CN107144730B

CN107144730B - Power consumption prediction system for electric equipment

Info

Publication number: CN107144730B
Application number: CN201710443772.6A
Authority: CN
Inventors: 邵柳东
Original assignee: Ningbo Sanxing Medical and Electric Co Ltd
Current assignee: Ningbo Sanxing Medical and Electric Co Ltd
Priority date: 2017-06-13
Filing date: 2017-06-13
Publication date: 2022-05-13
Anticipated expiration: 2037-06-13
Also published as: CN107144730A

Abstract

The invention relates to a power consumption prediction system of electric equipment, which comprises a local processing system, wherein the local processing system comprises a power consumption measuring system, a power consumption recording system and a power consumption prediction processing system; the power consumption measuring system is connected with the electric equipment and is used for measuring the electric quantity value consumed by the electric equipment; the power consumption recording system is connected with the power consumption measuring system and is used for recording the electric quantity value consumed by the electric equipment; the power consumption prediction processing system is connected with the power consumption recording system and predicts the power consumption value of the electric equipment consumed in a specific period of time in the future according to the data recorded by the power consumption recording system. The power consumption prediction processing system provides certain data reference for the amount of the pre-paid electric charge of the user; and the safety verification is carried out when the electric appliance information storage processing system and the remote service system carry out data transmission, so that data is prevented from being illegally transmitted or illegally accessed.

Description

Power consumption prediction system for electric equipment

Technical Field

The invention relates to a power consumption prediction system for electric equipment.

Background

The intelligent electric meter in the existing power grid is used after pre-paying the electric charge, the excessively frequent payment of the electric charge is troublesome for users, the pre-storing of a certain amount of the electric charge is convenient for the users, and the technical scheme for reasonably paying the electric charge does not exist in the prior art. Some technical methods are given in the prior art for measuring the amount of power consumed by each appliance. In the prior art, methods and devices for measuring energy consumption of electronic equipment measure the consumption of electric quantity within a certain time and do not record the type, the service time and the consumption of electric quantity in detail. The method and the system perform detailed recording through the type, the use mode and the electric quantity consumption of the electronic equipment within a certain time, predict the energy consumption of the electronic equipment within a certain time in the future according to certain specific conditions on the basis of the recording, and provide certain data reference for the amount of the pre-paid electric charge of the user.

To solve such a problem, the present invention is thus proposed.

Disclosure of Invention

The invention aims to provide a power consumption prediction system for electric equipment.

In order to realize the purposes, the following technical scheme is adopted:

a power consumption prediction system of electric equipment comprises a local processing system, wherein the local processing system comprises a power consumption measuring system, a power consumption recording system and a power consumption prediction processing system; the power consumption measuring system is connected with the electric equipment and is used for measuring the electric quantity value consumed by the electric equipment;

the power consumption recording system is connected with the power consumption measuring system and is used for recording the power consumption value of the electric equipment; the power consumption prediction processing system is connected with the power consumption recording system and predicts the power consumption value of the electric equipment consumed in a specific period of time in the future according to the data recorded by the power consumption recording system.

Preferably, the power consumption prediction system of the electric equipment further comprises a remote service system, the remote service system comprises a remote communication module and a remote storage module, the local processing system further comprises a local communication module, and the remote service system is connected with the local processing system through the remote communication module and the local communication module.

Furthermore, the local processing system also comprises an electrical appliance information storage processing system and an electrical appliance access security verification system; when the electric equipment is connected into the local processing system, the electric appliance is connected into the safety verification system to identify the basic information of the electric equipment, and after the electric appliance is successfully connected into the local processing system, the electric appliance information storage processing system stores the basic information of the electric equipment.

Preferably, the user performs a login method by registering through an information storage system of the local processing system, the information storage system displays a login interface in the interaction module,

the specific registration and login method is as follows:

s01, entering a login system;

s02, judging whether automatic login is available, if yes, turning to S08, if no, turning to S03;

s03, judging whether the user has registered, if yes, turning to S07, if not, turning to S04;

s04, reminding the user to input the mobile phone number, returning the dynamic password to the mobile phone by the remote server in a short message form, wherein the dynamic password can be used repeatedly, and turning to S05;

s05, the remote server allocates a unique number to the electricity consumption measuring system in the local processing system, and turns to S06;

s06, the local processing system stores the information records of all the collected electric equipment and the network terminal address of the local communication module in the information storage processing system and transmits the information records to the remote server, and the remote server registers the network terminal address grade and stores the network terminal address in the remote storage module;

s07, entering a login page, turning to S08;

s08, detecting whether the electric equipment accessed to the system changes, and turning to S09 if the electric equipment is increased, and turning to S10 if the electric equipment is decreased;

s09, storing the information of the newly added device in the information storage system, and simultaneously informing the remote server of the newly added information, turning to S11;

s10, deleting the reduced equipment from the information storage system and informing the number of the newly reduced electric equipment to a remote server;

and S11, ending.

Further, in step S08, the procedure of detecting whether there is a change in the electric device connected to the system is as follows:

s081, scanning all devices accessed to the electricity consumption measuring system, and turning to S082;

s082, comparing with all the device information recorded in the information storage system.

A security verification method for data communication between a local processing system and a remote service system,

the method comprises the following steps:

s21: the local processing system encrypts and sends the network terminal address of the local communication module together with the basic information as connection request information to the remote server, then waits for confirmed response information, and goes to S22;

s22: the remote server receives the connection request information to analyze, analyzes the network terminal address and determines the network terminal information, and then goes to S23;

s23: the remote service system judges whether the network terminal information is registered, if so, the step is switched to S25, and if not, the step is switched to S24;

s24: the remote service system sends warning information without registering illegal connection information to the local processing system;

s25: the remote service system sends a confirmation response message of connection establishment to the local processing system, and goes to step S26;

s26: the local processing system encrypts and transmits the unique serial number of the user end as the additional information together with the information to be transmitted, and then the S27 is switched;

s27: the remote service system decrypts the additional information, and goes to S28;

s28: judging whether the unique serial number of the user side is legal or not, if so, switching to S30, and if not, switching to S29;

s29: sending warning information that the unique number of the user side is illegal to a local processing system;

s30: judging whether the unique number of the user side is matched with the network terminal address, if so, switching to S31, and if not, switching to S32;

s31: the remote server sends response information of successful transmission to the local processing system;

s32: and sending warning information of which the unique number of the user side is matched with the address of the network terminal to the local processing system.

Further, in step S23, the method for determining whether the network terminal information is registered is to search the network terminal address information in the remote server, where the search result is that the network terminal address information exists, that is, the network terminal address information is registered, and the search result is that the network terminal address information does not exist, that is, the network terminal address information is registered;

in step S26, the information to be transmitted includes the network terminal address transmitted by the local processing system to the remote service system, the information of the electrical equipment transmitted by the local processing system to the remote service system, and the detailed information of the electrical equipment transmitted by the local processing system to the remote service system;

in step S28, the method determines whether the unique number of the user end is allocated to the local processing system by the remote service system in embodiment 2, and determines whether the unique number of the user end corresponds to the mobile phone number of the user in order to further ensure the transmission security.

A method for predicting power consumption of electric equipment comprises the following specific steps:

s50: the user selects the starting and stopping time period of the pre-paid electricity fee through the interactive module, and the step is S51;

s51: the power consumption prediction module obtains the start-stop time filled in by the user in the interaction module, and the step S52 is executed;

s52: the power consumption prediction module detects and classifies all the electric equipment in all the existing systems through the information storage module, and then S53 is carried out;

s53: the power consumption prediction module divides the equipment into electric equipment which is influenced by seasons and electric equipment which is not influenced by the seasons, and the step S54 is switched;

s54: judging whether a newly added electric device exists in the same day, if so, switching to S56, and if not, switching to S55;

s55: calculating the consumed electric quantity of the electric equipment which is not influenced by seasons by using an electric consumption recording system;

s56: and setting the electric quantity consumed by the electric equipment according to the general standard by the newly added equipment.

Further, in step S55, the calculation method includes recording the daily power consumption of the user by the power consumption recording system, calculating a total power consumption by the daily power consumption, dividing the total power consumption by the number of days of use, calculating an average daily power consumption, and calculating the power consumption of the electric device not affected by the season by multiplying the daily power consumption by the number of days of validity between the start time and the end time.

Further, the method of determining whether there is a newly added electric device on the same day is to scan all devices connected to the electricity consumption measuring system, and compare the scanned devices with the device information stored in the information storage system before the current day to see whether there is an added device.

Has the advantages that: 1. the power consumption prediction processing system is connected with the power consumption recording system, the power consumption prediction processing system predicts the power consumption value of the electric equipment in a specific period of time in the future according to the data recorded by the power consumption recording system, and provides a certain data reference for the amount of the pre-paid electric charge of the user.

2. The local processing system comprises an electric appliance information storage processing system and an electric appliance access security verification system; when the electric equipment is connected into the local processing system, the electric appliance access security verification system identifies basic information of the electric equipment, so that the security verification is performed when the unknown equipment is connected into the system and the electric appliance information storage processing system and the remote service system perform data transmission, and illegal data transmission or data tampering is prevented.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of a local processing system according to the present invention.

Fig. 2 is a block diagram of another configuration of a local processing system according to the present invention.

Fig. 3 is a block diagram of the power consumption measuring system according to the present invention.

Fig. 4 is a structural diagram of a power consumption acquisition module and a measurement circuit according to the present invention.

FIG. 5 is an interactive module landing page of the system of the present invention.

Fig. 6 is a flowchart of a registration and login method according to the present invention.

Fig. 7 is a flowchart for detecting whether a power consumption device of the access system is changed according to the present invention.

Fig. 8 is a flowchart of a security verification method according to the present invention.

FIG. 9 is a flowchart of embodiment 1 of the present invention.

Fig. 10 is still another flowchart of embodiment 1 of the present invention.

Fig. 11 is a pre-paid electricity fee page according to the present invention.

Fig. 12 is a flowchart of a power consumption prediction method for an electrical device according to the present invention.

Fig. 13 is a user registration page in accordance with the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, these information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present invention. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

The present invention will be described in detail below by way of examples.

Referring to fig. 1, an electricity consumption prediction system for an electric device includes a local processing system, where the local processing system includes an electricity consumption measuring system, an electricity consumption recording system, and an electricity consumption prediction processing system; the power consumption measuring system is connected with the electric equipment and is used for measuring the electric quantity value consumed by the electric equipment; the power consumption recording system is connected with the power consumption measuring system and is used for recording the power consumption value of the electric equipment; the power consumption prediction processing system is connected with the power consumption recording system and predicts the power consumption value of the electric equipment consumed in a specific period of time in the future according to the data recorded by the power consumption recording system.

The local processing system is a central processing unit, and may also be other single chip chips for realizing the functions thereof.

Referring to fig. 2, preferably, the power consumption prediction system further includes a remote service system, the remote service system includes a remote communication module and a remote storage module, the local processing system further includes a local communication module, and the remote service system is connected to the local processing system through the remote communication module and the local communication module.

Specifically, the local processing system further comprises an electrical appliance information storage processing system and an electrical appliance access security verification system; when the electric equipment is connected into the local processing system, the electric appliance is connected into the safety verification system to identify the basic information of the electric equipment, and after the electric appliance is successfully connected into the local processing system, the electric appliance information storage processing system stores the basic information of the electric equipment.

Referring to fig. 3, the electricity consumption measuring system includes an electricity consumption collecting module and a plurality of measuring circuits. The measuring circuit corresponds to the electric equipment and is used for measuring the electric quantity consumed by the electric equipment in unit time period. Specifically, the measuring circuit is located between the power supply device and the electric equipment, and the electric quantity consumed by the electric equipment can be calculated by measuring the current passing through the electric equipment. The measuring circuit is also connected with a power consumption acquisition module, and the power consumption acquisition module is used for recording the electric quantity consumed by the electric equipment corresponding to the plurality of measuring circuits and transmitting the electric quantity to the power consumption recording system.

Referring to fig. 4, the power system provides ac power to the electric equipment 1, a measurement circuit is connected to a line between the electric equipment 1 and the power system, and the power consumption acquisition module is connected to the measurement circuit, specifically, the measurement circuit includes a filter circuit, a coil 1, a power supply circuit and a sensor circuit, the power supply circuit, the filter circuit and the coil 1 are sequentially located on the line between the power system and the electric equipment 1, the sensor circuit is connected to the coil 1, the power consumption acquisition module is connected to the sensor circuit, and the other end of the power consumption acquisition module is connected to the power supply circuit.

The electric equipment 1 receives ac power from the power system. The filter circuit removes a noise component included in the power received by the electric device 1. The coil 1 detects the amount of current flowing to the electric device 1. Specifically, the coil 1 outputs a current proportional to the amount of current flowing to the electric device 1.

In the sensor circuit, a current is input from the coil 1. The sensor circuit generates a sensor signal indicating the amount of current flowing to the electrical consumer 1 and inputs the sensor signal to the power consumption collection module. The power consumption acquisition module can measure (calculate) the amount of power consumption based on the amount of current represented by the sensor signal and the voltage in the power supply circuit.

The display module is an interface for the system to interact with a user, and can be stored in a mobile phone app of the user in a client mode.

Example 1

The invention is explained in detail by how the consumer is connected to the consumption measurement system, with reference to fig. 9.

When the system is in operation, after the electric equipment 1 is connected into the power consumption measuring system through the measuring circuit, the power consumption acquisition module informs the local processing system of information of the electric equipment entering the power consumption measuring system, the local processing system automatically detects the type and the model of the electric equipment through the power consumption acquisition module, if the detection is successful, the power consumption acquisition module detects the type and the model information of the electric equipment, the electric equipment 1 is successfully connected with the measuring circuit, the processing module classifies and numbers the electric equipment according to the type and the model and marks the electric equipment as detailed information of the electric equipment, the detailed information of the electric equipment is stored through the information storage processing system, and is uploaded to the remote service system through the local communication module, and the remote service system stores the detailed information in the remote storage module. The local processing system automatically detects the type and the model of the electric equipment through the power consumption acquisition module, if the detection is unsuccessful, the power consumption acquisition module does not detect the type and the model information of the electric equipment, and the local processing system sends prompt information through the user interaction module: if no electric equipment information is detected, please manually input the manufacturer and model information of the electric equipment. The local processing system obtains the manufacturer and model information of the electric equipment manually input by a user through the interaction module. The local processing system numbers the information of the electric equipment according to the access time sequence, and the information of each equipment comprises: equipment number, equipment type, manufacturer and model.

Referring to fig. 5, the information table of the electric devices shows that the user has access to 5 electric devices, which are: equipment numbering: 1, device type: air-conditioner, manufacturer: a, model number: k;

equipment numbering: 2, device type: water dispenser, manufacturer: b, type: k1;

equipment numbering: 3, device type: refrigerator, manufacturer: c, type: k2;

equipment numbering: 4, device type: air-conditioner, manufacturer: d, type: k3;

equipment numbering: 5, device type: computer, manufacturer: e, type: K4.

the specific flow of how the electric equipment is connected into the power consumption measuring system is as follows:

s41: the electric equipment is connected into the electricity consumption measuring system, and S02 is switched;

s42: the power consumption acquisition module informs the local processing system that the electric equipment is accessed to the power consumption measurement system, and S43 is switched;

s43: judging whether the local processing system can detect the equipment type, the manufacturer and the model of the electric equipment or not, if so, turning to S44; if not, turning to S47;

s44: the electric equipment 1 is successfully connected with the measuring circuit, and S45 is switched;

s45: the local processing system classifies and numbers the electric equipment according to the equipment type, the manufacturer and the model, marks the electric equipment as detailed information of the electric equipment, and switches to S46;

s46: the local processing system stores the detailed information of the electric equipment through the information storage processing system, and simultaneously uploads the detailed information to the remote service system through the local communication module, and the remote service system stores the detailed information in the remote storage module.

S47: the local processing system sends prompt information through the user interaction module: if no electric equipment information is detected, the equipment type, the manufacturer and the model of the electric equipment are manually input, and S48 is switched;

s48: the local processing system obtains the equipment type, the manufacturer and the model of the electric equipment manually input by the user through the interaction module, and then the step S46 is executed.

Example 2

In this embodiment, the information storage system includes a login system, and the login system is displayed in the interactive module in the form of a login page.

Preferably, the interactive module is a mobile phone, the information storage system exists in a mobile phone client of the user in the form of APP, and the user logs in or registers through a login page in the information storage system and communicates with the remote service system.

Referring to fig. 5, a login interface presented on a display system for an information storage system may exist in the form of a client in a user's handset. The interface comprises three options of user mobile phone number, password and button item login, registration and password forgetting. The user mobile phone number and the password require the user to manually fill in information.

The user opens the login page, and if the user does not open the login page for the first time and has already registered and logged in the webpage and has recorded login information, the user can log in successfully automatically. If the automatic login is not successful, referring to fig. 5, the user can select a registration button, a registration page is presented, the registration page refers to fig. 13, and the user needs to click a submit button to register after filling in the mobile phone number. After receiving a mobile phone number input by a user, the remote server needs to insert the mobile phone number into data as a unique main key, simultaneously judges whether the mobile phone number is registered, and if the mobile phone number is registered, informs the registered information to the user to prompt whether to reset a password or replace the mobile phone number for re-registration; if the mobile phone number is not registered, the remote server returns a dynamic password to the mobile phone in a short message form, the dynamic password can be repeatedly used or modified, the remote server distributes a unique number to the power consumption measuring system in the local processing system, and the local processing system stores the number through the information storage processing system; the local processing system records the collected information of all the electric equipment in the information storage processing system and transmits the information to the remote server. The local processing system collects information of the electric equipment through the power consumption measuring system, and the specific collection method refers to embodiment 1.

If the user logs in automatically or the user logs in through a login page, the login page refers to a figure 5, in the login page, after the user inputs a mobile phone number and a password, the user clicks a login button to log in, the information storage system detects whether the power consumption equipment accessed to the system changes through the power consumption measurement system, the detection result is that the power consumption equipment is added, the information of the newly added equipment is stored in the information storage system, and meanwhile, the newly added information is informed to the remote server; and deleting the reduced equipment from the information storage system and informing the number of the newly reduced electric equipment to the remote server. Here, the reason for detecting whether the electric device accessing the system has a change is to prevent a new device from being accessed when the entire system is in a closed state, and the access device in embodiment 1 is completed in real time when the entire system is opened.

Referring to fig. 6, the specific process is as follows:

s01, entering a login system, and turning to S02.

S02, judging whether automatic login is available, if yes, turning to S08, if no, turning to S03.

S03, the user judges whether the registration is finished, if yes, the S07 is switched, and if not, the S04 is switched.

And S04, reminding the user to input the mobile phone number, returning the dynamic password to the mobile phone by the remote server in a short message form, wherein the dynamic password can be repeatedly used, and turning to S05.

S05, the remote server assigns a unique number to the electricity consumption measurement system in the local processing system, and goes to S06.

And S06, the local processing system stores the collected information records of all the electric equipment and the network terminal address of the local communication module in the information storage processing system and simultaneously transmits the information records to the remote server, and the remote server registers the network terminal address level and stores the network terminal address in the remote storage module.

S07, enter the login page, go to S08.

And S08, detecting whether the electric equipment accessed to the system changes, and turning to S09 if the electric equipment is increased, and turning to S10 if the electric equipment is decreased.

S09, the information of the newly added device is stored in the information storage system, and the newly added information is informed to the remote server, turning to S11.

And S10, deleting the reduced equipment from the information storage system and informing the number of the newly reduced electric equipment to a remote server.

And S11, ending.

How to detect whether the electric equipment with access system has variation, refer to the following procedures,

s081, scan all devices accessing the electricity consumption measurement system, turn S082.

Example 3

The present invention is described in terms of security verification when a local processing system is in data communication with a remote service system.

The user obtains the distribution number after registering in the remote service system through the interactive module, and then the local processing system needs to carry out safety verification when communicating with the remote service system or carrying out data transmission. And the illegal local processing system client is prevented from accessing the remote service system or carrying out illegal data transmission.

Referring to fig. 8, the specific verification process is as follows:

s21: the local processing system encrypts and transmits the network terminal address of the local communication module together with basic information as connection request information to the remote server, and then waits for confirmed response information, wherein the network terminal address of the local communication module generally refers to a physical address of a network card, and the network card is uniquely confirmed after leaving the factory, and is unchangeable, so that the process goes to S22.

S22: the remote server receives the connection request information to analyze, analyzes the network terminal address and determines the network terminal information, and goes to S23.

S23: the remote service system judges whether the network terminal information is registered, the judgment method is to search the network terminal address information in the remote server, the network terminal address information is registered if the inquiry result is present, the network terminal address information is registered if the inquiry result is not present, the network terminal address information is not registered if the inquiry result is not present, the S25 is switched to if the inquiry result is yes, and the S24 is switched to if the judgment result is not present.

S24: the remote service system transmits warning information that illegal connection information is not registered to the local processing system.

S25: the remote service system sends a confirmation response message for connection establishment to the local processing system, turning to S26.

S26: the local processing system encrypts and transmits the unique number of the user end as additional information together with the information to be transmitted, preferably, the transmission information includes the network terminal address transmitted by the local processing system to the remote service system in step S06 of embodiment 2, and the transmission information further includes information transmitted by the local processing system to the electrical equipment of the remote service system in step S06 of embodiment 2 and detailed information transmitted by the local processing system to the electrical equipment of the remote service system in embodiment 1, and the process goes to S27.

S27: the remote service system decrypts the additional information to S28.

S28: judging whether the unique number of the user side is legal or not, wherein the judging method is that whether the unique number of the user side is distributed to the local processing system by the remote service system in the embodiment 2 or not, judging whether the unique number of the user side corresponds to the mobile phone number of the user or not in order to further ensure the transmission safety, if so, turning to S30, and if not, turning to S29.

S29: and sending warning information that the unique number of the user side is illegal to the local processing system.

S30: and judging whether the unique number of the user side is matched with the network terminal address, if so, switching to S31, and if not, switching to S32.

S31: the remote server sends a response message of successful transmission to the local processing system.

Example 4: the invention relates to a method for predicting the power consumption of electric equipment, which is used for guiding a user to pre-pay electric charge.

Most of the existing power utilization systems require users to pre-pay the electric charges in advance, but no constructive guiding suggestion is made on how much electric charges are pre-paid in advance.

Referring to fig. 11, the pre-paid electricity fee guidance interface is opened through the interactive module. In the interface, a typeface for selecting the pre-payment time period is displayed, and the typeface comprises starting time and ending time for a user to select. After the user finishes filling, clicking the determining button, detecting and classifying all the electric equipment operated by the system through the information storage module after the power consumption prediction module receives the starting time and the ending time filled by the user, classifying the equipment into electric equipment influenced by seasons and electric equipment not influenced by the seasons, and supposing that five electric equipment are provided in total according to the reference of fig. 5, namely two air conditioners, water dispensers, refrigerators and computers. The air conditioner belongs to equipment influenced by seasons, generally, a plurality of air conditioners are used in winter and summer, and a water dispenser, a refrigerator and a computer belong to electric equipment which is not influenced by seasons. Power consumption prediction module pass detection module

S50: the user selects the start-stop time period of the pre-paid electricity fee through the interactive module, and the process goes to S51.

S51: the power consumption prediction module obtains the start-stop time filled in by the user in the interaction module, and goes to S52.

S52: and the power consumption prediction module detects and classifies all the electric equipment in all the existing systems through the information storage module, and then the step S53 is carried out.

S53: the power consumption prediction module classifies the devices as seasonal-affected and non-seasonal-affected powered devices, and moves to S54.

S54: judging whether newly added electric equipment exists in the same day or not, wherein the judging method comprises the steps of scanning all equipment accessed into the power consumption measuring system, comparing the equipment with the equipment information which is recorded in the information storage system and stored in the past today, and judging whether added equipment exists or not; if the determination result is yes, the routine proceeds to S56, and if the determination result is no, the routine proceeds to S55.

S55: calculating the consumed electric quantity of the electric equipment which is not influenced by seasons by using an electric consumption recording system; the calculation method comprises the steps that the electricity consumption recording system records the daily electricity consumption of the user, the total electricity consumption is calculated through the daily electricity consumption, the total electricity consumption is divided equally through the using days, the average daily electricity consumption is calculated, and the daily electricity consumption is multiplied by the effective days between the starting time and the ending time to calculate the electricity consumption of the electric equipment which is not affected by seasons.

The invention aims to provide approximate consumed electric quantity data for a user to refer to, so that the data value does not need to be accurate only if the data value is not too far away from a spectrum, and the electric consumption recording system can update the data according to the record in the remote service system. Preferably, the air conditioner is used for a long time in winter and summer, the consumed electric quantity is set to be 10-20 degrees of electricity every day, the used time in spring and autumn is short or not, and the consumed electric quantity is set to be 5-10 degrees of electricity.

S56: and the newly added equipment cannot find the record in the power consumption recording system on the same day, and the power consumption of the power consumption equipment is set by the newly added equipment according to the general standard. The general standard is recorded in the remote service system, a person skilled in the art can set the general standard in the remote service system, and the invention aims to provide approximate power consumption data for a user to refer, so that the data value does not need to be accurate as long as the data value is not too far from the spectrum, and the power consumption recording system updates the data according to the record in the remote service system. Preferably, the air conditioner belongs to electric equipment influenced by seasons, the using time in winter and summer is longer, the consumed electric quantity is set to be 10-20 degrees of electricity every day, the using time in spring and autumn is shorter or not, and the consumed electric quantity is set to be 5-10 degrees of electricity. Electric equipment which is not affected by seasons, such as a water dispenser, consumes 1-1.5 degrees of electricity every day; the refrigerator can be set to consume 1-1.2 degrees of electricity every day; the computer consumes 3-5 degrees of electricity every day.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The power consumption prediction system of the electric equipment is characterized by comprising a local processing system, wherein the local processing system comprises a power consumption measuring system, a power consumption recording system and a power consumption prediction processing system; the power consumption measuring system is connected with the electric equipment and is used for measuring the electric quantity value consumed by the electric equipment;

the power consumption recording system is connected with the power consumption measuring system and is used for recording the power consumption value of the electric equipment; the power consumption prediction processing system is connected with the power consumption recording system and predicts the power consumption value of the electric equipment consumed in a specific period of time in the future according to the data recorded by the power consumption recording system;

the local processing system also comprises an electric appliance information storage processing system and an electric appliance access security verification system; when the electric equipment is connected to the local processing system, the electric appliance access safety verification system identifies basic information of the electric equipment, and after the electric appliance access safety verification system succeeds in identifying the basic information of the electric equipment, the electric appliance information storage processing system stores the basic information of the electric equipment, wherein the basic information of the electric equipment comprises the type and model information of the electric equipment;

the prediction method of the power consumption prediction processing system comprises the following specific steps:

s51: the power consumption detection system obtains the start-stop time filled in by the user in the interactive module, and then S52 is executed;

s52: the power consumption detection system detects and classifies all the electric equipment in all the existing systems through the information storage module, and then S53 is carried out;

s53: the power consumption detection system divides the equipment into electric equipment which is influenced by seasons and electric equipment which is not influenced by the seasons, and the step S54 is switched to, wherein the electric equipment which is influenced by the seasons consumes electric quantity according to the same season in the previous year, if the related recorded value can not be searched, the electric energy consumption is set according to a general standard, and the general standard is recorded in the remote service system;

s54: judging whether newly added electric equipment exists in the same day or not, wherein the judging method comprises the steps of scanning all equipment accessed into the power consumption measuring system, comparing the equipment with the equipment information which is recorded in the information storage system and stored in the past today to see whether increased equipment exists or not, if so, switching to S56, otherwise, switching to S55;

s55: the method for calculating the consumed electric quantity of the electric equipment which is not affected by seasons by the electric consumption recording system comprises the following steps: the power consumption recording system records the daily power consumption of the user, calculates the total power consumption through the daily power consumption, equally divides the total power consumption through the using days, calculates the average daily power consumption, and calculates the power consumption of the power equipment which is not affected by seasons by multiplying the daily power consumption by the effective days between the starting time and the ending time;

2. The power consumption prediction system of claim 1, further comprising a remote service system, wherein the remote service system comprises a remote communication module and a remote storage module, the local processing system further comprises a local communication module, and the remote service system is connected to the local processing system through the remote communication module and the local communication module.

3. The method for registering and logging in the power consumption prediction system of electric equipment according to claim 1, wherein the user performs the registration and logging in method through the information storage system of the local processing system, and the information storage system displays a login interface in the interactive module, and the specific registration and logging in method is as follows:

s01, entering a login system;

s07, entering a login page, turning to S08;

s10, deleting the reduced equipment from the information storage system and informing the number of the newly reduced electric equipment to a remote server; and S11, ending.

4. The method of claim 3, wherein the step S08 of detecting whether there is a change in the electric equipment accessing the system comprises the following steps:

5. A security verification method in data communication using the power consumption prediction system for electric devices according to claim 1, the security verification method comprising the steps of: s21: the local processing system encrypts and sends the network terminal address of the local communication module together with the basic information as connection request information to the remote server, then waits for confirmed response information, and goes to S22;

6. The security verification method of claim 5, wherein in step S23, the determination method of whether the network terminal information is registered is to search the network terminal address information in the remote server, and if the search result is present, the network terminal is registered, and if the search result is not present, the network terminal is not registered;

in step S28, the method determines whether the unique number of the user end is allocated to the local processing system by the remote service system, and determines whether the unique number of the user end corresponds to the mobile phone number of the user in order to further ensure the transmission security.