CN116467030A - Parameter management method and device for physical equipment, electronic equipment and storage medium - Google Patents

Abstract

The application provides a parameter management method and device of physical equipment, electronic equipment and a storage medium, and relates to the technical field of equipment management. The method is applied to a parameter management system and comprises the following steps: providing a model management interface containing information items of a plurality of parameter models to a client; taking a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats; and responding to a selection instruction of the parameters sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameters corresponding to the selection instruction as target parameters, and managing the target parameters. The method and the device improve the parameter management efficiency of the physical equipment.

Description

Parameter management method and device for physical equipment, electronic equipment and storage medium

Technical Field

The present invention relates to the field of device management technologies, and in particular, to a method and an apparatus for managing parameters of a physical device, an electronic device, and a storage medium.

Background

In the process of power production operation, a power enterprise needs to operate a plurality of physical devices for a long time, and management and control of all the physical devices in a full life cycle are realized through a power production management system.

Because the parameters of the physical equipment have the characteristics of numerous and non-single types, and the parameters to be managed by the power production management system aiming at different physical equipment are different, the parameters corresponding to the physical equipment are displayed on a parameter management interface, and the parameters are dense, hemp and irregular. In the existing parameter management mode of the physical equipment, when the parameters of the physical equipment are managed, the parameters need to enter a parameter management interface corresponding to the physical equipment, and then the target parameters of the physical equipment are positioned through inquiry operation/continuous sliding operation, so that the management of the target parameters is realized.

The existing parameter management method of the physical equipment has the defects of complex operation and low management efficiency.

Disclosure of Invention

The application provides a parameter management method and device of physical equipment, electronic equipment and a storage medium, which are used for solving the problems of complex operation and low management efficiency in the prior art.

According to a first aspect of the present application, there is provided a parameter management method applied to a parameter management system, including:

responding to a login request of a client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification;

taking a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats;

and responding to a selection instruction of the parameters sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameters corresponding to the selection instruction as target parameters, and managing the target parameters.

Optionally, the managing the target parameter includes:

adjusting the state of the target parameter to an editable state;

And responding to the editing instruction of the client to the target parameter, and managing the target parameter according to the editing operation corresponding to the editing instruction.

Optionally, the editing instruction includes a modification instruction, and the editing operation includes a modification operation;

the responding to the editing instruction of the client to the target parameter manages the target parameter according to the editing operation corresponding to the editing instruction, and comprises the following steps:

responding to a parameter management binding instruction triggered by the client based on the parameter management interface, and displaying a first display frame containing information items corresponding to other parameter models; the other parameter models are parameter models generated according to a target ledger template adopted by the parameter model to be managed;

and taking other parameter models corresponding to the information items selected by the client from the first display frame as binding parameter models of the parameter models to be managed, and responding to a modification instruction of the client to the target parameters to carry out batch modification on the target parameters in the parameter models to be managed and the target parameters in the binding parameter models.

Optionally, the model management interface further includes an icon for creating a parameter model, and the method further includes:

providing a model management interface containing icons of newly built parameter models for the client;

responding to an instruction of a newly-built parameter model sent by the client, sending a parameter management newly-added page corresponding to the instruction of the newly-built parameter model to the client, and adding identification information of corresponding physical equipment on the parameter management newly-added page; wherein the parameter management newly added page comprises an icon added with a preset ledger template;

responding to an instruction of adding a preset ledger template sent by the client, and displaying a second display frame containing icons corresponding to a plurality of preset ledger templates;

taking a preset ledger template corresponding to the icon selected by the client from the second display frame as a ledger template to be added, and adding each parameter contained in the ledger template to be added into the parameter management newly added page according to a corresponding classification and grading identifier;

and adding and saving the parameter value input by the client based on the parameter management newly added page added with the parameter to the parameter management newly added page so as to realize the generation of the parameter model on the parameter management system.

Optionally, before adding each parameter included in the ledger template to be added to the newly added page of parameter management according to the corresponding classification mark, the method further includes:

analyzing the ledger template to be added to obtain each parameter contained in the ledger template to be added, or obtaining each parameter contained in the ledger template to be added and a classification identifier corresponding to each parameter;

when each parameter contained in the ledger template to be added is obtained, searching classification identifiers corresponding to each parameter from a preset parameter library.

Optionally, after each parameter included in the ledger template to be added is added to the newly added page of parameter management according to the corresponding classification and classification identifier, the method further includes:

responding to a physical equipment binding instruction triggered by the client-side based on the parameter management newly added page, and displaying a floating window on the parameter management newly added page; the suspension window is used for displaying physical equipment to be bound and the association relation between the physical equipment to be bound and the physical equipment corresponding to the parameter model;

responding to a logic device binding instruction triggered by the newly added page of the client based on the parameter management, and displaying logic devices to be bound and an association relationship between the logic devices to be bound and physical devices corresponding to the parameter model on the newly added page of the parameter management;

After generating the parametric model, the method further comprises:

and responding to the clicking operation of the client based on the floating window, and switching from the parameter management interface where the parameter model is located to the parameter management interface where the parameter model corresponding to the bound physical equipment is located.

Optionally, the model management interface further includes a disabling identification of the parametric model, and the method further includes:

and responding to an instruction of selecting the parameter model sent by the client based on the forbidden identification, taking the parameter model corresponding to the instruction of selecting the parameter model as the parameter model to be deleted, and deleting the parameter model.

According to a second aspect of the present application, there is provided a parameter management apparatus of a physical device, applied to a parameter management system, including:

the verification display template is used for responding to a login request of the client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification;

the response module is used for taking the parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats;

And the management module is used for responding to a selection instruction of the parameter sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameter corresponding to the selection instruction as a target parameter and managing the target parameter.

According to a third aspect of the present application, there is provided an electronic device comprising: at least one processor and memory;

the memory stores computer-executable instructions;

the at least one processor executes the computer-executable instructions stored by the memory, causing the at least one processor to perform the method of parameter management of a physical device as described in the first aspect above.

According to a fourth aspect of the present application, there is provided a computer-readable storage medium having stored therein computer-executable instructions for implementing the parameter management method of a physical device as described in the first aspect above when executed by a processor.

According to a fifth aspect of the present application, there is provided a computer program product comprising a computer program which, when executed by a processor, implements the method of parameter management of a physical device according to the first aspect.

The parameter management method of the physical equipment is applied to a parameter management system and comprises the following steps: responding to a login request of a client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification; taking a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats; and responding to a selection instruction of the parameters sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameters corresponding to the selection instruction as target parameters, and managing the target parameters.

The parameters displayed on the parameter management interface are displayed according to the corresponding classification and grading identifiers, and as different classification and grading identifiers correspond to different display formats, the method and the device can realize quick positioning of the target parameters, and further improve management efficiency of the target parameters.

It should be understood that the description of this section is not intended to identify key or critical features of the embodiments of the application or to delineate the scope of the application. Other features of the present application will become apparent from the description that follows.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

Fig. 1 is a schematic structural diagram of a parameter management system according to an embodiment of the present application;

fig. 2 is a flow chart of a parameter management method of a physical device according to an embodiment of the present application;

fig. 3 is a flow chart of another parameter management method of a physical device according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a physical device code generation rule;

FIG. 5 is a schematic flow chart of generating a parametric model according to an embodiment of the present application;

fig. 6 is a schematic flowchart of step S30 in fig. 2 according to an embodiment of the present application;

fig. 7 is a flow chart of a parameter management method of another physical device according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a parameter management apparatus of a physical device according to an embodiment of the present application;

Fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Specific embodiments thereof have been shown by way of example in the drawings and will herein be described in more detail. These drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but to illustrate the concepts of the present application to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present application.

In the existing parameter management mode of the physical equipment, when the parameters of the physical equipment are managed, the parameters need to enter a parameter management interface corresponding to the physical equipment, and then the target parameters of the physical equipment are positioned through inquiry operation/continuous sliding operation, so that the management of the target parameters is realized.

However, the conventional parameter management method of the physical device has the defects of complicated operation and low management efficiency.

In order to solve the above technical problems, the general inventive concept of the present application is to provide a method, an apparatus, an electronic device, and a storage medium for managing parameters of a physical device, which are applied to the field of device management and are used for improving management efficiency.

The following describes the technical solutions of the present application and how the technical solutions of the present application solve the above technical problems in detail with specific embodiments. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Example 1:

as shown in fig. 1, the present embodiment provides a parameter management system, which is also referred to as a power production management system, including: the manufacturer information management module 1, the equipment ledger parameter management module 2, the equipment ledger standard template management module 3, the equipment technical parameter template management module 4, the physical equipment management module 5 and the logic equipment management module 6 are respectively applied to six parts of 'manufacturer information maintenance', 'equipment ledger parameter management', 'equipment ledger standard template', 'equipment technical parameter template', 'physical equipment' and 'logic equipment'.

The user can manage and construct a device technical parameter model (simply called a parameter model) from multiple dimensions through the power production management system. Specifically, the system can support the establishment of a parameter model through the application of a device technical parameter template, so as to form a list formed by a plurality of parameter models, and an interface where the list is located can be called a model management interface. In addition, the system provides relevant applications such as ' manufacturer information maintenance ', ' equipment ledger parameter management ', ' equipment ledger standard template ' (or called a preset ledger template in the following embodiment 2, a standard template in the embodiment 3, a standard ledger template and the like) ', ' physical equipment ', ' logic equipment ', and the like to assist in supporting the construction work of equipment technical parameter models.

In addition, in order to achieve the security of logging in the power production system, the embodiment of the application can provide corresponding account numbers and passwords for different levels of users such as system administrators, business users, project group members participating in the system construction, maintenance personnel and the like. All users can open the login page in a mode that the browser of the client accesses the website of the system, and safely enter the system after the user inputs an account number and a password and clicks a corresponding login icon.

After logging into the system, the system provides six applications, namely, manufacturer information maintenance, equipment ledger parameter management, equipment ledger standard template, equipment technical parameter template, physical equipment and logic equipment. The present example performs the following analysis for each application:

in the first section, for the application of "manufacturer information maintenance", the following analysis is performed in this embodiment: the application serves as a device manufacturer information repository that can be used to maintain manufacturer information for physical devices, including but not limited to: coding of manufacturers, full name of manufacturers, short name of manufacturers, and the like. All the manufacturer information is displayed on the interface in a list form, and a user clicks any manufacturer information in the list to enter a detail page of the manufacturer information. In addition, the embodiment displays a new button and an add-subtract button on the interface where the list is located, so as to realize corresponding processing of manufacturer information. In order to facilitate the user to quickly locate the manufacturer information to be queried, the present embodiment provides a search box below the list.

In order to normalize the normalization of a user when inputting a manufacturer, the embodiment can provide a manufacturer information base for the user to select, ensure that the input manufacturer information is true and effective, and the parameter management system records 1500 pieces of manufacturer information.

In the second section, for the application of "device ledger parameter management", the present embodiment performs the following analysis: the application is used as a parameter information base, can provide various default value types of equipment technical parameters (technical parameters, parameters and the like for short) and maintains information (such as configuration value codes, configuration value descriptions, use descriptions and the like) of each parameter. The above configuration value descriptions include, but are not limited to: device location, asset attributes, phase number, line use, line type, box transformer type, phase, reactive compensation device, voltage regulation mode, communication interface, regulation mode, clock source type, use status, etc. All parameters are displayed on the interface in a list form, and a user clicks any parameter in the list to enter a device ledger parameter management interface corresponding to the parameter, wherein the device ledger parameter management interface is an interface where 'device ledger parameter management' is located. In addition, in this embodiment, a "new" button, an "add-subtract" button, and a "delete" button are displayed on the interface where the list is located, so as to implement corresponding processing on the parameters. In order to facilitate the user to quickly locate the parameter information to be queried, the present embodiment provides a search box below the list.

In the embodiment of the present application, default value types of device technical parameters may be classified into 4 types: picture type, dictionary type, description/text type, and time type. The parameters of the picture types are used for managing the physical photos, the parameters are maintained in a parameter management interface corresponding to a specific physical device, and the technical parameter templates of the device only agree that the parameters need to contain the attributes; parameters of dictionary types are managed by a system domain, so that standardization of data input is guaranteed; parameters of description/text type are used for non-dictionary data management, and the number of the attributes is controlled in the whole parameter model; the time-type parameter is mainly used to track management attributes of physical/logical devices in the time dimension. For the parameters of the dictionary type, the embodiment can select corresponding domains and domain values in the equipment technical parameter template. For the description/text type parameters, the embodiment may fill in corresponding parameter values in the device technical parameter template. For the time type parameter, the embodiment can fill in the corresponding time type parameter value in the equipment technical parameter template.

In the application of 'equipment account parameter management', the default value type of the main recording parameter is a domain and a domain value which need to be selected when the drop-down selection type is adopted, so that a user can directly select certain specific values when filling equipment technical parameters.

In one possible implementation manner, the embodiment of the application can perform classification processing and grading processing on the parameters through the parameter management system, and for classification processing, the embodiment can perform parameter classification according to the full life cycle stage of the device. By way of example, parameters may be classified into static parameters, which in turn may be classified into design parameters, procurement attributes, etc., and dynamic parameters, which are real-time data generated during operation, are also referred to as operational parameters. Different types of parameters may be displayed differently, in different contexts and/or in different colors, for example: on the device account parameter management interface and/or the parameter management interface corresponding to the physical device (i.e. the interface where the fourth part of the "device technical parameter template" is located, and the detail page of the device technical parameter template in embodiment 3), the dynamic parameters are displayed in the first area, the static parameters are displayed in the second area, and the first area is located above the second area.

For the hierarchical processing, when the parameters contained in the device account parameter management interface and/or the parameter management interface corresponding to the physical device are displayed, the parameters can be displayed according to the corresponding level, and the parameters of different levels can be displayed in different areas, with different backgrounds and/or with different colors. The higher the parameter level is, the more important the parameter plays a role in the operation of the physical equipment, and further, different levels of parameters are displayed on the equipment account parameter management interface and/or the parameter management interface corresponding to the physical equipment in a distinguishing mode. Therefore, the embodiment of the application can display the classification result and/or the grading result corresponding to the parameters in the corresponding format.

And a third part, aiming at the application of the equipment ledger standard template, wherein the provided equipment ledger standard template is used for determining equipment technical parameters which need to be recorded in certain type of physical equipment, and the equipment ledger standard template can be maintained by a headquarter on the basis that an electric department consists of the headquarter and a branch company. The number of the equipment ledger standard templates is not particularly limited, and 147 pieces of equipment ledger standard templates are recorded in the embodiment by way of example. All device ledger standard templates are displayed on the interface in the form of a list, the contents of which include, but are not limited to: template coding, template name, entry status, etc. And clicking any equipment ledger standard template in the list by the user to enter the detail page of the equipment ledger standard template. In order to facilitate the user to quickly locate the device ledger standard template to be queried, the present embodiment provides a search box below the list. In addition, the embodiment displays a new button, an add-subtract button and a delete button on the interface where the list is located, so as to realize the corresponding processing of the standard template of the equipment ledger. The embodiment of the application can also provide a modification record page of the equipment ledger standard template, and real-time record is carried out on the update of the equipment ledger standard template.

According to the embodiment, the field manual input quantity can be reduced through the introduction of the equipment account standard template, and the equipment data informatization management and the production statistics automation application are realized.

The fourth section, for the application of the "device technical parameter template", performs the following analysis in this embodiment: and displaying the corresponding information such as the site code, the site name, the template code, the material name and the like on the interface in the form of a list by all the equipment technical parameter templates, and enabling a user to enter a parameter management interface corresponding to the equipment technical parameter template by clicking any equipment technical parameter template in the list, wherein the parameter management interface is the interface where the equipment technical parameter template is located. In addition, the embodiment displays a 'switching station' button, a 'new' button and an 'add-subtract column' button on the interface where the list is located, so as to realize the corresponding processing of the equipment technical parameter template. In order to facilitate the user to quickly locate the technical parameter templates of the device to be queried, the present embodiment provides a search box below the list.

The application of the "device technical parameter template" provides a generating function and a management function of a parameter model corresponding to the physical device, the specific description of the generating function is described in embodiment 3 below, and the specific description of the management function is described in embodiments 2, 4 and 5 below, which are not repeated here.

It should be noted that in the process of managing the parameter model, this embodiment relates to management of parameter values corresponding to device parameter items in the parameter model. The embodiment may set the acquisition mode to an automatic acquisition mode. In particular, the parameter values include dynamic parameter values and operating parameter values, and the dynamic parameter values are automatically written into specific equipment parameter values, such as billing records, maintenance records, etc., by the power production management system when the service flow occurs. The operation parameter value can be used for calling the centralized control system data according to the needs through the interface, so that the real-time performance of the parameter value is ensured. If there is a need for management, the embodiment may also issue the device technical parameter templates to each physical device in batches through the issue function of the power production management system, and notify the device manager of each physical device to fill in centrally, so as to improve the data acquisition efficiency.

According to the embodiment of the application, timeliness of data acquisition can be achieved through the issuing function of the power production management system, reliability statistics of equipment is further enhanced, real running conditions of the equipment are mastered, and management and control capacity of the power production management system to the whole running period of the production equipment is improved.

A fifth section for an application of "physical device" for providing a physical device list for displaying a site code, a site name, a physical device code, a physical device name, a parent physical device name, a logical device name, and the like of the managed physical device. The physical equipment can be a general term for labor data and material data which can be used for enterprises in the production operation process for a long time and basically keep the original physical form and function in repeated use. In embodiments of the present application, it may refer to a device that has maintenance value and requires full lifecycle management. Parent physical device names include, but are not limited to: relay protection, automatic devices, transmission systems, variable pitch systems and the like.

Physical devices are used in applications such as power loss recording, maintenance management, and logic devices. The embodiment uses physical equipment to record determined equipment information in the application of working tickets, operation tickets, inspection records, defect reports and the like at a later stage. That is, the embodiment provides a detail page of the physical device, a detail page of the technical parameters of the device, a page recorded with the rating of the device, a page recorded with the abnormal movement of the device, a page recorded with the defect of the device, a page recorded with the work ticket, a page recorded with the operation ticket, a page recorded with the periodic work of the physical device, a patrol module, a detail page of the parts, a related document, and the like.

The parameter model corresponding to the physical device may be composed of basic information and parameter information (i.e., parameter items, parameter types, parameter values, etc.) of the physical device, where the basic information includes logic location information of the logic device corresponding to the physical device, and so on. In the power production management system, the physical devices may be configured as a superior physical device (i.e., a parent physical device) and a superior logical device (i.e., a parent logical device), and the storage structures of all the devices may be one-to-many tree data structures.

Physical devices involve new, query, delete, and modify (i.e., change) functions. The user enters the detail page of the physical equipment by clicking the information item of the physical equipment in the physical equipment list, so that the complete account information of the physical equipment can be checked.

For the new function, the embodiment of the application is provided with a new button in the toolbar. In addition, the toolbar may be provided with a "switch site" button, an "add-subtract column" button, a "delete" button, a "select operation" button, and the like.

Aiming at the query function of the physical equipment, the embodiment of the application provides two query modes, namely a common query mode and an advanced query mode. The general query is described in detail as follows: in the page where the physical device list is located, the user clicks a search button in the lower left corner of the list, and can perform combined query through labels such as site codes, site names, physical device codes, physical device names, parent-level physical device names, logical device names and the like. In practical application, the user can input search content in the corresponding search condition input box according to the self requirement, click the keyboard 'enter' button, and the list searches data according to the search condition of the user.

The specific description of the advanced query is as follows: in the page where the physical device list is located, a user clicks a 'select operation' button in a toolbar, pops up display frames of 'device ledger parameter maintenance' and 'device ledger parameter query', and clicks 'device ledger parameter query', so that corresponding physical devices are queried according to parameter names and parameter values in the device ledgers. In practical application, the user can input search content or search content combination in the corresponding search condition input box according to own needs.

For the modification function of the physical device, for example, after the parameter model corresponding to the physical device is generated for the parameter modification of a single physical device, a user can modify each parameter value bound to the physical device or add a parameter item in a detail page-device technical parameter page of the physical device, and the modified parameter value can be immediately updated to the ledger information.

Aiming at the parameter modification of a plurality of physical devices, under the condition that the ledger parameters applicable to the plurality of physical devices are completely consistent, the following scheme is adopted: newly creating a device technical parameter template or finding a device account standard template for generating the physical devices, defining parameters in the template, clicking 'selecting operation-binding physical devices', selecting the generated physical devices needing to change the parameters, clicking 'determining' buttons, and immediately and completely updating the parameters in the device account standard template to the device account parameter information of the selected physical devices, thereby improving the parameter updating efficiency.

In the case of being suitable for filled in personalized parameters and requiring batch updating/adding of common parameters, the following scheme is adopted: the user clicks 'select operation-equipment ledger parameter maintenance' on the page where the physical equipment list is located, selects the corresponding default value type and parameter name, fills in the parameter value, selects the physical equipment needing to be updated, clicks 'determine', and can immediately update the ledger parameter in the corresponding physical equipment into the modified parameter value, thereby improving the parameter updating efficiency.

For example, if there is a need to change the current parent level physical device (or logical device) of the physical device corresponding to a certain parameter model, the embodiment may click a "select operation" button on a detail page of the physical device, and display a display frame including "set parent level physical device location/set logical device location" and "jump to logical device"; further, click on "set parent physical device position/set logical device position", a display frame containing a plurality of physical devices (or a display frame containing a plurality of logical devices) is displayed, and the user selects a new parent physical device (or logical device) and determines the selected new parent physical device.

It should be understood that after the physical device is successfully bound to the logical device location, the physical device bound to the logical device (location) and the ledger parameter information bound to the physical device may be viewed in the logical device. In general, a physical device can only bind a logical device at a time, i.e. a physical device can only be installed at a location at a time.

The embodiment can also be switched from the detail page of the physical equipment to the parameter management interface, so that the maintenance of the parameters of the physical equipment is realized on the parameter management interface.

The deletion function of the physical device may be deletion of the physical device or batch deletion. When deleting the physical device, the user clicks a physical device on the page where the physical device list is located, and enters the detail page of the physical device. Clicking the "delete" button in the details page, the details page pops up a confirmation dialog, the user clicks the "ok" button, and the physical device is successful in deleting.

The deletion of the plurality of physical devices adopts a batch deletion mode, and a specific description of the batch deletion mode is described in embodiment 5 below, which is not repeated here.

Optionally, in the embodiment of the present application, a physical device that has a child level physical device is not directly deleted, and if the physical device has a parent level physical device, the child level physical device is associated with the parent level physical device, and then the physical device is deleted. If the physical device does not have the parent level physical device, unbinding the child level physical device from the physical device, reestablishing the association relationship with other physical devices, and deleting the physical device. Meanwhile, in order to avoid the fault of the historical data, the physical equipment is not supported to be deleted directly after being referenced by other applications in the using process.

A sixth section, for an application of "logical device", for providing a logical device list for displaying managed logical devices. The logical device is used for marking the position (also called functional position) where the physical device operates or functions, and the concept of quantity, manufacturer and value is not involved. The logic device is logically immovable and may be changed as needed during the engineering retrofit, whether or not the particular physical device or system on which it is installed changes. The logical device may not have a physical device (or system) installed thereon, but may have one or more physical devices (or systems) installed thereon.

Logical devices are involved in create, query, delete, and modify (i.e., change) functions. After the logic device binds the physical device, the user enters the logic device page by clicking the information item of the logic device in the logic device list aiming at the inquiry/modification function of the logic device, so that the complete ledger information (such as the device code of the bound physical device, the device name of the bound physical device, the name of the father-level physical device, the device type and the like) of the logic device can be checked, and further, the technical parameters of all the bound physical devices can be checked. Technical parameters of the bound physical device include, but are not limited to: the device type, specification and model number, the whole name of a manufacturer, the property of a fan, the type of the fan, the rated rotation speed of an impeller, the rated voltage, the rated current, the rated rotation speed of a generator, the rated frequency, the diameter of the impeller, the wind sweeping area, the hub height of a hub, the air density of a guaranteed power curve, the cut-in wind speed, the low wind cut-out wind speed, the high wind cut-out wind speed, the maximum wind resistance grade, the design service life, the quality assurance period, the weight of a cabin, the hub weight, the weight of a single blade, the lifting completion date, the whole name of an installation unit, the grid connection date, the quality assurance date and the like.

For the deletion function of the logic device, the logic device in the system can perform logic deletion through state enabling and disabling because of the referenced relationship between the logic devices and between the logic device and the physical device. Because the logic devices in the system are stored in a one-to-many tree data structure, the logic devices can move in whole branches (namely, the branches follow the stems), and on the basis, the embodiment can perform batch marking disabling.

In summary, the embodiment can construct standardized, electronic and informationized equipment ledger information, and can solve the problem of equipment reliability analysis while strengthening physical management of production equipment, and start equipment ledger management work in combination with an electric power production management system. In the embodiment of the application, the ledger management has the following advantages:

(1) The standing book management can achieve comprehensive closed loops, specifically, the equipment standing book management in the embodiment is throughout the whole life cycle of equipment, and the informatization of the standing book is built based on the power production management system, so that the comprehensive informatization closed loops such as the building, maintenance, technical improvement and the like of the standing book are achieved.

(2) The standing book management accords with the standard specification, specifically, the standing book management in the embodiment takes the safe production as the premise, and the standardization of the standing book management program and various equipment technical parameter templates is perfected according to the equipment technical standing book standardization management requirement.

(3) The standing book management has information integration standard capability, specifically, the informationized target of the standing book standardization work is realized through informationized means in the embodiment, the integrity, the effectiveness and the timeliness of the equipment standing book information are ensured, and support can be provided for data sharing among various systems of an enterprise.

(4) The standing book management has high efficiency, specifically, the embodiment realizes the automatic update of the operation background book information such as overhaul, technical improvement, defect elimination and the like through the integrated use of the equipment standing book information and other applications in the power production management system, reduces the manual maintenance cost and exerts the high efficiency of system integration.

Example 2:

fig. 2 is a flow chart of a parameter management method of a physical device according to an embodiment of the present application. As shown in fig. 2, the method of the present embodiment is applied to a parameter management system, and includes the following steps:

s10: and responding to the login request of the client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification.

In the embodiment of the present application, the model management interface is the interface on which the list formed by the plurality of parameter models in embodiment 1 is located.

S20: taking a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and providing a parameter management interface corresponding to the parameter model to be managed; the parameters of the physical equipment corresponding to the parameter model to be managed are displayed on the parameter management interface according to the corresponding classification and classification identifiers, and different classification and classification identifiers correspond to different display formats.

In the model management interface, a parameter model corresponds to an information frame, and at least one information item is contained in the information frame, wherein the information item comprises but is not limited to: site coding, site name, template number, template name, material coding, material name, etc.

The physical device has the identification information in addition to the parameters (i.e. the device technical parameters), and the identification information adding process of the physical device is described in step S50 below, which is not described here again.

For example, the parameter management interface is divided into a first area and a second area, 5 dynamic parameters are displayed in the first area, 10 static parameters are displayed in the second area, the level of dynamic parameter 1 in the 5 dynamic parameters is highest, the levels of dynamic parameters 2 and 3 are higher, the levels of dynamic parameters 4 and 5 are low, the display result of the first area is taken as an example, the parameter items of dynamic parameter 1 are displayed in a first background, dynamic parameters 2 and 3 are displayed in a second background, dynamic parameters 4 and 5 are displayed in a third background, and the importance of each parameter to the operation of the physical equipment can be intuitively seen by a user through the background color of each parameter. And when the parameter values of the parameter items exceed a preset threshold value, initiating an early warning signal.

S30: and responding to a selection instruction of the parameters sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameters corresponding to the selection instruction as target parameters, and managing the target parameters.

In the embodiment of the application, as the parameters are intuitively classified and graded on the parameter management interface, a user can quickly position the target parameters to be managed without inquiring operation/sliding operation, and the management efficiency of the target parameters is further improved.

In summary, the parameters displayed on the parameter management interface in the embodiment of the application are displayed according to the corresponding classification and classification identifiers, and as different classification and classification identifiers correspond to different display formats, the embodiment of the application can realize rapid positioning of the target parameters, thereby improving the management efficiency of the target parameters.

Example 3:

fig. 3 is a flow chart of another parameter management method of a physical device according to an embodiment of the present application. The model management interface also includes an icon for creating a parametric model, as shown in fig. 3, and the method further includes the steps of:

s40: and providing a model management interface containing the icon of the newly built parameter model for the client.

S50: responding to an instruction of a newly-built parameter model sent by a client, sending a parameter management newly-added page corresponding to the instruction of the newly-built parameter model to the client, and adding identification information of corresponding physical equipment on the parameter management newly-added page; the parameter management newly-added page comprises an icon for adding a preset ledger template.

It should be understood that the parameter management new page is an interface where the equipment technical parameter template is located, and after the parameter model is generated, the parameter management new page is used as a parameter management interface. The identification information of the physical device may be composed of coding information of the physical device and a physical device name, where the coding information is alternatively referred to as a physical device code, and is generated according to a preset physical device code generation rule, and the generated physical device code includes a material code and a serial number. The material code is called material main data code, the serial number is called equipment serial number.

As shown in fig. 4, the preset physical device code generation rule is: 12-bit material main data coding: 040101000001 and 6 bits of equipment serial number 000001.

It should be appreciated that the physical device names described above may use dual names in order to make them consistent with the associated logical device names. In addition, the technical parameter template of the equipment has an automatic coding function, and supports one-key generation of parameter models corresponding to a plurality of physical equipment.

S60: and responding to an instruction of adding the preset ledger templates sent by the client, and displaying a second display frame containing icons corresponding to the preset ledger templates.

It should be appreciated that the parameters in the preset ledger template are device parameter items. Different equipment ledger standard templates are used to provide different sets of equipment parameter items. For example, the second display frame may display icons corresponding to the device ledger standard template 1, the device ledger standard template 2, and the device ledger standard template 3. The equipment ledger standard template 1 provides an equipment parameter item set consisting of an equipment parameter item 1, an equipment parameter item 2, an equipment parameter item 3 and an equipment parameter item 4; the equipment account standard template 2 provides an equipment parameter item set consisting of an equipment parameter item 3, an equipment parameter item 4, an equipment parameter item 7 and an equipment parameter item 8; the device account standard template 3 provides a device parameter item set comprising a device parameter item 1, a device parameter item 4 and a device parameter item 6.

S70: and taking a preset ledger template corresponding to the icon selected by the client from the second display frame as a ledger template to be added, and adding all parameters contained in the ledger template to be added into a parameter management newly-added page according to the corresponding classification and grading identification.

The classification and grading identification of the parameters can be composed of two items, namely a classification identification and a grading identification.

The user selects the device ledger standard template 1 at the client, and the classification hierarchy corresponding to the device parameter item 1 is identified as a dynamic parameter and the highest level; the equipment parameter item 2 is a static parameter and an intermediate level; the equipment parameter item 3 is a dynamic parameter and the lowest level; the device parameter item 4 is a static parameter, the lowest level.

After the user determines to introduce the device ledger standard template 1, the device parameter items 1 and 3 are displayed in a first area and in different background colors, and the device parameter items 2 and 4 are displayed in a second area and in different font formats.

S80: and adding and storing the parameter value input by the client based on the parameter management newly-added page added with the parameter to the parameter management newly-added page so as to realize the generation of the parameter model on the parameter management system.

It should be understood that parameter values, alternatively referred to as device parameter values, refer to parameter values corresponding to device parameter items.

After generating the parameter model, the embodiment may associate the generated parameter model corresponding to the physical device to a corresponding logic device (e.g., a corresponding logic device, a superior logic device, etc.), where the association process is described in step S120 below, which is not described herein.

According to the embodiment of the application, through executing the steps S40-S80, the quick creation of the parameter model corresponding to the physical equipment can be realized, and the specific flow is as follows: the client sends a material coding application to the parameter management system, and after the application passes, the parameter management system builds a technical parameter template of the equipment; rapidly filling equipment parameter items in an equipment technical parameter template in a mode of referencing an equipment ledger standard template by one key; filling in the parameter values of the equipment; and binding the corresponding physical equipment codes for the equipment technical parameter template, and realizing the rapid creation of the parameter model corresponding to the physical equipment.

In a possible implementation manner, before each parameter included in the ledger template to be added is added to the newly added page of parameter management according to the corresponding classification mark, the method further includes:

s90: analyzing the ledger template to be added to obtain each parameter contained in the ledger template to be added, or obtaining each parameter contained in the ledger template to be added and the classification identifier corresponding to each parameter.

S100: when each parameter contained in the ledger template to be added is obtained, searching classification identifiers corresponding to each parameter from a preset parameter library.

In the embodiment of the present application, two types of obtaining manners of classification and classification identifiers are used, where the first obtaining manner is directly obtained from a ledger template to be added, and the premise of using the obtaining manner is that the ledger template to be added contains classification and classification identifiers of all parameters. The second obtaining mode is to obtain from a preset parameter library, and under the condition that the ledger template to be added does not contain the classification marks of the parameters, the ledger template is not required to be modified, and the obtaining capability of the classification marks corresponding to the parameters can be ensured.

In a possible implementation manner, after each parameter included in the ledger template to be added is added to the newly added page of parameter management according to the corresponding classification mark, the method further includes:

s110: responding to a physical equipment binding instruction triggered by the client based on the parameter management newly added page, and displaying a floating window on the parameter management newly added page; the floating window is used for displaying the physical equipment to be bound and the association relation between the physical equipment to be bound and the physical equipment corresponding to the parameter model.

S120: and responding to a logic device binding instruction triggered by the client based on the parameter management newly-added page, and displaying the logic device to be bound and the association relation between the logic device to be bound and the physical device corresponding to the parameter model on the parameter management newly-added page.

It should be noted that the operation of binding the physical device and the operation of binding the logical device may be an operation performed after the generation of the parameter model corresponding to the physical device, or an operation performed during the generation of the parameter model corresponding to the physical device.

The newly added page of parameter management contains an icon corresponding to 'select operation', a user clicks the icon corresponding to 'select operation', a display frame pops up, the icon corresponding to 'bind superior physical equipment' is selected in the display frame, association with the superior physical equipment is realized, the icon corresponding to 'bind superior logical equipment' can be selected if necessary, the generated number is input, a certain number of parameter management interfaces corresponding to the physical equipment can be generated, and the generation efficiency of the parameter model corresponding to the same type of physical equipment is improved.

Fig. 5 is a schematic flow chart of generating a parametric model according to an embodiment of the present application, including the following steps:

s51: establishing a technical parameter template of the equipment; s52: judging whether the material codes exist, if so, executing the step S53, and if not, executing the step S54; s53: acquiring a material code; s54: applying for material codes by field personnel; s55: checking the material codes by branch companies; s56: headquarter auditing material codes; s57: formulating a technical parameter template of the equipment; s58: referencing a standard ledger template, and filling out parameter items according to the standard ledger template; s59: generating a static standing book of the physical equipment by the power station; s60: moving the physical device to a functional position; s61: generating equipment account dynamic information according to operation and maintenance, and further generating equipment technical parameter templates corresponding to physical equipment.

It should be appreciated that the manner in which the presence of a asset code is determined is: when the power production management system builds a device technical parameter template corresponding to the physical device, selecting a material code, calling a main data platform interface by the system, and checking the material code provided by the main data platform. If the corresponding material codes do not exist in the main data platform, the embodiment opens application rights for the field material manager, so that the field material manager applies for the material codes.

In the page where the list of the device technical parameter templates is located, the user can enter the detail page of the device technical parameter templates by clicking a new button in the toolbar. Wherein, the detail page displays basic information bar and parameter information bar, the information in the basic information bar includes but is not limited to: template number, template name, standard template name, material code, etc. The template number is automatically generated by the system, the parameter information column is divided into a parameter setting column and a multi-row parameter setting column, parameters in the two columns can be introduced into equipment parameter items by adding a standard template, the equipment parameter items and equipment parameter values form equipment technical parameters, and the information of the equipment technical parameters comprises but is not limited to: default value type, multi-line parameters, parameter names, parameter values (character type), domain names, parameter value (domain type) descriptions, and so forth.

After entering the detail page of the technical parameter template of the equipment, the user clicks a 'select operation' button in a toolbar, pops up a display frame (or called a popup frame) containing a 'reference standard ledger template', 'parameter model corresponding to the generated physical equipment' and 'binding physical equipment', clicks a 'reference standard ledger template' button, and pops up a display frame containing a plurality of selectable standard ledger templates; the user selects the required standard ledger template in the display frame and clicks the determination button, at this time, the content in the standard ledger template is automatically filled into the technical parameter template of the equipment, and meanwhile, the page prompts the information of 'successfully importing the template'.

It should be understood that the binding physical device may bind an upper level physical device, a sub level physical device, etc., and the device parameter item of the standard template filled into the device technical parameter template may not be modified or deleted. If other device parameters need to be supplemented, clicking a "+" button at the left lower corner of the parameter information column to automatically add a device parameter row, and selecting a parameter name, a parameter value and the like. The embodiment of the application can be combined with actual conditions to fill in the parameter values of the equipment.

In the basic information field, the embodiment can select the material code consistent with the specification model of the physical equipment and the brand manufacturer which need to be generated at the present time. After each item of information is filled out without errors, the user can click to save.

In the display frame containing the reference standard ledger template, the parameter model corresponding to the generated physical equipment and the binding physical equipment, the user can click the parameter model corresponding to the generated physical equipment and pop up the display frame. Selecting parent-level physical equipment for the physical equipment corresponding to the parameter model to be generated in the display frame; parent logical devices may also be selected if necessary; the user can also input the number of the parameter models which need to be generated in this time in the display frame; finally click the "generate parametric model" button. After the system is generated, the page prompts that the parameter model corresponding to the physical equipment is successfully generated.

It should be noted that, after the 3 parameters of the equipment type, the manufacturer name and the specification model in the equipment technical parameter template are filled, the parameter model corresponding to the physical equipment can be generated.

After generating the parametric model, the method further comprises: s130: and responding to clicking operation of the client based on the floating window, and switching from the parameter management interface where the parameter model is located to the parameter management interface where the parameter model corresponding to the bound physical equipment is located.

It should be understood that, besides displaying part of the information of the bound physical device, the floating window can also be used as a display entry of the parameter model of the bound physical device, so that a user can directly enter the parameter management interface of the bound physical device.

Example 4:

fig. 6 is a schematic flow chart of step S30 in fig. 2 according to an embodiment of the present application. On the basis of the embodiment shown in fig. 2, the specific implementation manner of S30 will be described in more detail in this embodiment.

As shown in fig. 6, step S30: the method for managing the target parameters comprises the following steps:

s301: the state of the target parameter is adjusted to an editable state.

S302: and responding to the editing instruction of the client to the target parameters, and managing the target parameters according to the editing operation corresponding to the editing instruction.

The editing instructions include, but are not limited to: modification of parameter values, deletion of parameter values, modification of classification hierarchical identification of parameters, and the like. According to the method and the device for editing the target parameters, when the states of the target parameters are editable, the editing instructions are responded, and the probability of false editing of the user can be reduced.

In one possible implementation, the editing instructions include modification instructions and the editing operations include modification operations. S302: responding to an editing instruction of a client to target parameters, managing the target parameters according to editing operation corresponding to the editing instruction, and comprising the following steps:

s3021: responding to a parameter management binding instruction triggered by the client based on a parameter management interface, and displaying a first display frame containing information items corresponding to other parameter models; the other parameter models are generated according to a target ledger template adopted by the parameter model to be managed.

S3022: and taking other parameter models corresponding to the information items selected by the client from the first display frame as binding parameter models of the parameter models to be managed, and responding to a modification instruction of the client to the target parameters to carry out batch modification on the target parameters in the parameter models to be managed and the target parameters in the binding parameter models.

In the embodiment of the application, the embodiment of the application can realize batch modification of a plurality of parameter models aiming at the same target parameter, and improves the parameter modification efficiency.

Example 5:

fig. 7 is a flowchart of another parameter management method of a physical device according to an embodiment of the present application. The model management interface also includes a disable flag for the parametric model, as shown in fig. 7, the method further includes:

s140: and responding to the instruction of selecting the parameter model sent by the client based on the forbidden identification, taking the parameter model corresponding to the instruction of selecting the parameter model as the parameter model to be deleted, and deleting the parameter model.

In the embodiment of the application, aiming at the deleting operation of the parameter model, the embodiment can realize batch marking of the parameter model to be deleted by disabling the identifier, thereby realizing batch deleting of the parameter model corresponding to a plurality of physical devices and improving the deleting efficiency of the parameter model.

Example 6:

fig. 8 is a schematic structural diagram of a parameter management apparatus for a physical device according to an embodiment of the present application. The apparatus of this embodiment may be in the form of software and/or hardware. As shown in fig. 8, the parameter management apparatus for a physical device provided in this embodiment includes: a verification display template 51, a response module 52 and a management module 53. Wherein:

and a verification display template 51 for verifying the login request in response to the login request of the client, and providing the client with a model management interface containing information items of a plurality of parameter models after the login request passes the verification.

The response module 52 is configured to take a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and provide a parameter management interface corresponding to the parameter model to be managed; the parameters of the physical equipment corresponding to the parameter model to be managed are displayed on the parameter management interface according to the corresponding classification and classification identifiers, and different classification and classification identifiers correspond to different display formats.

And the management module 53 is configured to respond to a selection instruction of a parameter sent by the client based on a display format of all parameters on the parameter management interface, take a parameter corresponding to the selection instruction as a target parameter, and manage the target parameter.

The parameter management device of the physical device provided in this embodiment may be used to execute the parameter management method of the physical device provided in any of the above method embodiments, and its implementation principle and technical effects are similar, and are not repeated here.

It should be noted that, the user information and data (including, but not limited to, data for analysis, stored data, displayed data, etc.) referred to in the present application are all information and data authorized by the user or fully authorized by each party, and the collection, use and processing of the related data need to comply with the related laws and regulations and standards of the related country and region, and provide corresponding operation entries for the user to select authorization or rejection.

That is, in the technical solution of the present application, the related processes of collecting, storing, using, processing, transmitting, providing, disclosing, etc. the personal information of the user all conform to the rules of the related laws and regulations, and do not violate the public welfare.

According to embodiments of the present application, an electronic device and a readable storage medium are also provided.

Fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application. The electronic device comprises a receiver 60, a transmitter 61, at least one processor 62 and a memory 63, and the electronic device formed by the above components may be used to implement the above-mentioned specific embodiments of the present application, which are not described herein again.

The embodiment of the application further provides a computer readable storage medium, in which computer executable instructions are stored, and when the processor executes the computer executable instructions, the steps of the method in the above embodiment are implemented.

Embodiments of the present application also provide a computer program product comprising a computer program which, when executed by a processor, implements the steps of the method of the above embodiments.

Various implementations of the systems and techniques described here above may be implemented in digital electronic circuitry, integrated circuitry, field Programmable Gate Arrays (FPGAs), application Specific Integrated Circuits (ASICs), application Specific Standard Products (ASSPs), systems On Chip (SOCs), load programmable logic devices (CPLDs), computer hardware, firmware, software, and/or combinations thereof. These various embodiments may include: implemented in one or more computer programs, the one or more computer programs may be executed and/or interpreted on a programmable system including at least one programmable processor, which may be a special purpose or general-purpose programmable processor, that may receive data and instructions from, and transmit data and instructions to, a storage system, at least one input device, and at least one output device.

Program code for carrying out methods of the present application may be written in any combination of one or more programming languages. These program code may be provided to a processor or controller of a general purpose computer, special purpose computer, or other programmable data processing apparatus such that the program code, when executed by the processor or controller, causes the functions/operations specified in the flowchart and/or block diagram to be implemented. The program code may execute entirely on the machine, partly on the machine, as a stand-alone software package, partly on the machine and partly on a remote machine or entirely on the remote machine or electronic device.

In the context of this application, a computer-readable storage medium may be a tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. The computer readable storage medium may be a machine readable signal medium or a machine readable storage medium. The computer readable storage medium may include, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any suitable combination of the foregoing. More specific examples of a computer-readable storage medium would include one or more wire-based electrical connections, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

To provide for interaction with a user, the systems and techniques described here can be implemented on a computer having: a display device (e.g., a CRT (cathode ray tube) or LCD (liquid crystal display) monitor) for displaying information to a user; and a keyboard and pointing device (e.g., a mouse or trackball) by which a user can provide input to the computer. Other kinds of devices may also be used to provide for interaction with a user; for example, feedback provided to the user may be any form of sensory feedback (e.g., visual feedback, auditory feedback, or tactile feedback); and input from the user may be received in any form, including acoustic input, speech input, or tactile input.

The systems and techniques described here can be implemented in a computing system that includes a background component (e.g., as a data electronic device), or that includes a middleware component (e.g., an application electronic device), or that includes a front-end component (e.g., a user computer having a graphical user interface or a web browser through which a user can interact with an implementation of the systems and techniques described here), or any combination of such background, middleware, or front-end components. The components of the system can be interconnected by any form or medium of digital data communication (e.g., a communication network). Examples of communication networks include: local Area Networks (LANs), wide Area Networks (WANs), and the internet.

It should be appreciated that various forms of the flows shown above may be used to reorder, add, or delete steps. For example, the steps described in the disclosure of the present application may be performed in parallel, sequentially, or in a different order, provided that the desired results of the technical solutions disclosed in the present application are achieved, and are not limited herein.

The above embodiments do not limit the scope of the application. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives are possible, depending on design requirements and other factors. Any modifications, equivalent substitutions, improvements, etc. made within the principles of the present application are intended to be included within the scope of the present application.

Claims (10)

1. A parameter management method for a physical device, applied to a parameter management system, comprising:

responding to a login request of a client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification;

taking a parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed, and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats;

And responding to a selection instruction of the parameters sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameters corresponding to the selection instruction as target parameters, and managing the target parameters.

2. The method of claim 1, wherein managing the target parameter comprises:

adjusting the state of the target parameter to an editable state;

and responding to the editing instruction of the client to the target parameter, and managing the target parameter according to the editing operation corresponding to the editing instruction.

3. The method of claim 2, wherein the editing instructions comprise modification instructions, and wherein the editing operations comprise modification operations;

the responding to the editing instruction of the client to the target parameter manages the target parameter according to the editing operation corresponding to the editing instruction, and comprises the following steps:

responding to a parameter management binding instruction triggered by the client based on the parameter management interface, and displaying a first display frame containing information items corresponding to other parameter models; the other parameter models are parameter models generated according to a target ledger template adopted by the parameter model to be managed;

And taking other parameter models corresponding to the information items selected by the client from the first display frame as binding parameter models of the parameter models to be managed, and responding to a modification instruction of the client to the target parameters to carry out batch modification on the target parameters in the parameter models to be managed and the target parameters in the binding parameter models.

4. The method of claim 1, wherein the model management interface further comprises an icon for creating a parametric model, the method further comprising:

providing a model management interface containing icons of newly built parameter models for the client;

responding to an instruction of a newly-built parameter model sent by the client, sending a parameter management newly-added page corresponding to the instruction of the newly-built parameter model to the client, and adding identification information of corresponding physical equipment on the parameter management newly-added page; wherein the parameter management newly added page comprises an icon added with a preset ledger template;

responding to an instruction of adding a preset ledger template sent by the client, and displaying a second display frame containing icons corresponding to a plurality of preset ledger templates;

Taking a preset ledger template corresponding to the icon selected by the client from the second display frame as a ledger template to be added, and adding each parameter contained in the ledger template to be added into the parameter management newly added page according to a corresponding classification and grading identifier;

and adding and saving the parameter value input by the client based on the parameter management newly added page added with the parameter to the parameter management newly added page so as to realize the generation of the parameter model on the parameter management system.

5. The method of claim 4, wherein before adding each parameter included in the ledger template to be added to the parameter management new page according to the corresponding classification identifier, the method further comprises:

analyzing the ledger template to be added to obtain each parameter contained in the ledger template to be added, or obtaining each parameter contained in the ledger template to be added and a classification identifier corresponding to each parameter;

when each parameter contained in the ledger template to be added is obtained, searching classification identifiers corresponding to each parameter from a preset parameter library.

6. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

after each parameter contained in the ledger template to be added is added to the newly added page of parameter management according to the corresponding classification and grading identification, the method further comprises the following steps:

responding to a physical equipment binding instruction triggered by the client-side based on the parameter management newly added page, and displaying a floating window on the parameter management newly added page; the suspension window is used for displaying physical equipment to be bound and the association relation between the physical equipment to be bound and the physical equipment corresponding to the parameter model;

responding to a logic device binding instruction triggered by the newly added page of the client based on the parameter management, and displaying logic devices to be bound and an association relationship between the logic devices to be bound and physical devices corresponding to the parameter model on the newly added page of the parameter management;

after generating the parametric model, the method further comprises:

and responding to the clicking operation of the client based on the floating window, and switching from the parameter management interface where the parameter model is located to the parameter management interface where the parameter model corresponding to the bound physical equipment is located.

7. The method of claim 1, wherein the model management interface further comprises a disabling identification of a parametric model, the method further comprising:

and responding to an instruction of selecting the parameter model sent by the client based on the forbidden identification, taking the parameter model corresponding to the instruction of selecting the parameter model as the parameter model to be deleted, and deleting the parameter model.

8. A parameter management apparatus for a physical device, applied to a parameter management system, comprising:

the verification display template is used for responding to a login request of the client, verifying the login request, and providing a model management interface containing information items of a plurality of parameter models for the client after the login request passes the verification;

the response module is used for taking the parameter model corresponding to the information item selected by the client from the model management interface as a parameter model to be managed and providing a parameter management interface corresponding to the parameter model to be managed; wherein, each parameter of the physical equipment corresponding to the parameter model to be managed is displayed on the parameter management interface according to the corresponding classification and classification mark, and different classification and classification marks correspond to different display formats;

And the management module is used for responding to a selection instruction of the parameter sent by the client based on the display format of all the parameters on the parameter management interface, taking the parameter corresponding to the selection instruction as a target parameter and managing the target parameter.

9. An electronic device, comprising: at least one processor and memory;

the memory stores computer-executable instructions;

the at least one processor executing computer-executable instructions stored in the memory causes the at least one processor to perform the method of parameter management of a physical device as claimed in any one of claims 1 to 7.

10. A computer readable storage medium, wherein computer executable instructions are stored in the computer readable storage medium, which when executed by a processor is adapted to implement the method for parameter management of a physical device according to any one of claims 1 to 7.