CN115313665A - Intelligent power distribution gateway system of power distribution station room and power distribution gateway control method - Google Patents
Intelligent power distribution gateway system of power distribution station room and power distribution gateway control method Download PDFInfo
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- CN115313665A CN115313665A CN202211238648.3A CN202211238648A CN115313665A CN 115313665 A CN115313665 A CN 115313665A CN 202211238648 A CN202211238648 A CN 202211238648A CN 115313665 A CN115313665 A CN 115313665A
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J13/00—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
- H02J13/00001—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network characterised by the display of information or by user interaction, e.g. supervisory control and data acquisition systems [SCADA] or graphical user interfaces [GUI]
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J13/00—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
- H02J13/00002—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network characterised by monitoring
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
- H04L41/0813—Configuration setting characterised by the conditions triggering a change of settings
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/04—Processing captured monitoring data, e.g. for logfile generation
- H04L43/045—Processing captured monitoring data, e.g. for logfile generation for graphical visualisation of monitoring data
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
- Y04S10/00—Systems supporting electrical power generation, transmission or distribution
- Y04S10/16—Electric power substations
Abstract
The invention provides an intelligent power distribution gateway system of a power distribution station room and a power distribution gateway control method. The control method of the intelligent power distribution gateway of the power distribution station room comprises the following steps: acquiring the number of power distribution station rooms corresponding to a power distribution control center; determining the set number of intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms; monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time; and monitoring the quantity change condition of the power distribution station rooms in real time, and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms. The method can effectively improve the gateway operation capacity under the condition of power distribution station room proliferation, and effectively prevent the problem that the operation efficiency is reduced due to the saturation of the power distribution gateways under the condition of power distribution station room proliferation.
Description
Technical Field
The invention provides an intelligent power distribution gateway system of a power distribution station room and a power distribution gateway control method, and belongs to the technical field of power distribution.
Background
In the prior art, a power distribution system often needs to be provided with a gateway for protocol conversion and data transmission, however, when the number of power distribution station rooms is increased suddenly in the number power distribution system of the existing power distribution station rooms, the problem that the saturation of the power distribution gateway is easy to occur and the operation efficiency is reduced is caused.
Disclosure of Invention
The invention provides an intelligent power distribution gateway system of a power distribution station room and a power distribution gateway control method, which are used for solving the problem that the operating efficiency is reduced due to the saturation of a power distribution gateway under the condition that the number of the power distribution station rooms is increased in a number power distribution system of the conventional power distribution station room, and the adopted technical scheme is as follows:
a control method for an intelligent power distribution gateway of a power distribution station room comprises the following steps:
acquiring the number of power distribution station rooms corresponding to a power distribution control center;
determining the set number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and monitoring the quantity change condition of the power distribution station rooms in real time, and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms.
Further, acquiring the number of the power distribution station rooms corresponding to the power distribution control center includes:
acquiring power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and acquiring the number of the power distribution station rooms through the power distribution station room information.
Further, according to the quantity of distribution station room confirms intelligent distribution gateway setting quantity, intelligent distribution gateway start quantity and the distribution station room quantity that every intelligent distribution gateway corresponds, include:
extracting the number of the power distribution station rooms;
acquiring the set quantity of the intelligent power distribution gateways by using an intelligent power distribution gateway set quantity model and combining the quantity of the power distribution station rooms;
acquiring the starting number of the intelligent power distribution gateways by combining the starting number model of the intelligent power distribution gateways with the number of the power distribution station rooms;
acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing a power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model are as follows:
wherein, the first and the second end of the pipe are connected with each other,Nthe setting number of the intelligent power distribution gateways is expressed and is rounded upwards;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (A) is 5-20;Mindicating the number of distribution station rooms;M 0 represents a preset reference value of the number of the power distribution station rooms,M 0 the value range of (1) is 30-50;N q representing the starting number of the intelligent power distribution gateways and rounding upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f showing the range of the number of the increase,N f the value range of (A) is 5-10.
Further, the gateway operation information of data transmission between the power distribution control center and each power distribution station room is monitored in real time and displayed, and the method comprises the following steps:
monitoring and acquiring gateway operation information of data transmission between a power distribution control center and each power distribution station room in real time;
and visually displaying the gateway operation information on a display of the power distribution control center.
Further, the real-time monitoring of the number change of the power distribution station rooms, and the adjustment of the number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number change of the power distribution station rooms include:
monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change value of the monitored power distribution station rooms;
when the number change value of the monitoring power distribution station rooms does not exceed a preset number threshold value, singly increasing or reducing the increased or reduced number of the monitoring power distribution station rooms in the number of the power distribution station rooms corresponding to each started intelligent power distribution network; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways;
when the quantity change numerical value of the power distribution station rooms exceeds a preset quantity threshold value, the intelligent power distribution gateway starting quantity model and the power distribution station room quantity setting model are utilized according to the quantity change condition of the power distribution station rooms to adjust the intelligent power distribution gateway starting quantity and the power distribution station room quantity corresponding to each intelligent power distribution gateway.
The utility model provides a power distribution station room intelligence power distribution gateway control system, power distribution station room intelligence power distribution gateway control system includes:
the quantity acquisition module is used for acquiring the quantity of the power distribution station rooms corresponding to the power distribution control center;
the parameter determining module is used for determining the setting number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
the display module is used for monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the adjusting module is used for monitoring the quantity change condition of the power distribution station rooms in real time and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway in the four-city according to the quantity change condition of the power distribution station rooms.
Further, the number obtaining module comprises:
the real-time acquisition module is used for acquiring power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and the quantity determining module is used for acquiring the quantity of the power distribution station rooms through the power distribution station room information.
Further, the parameter determination module comprises:
the quantity extraction module is used for extracting the quantity of the power distribution station rooms;
the first setting module is used for acquiring the set quantity of the intelligent power distribution gateways by utilizing the intelligent power distribution gateway set quantity model and combining the quantity of the power distribution station rooms;
the second setting module is used for acquiring the starting number of the intelligent power distribution gateways by utilizing the starting number model of the intelligent power distribution gateways and combining the number of the power distribution station rooms;
the configuration acquisition module is used for acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing the power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model are as follows:
wherein the content of the first and second substances,Nthe setting number of the intelligent power distribution gateways is expressed and is rounded upwards;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (A) is 5-20;Mindicating the number of distribution station rooms;M 0 represents a preset reference value of the number of the power distribution station rooms,M 0 the value range of (1) is 30-50;N q representing the starting number of the intelligent power distribution gateways and rounding upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f showing the range of the number of the increase,N f the value range of (A) is 5-10.
Further, the display module comprises:
the operation information detection module is used for monitoring and acquiring gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the visual display module is used for visually displaying the gateway operation information on a display of the power distribution control center.
Further, the adjustment module includes:
the numerical value change monitoring module is used for monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change numerical value of the monitored power distribution station rooms;
the first adjusting module is used for singly increasing or decreasing the increased or decreased number of the monitoring distribution station rooms in the number of the distribution station rooms corresponding to each started intelligent distribution network when the number change value of the monitoring distribution station rooms does not exceed a preset number threshold value; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways;
and the second adjusting module is used for adjusting the starting quantity of the intelligent power distribution gateway and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms by utilizing the quantity setting model of the intelligent power distribution gateway, the quantity starting model of the intelligent power distribution gateway and the quantity setting model of the power distribution station rooms when the quantity change value of the power distribution station rooms exceeds a preset quantity threshold value.
The invention has the beneficial effects that:
according to the intelligent power distribution gateway system of the power distribution station house and the control method of the power distribution gateway, the reasonability of the gateway quantity setting and the corresponding power distribution station house quantity setting is effectively improved through the setting quantity and the starting quantity of the intelligent gateways and the quantity setting of the power distribution station house corresponding to each gateway, network resource waste caused by too little gateway quantity setting and corresponding power distribution station quantity configuration is prevented, and the problems that data transmission saturation is caused by too much gateway quantity setting and corresponding power distribution station quantity configuration, and the data transmission efficiency is reduced are solved. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
Drawings
FIG. 1 is a flow chart of the method of the present invention;
fig. 2 is a system block diagram of the system of the present invention.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
The embodiment of the invention provides a control method of an intelligent power distribution gateway of a power distribution station room, which comprises the following steps of:
s1, acquiring the number of power distribution station rooms corresponding to a power distribution control center;
s2, determining the set number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
s3, monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and S4, monitoring the quantity change condition of the power distribution station rooms in real time, and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms.
Wherein, acquire the quantity of the distribution station room that distribution control center corresponds, include:
s101, collecting power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and S102, acquiring the number of the power distribution station rooms through the power distribution station room information.
Wherein, the gateway operation information of data transmission between real-time supervision distribution control center and every distribution station room carries out the show, includes:
s301, monitoring and acquiring gateway operation information of data transmission between a power distribution control center and each power distribution station room in real time;
and S302, visually displaying the gateway operation information on a display of the power distribution control center.
The working principle of the technical scheme is as follows: firstly, acquiring the number of power distribution station rooms corresponding to a power distribution control center; then, determining the set number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms; then, monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time; and finally, monitoring the quantity change condition of the power distribution station rooms in real time, and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms.
The effect of the above technical scheme is as follows: according to the intelligent power distribution gateway control method for the power distribution station rooms, the reasonability of the gateway quantity setting and the corresponding power distribution station room quantity setting is effectively improved through the set quantity and the starting quantity of the intelligent gateways and the quantity setting of the power distribution station rooms corresponding to each gateway, network resource waste caused by too little gateway quantity setting and corresponding power distribution station quantity configuration is prevented, and the problem that data transmission saturation is caused and further data transmission efficiency is reduced due to too much gateway quantity setting and corresponding power distribution station quantity configuration is solved. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
In an embodiment of the present invention, determining the set number of intelligent distribution gateways, the start number of intelligent distribution gateways, and the number of distribution station rooms corresponding to each intelligent distribution gateway according to the number of distribution station rooms includes:
s201, extracting the number of the power distribution station rooms;
s202, acquiring the set number of the intelligent power distribution gateways by utilizing an intelligent power distribution gateway set number model and combining the number of the power distribution station rooms;
s203, acquiring the starting number of the intelligent power distribution gateways by using the starting number model of the intelligent power distribution gateways and combining the number of the power distribution station rooms;
s204, acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing a power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model are as follows:
wherein the content of the first and second substances,Nindicating intelligent distribution gateway settingsAnd is rounded up;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (A) is 5-20;Mindicating the number of distribution station rooms;M 0 represents a preset reference value of the number of the power distribution station rooms,M 0 the value range of (1) is 30-50;N q the starting number of the intelligent power distribution gateways is represented and is rounded upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f showing the range of the number of the increase,N f the value range of (A) is 5-10.
The working principle of the technical scheme is as follows: firstly, extracting the number of the power distribution station rooms; then, acquiring the set number of the intelligent power distribution gateways by using an intelligent power distribution gateway set number model and combining the number of the power distribution station rooms; then, acquiring the starting number of the intelligent power distribution gateways by using an intelligent power distribution gateway starting number model and combining the number of the power distribution station rooms; and finally, acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing a power distribution station room number setting model and combining the number of the power distribution station rooms.
The effect of the above technical scheme is as follows: the reasonability of the gateway quantity setting and the distribution station quantity setting corresponding to the gateway quantity setting is effectively improved through the set quantity of the intelligent gateways, the starting quantity and the quantity setting of the distribution station rooms corresponding to each gateway, network resource waste caused by too little gateway quantity setting and distribution station quantity configuration corresponding to the gateway quantity setting is prevented, and the problem that data transmission saturation is caused and then data transmission efficiency is reduced is caused due to too much gateway quantity setting and distribution station quantity configuration corresponding to the gateway quantity setting. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
One embodiment of the present invention monitors the number change of the distribution station rooms in real time, and adjusts the number of the intelligent distribution gateways started and the number of the distribution station rooms corresponding to each intelligent distribution gateway according to the number change of the distribution station rooms, including:
s401, monitoring the quantity change condition of the power distribution station rooms in real time to obtain a quantity change numerical value of the monitored power distribution station rooms;
s402, when the number change value of the monitored power distribution station rooms does not exceed a preset number threshold value, singly increasing or reducing the increased or reduced number of the monitored power distribution station rooms in the number of power distribution station rooms corresponding to each started intelligent power distribution network; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways;
and S403, when the quantity change value of the power distribution station rooms exceeds a preset quantity threshold value, adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms by utilizing the intelligent power distribution gateway setting quantity model, the intelligent power distribution gateway starting quantity model and the power distribution station room quantity setting model.
The working principle of the technical scheme is as follows: firstly, monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change value of the monitored power distribution station rooms; then, when the number change value of the monitored power distribution station rooms does not exceed a preset number threshold value, singly increasing or reducing the increased or reduced number of the monitored power distribution station rooms in the number of power distribution station rooms corresponding to each started intelligent power distribution network; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways; and finally, when the quantity change value of the power distribution station rooms exceeds a preset quantity threshold value, adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms by utilizing the intelligent power distribution gateway setting quantity model, the intelligent power distribution gateway starting quantity model and the power distribution station room quantity setting model. And increasing the starting number by taking the increased starting number of the intelligent power distribution gateways as 2-3 gateways as gradient according to different changes of the number change values of the power distribution station rooms.
The effect of the above technical scheme is as follows: by the method, the number change of the power distribution station rooms, the starting number of the intelligent power distribution gateways and the timeliness and the adjusting efficiency of the number adjustment of the power distribution station rooms corresponding to each intelligent power distribution gateway can be effectively improved. The problem that the network resource waste is caused by too few gateway quantity settings and corresponding power distribution station quantity configurations, and the problem that data transmission saturation is caused and then data transmission efficiency is reduced is caused by too many gateway quantity settings and corresponding power distribution station quantity configurations. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
The embodiment of the invention provides an intelligent power distribution gateway control system for a power distribution station room, as shown in fig. 2, the intelligent power distribution gateway control system for the power distribution station room comprises:
the quantity acquisition module is used for acquiring the quantity of the power distribution station rooms corresponding to the power distribution control center;
the parameter determining module is used for determining the setting number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
the display module is used for monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the adjusting module is used for monitoring the quantity change condition of the power distribution station rooms in real time and adjusting the quantity of the power distribution station rooms corresponding to the intelligent power distribution gateways according to the quantity change condition of the power distribution station rooms, wherein the quantity of the started intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to the intelligent power distribution gateways are adjusted.
Wherein, the quantity acquisition module comprises:
the real-time acquisition module is used for acquiring power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and the quantity determining module is used for acquiring the quantity of the power distribution station rooms through the power distribution station room information.
Wherein the display module comprises:
the operation information detection module is used for monitoring and acquiring gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the visual display module is used for visually displaying the gateway operation information on a display of the power distribution control center.
The working principle and the effect of the technical scheme are as follows: the intelligent power distribution gateway control system for the power distribution station room provided by the embodiment effectively improves the reasonability of gateway quantity setting and corresponding power distribution station room quantity setting by the set quantity of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station room corresponding to each gateway, prevents the network resource waste caused by too little gateway quantity setting and corresponding power distribution station quantity configuration, and solves the problem that the data transmission efficiency is reduced because the gateway quantity setting and the corresponding power distribution station quantity configuration lead to data transmission saturation too much. Meanwhile, the gateway running capacity under the condition of power distribution station room surge can be effectively improved through the quantity setting, the starting quantity setting and the quantity setting of the power distribution station rooms corresponding to each gateway of the intelligent gateways, and the problem that the running efficiency is reduced due to the fact that the power distribution gateways are saturated under the condition that the quantity of the power distribution station rooms is surge is effectively prevented.
In one embodiment of the present invention, the parameter determining module includes:
the quantity extraction module is used for extracting the quantity of the power distribution station rooms;
the first setting module is used for acquiring the set number of the intelligent power distribution gateways by utilizing an intelligent power distribution gateway set number model and combining the number of the power distribution station rooms;
the second setting module is used for acquiring the starting number of the intelligent power distribution gateways by utilizing the starting number model of the intelligent power distribution gateways and combining the number of the power distribution station rooms;
the configuration acquisition module is used for acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing the power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model as follows:
wherein the content of the first and second substances,Nthe setting number of the intelligent power distribution gateways is expressed and is rounded upwards;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (A) is 5-20;Mindicating the number of distribution station rooms;M 0 represents a preset reference value of the number of the power distribution station rooms,M 0 the value range of (1) is 30-50;N q representing the starting number of the intelligent power distribution gateways and rounding upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f showing the range of the number of the increase,N f the number of the (B) is 5 to 10.
The working principle and the effect of the technical scheme are as follows: the intelligent power distribution gateway control system for the power distribution station room provided by the embodiment effectively improves the reasonability of gateway quantity setting and corresponding power distribution station room quantity setting by the set quantity of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station room corresponding to each gateway, prevents the network resource waste caused by too little gateway quantity setting and corresponding power distribution station quantity configuration, and solves the problem that the data transmission efficiency is reduced because the gateway quantity setting and the corresponding power distribution station quantity configuration lead to data transmission saturation too much. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
In one embodiment of the present invention, the adjusting module includes:
the numerical value change monitoring module is used for monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change numerical value of the monitored power distribution station rooms;
the first adjusting module is used for singly increasing or decreasing the number of the increased or decreased monitoring power distribution station rooms in the number of power distribution station rooms corresponding to each started intelligent power distribution network when the number change value of the monitoring power distribution station rooms does not exceed a preset number threshold; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways;
and the second adjusting module is used for adjusting the starting quantity of the intelligent power distribution gateway and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms by utilizing the quantity setting model of the intelligent power distribution gateway, the quantity starting model of the intelligent power distribution gateway and the quantity setting model of the power distribution station rooms when the quantity change value of the power distribution station rooms exceeds a preset quantity threshold value.
The working principle and the effect of the technical scheme are as follows: the reasonability of the gateway quantity setting and the distribution station room quantity setting corresponding to the gateway is effectively improved through the setting quantity and the starting quantity of the intelligent gateways and the quantity setting of the distribution station rooms corresponding to each gateway, the network resource waste caused by too little gateway quantity setting and distribution station quantity configuration corresponding to the gateway quantity setting is prevented, and the problem that the data transmission saturation is caused and the data transmission efficiency is reduced is caused due to too much gateway quantity setting and distribution station quantity configuration corresponding to the gateway quantity setting. Meanwhile, the gateway running capacity under the condition of sudden increase of the power distribution station rooms can be effectively improved through the quantity setting of the intelligent gateways, the starting quantity and the quantity setting of the power distribution station rooms corresponding to each gateway, and the problem that the running efficiency is reduced due to saturation of the power distribution gateways under the condition of sudden increase of the quantity of the power distribution station rooms is effectively prevented.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. A control method for an intelligent power distribution gateway of a power distribution station room is characterized by comprising the following steps:
acquiring the number of power distribution station rooms corresponding to a power distribution control center;
determining the set number of intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and monitoring the quantity change condition of the power distribution station rooms in real time, and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms.
2. The method for controlling the intelligent power distribution gateway of the power distribution station room according to claim 1, wherein the obtaining of the number of the power distribution station rooms corresponding to the power distribution control center comprises:
acquiring power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and acquiring the number of the power distribution station rooms through the power distribution station room information.
3. The method for controlling the intelligent distribution gateways of the distribution station rooms according to claim 1, wherein the determining of the set number of the intelligent distribution gateways, the starting number of the intelligent distribution gateways and the number of the distribution station rooms corresponding to each intelligent distribution gateway according to the number of the distribution station rooms comprises:
extracting the number of the power distribution station rooms;
acquiring the set number of the intelligent power distribution gateways by utilizing an intelligent power distribution gateway set number model and combining the number of the power distribution station rooms;
acquiring the starting number of the intelligent power distribution gateways by using an intelligent power distribution gateway starting number model and combining the number of the power distribution station rooms;
acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing a power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model are as follows:
wherein the content of the first and second substances,Nthe setting number of the intelligent power distribution gateways is expressed and is rounded upwards;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (a) is 5-20;Mindicating the number of distribution station rooms;M 0 represents a preset reference value of the number of the power distribution station rooms,M 0 the value range of (1) is 30-50;N q representing the starting number of the intelligent power distribution gateways and rounding upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f the number of the extension ranges is shown,N f the number of the (B) is 5 to 10.
4. The method for controlling the intelligent power distribution gateway of the power distribution station rooms according to claim 1, wherein the step of monitoring and displaying gateway operation information of data transmission between a power distribution control center and each power distribution station room in real time comprises the following steps:
monitoring and acquiring gateway operation information of data transmission between a power distribution control center and each power distribution station room in real time;
and visually displaying the gateway operation information on a display of the power distribution control center.
5. The method for controlling the intelligent distribution gateways of the distribution station rooms according to claim 1, wherein the step of monitoring the quantity change condition of the distribution station rooms in real time and adjusting the starting quantity of the intelligent distribution gateways and the quantity of the distribution station rooms corresponding to each intelligent distribution gateway according to the quantity change condition of the distribution station rooms comprises the steps of:
monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change value of the monitored power distribution station rooms;
when the number change value of the monitored power distribution station rooms does not exceed a preset number threshold value, singly increasing or reducing the increased or reduced number of the monitored power distribution station rooms in the number of power distribution station rooms corresponding to each started intelligent power distribution network; the quantity threshold is the same as the starting quantity of the intelligent power distribution gateways;
when the quantity change numerical value of the power distribution station rooms exceeds a preset quantity threshold value, the intelligent power distribution gateway starting quantity model and the power distribution station room quantity setting model are utilized according to the quantity change condition of the power distribution station rooms to adjust the intelligent power distribution gateway starting quantity and the power distribution station room quantity corresponding to each intelligent power distribution gateway.
6. The utility model provides a power distribution station room intelligence power distribution gateway control system which characterized in that, power distribution station room intelligence power distribution gateway control system includes:
the quantity acquisition module is used for acquiring the quantity of the power distribution station rooms corresponding to the power distribution control center;
the parameter determining module is used for determining the setting number of the intelligent power distribution gateways, the starting number of the intelligent power distribution gateways and the number of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the number of the power distribution station rooms;
the display module is used for monitoring and displaying gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the adjusting module is used for monitoring the quantity change condition of the power distribution station rooms in real time and adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to the intelligent power distribution gateways according to the quantity change condition of the power distribution station rooms.
7. The electrical distribution station room intelligent electrical distribution gateway control system of claim 6, wherein the quantity obtaining module comprises:
the real-time acquisition module is used for acquiring power distribution station room information corresponding to the power distribution control center in real time, wherein the power distribution station room information comprises power distribution station room position information and power distribution station room operation information;
and the quantity determining module is used for acquiring the quantity of the power distribution station rooms through the power distribution station room information.
8. The electrical distribution station room intelligent electrical distribution gateway control system of claim 6, wherein the parameter determination module comprises:
the quantity extraction module is used for extracting the quantity of the power distribution station rooms;
the first setting module is used for acquiring the set number of the intelligent power distribution gateways by utilizing an intelligent power distribution gateway set number model and combining the number of the power distribution station rooms;
the second setting module is used for acquiring the starting number of the intelligent power distribution gateways by utilizing the starting number model of the intelligent power distribution gateways and combining the number of the power distribution station rooms;
the configuration acquisition module is used for acquiring the number of the power distribution station rooms corresponding to each intelligent power distribution gateway by utilizing the power distribution station room number setting model and combining the number of the power distribution station rooms;
the intelligent power distribution gateway sets a quantity model, the intelligent power distribution gateway starts the quantity model and the power distribution station room quantity setting model are as follows:
wherein the content of the first and second substances,Nthe setting number of the intelligent power distribution gateways is expressed and is rounded upwards;N 0 indicating a preset intelligent power distribution gateway setting quantity reference value,N 0 the value range of (A) is 5-20;Mindicating the number of distribution station rooms;M 0 a quantity reference value representing a preset distribution station house,M 0 the value range of (1) is 30-50;N q representing the starting number of the intelligent power distribution gateways and rounding upwards;N p representing the number of power distribution station rooms correspondingly distributed by each started intelligent power distribution gateway;N f showing the range of the number of the increase,N f the value range of (A) is 5-10.
9. The substation room intelligent distribution gateway control system of claim 6, wherein the display module comprises:
the operation information detection module is used for monitoring and acquiring gateway operation information of data transmission between the power distribution control center and each power distribution station room in real time;
and the visual display module is used for visually displaying the gateway operation information on a display of the power distribution control center.
10. The substation room intelligent distribution gateway control system of claim 6, wherein the adjustment module comprises:
the numerical value change monitoring module is used for monitoring the quantity change condition of the power distribution station rooms in real time to obtain the quantity change numerical value of the monitored power distribution station rooms;
the first adjusting module is used for singly increasing or decreasing the increased or decreased number of the monitoring distribution station rooms in the number of the distribution station rooms corresponding to each started intelligent distribution network when the number change value of the monitoring distribution station rooms does not exceed a preset number threshold value; the quantity threshold value is the same as the starting quantity of the intelligent power distribution gateways;
and the second adjusting module is used for adjusting the starting quantity of the intelligent power distribution gateways and the quantity of the power distribution station rooms corresponding to each intelligent power distribution gateway according to the quantity change condition of the power distribution station rooms by utilizing the quantity setting model of the intelligent power distribution gateways, the starting quantity model of the intelligent power distribution gateways and the quantity setting model of the power distribution station rooms when the quantity change value of the power distribution station rooms exceeds a preset quantity threshold value.
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