CN114755988A - Monitoring and manufacturing guiding method and device based on electric power equipment visualization and computer equipment - Google Patents

Abstract

The application relates to a monitoring and manufacturing guiding method and device based on power equipment visualization, computer equipment, storage media and computer program products. The method comprises the following steps: acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored; inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in the current production step; and sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the electric power equipment to be monitored. By adopting the method, whether the production process of the electric power equipment to be monitored has errors can be quickly and accurately determined, and the efficiency of the monitoring work of the electric power equipment is improved.

Description

Monitoring and manufacturing guiding method and device based on electric power equipment visualization and computer equipment

Technical Field

The present application relates to the field of power technologies, and in particular, to a method and an apparatus for monitoring and guiding based on power equipment visualization, a computer device, a storage medium, and a computer program product.

Background

The power is one of important resources for guaranteeing normal life of people, the quality of the power equipment is an important factor influencing normal work and operation of a power system, and in order to improve the production quality of the power equipment, the manufacturing process of the power equipment needs to be monitored.

However, with the improvement of the technology level, the functions and structures of the power equipment become complex gradually and the updating speed becomes faster and faster, so that when a new power equipment or an unfamiliar power equipment is introduced, a worker cannot confirm the work flow of the power equipment quickly in the monitoring and manufacturing process, and the work efficiency of the power equipment in the monitoring and manufacturing process is low.

Therefore, the problem of low work efficiency of power equipment monitoring exists in the prior art.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a monitoring and guiding method, an apparatus, a computer device, a computer readable storage medium, and a computer program product based on visualization of an electrical device, which can improve the monitoring work efficiency of the electrical device.

In a first aspect, the application provides a monitoring and manufacturing guiding method based on electrical equipment visualization. The method comprises the following steps:

acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

and sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the electric power equipment to be monitored.

In one embodiment, the querying of the target visualization dynamic production guide corresponding to the device identifier and the current production process identifier includes:

in an equipment production guide library, determining visual dynamic production guide of the electric power equipment to be monitored according to the equipment identification; the visual dynamic production guide comprises dynamic content for simulating production of a digital model of the electric power equipment to be monitored in each production step of the electric power equipment to be monitored;

And inquiring the target visual dynamic production guide in the visual dynamic production guide according to the current production flow identifier.

In one embodiment, the method further comprises:

acquiring equipment metadata and production flow data of the electric power equipment to be monitored; the production flow data comprises flow information in each production step;

according to the equipment metadata, carrying out modeling processing on the electric power equipment to be monitored to obtain a digital model of the electric power equipment to be monitored;

and according to the production flow data, carrying out simulation production processing on the digital model to generate the visual dynamic production guide.

In one embodiment, the method further comprises:

acquiring equipment production parameters of the power equipment to be monitored in a production field after the current production step is finished;

inquiring target equipment parameters corresponding to the equipment identification and the current production process identification in an equipment production guide library; the target equipment parameters are parameters of the digital model after the digital model of the electric power equipment to be monitored is subjected to analog production in the current production step;

Comparing the equipment production parameters with the target equipment parameters to generate a monitoring result of the electric power equipment to be monitored; and the monitoring result is used for determining whether the power equipment to be monitored is in a normal state.

In one embodiment, the target visualization dynamic production guide further comprises a model state of a digital model of the electric power equipment to be monitored after the digital model is subjected to analog production in the current production step; if the electric power equipment to be monitored is in an abnormal state, the method further comprises the following steps:

responding to the acquisition operation of the deconstruction model of the digital model, and deconstructing the model state of the digital model to obtain a digital deconstruction model; the digital deconstruction model comprises part description information corresponding to each part in the model state;

and sending the digital deconstruction model to the display terminal so that the target object can determine the abnormal part in the electric power equipment to be monitored according to the part description information.

In one embodiment, when the display terminal is a target wearable device carrying an image acquisition device, the obtaining of the device identifier corresponding to the power device to be manufactured includes:

Acquiring an image of equipment to be identified of the electric power equipment to be monitored; the device image to be identified is a device image acquired by the image acquisition device of the target wearable device;

performing feature extraction on the image of the equipment to be identified to obtain the image features of the equipment to be identified;

and determining the equipment identifier corresponding to the electric power equipment to be monitored according to the image characteristics of the equipment to be identified.

In a second aspect, the application further provides a monitoring and manufacturing guiding device based on the visualization of the electrical equipment. The device comprises:

the acquisition module is used for acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

the query module is used for querying a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic content for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

and the sending module is used for sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the electric power equipment to be monitored.

In a third aspect, the application also provides a computer device. The computer device comprises a memory storing a computer program and a processor implementing the following steps when executing the computer program:

acquiring an equipment identifier corresponding to the electric equipment to be monitored and a current production flow identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

querying a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic content for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

and sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the electric power equipment to be monitored.

In a fourth aspect, the present application further provides a computer-readable storage medium. The computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:

Acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

and sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the power equipment to be monitored and manufactured.

In a fifth aspect, the present application further provides a computer program product. The computer program product comprising a computer program which when executed by a processor performs the steps of:

acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic content for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

And sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the power equipment to be monitored and manufactured.

According to the monitoring and manufacturing guiding method, the monitoring and manufacturing guiding device, the computer equipment, the storage medium and the computer program product based on the power equipment visualization, the equipment identification corresponding to the power equipment to be monitored and manufactured and the current production process identification are obtained; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored; inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for performing simulation production on a digital model of the power equipment to be monitored in the current production step; sending the target visual dynamic production guide to a display terminal to guide a target object to monitor the production process of the power equipment to be monitored and manufactured; therefore, when workers on the power equipment production site do not know the specific work content of the production process of the power equipment to be monitored and manufactured, the workers can determine the specific production process of the power equipment to be monitored and manufactured in the current production step through the target visual dynamic production guide of the power equipment to be monitored and manufactured, so that whether errors occur in the production process of the power equipment to be monitored and manufactured can be quickly and accurately determined, and the monitoring and manufacturing efficiency of the power equipment is improved.

Drawings

Fig. 1 is a diagram of an application environment of a monitoring and guiding method based on visualization of electrical equipment in an embodiment;

fig. 2 is a schematic flow chart of a manufacturing monitoring and guiding method based on electrical equipment visualization in an embodiment;

fig. 3 is a schematic flow chart of a manufacturing monitoring and guiding method based on electrical equipment visualization in another embodiment;

fig. 4 is a block diagram of a monitoring and manufacturing guiding apparatus based on visualization of electrical equipment in an embodiment;

FIG. 5 is a diagram of the internal structure of a computer device in one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The monitoring and manufacturing guiding method based on the electric power equipment visualization provided by the embodiment of the application can be applied to the application environment shown in fig. 1. Wherein the display terminal 102 communicates with the server 104 through a network. The data storage system may store data that the server 104 needs to process. The data storage system may be integrated on the server 104, or may be located on the cloud or other network server. The server 104 acquires an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored; the server 104 inquires a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visual dynamic production guide comprises dynamic contents for performing analog production on a digital model of the electric power equipment to be monitored in the current production step; the server 104 sends the target visualized dynamic production guide to the display terminal 102 to guide the target object to monitor the production process of the electric power equipment to be monitored. The display terminal 102 may be, but is not limited to, various personal computers, notebook computers, smart phones, tablet computers, internet of things devices, and portable wearable devices. The server 104 may be implemented as a stand-alone server or as a server cluster comprised of multiple servers.

In one embodiment, as shown in fig. 2, a method for monitoring and guiding power equipment based on visualization is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step S210, obtaining an equipment identifier corresponding to the electrical equipment to be monitored and a current production process identifier.

The current production process identifier is used for characterizing a current production step where the electrical device to be monitored is located, and may be, but is not limited to, a production step number.

The device identifier is used for determining the power device to be monitored, and may be information such as a device number of the power device to be monitored.

The target object can be a worker of a monitoring site of the power equipment to be monitored.

In specific implementation, the server can obtain the equipment identifier and the production flow identifier sent by the display terminal through the display terminal located on the monitoring site of the power equipment to be monitored. Specifically, when a target object on a monitoring site wants to determine a specific production process of the to-be-monitored electric power equipment in a current production step, an equipment identifier and a current production process identifier corresponding to the to-be-monitored electric power equipment can be directly input into a display terminal carrying an input device, so that the display terminal can send the corresponding equipment identifier and the current production process identifier to a server; when the display terminal is a wearable device with an image acquisition device and a voice acquisition device, the wearable device can acquire an image of a device to be identified of the power device to be monitored through the image acquisition device and send the image to the server so that the server can identify the image of the device to be identified to determine a device identifier corresponding to the power device to be monitored, the voice acquisition device acquires voice data which is input by a target object and contains a current production process identifier, and the voice data is sent to the server so that the server can identify the current production process identifier; the device image to be recognized can be a nameplate image including a device identifier of the power device to be monitored, and the server performs text recognition on the nameplate image to determine the device identifier.

And step S220, inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production process identifier.

The target visualized dynamic production guide comprises dynamic contents for performing simulation production on a digital model of the power equipment to be monitored in the current production step, wherein the dynamic contents can be but not limited to animations and audios and videos.

The target visualized dynamic production guide can comprise the mounting work simulation process of each part in the power equipment to be monitored in the current production step.

In a specific implementation, the server may query, in the device production guide library, a target visual dynamic production guide corresponding to the device identifier and the current production flow identifier according to the device identifier and the current production flow identifier, where the target visual dynamic production guide includes dynamic content for performing simulation production on a digital model of the to-be-monitored power device in the current production step, such as an additional installation work simulation process of each component in the to-be-monitored power device in the current production step; in addition, the dynamic content can also comprise dynamic content under different view angles when the digitalized model is subjected to analog production in the current production step.

Step S230, the target visual dynamic production guide is sent to the display terminal so as to guide the target object to monitor the production process of the power equipment to be monitored.

The target object can be a worker of a monitoring site of the power equipment to be monitored.

The display terminal is located on a monitoring site of the power equipment to be monitored.

In specific implementation, after the server queries the target visual dynamic production guide, the target visual dynamic production guide with a single view angle can be sent to the display terminal so as to guide the target object to monitor the production process of the electric power equipment to be monitored; if the target object cannot determine the specific implementation mode of the current production step according to the target visual dynamic production guide with a single visual angle, the current production step can be marked, the display terminal responds to the marking operation of the current production step of the target object, a multi-visual-angle target visual dynamic production guide acquisition request can be sent to the server, the server is indicated to send the multi-visual-angle target visual dynamic production guide, the display terminal can display dynamic contents under different visual angles during the simulation production of the digital model in the current production step, the data transmission quantity between the display terminal and the server can be reduced, and the data transmission efficiency is improved. It will be appreciated that the target visualized dynamic production guide may also be used to guide the production personnel of the electrical power device to be monitored to perform specific work content of the current production step.

In the monitoring and manufacturing guiding method based on the power equipment visualization, the equipment identifier corresponding to the power equipment to be monitored and manufactured and the current production process identifier are obtained; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored; inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for performing simulation production on a digital model of the power equipment to be monitored in the current production step; sending the target visual dynamic production guide to a display terminal to guide a target object to monitor the production process of the power equipment to be monitored and manufactured; therefore, when workers on the power equipment production site do not know the specific work content of the production process of the power equipment to be monitored and manufactured, the workers can determine the specific production process of the power equipment to be monitored and manufactured in the current production step through the target visual dynamic production guide of the power equipment to be monitored and manufactured, so that whether errors occur in the production process of the power equipment to be monitored and manufactured can be quickly and accurately determined, and the monitoring and manufacturing efficiency of the power equipment is improved.

In one embodiment, querying a target visualization dynamic production guide corresponding to the equipment identifier and the current production process identifier comprises: in the equipment production guide library, determining visual dynamic production guide of the electric power equipment to be monitored according to the equipment identification; and inquiring the target visual dynamic production guide in the visual dynamic production guide according to the current production flow identifier.

The visual dynamic production guide comprises dynamic contents for simulating production of the digital model of the electric power equipment to be monitored in each production step of the electric power equipment to be monitored.

In specific implementation, in the process of querying the target visual dynamic production guide corresponding to the equipment identifier and the current production process identifier, the server may query the visual production guide of the equipment to be monitored in the equipment production guide library according to the equipment identifier, where the visual production guide includes dynamic contents for performing simulation production on the digital model of the electric power equipment to be monitored in each production step of the electric power equipment to be monitored; and searching the dynamic content of the simulated production corresponding to the current production step in the visual production guide according to the current production flow identification to be used as the target visual dynamic production guide.

According to the technical scheme of the embodiment, visual dynamic production guide of the electric power equipment to be monitored is determined according to equipment identification in an equipment production guide library; inquiring a target visual dynamic production guide in the visual dynamic production guide according to the current production flow identifier; therefore, the target visual dynamic production guide is searched through the equipment identification corresponding to the power equipment to be monitored and the current production flow identification, the accuracy of obtaining the production guide of the power equipment to be monitored can be improved, and the accuracy of the monitoring work of the power equipment to be monitored can be improved.

In one embodiment, the method further comprises: acquiring equipment metadata and production flow data of electric power equipment to be monitored; according to the equipment metadata, carrying out modeling processing on the electric power equipment to be monitored to obtain a digital model of the electric power equipment to be monitored; and according to the production flow data, carrying out simulation production processing on the digital model to generate a visual dynamic production guide.

Wherein the production process data comprises process information in each production step.

The process information may include target parameters of the electric power equipment to be monitored after each production step is finished, production operation specifications of the electric power equipment to be monitored, and related tool requirements and cautions in each production step.

The device metadata may include data such as a manufacturer and a model of the electrical device to be monitored, and component description information corresponding to each component.

In specific implementation, the server can obtain the equipment metadata of the electric power equipment to be monitored so as to determine the basic data such as the manufacturer and the model of the electric power equipment to be monitored, the part description information corresponding to each part and the like, and establish an equipment basic database; and acquiring production process data of the electric power equipment to be monitored so as to determine process information of the electric power equipment to be monitored in each production step, wherein the process information comprises target parameters of the electric power equipment to be monitored after each production step is finished, production operation specifications of the electric power equipment to be monitored, and related tool and instrument requirements and cautions in each production step, and an equipment digital production process library is established.

In this way, the server may perform modeling processing on the electrical equipment to be monitored according to the equipment metadata to obtain a digital model of the electrical equipment to be monitored, where the digital model of the electrical equipment to be monitored may include digital models of components in the electrical equipment to be monitored; and then, according to the production flow data, performing simulation production processing on the digital model of the electric power equipment to be monitored through a three-dimensional image engine, generating visual dynamic production guide of the electric power equipment to be monitored, and establishing a first mapping relation between the equipment identifier and the visual dynamic production guide and a second mapping relation between each production flow identifier and the corresponding target visual dynamic production guide.

Finally, the server can obtain an equipment production guide library based on the first mapping relation, the second mapping relation, the equipment basic database and the equipment digital production process library.

According to the technical scheme, the equipment metadata and the production process data of the electric power equipment to be monitored are obtained; according to the equipment metadata, carrying out modeling processing on the electric power equipment to be monitored to obtain a digital model of the electric power equipment to be monitored; according to the production flow data, carrying out simulation production processing on the digital model to generate a visual dynamic production guide; therefore, the visual dynamic production guide of the electric power equipment to be monitored is obtained through the equipment metadata and the production flow data of the electric power equipment to be monitored, and the reliability of the visual dynamic production guide is guaranteed.

In one embodiment, the method further comprises: acquiring equipment production parameters of the power equipment to be monitored in a production field after the current production step is finished; inquiring target equipment parameters corresponding to the equipment identification and the current production process identification in an equipment production guide library; and comparing the equipment production parameters with the target equipment parameters to generate a monitoring result of the electric power equipment to be monitored.

The device production parameters may include parameters, operation data, and the like of the power device to be monitored in the actual production process, such as dial values of instruments.

The target equipment parameters are parameters of the digital model after the digital model of the electric power equipment to be monitored is subjected to analog production in the current production step.

And the monitoring result is used for determining whether the power equipment to be monitored is in a normal state.

In specific implementation, the server may obtain, through a display terminal located at a monitoring site of the electric power device to be monitored, the device production parameters of the electric power device to be monitored in the production site after the current production step is finished. In practical application, the target object can directly input equipment production parameters to a display terminal with an input device so that the display terminal can obtain the equipment production parameters, and the equipment production parameters are sent to a server; when the display terminal is wearable equipment with image acquisition equipment, the display terminal can acquire parameter images including equipment production parameters of the electric power equipment to be monitored through the image acquisition equipment, such as dial plate images of instruments and meters of the electric power equipment to be monitored, and send the parameter images to the server so that the server can identify the parameter images to determine the equipment production parameters.

The server may query, in the device production guidance library, parameters of the digitized model after the digitized model of the electrical device to be monitored is subjected to analog production in each production step according to the device identifier, and determine, according to the current production process identifier, the parameters of the digitized model after the digitized model of the electrical device to be monitored is subjected to analog production in the current production step, so as to obtain target device parameters.

Finally, the server can compare the equipment production parameters with the target equipment parameters, detect whether the equipment production parameters are consistent with the target equipment parameters, generate a monitoring result of the electric power equipment to be monitored and manufactured so as to determine whether the electric power equipment to be monitored and manufactured is in a normal state or not, and return the monitoring result and the target equipment parameters to the display terminal; optionally, the server may also return the relevant data of the equipment to be monitored to the display terminal, where the relevant data may be the production operation specification of the power equipment to be monitored and the related tool requirements and cautions in each production step.

In practical applications, when the display terminal is a wearable device with augmented reality function, the target object wearing the wearable device can compare the displayed monitoring result, the target device parameters and the related data of the device to be monitored with the device production parameters of the production field to guide the production work and the monitoring work of the power device to be monitored.

According to the technical scheme of the embodiment, the equipment production parameters of the power equipment to be monitored in the production field after the current production step is finished are obtained; inquiring target equipment parameters corresponding to the equipment identification and the current production process identification in an equipment production guide library; the target equipment parameters are parameters of a digital model after the digital model of the power equipment to be monitored is subjected to analog production in the current production step; comparing the equipment production parameters with the target equipment parameters to generate a monitoring result of the electric power equipment to be monitored; the monitoring result is used for determining whether the power equipment to be monitored is in a normal state; therefore, the target equipment parameters generated after the digital model of the electric power equipment to be monitored is subjected to analog production are compared with the equipment production parameters of a production field to determine the monitoring result, so that the accuracy of the monitoring result can be improved.

In one embodiment, the target visualized dynamic production guide further comprises a model state of the digital model after performing the simulated production of the digital model of the electric power equipment to be monitored in the current production step; if the electric power equipment to be monitored is in an abnormal state, the method further comprises the following steps: in response to the operation of obtaining the deconstruction model of the digital model, deconstructing the model state of the digital model to obtain a digital deconstruction model; and sending the digital deconstruction model to a display terminal so that the target object can determine the abnormal part in the electric power equipment to be monitored.

The digital deconstruction model comprises part description information corresponding to each part in the model state.

The component description information corresponding to each component may include a mapping relationship between each component and each component parameter, a connection relationship between each component, a use specification of each component, and the like.

In specific implementation, the target visualized dynamic production guide further includes that after performing simulated production on the digitized model of the to-be-monitored electric power equipment in the current production step, the model state of the digitized model may include the form of the digitized model, if the to-be-monitored electric power equipment is in an abnormal state, the target object may obtain a deconstruction model of the digitized model from the server through the display terminal, and the server responds to a deconstruction model obtaining operation for the digitized model to deconstruct the model state of the digitized model to obtain the digitized deconstruction model, which may include component description information corresponding to each component in the model state, such as a mapping relationship between each component and a component parameter, a connection relationship between each component, a use specification of each component, and the like; and then, the server can send the digital deconstruction model to a display terminal so that the target object can determine the abnormal part in the electric power equipment to be monitored according to the part description information.

In practical application, if the target object is not familiar with the components of the electric power equipment to be monitored, and the electric power equipment to be monitored is large in size and inconvenient to directly view on site, the deconstruction model of the electric power equipment to be monitored can be obtained through the server to determine the mapping relation between the components and the parameters of the components, the connection relation between the components and the use specifications of the components, so that the electric power equipment to be monitored with the large size does not need to be learned on site, and the flexibility of obtaining the structural information of the electric power equipment to be monitored is improved.

According to the technical scheme of the embodiment, the model state of the digital model is deconstructed by responding to the deconstruction model acquisition operation of the digital model to obtain the digital deconstruction model; the digital deconstruction model comprises part description information corresponding to each part in a model state; sending the digital deconstruction model to a display terminal so that the target object can determine an abnormal part in the electric power equipment to be monitored according to the part description information; therefore, the digital deconstruction model is obtained to determine the part description information corresponding to each part in the electric power equipment to be monitored, so that the diversity of the part information of the electric power equipment to be monitored is improved, the abnormal part in the electric power equipment can be more accurately and rapidly determined, and the monitoring work efficiency of the electric power equipment is improved.

In one embodiment, when the display terminal is a target wearable device carrying an image acquisition device, acquiring a device identifier corresponding to the power device to be monitored, including: acquiring an image of equipment to be identified of the electric power equipment to be monitored; performing feature extraction on the image of the equipment to be identified to obtain the image feature of the equipment to be identified; and determining the equipment identifier corresponding to the electric power equipment to be monitored according to the image characteristics of the equipment to be identified.

The device image to be identified is a device image acquired by the image acquisition device of the target wearable device.

In the specific implementation, when the display terminal is a target wearable device carrying the image acquisition device, the server can acquire an image of the device to be identified, which is obtained by image acquisition of the power device to be monitored by the image acquisition device of the target wearable device, in the process of acquiring the device identifier corresponding to the power device to be monitored, and perform feature extraction on the image of the device to be identified to obtain the image feature of the device to be identified. The equipment production guide library comprises corresponding relations between equipment image characteristics of each electric equipment to be monitored and corresponding equipment identifications, and the server performs characteristic matching on the equipment image characteristics to be identified to determine the equipment identifications corresponding to the electric equipment to be monitored.

According to the technical scheme, the method comprises the steps of obtaining an image of equipment to be identified of the electric power equipment to be monitored; performing feature extraction on the image of the equipment to be identified to obtain the image feature of the equipment to be identified; determining an equipment identifier corresponding to the electric power equipment to be monitored according to the image characteristics of the equipment to be identified; therefore, the equipment identifier corresponding to the electric power equipment to be monitored and manufactured can be determined through the equipment image to be identified of the electric power equipment to be monitored and manufactured, and the diversity of obtaining the equipment information of the electric power equipment to be monitored and manufactured is improved.

In an embodiment, as shown in fig. 3, another monitoring and guiding method based on visualization of power equipment is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step S310, obtaining device metadata and production process data of the electrical device to be monitored.

And S320, modeling the electric power equipment to be monitored according to the equipment metadata to obtain a digital model of the electric power equipment to be monitored.

And step S330, performing simulation production processing on the digital model according to the production flow data to generate a visual dynamic production guide.

Step S340, obtaining an equipment identifier corresponding to the electrical equipment to be monitored and a current production process identifier.

And step S350, determining visual dynamic production guide of the electric power equipment to be monitored according to the equipment identification in the equipment production guide library.

And S360, inquiring the target visual dynamic production guide in the visual dynamic production guide according to the current production flow identification.

And step S370, sending the target visual dynamic production guide to a display terminal so as to guide the target object to monitor the production process of the power equipment to be monitored.

It should be noted that, the specific limitations of the above steps can be referred to the above specific limitations of a monitoring and guiding method based on visualization of power equipment.

It should be understood that, although the steps in the flowcharts related to the embodiments as described above are sequentially displayed as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least a part of the steps in the flowcharts related to the embodiments described above may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, and the execution order of the steps or stages is not necessarily sequential, but may be rotated or alternated with other steps or at least a part of the steps or stages in other steps.

Based on the same inventive concept, the embodiment of the application also provides a monitoring and guiding device based on the electric power equipment visualization for realizing the monitoring and guiding method based on the electric power equipment visualization. The implementation scheme for solving the problem provided by the apparatus is similar to the implementation scheme described in the above method, so that specific limitations in one or more embodiments of the monitoring and guiding apparatus based on visualization of the electrical device provided below may refer to the limitations in the above description for the monitoring and guiding method based on visualization of the electrical device, and are not described herein again.

In one embodiment, as shown in fig. 4, there is provided a monitoring and guiding apparatus based on visualization of electrical equipment, including: an obtaining module 410, a querying module 420, and a sending module 430, wherein:

an obtaining module 410, configured to obtain an equipment identifier corresponding to an electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored.

A query module 420, configured to query a target visual dynamic production guide corresponding to the device identifier and the current production process identifier; the target visualized dynamic production guide comprises dynamic content for simulating production of the digital model of the electric power equipment to be monitored in the current production step.

The sending module 430 is configured to send the target visualized dynamic production guide to a display terminal to guide a target object to monitor and manufacture a production process of the power equipment to be monitored and manufactured.

In one embodiment, the query module 420 is specifically configured to determine, in a device production guidance library, a visual dynamic production guidance of the electric power device to be monitored according to the device identifier; the visual dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in each production step of the electric power equipment to be monitored; and inquiring the target visual dynamic production guide in the visual dynamic production guide according to the current production flow identifier.

In one embodiment, the apparatus further comprises: the data acquisition module is used for acquiring equipment metadata and production process data of the electric power equipment to be monitored; the production flow data comprises flow information in each production step; the modeling module is used for carrying out modeling processing on the electric power equipment to be monitored according to the equipment metadata to obtain a digital model of the electric power equipment to be monitored; and the simulation module is used for carrying out simulation production processing on the digital model according to the production flow data to generate the visual dynamic production guide.

In one embodiment, the apparatus further comprises: the parameter acquisition module is used for acquiring equipment production parameters of the electric power equipment to be monitored in a production field after the current production step is finished; the parameter query module is used for querying target equipment parameters corresponding to the equipment identification and the current production process identification in an equipment production guide library; the target equipment parameters are parameters of a digital model of the electric power equipment to be monitored after the digital model is subjected to simulation production in the current production step; the comparison module is used for comparing the equipment production parameters with the target equipment parameters to generate a monitoring result of the electric power equipment to be monitored; and the monitoring result is used for determining whether the power equipment to be monitored is in a normal state.

In one embodiment, the target-visualized dynamic production guide further comprises a model state of a digital model of the electric power equipment to be monitored after performing simulated production of the digital model in the current production step; if the electric power equipment to be monitored is in an abnormal state, the device further comprises: the deconstruction module is used for responding to deconstruction model acquisition operation of the digital model, and deconstructing the model state of the digital model to obtain a digital deconstruction model; the digital deconstruction model comprises part description information corresponding to each part in the model state; and the model sending module is used for sending the digital deconstruction model to the display terminal so that the target object can determine an abnormal part in the electric power equipment to be monitored according to the part description information.

In one embodiment, when the display terminal is a target wearable device carrying an image acquisition device, the obtaining module 410 is specifically configured to obtain an image of a device to be identified of the electrical device to be monitored; the device image to be identified is a device image acquired by the image acquisition device of the target wearable device; performing feature extraction on the image of the equipment to be identified to obtain the image features of the equipment to be identified; and determining the equipment identifier corresponding to the electric power equipment to be monitored according to the image characteristics of the equipment to be identified.

The modules in the monitoring and manufacturing guiding device based on the electrical equipment visualization can be wholly or partially realized through software, hardware and a combination thereof. The modules can be embedded in a hardware form or independent of a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure thereof may be as shown in fig. 5. The computer device includes a processor, a memory, and a network interface 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, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing device production guide database data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method for manufacturing guidance based on visualization of electrical equipment.

It will be appreciated by those skilled in the art that the configuration shown in fig. 5 is a block diagram of only a portion of the configuration associated with the present application, and is not intended to limit the computing device to which the present application may be applied, and that a particular computing device may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In an embodiment, a computer device is further provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the steps of the above method embodiments when executing the computer program.

In an embodiment, a computer-readable storage medium is provided, on which a computer program is stored which, when being executed by a processor, carries out the steps of the above-mentioned method embodiments.

In an embodiment, a computer program product is provided, comprising a computer program which, when executed by a processor, carries out the steps in the method embodiments described above.

It should be noted that the user information (including but not limited to user device information, user personal information, etc.) and data (including but not limited to data for analysis, stored data, displayed data, etc.) referred to in the present application are information and data authorized by the user or sufficiently authorized by each party.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above may be implemented by hardware instructions of a computer program, which may be stored in a non-volatile computer-readable storage medium, and when executed, may include the processes of the embodiments of the methods described above. Any reference to memory, databases, or other media used in the embodiments provided herein can include at least one of non-volatile and volatile memory. The nonvolatile Memory may include a Read-Only Memory (ROM), a magnetic tape, a floppy disk, a flash Memory, an optical Memory, a high-density embedded nonvolatile Memory, a resistive Random Access Memory (ReRAM), a Magnetic Random Access Memory (MRAM), a Ferroelectric Random Access Memory (FRAM), a Phase Change Memory (PCM), a graphene Memory, and the like. Volatile Memory can include Random Access Memory (RAM), external cache Memory, and the like. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), for example. The databases involved in the embodiments provided herein may include at least one of relational and non-relational databases. The non-relational database may include, but is not limited to, a block chain based distributed database, and the like. The processors referred to in the various embodiments provided herein may be, without limitation, general purpose processors, central processing units, graphics processors, digital signal processors, programmable logic devices, quantum computing-based data processing logic devices, or the like.

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, and these are all within the scope of protection of the present application. Therefore, the protection scope of the present application should be subject to the appended claims.

Claims (10)

1. A monitoring and manufacturing guiding method based on electrical equipment visualization is characterized by comprising the following steps:

acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

inquiring a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

And sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the power equipment to be monitored and manufactured.

2. The method of claim 1, wherein querying the target visualization dynamic production directions corresponding to the equipment identifier and the current production process identifier comprises:

in an equipment production guide library, determining visual dynamic production guide of the electric power equipment to be monitored according to the equipment identification; the visual dynamic production guide comprises dynamic contents for simulating production of a digital model of the electric power equipment to be monitored in each production step of the electric power equipment to be monitored;

and inquiring the target visual dynamic production guide in the visual dynamic production guide according to the current production flow identifier.

3. The method of claim 2, further comprising:

acquiring equipment metadata and production flow data of the electric power equipment to be monitored; the production flow data comprises flow information in each production step;

according to the equipment metadata, carrying out modeling processing on the electric power equipment to be monitored to obtain a digital model of the electric power equipment to be monitored;

And according to the production flow data, carrying out simulation production processing on the digital model to generate the visual dynamic production guide.

4. The method of claim 1, further comprising:

acquiring equipment production parameters of the power equipment to be monitored in a production field after the current production step is finished;

inquiring target equipment parameters corresponding to the equipment identification and the current production process identification in an equipment production guide library; the target equipment parameters are parameters of the digital model after the digital model of the electric power equipment to be monitored is subjected to analog production in the current production step;

comparing the equipment production parameters with the target equipment parameters to generate a monitoring result of the electric power equipment to be monitored; and the monitoring result is used for determining whether the power equipment to be monitored is in a normal state.

5. The method of claim 4, wherein the target-visualized dynamic production directions further comprise performing a model state of a digitized model of the electrical equipment to be monitored after the simulated production of the digitized model in the current production step; if the electric power equipment to be monitored is in an abnormal state, the method further comprises the following steps:

Responding to the deconstruction model acquisition operation of the digital model, and deconstructing the model state of the digital model to obtain a digital deconstruction model; the digital deconstruction model comprises part description information corresponding to each part in the model state;

and sending the digital deconstruction model to the display terminal so that the target object can determine the abnormal part in the electric power equipment to be monitored according to the part description information.

6. The method according to claim 1, wherein when the display terminal is a target wearable device carrying an image acquisition device, the obtaining of the device identifier corresponding to the power device to be monitored comprises:

acquiring an image of the equipment to be identified of the electric power equipment to be monitored; the device image to be identified is a device image acquired by image acquisition equipment of the target wearable device;

performing feature extraction on the image of the equipment to be identified to obtain the image feature of the equipment to be identified;

and determining the equipment identifier corresponding to the electric power equipment to be monitored according to the image characteristics of the equipment to be identified.

7. A monitoring and manufacturing guiding device based on electrical equipment visualization is characterized in that the device comprises:

The acquisition module is used for acquiring an equipment identifier corresponding to the electric power equipment to be monitored and a current production process identifier; the current production flow identification is used for representing the current production step of the electric power equipment to be monitored;

the query module is used for querying a target visual dynamic production guide corresponding to the equipment identifier and the current production flow identifier; the target visualized dynamic production guide comprises dynamic content for simulating production of a digital model of the electric power equipment to be monitored in the current production step;

and the sending module is used for sending the target visual dynamic production guide to a display terminal so as to guide a target object to monitor the production process of the electric power equipment to be monitored.

8. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method of any of claims 1 to 6.

9. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

10. A computer program product comprising a computer program, characterized in that the computer program, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 6.

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