CN113807741B - Visual electric power energy-saving system and method based on Internet of things and real-time electric power parameters - Google Patents
Visual electric power energy-saving system and method based on Internet of things and real-time electric power parameters Download PDFInfo
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Abstract
The invention discloses a visual power energy-saving system based on an Internet of things and real-time power parameters, which comprises an Internet of things electric appliance, a power parameter collection module, a power parameter analysis module, a power energy-saving calculation module, an Internet of things electric appliance starting module, an Internet of things electric appliance closing control module, network instruction input, a hardware switching element, an Internet of things electric appliance power supply module and a power parameter visual display terminal. The power energy-saving calculation module calculates the quantization index of the power consumption parameter, calculates the electric equipment of the Internet of things with the function overlapping degree, and transmits the closing instruction to the closing control module of the electric equipment of the Internet of things, so that the electric equipment of the Internet of things with the function overlapping degree calculated is closed through the control connection between the closing control module of the electric equipment of the Internet of things and the electric equipment of the Internet of things, the electric waste caused by a plurality of terminal electric equipment of the Internet of things is avoided, and the effect of saving electric power is achieved.
Description
Technical Field
The invention relates to the technical field of the Internet of things, in particular to a visual electric power energy-saving system and method based on the Internet of things and real-time electric power parameters.
Background
The internet of things refers to the collection of various needed information such as sound, light, heat, electricity, mechanics, chemistry, biology, position and the like of any object or process needing to be monitored, connected and interacted in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like, the ubiquitous connection of the object and people is realized through various possible network access, the intelligent sensing, identification and management of the object and the process are realized, and the internet of things is an information carrier based on the Internet, a traditional telecommunication network and the like, so that all common physical objects which can be independently addressed form an interconnection and intercommunication network.
In the application field of the internet of things, a large number of terminals of the internet of things, namely related electrical equipment, are required. For the application of the terminal electrical equipment of the internet of things, a corresponding power parameter monitoring system is lacked, the on-off adjustment of the terminal electrical equipment of the internet of things is lacked, the terminal electrical equipment of the internet of things is difficult to manage efficiently, and the applied terminal electrical equipment of the internet of things is extremely easy to cause power waste, so that the invention provides a visual power energy-saving system and method based on the internet of things and real-time power parameters.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a visual power energy-saving system and a visual power energy-saving method based on the Internet of things and real-time power parameters, and solves the problems in the background art.
2. In order to achieve the above purpose, the present invention adopts the following technical scheme: the visual power energy-saving system based on the Internet of things and the real-time power parameters comprises an Internet of things electrical equipment, a power parameter collection module, a power parameter analysis module, a power energy-saving calculation module, an Internet of things electrical equipment opening module, an Internet of things electrical equipment closing control module, network instruction input, a hardware switching element, an Internet of things electrical equipment power supply module and a power parameter visual display terminal;
the power parameter analysis module comprises the following steps:
s1001: the electric power parameter analysis module adopts a graph-model integrated technology, so that the whole module is subjected to intelligent analysis;
s1002: then, a CIM model and a GIS model are obtained in real time, and an object-oriented real-time database is established for management;
s1003: the method comprises the steps of storing a power grid model, topology and graphics of the electric equipment of the Internet of things by matching and using electricity;
s1004: and finally, establishing a power grid system and a management model thereof for the electric equipment of the Internet of things, and ensuring the openness of the bottom data storage, the real-time performance of model updating, the real-time concurrent access capability and the maintainability of the system.
Preferably, the power supply module of the internet of things electrical equipment is electrically connected with the internet of things electrical equipment, and the internet of things electrical equipment is electrically connected with the power parameter collection module.
Preferably, the power parameter collection module is electrically connected with the power parameter analysis module, and the power parameter analysis module is electrically connected with the power energy-saving calculation module.
Preferably, the power energy-saving calculation module is electrically connected with the internet of things electrical equipment opening module and the internet of things electrical equipment closing control module respectively, and the network instruction input and the hardware switching element are electrically connected with the power energy-saving calculation module.
Preferably, the internet of things electrical equipment opening module and the internet of things electrical equipment closing control module are electrically connected with the internet of things electrical equipment, and the electric power parameter visual display terminal and the electric power energy-saving calculation module are electrically connected with the electric power parameter visual display terminal.
The method for the visual power energy-saving system based on the Internet of things and the real-time power parameters comprises the following steps of:
s1: the power supply module of the electric equipment of the Internet of things is connected with an external power supply and supplies power to the electric equipment of the Internet of things;
s2: the method comprises the steps that electric power parameters of operation of the electric equipment of the Internet of things are collected through a connected electric power parameter collection module;
s3: the power parameter collection module collects the power parameters and outputs the power parameters to the power parameter analysis module so as to analyze the power parameters, analyze the power parameters of each piece of internet of things electrical equipment, quantize the power parameters and input the quantized power parameters to the power energy-saving calculation module;
s4: the power parameter collection module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
s5: calculating quantization indexes of electricity consumption parameters through an electric power energy-saving calculation module, calculating the electric equipment of the Internet of things with the function overlapping degree, and transmitting a closing instruction to an electric equipment closing control module of the Internet of things, so that the electric equipment of the Internet of things with the function overlapping degree calculated is closed through control connection between the electric equipment closing control module of the Internet of things and the electric equipment of the Internet of things;
s6: the method comprises the steps that the opening of the Internet of things electrical equipment is needed to be added, an opening instruction can be transmitted to an electric power energy-saving calculation module through a hardware switching element or network instruction input, the opening instruction is transmitted to an Internet of things electrical equipment opening module through the electric power energy-saving calculation module, and the opening module is connected with the Internet of things electrical equipment in a control mode to open the appointed Internet of things electrical equipment;
s7: the power energy-saving calculation module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
s8: the power energy-saving calculation module transmits the calculated closing instruction and a group-closing instruction input by a hardware switch element or a network instruction to the power parameter visual display terminal, so that the power parameter visual display displays the closing instruction or the opening instruction.
The step of analyzing the power parameters by the power parameter analysis module in the step S3 comprises the following steps of
S301, a power parameter collection module collects power parameters and outputs the power parameters to a power parameter analysis module, wherein the power parameters comprise voltage, current, frequency, power factor and electric energy;
s303, pre-measuring current parameters of the electrical equipment of the Internet of things to form a preset area, dividing the preset area into a current stabilizing area and a current warning area, and performing current measurement on the electrical equipment of the Internet of things
S303, comparing the real-time current parameter collected in S302 with a preset area to perform
S304, current is regulated to real-time current parameters in yellow image to improve electric appliance
Preferably, the power parameter visualization display terminal displayed in the step S4, the step S7 and the step S8 is a power parameter table with an RS485 interface and adopting a MODBUS protocol for communication, and performs synchronization display on the power parameters of the internet of things electrical equipment transmitted by the power parameter collection module, the power consumption parameter quantization index transmitted by the power energy-saving calculation module, and the closing instruction or the opening instruction transmitted by the power energy-saving calculation module, and performs flattening display on the data.
Preferably, the calculation of the quantization index of the electricity consumption parameter by the electricity energy saving calculation module in step S5 includes the following steps:
s501: the power energy-saving calculation module receives power consumption parameters of all the electrical equipment of the Internet of things;
s502: the power energy-saving calculation module classifies the received power consumption parameters of the electric equipment of the Internet of things with the same function and utility;
s503: comparing the electric equipment of the Internet of things with high application coverage range overlapping ratio and high electricity and power parameter index average;
s504: decision judgment is carried out, and the Internet of things electrical equipment with small application coverage range in the Internet of things electrical equipment participating in comparison of the electric power parameters is closed;
s505: and finally, converting the closing decision into a closing instruction and outputting the closing instruction.
Preferably, in step S503, when the internet of things electrical equipment with high coverage area overlap ratio and high power consumption parameter index is compared, the power parameters of the internet of things electrical equipment participating in the comparison are transmitted to the power parameter visual display terminal, and the power parameters of the internet of things electrical equipment participating in the comparison are visually displayed in real time.
Preferably, in the decision judgment in step S505, the decision information of closing the internet of things electrical equipment with a small application coverage area is transmitted to the power parameter visual display terminal in real time, and the information of closing the internet of things electrical equipment is visually displayed in real time through the power parameter visual display terminal.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the visual power energy-saving system and method based on the Internet of things and the real-time power parameters, the power parameters of all the Internet of things electrical equipment are collected through the power parameter collection module and then output to the power parameter visual display terminal, so that the power parameter visual display terminal displays the power parameters, and the collected power parameters are transmitted to the power parameter visual display terminal through the power energy-saving calculation module, so that the power parameter visual display terminal displays the power parameters of the Internet of things electrical equipment, the effect of conveniently displaying the power parameters of the Internet of things electrical equipment is achieved, and the visual level of application of the Internet of things is improved.
2. According to the visual electric power energy-saving system and method based on the Internet of things and the real-time electric power parameters, the electric power energy-saving calculation module is used for calculating the quantization index of the electric power parameters, the Internet of things electric equipment with the function overlapping degree is calculated, and the closing instruction is transmitted to the closing control module of the Internet of things electric equipment, so that the Internet of things electric equipment with the function overlapping degree is closed through the control connection of the closing control module of the Internet of things electric equipment and the Internet of things electric equipment, the electric power waste caused by a plurality of Internet of things terminal electric equipment is avoided, and the effect of saving electric power is achieved.
3. According to the visual power energy-saving system and method based on the Internet of things and the real-time power parameters, the opening instruction is transmitted to the power energy-saving calculation module through the hardware switching element or the network instruction input, the opening instruction is transmitted to the Internet of things electric equipment opening module through the power energy-saving calculation module, the designated Internet of things electric equipment is opened through the control connection of the Internet of things electric equipment opening module and the Internet of things electric equipment, and even if the opening and closing adjustment of the Internet of things terminal electric equipment is carried out according to actual conditions, the effect of being convenient for managing a plurality of Internet of things terminal electric equipment is achieved.
4. According to the visual power energy-saving system and method based on the Internet of things and the real-time power parameters, the openness of the bottom data storage, the real-time performance of the model update, the real-time concurrent access capability and the maintainability of the system are ensured by establishing the power grid system and the management model thereof for the Internet of things electrical equipment, so that the module is very convenient to overhaul and maintain when faults occur, the system can redundant backup data, and the normal operation of the system and the loss of parameters are prevented from being influenced due to the faults of the module.
Drawings
FIG. 1 is a logical block diagram of a system according to the present invention;
FIG. 2 is a diagram of the steps of the system of the present invention;
FIG. 3 is a logic block diagram of a power conservation calculation module according to the present invention.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.
Examples: 1-3, the visual power energy-saving system based on the Internet of things and real-time power parameters comprises an Internet of things electrical equipment, a power parameter collection module, a power parameter analysis module, a power energy-saving calculation module, an Internet of things electrical equipment starting module, an Internet of things electrical equipment closing control module, network instruction input, a hardware switching element, an Internet of things electrical equipment power supply module and a power parameter visual display terminal;
the power parameter analysis module comprises the following steps:
s1001: the electric power parameter analysis module adopts a graph-model integrated technology, so that the whole module is subjected to intelligent analysis;
s1002: then, a CIM model and a GIS model are obtained in real time, and an object-oriented real-time database is established for management;
s1003: the method comprises the steps of storing a power grid model, topology and graphics of the electric equipment of the Internet of things by matching and using electricity;
s1004: and finally, establishing a power grid system and a management model thereof for the electric equipment of the Internet of things, and ensuring the openness of the bottom data storage, the real-time performance of model updating, the real-time concurrent access capability and the maintainability of the system.
According to the invention, the power supply module of the electrical equipment of the Internet of things is electrically connected with the electrical equipment of the Internet of things, and the electrical equipment of the Internet of things is electrically connected with the power parameter collection module.
In the invention, the electric power parameter collection module is electrically connected with the electric power parameter analysis module, and the electric power parameter analysis module is electrically connected with the electric power energy-saving calculation module.
According to the invention, the electric power energy-saving calculation module is respectively and electrically connected with the Internet of things electric equipment opening module and the Internet of things electric equipment closing control module, and the network instruction input and the hardware switching element are electrically connected with the electric power energy-saving calculation module.
According to the invention, the Internet of things electrical equipment opening module and the Internet of things electrical equipment closing control module are both electrically connected with the Internet of things electrical equipment, and the electric power parameter visual display terminal and the electric power energy-saving calculation module are both electrically connected with the electric power parameter visual display terminal.
The method for the visual power energy-saving system based on the Internet of things and the real-time power parameters comprises the following steps of:
s1: the power supply module of the electric equipment of the Internet of things is connected with an external power supply and supplies power to the electric equipment of the Internet of things;
s2: the method comprises the steps that electric power parameters of operation of the electric equipment of the Internet of things are collected through a connected electric power parameter collection module;
s3: the power parameter collection module collects the power parameters and outputs the power parameters to the power parameter analysis module so as to analyze the power parameters, analyze the power parameters of each piece of internet of things electrical equipment, quantize the power parameters and input the quantized power parameters to the power energy-saving calculation module;
s4: the power parameter collection module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
s5: calculating quantization indexes of electricity consumption parameters through an electric power energy-saving calculation module, calculating the electric equipment of the Internet of things with the function overlapping degree, and transmitting a closing instruction to an electric equipment closing control module of the Internet of things, so that the electric equipment of the Internet of things with the function overlapping degree calculated is closed through control connection between the electric equipment closing control module of the Internet of things and the electric equipment of the Internet of things;
according to the invention, the quantification index of the electricity consumption parameter is calculated through the electric power energy-saving calculation module, the electric equipment of the Internet of things with the function overlapping degree is calculated, and the closing instruction is transmitted to the closing control module of the electric equipment of the Internet of things, so that the electric equipment of the Internet of things with the function overlapping degree is closed through the control connection between the closing control module of the electric equipment of the Internet of things and the electric equipment of the Internet of things, the electric power waste caused by a plurality of terminal electric equipment of the Internet of things is avoided, and the effect of saving electric power is achieved.
S6: the method comprises the steps that the opening of the Internet of things electrical equipment is needed to be added, an opening instruction can be transmitted to an electric power energy-saving calculation module through a hardware switching element or network instruction input, the opening instruction is transmitted to an Internet of things electrical equipment opening module through the electric power energy-saving calculation module, and the opening module is connected with the Internet of things electrical equipment in a control mode to open the appointed Internet of things electrical equipment;
s7: the power energy-saving calculation module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
according to the invention, the electric power parameters of all the electric equipment of the Internet of things are collected through the electric power parameter collection module and then output to the electric power parameter visual display terminal, so that the electric power parameter visual display terminal displays the electric power parameters, and the collected electric power parameters are transmitted to the electric power parameter visual display terminal through the electric power energy-saving calculation module, so that the electric power parameter visual display terminal displays the electric power parameters of the electric equipment of the Internet of things, thereby achieving the effect of conveniently displaying the electric power parameters of the electric equipment of the Internet of things terminal and improving the visual level of application to the Internet of things.
S8: the power energy-saving calculation module transmits the calculated closing instruction and a group-closing instruction input by a hardware switch element or a network instruction to the power parameter visual display terminal, so that the power parameter visual display displays the closing instruction or the opening instruction.
The power parameter analysis module in the step S3 analyzes the power parameters, and comprises the following steps:
s301, a power parameter collection module collects power parameters and outputs the power parameters to a power parameter analysis module, wherein the power parameters comprise voltage, current, frequency, power factor and electric energy;
s302, selecting current parameters in the power parameters for collection;
s303, pre-measuring current parameters of the electrical equipment of the Internet of things to form a preset area, dividing the preset area into a current stabilizing area and a current warning area, and converting the current stabilizing area and the current warning area into a gray image and a yellow image;
s303, comparing the real-time current parameters collected in the S302 with a preset area, and performing pre-identification and analysis;
and S304, adjusting the current of the real-time current parameter in the yellow image to improve the service life of the electric appliance.
The electric appliance parameters change along with the change of the current along with the change of the power load along with the change of the peak low peak (excessive or insufficient use of the electric appliance of the Internet of things and the like), and the specific electric parameters such as voltage, current, frequency, power factor and electric energy are collected, so that the electric appliance of the Internet of things is pre-measured in advance to form a current stabilizing area and a current warning area, the electric appliance of the Internet of things works under the current stabilizing area, and the service life of the electric appliance of the Internet of things can be prolonged.
In the invention, the power parameter visualization display terminal displayed in the steps S4, S7 and S8 is a power parameter table with an RS485 interface and adopting a MODBUS protocol for communication, and synchronously displays the power parameters of the electric equipment of the Internet of things, the quantization index of the power consumption parameters transmitted by the power energy-saving calculation module and the closing instruction or the opening instruction transmitted by the power energy-saving calculation module, which are transmitted by the power parameter collection module, and flattened display of the data.
In the invention, the calculation of the quantization index of the electricity consumption parameter by the electricity energy saving calculation module in the step S5 comprises the following steps:
s501: the power energy-saving calculation module receives power consumption parameters of all the electrical equipment of the Internet of things;
s502: the power energy-saving calculation module classifies the received power consumption parameters of the electric equipment of the Internet of things with the same function and utility;
s503: comparing the electric equipment of the Internet of things with high application coverage range overlapping ratio and high electricity and power parameter index average;
s504: decision judgment is carried out, and the Internet of things electrical equipment with small application coverage range in the Internet of things electrical equipment participating in comparison of the electric power parameters is closed;
s505: and finally, converting the closing decision into a closing instruction and outputting the closing instruction.
In the invention, in step S503, the electric parameters of the electric devices of the internet of things participating in the comparison are transmitted to the electric parameter visual display terminal while the electric devices of the internet of things which have high coverage range overlap ratio and higher electric power parameter index are compared, and the electric parameters of the electric devices of the internet of things participating in the comparison are visually displayed in real time.
In the decision judgment of step S505, decision information of closing the electrical equipment of the internet of things with small application coverage area is transmitted to the power parameter visual display terminal in real time, and the information of closing the electrical equipment of the internet of things is visually displayed in real time through the power parameter visual display terminal.
According to the invention, the opening instruction is transmitted to the power energy-saving calculation module through the hardware switching element or the network instruction input, the opening instruction is transmitted to the opening module of the internet of things electrical equipment through the power energy-saving calculation module, and the appointed internet of things electrical equipment is opened through the control connection between the opening module of the internet of things electrical equipment and the internet of things electrical equipment, so that the opening and closing adjustment of the internet of things terminal electrical equipment is carried out according to actual conditions, and the effect of being convenient for managing a plurality of internet of things terminal electrical equipment is achieved.
In summary, the visual power energy-saving system and method based on the internet of things and real-time power parameters collect the power parameters of all the internet of things electrical equipment through the power parameter collection module, output the power parameters to the power parameter visual display terminal, make the power parameter visual display terminal display, and transmit the collected power parameters to the power parameter visual display terminal through the power energy-saving calculation module, make the power parameter visual display terminal display, thereby achieving the effect of being convenient for display the power parameters of the internet of things terminal electrical equipment, improving the visual level of the internet of things application, calculate the quantization index of the power parameters through the power energy-saving calculation module, calculate the internet of things electrical equipment with the function overlapping degree, and transmit the closing instruction to the internet of things electrical equipment closing control module through the internet of things electrical equipment, thereby closing the control module and the control connection of the internet of things electrical equipment through the internet of things electrical equipment, avoid the waste of things electrical equipment with the calculated function overlapping degree, achieve the effect of saving power, transmit the instruction to the internet of things electrical equipment through the hardware switching element or the network instruction input, and send the instruction to the internet of things electrical equipment through the power energy-saving calculation module, thereby achieving the effect of opening the internet of things electrical equipment through the internet of things electrical equipment, and opening the internet of things electrical equipment through the power energy-saving calculation module, thereby achieving the effect of the internet of things electrical equipment, according to the visual power energy-saving system and method based on the Internet of things and the real-time power parameters, the openness of the data storage of the bottom layer, the real-time property of the model update, the real-time concurrent access capability and the maintainability of the system are guaranteed through establishing the power grid system and the management model thereof, so that when the module fails, the module is very convenient to overhaul and maintain, the system can redundant backup data, the problem that the normal operation and the loss of parameters of the system are influenced due to the failure of the module is solved, the problem that the corresponding power parameter monitoring system is lacking, the on-off adjustment of a plurality of Internet of things terminal electric appliances is difficult to efficiently manage the plurality of Internet of things terminal electric appliances is difficult to cause power waste and the like is solved.
It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The visualized power energy-saving method based on the Internet of things and the real-time power parameters is characterized by comprising the following steps of:
s1: the power supply module of the electric equipment of the Internet of things is connected with an external power supply and supplies power to the electric equipment of the Internet of things;
s2: the method comprises the steps that electric power parameters of operation of the electric equipment of the Internet of things are collected through a connected electric power parameter collection module;
s3: the power parameter collection module collects the power parameters and outputs the power parameters to the power parameter analysis module so as to analyze the power parameters, analyze the power parameters of each piece of internet of things electrical equipment, quantize the power parameters and input the quantized power parameters to the power energy-saving calculation module;
s4: the power parameter collection module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
s5: calculating quantization indexes of electricity consumption parameters through an electric power energy-saving calculation module, calculating the electric equipment of the Internet of things with the function overlapping degree, and transmitting a closing instruction to an electric equipment closing control module of the Internet of things, so that the electric equipment of the Internet of things with the function overlapping degree calculated is closed through control connection between the electric equipment closing control module of the Internet of things and the electric equipment of the Internet of things;
s6: the method comprises the steps that the opening of the Internet of things electrical equipment is needed to be added, an opening instruction can be transmitted to an electric power energy-saving calculation module through a hardware switching element or network instruction input, the opening instruction is transmitted to an Internet of things electrical equipment opening module through the electric power energy-saving calculation module, and the opening module is connected with the Internet of things electrical equipment in a control mode to open the appointed Internet of things electrical equipment;
s7: the power energy-saving calculation module transmits the collected power parameters to the power parameter visual display terminal, so that the power parameter visual display terminal displays the collected power parameters;
s8: the power energy-saving calculation module transmits the calculated closing instruction and a group-closing instruction input by a hardware switch element or a network instruction to a power parameter visual display terminal, so that the power parameter visual display displays the closing instruction or the opening instruction;
the power parameter analysis module in the step S3 analyzes the power parameters, and comprises the following steps:
s301, a power parameter collection module collects power parameters and outputs the power parameters to a power parameter analysis module, wherein the power parameters comprise voltage, current, frequency, power factor and electric energy;
s302, selecting current parameters in the power parameters for collection;
s303, pre-measuring current parameters of the electrical equipment of the Internet of things to form a preset area, dividing the preset area into a current stabilizing area and a current warning area, and converting the current stabilizing area and the current warning area into a gray image and a yellow image;
s303, comparing the real-time current parameters collected in the S302 with a preset area, and performing pre-identification and analysis;
and S304, adjusting the current of the real-time current parameter in the yellow image to improve the service life of the electric appliance.
2. The visualized power saving method based on the internet of things and the real-time power parameters according to claim 1, wherein the visualized power parameter display terminal displayed in the step S4, the step S7 and the step S8 is a power parameter table with an RS485 interface and adopting a MODBUS protocol for communication, and performs synchronous display and flattening display on data on the power parameters of the internet of things electrical equipment transmitted by the power parameter collecting module, the power parameter quantization index transmitted by the power energy saving calculating module and the closing instruction or the opening instruction transmitted by the power energy saving calculating module.
3. The visualized power saving method based on the internet of things and the real-time power parameters according to claim 1, wherein the calculation of the quantization index of the power consumption parameter by the power saving calculation module in step S5 includes the following steps:
s501: the power energy-saving calculation module receives power consumption parameters of all the electrical equipment of the Internet of things;
s502: the power energy-saving calculation module classifies the received power consumption parameters of the electric equipment of the Internet of things with the same function and utility;
s503: comparing the electric equipment of the Internet of things with high application coverage range overlapping ratio and high electricity and power parameter index average;
s504: decision judgment is carried out, and the Internet of things electrical equipment with small application coverage range in the Internet of things electrical equipment participating in comparison of the electric power parameters is closed;
s505: and finally, converting the closing decision into a closing instruction and outputting the closing instruction.
4. The visual power saving method based on the internet of things and the real-time power parameters according to claim 2, wherein in step S503, the electric parameters of the internet of things electric equipment participating in the comparison are transmitted to the electric parameter visual display terminal while the electric equipment of the internet of things electric equipment participating in the comparison is compared with the electric equipment of the internet of things with high application coverage range overlap ratio and higher electric power parameter index average.
5. The visual power saving method based on the internet of things and the real-time power parameters according to claim 2, wherein in the decision judgment of step S505, decision information of closing the electric equipment of the internet of things with small application coverage area is transmitted to the visual display terminal of the power parameters in real time, and the information of closing the electric equipment of the internet of things is visually displayed in real time through the visual display terminal of the power parameters.
6. The energy-saving system in the visual power saving method based on the internet of things and the real-time power parameters according to any one of claims 1-2 is characterized by comprising an internet of things electric appliance, a power parameter collection module, a power parameter analysis module, a power energy-saving calculation module, an internet of things electric appliance opening module, an internet of things electric appliance closing control module, network instruction input, a hardware switching element, an internet of things electric appliance power supply module and a power parameter visual display terminal, wherein the internet of things electric appliance power supply module is electrically connected with the internet of things electric appliance, the internet of things electric appliance is electrically connected with the power parameter collection module, the power parameter collection module is electrically connected with the power parameter analysis module, the power energy-saving calculation module is electrically connected with the internet of things electric appliance opening module and the internet of things electric appliance closing control module respectively, and the network instruction input and the hardware switching element are electrically connected with the power energy-saving calculation module;
the power parameter analysis module comprises the following analysis steps:
s1001: the electric power parameter analysis module adopts a graph-model integrated technology, so that the whole module is subjected to intelligent analysis;
s1002: then, a CIM model and a GIS model are obtained in real time, and an object-oriented real-time database is established for management;
s1003: the method comprises the steps of storing a power grid model, topology and graphics of the electric equipment of the Internet of things by matching and using electricity;
s1004: and finally, establishing a power grid system and a management model thereof for the electric equipment of the Internet of things, and ensuring the openness of the bottom data storage, the real-time performance of model updating, the real-time concurrent access capability and the maintainability of the system.
7. The visual power saving system based on the internet of things and the real-time power parameters according to claim 6, wherein the internet of things electrical equipment opening module and the internet of things electrical equipment closing control module are electrically connected with the internet of things electrical equipment, and the power parameter visual display terminal and the power energy saving calculation module are electrically connected with the power parameter visual display terminal.
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CN101764431A (en) * | 2010-02-02 | 2010-06-30 | 苏州位置科技有限公司 | Visual power energy-saving system based on real-time electroical parameter |
CN110990656A (en) * | 2019-10-14 | 2020-04-10 | 广西电网有限责任公司贺州供电局 | System for visual analysis of big data of smart power grid |
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CN110990656A (en) * | 2019-10-14 | 2020-04-10 | 广西电网有限责任公司贺州供电局 | System for visual analysis of big data of smart power grid |
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