CN112767516B

CN112767516B - Method and device for determining dot diagram of nuclear power test procedure and computer equipment

Info

Publication number: CN112767516B
Application number: CN202110232418.5A
Authority: CN
Inventors: 张博; 胡春泉
Original assignee: China General Nuclear Power Corp; CGN Power Co Ltd; Daya Bay Nuclear Power Operations and Management Co Ltd; Lingdong Nuclear Power Co Ltd; Guangdong Nuclear Power Joint Venture Co Ltd; Lingao Nuclear Power Co Ltd
Current assignee: China General Nuclear Power Corp; CGN Power Co Ltd; Daya Bay Nuclear Power Operations and Management Co Ltd; Lingdong Nuclear Power Co Ltd; Guangdong Nuclear Power Joint Venture Co Ltd; Lingao Nuclear Power Co Ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2024-04-12
Anticipated expiration: 2041-03-02
Also published as: CN112767516A

Abstract

The application relates to a method and a device for determining a plot diagram of a nuclear power test procedure and computer equipment. The method comprises the following steps: in the nuclear power test process, acquiring a dotting request for a current nuclear power test procedure; the dotting request comprises a dotting template associated with the current nuclear power test procedure and test results of the current nuclear power test procedure; determining setting parameters configured for the dotting templates; the setting parameters comprise an axis coordinate scale value and an axis coordinate unit; carrying out unit conversion on the test result according to the axis coordinate unit to obtain a standard test result; determining the coordinate of the description point corresponding to the standard test result according to the scale value of the axis coordinate; drawing a test tracing curve corresponding to the tracing coordinates in a tracing template to obtain a tracing image; and when the test dotting curve is not matched with the history dotting curve, returning to the current nuclear power test procedure. By adopting the method, the generation efficiency of the dotting image can be improved.

Description

Method and device for determining dot diagram of nuclear power test procedure and computer equipment

Technical Field

The application relates to the technical field of nuclear power informatization construction, in particular to a method and a device for determining a description diagram of a nuclear power test procedure and computer equipment.

Background

A nuclear power plant generates electricity by thermal energy generated in a nuclear reactor by nuclear fuel. In order to ensure the basic safety of a nuclear power plant, test operators perform nuclear power tests on nuclear power equipment in the nuclear power plant. The nuclear power test is a process of executing and recording results item by item according to nuclear power test procedures in a standard work order by taking the standard work order automatically generated by a preventive maintenance plan as a carrier. The test procedure refers specifically to each executable step in a complete nuclear power test.

After a nuclear power test is performed on the nuclear power equipment based on the nuclear power test procedure, an operator can correspondingly record a test result of the nuclear power test and manually draw a dot drawing image according to the test result, however, the efficiency of manually drawing the dot drawing image is low, so that the efficiency of the nuclear power test is low.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a plot determination method, apparatus, and computer device for a nuclear power test procedure that can improve the efficiency of generating a plot image.

A plot determination method of a nuclear power test procedure, the method comprising:

in the nuclear power test process, acquiring a dotting request for a current nuclear power test procedure; the point drawing request comprises a point drawing template associated with the current nuclear power test procedure and a test result of the current nuclear power test procedure;

Determining setting parameters configured for the dotting templates; the setting parameters comprise an axis coordinate scale value and an axis coordinate unit;

performing unit conversion on the test result according to the axis coordinate unit to obtain a standard test result;

determining the coordinate of the description point corresponding to the standard test result according to the scale value of the axis coordinate;

drawing a test tracing curve corresponding to the tracing coordinates in the tracing template to obtain a tracing image;

when the test dotting curve is not matched with the history dotting curve, returning to the current nuclear power test procedure; the dotting template includes a historical dotting curve.

In one embodiment, the determining the set parameters configured for the dotting template includes:

determining the template type of the dotting template;

when the template type is a new type, displaying a template configuration page;

and determining setting parameters corresponding to the dotting templates based on the template configuration page.

In one embodiment, when the test plot does not match the historical plot, the returning to the current nuclear power test procedure includes:

When the test dotting curve is not matched with the history dotting curve, determining a non-matched coordinate interval;

acquiring a test procedure treatment strategy corresponding to the current nuclear power test procedure; the test procedure treatment strategy comprises a problem type and test procedure return information;

determining a problem type corresponding to the unmatched coordinate interval and test procedure return information corresponding to the problem type;

and returning the current nuclear power test procedure according to the test procedure return information.

In one embodiment, the returning the current nuclear power test procedure according to the test procedure return information includes:

determining a return test procedure to be returned according to the test procedure return information;

determining a return procedure identifier of the return test procedure, and acquiring a standard information template and auxiliary information corresponding to the return procedure identifier; the assistance information comprises a test type and an execution area;

correspondingly filling the assistance information into the standard information template to obtain an assistance request;

determining a communication identifier conforming to the test type and the execution area;

And sending the assistance request to a terminal corresponding to the communication identifier, so that a terminal user performs trial assistance on the return trial procedure according to the assistance request.

In one embodiment, the setting parameters include rendering parameters; the method further comprises the steps of:

when the display operation of the dotting image is triggered, determining a display scene of the current nuclear power test procedure pointed by the display operation;

acquiring rendering parameters corresponding to the display scene;

rendering and displaying the dotting image based on the rendering parameters.

In one embodiment, the method further comprises:

when a description point copying request for the current nuclear power test procedure is received, a generated description point image is acquired;

determining an associated test procedure associated with the current nuclear power test procedure;

judging whether a target description point image generated based on the test result of the association test procedure exists in the generated description point image or not;

if yes, drawing a test dotting curve in the target dotting image based on the test result of the current nuclear power test procedure.

In one embodiment, the method further comprises:

According to the preset dependency relationship among the test results of each nuclear power test procedure, determining other test results which are required to be dependent on the test results of the current nuclear power test procedure;

determining a dependent process identification of a dependent test process that generates the other test result;

determining a test work order in which the dependent test procedure is located according to the dependent procedure identifier;

inquiring and downloading the communication identification of the test worksheet;

and pulling other depending test results from the corresponding terminals based on the communication identifiers, and generating test results of the current nuclear power test procedure according to the other depending test results.

A plot determination apparatus for a nuclear power test procedure, the apparatus comprising:

the dotting request acquisition module is used for acquiring a dotting request of a current nuclear power test procedure in the nuclear power test process; the point drawing request comprises a point drawing template associated with the current nuclear power test procedure and a test result of the current nuclear power test procedure;

a description point coordinate determining module for determining setting parameters configured for the description point template; the setting parameters comprise an axis coordinate scale value and an axis coordinate unit; performing unit conversion on the test result according to the axis coordinate unit to obtain a standard test result; determining the coordinate of the description point corresponding to the standard test result according to the scale value of the axis coordinate;

The tracing image drawing module is used for drawing a test tracing curve corresponding to the tracing coordinates in the tracing template to obtain a tracing image; when the test dotting curve is not matched with the history dotting curve, returning to the current nuclear power test procedure; the dotting template includes a historical dotting curve.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

According to the method, the device and the computer equipment for determining the tracing diagram of the nuclear power test procedure, when the tracing request of the current nuclear power test procedure is received, an axis coordinate scale value and an axis coordinate unit can be set for a tracing template in the tracing request; by extracting the test result from the description request, the test result can be subjected to unit conversion according to the axis coordinate unit to obtain a standard test result, and the standard test result is subjected to numerical conversion according to the axis coordinate scale value to obtain description coordinates, so that a test description curve can be drawn in a description template according to the description coordinates to obtain a description image. Compared with the traditional method that test results are manually input in other specific application programs and test description curves corresponding to the test results are drawn, the method and the device can obtain description images without jumping out of a periodic test APP and only setting parameters for description templates, and greatly improve the generation efficiency of the description images. In addition, because the dotting template comprises a historical dotting curve, whether the current nuclear power test procedure is subjected to return processing or not can be selected by comparing the difference between the test dotting curve and the historical dotting curve, so that the correctness of dotting images is improved.

Drawings

FIG. 1 is an application environment diagram of a plot determination method of a nuclear power test procedure in one embodiment;

FIG. 2 is a flow chart diagram of a plot determination method of a nuclear power test procedure in one embodiment;

FIG. 3 is a schematic diagram of a standard test worksheet in one embodiment;

FIG. 4 is a flow chart illustrating steps of a return process in one embodiment;

FIG. 5 is a schematic diagram of a rendered dotting image in one embodiment;

FIG. 6 is a block diagram of a plot determination apparatus of a nuclear power test procedure in one embodiment;

FIG. 7 is a block diagram of a plot determination apparatus of a nuclear power test procedure in another embodiment;

fig. 8 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

The plot diagram determining method of the nuclear power test procedure can be applied to an application environment shown in figure 1. Wherein the terminal 102 communicates with the server 104 via a network. The terminal 102 communicates directly or indirectly with the nuclear power plant 106. The terminal 102 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices; the server 104 may be implemented as a stand-alone server or a server cluster composed of a plurality of servers; the nuclear power plant 106 is a plant located within a nuclear power plant for nuclear power generation. The server 104 pre-stores standard work orders including a plurality of nuclear power test procedures, the server 104 divides the standard work orders to obtain a plurality of test work orders, and issues the test work orders to the corresponding terminals 102. The terminal 102 is provided with a periodic test APP (Application program) for displaying each nuclear power test procedure in the test worksheet and drawing a test dotting curve corresponding to each nuclear power test procedure. When a dotting request is received, the terminal 102 draws a corresponding test dotting curve based on the dotting request, and returns to the current nuclear power test procedure when the test dotting curve does not match the historical dotting curve.

In one embodiment, as shown in fig. 2, a method for determining a plot diagram of a nuclear power test procedure is provided, and the method is applied to the terminal in fig. 1 for illustration, and includes the following steps:

s202, in the nuclear power test process, acquiring a dotting request for the current nuclear power test procedure.

The dotting request comprises a dotting template associated with the current nuclear power test procedure and test results of the current nuclear power test procedure. A dotting template refers to a template that contains coordinate axes but does not contain a test dotting curve.

Specifically, the nuclear power test procedure refers to a piece of recorded information located in a work order, and the recorded information further comprises one or more of procedure identification of the nuclear power test procedure, execution area of the nuclear power test procedure, associated equipment information of nuclear power equipment to be tested, procedure description information and the like. The worksheet is divided into a standard worksheet and a test worksheet, wherein the standard worksheet refers to a table which is generated after each executable step in a specific nuclear power test is split and comprises a plurality of nuclear power test procedures as shown in fig. 3. FIG. 3 is a schematic diagram of a standard test worksheet in one embodiment. Because the nuclear power plant is a large nuclear power plant, the operation of the nuclear power plant depends on the mutual cooperation of a plurality of different nuclear power equipment, and the areas where the different nuclear power equipment are located can be different, in order to facilitate the test, the standard work order can be divided into at least one test work order according to the execution area corresponding to the test procedure to be executed. The execution area refers to the area where the nuclear power equipment to be tested is located.

Specifically, a periodic test configuration system is operated in the server and is used for generating a standard work order according to the program files uploaded by test operators. The program file refers to an EXCEL form written by a test operator according to a specific test step of a nuclear power test, when a standard work order needs to be generated, the test operator uploads the EXCEL form to a periodic test configuration system, and the periodic test configuration system analyzes the EXCEL form based on keywords in the form, so that the standard work order comprising a plurality of nuclear power test procedures is obtained. When a dotting template is required to be added for the nuclear power test procedure in the standard work order, a target nuclear power test procedure can be selected based on clicking operation of a test operator, then the dotting template uploaded by the test operator for the target nuclear power test procedure is obtained, and the dotting template and a procedure identifier of the target nuclear power test procedure are correspondingly stored.

The server divides each nuclear power test procedure in a periodic test based on the execution area to obtain a regional test work order, and distributes the nuclear power test procedure to the corresponding terminal. When the nuclear power equipment to be tested is tested based on the work order description information in the current nuclear power test procedure, and a test result returned by the nuclear power equipment is received, the terminal intercepts a point drawing request triggered by a test operator aiming at the current nuclear power test procedure, and determines a corresponding point drawing template and a test result according to a procedure identifier of the current nuclear power test procedure in the point drawing request. The work order description information refers to information describing specific test steps of a nuclear power test related to a nuclear power test procedure.

Obviously, a dotting template can also be arranged at the terminal for the nuclear power test procedure.

In one embodiment, since the test results generated by different types of nuclear power equipment are stored differently, the corresponding input modes are also different. For example, the nuclear power equipment of the model A stores the test result in a voice file, and the nuclear power equipment of the model B stores the test result in an image, so that the nuclear power equipment of the model A transmits the test result to the terminal in a voice mode, and the nuclear power equipment of the model B transmits the test result to the terminal in an image mode. The terminal receives the test result transmitted by the nuclear power equipment, determines the transmission mode of the test result, converts the test result according to the transmission mode to obtain a result text of a plain text, and then correspondingly stores the result text and a corresponding procedure identifier of a nuclear power test procedure. For example, when the input mode is voice transmission, the terminal performs voice recognition on the received voice file, so that voice is converted into characters; for another example, when the input mode is image transmission, the terminal performs image recognition on the received image, thereby converting the image into text.

Further, the terminal performs semantic analysis on characters in the result text, determines specific content in the result text according to the semantic analysis result, determines the text type of the result text according to the specific content, and then generates a test result input control corresponding to the text type of the result text. When the specific content is time, the corresponding text type is a time type; when the specific content is a numerical value, the corresponding text type is a numerical value type; when the specific content is selection, the corresponding text type is the selection type. For example, when the text type is the time type, the terminal generates a time control at the moment and displays the test result based on the time control, so that the test operator can conveniently confirm whether the current test result is correct or not.

The test results with different input modes are converted to obtain a result text with a unified expression form, so that the text type of the result text can be quickly determined later; by determining the text type of the result text, an input control corresponding to the text type can be generated, so that a test operator can intuitively determine whether the current test result is correct or not, and user experience is greatly improved.

In one embodiment, the same dotting template may be provided for a plurality of nuclear power test procedures, or a plurality of dotting templates may be provided for one nuclear power test procedure.

S204, determining the setting parameters configured for the dotting templates.

The setting parameters comprise an axis coordinate scale value and an axis coordinate unit, wherein the axis coordinate scale value refers to numerical information represented by the unit scale on the axis coordinate; the axis coordinate unit refers to unit information of each coordinate axis, for example, the axis coordinate unit of the X axis may be m/s (meters/second), and the corresponding axis coordinate scale value may be 1, so that each unit scale on the X axis coordinate may be expressed as 1m/s.

Specifically, after determining the dotting template corresponding to the current nuclear power test procedure, the test operator may set the setting parameters of the dotting template. For example, the test operator may click on the parameter setting control, and then periodically test the APP to pop up the template configuration page, so that the test operator may input information such as the axis coordinate scale value and the axis coordinate unit of the pointing template in the template configuration page. The method comprises the steps that the test APP monitors clicking operation of a test operator regularly, after the test operator is determined to click a confirmation control, the test APP regularly obtains setting parameters input in a template configuration page, and the setting parameters, template identifiers of a dotting template and process identifiers of nuclear power test processes are stored correspondingly. For example, in setting the parameter "axis coordinate scale value of X axis: 1. axis coordinate scale value of Y axis: 2. axis coordinate unit of X axis: m (meters), axis coordinate unit of Y axis: s (seconds) ", the template of the dotting template is identified as" a ", and the procedure of the nuclear power test procedure is identified as" a ", the terminal may compare { dotting parameters: scale value of axis coordinates of { X axis: 1. axis coordinate scale value of Y axis: 2. axis coordinate unit of X axis: axis coordinate unit of m, Y axis: s }, template identification: a, procedure identification: a } is stored in the cache.

Obviously, the setting parameters can also be configured for the dotting templates at the server side.

In one embodiment, when the setting parameters of the uploaded description templates need to be multiplexed, the periodic test APP can display the uploaded description templates to the test operator, so that the test operator can select the description templates needing to be multiplexed from the displayed plurality of description templates. The APP is tested regularly to obtain the template identification of the point drawing template to be multiplexed, and corresponding setting parameters are extracted from the cache based on the template identification, so that test operators can judge the corresponding setting parameters as the setting parameters of the point drawing template to be multiplexed currently.

S206, carrying out unit conversion on the test result according to the axis coordinate unit to obtain a standard test result.

Specifically, when the periodic test APP receives a test result of the current nuclear power test procedure, the periodic test APP judges whether the test result carries unit information, and if the test result carries the unit information, the periodic test APP judges whether the unit information carried in the test result is consistent with an axis coordinate unit in the dotting template. If the test results are inconsistent, the periodic test APP acquires a preset unit conversion table, and the test results are converted into standard test results under the axis coordinate units according to the unit conversion table. For example, when the axis coordinate unit of the X axis is m and the axis coordinate unit of the Y axis is s, and the test result is (200 cm,1 s), the terminal converts 200cm into 2m according to the unit conversion table.

If the test result does not carry unit information, the periodic test APP determines equipment parameters of the nuclear power equipment to be tested according to the equipment information in the current nuclear power test procedure, and calculates a unit value of the test result according to the equipment parameters, for example, the periodic test APP calculates the unit value of the test result to be m/s according to information such as rated power of the equipment, and adds corresponding units in (3, 1), so that the test result (3 m,1 s) carrying the unit information is obtained.

S308, determining the coordinate of the description point corresponding to the standard test result according to the scale value of the axis coordinate.

And S210, drawing a test dotting curve corresponding to the dotting coordinates in a dotting template to obtain a dotting image.

Specifically, the standard test result includes at least one axis coordinate result, for example, when the standard test result is (3 m,1 s), it includes two axis coordinate results: 3m and 1s; the axis coordinate scale value includes at least one sub-scale value, for example, the sub-scale value may be: axis coordinate scale value of Y axis: 2, or axis coordinate scale value of X axis: 1, a step of; the axis coordinate unit includes at least one subunit, for example, the subunit may be: axis coordinate unit of X axis: m, or Y axis coordinate units: s. And the periodical test APP queries a subunit consistent with the unit of the axial coordinate result in the axial coordinate unit, and determines a corresponding sub-scale value according to coordinate axis description information in the subunit. Wherein the coordinate axis description information refers to key name information in a subunit existing in the form of key value pairs. For example, when the standard test result is (3 m,1 s), the set parameter is { axis coordinate scale value of X axis: 1. axis coordinate scale value of Y axis: 2. axis coordinate unit of X axis: axis coordinate unit of m, Y axis: s } according to the unit "m" in the standard test result and the unit of axis coordinate of the X axis in the setting parameter: m ", determining that the axis coordinate scale value corresponding to 3m is the axis coordinate scale value of the X axis: 1".

Further, the periodic test APP identifies numerical information in the axis coordinate result, and divides the numerical information by a corresponding sub-scale value to obtain sub-coordinates required for forming the coordinates of the points. And combining all the sub-coordinates by the APP in the periodic test to obtain corresponding dotting coordinates. For example, in the above example, the periodic test APP divides 3 by 1 to obtain sub-coordinate 3 in the X-axis, divides 1 by 2 to obtain sub-coordinate 0.5 in the Y-axis, and the dotted coordinate corresponding to the standard test (3 m,1 s) is (1, 0.5). In this way, the periodic test APP converts the received test results into corresponding description coordinates, draws description points corresponding to the description coordinates in the description template, and connects the description points to obtain a test description point curve corresponding to the current nuclear power test procedure.

S212, when the test dotting curve is not matched with the history dotting curve, returning to the current nuclear power test procedure;

the dotting template comprises a historical dotting curve, wherein the historical dotting curve refers to a dotting curve generated by aiming at the test result of the same nuclear power test procedure at the historical moment.

Specifically, the association relationship between the process identifier and the test process processing strategy is prestored in the periodic test APP; the test procedure processing strategy includes test procedure return information. Due to the specificity of the nuclear power test, the execution of each nuclear power test procedure has a sequence, and the test result of the nuclear power test procedure in the former sequence may affect the execution of the nuclear power test procedure in the latter sequence. When the test tracing point curve is not matched with the history tracing point curve, namely, when the error between the test tracing point curve and the history tracing point curve is larger than a preset threshold value, the test result of a certain nuclear power test procedure before the current nuclear power test procedure can be considered to be wrong, so that the periodic test APP inquires the corresponding test procedure processing strategy of the current nuclear power test procedure according to the association relation between the procedure identification and the test procedure processing strategy, extracts test procedure return information in the test procedure processing strategy, determines a return test procedure to be returned according to the test procedure return information, and then correspondingly displays the return test procedure to be returned in a local screen so as to enable nuclear power test operators to restart the nuclear power test from the return test procedure.

In the method for determining the description map of the nuclear power test procedure, when the description request of the current nuclear power test procedure is received, an axis coordinate scale value and an axis coordinate unit can be set for the description template in the description request; by extracting the test result from the description request, the test result can be subjected to unit conversion according to the axis coordinate unit to obtain a standard test result, and the standard test result is subjected to numerical conversion according to the axis coordinate scale value to obtain description coordinates, so that a test description curve can be drawn in a description template according to the description coordinates to obtain a description image. Compared with the traditional method that test results are manually input in other specific application programs and test description curves corresponding to the test results are drawn, the method and the device can obtain description images without jumping out of a periodic test APP and only setting parameters for description templates, and greatly improve the generation efficiency of the description images. In addition, because the dotting template comprises a historical dotting curve, whether the current nuclear power test procedure is subjected to return processing or not can be selected by comparing the difference between the test dotting curve and the historical dotting curve, so that the correctness of dotting images is improved.

In one embodiment, determining the set parameters configured for the dotting template includes: determining a template type describing the template; when the template type is a new type, displaying a template configuration page; setting parameters corresponding to the dotting templates are determined based on the template configuration page.

The template type of the dotting template comprises a new type and a reuse type; the newly built type refers to a description template which does not carry setting parameters; the reuse type is a description template which is uploaded in a periodic test configuration system and is configured for other nuclear power test procedures, and the description template of the reuse type carries successfully configured setting parameters.

Specifically, the periodic test APP judges whether the dotting template carries the setting parameters, if the dotting template does not carry the setting parameters, the periodic test APP displays a template configuration page, so that a nuclear power test operator configures the setting parameters of the dotting template in the template configuration page. When the nuclear power test operator clicks the confirmation control, the periodic test APP correspondingly stores the setting parameters input by the nuclear power test operator in the template configuration page, the template identification of the dotting template and the procedure identification of the nuclear power test procedure.

In the embodiment, the template configuration page is correspondingly displayed, so that test operators can conveniently and rapidly configure the setting parameters of the dot drawing template based on the template configuration page, and the dot drawing generation efficiency is improved.

In one embodiment, as shown in FIG. 4, when the test plot does not match the historical plot, the returning to the current nuclear power test procedure includes:

s402, when the test plot curve is not matched with the history plot curve, determining a non-matched coordinate interval.

S404, acquiring a test procedure treatment strategy corresponding to the current nuclear power test procedure; the test procedure treatment strategy includes the type of problem and test procedure return information.

S406, determining the problem type corresponding to the unmatched coordinate interval and the test procedure return information corresponding to the problem type.

S408, returning the current nuclear power test procedure according to the test procedure return information.

Specifically, when the test plot curve does not match the historical plot curve, the periodic test APP determines a non-matching coordinate interval and obtains a test procedure handling strategy corresponding to the current nuclear power test procedure. The test procedure processing strategy comprises at least one problem type corresponding to the coordinate interval and test procedure return information corresponding to the problem type. The periodic test APP determines the corresponding problem type and test procedure return information corresponding to the problem type according to the unmatched coordinate interval, and returns the current nuclear power test procedure according to the return procedure identification of the return test procedure to be returned in the test procedure return information. For example, the axial coordinates in the dotting image can be divided into a first half part and a second half part, when the difference between the test dotting curve and the history dotting curve of the first half part is larger than a preset threshold value, the nuclear power test equipment can be considered to be still in a preheating stage, the test dotting curve at the moment is not accurate enough, and the periodic test APP does not return to the current nuclear power test procedure according to the test procedure return information; when the difference between the test dotting curve and the history dotting curve of the latter half is larger than a preset threshold, the nuclear power test equipment can be considered to be in a stable stage, but the output test result is wrong, and at the moment, the periodic test APP returns the current nuclear power test procedure according to the test procedure return information.

In this embodiment, due to the complexity of the nuclear power test, the problem types that may correspond to different coordinate intervals are different, and by presetting the problem types corresponding to different coordinate intervals and the return information of the test procedure, the test operator can more accurately determine the problem location, and correct and process the problem according to the determined problem.

In one embodiment, the returning the current nuclear power test procedure according to the test procedure return information includes: determining a return test procedure to be returned according to the test procedure return information; determining a return procedure identifier of a return test procedure, and acquiring a standard information template and auxiliary information corresponding to the return procedure identifier; the assistance information comprises a test type and an execution area; correspondingly filling the assistance information into a standard information template to obtain an assistance request; determining a communication identifier conforming to the test type and the execution area; and sending the assistance request to the terminal corresponding to the communication identifier, so that the terminal user performs trial assistance on the return trial procedure according to the assistance request.

The assistance information is a message containing one or more assistance key fields, and the assistance information comprises one or more of a procedure identifier of a nuclear power test procedure, an execution area corresponding to the nuclear power test procedure, a test type of the nuclear power test procedure, equipment required to be carried during assistance, content required to be assisted and the like. The assistance keywords may be stored in the assistance information in the form of key value pairs, for example, the assistance information may be "execution area: a "," carrying device: b ", wherein" execution area "is a key name and" a "is a key value. The standard information template is a file containing a plurality of input parameters, the input parameters can exist in the form of key value pairs, wherein key names in the input parameters correspond to key names in the assistance keywords, and the key values of the input parameters are one form parameter.

The test type refers to a test type of a nuclear power test based on a nuclear power test procedure. The test types corresponding to different nuclear power test procedures are different, and the required assisting staff are different, for example, when the current nuclear power test procedure is to perform nuclear power test on a nuclear reactor, the corresponding test type is the type of the nuclear reactor, and the required assisting staff are professional nuclear power staff; when the current nuclear power test procedure is to test condensed water, the corresponding test type is the condensed water type, and the required auxiliary personnel are professional chemical personnel.

Specifically, a standard information template and auxiliary information corresponding to each nuclear power test procedure are prestored in the terminal. When the return test procedure which should be returned is determined according to the return information of the test procedure, the regular test APP determines corresponding assistance information and a standard information template according to the return procedure identification of the return test procedure, and replaces the key value in the assistance keyword with the form parameter in the corresponding input parameter to obtain the assistance request. The method comprises the steps of periodically testing APP to obtain a corresponding relation between a preset test type and a communication identifier and a corresponding relation between the communication identifier and an execution area, inquiring a first communication identifier meeting a condition in the corresponding relation between the test type and the communication identifier according to the test type, inquiring a second communication identifier meeting the condition in the corresponding relation between the communication identifier and the execution area according to the execution area, and performing intersection operation on the first communication identifier and the second communication identifier to obtain a final target communication identifier. The periodic test APP sends an assistance request to a terminal corresponding to the communication identifier, so that a terminal user can carry out test assistance according to an execution area in the assistance request and equipment to be carried to a designated place.

In this embodiment, when the test dotting curve and the history dotting curve are not matched, the test result of the return test procedure is considered to be wrong, and the assistance request is correspondingly generated, and the assistance personnel is called based on the assistance request, so that the accuracy of the execution of the return test procedure can be improved, and the accuracy of the dotting image is improved.

In one embodiment, the trace image determination method of the nuclear power test procedure further comprises: when the display operation of the dotting image is triggered, determining a display scene of the current nuclear power test procedure pointed by the display operation; acquiring rendering parameters corresponding to the display scene; rendering the presentation description image based on the rendering parameters.

The setting parameters comprise rendering parameters, wherein the rendering parameters comprise information such as height, width, margin, display dimension and the like of the image; the presentation dimensions include two dimensions and three dimensions. The display scene is scene information set by test operators according to the importance degree of the nuclear power test procedure and the complexity degree of the test result, and different display scenes have different rendering parameters.

Specifically, because the importance degrees of different nuclear power test procedures are different, the complexity degree of test results is also different, different display scenes can be configured for each nuclear power test procedure, and accordingly the corresponding relation between procedure identifiers and display scenes of the nuclear power test procedures is obtained. When a test operator triggers the display operation of the dotting image, the periodical test APP determines the process identification of the current nuclear power experiment process, and determines the corresponding display scene based on the corresponding relation between the process identification and the display scene. The method comprises the steps that a periodical test APP obtains rendering parameters configured for displaying a scene, renders a description point image based on the rendering parameters, and then displays the rendered description point image. For example, the dot image of the important nuclear power test procedure can be displayed in a large-scale and three-dimensional form, and the dot image with simple test results can be displayed in a small-scale and two-dimensional form. FIG. 5 is a plot image, shown in small, two-dimensional form, in one embodiment.

In the embodiment, the user experience can be greatly improved by displaying the dot tracing images of different nuclear power test procedures in a personalized manner.

In one real-time example, the trace image determining method of the nuclear power test procedure further comprises: when a description point copying request for the current nuclear power test procedure is received, a generated description point image is acquired; determining an associated test procedure associated with the current nuclear power test procedure; judging whether a target description point image generated based on a test result of the association test procedure exists in the generated description point image or not; if yes, drawing a test tracing curve in the target tracing image based on the test result of the current nuclear power test procedure.

The related test procedure is a nuclear power test procedure which has the same test type as the current nuclear power test procedure and consistent unit information of test results. The test operator can set an associated test procedure associated with the current nuclear power test procedure in the test worksheet, so that the terminal correspondingly stores the procedure identifier of the associated test procedure and the procedure identifier of the current nuclear power test procedure.

Specifically, when it is determined that a test operator clicks a point tracing copy control and generates a point tracing copy request, the periodic test APP acquires a plurality of point tracing images generated based on test results of other executed nuclear power test procedures, determines whether a target point tracing image generated based on test results of an associated test procedure exists in the generated point tracing images, and if so, the periodic test APP draws a test point tracing curve of the current nuclear power test procedure in the target point tracing image. If the nuclear power test procedure does not exist, the periodic test APP acquires preset prompt information to prompt a nuclear power test operator that the current nuclear power test procedure does not exist in the related test procedure.

In this embodiment, the test plot curves of the related nuclear power test procedures are drawn in the same plot template, so that a plurality of test plot curves in the same plot template can be analyzed later, and the association relationship between the related test procedures can be determined.

In one embodiment, the trace image determination method of the nuclear power test procedure further comprises: according to the preset dependency relationship among the test results of each nuclear power test procedure, determining other test results which are required to be dependent on the test results of the current nuclear power test procedure; determining a dependent process identification of a dependent test process for generating other test results; determining a test work order where the dependent test procedure is located according to the dependent procedure identification; inquiring the communication identification of the downloaded test worksheet; and pulling other dependent test results from the corresponding terminals based on the communication identifiers, and generating test results of the current nuclear power test procedure according to the other dependent test results.

Specifically, due to the specificity of the nuclear power test, there may be a dependency relationship between test results of a plurality of nuclear power test procedures of a complete nuclear power test, for example, it is necessary to calculate test results of a nuclear power test procedure B according to test results of a nuclear power test procedure a, so that a test operator may add a dependency relationship between test results of each test procedure in a standard work order in advance, for example, a field named "dependency test result" may be added in the standard work order, so that a test work order obtained based on division of the standard work order also has other test results on which the test results of the test procedure to be currently executed depend.

When determining the current nuclear power test procedure, the periodic test APP judges whether the generation of the test result of the current nuclear power test procedure needs to depend on the test results of other nuclear power test procedures according to the dependency relationship among the test results of the nuclear power test procedures, if so, the periodic test APP inquires the dependent procedure identification of the dependent test procedure for generating other test results in the test worksheet according to the procedure identification of the current nuclear power test procedure, sends the dependent procedure identification to a server, the server determines the test worksheet containing the dependent procedure according to the dependent procedure identification, downloads the communication identification of the test worksheet containing the dependent procedure, and then returns the communication identification to the periodic test APP. The method comprises the steps that a periodic test APP generates a corresponding query request according to a dependent process identifier, a test result of a dependent process is pulled from a terminal corresponding to a communication identifier based on the query request, a test result of a current nuclear power test process is generated based on the test result of the dependent process and the test result obtained from nuclear power test equipment, and then a description request is generated according to the test result of the current nuclear power test process.

In this embodiment, when determining other test results that are needed to be relied on for generating the test results of the current nuclear power test procedure, the other relied on test results can be automatically pulled from the corresponding terminal, so that the terminal user corresponding to the communication identifier can send the test results without using a telephone or an instant communication tool, and the communication efficiency between test operators is improved.

It should be understood that, although the steps in the flowcharts of fig. 2 and 4 are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in fig. 2, 4 may include steps or stages that are not necessarily performed at the same time, but may be performed at different times, or the order in which the steps or stages are performed is not necessarily sequential, but may be performed in rotation or alternatively with at least some of the other steps or stages.

In one embodiment, as shown in fig. 6, a plot determination apparatus 600 of a nuclear power test procedure is provided, comprising: a description request acquisition module 602, a description coordinate determination module 604, and a description image rendering module 606, wherein:

the dotting request acquisition module 602 is used for acquiring a dotting request of a current nuclear power test procedure in the nuclear power test process; the dotting request includes a dotting template associated with the current nuclear power test procedure and test results of the current nuclear power test procedure.

A dotting coordinate determination module 604 for determining setting parameters configured for a dotting template; the setting parameters comprise an axis coordinate scale value and an axis coordinate unit; carrying out unit conversion on the test result according to the axis coordinate unit to obtain a standard test result; and determining the coordinate of the description point corresponding to the standard test result according to the scale value of the axis coordinate.

A plot image drawing module 606, configured to draw a test plot curve corresponding to the plot coordinates in a plot template, so as to obtain a plot image; when the test dotting curve is not matched with the history dotting curve, returning to the current nuclear power test procedure; the dotting template includes a historical dotting curve.

In one embodiment, as shown in fig. 7, the above-mentioned dotting coordinate determining module 604 further includes a template configuration module 6041 for determining a template type of the dotting template; when the template type is a new type, displaying a template configuration page; setting parameters corresponding to the dotting templates are determined based on the template configuration page.

In one embodiment, the plot image rendering module 606 further includes a return processing module 6061 for determining a non-matching coordinate interval when the trial plot curve does not match the history plot curve; acquiring a test procedure treatment strategy corresponding to the current nuclear power test procedure; the test procedure treatment strategy comprises the problem type and test procedure return information; determining a problem type corresponding to the unmatched coordinate interval and test procedure return information corresponding to the problem type; and returning the current nuclear power test procedure according to the test procedure return information.

In one embodiment, the return processing module 6061 is further configured to determine a return test procedure to be returned based on the test procedure return information; determining a return procedure identifier of a return test procedure, and acquiring a standard information template and auxiliary information corresponding to the return procedure identifier; the assistance information comprises a test type and an execution area; correspondingly filling the assistance information into a standard information template to obtain an assistance request; determining a communication identifier conforming to the test type and the execution area; and sending the assistance request to the terminal corresponding to the communication identifier, so that the terminal user performs trial assistance on the return trial procedure according to the assistance request.

In one embodiment, the plot determining apparatus 600 of the above-mentioned nuclear power test procedure further includes a rendering module 608, configured to determine, when a display operation on the plot image is triggered, a display scene of the current nuclear power test procedure pointed by the display operation; acquiring rendering parameters corresponding to the display scene; rendering the presentation description image based on the rendering parameters.

In one embodiment, the tracing diagram determining device 600 of the above nuclear power test procedure is further configured to obtain the generated tracing image when receiving a tracing copy request for the current nuclear power test procedure; determining an associated test procedure associated with the current nuclear power test procedure; judging whether a target description point image generated based on a test result of the association test procedure exists in the generated description point image or not; if yes, drawing a test tracing curve in the target tracing image based on the test result of the current nuclear power test procedure.

In one embodiment, the plot diagram determining apparatus 600 of the above-mentioned nuclear power test procedure is further configured to determine, according to a preset dependency relationship between test results of each nuclear power test procedure, other test results that need to be relied on to generate the test result of the current nuclear power test procedure; determining a dependent process identification of a dependent test process for generating other test results; determining a test work order where the dependent test procedure is located according to the dependent procedure identification; inquiring the communication identification of the downloaded test worksheet; and pulling other dependent test results from the corresponding terminals based on the communication identifiers, and generating test results of the current nuclear power test procedure according to the other dependent test results.

The specific definition of the plot diagram determining apparatus regarding the nuclear power test procedure may be referred to the definition of the plot diagram determining method for the nuclear power test procedure hereinabove, and will not be described herein. The above-described respective modules in the trace diagram determining apparatus of the nuclear power test procedure may be realized entirely or partially by software, hardware, and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a terminal, and the internal structure thereof may be as shown in fig. 8. The computer device includes a processor, a memory, a communication interface, a display screen, and an input device connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The communication interface of the computer device is used for carrying out wired or wireless communication with an external terminal, and the wireless mode can be realized through WIFI, an operator network, NFC (near field communication) or other technologies. The computer program, when executed by a processor, implements a method for determining a trace image of a nuclear power test procedure. The display screen of the computer equipment can be a liquid crystal display screen or an electronic ink display screen, and the input device of the computer equipment can be a touch layer covered on the display screen, can also be keys, a track ball or a touch pad arranged on the shell of the computer equipment, and can also be an external keyboard, a touch pad or a mouse and the like.

It will be appreciated by those skilled in the art that the structure shown in fig. 8 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of:

in the nuclear power test process, acquiring a dotting request for a current nuclear power test procedure; the dotting request comprises a dotting template associated with the current nuclear power test procedure and test results of the current nuclear power test procedure;

carrying out unit conversion on the test result according to the axis coordinate unit to obtain a standard test result;

drawing a test tracing curve corresponding to the tracing coordinates in a tracing template to obtain a tracing image;

In one embodiment, the processor when executing the computer program further performs the steps of:

determining the template type of the dotting template;

when the template type is a new type, displaying a template configuration page;

setting parameters corresponding to the dotting templates are determined based on the template configuration page.

when the test plot curve is not matched with the history plot curve, determining a non-matched coordinate interval;

acquiring a test procedure treatment strategy corresponding to the current nuclear power test procedure; the test procedure treatment strategy comprises the problem type and test procedure return information;

Determining a return procedure identifier of a return test procedure, and acquiring a standard information template and auxiliary information corresponding to the return procedure identifier; the assistance information comprises a test type and an execution area;

correspondingly filling the assistance information into a standard information template to obtain an assistance request;

and sending the assistance request to the terminal corresponding to the communication identifier, so that the terminal user performs trial assistance on the return trial procedure according to the assistance request.

acquiring rendering parameters corresponding to the display scene;

rendering the presentation description image based on the rendering parameters.

judging whether a target description point image generated based on a test result of the association test procedure exists in the generated description point image or not;

If yes, drawing a test tracing curve in the target tracing image based on the test result of the current nuclear power test procedure.

determining a dependent process identification of a dependent test process for generating other test results;

determining a test work order where the dependent test procedure is located according to the dependent procedure identification;

inquiring the communication identification of the downloaded test worksheet;

and pulling other dependent test results from the corresponding terminals based on the communication identifiers, and generating test results of the current nuclear power test procedure according to the other dependent test results.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

In one embodiment, the computer program when executed by the processor further performs the steps of:

determining the template type of the dotting template;

when the template type is a new type, displaying a template configuration page;

acquiring rendering parameters corresponding to the display scene;

Rendering the presentation description image based on the rendering parameters.

inquiring the communication identification of the downloaded test worksheet;

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in the form of a variety of forms, such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), and the like.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims

1. A plot determination method for a nuclear power test procedure, the method comprising:

Drawing a test tracing curve corresponding to the tracing coordinates in the tracing template to obtain a tracing image; the dotting template comprises a historical dotting curve;

2. The method of claim 1, wherein the determining the set parameters configured for the dotting template comprises:

determining the template type of the dotting template;

when the template type is a new type, displaying a template configuration page;

3. The method of claim 1, wherein the dotting template is a template that includes coordinate axes but does not include a test dotting curve.

4. The method of claim 1, wherein the axis coordinate scale value refers to numerical information represented by a unit scale on an axis coordinate.

5. The method of claim 1, wherein the setting parameters comprise rendering parameters; the method further comprises the steps of:

acquiring rendering parameters corresponding to the display scene;

rendering and displaying the dotting image based on the rendering parameters.

6. The method according to claim 1, wherein the method further comprises:

7. The method according to claim 1, wherein the method further comprises:

8. A trace image determination apparatus for a nuclear power test procedure, the apparatus comprising:

the tracing image drawing module is used for drawing a test tracing curve corresponding to the tracing coordinates in the tracing template to obtain a tracing image; the dotting template comprises a historical dotting curve; when the test dotting curve is not matched with the history dotting curve, determining a non-matched coordinate interval; acquiring a test procedure treatment strategy corresponding to the current nuclear power test procedure; the test procedure treatment strategy comprises a problem type and test procedure return information; determining a problem type corresponding to the unmatched coordinate interval and test procedure return information corresponding to the problem type; determining a return test procedure to be returned according to the test procedure return information; determining a return procedure identifier of the return test procedure, and acquiring a standard information template and auxiliary information corresponding to the return procedure identifier; the assistance information comprises a test type and an execution area; correspondingly filling the assistance information into the standard information template to obtain an assistance request; determining a communication identifier conforming to the test type and the execution area; and sending the assistance request to a terminal corresponding to the communication identifier, so that a terminal user performs trial assistance on the return trial procedure according to the assistance request.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 7 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 7.