CN115081158A - Graphic element display method based on digital expression - Google Patents

Abstract

The invention provides a primitive display method based on digital expression, which takes a nuclear power engineering design network as a blue book, obtains primitive elements corresponding to nuclear power engineering design network operation elements of the nuclear power engineering design network, and obtains a primitive topological structure chart; in addition, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so that the operation state of each nuclear power engineering design network operation element is determined, and the display state of the primitive topological structure diagram is changed; finally, the changed primitive topological structure chart is converted into a digital image file compatible with a preset terminal, so that the preset terminal can conveniently display the digital image file; the method is convenient for visually and accurately obtaining the electrical elements with the abnormity from the graph by adjusting the display state of the primitive topological structure graph, thereby pertinently carrying out fixed point investigation on the nuclear power engineering design network.

Description

Graphic element display method based on digital expression

Technical Field

The invention relates to the technical field of image processing, in particular to a primitive display method based on digital expression.

Background

The electrical network inside the nuclear power plant has a complex circuit structure, which includes many different types of electrical components, and the connections between the different electrical components are also staggered. Whether the nuclear power station can work normally and stably directly influences whether the nuclear power station can continuously output stable electric energy outwards, and in order to guarantee normal operation of the nuclear power station, regular inspection and maintenance are required to be carried out on a power grid inside the nuclear power station. The existing inspection and maintenance modes of the power grid inside the nuclear power station are to inspect the whole power grid inside the nuclear power station according to a preset line, and although the mode can comprehensively inspect the power grid inside the nuclear power station, the inspection efficiency is low, and the inspection result is delayed. Therefore, all electrical components of the nuclear power engineering design network need to be visually displayed by using a pre-designed nuclear power engineering design network model, so that the nuclear power engineering design network can be conveniently observed at fixed points in a targeted manner according to the result of the graphic display.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a primitive display method based on digital expression, which takes a nuclear power engineering design network as a blueprint to obtain primitive elements corresponding to nuclear power engineering design network operation elements of the nuclear power engineering design network so as to obtain a primitive topological structure chart; in addition, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so that the operation state of each nuclear power engineering design network operation element is determined, and the display state of the primitive topological structure diagram is changed; finally, the changed primitive topological structure chart is converted into a digital image file compatible with a preset terminal, so that the preset terminal can conveniently display the digital image file; according to the method, the nuclear power engineering design network model is utilized to carry out simulation monitoring on the nuclear power engineering design network, so that the display state of the primitive topology structure diagram can be adjusted according to the operation condition of the nuclear power engineering design network model, and electrical elements with abnormity can be conveniently and visually and accurately obtained from the diagram, so that the nuclear power engineering design network is subjected to fixed-point investigation.

The invention provides a graphical element display method based on digital expression, which comprises the following steps:

step S1, acquiring network layout information of a nuclear power engineering design network, extracting all nuclear power engineering design network operation elements from the network layout information, and converting the nuclear power engineering design network operation elements into corresponding primitive elements;

step S2, according to the connection relation among all nuclear power engineering design network operation elements, performing connection processing on all primitive elements to obtain a primitive topological structure diagram; performing corresponding identification processing on the primitive topological structure chart according to a network partition result of the nuclear power engineering design network;

step S3, detecting each nuclear power engineering design network operation element of the nuclear power engineering design network so as to obtain the simulation operation data of each nuclear power engineering design network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element;

step S4, changing the display state of the corresponding primitive element on the primitive topological structure chart according to the simulation running state; and converting the changed primitive topology structure chart into a digital image file compatible with a preset terminal, and sending the digital image file to the preset terminal for displaying.

In an embodiment disclosed in the present application, in step S1, the obtaining network layout information of the nuclear power engineering design network includes:

monitoring the quality of power supply electric energy of each nuclear power engineering design network node by using monitoring terminals which are pre-distributed at all nuclear power engineering design network nodes in a nuclear power engineering design network model to obtain the quality of power supply electric energy of each nuclear power engineering design network node; judging whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node or not according to the power supply electric energy quality value;

and then acquiring network layout information of all effective nuclear power engineering design network nodes in the nuclear power engineering design network.

In an embodiment disclosed in the present application, in step S1, monitoring the quality of power supply electric energy of each nuclear power engineering design network node by using monitoring terminals pre-arranged at all nuclear power engineering design network nodes in the nuclear power engineering design network model, so as to obtain a quality value of power supply electric energy of each nuclear power engineering design network node; judging whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node according to the power supply electric energy quality value, which specifically comprises the following steps:

acquiring the power transformation working data of each transformer substation model by using monitoring terminals which are distributed in a nuclear power engineering design network model in advance, and analyzing and processing the power transformation working data to obtain harmonic interference noise information of each transformer substation model;

determining the power supply electric energy quality value of each transformer substation model according to the harmonic interference noise information; if the power supply electric energy quality value is larger than or equal to a preset quality threshold, judging that the corresponding transformer substation model is an effective nuclear power engineering design network node; and if the power supply electric energy quality value is smaller than a preset quality threshold, judging that the corresponding transformer substation model is an invalid nuclear power engineering design network node.

In an embodiment disclosed in the present application, in step S1, the obtaining of the network layout information of the nuclear power engineering network, and extracting all the nuclear power engineering network operation elements from the network layout information specifically include:

acquiring all electrical components connected with each effective nuclear power engineering design network node in the nuclear power engineering design network and circuit connection information among the electrical components, so as to form network layout information;

and taking all types of electrical components contained in the network layout information as corresponding nuclear power engineering design network operation elements.

In an embodiment disclosed in the present application, in step S1, converting the nuclear power engineering design network operation element into a corresponding primitive element specifically includes:

selecting dynamic primitive elements matched with the electrical appliance elements from a preset primitive element library; the preset primitive element library comprises a plurality of dynamic primitive elements with different shapes, sizes and colors.

In an embodiment disclosed in the present application, in step S2, according to a connection relationship between all nuclear power engineering design network operation elements, performing connection processing on all primitive elements to obtain a primitive topology structure diagram, specifically including:

performing one-to-one corresponding connection processing on all dynamic primitive elements according to the circuit connection information among all electrical components, thereby obtaining a primitive topological structure diagram; and the primitive topological structure chart is checked; and the checking process comprises the step of carrying out circuit connecting line checking process on the primitive topological structure diagram.

In an embodiment disclosed in the present application, in step S2, performing corresponding identification processing on the primitive topology structure diagram according to a network partition result of the nuclear power engineering design network, specifically including:

obtaining a transformation voltage value of each effective nuclear power engineering design network node in the nuclear power engineering design network; if the transformation voltage value is greater than or equal to a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into first-class nuclear power engineering design network nodes; if the transformation voltage value is smaller than a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into second type nuclear power engineering design network nodes;

in the primitive topology structure diagram, distinguishing and identifying all primitive elements under the respective ownership of the first type of nuclear power engineering design network node and the second type of nuclear power engineering design network node.

In an embodiment disclosed in the present application, in step S3, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so as to obtain simulated operation data of each nuclear power engineering design network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element, which specifically comprises the following steps:

carrying out current detection and temperature detection on each electrical appliance element of the nuclear power engineering design network so as to obtain a working current value and a working temperature value of each electrical appliance element; and analyzing and processing the working current value and the working temperature value, and determining whether each electrical appliance element is in a normal working state or an abnormal working state.

In an embodiment disclosed in the present application, in the step S4, changing a display state of a corresponding primitive element on the primitive topology structure diagram according to the simulation running state specifically includes:

when the electrical element is in a normal working state, keeping the current display transparency of the corresponding primitive element of the electrical element on the primitive topological structure chart unchanged;

and when the electrical element is in an abnormal working state, reducing the display transparency of the corresponding graphic element of the electrical element on the graphic element topology structure chart to a preset transparency value.

In an embodiment of the disclosure, in step S4, converting the changed primitive topology structure diagram into a digitized image file compatible with a preset terminal, so as to send the digitized image file to the preset terminal for displaying, specifically, the method includes:

and converting the changed primitive topological structure into a digital image file compatible with a preset terminal in a data system, and then sending the digital image file to the preset terminal for displaying.

Compared with the prior art, the primitive display method based on the digital expression takes the nuclear power engineering design network as the blueprint, obtains the primitive elements corresponding to the nuclear power engineering design network operation elements of the nuclear power engineering design network, and obtains the primitive topological structure chart; in addition, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so that the operation state of each nuclear power engineering design network operation element is determined, and the display state of the primitive topological structure diagram is changed; finally, the changed primitive topological structure chart is converted into a digital image file compatible with a preset terminal, so that the preset terminal can conveniently display the digital image file; according to the method, the nuclear power engineering design network model is utilized to carry out simulation monitoring on the nuclear power engineering design network, so that the display state of the primitive topology structure diagram can be adjusted according to the operation condition of the nuclear power engineering design network model, and electrical elements with abnormity can be conveniently and visually and accurately obtained from the diagram, so that the nuclear power engineering design network is subjected to fixed-point investigation.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of a graphical element displaying method based on digital expression according to the present invention.

Detailed Description

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

Referring to fig. 1, fig. 1 is a schematic flow chart of a graphical element displaying method based on digital expression according to an embodiment of the present invention. The graphic element display method based on the digital expression comprises the following steps:

step S1, acquiring network layout information of the nuclear power engineering design network, extracting all nuclear power engineering design network operation elements from the network layout information, and converting the nuclear power engineering design network operation elements into corresponding primitive elements;

step S2, according to the connection relation among all nuclear power engineering design network operation elements, performing connection processing on all primitive elements to obtain a primitive topological structure diagram; performing corresponding identification processing on the primitive topological structure chart according to a network partition result of the nuclear power engineering design network;

step S3, detecting each nuclear power engineering design network operation element of the nuclear power engineering design network so as to obtain the simulation operation data of each nuclear power engineering design network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element;

step S4, changing the display state of the corresponding primitive element on the primitive topological structure chart according to the simulation running state; and then converting the changed primitive topology structure chart into a digital image file compatible with a preset terminal, so as to send the digital image file to the preset terminal for displaying.

The beneficial effects of the above technical scheme are: the primitive display method based on the digital expression takes a nuclear power engineering design network as a blueprint, obtains primitive elements corresponding to nuclear power engineering design network operation elements of the nuclear power engineering design network, and obtains a primitive topological structure chart; in addition, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so that the operation state of each nuclear power engineering design network operation element is determined, and the display state of the primitive topological structure diagram is changed; finally, the changed primitive topological structure chart is converted into a digital image file compatible with a preset terminal, so that the preset terminal can conveniently display the digital image file; according to the method, the nuclear power engineering design network model is utilized to carry out simulation monitoring on the nuclear power engineering design network, so that the display state of the primitive topology structure diagram can be adjusted according to the operation condition of the nuclear power engineering design network model, and electrical elements with abnormity can be conveniently and visually and accurately obtained from the diagram, so that the nuclear power engineering design network is subjected to fixed-point investigation.

Preferably, in step S1, the acquiring network layout information of the nuclear power engineering network includes:

monitoring the quality of power supply electric energy of each nuclear power engineering design network node by using monitoring terminals which are pre-distributed at all nuclear power engineering design network nodes in a nuclear power engineering design network model to obtain the quality of power supply electric energy of each nuclear power engineering design network node; judging whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node or not according to the power supply electric energy quality value;

and then acquiring network layout information of all effective nuclear power engineering design network nodes in the nuclear power engineering design network.

The beneficial effects of the above technical scheme are: monitoring terminals such as a current sensor and a voltage sensor are usually arranged at nuclear power engineering network nodes such as each substation model of the nuclear power engineering network model, the working current and the working voltage of each nuclear power engineering network node can be detected in real time through the monitoring terminals, harmonic analysis is performed on the working current and the working voltage, and therefore the power supply electric energy quality value of each nuclear power engineering network node is determined quantitatively, wherein when the harmonic component of the working current or the working voltage is higher, the corresponding power supply electric energy quality is worse, namely the power supply electric energy quality value is smaller, the calculation of the power supply electric energy quality value belongs to a conventional technical means in the field, and detailed description is not given here.

Preferably, in step S1, monitoring the quality of power supply and electric energy of each designed network node of the nuclear power engineering by using monitoring terminals pre-arranged at all nodes of the designed network node of the nuclear power engineering in the designed network model of the nuclear power engineering to obtain the quality value of power supply and electric energy of each designed network node of the nuclear power engineering; according to the power supply electric energy quality value, whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node is judged, and the method specifically comprises the following steps:

acquiring the power transformation working data of each transformer substation model by using monitoring terminals which are pre-distributed in all transformer substation models in a nuclear power engineering design network model, and analyzing and processing the power transformation working data to obtain harmonic interference noise information of each transformer substation model;

determining the power supply electric energy quality value of each transformer substation model according to the harmonic interference noise information; if the power supply electric energy quality value is larger than or equal to a preset quality threshold, judging that the corresponding transformer substation model is an effective nuclear power engineering design network node; and if the power supply electric energy quality value is smaller than a preset quality threshold, judging that the corresponding transformer substation model is an invalid nuclear power engineering design network node.

The beneficial effects of the above technical scheme are: by the method, the power supply power quality of each transformer substation model is calculated and determined by taking the component height of harmonic interference noise information of the power transformation working data in each transformer substation model as a reference, and then each transformer substation model is divided into the effective nuclear power engineering design network nodes or the ineffective nuclear power engineering design network nodes in a threshold value comparison mode, so that the primitive element conversion can be performed on the effective nuclear power engineering design network nodes only in the follow-up process, the primitive element conversion is not required to be performed on all the nuclear power engineering design network nodes, and the workload of the primitive element conversion is reduced.

Preferably, in step S1, the method includes obtaining network layout information of the nuclear power engineering design network, and extracting all nuclear power engineering design network operation elements from the network layout information, and specifically includes:

acquiring all electrical components connected with each effective nuclear power engineering design network node in the nuclear power engineering design network and circuit connection information among the electrical components, thereby forming network layout information;

and taking all types of electrical components contained in the network layout information as corresponding nuclear power engineering design network operation elements.

The beneficial effects of the above technical scheme are: all electrical components connected with each effective nuclear power engineering design network node and circuit connection information among the electrical components are used as references to form corresponding network layout information, so that the circuit connection characteristics of each effective nuclear power engineering design network node can be comprehensively represented, and the electrical components can be represented and displayed in a one-to-one correspondence mode when primitive element conversion is subsequently carried out.

Preferably, in step S1, the converting the nuclear power engineering design network operation element into a corresponding primitive element specifically includes:

selecting dynamic primitive elements matched with the electrical appliance elements from a preset primitive element library; the preset primitive element library comprises a plurality of dynamic primitive elements with different shapes, sizes and colors.

The beneficial effects of the above technical scheme are: by the above method, a unified standard can be provided for each electrical component to perform dynamic primitive element corresponding conversion by using the preset primitive element library, where the dynamic primitive elements may be, but are not limited to, primitive elements having gif format.

Preferably, in step S2, according to the connection relationships between all the nuclear power engineering design network operation elements, performing connection processing on all the primitive elements to obtain a primitive topology structure diagram, which specifically includes:

performing one-to-one corresponding connection processing on all dynamic primitive elements according to the circuit connection information among all electrical components, thereby obtaining a primitive topological structure diagram; and the topological structure chart of the primitive is checked; wherein the checking process comprises performing circuit connection line checking process on the primitive topology structure diagram.

The beneficial effects of the above technical scheme are: by the method, the connection state between the corresponding nuclear power engineering design network operation elements can be represented by the simple and visual primitive topological structure diagram, so that the operation state corresponding to the nuclear power engineering design network can be directly shown. In addition, the primitive topological structure diagram is subjected to circuit connecting line inspection processing, so that the condition that the primitive topological structure diagram is in primitive element connection error in the construction process and is inconsistent with the actual connection relation of electrical elements of the nuclear power engineering design network can be effectively avoided.

Preferably, in step S2, according to the result of network partitioning of the nuclear power engineering design network, performing corresponding identification processing on the primitive topology structure diagram, specifically including:

acquiring a transformation voltage value of each effective nuclear power engineering design network node in the nuclear power engineering design network; if the transformation voltage value is greater than or equal to a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into first-class nuclear power engineering design network nodes; if the transformation voltage value is smaller than a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into second type nuclear power engineering design network nodes;

in the primitive topology structure diagram, distinguishing and identifying all primitive elements under the respective ownership of the first type of nuclear power engineering design network node and the second type of nuclear power engineering design network node.

The beneficial effects of the above technical scheme are: by the mode, the effective nuclear power engineering design network nodes can be distinguished into the first type of nuclear power engineering design network nodes with higher transformation voltage and the second type of nuclear power engineering design network nodes with lower transformation voltage by taking the actual transformation voltage value of each effective nuclear power engineering design network node as a reference, so that corresponding primitive elements are distinguished and identified in the primitive topology structure chart, and personnel can conveniently confirm and calibrate the primitive topology structure chart.

Preferably, in the step S3, each nuclear power engineering network operation element of the nuclear power engineering network is detected, so as to obtain simulated operation data of each nuclear power engineering network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element, wherein the method specifically comprises the following steps:

carrying out current detection and temperature detection on each electrical appliance element of the nuclear power engineering design network so as to obtain a working current value and a working temperature value of each electrical appliance element; and analyzing and processing the working current value and the working temperature value, and determining whether each electrical component is in a normal working state or an abnormal working state.

The beneficial effects of the above technical scheme are: by the mode, whether the electrical appliance element works normally or not can be judged by taking the working current and the working temperature of each electrical appliance element as references. Generally speaking, when the working current is greater than a preset current threshold or the working temperature is greater than a preset temperature value, it is determined that the corresponding electrical component is in an abnormal working state, otherwise, it is determined that the corresponding electrical component is in a normal working state.

Preferably, in step S4, changing the display state of the corresponding primitive element on the primitive topology structure diagram according to the simulation operation state specifically includes:

when the electrical element is in a normal working state, keeping the current display transparency of the corresponding primitive element of the electrical element on the primitive topology structure chart unchanged;

and when the electrical element is in an abnormal working state, reducing the display transparency of the corresponding primitive element of the electrical element on the primitive topological structure chart to a preset transparency value.

The beneficial effects of the above technical scheme are: by the method, the display transparency of the primitive elements is taken as an adjustment object, and when each electrical appliance element is in a normal working state or an abnormal working state, the display transparency of the primitive elements is adaptively adjusted, so that personnel can conveniently and visually determine whether the corresponding electrical appliance element normally works or not through the display transparency of the primitive topological structure image primitive elements.

Preferably, in step S4, the modified primitive topology structure diagram is converted into a digitized image file compatible with a preset terminal, so that the digitized image file is sent to the preset terminal for displaying, which specifically includes:

and converting the changed primitive topological structure into a digital image file compatible with a preset terminal in a data system, and sending the digital image file to the preset terminal for displaying.

The beneficial effects of the above technical scheme are: by the method, the changed primitive topological structure is converted into the digital image file compatible with the preset terminal in the data system, so that the digital image can be displayed by the preset terminal such as a mobile phone in real time, and the display reliability of the primitive elements is improved.

As can be seen from the content of the above embodiment, the primitive display method based on digital expression takes a nuclear power engineering design network as a blue book, and obtains primitive elements corresponding to nuclear power engineering design network operation elements of the nuclear power engineering design network, so as to obtain a primitive topology structure diagram; in addition, each nuclear power engineering design network operation element of the nuclear power engineering design network is detected, so that the operation state of each nuclear power engineering design network operation element is determined, and the display state of the primitive topological structure diagram is changed; finally, the changed primitive topological structure chart is converted into a digital image file compatible with a preset terminal, so that the preset terminal can conveniently display the digital image file; according to the method, the nuclear power engineering design network model is utilized to carry out simulation monitoring on the nuclear power engineering design network, so that the display state of the primitive topology structure diagram can be adjusted according to the operation condition of the nuclear power engineering design network model, and electrical elements with abnormity can be conveniently and visually and accurately obtained from the diagram, so that the nuclear power engineering design network is subjected to fixed-point investigation.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The graphic element display method based on the digital expression is characterized by comprising the following steps of:

step S1, acquiring network layout information of a nuclear power engineering design network, extracting all nuclear power engineering design network operation elements from the network layout information, and converting the nuclear power engineering design network operation elements into corresponding primitive elements;

step S2, according to the connection relation among all nuclear power engineering design network operation elements, performing connection processing on all primitive elements to obtain a primitive topological structure diagram; performing corresponding identification processing on the primitive topological structure chart according to a network partition result of the nuclear power engineering design network;

step S3, detecting each nuclear power engineering design network operation element of the nuclear power engineering design network so as to obtain the simulation operation data of each nuclear power engineering design network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element;

step S4, changing the display state of the corresponding primitive element on the primitive topological structure chart according to the simulation running state; and converting the changed primitive topology structure chart into a digital image file compatible with a preset terminal, and sending the digital image file to the preset terminal for displaying.

2. A method for displaying graphical elements based on digitized expressions according to claim 1, characterized in that:

in step S1, the obtaining network layout information of the nuclear power engineering design network includes:

monitoring the quality of power supply electric energy of each nuclear power engineering design network node by using monitoring terminals which are pre-distributed at all nuclear power engineering design network nodes in a nuclear power engineering design network model to obtain the quality of power supply electric energy of each nuclear power engineering design network node; judging whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node or not according to the power supply electric energy quality value;

and then acquiring network layout information of all effective nuclear power engineering design network nodes in the nuclear power engineering design network.

3. A method for displaying graphical elements based on a digitized representation as claimed in claim 2, characterized in that:

in the step S1, monitoring the quality of power supply electric energy of each nuclear power engineering design network node by using monitoring terminals pre-arranged at all nuclear power engineering design network nodes in the nuclear power engineering design network model, so as to obtain the quality value of power supply electric energy of each nuclear power engineering design network node; judging whether the corresponding nuclear power engineering design network node is an effective nuclear power engineering design network node according to the power supply electric energy quality value, and specifically comprising the following steps:

acquiring the power transformation working data of each transformer substation model by using monitoring terminals which are distributed in a nuclear power engineering design network model in advance, and analyzing and processing the power transformation working data to obtain harmonic interference noise information of each transformer substation model;

determining the power supply electric energy quality value of each transformer substation model according to the harmonic interference noise information; if the power supply electric energy quality value is larger than or equal to a preset quality threshold, judging that the corresponding transformer substation model is an effective nuclear power engineering design network node; and if the power supply electric energy quality value is smaller than a preset quality threshold, judging that the corresponding transformer substation model is an invalid nuclear power engineering design network node.

4. A method for displaying graphical elements based on a digitized representation as claimed in claim 3, characterized in that:

in step S1, acquiring network layout information of the nuclear power engineering design network, and extracting all nuclear power engineering design network operation elements from the network layout information, specifically including:

acquiring all electrical components connected with each effective nuclear power engineering design network node in the nuclear power engineering design network and circuit connection information among the electrical components, so as to form network layout information;

and taking all types of electrical components contained in the network layout information as corresponding nuclear power engineering design network operation elements.

5. A method as claimed in claim 4, characterized in that:

in step S1, converting the nuclear power engineering design network operation element into a corresponding primitive element, specifically including:

selecting dynamic primitive elements matched with the electrical appliance elements from a preset primitive element library; the preset primitive element library comprises a plurality of dynamic primitive elements with different shapes, sizes and colors.

6. A method as claimed in claim 5, characterized in that:

in step S2, according to the connection relationships between all the elements of the nuclear power engineering design network, performing connection processing on all the primitive elements to obtain a primitive topology structure diagram, which specifically includes:

performing one-to-one corresponding connection processing on all dynamic primitive elements according to the circuit connection information among all electrical components, thereby obtaining a primitive topological structure diagram; and the primitive topological structure chart is checked; and the checking process comprises the step of carrying out circuit connecting line checking process on the primitive topological structure diagram.

7. A method as claimed in claim 6, characterized in that:

in the step S2, according to the network partition result of the nuclear power engineering design network, performing corresponding identification processing on the primitive topology structure diagram, which specifically includes:

obtaining a transformation voltage value of each effective nuclear power engineering design network node in the nuclear power engineering design network; if the transformation voltage value is greater than or equal to a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into first-class nuclear power engineering design network nodes; if the transformation voltage value is smaller than a preset voltage threshold value, dividing the corresponding effective nuclear power engineering design network nodes into second type nuclear power engineering design network nodes;

in the primitive topology structure diagram, distinguishing and identifying all primitive elements under the respective ownership of the first type of nuclear power engineering design network node and the second type of nuclear power engineering design network node.

8. A method as claimed in claim 7, characterized in that:

in step S3, detecting each nuclear power engineering design network operation element of the nuclear power engineering design network, so as to obtain simulated operation data of each nuclear power engineering design network operation element; analyzing and processing the simulated operation data, and determining the simulated operation state of each nuclear power engineering design network operation element, wherein the method specifically comprises the following steps:

carrying out current detection and temperature detection on each electrical appliance element of the nuclear power engineering design network so as to obtain a working current value and a working temperature value of each electrical appliance element; and analyzing and processing the working current value and the working temperature value, and determining whether each electrical component is in a normal working state or an abnormal working state.

9. A method for presenting graphical elements based on a digitized representation as claimed in claim 8, characterized in that:

in step S4, changing a display state of a corresponding primitive element on the primitive topology structure diagram according to the simulated operation state includes:

when the electrical element is in a normal working state, keeping the current display transparency of the corresponding primitive element of the electrical element on the primitive topological structure chart unchanged;

and when the electrical element is in an abnormal working state, reducing the display transparency of the corresponding primitive element of the electrical element on the primitive topological structure chart to a preset transparency value.

10. A method for presenting graphical elements based on a digitized representation as claimed in claim 9, characterized in that:

in step S4, the changed primitive topology structure diagram is converted into a digitized image file compatible with a preset terminal, so that the digitized image file is sent to the preset terminal for displaying, which specifically includes:

and converting the changed primitive topological structure into a digital image file compatible with a preset terminal in a data system, and then sending the digital image file to the preset terminal for displaying.

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