CN107967758B - Single-ammeter multi-device apportionment electric charge temporary collection and calculation system based on current monitoring - Google Patents

Abstract

The invention discloses a single-ammeter multi-equipment apportionment electric charge temporary collection and clearing system based on current monitoring, which comprises a multi-equipment shared ammeter electric charge management system, wherein the multi-equipment shared ammeter electric charge management system comprises a base station management module, an electric quantity data batch processing module, an electric quantity registration flow module, a current data batch processing module, a load equipment management module, a threshold current management module, a current verification flow module, a flow blocking mechanism and an electric charge monthly report calculation module.

Description

Single-ammeter multi-device apportionment electric charge temporary collection and calculation system based on current monitoring

Technical Field

The invention relates to the technical field of information, in particular to a single-ammeter multi-device apportionment electric charge temporary settlement system based on current monitoring.

Background

In the conventional single-meter multi-device apportionment electric charge management, such as the apportionment electric charge management of a communication base station, an electric charge list is obtained from an electric power company, then the apportionment electric charge of each family is calculated by using auxiliary tools such as Excel and the like, and the calculated apportionment electric charge is delivered to an end user as a basis for collecting the electric charge.

More advanced software system is used for managing the electric charge shared by multiple devices of a single electric meter, the operation is carried out on an electric meter manager, the electric charge of each household electric quantity is calculated through the shared current, and the final user does not participate. Some systems manage the shared current of each household in an internal flow mode, and the shared current is used as the basis for calculating the electric charge of each household appliance.

The prior art has the following problems: 1. the management mode is closed, the electric meter management party manages the shared current of each family by self, and the shared current is not managed by directly facing the end user, so that the acceptance of the result on the end user side is poor;

2. the electric charge collection has poor timeliness, the electric charge collection is based on a charge list provided by a power company, and the hysteresis of monthly calculation is realized in time;

3. the management efficiency of the apportioned current of each family is poor, the change value of the apportioned current of each family is managed in a manual finding and processing mode, and the management method has the defects of high manual cost, poor efficiency and low accuracy under the condition of a large number of electric meters.

Disclosure of Invention

The invention aims to provide a single-ammeter multi-device apportionment electric charge temporary settlement system based on current monitoring to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a single-ammeter multi-device apportioned electric charge temporary collection clearing system based on current monitoring comprises a multi-device shared-ammeter electric charge management system, wherein the multi-device shared-ammeter electric charge management system comprises a base station management module, an electric quantity data batch processing module, an electric quantity registration flow module, a current data batch processing module, a load device management module, a threshold current management module, a current verification flow module, a flow blocking mechanism and an electric charge monthly report calculation module; the base station management module comprises base station information batch import and base station information maintenance, wherein the base station information batch import is used for batch registration of base station information and comprises base station numbers, base station affiliated areas, shared currents of all households and shared current confirmation date information, and the base station information maintenance is used for maintaining the base station information which is imported in batches; the electric quantity data batch processing module comprises an electric quantity batch import flow, an electric quantity registration flow for batch submission of imported data and a data resubmission flow which does not pass the data resubmission; the electric quantity registration flow module comprises an electric quantity and electric charge temporary collection calculation and an electric quantity registration flow; the temporary electric quantity and electric charge calculation is to calculate the temporary electric quantity and electric charge of the base station in a time period according to an electric quantity and electric charge temporary charge algorithm, wherein the electric quantity and electric charge temporary charge algorithm comprises pre-charge weighted PUE calculation, electric meter reading termination calculation, electric quantity calculation, electric charge calculation, post-tax electric charge calculation and operator electric charge calculation; the electric quantity registration process comprises six nodes of electric charge information registration, electric charge information confirmation, electric charge information county branch countersigning, electric charge information city branch countersigning, electric charge information verification and electric charge information examination and approval; the current data batch processing module comprises current batch import and current fluctuation calculation, the current fluctuation calculation comprises equipment-free current fluctuation calculation and equipment-containing current fluctuation calculation, and the threshold current management module comprises equipment-free threshold current submission, equipment-containing threshold current designation and equipment-containing threshold current submission; the threshold current submission is to group threshold currents meeting threshold times according to regions, one group of threshold currents are submitted to a current verification process or an electric quantity registration route, and the threshold current accumulated calculation after submission is terminated; the flow blocking mechanism comprises electric quantity data submission electric quantity registration flow blocking, threshold current submission blocking, electric quantity registration flow blocking of current verification flow, late flow blocking of early flow and uniqueness of a single flow base station; the electric charge monthly report calculation module comprises temporary electric charge calculation, meter reading electric charge calculation, historical pre-charging electric charge calculation, real electric charge calculation and meter reading electric charge allocation of a primary station and a secondary station.

As a further technical scheme of the invention: the non-device current fluctuation calculation and the device current fluctuation calculation can be executed only one at the same time, the device current fluctuation calculation is preferentially executed, and the non-device current fluctuation calculation is executed under the condition that the device current fluctuation calculation does not exist.

As a further technical scheme of the invention: the load device management module comprises device threshold current establishment, device starting and device closing.

As a further technical scheme of the invention: the threshold number meeting means that the accumulated number of the threshold current of the non-equipment is greater than or equal to a preset threshold number, and the preset threshold number means the number of times that the preset threshold current accumulated number reaches the submitting condition.

Compared with the prior art, the invention has the beneficial effects that: the invention uses the electricity charge calculating method for calculating the temporary charge amount and the electricity charge according to the current subsection of the fixed period and the subsection sharing and clearing of the meter reading and the electricity charge, realizes the timeliness, the accordance traceability and the clearing of the temporary charge amount and the electricity charge, and realizes the effective management mechanism of the large-batch electricity charge under the sharing of the base station of the operator and similar environments.

Drawings

FIG. 1 is a schematic diagram of a traffic flow framework;

fig. 2 is a schematic diagram of a flow of electric quantity registration;

FIG. 3 is a schematic diagram of a current verification process;

FIG. 4 is a schematic diagram of threshold current management;

fig. 5 is a schematic diagram of a power registration blocking mechanism;

FIG. 6 is a schematic diagram of an equipment-less threshold current blocking mechanism;

fig. 7 is a schematic diagram of a device-gated current blocking mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, 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.

Referring to fig. 1-7, a single-ammeter multi-device apportioned electric charge temporary collection and clearing system based on current monitoring comprises a multi-device shared-ammeter electric charge management system, wherein the multi-device shared-ammeter electric charge management system comprises a base station management module, an electric quantity data batch processing module, an electric quantity registration flow module, a current data batch processing module, a load device management module, a threshold current management module, a current verification flow module, a flow blocking mechanism and an electric charge monthly report calculation module.

The base station management module is used for managing basic information and power consumption information of a base station, the basic information comprises an ammeter number and an ammeter, county and street information, and the power consumption information comprises a power supply mode, an invoice type, a tax factor, a power charge unit price, a multiplying power, loss, electric quantity, an electric quantity initial reading, an electric quantity end reading, an electric quantity starting date, an electric quantity end date, an electric quantity amount, a tax-related electric charge amount, a meter reading electric charge, a meter reading mode, telecommunication current, mobile current, communicated current and other unit currents.

The purpose of the base station management module is to maintain basic information of the base station and check electric quantity information of the base station.

The electric quantity data batch processing module comprises an electric quantity batch import process, an electric quantity registration process of import data batch submission and an electric quantity re-submission process which does not pass data.

The electric quantity is led into base station electric quantity data in batches, and the base station electric quantity data comprise base station numbers, power supply modes, invoice types, tax factors, electric charge unit price, multiplying power, loss, electric quantity initial reading, electric quantity end reading, electric quantity starting date, electric quantity end date, electric charge amount, post-tax electric charge amount, meter reading electric charge, meter reading modes, telecommunication current, mobile current, communicated current and other unit currents.

The import data batch submission electric quantity registration process is to group all batches of electric quantity import data which can be priced according to the areas where the corresponding base stations are located, and submit the electric quantity import data to the electric quantity registration process in a group.

The failure of data resubmission in the power registration process includes failure of data resubmission in the power registration process, and failure of data resubmission in the power verification process in the power registration process. The electric quantity registration process failing to pass the data resubmission electric quantity verification process is to recheck each household current by the electric quantity registration process failing to pass the electric quantity data resubmission electric quantity verification process approved by each party, and the electric quantity registration process failing to pass the data resubmission electric quantity registration process is to re-register the flow by the electric quantity registration process failing to pass the electric quantity data resubmission electric quantity registration process approved by each party.

The electric quantity registration flow module comprises an electric quantity and electric charge temporary collection calculation and an electric quantity registration flow.

The temporary electric quantity and electric charge calculation is to calculate the temporary electric quantity and electric charge in a time period of a base station according to an electric quantity and electric charge temporary charge algorithm, the electric quantity and electric charge temporary charge algorithm comprises pre-charge weighted PUE calculation, electric meter reading termination calculation, electric quantity calculation, electric charge calculation, post-tax electric charge calculation and operator electric charge calculation, and the charge weighted PUE calculation is as follows: calculating the weighted pre-income PUE according to the days in the period, namely the proportion sum of the PUE in the month multiplied by the number of days in the month in the total days, wherein the PUE in the month is independently set and automatically inherited, and the calculation of the reading of the termination electric meter is as follows: initial electricity meter reading < + > base station total current x 54 x (pre-harvest weighted PUE) x days x 24/([ base station ] magnification x 1000), electricity calculation is (end electricity meter reading-initial electricity meter reading) × [ base station ] magnification < + > current period) loss, electricity calculation is electricity x base station unit price, and post-tax electricity calculation is: the electric charge x [ base station ] tax negative factor, the operator electric charge calculation is: the electric charge after tax is x [ base station ] operator share proportion, the [ base station ] is calculated by using the current value of the parameter when the corresponding parameter is not checked by the base station, and calculated by using the parameter of the base station when the corresponding parameter is checked by the base station.

The electric quantity registration process comprises six nodes of electric charge information registration, electric charge information confirmation, electric charge information county branch joint sign, electric charge information city branch joint sign, electric charge information verification and electric charge information examination and approval.

The electric charge information registration comprises confirming electric charge information and increasing electric charge information, and the operator is a person on the iron tower side. The electricity charge information is confirmed to be the correctness of the electricity data submitted from the electricity data batch processing module, the electricity charge adding information is that electricity data of one or more base stations are manually added, and after confirmation, the electricity charge information is submitted to next node electricity charge information confirmation.

The electric charge information confirmation is to confirm data submitted from an electric charge information registration node, an operator is an iron tower side person, the correctness of the data is guaranteed through secondary confirmation of electric charge information, the electric charge information is submitted to a next node electric charge information county branch meeting sign after confirmation, and the electric charge information county branch meeting sign comprises an electric charge information mobile county branch meeting sign, an electric charge information telecommunication county branch meeting sign and an electric charge information Unicom county branch meeting sign.

[001] The electric charge information mobile county branch signages are used for checking electric charge information submitted from an electric charge information confirmation node, an operator is a mobile person, the correctness of data is confirmed, an error mark is selected and written in if the data is incorrect, the error mark is not selected if the data is correct, the electric charge information is submitted to the next node electric charge information city branch signages after confirmation, and the electric charge information city branch signages refer to the electric charge information mobile city branch signages at this time.

The electric charge information is checked when the electric charge information is signed by the electric charge information confirmation node, an operator is a telecommunication person, the correctness of data is confirmed, an error mark is selected and written in if the data is incorrect, the error mark is not selected if the data is correct, the electric charge information is submitted to the next node electric charge information city branch sign after confirmation, and the electric charge information city branch sign is the electric charge information telecommunication city branch sign.

The electric charge information submitted from the electric charge information confirmation node is checked during the electric charge information Unicom county branch countersignature, the operator is a Unicom person, the correctness of data is confirmed, an error mark is selected and written in if the data is incorrect, the error mark is not selected if the data is correct, the electric charge information is submitted to the next node electric charge information city branch signature after the data is confirmed, and the electric charge information city branch signature is the electric charge information Unicom city branch signature.

The electric charge information mobile city branch signpost is used for checking the electric charge information submitted from the electric charge information mobile county branch signpost node, the operating party is a mobile person, the correctness of the data is confirmed, an error mark is checked and written in when the data is incorrect, the error mark is not checked when the data is correct, and the electric charge information is submitted to the electric charge information audit of the next node after the data is confirmed.

The electric charge information telecommunication city branch signpost is used for checking the electric charge information submitted from the electric charge information telecommunication county branch signpost node, the operator is a telecommunication worker, the correctness of the data is confirmed, an error mark is checked and written in when the data is incorrect, the error mark is not checked when the data is correct, and the electric charge information is submitted to the electric charge information audit of the next node after the data is confirmed.

The electric charge information Unicom city joint signpost is used for checking electric charge information submitted from an electric charge information Unicom county joint signpost node, an operator is a Unicom person, the correctness of data is confirmed, an error mark is checked and written in when the data is incorrect, the error mark is not checked when the data is correct, and the electric charge information is submitted to the electric charge information audit of the next node after the data is confirmed.

The electric charge information auditing is that the electric charge information submitted from the electric charge information city branch meeting is audited, the operating personnel is a person on an iron tower side, the electric charge information telecommunication city branch meeting, the electric charge information mobile city branch meeting and the electric charge information communication city branch meeting are all submitted to an electric charge information auditing node and can be audited, when one city branch meeting does not submit, waiting is carried out, when the electric charge information telecommunication city branch meeting is audited, if one party signs the electric charge information telecommunication city branch meeting, the electric charge information mobile city branch meeting and the electric charge information communication city branch meeting, the electric charge information is marked as an error, the state of the electric charge data is an error, otherwise, the electric charge information is in a correct state, and after the confirmation, the electric charge information is submitted to the next node electric charge information auditing.

The electricity charge information examination and approval comprises confirmation operation, redo data generation and base station electricity quantity data refreshing, wherein the operation personnel are iron tower side personnel, the confirmation operation refers to examination and approval of data submitted from an electricity charge information examination and approval node, the data informing performance is guaranteed through secondary examination and approval of the electricity charge information, the process is finished after confirmation, the redo data generation refers to re-registration of data with a selected error mark into an electricity quantity data approval processing module, and the base station electricity quantity data refreshing refers to refreshing correct electricity quantity data into a corresponding base station and updating the base station electricity quantity data.

The current data batch processing module comprises current batch import and current fluctuation calculation.

The current batch import is the batch import of base station current data, and comprises a base station number, a date and a current, wherein the absolute value of the current is a correct value in a preset current interval, otherwise, the absolute value of the current is an error value, and the preset current interval is an interval of initially setting the maximum value and the minimum value of the base station current.

The current fluctuation calculation comprises non-equipment current fluctuation calculation and equipment current fluctuation calculation, wherein the non-equipment current fluctuation calculation and the equipment current fluctuation calculation can be executed only one at the same time, the equipment current fluctuation calculation is preferentially executed, and the non-equipment current fluctuation calculation is executed under the condition that the equipment current fluctuation calculation does not exist.

The equipment-free current fluctuation calculation comprises equipment-free reference establishment and equipment-free reference accumulation, wherein the equipment-free reference establishment is to compare a current value of the current period with current values of the previous three periods of a corresponding base station to calculate a difference value and a ring ratio value, the difference value exceeds a preset difference value threshold value or the ring ratio value exceeds a preset ring ratio value, the current value is regarded as effective fluctuation, an equipment-free threshold current reference is established on an early current date related to the effective fluctuation and is used as an equipment-free current fluctuation calculation reference of a subsequent corresponding base station, and the initial accumulation frequency of the threshold current reference is 1. The equipment-free reference accumulation is that on the basis of existing equipment-free threshold current, the current is compared with the equipment-free threshold current reference current to calculate a difference value and a ring ratio value, when the difference value exceeds a preset difference value threshold value or the ring ratio value exceeds a preset ring ratio value, effective fluctuation is considered to occur, and the accumulated number of times of reference is added by 1.

The equipment current fluctuation calculation comprises equipment reference establishment and equipment reference accumulation, wherein the reference establishment is an equipment threshold current reference established in the load equipment management module. The equipment-based accumulation is to compare the current with the equipment threshold current reference current to calculate a difference value on the basis of the existing equipment threshold current, the difference value is considered to be one effective fluctuation when the difference value exceeds the load equipment current, and the accumulation frequency of the reference is added by 1.

The threshold current management module comprises non-device threshold current submission, device threshold current designation and device threshold current submission.

The device-free threshold current submitting is to group threshold currents meeting threshold times according to regions, submit the threshold currents in a group to a current verification process, and terminate the calculation of the submitted device-free threshold current accumulation, wherein the threshold meeting times refer to the times that the accumulated times of the device-free threshold currents are larger than or equal to the preset threshold times, and the preset threshold times refer to the times that the preset threshold current accumulation times reach the submitting conditions.

The threshold current specification of the equipment comprises an automatic specified electric quantity registration process, a manual specified electric quantity registration process and a manual specified electric quantity verification process. The automatic specified electric quantity registration process is to automatically specify the equipment threshold current submission target as an electric quantity registration process when the equipment threshold current is satisfied for times, the equipment number is 1, and the second large fluctuation difference is smaller than 2 times of the equipment current. The manual appointed electric quantity registration flow is that under the condition that the automatic appointed electric quantity registration flow condition is not met, appointed equipment is selected, the current value and the online date of the equipment are filled, and the equipment is appointed to be submitted to the electric quantity registration flow. The manually-specified current verification process is to select specified equipment, fill in the current value and the online date of the equipment and specify and submit the equipment to the current verification process under the condition that the conditions of the automatically-specified electric quantity registration process are not met.

The device threshold current submission includes a device threshold current submission to a power quantity registration process, and a device threshold current submission to a current verification process. The process of submitting the threshold current of the equipment to the electric quantity registration is to group the threshold currents which meet the threshold times and are appointed to be submitted to the electric quantity registration process according to regions, submit the threshold currents of one group to the current registration process, and terminate the calculation of the threshold current accumulation of the equipment after submission, wherein the threshold times are that the accumulation times of the threshold current of the equipment are more than or equal to the preset threshold times, and the preset threshold times are the times that the preset threshold current accumulation times reach the submission conditions. The process of submitting the threshold current of the equipment to the current verification is to group the threshold currents which meet the threshold times and are appointed to be submitted to the current verification process according to regions, and submit the threshold currents to the current verification process in a group, the calculation of the threshold current of the equipment after the threshold currents are submitted is stopped, the threshold times meeting means that the accumulated times of the threshold current of the equipment is more than or equal to the preset threshold times, and the preset threshold times means the times that the preset threshold current accumulated times reach the submitting conditions.

The current verification flow module comprises six nodes of current verification initiation, current verification execution, current verification reception, current verification confirmation, current verification examination and current verification approval.

The current verification initiation is to confirm and verify the correctness of current data submitted from threshold current management, the current data comprises a base station name, a base station number, a base station total current, a base station moving current, a base station communication current, a base station telecommunication current, other unit currents of the base station, the current total current, the current moving current, the current communication current, the current telecommunication current, other unit currents, verification requirements and verification feedback, the current information is submitted to the next node current verification execution after the correction is confirmed, and an operator is a person on the iron tower side.

The current verification execution means that current information submitted from the current verification initiation is executed, an operator is a person on the iron tower side, the current total current, the current moving current, the current connecting current, the current telecommunication current, the current other unit currents and verification feedback are filled and modified after actual measurement on site, and the current information is submitted to the next node current verification and reception after the current information is completed.

The current verification reception means that the current information submitted from the current verification execution is confirmed, the operating personnel is a tower side personnel, and after the current information is submitted to the next node current verification confirmation, the current verification confirmation comprises current verification mobile confirmation, current verification telecommunication confirmation and current verification communication confirmation.

The current verification mobile confirmation is to confirm that the submitted current information is received from the current verification, the operator is a mobile person to confirm the correctness of the data, if the data is incorrect, the error mark is selected and the description is filled, if the data is correct, the error mark is not selected, and after the data is confirmed, the current information is submitted to the current verification audit of the next node.

The current verification telecommunication confirmation is to confirm the current information submitted from the current verification, the operator is a telecommunication person to confirm the correctness of the data, if the data is incorrect, the error mark is selected and the description is filled, if the data is correct, the error mark is not selected, and after the data is confirmed, the current information is submitted to the current verification audit of the next node.

[002] The current verification communication confirmation is to confirm the current information submitted from the current verification, the operator is a communication person to confirm the correctness of the data, if the data is incorrect, the error mark is selected and the description is filled, if the data is correct, the error mark is not selected, and after the data is confirmed, the current information is submitted to the current verification and the verification of the next node.

The current verification and verification is to verify current information submitted from the current verification and verification, the operating personnel is a person on the iron tower side, all of the current verification communication confirmation, the current verification telecommunication confirmation and the current verification mobile confirmation are submitted to a current verification and verification node and can be verified, when one party does not submit, the current verification and verification is waited, when in verification, if one party of the current verification communication confirmation, the current verification telecommunication confirmation and the current verification mobile confirmation marks the current data as an error, the state of the current data is an error, otherwise, the current data is a correct state, and after the verification, the current information is submitted to the current verification and verification approval of the next node.

The current verification approval refers to approving the current data submitted from the current verification approval node, and the process is finished after the data is confirmed by secondary approval of the current information.

The load device management module comprises device threshold current establishment, device starting and device closing.

The establishment of the threshold current of the equipment is to establish the threshold current of the equipment when the load equipment of the base station is registered, the established reference of the threshold current of the equipment is to look up the current data of the base station in the current data batch processing of the latest period forward when the load equipment of the base station is registered, the current data is used as the basis of the calculation of the fluctuation of the current of the equipment, the load equipment of the registered base station is to increase and decrease the load equipment of a base station, and the data items comprise the number of the base station, the name of the equipment and the current of the.

The device enabling is to set the closed device to be in an enabling state, and meanwhile, to establish the corresponding threshold current of the device.

The device closing means closing the device in the on state and closing the corresponding device threshold current.

The flow blocking mechanism comprises flow blocking of electric quantity data submission and electric quantity registration and threshold current submission blocking.

The blockage of the electric quantity data submission electric quantity registration process comprises a non-redo electric quantity data submission condition and a redo electric quantity data submission condition. The redo data commit condition is unimpeded by other conditions. The non-redo electricity quantity data submission conditions comprise that 1, the base station does not have an incomplete circulation in an electricity quantity registration process, 2, the base station does not have a check error in a latest electricity quantity registration process, 3, the base station does not have an incomplete circulation in an electricity quantity verification process, 4, the base station does not have an electricity quantity registration record which is not submitted with an earlier deadline, 5, the base station does not have a delivery list monitoring accumulated record which meets the requirement of a threshold number of times and needs to be appointed again, including the condition that the base station needs to be appointed again after the electricity quantity verification is submitted, and 6, the base station does not have an uncommitted accumulated record which is smaller than the electricity quantity end date and meets the threshold condition for the first time.

The threshold current submission blocking comprises no device threshold current submission power verification process blocking and device threshold current submission blocking.

The blockage of the equipment-free threshold current submitting electric quantity verification process comprises 1, meeting the threshold times 2, meeting the equipment-free threshold current which is not submitted for times earlier by the base station without reference date, and 3, not completing the current verification process of the base station.

The device threshold current submission blocking comprises device threshold current submission current verification flow blocking and device threshold current submission power amount registration flow blocking.

The block of the current verification process of the current submitting with equipment threshold comprises 1, satisfying the threshold times, 2, assigning the current verification process, 3, the base station does not have the current verification process of the equipment which is not submitted for the times earlier than the reference date, and 4, the base station does not have the current verification process which is not completed circularly.

The blocking of the threshold current submitting electric quantity registering process of the equipment comprises 1, meeting the threshold times, 2, specifying the electric quantity registering process or only one equipment with the secondary heavy current smaller than the multiplying power current, 3, meeting the specified electric quantity registering process of the uncommitted times or only one equipment with the secondary heavy current smaller than the multiplying power current earlier on the base station without reference date, 4, not completing the current verification process of the base station without circulation, and 5, not completing the electric quantity registering process of the base station with circulation.

The electric charge monthly report calculation module comprises temporary electric charge calculation, meter reading electric charge calculation, historical pre-charge electric charge calculation, real charge calculation and letter station electric charge allocation.

The electricity charge temporary collection calculation is to calculate the temporary collection electricity charge according to the confirmed electricity data section of the electricity registration process. The sectional calculation means that the electric charge in the current temporary electric charge calculation period is segmented on the basis of the sectional calculation of the electric charge in the electric quantity registration process, and the electric charge comprises total electric charge, mobile electric charge, communication electric charge, telecommunication electric charge and other unit electric charges, and the calculation formula is as follows: the electricity charge of the time interval in the calculation cycle is the electricity charge of the time days/original time interval days multiplied by the original time interval in the calculation cycle.

And the meter reading electric charge calculation is to calculate the meter reading electric charge in the meter reading data in a sectional sharing manner according to the confirmed meter reading data of the electric quantity registration flow and the mobile current, the communication current, the telecommunication current and other unit currents of each time period confirmed by the electric quantity registration flow, wherein the meter reading electric charge comprises the total meter reading electric charge, the mobile meter reading electric charge, the communication meter reading electric charge, the telecommunication meter reading electric charge and other unit meter reading electric charges. The calculation formula is as follows: the electric charge for meter reading in one time interval is the electric quantity in one time interval/the total electric quantity in a meter reading period multiplied by the electric charge for meter reading, the electric charge for meter reading in one time is the mobile electric quantity in one time interval/the electric quantity in one time interval multiplied by the electric charge for meter reading in one time interval, the electric charge for meter reading in one time is the communication electric quantity in one time interval/the electric quantity in one time interval multiplied by the electric charge for meter reading in one time interval, the electric charge for meter reading in one time is the electric charge for meter reading in one time interval/the electric quantity in one time interval multiplied by the electric charge for meter reading in one time interval, and the electric charge for meter reading in other units of one time is the electric charge for meter reading in other units of one time interval multiplied by the electric charge for.

The historical pre-charging electric charge calculation is to calculate the historical pre-charging electric charge of a period corresponding to the meter-reading electric charge in the current electric charge temporary charging period, and the historical pre-charging electric charge is divided according to the actual meter-reading electric charge period.

The real charge calculation is to calculate the real charge, the real charge is the temporary charge and the clearing total charge, the clearing total charge is the clearing total charge, the reading total charge is the historical pre-charge total charge, the real charge communication total charge is the temporary charge communication total charge and the clearing communication total charge, the real charge telecommunication total charge is the temporary charge telecommunication total charge and the clearing telecommunication total charge, the real charge mobile total charge is the temporary charge mobile total charge and the clearing mobile total charge, and the real charge other units are the temporary charge other units of total charge and the clearing other units of total charge.

The letter station electric charge allocation is to allocate the electric charge of the mother station according to the respective electric quantity ratio of the sub station and the mother station, and the calculation formula is as follows: the electricity charge read by the master station is the electricity charge of the master station/(the electricity charge of the master station + the electricity charges of all the substations) multiplied by the electricity charge read by meter.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (4)

1. A single-ammeter multi-device apportioned electric charge temporary collection clearing system based on current monitoring is characterized by comprising a multi-device shared electric meter electric charge management system, wherein the multi-device shared electric meter electric charge management system comprises a base station management module, an electric quantity data batch processing module, an electric quantity registration flow module, a current data batch processing module, a load device management module, a threshold current management module, a current verification flow module, a flow blocking mechanism and an electric charge monthly report calculation module; the base station management module comprises base station information batch import and base station information maintenance, wherein the base station information batch import is used for batch registration of base station information and comprises base station numbers, base station affiliated areas, shared currents of all households and shared current confirmation date information, and the base station information maintenance is used for maintaining the base station information which is imported in batches; the electric quantity data batch processing module comprises an electric quantity batch import flow, an electric quantity registration flow for batch submission of imported data and a data resubmission flow which does not pass the data resubmission; the electric quantity registration flow module comprises an electric quantity and electric charge temporary collection calculation and an electric quantity registration flow; the temporary electric quantity and electric charge calculation is to calculate the temporary electric quantity and electric charge of the base station in a time period according to an electric quantity and electric charge temporary charge algorithm, wherein the electric quantity and electric charge temporary charge algorithm comprises pre-charge weighted PUE calculation, electric meter reading termination calculation, electric quantity calculation, electric charge calculation, post-tax electric charge calculation and operator electric charge calculation; the electric quantity registration process comprises six nodes of electric charge information registration, electric charge information confirmation, electric charge information county branch countersigning, electric charge information city branch countersigning, electric charge information verification and electric charge information examination and approval; the current data batch processing module comprises current batch import and current fluctuation calculation, the current fluctuation calculation comprises equipment-free current fluctuation calculation and equipment-containing current fluctuation calculation, and the threshold current management module comprises equipment-free threshold current submission, equipment-containing threshold current designation and equipment-containing threshold current submission; the threshold current submitting is that the threshold currents meeting the threshold times are grouped according to regions, one group of threshold currents are submitted to a current verification process or an electric quantity registration process, the threshold current accumulated calculation after the threshold currents are submitted is terminated, and the current verification process module comprises six nodes, namely current verification initiating node, current verification executing node, current verification receiving node, current verification confirming node, current verification auditing node and current verification approving node; the flow blocking mechanism comprises electric quantity data submission electric quantity registration flow blocking, threshold current submission blocking, electric quantity registration flow blocking of current verification flow, late flow blocking of early flow and uniqueness of a single flow base station; the electric charge monthly report calculation module comprises temporary electric charge calculation, meter reading electric charge calculation, historical pre-charging electric charge calculation, real electric charge calculation and meter reading electric charge allocation of a primary station and a secondary station.

2. The system for clearing the temporary charge of the single-ammeter multi-device apportionment electric charge based on the current monitoring as claimed in claim 1, wherein the no-device current fluctuation calculation and the device current fluctuation calculation can be performed only one at a time, the device current fluctuation calculation is preferentially performed, and the no-device current fluctuation calculation is performed without the device current fluctuation calculation.

3. The system according to claim 1, wherein the load device management module comprises device threshold current establishment, device activation and device deactivation.

4. The system for clearing temporary charges of electricity apportioned by multiple devices and based on current monitoring of claim 1, wherein the number of times of meeting the threshold is that the number of times of accumulating the threshold current of no device is greater than or equal to a preset threshold number of times, and the preset threshold number of times is the number of times of the preset threshold current accumulating number reaching the submitting condition.

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