CN114142609A - Strong electricity network intelligent management system - Google Patents

Abstract

The invention discloses an intelligent management system of a strong electric network, which comprises a line distribution module, an equipment marking module, a monitoring alarm module and a processing Internet of things module; the circuit distribution module is used for the reference distribution of a target internal strong electric circuit, wherein the reference distribution divides the strong electric circuit into a temperature reference circuit, a food reference circuit, a bathroom reference circuit, a lighting reference circuit and a socket reference circuit; the equipment marking module is used for marking equipment for newly accessing the Internet of things equipment in the heavy current line after the reference distribution, and when the equipment marking is not matched with the reference distribution, the line distribution module performs the reference distribution on the heavy current line; the monitoring and alarming module is used for monitoring and early warning different strong current circuits, generating early warning information and sending the early warning information to the processing Internet of things module; the processing Internet of things module is used for acquiring the running conditions of different strong electric lines and sending the running conditions to the receiving terminal, and different monitoring indexes are distributed to the reference of the strong electric lines, so that the strong electric network can be managed more intelligently.

Description

Strong electricity network intelligent management system

Technical Field

The invention relates to a strong current management technology, in particular to a strong current network intelligent management system.

Background

The electric power network generally comprises equipment such as sockets and air switches, and after the construction of the electric power network is finished, the connection relation of each equipment and the states of the equipment and lines are difficult to understand, so that the management is difficult. Along with the improvement of living standard, people have higher and higher requirements on the intelligent degree of electric appliances, various internet of things devices come into play, the internet of things devices are products which are developed along with the concept of smart home under the concept of internet of things, and currently, the internet of things devices refer to built-in Wif i modules, function operation is carried out on the electric appliances through the client side of an intelligent terminal, and therefore intelligent management can be carried out on a strong electric network by combining the characteristics of the internet of things devices.

Disclosure of Invention

The present invention aims to provide an intelligent management system for a high-voltage power network, which solves the problems mentioned in the background art.

The purpose of the invention can be realized by the following technical scheme:

the intelligent management system of the strong electric network comprises a line distribution module, an equipment marking module, a monitoring alarm module and a processing Internet of things module;

the circuit distribution module is used for the reference distribution of a target internal strong electric circuit, wherein the reference distribution divides the strong electric circuit into a temperature reference circuit, a food reference circuit, a bathroom reference circuit, a lighting reference circuit and a socket reference circuit;

the equipment marking module is used for marking equipment for newly accessing the Internet of things equipment in the heavy current line after the reference distribution, and when the equipment marking is not matched with the reference distribution, the line distribution module performs the reference distribution on the heavy current line;

the monitoring and alarming module is used for monitoring and early warning different strong current circuits, generating early warning information and sending the early warning information to the processing Internet of things module;

and the processing Internet of things module is used for acquiring the operating conditions of different strong electric lines and sending the operating conditions to the receiving terminal.

Further, the reference distribution module for the target internal strong electric line comprises:

the method comprises the steps that NPC codes of target internet-of-things equipment are obtained through an intelligent gateway, attributes of the internet-of-things equipment are obtained through the NPC codes, and an internet-of-things equipment table is generated, wherein the attributes of the internet-of-things equipment comprise use sub-attributes and electric power sub-attributes;

all strong current circuits in the label are short-circuited, the strong current circuits connected with the intelligent gateway are connected, and an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction are generated through the intelligent gateway;

connecting any strong current line in the standard, connecting the Internet of things equipment connected on the corresponding strong current line with the mains supply, receiving an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction by the Internet of things equipment, and feeding back an NPC code to the intelligent gateway;

matching the NPC codes with the Internet of things equipment table to obtain the attributes of the Internet of things equipment connected on the corresponding strong current line;

counting the frequency of the application sub-attributes in the attributes, selecting the application sub-attributes with the frequency exceeding a threshold value as reference distribution characteristics, if the frequency does not exceed the threshold value, generating the reference distribution characteristics through a power sub-attribute compensation model, and performing reference distribution on the strong electric line through the reference distribution characteristics, wherein the application sub-attributes comprise temperature application, food application, bathroom application, lighting application and socket application.

Further, the performing reference distribution on the strong electric lines through the reference distribution feature specifically includes:

the high-voltage circuit corresponding to the temperature purpose is a temperature reference circuit, the high-voltage circuit corresponding to the food purpose is a food reference circuit, the high-voltage circuit corresponding to the bathroom purpose is a bathroom reference circuit, the high-voltage circuit corresponding to the lighting purpose is a lighting reference circuit, and the high-voltage circuit corresponding to the socket purpose is a socket reference circuit.

Further, the power sub-attributes include a rated voltage, a rated current and a rated power thereof.

Further, the generating of the reference distribution characteristics through the power sub-attribute compensation model includes:

the method comprises the steps of obtaining an electronic property of the internet of things equipment connected on a corresponding strong power line, and marking the internet of things equipment corresponding to the maximum rated voltage in the electronic property as first equipment, marking the internet of things equipment corresponding to the maximum rated current as second equipment and marking the internet of things equipment corresponding to the maximum rated power as third equipment;

and if the occurrence frequencies of the use sub-attributes corresponding to the first equipment, the second equipment and the third equipment are the same, generating an allocation error instruction and uploading the allocation error instruction to the Internet of things processing module.

Further, the equipment marking module is used for marking equipment for equipment newly accessed to the internet of things equipment in the strong electric circuit after the reference distribution, and specifically comprises the following steps:

the method comprises the steps that an NPC code accessed to the Internet of things equipment is obtained through an intelligent gateway and is matched with an Internet of things equipment table, when the NPC code identical to the NPC code accessed to the Internet of things equipment exists in the Internet of things equipment table, a use sub-attribute corresponding to the NPC code in the Internet of things equipment table is output, and the use sub-attribute is marked as equipment mark;

when the NPC code which is the same as the NPC code accessed into the Internet of things equipment does not exist in the Internet of things equipment table, the attribute corresponding to the NPC code accessed into the Internet of things equipment is inquired through the Internet, the in-attribute use sub-attribute is marked as an equipment mark, and the attribute corresponding to the NPC code accessed into the Internet of things equipment is added into the Internet of things equipment table.

Further, the monitoring and alarming module is used for monitoring and early warning different strong current circuits, generating early warning information and sending the early warning information to the processing internet of things module, and specifically comprises:

acquiring the maximum rated voltage, the maximum rated current and the maximum rated power of the equipment of the Internet of things corresponding to the reference distribution characteristics in the strong electric line;

and marking the maximum rated voltage, the maximum rated current and the maximum rated power as monitoring indexes, acquiring the voltage, the current and the power of the strong electric line in real time, and generating early warning information when any voltage, current and power exceed the monitoring indexes.

Further, the operation condition of the strong electric line includes one or more of the operation condition of the internet of things device, and the voltage, current and power of the strong electric line.

Compared with the prior art, the invention has the beneficial effects that:

through the intelligent division to different forceful electric power circuits in the house, the follow-up management to the forceful electric power circuit of being convenient for, after inserting new electrical apparatus to the forceful electric power circuit and evaluating, can realize real-time dynamic distribution to the forceful electric power circuit, to the benchmark distribution of forceful electric power circuit different monitoring index promptly, can be more intelligent manage the forceful electric power network, different forceful electric power networks can be joined up out to the forceful electric power circuit of different grade type simultaneously, the management of being more convenient for.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block diagram of the process of the present invention.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1, the intelligent management system for a heavy-current power network includes a line distribution module, an equipment marking module, a monitoring alarm module, and a processing internet of things module;

the line distribution module is used for the reference distribution of a target internal strong current line, wherein the reference distribution divides the strong current line into a temperature reference line, a food reference line, a bathroom reference line, a lighting reference line and a socket reference line, the subsequent management of the strong current line is facilitated by the intelligent division of different strong current lines in a house, the equipment marking module is used for marking equipment which is newly connected into Internet of things equipment in the strong current line after the reference distribution, when the equipment marking is not matched with the reference distribution, the line distribution module performs the reference distribution on the new strong current line, the dynamic distribution of the strong current line can be realized after the strong current line is connected into new electric appliances for evaluation, the monitoring and alarming module is used for monitoring and early warning different strong current lines, generating early warning information and sending the early warning information to the processing thing connection module, and different monitoring indexes are set for different strong current lines, the dynamic monitoring is realized, and the processing Internet of things module is used for acquiring the operating conditions of different strong current lines and sending the operating conditions to the receiving terminal;

the following describes the above-mentioned solution in detail with reference to a specific embodiment, in this embodiment, the objective is a house, a strong current circuit is separately installed in the house, wherein an intelligent gateway is installed on the separate strong current circuit, in another embodiment, an intelligent gateway can be installed in any strong current circuit, the intelligent gateway can select mature products of any manufacturer on the market, for example, a millet intelligent gateway or a hua intelligent gateway, and the intelligent gateway has two functions of an intelligent home control hub and a wireless router, one side of the intelligent gateway is responsible for specific security alarm, home appliance control, and electricity consumption information collection, and performs data interaction with products such as an intelligent interactive terminal in a wireless manner, and the intelligent gateway also has a wireless router function.

The method comprises the steps that an intelligent gateway is accessed into the internet of a house, data interaction is established with all internet of things equipment in the house through a wireless routing function, NPC codes of the internet of things equipment in the house are obtained, the NPC codes are national standard codes of the equipment, the NPC codes of the collected internet of things equipment have feasibility and universality, the attributes of the NPC codes corresponding to the internet of things equipment are inquired through the data interaction of the intelligent gateway and the internet, an internet of things equipment table is generated, the attributes of the internet of things equipment and the attributes of the internet of things equipment are contained in the internet of things equipment table, the attributes of the internet of things equipment comprise application sub-attributes and power sub-attributes, more specifically, the application sub-attributes comprise temperature application, food application, bathroom application, lighting application and socket application, and the power sub-attributes comprise rated voltage, rated current and rated power;

the deep learning is carried out on the Internet information of the Internet of things equipment corresponding to the NPC codes by training a deep learning artificial neural network in advance to obtain the attribute of the Internet of things equipment corresponding to each NPC code, for example, the Internet of things refrigerator is mainly used for food preservation and other purposes, therefore, the refrigerator of the internet of things has the use sub-attribute of food use and the air conditioner of the internet of things, which are mainly used for temperature regulation of houses, therefore, the use sub-attribute of the air conditioner of the internet of things is temperature use, the water heater of the internet of things is mainly used for heating water flow during bathing, therefore, the purpose of the Internet of things water heater is bathroom, the Internet of things illuminating lamp is mainly used for illuminating houses, therefore, the purpose sub-attribute of the lighting lamp of the Internet of things is lighting purpose, the socket of the Internet of things mainly supplies power for the electric appliances other than the electric appliances, for example, daily articles such as computers and mobile phones are powered, so the use sub-attribute of the socket of the internet of things is the socket use;

when the intelligent gateway acquires the attributes of the Internet of things equipment of all Internet of things equipment in the house, all strong electric lines of the house are short-circuited, the strong electric lines connected with the intelligent gateway are switched on, an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction are generated by the intelligent gateway and are preset in the intelligent gateway, wherein the Internet of things equipment starting instruction is used for activating the Internet of things equipment, the Internet of things equipment acquisition instruction is used for acquiring NPC codes of the Internet of things equipment, any one strong electric line in a label is switched on, the Internet of things equipment connected on the corresponding strong electric line is switched on with commercial power, the Internet of things equipment receives the Internet of things equipment starting instruction and the Internet of things equipment acquisition instruction and feeds back the NPC codes to the intelligent gateway, for example, 2 illuminating lamps and 5 Internet of things sockets are connected on the switched-on strong electric lines, correspondingly, when the strong-current circuit is switched on, 2 Internet of things illuminating lamps and 5 Internet of things sockets are started and feed back corresponding NPC codes to the intelligent gateway based on an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction of the intelligent gateway;

matching the NPC codes with the Internet of things equipment table to obtain the attributes of the Internet of things equipment connected on the corresponding strong current line;

counting the frequency of the in-attribute use sub-attribute, for example, in this embodiment, when the strong electric line is switched on, 2 lighting lamps of the internet of things and 5 sockets of the internet of things are provided, so the frequency of the in-attribute use sub-attribute is the lighting use: the socket is used for 2: 5, selecting the use sub-attribute with the frequency exceeding the threshold as a reference distribution feature, for example, when the threshold is 4, the socket use is the use sub-attribute exceeding the threshold, namely the socket use is the reference distribution feature;

if the frequency does not exceed the threshold, for example, when the threshold is 6, the lighting purpose and the socket purpose both exceed the threshold, a reference distribution feature is generated through a power electronic attribute compensation model, reference distribution is performed on the strong electric line through the reference distribution feature, specifically, the power electronic attribute of the internet of things equipment connected on the corresponding strong electric line is obtained, for example, the power electronic attributes of 2 internet of things lighting lamps and 5 internet of things sockets are obtained, the 2 internet of things lighting lamps assume rated voltages of 12V and 24V respectively, the rated currents of 0.5A, the rated powers of 6W and 12W, the rated voltages of 5 internet of things sockets are 12V, 24V, 220V and 220V respectively, the rated currents of 16A, 21A, 3A, 9A and 20A, and the rated powers of 192W, 504W, 72W, 1980W and 4600W respectively;

the method comprises the steps that the internet of things equipment corresponding to the maximum rated voltage in the power sub-attribute is marked as first equipment, the internet of things sockets of 220V in the example are marked as first equipment, the internet of things equipment corresponding to the maximum rated current is marked as second equipment, the internet of things socket of 21A in the example is marked as second equipment and the internet of things equipment corresponding to the maximum rated power is marked as third equipment, and the internet of things socket of 4600W in the example is marked as third equipment;

acquiring the use sub-attributes corresponding to the first device, the second device and the third device, and selecting the use sub-attribute with the highest occurrence frequency as a reference distribution feature, for example, the use sub-attribute with the highest occurrence frequency is an internet of things socket, that is, the internet of things socket is the reference distribution feature;

if the corresponding application sub-attribute occurrence frequencies of the first equipment, the second equipment and the third equipment are the same, generating an allocation error instruction and uploading the allocation error instruction to an Internet of things processing module, wherein at the moment, manual reference allocation needs to be carried out on the strong electric circuit;

in summary, the strong electric line corresponding to the temperature application is a temperature reference line, the strong electric line corresponding to the food application is a food reference line, the strong electric line corresponding to the bathroom application is a bathroom reference line, the strong electric line corresponding to the lighting application is a lighting reference line, the strong electric line corresponding to the socket application is a socket reference line, and by classifying different strong electric lines in the house according to the application, different monitoring modes can be formulated according to the application of the strong electric lines on one hand, and on the other hand, the strong electric can be intelligently managed more accurately;

when a strong current circuit after reference allocation is accessed to a new internet of things device, an intelligent gateway is controlled by a device marking module to obtain an NPC code accessed to the internet of things device and match the NPC code with an internet of things device table, when the NPC code identical to the NPC code accessed to the internet of things device exists in the internet of things device table, a use sub-attribute corresponding to the NPC code in the internet of things device table is output, and the use sub-attribute is marked as a device mark, for example, the NPC code accessed to the internet of things device is an internet of things water heater, and the NPC code also exists in the internet of things device table, so that the bathroom use is a device mark;

when the NPC code which is the same as the NPC code accessed into the Internet of things equipment does not exist in the Internet of things equipment table, the attribute corresponding to the NPC code accessed into the Internet of things equipment is inquired through the Internet, the in-attribute use sub-attribute is marked as an equipment mark, and the attribute corresponding to the NPC code accessed into the Internet of things equipment is added into the Internet of things equipment table, so that the subsequent use is facilitated, meanwhile, the networking search is carried out by comparing with the pre-stored Internet of things equipment table, and the occupation of the network in a house can be reduced to the greatest extent;

when the equipment mark is not matched with the reference distribution, the line distribution module performs reference distribution on the strong electric line, for example, if an internet of things equipment marked as a bathroom purpose is accessed into the socket reference line, the strong electric line needs to be subjected to reference distribution, and if an internet of things equipment marked as a socket purpose is accessed into the socket reference line, the strong electric line does not need to be subjected to reference distribution;

after the strong electric lines are subjected to reference distribution, the monitoring and alarming module is used for monitoring and early warning different strong electric lines, generating early warning information and sending the early warning information to the Internet of things processing module, and specifically, acquiring maximum rated voltage, maximum rated current and maximum rated power of the Internet of things equipment corresponding to the reference distribution characteristics in the strong electric lines, for example, in a socket reference line, 2 Internet of things illuminating lamps assume that the rated voltage is 12V and 24V respectively, the rated current is 0.5A, the rated power is 6W and 12W, the rated voltage of 5 Internet of things sockets is 12V, 24V, 220V and 220V respectively, the rated current is 16A, 21A, 3A, 9A and 20A, the rated power is 192W, 504W, 72W, 1980W and 4600W, the corresponding reference distribution characteristics in the strong electric lines are used for sockets, so that the corresponding Internet of 5 Internet of things sockets are used, the maximum rated voltage, the maximum rated current and the maximum rated power are 220V, 20A and 4600W, the maximum rated voltage, the maximum rated current and the maximum rated power are marked as monitoring indexes, the voltage, the current and the power of the socket reference line are obtained in real time, and when any voltage, current and power exceed the monitoring indexes, early warning information is generated.

The operation condition of forceful electric power circuit includes in the operation condition of thing networking device, the voltage of forceful electric power circuit, electric current and the power one or more, through the monitoring index that is different promptly to the benchmark distribution of forceful electric power circuit, can be more intelligent manage the forceful electric power network, and the different forceful electric power networks can be taken out to the forceful electric power circuit of different grade types simultaneously, the management of being convenient for more.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The intelligent management system of the strong electric network is characterized by comprising a line distribution module, an equipment marking module, a monitoring alarm module and a processing Internet of things module;

the circuit distribution module is used for the reference distribution of a target internal strong electric circuit, wherein the reference distribution divides the strong electric circuit into a temperature reference circuit, a food reference circuit, a bathroom reference circuit, a lighting reference circuit and a socket reference circuit;

the equipment marking module is used for marking equipment for newly accessing the Internet of things equipment in the heavy current line after the reference distribution, and when the equipment marking is not matched with the reference distribution, the line distribution module performs the reference distribution on the heavy current line;

the monitoring and alarming module is used for monitoring and early warning different strong current circuits, generating early warning information and sending the early warning information to the processing Internet of things module;

and the processing Internet of things module is used for acquiring the operating conditions of different strong electric lines and sending the operating conditions to the receiving terminal.

2. The intelligent management system for a strong electric network according to claim 1, wherein the line distribution module is configured to distribute the reference of the internal strong electric line of the target, and comprises:

the method comprises the steps that NPC codes of target internet-of-things equipment are obtained through an intelligent gateway, attributes of the internet-of-things equipment are obtained through the NPC codes, and an internet-of-things equipment table is generated, wherein the attributes of the internet-of-things equipment comprise use sub-attributes and electric power sub-attributes;

all strong current circuits in the label are short-circuited, the strong current circuits connected with the intelligent gateway are connected, and an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction are generated through the intelligent gateway;

connecting any strong current line in the standard, connecting the Internet of things equipment connected on the corresponding strong current line with the mains supply, receiving an Internet of things equipment starting instruction and an Internet of things equipment acquisition instruction by the Internet of things equipment, and feeding back an NPC code to the intelligent gateway;

matching the NPC codes with the Internet of things equipment table to obtain the attributes of the Internet of things equipment connected on the corresponding strong current line;

counting the frequency of the application sub-attributes in the attributes, selecting the application sub-attributes with the frequency exceeding a threshold value as reference distribution characteristics, if the frequency does not exceed the threshold value, generating the reference distribution characteristics through a power sub-attribute compensation model, and performing reference distribution on the strong electric line through the reference distribution characteristics, wherein the application sub-attributes comprise temperature application, food application, bathroom application, lighting application and socket application.

3. The intelligent management system for a strong electric network according to claim 2, wherein the reference allocation of the strong electric lines by the reference allocation feature is specifically:

the high-voltage circuit corresponding to the temperature purpose is a temperature reference circuit, the high-voltage circuit corresponding to the food purpose is a food reference circuit, the high-voltage circuit corresponding to the bathroom purpose is a bathroom reference circuit, the high-voltage circuit corresponding to the lighting purpose is a lighting reference circuit, and the high-voltage circuit corresponding to the socket purpose is a socket reference circuit.

4. A strong electric network intelligent management system according to claim 3, wherein the power sub-properties comprise rated voltage, rated current and rated power thereof.

5. A strong electric network intelligent management system according to claim 3, wherein said generating of reference distribution characteristics by a power electronic property compensation model comprises:

the method comprises the steps of obtaining an electronic property of the internet of things equipment connected on a corresponding strong power line, and marking the internet of things equipment corresponding to the maximum rated voltage in the electronic property as first equipment, marking the internet of things equipment corresponding to the maximum rated current as second equipment and marking the internet of things equipment corresponding to the maximum rated power as third equipment;

and if the occurrence frequencies of the use sub-attributes corresponding to the first equipment, the second equipment and the third equipment are the same, generating an allocation error instruction and uploading the allocation error instruction to the Internet of things processing module.

6. The intelligent management system for the strong electric network according to claim 5, wherein the equipment marking module is configured to mark equipment newly connected to the internet of things equipment in the strong electric line after the reference allocation, and specifically:

the method comprises the steps that an NPC code accessed to the Internet of things equipment is obtained through an intelligent gateway and is matched with an Internet of things equipment table, when the NPC code identical to the NPC code accessed to the Internet of things equipment exists in the Internet of things equipment table, a use sub-attribute corresponding to the NPC code in the Internet of things equipment table is output, and the use sub-attribute is marked as equipment mark;

when the NPC code which is the same as the NPC code accessed into the Internet of things equipment does not exist in the Internet of things equipment table, the attribute corresponding to the NPC code accessed into the Internet of things equipment is inquired through the Internet, the in-attribute use sub-attribute is marked as an equipment mark, and the attribute corresponding to the NPC code accessed into the Internet of things equipment is added into the Internet of things equipment table.

7. The intelligent management system for the strong electric network according to claim 6, wherein the monitoring and warning module is configured to perform monitoring and warning on different strong electric lines, generate warning information, and send the warning information to the IOT processing module, and specifically:

acquiring the maximum rated voltage, the maximum rated current and the maximum rated power of the equipment of the Internet of things corresponding to the reference distribution characteristics in the strong electric line;

and marking the maximum rated voltage, the maximum rated current and the maximum rated power as monitoring indexes, acquiring the voltage, the current and the power of the strong electric line in real time, and generating early warning information when any voltage, current and power exceed the monitoring indexes.

8. The intelligent management system for a strong electric network of claim 7, wherein the operation condition of the strong electric line comprises one or more of operation condition of an internet of things device, voltage, current and power of the strong electric line.

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