected with the diagnostic equipment, the diagnostic equipment comprises a reagent module, a plurality of reagent pipe holes are arranged on the reagent module, and a reagent pipe is placed in each reagent pipe hole, and the reagent amount management device is characterized by comprising:

the preset page generating module is used for generating a preset page;

the target reagent tube obtaining module is used for obtaining a plurality of target reagent tubes containing test reagents;

the residual dose acquisition module is used for acquiring the number of residual dose points in the target reagent tube after the reagent in the target reagent tube is sucked;

and the prompt information generation module is used for generating prompt information that the number of the corresponding dose points of the target reagent tube is insufficient in the preset page when the number of the remaining dose points is less than the point threshold value.

8. The apparatus of claim 7, further comprising:

the target dose acquisition module is used for acquiring the number of target dose points and the type of the reagent in the target reagent tube;

the division result acquisition module is used for dividing the volume of the reagent tube of the target reagent tube to obtain a division result;

and the point threshold value determining module is used for determining a point threshold value corresponding to the target reagent tube according to the division result.

9. The device of claim 8, wherein the residual dose capturing module comprises:

a dose point number acquisition unit for acquiring the number of reagent dose points sucked in the target reagent tube after the reagent in the target reagent tube is sucked;

a remaining number of dots determination unit configured to determine the remaining number of dose dots based on the target number of dose dots and the reagent number of dose dots.

10. The apparatus of claim 8, further comprising:

the residual dose point display module is used for displaying the residual dose points in the preset page;

the stopping instruction receiving module is used for receiving a stopping instruction executed by a user and aiming at the sample test item matched with the reagent type when the number of the residual dosage points is 0;

and the test stopping module is used for stopping testing the sample test item matched with the reagent type according to the stopping instruction.

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