CN111968006A - Remote charge control system of comprehensive energy marketing service based on Internet of things technology - Google Patents

Abstract

Remote charge control system of comprehensive energy marketing service based on internet of things technology, this system includes: the system comprises a charge control energy device, a metering automation subsystem and a comprehensive energy marketing subsystem; the charge control energy equipment is used for sending the acquired first account residue to the comprehensive energy marketing subsystem; and sending the acquired energy consumption data to the metering automation subsystem. And the metering automation subsystem is used for checking and metering the acquired energy consumption data, encrypting the checked and metered energy consumption data, and sending the encrypted energy consumption data to the comprehensive energy marketing subsystem. The comprehensive energy marketing subsystem carries out expense measurement and calculation on the decrypted energy consumption data, compares the expense measurement and calculation result with the balance of the first account, and generates an energy stopping instruction according to the comparison result so as to control the expense control energy equipment to execute energy stopping operation, so that the energy equipment can be timely controlled to stop energy supply according to the balance condition of the user account, and the loss of energy enterprises is reduced.

Description

Remote charge control system of comprehensive energy marketing service based on Internet of things technology

Technical Field

The invention relates to the technical field of Internet of things, in particular to a remote cost control system for comprehensive energy marketing service based on the Internet of things technology.

Background

At present, with the acceleration of energy transformation, the continuous deepening of electric power system reform and the rapid development of interconnection and technology, the relationship among energy enterprises, energy and users becomes tighter and tighter, and under the situation that the demand of customers is increasing, the improvement of marketing automation level becomes increasingly important. At present, under the big background of energy production and consumption revolution, the comprehensive energy service has become the new state of energy of noticing attention, in order to adapt to the demand of people's life to energy supply quality and, energy enterprises are following the positive transition of energy revolution trend, utilize marketing business system more convenient to realize customer's automation through technical means and pay fee and energy consumption, detect the data of energy quantity and energy cost at any time, provide more reliable, intelligent, convenient, the service of quality to the majority of users, become inevitable epoch trend.

When using energy service, the resident user needs to pay a certain use fee. However, in practice, part of users can be defaulted to the use fee, and if the users with defaulted use fees are continuously provided with services, the energy enterprises are lost. Therefore, there is a need to find a new energy management technology to overcome the deficiencies of the prior art.

Disclosure of Invention

The embodiment of the application discloses a remote charge control system of comprehensive energy marketing service based on the technology of Internet of things, which can timely control energy equipment to stop supplying energy according to the balance condition of a user account.

The utility model provides a remote expense control system of comprehensive energy marketing service based on internet of things, its characterized in that, the system includes: the system comprises a comprehensive energy marketing subsystem, a metering automation subsystem and cost control energy equipment; the metering automation subsystem comprising: the energy consumption checking module, the energy metering password module and the remote charge control stop and recovery module are arranged in the energy consumption checking module;

the charge control energy equipment is used for acquiring a first account balance corresponding to a marketing archive account of a user and then sending the first account balance to the comprehensive energy marketing subsystem; the user marketing profile account is established when the cost control energy equipment is started for the first time; the energy consumption checking module is used for acquiring energy consumption data in marketing business and sending the acquired energy consumption data to the energy consumption checking module; wherein the energy consumption data comprises electricity consumption data, gas consumption data and water consumption data;

the energy consumption checking module is used for acquiring the energy consumption data, checking the energy consumption data and metering the energy consumption data;

the energy metering cryptographic module is used for encrypting the checked and metered energy consumption data and sending the encrypted energy consumption data to the comprehensive energy marketing subsystem;

the comprehensive energy marketing subsystem is used for decrypting the encrypted energy consumption data to obtain the decrypted energy consumption data; carrying out expense measurement and calculation on the decrypted energy consumption data to obtain an expense measurement and calculation result; comparing the expense measurement result with the balance of the first account to obtain a comparison result; generating a first stop instruction according to the comparison result, and sending the first stop instruction to the remote charge control stop and re-energy module;

the remote charge control stop and energy recovery module is used for generating a second stop instruction according to the first stop instruction and sending the second stop instruction to the charge control energy equipment;

and the charge control energy equipment is used for executing the stop operation according to the second stop instruction.

As an optional implementation manner, in an embodiment of the present application, the energy usage checking module is specifically configured to obtain the energy usage data, and perform table code checking on the energy usage data according to a preset data checking service rule; correcting an abnormal table code with an abnormal table code check result in the energy consumption data to obtain the corrected energy consumption data; measuring the corrected energy consumption data to obtain a measuring result;

the energy metering cryptographic module is specifically used for encrypting the metering result and sending the encrypted metering result to the comprehensive energy marketing subsystem as the encrypted energy consumption data.

As an optional implementation manner, in an embodiment of the present application, the checking the business rule by using the preset data includes:

meter reading time anomalies including: the meter reading date of the existing meter group at the current period of the metering point is less than the meter reading date at the previous period; or the meter reading date of the existing meter group at the current period of the metering point is empty; or the meter reading date of the current period existing in the meter group at the metering point is empty; the type of electricity consumption at the current metering point is that of electricity consumption of a large industrial user, and the current meter reading date at the current metering point is not one day; or the electricity utilization type of the metering point current period is the electricity utilization of market-oriented transaction users, and the meter reading date of the metering point current period is not one day;

the ammeter walks backward, includes: the end of the measurement point schedule group is less than the minimum;

a start-stop exception comprising: metering the point date without change record and recording the point date with a table group at least not equal to the last stop code; or, the metering point date does not change the table and records that the table group in the point date is not equal to the last end code at least;

the table code is null, including: the meter group meter reading mark existing in the current period of the metering point is read but is empty at least; or the meter group meter reading mark existing in the current period of the metering point is read but the stop code is empty.

As an optional implementation manner, in the examples of the present application:

the comprehensive energy marketing subsystem is further used for verifying the expense measurement result according to a preset energy expense checking rule after the expense measurement result is obtained, and correcting measurement abnormal data with abnormal verification result in the expense measurement result to obtain a corrected expense measurement result; and the number of the first and second groups,

the comprehensive energy marketing subsystem is specifically used for acquiring an account balance corresponding to the user marketing file account, and comparing the corrected expense measurement result with the account balance to obtain a comparison result.

As an optional implementation manner, in an embodiment of the present application, the preset energy cost check rule includes:

when the electricity charge ring ratio of the large electricity charge user changes suddenly, the checking result is abnormal; alternatively, the first and second electrodes may be,

and when the electricity charge of the large electricity charge user changes suddenly according to the same ratio, the checking result is abnormal.

As an optional implementation manner, in the embodiment of the present application, it is characterized in that:

the comprehensive energy marketing subsystem is also used for generating an abnormal check log according to the check result of the expense measurement and calculation result; the checking log is used for carrying out manual checking.

As an optional implementation manner, in the examples of the present application:

the comprehensive energy marketing subsystem is specifically used for comparing an early warning threshold corresponding to the corrected expense measurement and calculation result with the balance of the first account when the fact that automatic stopping is allowed is identified;

when the balance of the first account is larger than an early warning threshold value corresponding to the corrected expense measurement result, automatically deducting the marketing file account of the user; and the number of the first and second groups,

when the balance of the first account is smaller than the early warning threshold value corresponding to the corrected expense measurement result, sending a time limit payment and fee urging notice to a user terminal bound with the user marketing file account; the time limit payment reminding notice is used for indicating a user to recharge the marketing file account of the user within a payment time limit; and the number of the first and second groups,

when the payment period is over, acquiring the account balance corresponding to the marketing file account of the user again to obtain a second account balance; and the number of the first and second groups,

comparing the energy stopping threshold corresponding to the corrected expense measurement result with the balance of the second account; when the balance of the second account is smaller than the stop threshold value through comparison, generating a first stop instruction for indicating stop, and sending the first stop instruction for indicating stop to the remote charge control stop re-enabling module;

the remote charge control stop and energy recovery module is specifically used for generating a second control instruction indicating stop according to the first stop instruction indicating stop and sending the second control instruction indicating stop to the charge control energy equipment;

and the charge control energy equipment is specifically used for executing the energy stopping operation according to the second control instruction for indicating energy stopping.

As an optional implementation manner, in the examples of the present application:

the comprehensive energy marketing subsystem is also used for sending an artificial energy stopping instruction to the pre-bound charge control service terminal when recognizing that the automatic energy stopping is not allowed; the manual energy stopping instruction is used for indicating service personnel using the charge control service terminal to perform manual energy stopping through the charge control service terminal;

and the comprehensive energy marketing subsystem is further used for sending a stopping prompt message to a user terminal bound with the user marketing file account when receiving a stopping success notice sent by the charge control energy equipment, and updating the energy state of the charge control energy equipment to a stopping state.

As an optional implementation manner, in the examples of the present application:

the comprehensive energy marketing subsystem is further used for acquiring the balance of a third account of the user marketing archive account again when a successful disabling notification sent by the cost control energy equipment is received and the user marketing archive account is detected to be charged; comparing the balance of the third account with the disabling threshold;

when the balance of the third account is greater than the stopping threshold value and the user type corresponding to the user marketing file account is a special transformer user, sending a re-enabling notification to a user terminal corresponding to the user marketing file account; the energy recovery notification is used for prompting a user to carry out manual energy recovery on the cost control energy equipment;

when the balance of the third account is greater than the disabling threshold and the user type corresponding to the user marketing archive account is not a special change user, generating a first re-enabling instruction for indicating re-enabling, and sending the first re-enabling instruction to the remote cost control disabling and re-enabling module;

the remote charge control stop and energy recovery module is further used for generating a second energy recovery instruction according to the first energy recovery instruction and sending the second energy recovery instruction to the charge control energy equipment;

and the charge control energy equipment is also used for executing the energy recovery operation according to the second energy recovery instruction.

As an optional implementation manner, in the examples of the present application:

the comprehensive energy marketing subsystem is also used for sending an artificial energy recovery instruction to a pre-bound charge control service terminal when receiving an energy recovery failure notice sent by the charge control energy equipment; and the manual re-energy instruction is used for indicating the service personnel using the charge control service terminal to perform manual re-energy.

Compared with the prior art, the embodiment of the application has the following beneficial effects:

by implementing the remote charge control system of the comprehensive energy marketing service based on the Internet of things technology, disclosed by the embodiment of the application, the balance of a user account of charge control energy equipment can be obtained; the energy consumption code data of the cost control energy equipment is automatically checked and metered, so that the model cost is calculated by utilizing the energy consumption code data; comparing the measured cost with the balance of the user account number to determine whether the cost-controlled energy equipment needs to be stopped; if so, the energy stopping operation is executed on the cost control energy equipment, so that the energy equipment can be controlled to stop supplying energy in time according to the balance condition of the user account, and the loss of the energy enterprise caused by the expense default is reduced.

Drawings

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

Fig. 1 is a schematic structural diagram of a remote cost control system for an integrated energy marketing service based on the internet of things technology according to an embodiment of the present application;

fig. 2 is a schematic flow chart of a remote fee control method of an integrated energy marketing service based on internet of things technology according to an embodiment of the present application;

FIG. 3 is a schematic flow chart diagram illustrating a remote disabling method according to an embodiment of the present disclosure;

fig. 4 is a flowchart illustrating a remote energy recovery method according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is to be noted that the terms "comprises" and "comprising" and any variations thereof in the examples and figures of the present application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The embodiment of the application discloses a remote charge control system of comprehensive energy marketing service based on the technology of Internet of things, which can timely control energy equipment to stop supplying energy according to the balance condition of a user account. The details will be described below.

Please refer to fig. 1-3. Fig. 1 is a schematic structural diagram of a remote cost control system of an integrated energy marketing service based on the internet of things technology disclosed in an embodiment of the present application. As shown in fig. 1, the remote fee control system for the integrated energy marketing service based on the internet of things technology includes:

a comprehensive energy marketing subsystem 1;

a metering automation subsystem 2, wherein the metering automation subsystem 2 is used for information interaction with the comprehensive energy marketing subsystem 1;

a charge-controlled energy device 3, the charge-controlled energy device 3 being configured to interact with the metering automation subsystem 2; the charge control energy device 3 may be an energy meter such as a water meter, an electricity meter, a gas meter, and the like, and is not particularly limited;

the metering automation subsystem 2 comprises an energy consumption checking module 21, an energy metering password module 22 and a remote charge control stop and recovery module 23; the energy consumption checking module 21, the energy metering and password module 22 and the remote charge control stop/energy recovery module 23 respectively perform information interaction with the comprehensive energy marketing subsystem 1 and the charge control energy equipment 3;

the remote fee control system can execute the following operations:

1.1, when the system is started for the first time, establishing a user marketing file account through the cost control energy equipment 3, resetting marketing file data, and synchronizing the information of the user marketing file account to the metering automation subsystem 2 and the comprehensive energy marketing subsystem 1;

1.2, acquiring energy consumption data corresponding to the user marketing file by using the charge control energy equipment 3 and sending the acquired energy consumption data to the energy consumption checking module 21 for storage; wherein, the energy consumption data can comprise electricity consumption data, gas consumption data and water consumption data; the energy consumption data corresponding to the user marketing files are counted in the marketing business;

1.3, after the acquired energy consumption data is checked and measured by the energy consumption checking module 21, the checked energy consumption data is encrypted and managed by the energy measurement password module 22 and is sent to the comprehensive energy marketing subsystem 1 for storage;

1.4, the comprehensive energy marketing subsystem 1 is adopted to perform expense measurement and calculation on the checked energy consumption data and compare the expense measurement and calculation result with the first account balance of the user marketing file account to obtain a comparison result, the comprehensive energy marketing subsystem 1 sends a comparison result instruction to the remote expense control stop/re-enable module 23 according to the comparison result, and the remote expense control stop/re-enable module 23 sends a new instruction to the expense control energy equipment 3 according to the received comparison result instruction to perform remote stop/re-enable operation or remote re-enable operation. Wherein, the above-mentioned disabling operation may refer to stopping the energy supply; the reactivation operation may refer to restoring the energy supply.

That is, the stop and the re-energy of the cost-controlled energy facility can be controlled based on the remote cost control system shown in fig. 1. Specifically, referring to fig. 2, fig. 2 is a schematic flow chart of a remote fee control method of an integrated energy marketing service based on the internet of things technology according to an embodiment of the present application. As shown in fig. 2, the remote fee control method for the integrated energy marketing service based on the internet of things technology may include the following steps:

201. the cost control energy equipment 3 establishes a user marketing archive account number, clears marketing archive data and synchronizes the information of the user marketing archive account number.

202. The cost-controlled energy device 3 acquires energy usage data.

203. The energy consumption checking module 21 checks, measures and encrypts the acquired energy consumption data.

204. And the comprehensive energy marketing subsystem 1 carries out energy consumption charge measurement and calculation according to the energy consumption data, and compares the charge measurement and calculation result with the first account balance of the user marketing file account number.

205. And the comprehensive energy marketing subsystem 1 controls the charge control energy equipment 3 to execute the energy stopping operation or the energy recovering operation according to the comparison result.

As an optional implementation manner, in operation 1.3, the following processing procedure may be specifically included:

2.1, performing table code checking on the acquired energy consumption data through a data checking service rule preset in the energy consumption checking module 21, identifying an abnormal table code and correcting the abnormal table code;

2.2, metering the corrected energy consumption data through an energy consumption checking module 21;

and 2.3, encrypting the measurement result of the energy consumption data by using the energy measurement cryptographic module 22, and sending the encrypted measurement result to the comprehensive energy marketing subsystem 1 for storage.

In this embodiment, the automatic metering subsystem may perform automatic check and correction on the energy usage data sent by the cost-controlled energy device 3, so as to reduce errors in the cost calculation result caused by abnormal data and improve the accuracy of the cost calculation.

In a further optional implementation manner, in operation 2.1, the preset data checking business rule includes:

3.1, meter reading time is abnormal, and the method comprises the following steps: the meter reading date of the existing meter group at the current period of the metering point is less than the meter reading date at the previous period; or the meter reading date of the existing meter group at the current period of the metering point is empty; or the meter reading date of the current period existing in the meter group at the metering point is empty; or the electricity utilization category of the metering point current period is a large industrial user, and the current meter reading date of the metering point current period is not 1 day; or the electricity utilization type of the metering point current period is a marketized transaction user, and the current meter reading date of the metering point current period is not 1 day.

3.2, the electric meter is turned over: the end of the measurement point schedule group is less than the minimum;

3.3, at least abnormal: the metering point does not change the record in the current period and the recording point has a table group at the current period at the beginning not equal to the last end code, or the metering point does not change the table in the current period and the recording point has a table group at the current period at the beginning not equal to the last end code;

3.4, the recorded date code or the current date code is empty: and (3) the meter reading mark of the meter group existing at the current period of the metering point is read but is empty at least, or the meter reading mark of the meter group existing at the current period of the metering point is read but is empty at the end of the meter reading mark.

As another optional implementation manner, in operation 1.4, the following processing procedure may be specifically included:

4.1, the comprehensive energy marketing subsystem 1 checks the energy consumption and expense measurement and calculation result through an energy expense check rule preset in the comprehensive energy marketing subsystem 1, identifies abnormal measurement and calculation data and corrects the abnormal measurement and calculation data;

4.2, the comprehensive energy marketing subsystem 1 compares the energy consumption expense measurement result after abnormal data service processing in the operation 4.1 with the first account balance, and when the first account balance is larger than an early warning threshold value corresponding to the energy consumption expense measurement result, the comprehensive energy marketing subsystem 1 automatically deducts fees and controls the fee control energy equipment 3 to keep an energy use state;

when the balance of the user account is smaller than the early warning threshold value of the energy consumption and expense measurement result, the comprehensive energy marketing subsystem 1 generates a payment user list and an energy stopping user list, and sends an instruction to the remote energy-consumption-control energy stopping and recovering module 23 so as to control the energy-consumption-control energy equipment 3 to execute energy stopping operation or energy recovering operation through the remote energy-consumption-control energy stopping and recovering module.

In the above operation 4.1, the preset energy cost check rule includes:

5.1, automatically checking the accuracy of energy charge calculation by using a preset energy charge calculation business rule; the preset energy charge accounting business rule comprises the following steps:

the ring ratio of the electric charge of the large-electricity-charge user is suddenly changed, namely the number of days of the on-period electricity utilization at the metering point is equal to zero, and the user category of the user in the current period comprises user category parameters and the sudden change of the electric charge of the user in the current period.

The electricity charges of the users with large electricity charges are suddenly changed in the same ratio, namely, the number of days of the current electricity utilization at the metering point is equal to zero, and the user category of the current period of the user comprises the user category parameter, the daily average electricity charge of the current period of the user and the daily average electricity charge of the current period of the user in the same period of the last year, which belong to the number of days of the coincidence date.

5.2 the comprehensive energy marketing subsystem 1 generates a check log according to the check result of the expense measurement and calculation result; the checking log is used for checking exception handling so as to uniformly and intensively handle users who check exceptions;

and 5.3, the comprehensive energy marketing subsystem 1 distributes the processed expense measurement and calculation result to the pre-bound expense control service terminal.

As another alternative, in the above operation 4.2, the flow of controlling the cost-controlled energy device 3 to perform the disabling operation may be as follows:

7.1a, the comprehensive energy marketing subsystem 1 automatically compares the first account balance with an early warning threshold value corresponding to the energy consumption and expense measurement result;

7.2a, when the balance of the first account is smaller than an early warning threshold value corresponding to the energy consumption measuring and calculating result, the comprehensive energy marketing subsystem 1 sends a limited period payment and charging prompting notice to the user, namely, the comprehensive energy marketing subsystem 1 sends the limited period payment and charging prompting notice to a user terminal bound with the user marketing file account;

7.3a, after the limited period payment period is ended, automatically comparing the balance of the second account with the stop threshold value corresponding to the energy consumption expense measurement result by the comprehensive energy marketing subsystem 1; the second account balance may be an account balance obtained again when the payment period is over;

7.4a, when the balance of the second account is larger than the early warning threshold value corresponding to the energy consumption and expense measurement result, the comprehensive energy marketing subsystem 1 automatically deducts fees and controls the expense control energy equipment 3 to execute energy recovery operation, and when the balance of the second account is still smaller than the energy stopping threshold value corresponding to the energy consumption and expense measurement result, the comprehensive energy marketing subsystem 1 automatically generates an energy stopping work order and sends an energy stopping notice to a user; the energy stopping threshold corresponding to the energy consumption expense measurement result can be smaller than or equal to the early warning threshold corresponding to the energy consumption expense measurement result; sending a stopping notification to the user, wherein the stopping notification can comprise that the stopping work order is sent to a user terminal bound with the user marketing file account;

7.5a, the generated energy stop work order is checked by the charge control personnel, if the account balance of the user is still smaller than the energy consumption expense calculation result early warning threshold value or the account balance of the user is smaller than the energy stop threshold value, the check is passed, and automatic energy stop is allowed; otherwise, the audit is not passed, and automatic stopping is not allowed; in the present embodiment, the operation of 7.5a is not necessary, and in some possible implementations, the manual review shown in 7.5a may be skipped; in addition, the disabling auditing operation of 7.5a may also be performed in a pre-stage manner, that is, the operation of 7.5a may be performed first to audit whether the automatic disabling is possible, and then the operations shown in 7.2a-7.4a may be performed, which is not limited in particular.

7.6a, judging whether the integrated energy marketing subsystem 1 allows automatic stop, if the integrated energy marketing subsystem 1 allows automatic stop, automatically comparing the balance of the second user account with the stop threshold value by the integrated energy marketing subsystem 1:

if the balance of the second user account is larger than the energy stopping threshold value, the user is transferred to a remote energy recovering management process;

if the balance of the second user account is still smaller than the stop threshold value, the comprehensive energy marketing subsystem 1 sends a first stop instruction to the remote charge control stop/recovery module 23, the remote charge control stop/recovery module 23 generates a second stop instruction according to the first stop instruction, and sends the second stop instruction to the charge control energy equipment 3, so that the charge control energy equipment 3 executes stop operation according to the second stop instruction, and the remote stop effect can be achieved;

the charge control energy equipment 3 is also used for sending a successful stopping notification to the comprehensive energy marketing subsystem 1 when the stopping operation is successfully executed, so that the comprehensive energy marketing subsystem 1 sends stopping prompt information to the user terminal bound with the user marketing file account, and the energy state of the charge control energy equipment 3 is updated to be in a stopping state;

the charge control energy equipment 3 is also used for sending a failure shutdown notification to the comprehensive energy marketing subsystem 1 when the shutdown operation is not successfully executed, so that the comprehensive energy marketing subsystem 1 sends a manual shutdown instruction to a pre-bound charge control service terminal; the manual energy stopping instruction is used for indicating business personnel using the charge control business terminal to perform manual energy stopping through the charge control business terminal;

in addition, as another optional implementation, the integrated energy marketing subsystem 1 may further send the above manual disabling instruction to a pre-bound fee control service terminal to perform manual disabling when it is determined that automatic disabling is not allowed.

Referring to fig. 3, fig. 3 is a schematic flow chart of a remote disabling method according to an embodiment of the present disclosure. As shown in fig. 3, the remote disabling method may include the steps of:

301. the comprehensive energy marketing subsystem 1 automatically judges whether the balance of the first account of the user is smaller than an early warning threshold value corresponding to the energy consumption and expense measuring and calculating result; if yes, go to step 302; if not, go to step 303.

302. The comprehensive energy marketing subsystem 1 sends a notice of payment due for a limited period to the user terminal bound with the user marketing archive account, and continues to execute step 301.

303. And the comprehensive energy marketing subsystem 1 deducts the account of the user marketing file account number.

304. After the limited period payment deadline is over, the comprehensive energy marketing subsystem 1 acquires the balance of a second account and judges whether the balance is less than a stop threshold value corresponding to the energy consumption expense measurement result or not or whether the balance is less than a corresponding early warning threshold value or not; if yes, go to step 305; if not, the process returns to step 301 to continuously determine whether the account balance is sufficient.

305. And generating a stop work order and sending a stop notice.

306. Checking whether the automatic stopping is allowed or not according to the stopping work order; if yes, go to step 308; if not, go to step 307.

307. And sending an artificial energy stopping instruction to the pre-bound charge control service terminal, wherein the artificial energy stopping instruction is used for instructing service personnel using the charge control service terminal to carry out artificial energy stopping through the charge control service terminal.

308. The comprehensive energy marketing subsystem 1 judges whether the balance of the second account is smaller than an energy stopping threshold value corresponding to the energy consumption and expense measuring and calculating result; if yes, go to step 309; if not, continue to step 301.

In the embodiment of the present application, it is understood that, when the step 304 is executed to determine that the balance of the second account is smaller than the energy consumption rate calculation result, after the step 305-the step 306 are executed to determine that the automatic stop is allowed, the step 309 may be directly executed without executing the step 308; when the step 304 is executed to determine that the balance of the second account is less than the warning threshold corresponding to the energy consumption calculation result, and the steps 305-306 are executed to determine that the automatic stop is allowed, the step 308 may be executed.

309. The integrated energy marketing subsystem 1 sends a first stop instruction to the remote charge control stop/recovery module 23.

310. The remote fee control stop/re-enable module 23 generates a second stop instruction according to the first stop instruction, and sends the second stop instruction to the fee control energy device 3, so that the fee control energy device 3 can execute stop operation according to the second stop instruction.

311. The charge control energy device 3 judges whether the stop is successful; if yes, go to step 312; if not, go to step 313.

312. The charge control energy equipment 3 sends a successful stopping notification to the comprehensive energy marketing subsystem 1, so that the comprehensive energy marketing subsystem 1 sends stopping prompt information to the user terminal bound with the user marketing file account, and the energy state of the charge control energy equipment 3 is updated to be in a stopping state.

313. The charge control energy equipment 3 sends a failure stopping notification to the comprehensive energy marketing subsystem 1, so that the comprehensive energy marketing subsystem 1 sends an artificial stopping instruction to the pre-bound charge control service terminal, and service personnel can stop the artificial stopping through the charge control service terminal.

It can be seen that when the embodiment is used specifically, firstly, when the energy consumption control system is started for the first time, the user marketing archive account information is established through the energy consumption control device 3, marketing archive data is cleared, then the user marketing archive account information is synchronized to the metering automation subsystem 2 and the comprehensive energy marketing subsystem 1, then the energy consumption data in marketing business is acquired through the energy consumption control device 3, and the acquired table code data is interactively stored in the energy consumption checking module 21 through information, the obtained energy consumption data is checked through the data checking business rule preset in the energy consumption checking module 21, the abnormal table code is identified and the energy consumption data after business processing is measured through the energy consumption checking module 21, meanwhile, the energy metering cryptography module 22 is used for encrypting the energy metering data and storing the encrypted data in the comprehensive energy marketing subsystem 1 through information interaction; secondly, the comprehensive energy marketing subsystem 1 is adopted to carry out expense measurement and calculation on the checked electricity, gas and water energy consumption data, energy consumption measurement and calculation results are checked through an energy consumption check rule preset in the comprehensive energy marketing subsystem 1, abnormal measurement and calculation data are identified and subjected to business processing, and the energy consumption measurement and calculation results after the abnormal data business processing are compared with the balance of a user; then, the comprehensive energy marketing subsystem 1 is used for automatically comparing the balance of a user account with an energy consumption calculation result early warning threshold value, when the balance of the user account is larger than the energy consumption calculation result early warning threshold value, the comprehensive energy marketing subsystem 1 automatically deducts fees and keeps an energy use state, when the balance of the user account is smaller than the energy consumption calculation result early warning threshold value, a payment user list and an energy stop user list are generated, the comprehensive energy marketing subsystem 1 sends a limited-period payment prompting notice to the user, after a limited-period payment period is over, the comprehensive energy marketing subsystem 1 automatically compares the balance of the user account with the energy consumption calculation result early warning threshold value and the energy stop threshold value, when the balance of the user account is larger than the energy consumption calculation result early warning threshold value, the comprehensive energy marketing subsystem 1 automatically deducts fees and shifts to remote energy recovery management, when the account balance of the user is still less than the energy consumption expense measurement result early warning threshold value or the user account balance is less than the energy stop threshold value, the comprehensive energy marketing subsystem 1 automatically generates an energy stop work order and sends an energy stop notice to the user, and the cost control personnel checks the generated energy stop work order, if the account balance of the user is still less than the energy consumption expense measurement result early warning threshold value or the user account balance is less than the energy stop threshold value, the checking is passed, otherwise, the checking is not passed; finally, the comprehensive energy marketing subsystem 1 judges whether the automatic stopping is allowed or not, if the automatic stopping is allowed, the comprehensive energy marketing subsystem 1 automatically compares the account balance of the user with a stopping threshold value, if the account balance of the user is larger than the stopping threshold value, the user is transferred to remote stopping management, if the account balance of the user is still smaller than the stopping threshold value, the comprehensive energy marketing subsystem 1 sends a stopping instruction to a remote charge control stopping and stopping module 23 to execute remote stopping operation, then the remote charge control stopping and stopping module 23 sends the stopping instruction to the charge control energy equipment 3 to execute remote stopping operation, if the remote automatic stopping is successful, a stopped short message is sent to the user and the stopping state information is updated, if the automatic stopping is unsuccessful, a stopping exception handling work order is generated and manually stopped, otherwise, if the automatic stopping is not allowed, the comprehensive energy marketing subsystem 1 automatically sends the stopping instruction to the charge control service personnel, the process is disabled remotely by hand.

In the embodiment of the present application, as an optional implementation manner, in the above operation 4.2, the flow of controlling the fee-controlled energy device 3 to perform the enabling operation may be as follows:

7.1b, automatically comparing the account balance of the disabled user with the disabled threshold value through the comprehensive energy marketing subsystem 1;

when the fact that the user marketing archive account is charged is detected, obtaining the balance of the charged third account again; if the account balance (the third account balance) is still less than the stop threshold value after the user is recharged, the comprehensive energy marketing subsystem 1 sends a recharging notification to the user;

and if the account balance (the third account balance) is larger than the stop-energy threshold value after the user is charged with the energy, the comprehensive energy marketing subsystem 1 controls the charge control energy equipment 3 to execute the energy recovery operation. Wherein the control cost-controlled energy device 3 performs a reactivation operation including:

when the user is a special change user, the comprehensive energy marketing subsystem 1 sends a re-energy notification to the user, namely, the user terminal corresponding to the user marketing archive account is sent with the re-energy notification, and the user performs re-energy according to the re-energy notification;

when the user is not a special transformer user, the comprehensive energy marketing subsystem 1 generates a first re-energy instruction and sends the first re-energy instruction to the remote charge control stop re-energy module 23, so that the remote charge control stop re-energy module 23 generates a second re-energy instruction according to the first re-energy instruction; the remote fee control energy recovery stopping module 23 sends the second energy recovery instruction to the fee control energy device 3, and the fee control energy device 3 executes energy recovery operation according to the second energy recovery instruction, so that the effect of remote energy recovery can be achieved;

7.2b, when the self-recovery of the special transformer user fails, a recovery failure notice can be sent to the comprehensive energy marketing subsystem 1 through a user terminal corresponding to the user marketing archive account; when the energy recovery operation executed according to the second energy recovery instruction fails, the charge control energy device 3 can also send an energy recovery failure notification to the comprehensive energy marketing subsystem 1; the comprehensive energy marketing subsystem 1 can send an artificial energy recovery instruction to the pre-bound charge control service terminal when receiving the energy recovery failure notification, so that the charge control service personnel can carry out artificial energy recovery processing according to the artificial energy recovery instruction.

Referring to fig. 4, fig. 4 is a schematic flow chart illustrating a remote energy recovery method according to an embodiment of the present disclosure. As shown in fig. 4, the remote re-energy method may include the following steps:

401. the integrated energy marketing subsystem 1 automatically compares the account balance of the disabled user with the disable threshold.

402. The comprehensive energy marketing subsystem 1 judges whether the account balance of the disabled user is greater than a disabling threshold value; if yes, go to step 404; if not, go to step 403.

403. And the integrated energy marketing subsystem 1 sends a recharging notification to the user terminal bound with the user marketing file account, and returns to execute the step 401.

404. The comprehensive energy marketing subsystem 1 judges whether the user is a special transformer user; if yes, go to step 405; if not, go to step 406.

405. And the comprehensive energy marketing subsystem 1 sends a re-energy notification to the user terminal bound with the user marketing file account, and the user performs re-energy according to the re-energy notification.

406. The comprehensive energy marketing subsystem 1 generates a first energy recovery instruction and sends the first energy recovery instruction to the remote fee control and stop energy recovery module 23, so that the remote fee control and stop energy recovery module 23 generates a second energy recovery instruction according to the first energy recovery instruction.

407. The charge control energy device 3 executes the recharging operation according to the second recharging instruction.

408. The comprehensive energy marketing subsystem 1 judges whether the recovery energy is abnormal or not; if yes, go to step 409; if not, go to step 410.

Wherein, the energy recovery exception may include: the method comprises the following steps that a specific transformer user fails to recover energy by self, and the comprehensive energy marketing subsystem 1 receives a recovery failure notice sent to the comprehensive energy marketing subsystem 1 by a user terminal corresponding to a user marketing file account; or, the energy recovery failure of the energy recovery device 3 is failed, and the integrated energy marketing subsystem 1 receives the energy recovery failure notice sent by the energy recovery device 3.

409. The integrated energy marketing subsystem 1 sends an artificial energy recovery instruction to the pre-bound charge control service terminal, so that charge control service personnel can perform artificial energy recovery processing according to the artificial energy recovery instruction.

410. The integrated energy marketing subsystem 1 updates the energy state of the cost-controlled energy device 3 to a re-energy state.

When the energy equipment control system based on the internet of things disclosed by the embodiment of the application is implemented, firstly, the account balance of a disabled user is automatically compared with a disabled threshold value through the comprehensive energy marketing subsystem 1; secondly, if the account balance is still smaller than the stop-enable threshold value after the user is recharged, the comprehensive energy marketing subsystem 1 sends a recharging notice to the user, if the account balance is larger than the stop-enable threshold value after the user is recharged, the comprehensive energy marketing subsystem 1 automatically deducts fees and executes the stop-enable permission, if the user is a special change user, the comprehensive energy marketing subsystem 1 sends and executes a stop-enable instruction, and meanwhile, the stop-enable notice is sent to the user, the user performs self-recovery, and if the user is not the special change user, the comprehensive energy marketing subsystem 1 directly sends and executes the stop-enable instruction; and then, when the private transformer user fails to recover energy by himself or the comprehensive energy marketing subsystem 1 fails to recover energy directly and automatically remotely, the comprehensive energy marketing subsystem 1 feeds back information to the charge control service personnel, and the charge control service personnel performs manual recovery processing.

In conclusion, the method has the advantages of accurately measuring various energy costs and realizing all-weather remote energy-stopping and recovering service management. It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. Those skilled in the art should also appreciate that the embodiments described in this specification are exemplary and alternative embodiments, and that the acts and modules illustrated are not required in order to practice the invention.

In various embodiments of the present invention, it should be understood that the size of the sequence number of each process described above does not mean that the execution sequence is necessarily sequential, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present application.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated units, if implemented as software functional units and sold or used as a stand-alone product, may be stored in a computer accessible memory. Based on such understanding, the technical solution of the present invention, which is a part of or contributes to the prior art in essence, or all or part of the technical solution, can be embodied in the form of a software product, which is stored in a memory and includes several requests for causing a computer device (which may be a personal computer, a server, a network device, or the like, and may specifically be a processor in the computer device) to execute part or all of the steps of the above-described method of each embodiment of the present invention.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by hardware instructions of a program, and the program may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory (CD-ROM), or other Memory, such as a magnetic disk, or a combination thereof, A tape memory, or any other medium readable by a computer that can be used to carry or store data.

The remote cost control system of the comprehensive energy marketing service based on the internet of things technology disclosed in the embodiment of the application is introduced in detail, a specific example is applied in the description to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention. Meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a remote expense control system of comprehensive energy marketing service based on internet of things, its characterized in that, the system includes: the system comprises a comprehensive energy marketing subsystem, a metering automation subsystem and cost control energy equipment; the metering automation subsystem comprising: the energy consumption checking module, the energy metering password module and the remote charge control stop and recovery module are arranged in the energy consumption checking module;

the charge control energy equipment is used for acquiring a first account balance corresponding to a marketing archive account of a user and then sending the first account balance to the comprehensive energy marketing subsystem; the user marketing profile account is established when the cost control energy equipment is started for the first time; the energy consumption checking module is used for acquiring energy consumption data in marketing business and sending the acquired energy consumption data to the energy consumption checking module; wherein the energy consumption data comprises electricity consumption data, gas consumption data and water consumption data;

the energy consumption checking module is used for acquiring the energy consumption data, checking the energy consumption data and metering the energy consumption data;

the energy metering cryptographic module is used for encrypting the checked and metered energy consumption data and sending the encrypted energy consumption data to the comprehensive energy marketing subsystem;

the comprehensive energy marketing subsystem is used for decrypting the encrypted energy consumption data to obtain the decrypted energy consumption data; carrying out expense measurement and calculation on the decrypted energy consumption data to obtain an expense measurement and calculation result; comparing the expense measurement result with the balance of the first account to obtain a comparison result; generating a first stop instruction according to the comparison result, and sending the first stop instruction to the remote charge control stop and re-energy module;

the remote charge control stop and energy recovery module is used for generating a second stop instruction according to the first stop instruction and sending the second stop instruction to the charge control energy equipment;

and the charge control energy equipment is used for executing the stop operation according to the second stop instruction.

2. The system according to claim 1, wherein the energy usage checking module is specifically configured to obtain the energy usage data, and perform table code checking on the energy usage data according to a preset data checking business rule; correcting an abnormal table code with an abnormal table code check result in the energy consumption data to obtain the corrected energy consumption data; measuring the corrected energy consumption data to obtain a measuring result;

the energy metering cryptographic module is specifically used for encrypting the metering result and sending the encrypted metering result to the comprehensive energy marketing subsystem as the encrypted energy consumption data.

3. The system of claim 2, wherein the pre-set data checking business rules comprises:

meter reading time anomalies including: the meter reading date of the existing meter group at the current period of the metering point is less than the meter reading date at the previous period; or the meter reading date of the existing meter group at the current period of the metering point is empty; or the meter reading date of the current period existing in the meter group at the metering point is empty; the type of electricity consumption at the current metering point is that of electricity consumption of a large industrial user, and the current meter reading date at the current metering point is not one day; or the electricity utilization type of the metering point current period is the electricity utilization of market-oriented transaction users, and the meter reading date of the metering point current period is not one day;

the ammeter walks backward, includes: the end of the measurement point schedule group is less than the minimum;

a start-stop exception comprising: metering the point date without change record and recording the point date with a table group at least not equal to the last stop code; or, the metering point date does not change the table and records that the table group in the point date is not equal to the last end code at least;

the table code is null, including: the meter group meter reading mark existing in the current period of the metering point is read but is empty at least; or the meter group meter reading mark existing in the current period of the metering point is read but the stop code is empty.

4. The system of claim 1, wherein:

the comprehensive energy marketing subsystem is further used for verifying the expense measurement result according to a preset energy expense checking rule after the expense measurement result is obtained, and correcting measurement abnormal data with abnormal verification result in the expense measurement result to obtain a corrected expense measurement result; and the number of the first and second groups,

the comprehensive energy marketing subsystem is specifically used for acquiring an account balance corresponding to the user marketing file account, and comparing the corrected expense measurement result with the account balance to obtain a comparison result.

5. The system of claim 4, wherein the preset energy cost check rule comprises:

when the electricity charge ring ratio of the large electricity charge user changes suddenly, the checking result is abnormal; alternatively, the first and second electrodes may be,

and when the electricity charge of the large electricity charge user changes suddenly according to the same ratio, the checking result is abnormal.

6. The system of claim 5, wherein:

the comprehensive energy marketing subsystem is also used for generating an abnormal check log according to the check result of the expense measurement and calculation result; the checking log is used for carrying out manual checking.

7. The system of claim 4, wherein:

the comprehensive energy marketing subsystem is specifically used for comparing an early warning threshold corresponding to the corrected expense measurement and calculation result with the balance of the first account when the fact that automatic stopping is allowed is identified;

when the balance of the first account is larger than an early warning threshold value corresponding to the corrected expense measurement result, automatically deducting the marketing file account of the user; and the number of the first and second groups,

when the balance of the first account is smaller than the early warning threshold value corresponding to the corrected expense measurement result, sending a time limit payment and fee urging notice to a user terminal bound with the user marketing file account; the time limit payment reminding notice is used for indicating a user to recharge the marketing file account of the user within a payment time limit; and the number of the first and second groups,

when the payment period is over, acquiring the account balance corresponding to the marketing file account of the user again to obtain a second account balance; and the number of the first and second groups,

comparing the energy stopping threshold corresponding to the corrected expense measurement result with the balance of the second account; when the balance of the second account is smaller than the stop threshold value through comparison, generating a first stop instruction for indicating stop, and sending the first stop instruction for indicating stop to the remote charge control stop re-enabling module;

the remote charge control stop and energy recovery module is specifically used for generating a second stop instruction indicating stop according to the first stop instruction indicating stop and sending the second stop instruction indicating stop to the charge control energy equipment;

and the charge control energy equipment is specifically used for executing the energy stopping operation according to the second energy stopping instruction indicating energy stopping.

8. The system of claim 7, wherein:

the comprehensive energy marketing subsystem is also used for sending an artificial energy stopping instruction to the pre-bound charge control service terminal when recognizing that the automatic energy stopping is not allowed; the manual energy stopping instruction is used for indicating service personnel using the charge control service terminal to perform manual energy stopping through the charge control service terminal;

and the comprehensive energy marketing subsystem is further used for sending a stopping prompt message to a user terminal bound with the user marketing file account when receiving a stopping success notice sent by the charge control energy equipment, and updating the energy state of the charge control energy equipment to a stopping state.

9. The system of claim 7, wherein:

the comprehensive energy marketing subsystem is further used for acquiring the balance of a third account of the user marketing archive account again when a successful disabling notification sent by the cost control energy equipment is received and the user marketing archive account is detected to be charged; comparing the balance of the third account with the disabling threshold;

when the balance of the third account is greater than the stopping threshold value and the user type corresponding to the user marketing file account is a special transformer user, sending a re-enabling notification to a user terminal corresponding to the user marketing file account; the energy recovery notification is used for prompting a user to carry out manual energy recovery on the cost control energy equipment;

when the balance of the third account is greater than the disabling threshold and the user type corresponding to the user marketing archive account is not a special change user, generating a first re-enabling instruction for indicating re-enabling, and sending the first re-enabling instruction to the remote cost control disabling and re-enabling module;

the remote charge control stop and energy recovery module is further used for generating a second energy recovery instruction according to the first energy recovery instruction and sending the second energy recovery instruction to the charge control energy equipment;

and the charge control energy equipment is also used for executing the energy recovery operation according to the second energy recovery instruction.

10. The system of claim 9, wherein:

the comprehensive energy marketing subsystem is also used for sending an artificial energy recovery instruction to a pre-bound charge control service terminal when receiving an energy recovery failure notice sent by the charge control energy equipment; and the manual re-energy instruction is used for indicating the service personnel using the charge control service terminal to perform manual re-energy.

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