Electrical control planning system for use in buildingTechnical Field
The invention relates to the field of electrical planning, in particular to an electrical control planning system used in a building.
Background
With the development of society and the improvement of living standard of people, electrical control planning is ubiquitous, and an electrical air planning system in a building needs to set corresponding electrical control planning according to comprehensive consideration of actual use conditions and requirements in the building, so that safe, efficient and energy-saving electrical control management is realized;
The power grid planning computer-aided decision support system with the publication number of CN113158382B comprises an information collection module, a power grid planning module and an economic benefit analysis module, wherein the information collection module is used for receiving historical power consumption data of a target area provided by a user and index data of power grid planning, unifying various data types and then sending the data to the power grid planning module;
however, the power control planning management in the building is completed through unified allocation, so that the efficiency in the power control planning management process is reduced to a certain extent, and the power in the building cannot be finely managed, so that how to improve the efficiency of the power control management in the building and to finely manage the power control planning management in the building is a problem which needs to be solved, and therefore, the power control planning system for the building is provided.
Disclosure of Invention
In order to solve the technical problem, the invention aims to provide an electrical control planning system used in a building.
The electric control planning system for the building comprises an electric planning center, wherein the electric planning center is in communication connection with an electric preprocessing module, an electric acquisition module, an electric analysis module, an electric planning module and an electric control module;
The electrical preprocessing module is used for inputting building basic information and corresponding historical electrical information, and setting electrical planning control nodes according to the input building basic information and the historical electrical information;
The electrical acquisition module is used for acquiring electrical data information in the corresponding electrical planning control node;
The electrical analysis module is used for analyzing and processing the historical electrical data corresponding to the electrical planning control nodes, acquiring electrical planning periods corresponding to the electrical planning control nodes and electrical reference data corresponding to the electrical planning periods, and acquiring relevance grades among the electrical planning control nodes in the building;
The electrical planning module is used for comparing and analyzing the obtained electrical data information with electrical reference data in an electrical planning period by each electrical planning control node, obtaining predicted electrical planning data of each electrical planning control node according to a comparison analysis result, and setting predicted scheduling data according to the predicted electrical planning data and the relevance grade among the electrical planning control nodes;
and the electrical control module is used for carrying out power dispatching according to the predictive dispatching data corresponding to each electrical planning control node.
Further, the process of setting the electrical planning control node by the electrical preprocessing module includes:
an information input unit and an electric pretreatment unit are arranged in the electric pretreatment module;
the information input unit is used for inputting building electrical information and historical data information by a manager, wherein the building electrical information comprises building information images, an electrical circuit trend chart in the building image information and transfer battery pack information;
the electrical preprocessing unit is used for acquiring building electrical information and historical data information, analyzing and processing the acquired data information, acquiring an electrical distribution image of the building, acquiring transfer battery pack information in the electrical distribution image, and setting an electrical planning control node, wherein the electrical planning control node is used for planning and controlling electrical equipment connected with the transfer battery pack in the electrical distribution image.
Further, the process of collecting the electrical data information by the electrical collecting module comprises the following steps:
the electric acquisition module is used for setting corresponding electric monitoring terminals according to the distribution condition of the electric planning control nodes in the electric distribution image, the electric monitoring terminals are used for acquiring electric data information corresponding to the positions of the electric planning control nodes, marking the acquisition time of the electric data information, and sending the electric data information to the electric planning module according to a marking result.
Further, an electrical control planning system for use in a building further includes an electrical storage module for storing obtained historical electrical information and collected electrical data information, the process comprising:
the electrical storage module is provided with a data storage space according to the corresponding electrical distribution image, a data storage subspace is arranged in the data storage space according to the electrical planning control node, the obtained historical electrical information and electrical data information are matched with the corresponding electrical planning control node, and the historical electrical information and the electrical data information are stored in the corresponding data storage subspace according to the matching result and are stored in an encrypted mode.
Further, the process of the electrical analysis module obtaining the electrical planning period corresponding to each electrical planning control node and the electrical reference data corresponding to each electrical planning control node and obtaining the relevance grade between each electrical planning control node in the building includes:
the electrical analysis module is internally provided with a node analysis unit and an association analysis unit;
The node analysis unit is used for acquiring the corresponding historical electrical data and the corresponding acquisition time in each electrical planning control node, setting a historical electrical change curve of the historical electrical data about the change of the acquisition time, carrying out smoothing on the obtained historical electrical change curve, acquiring the peaks and the troughs of the historical electrical change curve after the smoothing, based on a peak monitoring algorithm, setting the electrical planning period of the electrical planning control node according to the distribution condition of the corresponding peaks and the troughs of the historical electrical change curve;
The correlation analysis unit acquires the distribution condition of the electrical planning control nodes in the electrical distribution image, presets the scheduling feasible radius, acquires other electrical planning control nodes in the electrical planning control nodes according to the scheduling feasible radius, presets the correlation monitoring period, sequentially performs comparison analysis on the acquired electrical planning control nodes and electrical reference data corresponding to unit time in the correlation monitoring period of the other electrical planning control nodes, acquires deviation data of each unit time, acquires comprehensive deviation data in the correlation monitoring period according to the acquired deviation data, sorts the comprehensive deviation data in the scheduling feasible radius from large to small, and sets a correlation grade according to the sorting result, wherein the higher the comprehensive deviation data is, the higher the correlation grade corresponding to the electrical planning control nodes is.
Further, the process of obtaining the predicted electrical planning data by the electrical planning module includes:
a node planning unit is arranged in the electrical planning module;
The node planning unit is used for acquiring an electrical planning period, electrical reference data and electrical data information of each electrical planning control node, mapping the acquired electrical data information into the electrical planning period according to the corresponding acquisition time, acquiring the corresponding electrical reference data according to the mapping result, comparing and analyzing the acquired electrical reference data and the electrical data information to acquire an offset value, presetting an offset threshold value, comparing and analyzing the acquired offset value and the offset threshold value, marking the unit time as abnormal when the offset value is larger than or equal to the offset threshold value, marking the unit time as normal when the offset data is smaller than the offset threshold value, acquiring the abnormal rate in the electrical planning period, presetting an abnormal upper limit rate, comparing and analyzing the acquired abnormal upper limit rate and the abnormal rate, and generating planning abnormal information when the abnormal rate is larger than or equal to the abnormal upper limit rate, wherein the planning abnormal information comprises the corresponding electrical data information in the corresponding acquisition time;
The node planning unit acquires planning abnormality information, acquires deviation data corresponding to unit time in the planning abnormality information, and sets predicted electrical planning data of the electrical planning control node according to the acquired deviation data.
Further, the process of setting the predictive scheduling data by the electrical planning module includes:
An associated planning unit is arranged in the electrical planning module;
The association planning unit acquires the predicted electrical planning data obtained by each electrical control planning node, respectively carries out matching analysis on the corresponding predicted electrical planning data according to the predicted electrical planning data and the priority level corresponding to the electrical planning control nodes in the scheduling feasible radius of the electrical planning control nodes, generates predicted scheduling data according to the matching result, sequentially carries out matching analysis on each electrical planning control node, generates electrical scheduling early warning information if the matching is unsuccessful, and sends the generated information to the electrical control module.
Further, the electrical control module performs power scheduling according to the predicted scheduling data corresponding to each electrical planning control node, and the process includes:
predictive scheduling data corresponding to each electrical planning control node in the electrical control module, and implementing power scheduling control among the corresponding electrical planning control nodes according to the predictive scheduling data;
and the electrical control module acquires electrical dispatching early warning information, and a corresponding manager carries out remote power regulation and control on the transfer battery pack in the corresponding electrical planning control node according to the electrical dispatching early warning information.
Compared with the prior art, the invention has the beneficial effects that:
1. The electric data management in the building is divided into areas by setting the electric control planning nodes, and planning control is carried out on electric equipment in the corresponding areas according to the electric control planning nodes, so that the fine planning in the electric planning control process is improved to a certain extent, and the efficiency is improved;
2. acquiring a corresponding historical electrical change curve in each electrical control planning node in the building, acquiring electrical planning periods and electrical reference data corresponding to each electrical planning control node according to the historical electrical change curve, setting relevance grades of different electrical planning control nodes according to the electrical planning periods and the electrical reference data, and realizing electrical scheduling among the electrical planning control nodes in the partitioned areas in the building according to the relevance grades, so that the stability in the electrical planning process is improved to a certain extent;
3. And comparing and analyzing the obtained electrical data information with the electrical reference data, obtaining corresponding deviation data according to a comparison and analysis result, judging whether the electrical data in the corresponding electrical planning control node is abnormal according to the deviation data, and comparing and analyzing the electrical planning control node with other electrical planning control nodes according to the relevance grade, so that the efficiency in the electrical planning and scheduling process is improved to a certain extent.
Drawings
The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:
fig. 1 is a schematic diagram of an electrical control planning system for use in a building in accordance with an embodiment of the present application.
Detailed Description
As shown in fig. 1, an electrical control planning system for use in a building includes an electrical planning center communicatively coupled with an electrical pretreatment module, an electrical acquisition module, an electrical storage module, an electrical analysis module, an electrical planning module, and an electrical control module.
The electrical preprocessing module is used for inputting building basic information and corresponding historical electrical information, and setting electrical planning control nodes according to the input building basic information and the historical electrical information, and the electrical planning control nodes comprise the following steps:
an information input unit and an electric pretreatment unit are arranged in the electric pretreatment module;
the information input unit is used for inputting building electrical information and historical data information by a manager, wherein the building electrical information comprises building information images, an electrical circuit trend chart in the building image information and transfer battery pack information;
The building information image is a building image of a corresponding building, the electric circuit trend graph is an electric circuit graph corresponding to the building information image, and the electric equipment information is electric equipment contained in the corresponding building image information and comprises power information and model information;
The electrical preprocessing unit is used for acquiring building electrical information and historical data information, analyzing and processing the acquired data information, mapping the acquired electrical equipment connection information, an electrical circuit trend chart in building image information and transfer battery pack information into a building information image respectively, optimizing the mapping result, acquiring an electrical distribution image of the building, acquiring transfer battery pack information in the electrical distribution image, and setting an electrical planning control node, wherein the electrical planning control node is used for planning and controlling electrical equipment connected with the transfer battery pack in the electrical distribution image.
It should be further noted that, in the specific implementation process, the electrical pretreatment module sets corresponding electrical planning control nodes to plan and control the electrical equipment in the corresponding area, and divide the electrical equipment in the building information image, so that the fine planning in the electrical planning control process is improved to a certain extent, and the efficiency is improved.
The electric acquisition module is used for acquiring corresponding electric data information in the building information image, and the specific implementation process comprises the following steps:
The electric acquisition module is used for setting corresponding electric monitoring terminals according to the distribution condition of the electric planning control nodes in the electric distribution image, the electric monitoring terminals are used for acquiring electric data information at the positions of the corresponding electric planning control nodes, marking the acquisition time of the electric data information, and sending the electric data information to the electric planning module according to marking results, wherein the electric data information comprises real-time electricity utilization data and equipment operation data, the real-time electricity utilization data is power, current and voltage data at the current moment, and the equipment operation data is equipment switching state of corresponding electric equipment in the corresponding electric planning control nodes.
The electric storage module is used for storing electric data information acquired according to the building information image, and the specific implementation process comprises the following steps:
The electric storage module is internally provided with a data storage unit and a data encryption unit;
The electrical storage module is provided with a data storage space according to the corresponding electrical distribution image, a data storage subspace is arranged in the data storage space according to the electrical planning control node, the obtained historical electrical information and electrical data information are matched with the corresponding electrical planning control node, and the historical electrical information and the electrical data information are stored in the corresponding data storage subspace according to a matching result;
The data encryption unit acquires manager identity information corresponding to the building information image, encrypts corresponding data storage space and data storage subspace according to the manager identity information, wherein the manager identity information comprises a manager identity card number and a manager contact way authenticated by a real name;
It should be further noted that, in the implementation process, the electrical data information stored in the electrical storage module is associated with other modules, and in the process of acquiring the data information by other modules, only the electrical data information is analyzed and processed, and other people cannot acquire the corresponding electrical data information, so that the security of the electrical data information is ensured to a certain extent.
The electrical analysis module is used for analyzing and processing the historical electrical data corresponding to the electrical planning control nodes, acquiring electrical planning periods corresponding to the electrical planning control nodes and electrical reference data corresponding to the electrical planning periods, and acquiring relevance grades among the electrical planning control nodes in the building, and the specific implementation process comprises the following steps:
The electrical analysis module is respectively associated with the corresponding electrical distribution images, the node analysis unit is used for acquiring corresponding data information according to the mutual association of the corresponding electrical planning control nodes in the electrical distribution images and analyzing and processing the corresponding data information, and the associated analysis unit is used for acquiring analysis results of all the electrical planning control nodes in the electrical planning control images and analyzing and processing the analysis results;
The node analysis unit acquires a corresponding electrical distribution image, acquires a corresponding electrical planning control node according to the electrical distribution image, acquires corresponding historical data information, respectively acquires the historical electrical data for electrical equipment connection information corresponding to the corresponding electrical planning control node, analyzes and processes the historical electrical data to acquire acquisition time corresponding to the historical electrical data, sets a two-dimensional curve of the historical electrical data about the acquisition time according to the acquisition time, and marks the two-dimensional curve as a historical electrical change curve;
smoothing the obtained historical electrical change curve, presetting an interval time period, obtaining a maximum value and a minimum value corresponding to the historical change curve in the interval time period, obtaining the maximum value and the minimum value corresponding to each interval time period in the historical change curve, and marking the maximum value and the minimum value as a maximum value set and a minimum value set; respectively acquiring a maximum average value and a minimum average value corresponding to a maximum value set and a minimum value set, presetting a deviation coefficient, respectively acquiring a standard interval according to the relationship between the maximum average value and the minimum average value and the deviation coefficient, respectively carrying out comparative analysis on the maximum value and the minimum value in the maximum value set and the minimum value set and the corresponding standard interval, eliminating the maximum value and the minimum value which do not accord with the standard interval, and storing a historical electrical change curve corresponding to the eliminated maximum value and minimum value;
the node analysis unit obtains the historical electrical change curves of each electrical planning control node after smoothing, analyzes the obtained historical electrical change curves, obtains corresponding peaks and troughs on the historical electrical change curves based on a peak monitoring algorithm, sets periods corresponding to the historical electrical change curves according to the corresponding acquisition time on the historical electrical change curves to which the peaks and troughs belong, marks the obtained periods as electrical planning periods according to the distribution conditions of the peaks and troughs, and stores the obtained electrical planning periods;
The correlation analysis unit acquires the distribution condition of the electrical planning control nodes in the electrical distribution image, presets the scheduling feasible radius, acquires other electrical planning control nodes in the electrical planning control nodes according to the scheduling feasible radius, presets the correlation monitoring period, sequentially performs comparison analysis on the acquired electrical planning control nodes and electrical reference data corresponding to unit time in the correlation monitoring period of the other electrical planning control nodes, acquires deviation data of each unit time, acquires comprehensive deviation data in the correlation monitoring period according to the acquired deviation data, sorts the comprehensive deviation data in the scheduling feasible radius from large to small, and sets a correlation grade according to the sorting result, wherein the higher the comprehensive deviation data is, the higher the correlation grade corresponding to the electrical planning control nodes is.
The electrical planning module is used for comparing and analyzing the obtained electrical data information with electrical reference data in an electrical planning period by each electrical planning control node, obtaining predicted electrical planning data of each electrical planning control node according to a comparison analysis result, and setting predicted scheduling data according to the predicted electrical planning data and relevance grade among the electrical planning control nodes, wherein the specific implementation process comprises the following steps:
A node planning unit and an associated planning unit are arranged in the electrical planning module;
The node planning unit is used for acquiring an electrical planning period, electrical reference data and electrical data information of each electrical planning control node, mapping the acquired electrical data information into the electrical planning period according to the corresponding acquisition time, acquiring the corresponding electrical reference data according to the mapping result, comparing and analyzing the acquired electrical reference data and the electrical data information to acquire an offset value, presetting an offset threshold value, comparing and analyzing the acquired offset value and the offset threshold value, marking the unit time as abnormal when the offset value is larger than or equal to the offset threshold value, marking the unit time as normal when the offset data is smaller than the offset threshold value, acquiring the abnormal rate in the electrical planning period, presetting an abnormal upper limit rate, comparing and analyzing the acquired abnormal upper limit rate and the abnormal rate, and generating planning abnormal information when the abnormal rate is larger than or equal to the abnormal upper limit rate, wherein the planning abnormal information comprises the corresponding electrical data information in the corresponding acquisition time;
the node planning unit acquires planning abnormal information, acquires deviation data corresponding to unit time in the planning abnormal information, and sets predicted electrical planning data of the electrical planning control node according to the acquired deviation data;
The association planning unit acquires the predicted electrical planning data obtained by each electrical control planning node, respectively carries out matching analysis on the corresponding predicted electrical planning data according to the predicted electrical planning data and the priority level corresponding to the electrical planning control node in the scheduling feasible radius of the electrical planning control node, generates predicted scheduling data according to the matching result, sequentially carries out matching analysis on each electrical planning control node, and generates electrical scheduling early warning information if the matching is unsuccessful;
It should be further noted that, in the implementation process, the electrical planning module sets initial electrical planning data according to the electrical planning periods set in each electrical planning control node, where the initial electrical planning data includes electrical data information stored in the relay battery in the corresponding electrical planning period.
Predictive scheduling data corresponding to each electrical planning control node in the electrical control module, and implementing power scheduling control among the corresponding electrical planning control nodes according to the predictive scheduling data;
and the electrical control module acquires electrical dispatching early warning information, and a corresponding manager carries out remote power regulation and control on the transfer battery pack in the corresponding electrical planning control node according to the electrical dispatching early warning information.
The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.