CN112734268A - Differential intelligent power backup system and method based on APP interaction - Google Patents

Abstract

The invention discloses a differentiated intelligent power backup system and method based on APP interaction, and the differentiated intelligent power backup system and method based on APP interaction comprise an intelligent power backup terminal, wherein the intelligent power backup terminal is connected with a background and a client through the Internet technology, the background is used for edge calculation, the client is provided with an intelligent power backup system APP, and the intelligent power backup terminal is connected with a power distribution network through a DC/AC converter. The invention solves the problems of complex and inflexible process, high cost and vulnerability in standby power management in the traditional standby power supply.

Description

Differential intelligent power backup system and method based on APP interaction

Technical Field

The invention relates to the technical field of power grid management, in particular to a differential intelligent power backup system and method based on APP interaction.

Background

1. After the 5G service is carried, the original 2G, 3G and 4G power supply services of the iron tower sharing site cannot be guaranteed, so that the capacity of the power supply of a base station is insufficient, the service is withdrawn in advance, and the power supply of different networks is required to be flexibly carried out;

2. the operator reduces the electricity charge expenditure, puts forward the requirements of closing the load at night duty-free time intervals and closing the load at regular time for partial stations, and reduces the electricity charge expenditure cost;

3. the demand of different power generation services of operators at the shared site is increased, and the power generation cost is disputed, difficult to check and difficult to recover;

4. the problems that individual operators or tenants are lack of electricity charge and the like are solved, and flexible service stopping and online recovery cannot be realized;

6. many industrial users and residential users have fuzzy electricity consumption management and leak, and are deficient in aspects of electricity consumption efficiency, electricity consumption safety, real-time monitoring and the like;

5. the cost of part manufacturers is high, huge cost pressure is caused to users, and the system is old, not intelligent, incapable of being widely implemented and limited.

Disclosure of Invention

In order to solve the problems of complexity, inflexibility, high cost and vulnerability in standby power management in the traditional standby power process, the invention aims to provide a differential intelligent standby power system and method based on APP interaction.

In order to achieve the purpose, the invention adopts the following technical scheme: a differentiation intelligent power supply system based on APP interaction comprises an intelligent power supply terminal, wherein the intelligent power supply terminal is connected with a background and a client through the Internet technology, the background is used for edge calculation, the client is provided with an intelligent power supply system APP, and the intelligent power supply terminal is connected with a power distribution network through a DC/AC converter;

the intelligent power supply terminal comprises a controller, wherein the controller is connected with a communication module and used for transmitting remote data with a background and a client, the controller is connected with a storage and used for storing data, the controller is connected with a timer and used for storing monitored electric parameters in the storage at regular time according to set time and uploading the monitored electric parameters to the background at regular time, the monitored electric parameters are automatically downloaded or inquired later by a user for use, the controller is connected with a data information processing module and used for monitoring the electric parameters, counting the electric parameters and detecting the current of a circuit, and the controller is connected with a strategy control module and used for controlling and opening a set and execution function and a self-learning analysis function of multiple local and remote control strategies.

Preferably, the strategy control module is divided into a first-stage strategy, a second-stage strategy, a third-stage strategy and a special strategy mode, the first-stage strategy can perform timing control and time-sharing control, the second-stage strategy can perform power utilization duration, power utilization power Z value, power utilization voltage, power utilization current, power utilization electricity degree and harmonic wave, the third-stage strategy can perform a preset self-defining strategy for the user to set, and the special strategy can perform strategy configuration in the aspect of safe power utilization.

A differential intelligent power backup method based on APP interaction comprises the following steps:

s1, starting a differential intelligent standby power system APP to inquire power parameters or issue configuration parameters, alarm prompts and message pushing;

s2, the intelligent standby terminal communication module receives the response inquiry command, and alarms to actively report, regularly upload and responds to the control command;

s3, the intelligent standby power terminal data information processing module carries out electric parameter monitoring, statistical calculation, analysis processing and storage management;

and S4, the intelligent standby power terminal strategy control module performs control, setting and execution, and self-learning analysis of various local and remote control strategies.

Preferably, in S1, the user starts differentiation intelligence power supply system APP, the relevant power consumption parameter of inquiry, the backstage can correspond screening database information automatically, extract required data and show, the backstage possesses marginal calculation function, carry out the analysis and calculation with the data of the intelligent power supply terminal that receives, combine early warning limit value and historical data analysis, thereby can send warning suggestion or message propelling movement after the power consumption data that receive surpass the limit value threshold, play and remind the user of paying attention to the power consumption and exceed the standard or there is the potential safety hazard condition in the power consumption.

Preferably, in S2, after the communication module at the intelligent power backup terminal receives the query command that the intelligent power backup system APP sent out correspondingly, the intelligent power backup terminal can respond to the command in real time, and process through the internal controller, and enter and return corresponding command information, when the intelligent power backup terminal detects that there is power consumption abnormality or power consumption is out of limit, and the power consumption safety problem needs to be reported to the police, then start the initiative reporting mechanism of reporting an emergency and ask for help or increased vigilance immediately, upload the state information of reporting an emergency and ask for help or increased vigilance to cloud end or backstage system in real time, in addition, the intelligent power backup terminal equipment operates normally, and when there is no potential safety hazard in the power consumption, then regularly transmit relevant power consumption information data, and real-time monitoring and storing the power.

Preferably, in S3, the electrical parameter monitoring is used for monitoring the voltage, current, power, electrical degree, and harmonic of the electricity used by the user; the statistical calculation is used for counting the electricity utilization degree conditions of the user every minute, hour, day, month and year, is also used for carrying out time-interval statistics according to the design and is also used for counting the electricity utilization power conditions of the user, and the maximum or minimum power value of the electricity utilization for each hour, day, month and year can be statistically analyzed according to a preset value; through the judgement to the residual current size, compare the threshold value of inside settlement again, in case circuit residual current is too big, then cut off the power consumption return circuit immediately to will report an emergency and ask for help or increased vigilance the information and upload, carry out the message propelling movement to intelligent power consumption system APP through high in the clouds or backstage on, remind the user in time to solve this power consumption safety problem after, just can continue the power consumption, otherwise probably cause personal property safety.

Preferably, in S4, before each policy is put into use, self-learning and pre-learning are performed and whether analysis is correct or not is performed to ensure that the set policy is executed reliably, and the self-learning step includes sequentially setting the policy, storing, starting a self-learning button through the intelligent power backup system APP or in situ, and checking whether the status indicators and the departure mechanism are normal or not.

Compared with the prior art, the invention has the following beneficial effects: according to the method, a differential intelligent standby power system APP is started to inquire power parameters or issue configuration parameters, alarm prompts and message pushing; according to the invention, the intelligent standby power terminal communication module receives a response query command, and alarms to actively report, regularly upload and respond to a control command; according to the invention, the intelligent standby power terminal data information processing module carries out electric parameter monitoring, statistical calculation, analysis processing and storage management; the intelligent standby power terminal strategy control module performs control, development, setting and execution, and self-learning analysis of various local and remote control strategies.

Drawings

The invention is described in further detail below with reference to the following figures and detailed description:

FIG. 1 is a schematic diagram of a system of the present invention;

FIG. 2 is a schematic diagram of the process of the present invention;

FIG. 3 is a schematic diagram of an APP policy flow of a differentiated intelligent power backup system according to the present invention;

FIG. 4 is a schematic diagram of a policy control module policy mode flow of the present invention;

fig. 5 is a schematic diagram of a policy preview process according to the present invention.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

Please refer to fig. 1 to 5. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The invention provides a technical scheme that: a differentiation intelligent power supply system based on APP interaction comprises an intelligent power supply terminal, wherein the intelligent power supply terminal is connected with a background and a client through the Internet technology, the background is used for edge calculation, the client is provided with an intelligent power supply system APP, and the intelligent power supply terminal is connected with a power distribution network through a DC/AC converter;

the intelligent power supply terminal comprises a controller, wherein the controller is connected with a communication module and used for transmitting remote data with a background and a client, the controller is connected with a storage and used for storing data, the controller is connected with a timer and used for storing monitored electric parameters in the storage at regular time according to set time and uploading the monitored electric parameters to the background at regular time, the monitored electric parameters are automatically downloaded or inquired later by a user for use, the controller is connected with a data information processing module and used for monitoring the electric parameters, counting the electric parameters and detecting the current of a circuit, and the controller is connected with a strategy control module and used for controlling and opening a set and execution function and a self-learning analysis function of multiple local and remote control strategies.

The strategy control module is divided into a first-stage strategy, a second-stage strategy, a third-stage strategy and a special strategy mode, the first-stage strategy can carry out timing control and time-sharing control, the second-stage strategy can carry out power utilization duration, power utilization power Z value, power utilization voltage, power utilization current, power utilization electricity degree and harmonic wave, the third-stage strategy can carry out a preset self-defining strategy for the user to set, and the special strategy can carry out strategy configuration in the aspect of safe power utilization.

A differential intelligent power backup method based on APP interaction comprises the following steps:

s1, starting a differential intelligent standby power system APP to inquire power parameters or issue configuration parameters, alarm prompts and message pushing;

s2, the intelligent standby terminal communication module receives the response inquiry command, and alarms to actively report, regularly upload and responds to the control command;

s3, the intelligent standby power terminal data information processing module carries out electric parameter monitoring, statistical calculation, analysis processing and storage management;

and S4, the intelligent standby power terminal strategy control module performs control, setting and execution, and self-learning analysis of various local and remote control strategies.

In S1, the user starts differentiation intelligence power supply system APP, inquire relevant power consumption parameter, the backstage can correspond screening database information automatically, extract required data and show, the backstage possesses marginal calculation function, carry out the analysis and calculation with the data at the intelligent power supply terminal that receives, combine early warning limit value and historical data analysis, thereby can send warning suggestion or message propelling movement after the power consumption data that receive surpass the limit value threshold, play and remind the user of paying attention to the power consumption and exceed standard or there is the potential safety hazard condition in the power consumption.

In S2, after the communication module at the intelligent power backup terminal receives the corresponding query command sent by the intelligent power backup system APP, the intelligent power backup terminal can respond to the command in real time, the command is processed by an internal controller, corresponding command information is fed back, when the intelligent power backup terminal detects that power utilization is abnormal or out of limit, and the power utilization safety problem needs to be alarmed, an active alarm reporting mechanism is started immediately, alarm state information is uploaded to a cloud or a background system in real time, in addition, the intelligent power backup terminal equipment runs normally, no potential safety hazard exists in power utilization, and when the power utilization is not out of limit, related power utilization information data are sent regularly, and the power utilization related data are monitored in real time and stored.

In S3, the electrical parameter monitoring is used to monitor the voltage, current, power, electrical degree, and harmonic of the user electricity consumption; the statistical calculation is used for counting the electricity utilization degree conditions of the user every minute, hour, day, month and year, is also used for carrying out time-interval statistics according to the design and is also used for counting the electricity utilization power conditions of the user, and the maximum or minimum power value of the electricity utilization for each hour, day, month and year can be statistically analyzed according to a preset value; through the judgement to the residual current size, compare the threshold value of inside settlement again, in case circuit residual current is too big, then cut off the power consumption return circuit immediately to will report an emergency and ask for help or increased vigilance the information and upload, carry out the message propelling movement to intelligent power consumption system APP through high in the clouds or backstage on, remind the user in time to solve this power consumption safety problem after, just can continue the power consumption, otherwise probably cause personal property safety.

In the step S4, before each policy is put into use, self-learning and pre-learning are performed and analysis is correct or not, so as to ensure that the set policy is reliably executed.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. The utility model provides a differentiation intelligence is equipped with electric system based on APP is mutual, is equipped with electric terminal including intelligence, its characterized in that: the intelligent power standby terminal is connected with a background and a client through the Internet technology, the background is used for edge calculation, an intelligent power standby system APP is installed on the client, and the intelligent power standby terminal is connected with a power distribution network through a DC/AC converter;

the intelligent power supply terminal comprises a controller, wherein the controller is connected with a communication module and used for transmitting remote data with a background and a client, the controller is connected with a storage and used for storing data, the controller is connected with a timer and used for storing monitored electric parameters in the storage at regular time according to set time and uploading the monitored electric parameters to the background at regular time, the monitored electric parameters are automatically downloaded or inquired later by a user for use, the controller is connected with a data information processing module and used for monitoring the electric parameters, counting the electric parameters and detecting the current of a circuit, and the controller is connected with a strategy control module and used for controlling and opening a set and execution function and a self-learning analysis function of multiple local and remote control strategies.

2. The differential intelligent power backup system based on APP interaction of claim 1, wherein: the strategy control module is divided into a first-stage strategy, a second-stage strategy, a third-stage strategy and a special strategy mode, the first-stage strategy can carry out timing control and time-sharing control, the second-stage strategy can carry out power utilization duration, power utilization power Z value, power utilization voltage, power utilization current, power utilization electricity degree and harmonic wave, the third-stage strategy can carry out a preset self-defining strategy for the user to set, and the special strategy can carry out strategy configuration in the aspect of safe power utilization.

3. A differential intelligent power backup method based on APP interaction is characterized by comprising the following steps:

s1, starting a differential intelligent standby power system APP to inquire power parameters or issue configuration parameters, alarm prompts and message pushing;

s2, the intelligent standby terminal communication module receives the response inquiry command, and alarms to actively report, regularly upload and responds to the control command;

s3, the intelligent standby power terminal data information processing module carries out electric parameter monitoring, statistical calculation, analysis processing and storage management;

and S4, the intelligent standby power terminal strategy control module performs control, setting and execution, and self-learning analysis of various local and remote control strategies.

4. The differential intelligent power backup method based on APP interaction of claim 3, wherein: in S1, the user starts differentiation intelligence power supply system APP, inquire relevant power consumption parameter, the backstage can correspond screening database information automatically, extract required data and show, the backstage possesses marginal calculation function, carry out the analysis and calculation with the data at the intelligent power supply terminal that receives, combine early warning limit value and historical data analysis, thereby can send warning suggestion or message propelling movement after the power consumption data that receive surpass the limit value threshold, play and remind the user of paying attention to the power consumption and exceed standard or there is the potential safety hazard condition in the power consumption.

5. The differential intelligent power backup method based on APP interaction of claim 3, wherein: in S2, after the communication module at the intelligent power backup terminal receives the corresponding query command sent by the intelligent power backup system APP, the intelligent power backup terminal can respond to the command in real time, the command is processed by an internal controller, corresponding command information is fed back, when the intelligent power backup terminal detects that power utilization is abnormal or out of limit, and the power utilization safety problem needs to be alarmed, an active alarm reporting mechanism is started immediately, alarm state information is uploaded to a cloud or a background system in real time, in addition, the intelligent power backup terminal equipment runs normally, no potential safety hazard exists in power utilization, and when the power utilization is not out of limit, related power utilization information data are sent regularly, and the power utilization related data are monitored in real time and stored.

6. The differential intelligent power backup method based on APP interaction of claim 3, wherein: in S3, the electrical parameter monitoring is used to monitor the voltage, current, power, electrical degree, and harmonic of the user electricity consumption; the statistical calculation is used for counting the electricity utilization degree conditions of the user every minute, hour, day, month and year, is also used for carrying out time-interval statistics according to the design and is also used for counting the electricity utilization power conditions of the user, and the maximum or minimum power value of the electricity utilization for each hour, day, month and year can be statistically analyzed according to a preset value; through the judgement to the residual current size, compare the threshold value of inside settlement again, in case circuit residual current is too big, then cut off the power consumption return circuit immediately to will report an emergency and ask for help or increased vigilance the information and upload, carry out the message propelling movement to intelligent power consumption system APP through high in the clouds or backstage on, remind the user in time to solve this power consumption safety problem after, just can continue the power consumption, otherwise probably cause personal property safety.

7. The differential intelligent power backup method based on APP interaction of claim 3, wherein: in the step S4, before each policy is put into use, self-learning and pre-learning are performed and analysis is correct or not, so as to ensure that the set policy is reliably executed.

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