CN112114274A - Intelligent power utilization management system - Google Patents

Abstract

The invention discloses an intelligent power consumption management system which comprises a login verification module, a power consumption application module, a power consumption record acquisition module, a short-circuit fault module, a voltage acquisition module, a current acquisition module, a data receiving module, a data processing module, a master control module and a power consumption control module; the system comprises a login verification module, a power utilization application module, a power utilization record acquisition module, a voltage acquisition module and a current information acquisition module, wherein the login verification module is used for performing identity verification on a user and logging in a power utilization system, the power utilization application module is used for applying power utilization when the user needs high-power utilization, the power utilization record acquisition module is used for acquiring the past power utilization information of the user, the short-circuit fault acquisition module is used for acquiring the short-circuit information of a circuit, the voltage acquisition module is used for acquiring real-time voltage information, and; the data receiving module is used for receiving power utilization application, previous power utilization information of a user, short circuit information, real-time voltage information and real-time current information. The invention can better and more safely carry out power utilization management.

Description

Intelligent power utilization management system

Technical Field

The invention relates to the field of power utilization management, in particular to an intelligent power utilization management system.

Background

The power utilization is a behavior of using electric energy according to a preset purpose, the electric energy comprises industrial electricity and civil electricity, the power utilization mode of a user is changed by strengthening power utilization management, measures such as peak shifting electricity utilization, peak avoiding electricity utilization, electricity limiting, emergency switching-off and the like are taken, unplanned switching-off and electricity limiting are avoided, the order of power utilization is standardized, and adverse effects brought to the society and enterprises by seasonal and periodic power supply and demand contradictions are minimized. The ordered power utilization is essentially a system for immediately managing the power utilization by a power utilization management system based on the typical load form of a user by adopting a peak shifting and avoiding means to carry out load shaping.

The existing power consumption management system does not verify the identity of a user when the user carries out special power consumption requirements, the identity of the user is easily stolen, and the circuit fails to send a notice and stops supplying power in time, so that certain influence is brought to the use of the power consumption management system, and therefore, the intelligent power consumption management system is provided.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current power consumption management system, do not verify the identity to it when the user carries out special power consumption requirement, cause user's identity to be stolen easily to the circuit does not in time send the notice and stop the power supply when sending the trouble, has brought the problem of certain influence for power consumption management system's use, provides an wisdom power consumption management system.

The invention solves the technical problems by the following technical scheme that the system comprises a login verification module, an electricity utilization application module, an electricity utilization record acquisition module, a short-circuit fault module, a voltage acquisition module, a current acquisition module, a data receiving module, a data processing module, a master control module and an electricity utilization control module;

the system comprises a login verification module, a power utilization application module, a power utilization record acquisition module, a voltage acquisition module and a current information acquisition module, wherein the login verification module is used for performing identity verification on a user and logging in a power utilization system, the power utilization application module is used for applying power utilization when the user needs high-power utilization, the power utilization record acquisition module is used for acquiring the past power utilization information of the user, the short-circuit fault acquisition module is used for acquiring the short-circuit information of a circuit, the voltage acquisition module is used for acquiring real-time voltage information, and;

the data receiving module is used for receiving the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information and sending the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information to the data processing module;

the data processing module is used for processing the power utilization application and the previous power utilization information of the user into power utilization passing information, and processing the short circuit information, the real-time voltage information and the real-time current information into circuit fault information;

the power utilization passing information and the power utilization fault information are sent to the master control module, the master control module is used for converting the power utilization passing information and the power utilization fault information into power utilization passing instructions and power utilization fault instructions to be sent to the power utilization control module, and the power utilization control module controls current transformation and cuts off power supply.

When the login authentication module performs identity authentication, a user needs to input an account and a password for authentication, and the specific authentication process is as follows:

the method comprises the following steps: when a user inputs an account, recording the first time point T1 of the input account, and then recording the last time point T2 of the input account;

step two: calculating the time point T2 and the time point T1 to obtain the time length T of the input account_And；

step three: recording the first time point P1 of the password input when the password is input, and recording the last time point P2 of the input account;

step four: calculating the time point P2 and the time point P1 to obtain the time length P of the input password_And；

step five: then calculates the password duration P_Andand a preset password duration P_{Original source}Difference value P of_{Difference (D)}Calculating the time length T of the input account_Andand a preset account number duration T_{Original source}Difference value T of_{Difference (D)}；

Step six: when the account number and the password input by the user are completely correct, and P is_{Difference (D)}And T_{Difference (D)}And when the values are all smaller than the preset value, the verification is passed.

The utility model discloses a power consumption application module, including power consumption application module, power consumption record module.

The specific processing process of the power utilization fault information is as follows:

the method comprises the following steps: when the short-circuit fault information is acquired by the short-circuit fault module, the power utilization fault information is directly generated, and the content of the power utilization fault information is short-circuit;

step two: extracting the voltage information acquired by the voltage acquisition module, marking the voltage information as K, acquiring the voltage information K once every preset time in a preset time period, and continuously acquiring the voltage information K;

step three: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the preset time length as an X axis, and drawing the collected multiple voltage information K into a line graph on the plane rectangular coordinate system Q1;

step four: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, generating power utilization fault information, wherein the content of the power utilization fault information is voltage fluctuation;

step five: extracting the current information collected by the current collection module, marking the current information as D, collecting the current information D once every preset time in a preset time period, and continuously collecting the current information D;

step six: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the preset time length as an X axis, and drawing acquired current information D on the plane rectangular coordinate system Q12 to form a line graph;

step seven: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, the power utilization fault information is generated, and the content of the power utilization fault information is current fluctuation.

Compared with the prior art, the invention has the following advantages: this wisdom power consumption management system, carry out authentication to it when the user carries out special circular telegram request, the effectual situation of having avoided pretending the identity to steal the electricity takes place, the effectual power consumption safety that has promoted the user, and through short-circuit fault module, voltage acquisition module, the real-time short-circuit information of acquisition circuit of current acquisition module, voltage information and current information, and taking place the short circuit, when voltage unstability and current are unstable, can be timely send alarm information and cut the transport of power, the effectual unexpected generation of having avoided the trouble to lead to, further the security that has promoted this management system.

Drawings

FIG. 1 is a system block diagram of the invention.

Detailed Description

The following examples are described in detail, which are carried out on the premise of the technical scheme of the invention, and detailed implementation manners and specific operation procedures are given, but the scope of the invention is not limited to the following examples.

As shown in fig. 1, the present embodiment provides a technical solution: an intelligent power utilization management system comprises a login verification module, a power utilization application module, a power utilization record acquisition module, a short-circuit fault module, a voltage acquisition module, a current acquisition module, a data receiving module, a data processing module, a master control module and a power utilization control module;

the system comprises a login verification module, a power utilization application module, a power utilization record acquisition module, a voltage acquisition module and a current information acquisition module, wherein the login verification module is used for performing identity verification on a user and logging in a power utilization system, the power utilization application module is used for applying power utilization when the user needs high-power utilization, the power utilization record acquisition module is used for acquiring the past power utilization information of the user, the short-circuit fault acquisition module is used for acquiring the short-circuit information of a circuit, the voltage acquisition module is used for acquiring real-time voltage information, and;

the data receiving module is used for receiving the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information and sending the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information to the data processing module;

the data processing module is used for processing the power utilization application and the previous power utilization information of the user into power utilization passing information, and processing the short circuit information, the real-time voltage information and the real-time current information into circuit fault information;

the power utilization passing information and the power utilization fault information are sent to the master control module, the master control module is used for converting the power utilization passing information and the power utilization fault information into power utilization passing instructions and power utilization fault instructions to be sent to the power utilization control module, and the power utilization control module controls current transformation and cuts off power supply.

Preferably, the login authentication module performs authentication by which a user needs to input an account and a password, and the specific authentication process is as follows:

the method comprises the following steps: when a user inputs an account, recording the first time point T1 of the input account, and then recording the last time point T2 of the input account;

step two: calculating the time point T2 and the time point T1 to obtain the time length T of the input account_And；

step three: recording the first time point P1 of the password input when the password is input, and recording the last time point P2 of the input account;

step four: calculating the time point P2 and the time point P1 to obtain the time length P of the input password_And；

step five: then calculates the password duration P_Andand a preset password duration P_{Original source}Difference value P of_{Difference (D)}Meter for measuringCalculate the time length T of the input account_Andand a preset account number duration T_{Original source}Difference value T of_{Difference (D)}；

Step six: when the account number and the password input by the user are completely correct, and P is_{Difference (D)}And T_{Difference (D)}And when the values are all smaller than the preset value, the verification is passed.

Preferably, the power consumption application module is used for the user to carry out the application of unconventional power consumption, and the voltage that the unconventional power consumption is the power consumption that the power consumption surpassed resident's power consumption voltage, and after the application of unconventional power consumption was carried out to user's power consumption application module, power consumption record module gathers this user's power consumption record in the past, when having the unconventional power consumption in this user's power consumption record in the past, directly generate the power consumption promptly and pass through information, when this user did not have the unconventional power consumption in the past power consumption record, the user need upload the power consumption data, and it is long with the power consumption usage, and the user uploads behind the power consumption data the manual audit, and the manual audit passes through the consequence, sends the permission power consumption information promptly to the.

Preferably, the specific processing procedure of the power failure information is as follows:

the method comprises the following steps: when the short-circuit fault information is acquired by the short-circuit fault module, the power utilization fault information is directly generated, and the content of the power utilization fault information is short-circuit;

step two: extracting the voltage information acquired by the voltage acquisition module, marking the voltage information as K, acquiring the voltage information K once every preset time in a preset time period, and continuously acquiring the voltage information K;

step three: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the preset time length as an X axis, and drawing the collected multiple voltage information K into a line graph on the plane rectangular coordinate system Q1;

step four: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, generating power utilization fault information, wherein the content of the power utilization fault information is voltage fluctuation;

step five: extracting the current information collected by the current collection module, marking the current information as D, collecting the current information D once every preset time in a preset time period, and continuously collecting the current information D;

step six: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the preset time length as an X axis, and drawing acquired current information D on the plane rectangular coordinate system Q12 to form a line graph;

step seven: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, the power utilization fault information is generated, and the content of the power utilization fault information is current fluctuation.

In summary, when the invention is used, the login verification module is used for the user to perform identity verification and login to the power utilization system, the power utilization application module is used for the user to apply for power utilization when needing high-power utilization, the power utilization record acquisition module is used for acquiring the past power utilization information of the user, the short-circuit fault acquisition module is used for acquiring the short-circuit information of the circuit, the voltage acquisition module is used for acquiring the real-time voltage information, the current information is used for acquiring the real-time current information, the data receiving module is used for receiving the power utilization application, the past power utilization information, the short-circuit information, the real-time voltage information and the real-time current information of the user and sending the power utilization application, the past power utilization information, the short-circuit information, the real-time voltage information and the real-time current information to the data processing module, and the data processing module is, Real-time voltage information and real-time current information are processed into circuit fault information, electricity utilization passing information and electricity utilization fault information are sent to a master control module, the master control module is used for converting the electricity utilization passing information and the electricity utilization fault information into an electricity utilization passing instruction and an electricity utilization fault instruction to be generated to an electricity utilization control module, and a user of the electricity utilization control module controls current transformation and cuts off power supply.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly specified otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it should be understood that the above embodiments are exemplary and not to be construed as limiting the invention, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the invention.

Claims (4)

1. An intelligent power consumption management system is characterized by comprising a login verification module, a power consumption application module, a power consumption record acquisition module, a short-circuit fault module, a voltage acquisition module, a current acquisition module, a data receiving module, a data processing module, a master control module and a power consumption control module;

the system comprises a login verification module, a power utilization application module, a power utilization record acquisition module, a voltage acquisition module and a current information acquisition module, wherein the login verification module is used for performing identity verification on a user and logging in a power utilization system, the power utilization application module is used for applying power utilization when the user needs high-power utilization, the power utilization record acquisition module is used for acquiring the past power utilization information of the user, the short-circuit fault acquisition module is used for acquiring the short-circuit information of a circuit, the voltage acquisition module is used for acquiring real-time voltage information, and;

the data receiving module is used for receiving the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information and sending the power utilization application, the past power utilization information of the user, the short-circuit information, the real-time voltage information and the real-time current information to the data processing module;

the data processing module is used for processing the power utilization application and the previous power utilization information of the user into power utilization passing information, and processing the short circuit information, the real-time voltage information and the real-time current information into circuit fault information;

the power utilization passing information and the power utilization fault information are sent to the master control module, the master control module is used for converting the power utilization passing information and the power utilization fault information into power utilization passing instructions and power utilization fault instructions to be sent to the power utilization control module, and the power utilization control module controls current transformation and cuts off power supply.

2. The intelligent power management system of claim 1, wherein: when the login authentication module performs identity authentication, a user needs to input an account and a password for authentication, and the specific authentication process is as follows:

the method comprises the following steps: when a user inputs an account, recording the first time point T1 of the input account, and then recording the last time point T2 of the input account;

step two: calculating the time point T2 and the time point T1 to obtain the time length T of the input account_And；

step three: recording the first time point P1 of the password input when the password is input, and recording the last time point P2 of the input account;

step four: calculating the time point P2 and the time point P1 to obtain the time length P of the input password_And；

step five: then calculates the password duration P_Andand a preset password duration P_{Original source}Difference value P of_{Difference (D)}Calculating the time length T of the input account_Andand a preset account number duration T_{Original source}Difference value T of_{Difference (D)}；

Step six: when the account number and the password input by the user are completely correct, and P is_{Difference (D)}And T_{Difference (D)}And when the values are all smaller than the preset value, the verification is passed.

3. The intelligent power management system of claim 1, wherein: the utility model discloses a power consumption application module, including power consumption application module, power consumption record module.

4. The intelligent power management system of claim 1, wherein: the specific processing process of the power utilization fault information is as follows:

the method comprises the following steps: when the short-circuit fault information is acquired by the short-circuit fault module, the power utilization fault information is directly generated, and the content of the power utilization fault information is short-circuit;

step two: extracting the voltage information acquired by the voltage acquisition module, marking the voltage information as K, acquiring the voltage information K once every preset time in a preset time period, and continuously acquiring the voltage information K;

step three: establishing a plane rectangular coordinate system Q1 by taking the voltage value as a Y axis and the preset time length as an X axis, and drawing the collected multiple voltage information K into a line graph on the plane rectangular coordinate system Q1;

step four: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, generating power utilization fault information, wherein the content of the power utilization fault information is voltage fluctuation;

step five: extracting the current information collected by the current collection module, marking the current information as D, collecting the current information D once every preset time in a preset time period, and continuously collecting the current information D;

step six: establishing a plane rectangular coordinate system Q2 by taking the current value as a Y axis and the preset time length as an X axis, and drawing acquired current information D on the plane rectangular coordinate system Q12 to form a line graph;

step seven: when the included angle between any two continuous broken lines in the broken line graph and the water sheet surface is larger than a preset angle, the power utilization fault information is generated, and the content of the power utilization fault information is current fluctuation.

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