CN116384069B - Man-machine system construction method and device for enterprise energy Internet of things - Google Patents

Abstract

The invention provides a man-machine system construction method and device for an enterprise energy internet of things, and relates to the field of intelligent monitoring and energy internet of things; the method comprises the following steps: obtaining an object to be modeled; determining the model field of the object to be modeled; determining whether a first target model corresponding to an object to be modeled exists in a pre-established unified model corresponding to the model field; if the unified model does not have the first target model, a new model is built according to the object to be modeled, corresponding processing is carried out based on the new model, and if the unified model has the first target model, corresponding processing is carried out based on the first target model; the method has the advantages that main objects in the power utilization and energy field of enterprises are described through a set of models, the main objects are divided according to subjective, objective and perception three-layer models, obvious layering is achieved, understanding and management are easy, a set of development platform is built on the basis of the proposed unified model, man-machine information is fused, and complex application can be achieved rapidly.

Description

Man-machine system construction method and device for enterprise energy Internet of things

Technical Field

The invention relates to the field of intelligent monitoring and energy Internet of things, in particular to a man-machine system construction method and device for an enterprise energy Internet of things.

Background

The intelligent energy monitoring system of the existing energy Internet of things currently has the following problems:

1. the traditional SCADA system is mainly monitored and has single mode, and cannot meet the requirement of enterprise users on comprehensive and refined management of energy systems such as water, electricity, gas and the like;

2. Aiming at an energy management system of a production enterprise, basic energy consumption data is mainly displayed, and an energy saving target is energy saving through transformation and management, so that intelligent energy saving control of man-machine object fusion is difficult to realize;

3. Aiming at the complementary technical development of new energy such as wind-solar power generation, energy storage, hydrogen energy and the like, the energy structure of an enterprise is changed greatly, so that the cost for supporting the new energy by the construction and expansion of an energy system of the energy enterprise is high.

Disclosure of Invention

The invention aims to provide a man-machine system construction method and device for an enterprise energy internet of things, which are used for solving the problems in the background technology.

Embodiments of the present invention are implemented as follows:

In a first aspect, an embodiment of the present application provides a method for building a man-machine system for an enterprise energy internet of things, where an object to be modeled is obtained, and the object to be modeled is at least one of objects related to water, electricity and gas energy;

determining a model field of an object to be modeled, wherein the model field comprises a perception field, an objective field and a subjective field;

determining whether a first target model corresponding to an object to be modeled exists in a pre-established unified model corresponding to the model field, wherein the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is established based on equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

If the unified model does not have the first target model, a new model is built according to the object to be modeled, corresponding processing is carried out based on the new model, and if the unified model has the first target model, corresponding processing is carried out based on the first target model.

The beneficial effects of the invention are as follows: the method has the advantages that main objects in the power consumption and energy field of enterprises are described through a set of models, the three-layer models are divided according to subjective, objective and perception, obvious layering is achieved, understanding and management are easy, on the basis of the proposed unified model, the unified model is correspondingly adjusted according to actual projects, matching with the actual projects is achieved, and therefore complex application can be achieved rapidly.

On the basis of the technical scheme, the invention can be improved as follows.

Further, the different object attributes comprise communication relations among the device objects, and information corresponding to each device object and related data generated by management activities of people on the device objects;

The perception model is a model established based on the communication relation between each equipment object and each equipment object, the objective model is a model established based on the information corresponding to each equipment object and each equipment object, and the subjective model is a model established based on the related data of the human management activities related to water, electricity and gas energy.

The beneficial effects of adopting the further scheme are as follows: the method and the device are used for respectively constructing a subjective model, an objective model and a perception model aiming at subjective, objective and perception hierarchical division in the water, electricity and gas energy fields, so that the purposes of realizing clear hierarchy of project management and reducing management difficulty are achieved.

Further, if the first target model exists in the unified model, performing corresponding processing based on the first target model, including:

If a first target model exists in the unified model, determining whether object attributes of all object devices corresponding to the first target model are matched with object attributes corresponding to the object to be modeled;

If the object attributes are matched, corresponding processing is carried out based on the first target model, if the object attributes are not matched, attribute expansion is carried out on the object attributes corresponding to the first target model according to the object attributes corresponding to the object to be modeled, a new first target model is obtained, and corresponding processing is carried out according to the new first target model.

The beneficial effects of adopting the further scheme are as follows: the object attribute of the object to be modeled is matched with the object attribute existing in the first target model.

Further, the method further comprises the steps of:

acquiring item information of an item to be processed;

Determining a second target model corresponding to the item to be processed from the unified model according to the item information;

according to the project information and the second target model, adjusting object attributes corresponding to the second target model to obtain an adjusted model;

And according to the adjusted model, processing the item to be processed is realized.

The beneficial effects of adopting the further scheme are as follows: and adjusting the object attribute in the unified model according to the actual item to be processed, so as to realize the purposes of matching with the item to be processed and being capable of processing the item to be processed.

Further, according to the item information and the second target model, adjusting the object attribute corresponding to the second target model to obtain an adjusted model, including:

Determining unmatched target object attributes in the object attributes corresponding to the item information and the object attributes corresponding to the second target model according to the item information and the second target model;

and adjusting the object attribute corresponding to the second target model according to the target object attribute to obtain an adjusted model.

The beneficial effects of adopting the further scheme are as follows: finding out the unmatched target object attribute in the object attributes corresponding to the second target model according to the object attribute corresponding to the item information in the item to be processed, and adjusting the object attribute corresponding to the second target model according to the target object attribute to realize the matching between the second target model and the item information.

Further, the processing of the item to be processed according to the adjusted model includes:

According to the adjusted model, an application system is constructed, wherein the application system comprises a perception system, an objective system and a subjective system;

and according to the application system, processing the item to be processed is realized.

The beneficial effects of adopting the further scheme are as follows: the main objects in the power consumption and energy field of enterprises are described through the unified model, and the enterprise power consumption and energy field is divided according to the subjective, objective and perception three-layer model, so that the enterprise power consumption and energy field has the effects of distinct hierarchy and easy understanding and management, and an application system formed by the unified model is provided, and complex application is realized rapidly.

Further, the method further comprises the steps of:

Acquiring equipment objects related to water, electricity and gas energy and different object attributes corresponding to the equipment objects;

Converting each equipment object and data corresponding to different object attributes corresponding to each equipment object into data corresponding to a uniform data access interface to obtain converted data;

establishing a unified model according to the converted data;

the application system has a unified data access interface.

The beneficial effects of adopting the further scheme are as follows: and realizing the satisfaction with the items to be processed through the data access interface.

In a second aspect, an embodiment of the present application provides a man-machine system construction device for an enterprise energy internet of things, including:

The acquisition module is used for acquiring an object to be molded, wherein the object to be molded is at least one of objects related to water, electricity and gas energy;

The determining module is used for determining the model field of the object to be modeled, wherein the model field comprises a perception field, an objective field and a subjective field;

The judging module is used for determining whether a first target model corresponding to an object to be modeled exists in a preset unified model corresponding to the model field, wherein the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is built based on equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

And the processing module is used for constructing a new model according to the object to be modeled if the first target model does not exist in the unified model, carrying out corresponding processing based on the new model, and carrying out corresponding processing based on the first target model if the first target model exists in the unified model.

In a third aspect, an embodiment of the present application provides an electronic device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the method of any one of the first aspects when executing the computer program.

In a fourth aspect, embodiments of the present application provide a non-transitory computer-readable storage medium storing computer instructions that cause a computer to perform the method of any of the first aspects.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the relationship among a perception model, an objective model and a supervisor model in an embodiment of the present invention;

FIG. 2 is a schematic diagram of model expansion and attribute adjustment in a unified model in accordance with an embodiment of the present invention;

FIG. 3 is a schematic diagram of a development platform based on a unified model according to an embodiment of the present invention;

FIG. 4 is a flow chart of a method in an embodiment of the invention;

FIG. 5 is a schematic diagram of connection of a man-machine system building device facing an enterprise energy internet of things in an embodiment of the invention;

Fig. 6 is a schematic connection diagram of an electronic device according to an embodiment of the invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Examples

In a first aspect, this embodiment provides a method for constructing a man-machine system for an enterprise energy internet of things, including the following steps:

S1, acquiring an object to be molded, wherein the object to be molded is at least one of objects related to water, electricity and gas energy;

The object to be modeled is at least one of objects related to water, electricity and gas energy, and can be any one or more of intelligent devices in a sensing domain, such as intelligent instruments, sensors, edge agents and the like, wherein the intelligent devices are data acquisition inlets, and comprise network communication modes and topological relations among the devices and physical quantity definitions such as remote measurement, remote signaling, remote control, remote regulation and the like of the devices; any one or more of the considerable fields, such as generators, motors, transformers, transmission lines, circuit breakers, air conditioners, water pumps, rectifier units, UPS, power sources, battery packs, production line equipment, etc.; any one or more of the subjective domain related data, such as human management activities, including calculation of comprehensive data, comprehensive evaluation, analysis of data, comparison of data, performance index, billing, ring ratio analysis, growth rate analysis, ledgers, reports, data documents, processes, interaction patterns, data input and output, etc. may also be used.

S2, determining a model field to which an object to be modeled belongs, wherein the model field comprises a perception field, an objective field and a subjective field;

And judging which of the perception domain, the objective domain and the subjective domain the object to be modeled belongs to according to whether the object to be modeled is at least one of objects related to water, electricity and air energy and is any one or more of the perception domain, the objective domain and the subjective domain.

S3, determining whether a first target model corresponding to an object to be modeled exists in a pre-established unified model corresponding to the model field, wherein the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is established based on equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

The method comprises the steps that a pre-established unified model comprises a perception model, an objective model and a subjective model, wherein the perception model is established based on object equipment belonging to a perception domain and object attributes corresponding to the object equipment, the objective model is established based on the object equipment belonging to an objective domain and the object attributes corresponding to the object equipment, and the subjective model is established based on the object equipment belonging to a subjective domain and the object attributes corresponding to the object equipment; and the object devices are all related devices in water, electricity and gas energy sources.

Optionally, the different object attributes include communication relations among the device objects, information corresponding to each device object and related data generated by management activities of people on the device objects;

The perception model is a model established based on the communication relation between each equipment object and each equipment object, the objective model is a model established based on the information corresponding to each equipment object and each equipment object, and the subjective model is a model established based on the related data of the human management activities related to water, electricity and gas energy.

The sensing model is front-end sensing equipment, parameters and the like for realizing data acquisition, equipment communication, topological relation and related parameters in water, electricity and gas energy sources; the objective model is based on middle-end execution equipment in water, electricity and gas energy sources, such as a generator for executing a power generation function, a transformer for executing voltage change, a power transmission line for executing voltage transmission, and the like; the master model is established based on human management activities such as analysis of front-end sensing devices and middle-end execution devices in water, electricity and gas energy sources, for example, analysis of data, comparison of data, and the like.

S4, if the unified model does not have the first target model, a new model is built according to the object to be modeled, corresponding processing is carried out based on the new model, and if the unified model has the first target model, corresponding processing is carried out based on the first target model.

When the unified model does not have the first target model of the object to be built, a new model is re-built based on the field of the object to be built, and the new model is one of a perception model, an objective model or a main pipe model; and when the first target model of the object to be built exists in the unified model or is based on the new model which is built, the object to be built is classified into the new model or the first target model which is built again, so that corresponding processing is carried out.

Optionally, if the unified model includes the first target model, performing corresponding processing based on the first target model, including:

If a first target model exists in the unified model, determining whether object attributes of all object devices corresponding to the first target model are matched with object attributes corresponding to the object to be modeled;

If the object attributes are matched, corresponding processing is carried out based on the first target model, if the object attributes are not matched, attribute expansion is carried out on the object attributes corresponding to the first target model according to the object attributes corresponding to the object to be modeled, a new first target model is obtained, and corresponding processing is carried out according to the new first target model.

Wherein, based on the above: when a first target model of an object to be built exists in the unified model or based on the established new model, the object to be built is classified into the re-established new model or the first target model, so that corresponding processing is carried out; and performing corresponding processing to judge whether the object attribute of the object to be modeled is matched with the object attribute of the object device in the new model or the first target model, thereby obtaining a matching result.

Specifically, under the condition that the object attributes are not matched, corresponding attribute expansion is carried out on the model according to the object attributes corresponding to the object to be modeled, so that the object attributes of the object to be modeled are matched with the object attributes in the model; in case of matching object properties, the model is further processed.

Optionally, the method may further include:

S1, acquiring item information of an item to be processed;

The unified model is used for carrying out specific projects, and project information related to the specific projects is needed to be obtained firstly; specifically, the specific project may be a project related to water, electricity and gas energy, for example, projects of a hydropower station, an electric power transmission station or a gas transmission station, and the project information of the project objects is all equipment required to be used by the project, for example, when the project to be processed is the hydropower station, the equipment related to the hydropower station comprises a flow sensor, a gate and a control platform for receiving sensor signals and controlling the gate to be opened and closed, wherein the flow sensor belongs to a perception domain, the gate belongs to an objective domain, and the control platform belongs to a subjective domain.

Specifically, the project information can sort the data of the perception domain according to the project equipment list and the drawing, including the communication method, the connection parameters, the measuring points and the like, and sort the data of the objective domain, including the objective entities and the topological relation among the objective entities.

S2, determining a second target model corresponding to the item to be processed from the unified model according to the item information;

after obtaining the item information of the item to be processed, determining a second target model corresponding to the item to be processed from the unified model according to the specific item information.

Specifically, according to the obtained data of the perception domain, a perception network diagram is generated, construction of a perception model in the second target model is completed, and the completion of construction of the perception model is confirmed through switching on equipment in the perception domain and the display state of the perception network diagram; according to the obtained data of the objective domain, establishing the relation between a client entity (equipment belonging to the objective domain) and a perception equipment (equipment belonging to the perception domain), thereby generating a system energy flow graph, and constructing an objective model in a second target model; for subjective models in the unified model, a basic universal statistical analysis template is provided, and the statistical analysis template can be directly selected when a corresponding system is generated.

S3, according to the project information and the second target model, adjusting object attributes corresponding to the second target model to obtain an adjusted model;

The object attribute in the second target model is adjusted according to the project information and the corresponding second target model, so that an adjusted second target model is obtained; when the object attribute adjustment is performed, that is, whether the object attributes of the various devices in the item information are matched with the object attributes in the second target model is determined as follows.

Optionally, the adjusting the object attribute corresponding to the second target model according to the item information and the second target model to obtain an adjusted model includes:

Determining unmatched target object attributes in the object attributes corresponding to the item information and the object attributes corresponding to the second target model according to the item information and the second target model;

and adjusting the object attribute corresponding to the second target model according to the target object attribute to obtain an adjusted model.

After judging whether the object attributes of various devices in the project information are matched with the object attributes in the second target model, if the object attributes in the project information are not matched with the object attributes in the second target model, the object attributes corresponding to the second target model are adjusted so as to achieve the purpose that the object attributes in the project information are matched with the object attributes in the second target model.

Specifically, the second target model includes a perception model, the perception model can communicate with an intelligent instrument, an intelligent gateway, an edge agent, a micro module, a secondary fusion device and the like through network equipment to construct a physical information network link, the link is divided into uplink data transmission and downlink command issuing, so that the mutual operation of an information system and the physical equipment is realized, the physical equipment data is uploaded to the computer through the physical link, and the physical equipment data is uniformly processed into four types of data: real-time, event, timing record, waveform, downward model of computer, unified as command, realize setting, setting and controlling equipment through command interface; the second target model also comprises an objective model, wherein the objective model mainly describes the physical structure of enterprise energy transmission, including various energy sources such as electric power, water conservancy, oil gas and the like, for example, the power distribution of a park enterprise is realized by leading in line from the mains, reducing the voltage through a transformer, leading in the line to a power distribution cabinet, and then forming a feeder line to supply power for equipment with different spaces and purposes; and for water conservancy and oil gas, the energy sources mainly comprise pipelines and pumps, so that the energy sources are transmitted; the objective model comprises association among objective entities and a topological structure formed by the electric switches besides describing the objective entities, and the objective entities are associated with equipment in the perception model through a measured relationship; the second object model further comprises a subjective model, the subjective model is used for mapping data of the perception model and data of the objective model under different management and activity requirements, the subjective model comprises the steps of establishing business rules, automatically aggregating data according to the rules and the like, the subjective model provides a plurality of general analysis modes and data and is convenient to apply, and specifically referring to fig. 1, the fig. 1 is a relation among the perception model, the objective model and the subjective model.

And S4, according to the adjusted model, processing the item to be processed is realized.

Optionally, the processing of the item to be processed according to the adjusted model includes:

According to the adjusted model, an application system is constructed, wherein the application system comprises a perception system, an objective system and a subjective system;

and according to the application system, processing the item to be processed is realized.

The application system is built according to the adjusted model, the adjusted model comprises an adjusted perception model, an adjusted objective model and an adjusted subjective model, and the perception system, the objective system and the subjective system are built according to the adjusted perception model, the adjusted objective model and the adjusted subjective model respectively, so that items to be processed are processed through the perception system, the objective system and the subjective system respectively.

Specifically, a development platform facing the enterprise electricity and energy management field can be constructed based on a unified model formed by a perception model, an objective model and a subjective model, the development platform is formed by four parts and comprises an application system (formed by the unified model), data processing, a service platform and man-machine interaction, the application can be quickly built by adopting the development platform in an application modeling mode, the reusability and development efficiency of the module are improved, and the development platform is specifically shown in fig. 2 and 3, and is as follows:

Firstly, collecting project information and modeling carding of projects to be processed, collecting comprehensive information of a built information system in the early stage of the projects, carrying out business modeling and entity abstract analysis, clearly containing models in a unified model in the entity abstract analysis process, determining the layers (a perception domain layer, an objective domain layer and a subjective domain layer) to which the entity belongs, judging whether the existing model meets the requirements or not in the layers to which the entity belongs, supporting application through an expansion model under the condition that the existing model does not meet the requirements, thus obtaining a new entity model, and finally judging and adjusting the attribute of the expansion model.

Secondly, the management tool of the model is utilized to realize the import of the model, the metadata of the system model is completed, the basic application system is completed to construct, and at the moment, the two aspects can work in parallel, on one hand, the entity information (configuration) is instantiated from the project information, and on the other hand, the configuration tool provided by the platform is utilized to construct the specialized application, so that the demo construction is completed.

And then, acquiring entity information of the equipment belonging to the perception domain and the equipment belonging to the objective domain from the project information, rapidly importing the entity information into the application system through a batch tool, and completing the construction of an organization object framework of the application system, wherein the application system can be started to be used without waiting until the complete construction is completed.

And finally, combining the requirement specification, analyzing the mapping rule of the subjective model data and the objective model data and the data analysis display mode to develop ETL script writing (database script) and Web configuration (configuration network), and rapidly meeting the business application.

Optionally, the method may further include:

Acquiring equipment objects related to water, electricity and gas energy and different object attributes corresponding to the equipment objects;

Converting each equipment object and data corresponding to different object attributes corresponding to each equipment object into data corresponding to a uniform data access interface to obtain converted data;

establishing a unified model according to the converted data;

the application system has a unified data access interface.

For the special customization requirement, a data access interface corresponding to the unified model is provided, wherein the data access interface comprises low-code tools such as an ETL (database), a graphic configuration, a page configuration and the like, so that the satisfaction between the data access interface and the item to be processed is realized.

Specifically, the application describes main objects in the enterprise electricity and energy fields through a set of models, divides the main objects according to subjective, objective and perception three-layer models, has obvious layering property, is easy to understand and manage, builds a set of development platform based on the proposed unified model, fuses human-computer information, and can rapidly realize complex application.

In a second aspect, an embodiment of the present application provides a man-machine system construction device for an enterprise energy internet of things, including:

The acquisition module is used for acquiring an object to be molded, wherein the object to be molded is at least one of objects related to water, electricity and gas energy;

The determining module is used for determining the model field of the object to be modeled, wherein the model field comprises a perception field, an objective field and a subjective field;

The judging module is used for determining whether a first target model corresponding to an object to be modeled exists in a preset unified model corresponding to the model field, wherein the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is built based on equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

And the processing module is used for constructing a new model according to the object to be modeled if the first target model does not exist in the unified model, carrying out corresponding processing based on the new model, and carrying out corresponding processing based on the first target model if the first target model exists in the unified model.

Optionally, the different object attributes in the judging module include communication relations among the device objects, information corresponding to each device object and related data generated by management activities of people on the device objects;

The perception model is a model established based on the communication relation between each equipment object and each equipment object, the objective model is a model established based on the information corresponding to each equipment object and each equipment object, and the subjective model is a model established based on the related data of the human management activities related to water, electricity and gas energy.

Optionally, the processing module is configured to perform corresponding processing based on the first target model if the first target model exists in the unified model, and may include:

the matching sub-module is used for determining whether the object attribute of each object device corresponding to the first target model is matched with the object attribute corresponding to the object to be modeled if the first target model exists in the unified model;

And the matching result submodule is used for carrying out corresponding processing based on the first target model if the first target model is matched, carrying out attribute expansion on the object attribute corresponding to the first target model according to the object attribute corresponding to the object to be modeled if the first target model is not matched, obtaining a new first target model, and carrying out corresponding processing according to the new first target model.

Optionally, the apparatus may further include:

The item acquisition module is used for acquiring item information of the item to be processed;

the target model module is used for determining a second target model corresponding to the item to be processed from the unified model according to the item information;

The model adjustment module is used for adjusting the object attribute corresponding to the second target model according to the project information and the second target model to obtain an adjusted model;

And the item processing module is used for realizing the processing of the item to be processed according to the adjusted model.

Optionally, the model adjustment module may include:

The attribute matching sub-module is used for determining unmatched target object attributes in the object attributes corresponding to the item information and the object attributes corresponding to the second target model according to the item information and the second target model;

And the attribute adjustment sub-module is used for adjusting the object attribute corresponding to the second target model according to the target object attribute to obtain an adjusted model.

Optionally, the item processing module may include:

The system construction sub-module is used for constructing an application system according to the adjusted model, and the application system comprises a perception system, an objective system and a subjective system;

and the project processing sub-module is used for realizing the processing of the project to be processed according to the application system.

Optionally, the apparatus may further include:

The attribute acquisition module is used for acquiring equipment objects related to water, electricity and gas energy and different object attributes corresponding to the equipment objects;

the data conversion module is used for converting each equipment object and data corresponding to different object attributes corresponding to each equipment object into data corresponding to a uniform data access interface to obtain converted data;

the model building module is used for building a unified model according to the converted data; the application system has a unified data access interface.

In a third aspect, an embodiment of the present application provides an electronic device, including a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the method of any one of the first aspects when executing the computer program.

In a fourth aspect, embodiments of the present application provide a non-transitory computer-readable storage medium storing computer instructions that cause a computer to perform the method of any of the first aspects.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The man-machine system construction method for the enterprise energy source internet of things is characterized by comprising the following steps of:

obtaining an object to be molded, wherein the object to be molded is at least one of objects related to water, electricity and gas energy;

Determining a model field to which the object to be modeled belongs, wherein the model field comprises a perception field, an objective field and a subjective field;

determining whether a first target model corresponding to the object to be modeled exists in a pre-established unified model corresponding to the model field, wherein the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is established based on the equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

If the first target model does not exist in the unified model, a new model is built according to the object to be modeled, corresponding processing is carried out based on the new model, and if the first target model exists in the unified model, corresponding processing is carried out based on the first target model;

The different object attributes comprise communication relations among the equipment objects, and information corresponding to each equipment object and related data generated by management activities of people on the equipment objects;

The perception model is a model established based on the communication relation between each equipment object and each equipment object, the objective model is a model established based on the information corresponding to each equipment object and each equipment object, and the subjective model is a model established based on the related data of the human management activities related to water, electricity and gas energy sources;

and if the first target model exists in the unified model, performing corresponding processing based on the first target model, including:

If the unified model exists the first target model, determining whether object attributes of the equipment objects corresponding to the first target model are matched with object attributes corresponding to the object to be modeled;

if the object attributes are matched, corresponding processing is carried out based on the first target model, if the object attributes are not matched, attribute expansion is carried out on the object attributes corresponding to the first target model according to the object attributes corresponding to the object to be modeled, a new first target model is obtained, and corresponding processing is carried out according to the new first target model.

2. The method for constructing a man-machine system for an enterprise energy internet of things according to claim 1, wherein the method further comprises:

acquiring item information of an item to be processed;

determining a second target model corresponding to the item to be processed from the unified model according to the item information;

According to the project information and the second target model, adjusting object attributes corresponding to the second target model to obtain an adjusted model;

and according to the adjusted model, processing the item to be processed is realized.

3. The method for constructing the man-machine system for the enterprise energy internet of things according to claim 2, wherein the adjusting the object attribute corresponding to the second target model according to the project information and the second target model to obtain the adjusted model includes:

determining unmatched target object attributes in object attributes corresponding to the item information and object attributes corresponding to the second target model according to the item information and the second target model;

and according to the target object attribute, adjusting the object attribute corresponding to the second target model to obtain an adjusted model.

4. The method for constructing a man-machine system for an enterprise energy internet of things according to claim 3, wherein the implementing the processing of the item to be processed according to the adjusted model includes:

according to the adjusted model, an application system is constructed, wherein the application system comprises a perception system, an objective system and a subjective system;

and according to the application system, processing the item to be processed is realized.

5. The method for constructing a man-machine system for an enterprise energy internet of things according to claim 4, wherein the method further comprises:

Acquiring equipment objects related to water, electricity and gas energy and different object attributes corresponding to the equipment objects;

Converting the data corresponding to the equipment objects and the different object attributes corresponding to the equipment objects into data corresponding to a uniform data access interface, and obtaining converted data;

establishing the unified model according to the converted data;

the application system has the unified data access interface.

6. Man-machine system construction device towards enterprise's energy thing allies oneself with, its characterized in that includes:

The device comprises an acquisition module, a modeling module and a modeling module, wherein the acquisition module is used for acquiring an object to be modeled, and the object to be modeled is at least one of objects related to water, electricity and gas energy sources;

the determining module is used for determining the model field of the object to be modeled, wherein the model field comprises a perception field, an objective field and a subjective field;

the judging module is used for determining whether a first target model corresponding to the object to be modeled exists in a pre-established unified model corresponding to the model field, the unified model comprises a perception model, an objective model and a subjective model, and each model in the unified model is established based on equipment objects related to water, electricity and gas energy and different object attributes corresponding to each equipment object;

The different object attributes comprise communication relations among the equipment objects, and information corresponding to each equipment object and related data generated by management activities of people on the equipment objects;

The perception model is a model established based on the communication relation between each equipment object and each equipment object, the objective model is a model established based on the information corresponding to each equipment object and each equipment object, and the subjective model is a model established based on the related data of the human management activities related to water, electricity and gas energy sources;

The processing module is used for constructing a new model according to the object to be modeled if the first target model does not exist in the unified model, carrying out corresponding processing based on the new model, and carrying out corresponding processing based on the first target model if the first target model exists in the unified model; the method comprises the following steps:

If the unified model exists the first target model, determining whether object attributes of the equipment objects corresponding to the first target model are matched with object attributes corresponding to the object to be modeled;

if the object attributes are matched, corresponding processing is carried out based on the first target model, if the object attributes are not matched, attribute expansion is carried out on the object attributes corresponding to the first target model according to the object attributes corresponding to the object to be modeled, a new first target model is obtained, and corresponding processing is carried out according to the new first target model.

7. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of any one of claims 1-5 when the computer program is executed by the processor.

8. A non-transitory computer readable storage medium storing computer instructions that cause a computer to perform the method of any one of claims 1-5.