CN117148263B - Data processing method and system for electric energy meter verification assembly line - Google Patents

Abstract

The invention provides a data processing method and a system for an electric energy meter verification assembly line, which are used for acquiring the conveying flow of a tray conveying unit, determining the accuracy and the opening number of a multifunctional verification unit according to the conveying flow, calling a facing opening strategy to process the opening number, and determining a target verification unit on the electric energy meter verification assembly line; determining a corresponding communication unit as a target communication unit according to the position of the target verification unit; obtaining the detection flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining the predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity; and receiving feedback information acquired by the feedback detection unit, retrieving a feedback strategy and the feedback information to determine a feedback unit, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information.

Description

Data processing method and system for electric energy meter verification assembly line

Technical Field

The present invention relates to data processing technologies, and in particular, to a data processing method and system for an electric energy meter verification pipeline.

Background

At present, the verification system of the electric energy meter is composed of multiple parts, and the equipment mainly comprises a storehouse connection unit, a loading and unloading unit, a tray conveying unit, an information binding unit, an appearance detection unit, a pressure-proof test unit, an accuracy and multifunctional verification unit, a code engraving unit, a labeling unit, a qualified/unqualified sorting unit and the like.

For the accuracy and multifunctional verification unit, since the detection flow of the device is complex, the detection time is relatively longer than that of other devices, therefore, in the prior art, a plurality of accuracy and multifunctional verification units are generally arranged to detect the single three-phase electric energy meter on the electric energy meter verification assembly line, but because the accuracy and multifunctional verification unit verification assembly line is longer, if all the accuracy and multifunctional verification units on the assembly line are started, on one hand, the accuracy and the multifunctional verification unit can be caused to operate unnecessarily, the unnecessary energy consumption is increased, and on the other hand, the time for the single three-phase electric energy meter to travel on the assembly line can be prolonged, and the efficiency of the detection is reduced.

Therefore, how to combine the equipment number determination accuracy of the single three-phase electric energy meter and the opening number of the multifunctional verification units to improve the efficiency of the single three-phase electric energy meter in detection and reduce the energy consumption is a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a data processing method and a data processing system for an electric energy meter verification assembly line, which can combine the equipment quantity determination accuracy of a single three-phase electric energy meter and the starting quantity of a multifunctional verification unit, improve the efficiency of the single three-phase electric energy meter in the process of detection and reduce the energy consumption.

In a first aspect of an embodiment of the present invention, a data processing method for an electric energy meter verification pipeline is provided, including:

acquiring the conveying flow of a tray conveying unit, determining the accuracy and the opening quantity of a multifunctional verification unit according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on an electric energy meter verification assembly line;

determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals;

obtaining detection flow of an appearance detection unit and vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity;

And receiving feedback information acquired by a feedback detection unit, retrieving a feedback strategy and determining a feedback unit by the feedback information, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes.

Optionally, in one possible implementation manner of the first aspect, acquiring a conveying flow rate of the tray conveying unit, determining accuracy and an opening number of the multifunctional verification unit according to the conveying flow rate, and including:

the method comprises the steps of calling an opening quantity corresponding table, wherein the opening quantity corresponding table comprises a plurality of conveying flow intervals and preset opening quantity corresponding to each conveying flow interval;

and acquiring the conveying flow of the tray conveying unit, determining a conveying flow interval corresponding to the conveying flow as a target flow interval according to the conveying flow and the opening quantity corresponding table, and determining the preset opening quantity corresponding to the target flow interval as the accuracy and the opening quantity of the multifunctional verification unit.

Optionally, in one possible implementation manner of the first aspect, the invoking the counter-opening policy processes the opening number to determine a target verification unit on the electric energy meter verification line, including:

Acquiring a travel-out direction and a return direction of the electric energy meter verification assembly line, performing primary arrangement on a plurality of groups of verification unit combinations according to the travel-out direction to obtain a verification unit combination sequence, and performing secondary arrangement on each verification unit combination in the verification unit combination sequence according to the travel-out direction and the return direction to obtain a verification unit sequence;

wherein, the electric energy meter verification assembly line comprises a plurality of groups of verification unit combinations which are oppositely arranged;

and sequentially selecting verification units in the verification unit sequence as target verification units according to the opening quantity, and stopping selecting the target verification units until the quantity of the target verification units is equal to the opening quantity.

Optionally, in one possible implementation manner of the first aspect, a forward direction and a return direction of the electric energy meter verification assembly line are obtained, a plurality of groups of verification unit combinations are arranged once according to the forward direction to obtain a verification unit combination sequence, and each verification unit combination in the verification unit combination sequence is arranged twice according to the forward direction and the return direction to obtain a verification unit sequence, including:

sequentially arranging all the verification unit combinations once according to the forward direction to obtain a verification unit combination sequence;

Acquiring verification units corresponding to the forward direction in each verification unit combination as a front unit, and acquiring verification units corresponding to the return direction in each verification unit combination as a rear unit;

and arranging the front units in each verification unit combination before the rear units to obtain an updating unit combination, and updating the verification unit combination sequence based on the updating unit combination to obtain a verification unit sequence.

Optionally, in one possible implementation manner of the first aspect, according to a position of the target verification unit, a corresponding communication unit is determined as a target communication unit, where a plurality of communication units are disposed on an electric energy meter verification assembly line at intervals, including:

acquiring a target verification unit positioned at the last position in the going direction as a locking verification unit, and determining a communication unit covering the locking verification unit as a screening communication unit;

wherein, each communication unit is provided with a plurality of verification units which are correspondingly covered;

and acquiring a screening communication unit closest to the locking verification unit as a target communication unit.

Optionally, in one possible implementation manner of the first aspect, obtaining a detected flow of the appearance detection unit and vacancy information of the target verification unit, where the detected flow includes a single-phase flow and a three-phase flow, obtaining a predicted number according to the vacancy information and the detected flow, updating the target verification unit and the target communication unit based on the predicted number, and including:

Analyzing the single-phase flow information to obtain single-phase equipment flow, analyzing the three-phase flow information to obtain three-phase equipment flow, and analyzing the vacancy information to obtain single-phase vacancy number and three-phase vacancy number;

counting the number of single-phase vacancies and the number of three-phase vacancies corresponding to all target verification units to obtain the total number of single-phase vacancies and the total number of three-phase vacancies, and generating additional information if the total number of single-phase vacancies is smaller than the single-phase equipment flow and/or the total number of three-phase vacancies is smaller than the three-phase equipment flow;

responding to the additional information, obtaining a first phase difference quantity according to the difference value of the single-phase equipment flow and the total single-phase vacancy quantity, and/or obtaining a second phase difference quantity according to the difference value of the three-phase equipment flow and the total three-phase vacancy quantity;

the total single-phase vacancy number is smaller than the single-phase equipment flow, and the total three-phase vacancy number is smaller than the three-phase equipment flow;

obtaining a first number according to the ratio of the first phase difference number to the preset single-phase number, and/or obtaining a second number according to the ratio of the second phase difference number to the preset three-phase number;

Acquiring the first quantity and/or the second quantity with large values as a predicted quantity, obtaining a total opening quantity according to the sum of the predicted quantity and the opening quantity, and reselecting a corresponding quantity of verification units in the verification unit sequence as target verification units according to the total opening quantity;

and acquiring the last target verification unit which is located in the forward direction after updating as an updating locking unit, and acquiring a communication unit which covers the updating locking unit and is closest to the updating locking unit as an updated target communication unit based on the updating locking unit.

Optionally, in one possible implementation manner of the first aspect, receiving feedback information acquired by a feedback detection unit, retrieving a feedback policy and the feedback information to determine a feedback unit, and performing feedback operation on the feedback unit based on a feedback attribute corresponding to the feedback information, where the feedback attribute includes an unnecessary attribute and a missing attribute, including:

analyzing the feedback information to obtain the number of undetected equipment acquired by the feedback detection unit in a preset time period;

if the number of the undetected devices is greater than or equal to the preset undetected number, generating missing information, and determining that the feedback attribute of the feedback information is the missing attribute;

Responding to the missing information, determining the feedback increment quantity according to the quantity of the undetected equipment, acquiring a verification unit sequence corresponding to the electric energy meter verification assembly line, determining a feedback unit based on the feedback increment quantity and the verification unit sequence, and performing opening operation on the feedback unit, wherein the feedback operation comprises opening operation and closing operation;

if the number of the undetected devices is 0, generating redundant information, and determining that the feedback attribute of the feedback information is redundant;

and responding to the redundant information, acquiring verification quantity of each target verification unit in the preset time period, determining a feedback unit according to the verification quantity, and closing the feedback unit.

Optionally, in one possible implementation manner of the first aspect, in response to the missing information, determining a feedback increment number according to the number of undetected devices, obtaining a verification unit sequence corresponding to the electric energy meter verification pipeline, determining a feedback unit based on the feedback increment number and the verification unit sequence, and performing an opening operation on the feedback unit, including:

responding to the missing information, obtaining a feedback adjustment coefficient according to the ratio of the number of undetected equipment to the preset undetected number, and obtaining a feedback increment number based on the product of the reference feedback number and the feedback adjustment coefficient;

Deleting target verification units in the verification unit sequence to obtain an unopened unit sequence, sequentially selecting verification units in the unopened unit sequence as feedback units, stopping acquiring the feedback units until the number of the feedback units is equal to the feedback increment number, and performing opening operation on the feedback units.

Optionally, in one possible implementation manner of the first aspect, in response to the redundant information, acquiring a verification number of each target verification unit in the preset time period, determining a feedback unit according to the verification number, and performing a closing operation on the feedback unit, where the closing operation includes:

responding to the redundant information, and acquiring verification quantity of each target verification unit in a preset time period;

and acquiring the target verification units with the verification quantity of 0 as feedback units, and closing the feedback units.

In a second aspect of an embodiment of the present invention, there is provided a data processing system for an electric energy meter verification pipeline, comprising:

the initial module is used for acquiring the conveying flow of the tray conveying unit, determining the accuracy and the opening quantity of the multifunctional verification units according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on the electric energy meter verification assembly line;

The communication module is used for determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals;

the updating module is used for acquiring the detection flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining the predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity;

and the feedback module is used for receiving the feedback information acquired by the feedback detection unit, retrieving a feedback strategy and determining the feedback unit by the feedback information, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes.

The beneficial effects of the invention are as follows:

1. the method can combine the equipment quantity determination accuracy of the single three-phase electric energy meter and the starting quantity of the multifunctional verification units, improve the efficiency of the single three-phase electric energy meter in detection, and reduce the energy consumption. According to the scheme, firstly, the accuracy and the opening number of the multifunctional verification units are determined through the conveying flow of the tray conveying unit, then, a plurality of target verification units which are opened in opposite directions are determined through the opening number, and the communication unit which can cover all the target verification units and is nearest to the last target verification unit is obtained through the target verification units as the target verification unit, so that the circulation path of equipment in detection on a production line can be shortened, and the efficiency of equipment in detection is improved. The invention also predicts and updates the target verification unit and the target communication unit through the single-phase flow and the three-phase flow detected by the appearance detection unit, thereby being capable of additionally processing the verification unit when the required quantity of the verification unit is insufficient. And the invention also carries out feedback adjustment on the target verification unit through the feedback information acquired by the feedback detection unit, and carries out opening operation or closing operation on the obtained feedback unit, thereby being capable of carrying out additional processing on the verification unit when the required quantity of the verification unit is insufficient, and carrying out reduction processing on the verification unit when the verification unit is redundant, thereby reasonably utilizing equipment resources and reducing the waste of the equipment resources.

2. When the target verification unit is determined, a plurality of groups of verification units which are oppositely arranged on the assembly line are sequentially selected, so that the path of equipment in circulation on the assembly line can be shortened, and the verification efficiency is improved. When the target verification unit and the target communication unit are predicted and updated according to the single-phase flow and the three-phase flow, when the residual single-phase detection vacancy and/or the residual three-phase detection vacancy of the target verification device are insufficient, the predicted quantity which is required to be additionally arranged is calculated according to the device quantity of the phase difference and the preset single-phase vacancy quantity and the three-phase vacancy quantity, the target verification unit with the corresponding quantity is additionally arranged according to the predicted quantity, and the updated target verification unit is used for updating the target communication unit, so that the target verification unit can be additionally arranged when the required quantity of the target verification unit is insufficient, and the additionally arranged target verification unit can meet verification requirements.

3. When the feedback information is used for carrying out feedback processing on the target verification unit, the number of the undetected equipment in the preset time period can be firstly obtained, so that the target verification unit can be additionally processed by carrying out opening operation on the feedback unit when the number of the undetected equipment exceeds the preset undetected number, and the additionally processed target verification unit can meet the verification requirement of the equipment. When the number of undetected equipment is 0, the invention can acquire the target verification units with the verification number of 0 in the preset time period as the feedback units to perform closing operation, so that the feedback units can be used for reducing the target verification units, and the waste of equipment resources of the verification units is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a data processing system for an electric energy meter verification pipeline according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The electric energy meter verification system comprises a storehouse connection unit, a loading and unloading unit, a tray conveying unit, an information binding unit, an appearance detection unit, a pressure-proof test unit, an accuracy and multifunctional verification unit, a coding unit, a labeling unit, a qualified/unqualified sorting unit and the like. The accuracy and the number of the multifunctional verification units are multiple, after the conveying flow of the equipment is determined through the tray conveying unit, the accuracy and the number of the opened multifunctional verification units are determined, and the accuracy and the number of the opened multifunctional verification units are adjusted through the flow information of the single-phase equipment and the three-phase equipment detected by the appearance detecting unit, so that the accuracy and the number of the opened multifunctional verification units can be reasonably adjusted according to the flow information of the equipment, the detecting efficiency is improved, and meanwhile, the equipment resources can be saved. In addition, the invention also feeds back the accuracy and the multifunctional verification unit of the number of the undetected equipment detected by the feedback detection unit in a preset time period, so that the accuracy and the multifunctional verification unit of corresponding number can be additionally started when the equipment demand is too small, and the redundant accuracy and the multifunctional verification unit can be closed when the equipment demand is excessive, thereby reasonably utilizing equipment resources and reducing the waste of the equipment resources.

The execution bodies of the present application may include, but are not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

s1, acquiring the conveying flow of a tray conveying unit, determining the accuracy and the opening quantity of the multifunctional verification units according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on an electric energy meter verification assembly line.

In practical application, the electric energy meter is conveyed through the tray conveying unit before being detected by the accuracy and multifunctional detecting unit, so that the opening quantity corresponding to the conveying flow can be determined through the conveying flow of the tray conveying unit, and then the target detecting unit for opening on the electric energy meter detecting assembly line is determined according to the opening quantity.

Based on the above embodiment, the specific implementation manner of "obtaining the conveying flow of the tray conveying unit, determining the accuracy and the number of opening of the multifunctional verification unit" in step S1 according to the conveying flow may be:

s11, an opening quantity corresponding table is called, wherein the opening quantity corresponding table comprises a plurality of conveying flow intervals and preset opening quantity corresponding to each conveying flow interval.

In practical application, a staff can preset an opening quantity corresponding table according to practical conditions, and the accuracy corresponding to each conveying flow and the opening quantity of the multifunctional verification units can be determined through the table, so that the corresponding accuracy and the opening of the multifunctional verification units can be determined through the opening quantity.

S12, acquiring the conveying flow of the tray conveying unit, determining a conveying flow interval corresponding to the conveying flow as a target flow interval according to the conveying flow and the opening quantity corresponding table, and determining the preset opening quantity corresponding to the target flow interval as the accuracy and the opening quantity of the multifunctional verification unit.

By the mode, the accuracy and the multifunctional verification units with different numbers can be started according to different transport flows each time, all the devices are not required to be started each time, waste of device resources can be reduced, and the device resources are reasonably utilized.

On the basis of the above embodiment, the specific implementation manner of "the call to open policy in step S1 processes the open number to determine the target verification unit on the electric energy meter verification line" may be:

s13, acquiring the travel-out direction and the return direction of the electric energy meter verification assembly line, performing primary arrangement on a plurality of groups of verification unit combinations according to the travel-out direction to obtain a verification unit combination sequence, and performing secondary arrangement on each verification unit combination in the verification unit combination sequence according to the travel-out direction and the return direction to obtain a verification unit sequence.

The electric energy meter verification assembly line comprises a plurality of groups of verification unit combinations which are oppositely arranged.

It is worth mentioning that the degree of accuracy and the multi-functional verification unit on the electric energy meter verification assembly line need be the opposite direction setting, and be provided with a plurality of intercommunication units on electric energy meter verification assembly line interval, thereby can communicate the assembly line of both sides, make the electric energy meter can go through a circulation on electric energy meter verification assembly line when detecting, therefore this scheme can be according to the degree of accuracy and the multi-functional verification unit that the combination of multiunit opposite direction setting was selected to open when confirming the degree of accuracy and the multi-functional verification unit of opening, thereby can shorten the circulation route when electric energy meter detects, efficiency when improving electric energy meter and detecting.

Before the starting accuracy and the multifunctional verification units are selected, the scheme firstly arranges a plurality of accuracy and multifunctional verification units, and then selects the starting accuracy and the multifunctional verification units according to the arranged verification unit sequences.

In some embodiments, the above assay unit sequences can be obtained by:

s131, sequentially arranging all the verification unit combinations once according to the travel direction to obtain a verification unit combination sequence.

It can be understood that, in order to reduce the circulation path of the detected electric energy meter on the assembly line and improve the detection efficiency, the scheme performs opposite selection when the opened target verification unit is selected subsequently, so that when a plurality of accuracy and multifunctional verification units are arranged, each verification unit combination is firstly arranged according to the forward direction, and thus the verification unit in the verification unit combination arranged in front can be selected as the target verification unit subsequently.

S132, acquiring verification units corresponding to the travel direction in each verification unit combination as front units, and acquiring verification units corresponding to the return direction in each verification unit combination as rear units.

S133, arranging the front units in each verification unit combination before the rear units to obtain updated unit combinations, and updating the verification unit combination sequence based on the updated unit combinations to obtain verification unit sequences.

It will be appreciated that each combination of calibration units includes two calibration units, and when the electric energy meter is tested, the electric energy meter will flow to the calibration unit in the forward direction and then to the calibration unit in the return direction, so that the calibration unit in the forward direction can be used as the front unit, the calibration unit in the return direction can be used as the rear unit, and the front unit can be arranged before the rear unit, so that the front unit can be preferentially selected when the target calibration unit is selected.

S14, sequentially selecting verification units in the verification unit sequence as target verification units according to the opening quantity, and stopping selecting the target verification units until the quantity of the target verification units is equal to the opening quantity.

For example, if the number of starts is 10, the first 10 assay units in the assay unit sequence may be selected as target assay units to start. By the mode, the verification units arranged at the front end of the production line can be preferably selected as target verification units, so that the flow path of the electric energy meter during detection can be shortened, and the efficiency during detection can be improved.

S2, determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals.

After the target verification unit is determined, the scheme also determines a proper target communication unit according to the position information of the target verification unit, so that the forward and return pipelines can be communicated according to the target communication unit.

Specifically, in some embodiments, the above-described target communication unit may be obtained by:

s21, acquiring the target verification unit located at the last position in the going direction as a locking verification unit, and determining a communication unit covering the locking verification unit as a screening communication unit.

Wherein, each communication unit is provided with a plurality of verification units correspondingly covered.

It can be understood that the electric energy meter verification assembly line is provided with a plurality of communication units, each communication unit is provided with a verification unit which is covered correspondingly, only the communication unit covers the corresponding verification unit, and the electric energy meter can flow to the corresponding verification unit to be verified when the assembly line is communicated based on the corresponding communication unit, so that when the target communication unit is determined, the scheme can firstly screen out all communication units which can cover the locking verification unit, and then further screen out the corresponding communication unit. Wherein, the coverage means that the communication unit can carry out the verification unit of circulation.

It will also be appreciated that since the lock verification unit is the target verification unit at the last position in the forward direction, if the corresponding communication unit can cover the lock verification unit, it can also cover the remaining target verification units.

S22, acquiring a screening communication unit closest to the locking verification unit as a target communication unit.

Since there may be a plurality of screening communication units, in order to minimize the circulation path during detection of the electric energy meter, the present solution may select the screening communication unit closest to the lock verification unit as the target communication unit.

Through the mode, the communication unit with a shorter circulation path of the electric energy meter can be selected as the final target communication unit, so that the efficiency of verification of the electric energy meter can be improved.

S3, obtaining the detection flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining the predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity.

This scheme is when detecting the electric energy meter, can all detect single-phase electric energy meter and three-phase electric energy meter, and wherein, single-phase flow and the three-phase flow of three-phase electric energy meter of single-phase electric energy meter originally scheme can obtain through outward appearance detecting element.

It can be understood that when the opening quantity is determined by the conveying flow, the proposal is determined by the total conveying flow of all the electric energy meters, but the vacancy information occupied by the single-phase electric energy meter and the three-phase electric energy meter in detection is different, and when the single-phase flow or the three-phase flow is overlarge, the condition that the verification unit is insufficient can occur, so that in the condition, the proposal can update the target verification unit and the target communication unit according to the detecting flow and the vacancy information of the appearance detecting unit.

The single-phase flow rate refers to the conveying quantity of the single-phase electric energy meter in unit time, and the three-phase flow rate refers to the conveying quantity of the three-phase electric energy meter in unit time.

The specific implementation manner of step S3 based on the above embodiment may be:

s31, analyzing the single-phase flow information to obtain single-phase equipment flow, analyzing the three-phase flow information to obtain three-phase equipment flow, and analyzing the vacancy information to obtain the number of single-phase vacancies and the number of three-phase vacancies.

S32, counting the number of single-phase vacancies and the number of three-phase vacancies corresponding to all target verification units to obtain the total number of single-phase vacancies and the total number of three-phase vacancies, and generating additional information if the total number of single-phase vacancies is smaller than the single-phase equipment flow and/or the total number of three-phase vacancies is smaller than the three-phase equipment flow.

It will be appreciated that if the total number of single-phase vacancies is less than the single-phase device flow and/or the total number of three-phase vacancies is less than the three-phase device flow, it is indicated that the current target verification unit may not be able to fully detect all of the current single-phase and/or three-phase power meters, and thus in such a case, the target verification unit may be added to meet the verification requirements of the power meter.

S33, responding to the additional information, obtaining a first phase difference quantity according to the difference value of the single-phase equipment flow and the total single-phase vacancy quantity, and/or obtaining a second phase difference quantity according to the difference value of the three-phase equipment flow and the total three-phase vacancy quantity.

The total single-phase vacancy number is smaller than the single-phase equipment flow, and the total three-phase vacancy number is smaller than the three-phase equipment flow.

When the target verification unit is additionally arranged, the predicted quantity of the additionally arranged target verification unit can be calculated according to the first phase difference quantity of the single-phase equipment flow and the total single-phase vacancy quantity and/or the second phase difference quantity of the three-phase equipment flow and the total three-phase vacancy quantity, and then the corresponding target verification unit is obtained according to the predicted quantity.

S34, obtaining a first quantity according to the ratio of the first phase difference quantity to the preset single-phase quantity, and/or obtaining a second quantity according to the ratio of the second phase difference quantity to the preset three-phase quantity.

The preset single-phase number refers to the preset number of detectable single-phase vacancies corresponding to each verification unit, and the preset three-phase number refers to the preset number of detectable three-phase vacancies of each verification unit. It can be understood that the additional quantity corresponding to the single-phase flow can be obtained according to the ratio of the first phase difference quantity to the preset single-phase quantity, and the additional quantity corresponding to the three-phase flow can be obtained according to the ratio of the second phase difference quantity to the preset three-phase quantity, so that the final additional predicted quantity can be determined according to the obtained first quantity and/or second quantity.

It is worth mentioning that when calculating the first number and the second number, the first number and the second number may be rounded up values. For example, if the ratio of the first number of phase differences to the preset number of single phases is 3.5, the first number may be 4.

S35, acquiring the first number and/or the second number with large values as a predicted number, obtaining a total opening number according to the sum of the predicted number and the opening number, and reselecting a corresponding number of verification units in the verification unit sequence as target verification units according to the total opening number.

It will be appreciated that in order for the added target certification unit to meet the certification requirements, the present solution may select the first number and/or the second number with a large value as the predicted number to be added finally. And then determining the total opening quantity according to the additional quantity and the opening quantity, and re-selecting the target verification unit through the total opening quantity.

S36, acquiring the last target verification unit which is located in the going direction after updating as an updating locking unit, and acquiring a communication unit which covers the updating locking unit and is closest to the updating locking unit as an updated target communication unit based on the updating locking unit.

In practical application, after the target verification unit is updated, the target communication unit is correspondingly updated according to the scheme, so that all the target verification units can be covered by the updated target communication unit, wherein the mode of selecting the target communication unit in the step S2 (determining the corresponding communication unit as the target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals) is similar, and the scheme is not repeated herein.

By means of the method, the opening quantity of the target verification units can be predicted and updated through the detection flow of the appearance detection unit, so that the updated target verification units and the updated target communication units can meet verification requirements of the single-phase electric energy meter and the three-phase electric energy meter.

S4, receiving feedback information acquired by a feedback detection unit, calling a feedback strategy and the feedback information to determine a feedback unit, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes.

According to the scheme, the target detection unit is predicted and adjusted, and the target detection unit is subjected to feedback adjustment according to the feedback information acquired by the feedback detection unit. It can be understood that in practical application, the situation that the detection unit is insufficient or redundant may occur when the detection unit is detected by the target detection unit on the assembly line, so the scheme also determines the feedback unit according to the feedback information, performs the opening operation on the feedback unit when the detection unit is insufficient, and performs the closing operation on the feedback unit when the detection unit is redundant, where the feedback operation includes the opening operation and the closing operation.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, analyzing the feedback information to obtain the number of undetected equipment acquired by the feedback detection unit in a preset time period.

S42, if the number of the undetected equipment is greater than or equal to the preset undetected number, generating missing information, and determining that the feedback attribute of the feedback information is the missing attribute.

It will be appreciated that if the number of undetected devices is greater than or equal to the preset number of undetected devices, it is indicated that the number of devices not detected in the preset time period is greater than or equal to the preset value, and the number of devices not detected in the preset time period is abnormal, possibly because the number of open verification units is insufficient, so that the verification requirements of the devices cannot meet the normal verification requirements, missing information can be generated, and a corresponding number of verification units can be added according to the missing information.

S43, responding to the missing information, determining the feedback increment number according to the undetected equipment number, acquiring a verification unit sequence corresponding to the electric energy meter verification assembly line, determining a feedback unit based on the feedback increment number and the verification unit sequence, and performing opening operation on the feedback unit, wherein the feedback operation comprises opening operation and closing operation.

Specifically, step S43 may be implemented through steps S431 to S432, which are specifically as follows:

s431, responding to the missing information, obtaining feedback adjustment coefficients according to the ratio of the number of undetected equipment to the preset undetected number, and obtaining feedback increment numbers based on the product of the reference feedback number and the feedback adjustment coefficients.

It will be appreciated that a larger number of undetected devices will indicate a larger number of undetected devices, and thus a correspondingly larger number of feedback increases may be provided, so that a larger number of assay units may be opened to assay the devices. In practical applications, the preset undetected number and the reference feedback number may be set correspondingly.

S432, deleting target verification units in the verification unit sequence to obtain an unopened unit sequence, sequentially selecting verification units in the unopened unit sequence as feedback units, stopping acquiring the feedback units until the number of the feedback units is equal to the feedback increment number, and opening the feedback units.

When the feedback units are determined, the verification units with the increased feedback quantity can be continuously determined as the feedback units to perform opening operation after the last target verification unit in the verification unit sequence, so that the opened verification units can be additionally arranged, and the opened verification units can meet the requirement of equipment in detection.

In addition, after the feedback unit is obtained, the target communication unit can be updated again through the feedback unit, and the updating steps are identical to the steps when the target communication unit is updated, so that the scheme is not repeated herein.

And S44, if the number of the undetected equipment is 0, generating redundant information, and determining the feedback attribute of the feedback information as redundant attribute.

It will be appreciated that if the number of undetected items is 0, indicating that all devices have been detected within the predetermined period of time, in this case, there may be redundant certification units, and thus redundant information may be generated, by which redundant certification devices are subsequently turned off, thereby reducing waste of device resources.

S45, responding to the redundant information, acquiring verification quantity of each target verification unit in the preset time period, determining a feedback unit according to the verification quantity, and closing the feedback unit.

Specifically, step S45 may be implemented through steps S451 to S452, which are specifically as follows:

s451, responding to the redundant information, and acquiring verification quantity of each target verification unit in a preset time period.

S452, acquiring the target verification units with the verification quantity of 0 as feedback units, and closing the feedback units.

It will be appreciated that if the number of target certification units in the preset time period is 0, which indicates that the target certification units have not detected the device in the preset time period, it is possible that other target certification units detect the device, so that the target certification units are always in an idle state, and the target certification units may be redundant, so that the target certification units can be used as feedback units to perform a closing operation, and the waste of resources of the certification units is reduced.

In addition, after the feedback unit is determined in the above manner, the target communication unit may be updated again by the feedback unit, and the update manner is consistent with the update manner described above, which is not described herein.

Through the mode, the target verification unit can be subjected to feedback updating through the feedback information, so that equipment resources can be reasonably utilized, and the waste of the equipment resources is reduced.

Referring to fig. 1, a schematic structural diagram of a data processing system for an electric energy meter verification pipeline according to an embodiment of the present invention includes:

The initial module is used for acquiring the conveying flow of the tray conveying unit, determining the accuracy and the opening quantity of the multifunctional verification units according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on the electric energy meter verification assembly line;

the communication module is used for determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals;

the updating module is used for acquiring the detection flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining the predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity;

and the feedback module is used for receiving the feedback information acquired by the feedback detection unit, retrieving a feedback strategy and determining the feedback unit by the feedback information, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (8)

1. A data processing method for an electrical energy meter verification pipeline, comprising:

acquiring the conveying flow of a tray conveying unit, determining the accuracy and the opening quantity of a multifunctional verification unit according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on an electric energy meter verification assembly line;

determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals;

obtaining detection flow of an appearance detection unit and vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity;

Receiving feedback information acquired by a feedback detection unit, retrieving a feedback strategy and the feedback information to determine a feedback unit, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes;

according to the position of the target verification unit, determining the corresponding communication unit as a target communication unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals, and the method comprises the following steps:

acquiring a target verification unit positioned at the last position in the going-out direction as a locking verification unit, and determining a communication unit covering the locking verification unit as a screening communication unit;

wherein, each communication unit is provided with a plurality of verification units which are correspondingly covered;

acquiring a screening communication unit closest to the locking verification unit as a target communication unit;

obtaining the detected flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detected flow comprises single-phase flow and three-phase flow, obtaining a predicted quantity according to the vacancy information and the detected flow, updating the target verification unit and the target communication unit based on the predicted quantity, and the method comprises the following steps:

Analyzing the single-phase flow information to obtain single-phase equipment flow, analyzing the three-phase flow information to obtain three-phase equipment flow, and analyzing the vacancy information to obtain single-phase vacancy number and three-phase vacancy number;

counting the number of single-phase vacancies and the number of three-phase vacancies corresponding to all target verification units to obtain the total number of single-phase vacancies and the total number of three-phase vacancies, and generating additional information if the total number of single-phase vacancies is smaller than the single-phase equipment flow and/or the total number of three-phase vacancies is smaller than the three-phase equipment flow;

responding to the additional information, obtaining a first phase difference quantity according to the difference value of the single-phase equipment flow and the total single-phase vacancy quantity, and/or obtaining a second phase difference quantity according to the difference value of the three-phase equipment flow and the total three-phase vacancy quantity;

the total single-phase vacancy number is smaller than the single-phase equipment flow, and the total three-phase vacancy number is smaller than the three-phase equipment flow;

obtaining a first number according to the ratio of the first phase difference number to the preset single-phase number, and/or obtaining a second number according to the ratio of the second phase difference number to the preset three-phase number;

Acquiring the first quantity and/or the second quantity with large values as a predicted quantity, obtaining a total opening quantity according to the sum of the predicted quantity and the opening quantity, and reselecting a corresponding quantity of verification units in a verification unit sequence as target verification units according to the total opening quantity;

and acquiring the last target verification unit which is located in the forward direction after updating as an updating locking unit, and acquiring a communication unit which covers the updating locking unit and is closest to the updating locking unit as an updated target communication unit based on the updating locking unit.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the method for acquiring the conveying flow of the tray conveying unit, determining the accuracy and the opening number of the multifunctional verification units according to the conveying flow comprises the following steps:

the method comprises the steps of calling an opening quantity corresponding table, wherein the opening quantity corresponding table comprises a plurality of conveying flow intervals and preset opening quantity corresponding to each conveying flow interval;

and acquiring the conveying flow of the tray conveying unit, determining a conveying flow interval corresponding to the conveying flow as a target flow interval according to the conveying flow and the opening quantity corresponding table, and determining the preset opening quantity corresponding to the target flow interval as the accuracy and the opening quantity of the multifunctional verification unit.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

invoking a subtending opening strategy to process the opening quantity to determine a target verification unit on a verification assembly line of the electric energy meter, comprising:

acquiring a travel-out direction and a return direction of the electric energy meter verification assembly line, performing primary arrangement on a plurality of groups of verification unit combinations according to the travel-out direction to obtain a verification unit combination sequence, and performing secondary arrangement on each verification unit combination in the verification unit combination sequence according to the travel-out direction and the return direction to obtain a verification unit sequence;

wherein, the electric energy meter verification assembly line comprises a plurality of groups of verification unit combinations which are oppositely arranged;

and sequentially selecting verification units in the verification unit sequence as target verification units according to the opening quantity, and stopping selecting the target verification units until the quantity of the target verification units is equal to the opening quantity.

4. The method of claim 3, wherein the step of,

obtaining a travel direction and a return direction of the electric energy meter verification assembly line, performing primary arrangement on a plurality of groups of verification unit combinations according to the travel direction to obtain a verification unit combination sequence, and performing secondary arrangement on each verification unit combination in the verification unit combination sequence according to the travel direction and the return direction to obtain a verification unit sequence, wherein the method comprises the following steps:

Sequentially arranging all the verification unit combinations once according to the forward direction to obtain a verification unit combination sequence;

acquiring verification units corresponding to the forward direction in each verification unit combination as a front unit, and acquiring verification units corresponding to the return direction in each verification unit combination as a rear unit;

and arranging the front units in each verification unit combination before the rear units to obtain an updating unit combination, and updating the verification unit combination sequence based on the updating unit combination to obtain a verification unit sequence.

5. The method of claim 1, wherein the step of determining the position of the substrate comprises,

receiving feedback information acquired by a feedback detection unit, retrieving a feedback strategy and determining a feedback unit by the feedback information, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes, and the feedback information comprises:

analyzing the feedback information to obtain the number of undetected equipment acquired by the feedback detection unit in a preset time period;

if the number of the undetected devices is greater than or equal to the preset undetected number, generating missing information, and determining that the feedback attribute of the feedback information is the missing attribute;

Responding to the missing information, determining the feedback increment quantity according to the quantity of the undetected equipment, acquiring a verification unit sequence corresponding to the electric energy meter verification assembly line, determining a feedback unit based on the feedback increment quantity and the verification unit sequence, and performing opening operation on the feedback unit, wherein the feedback operation comprises opening operation and closing operation;

if the number of the undetected devices is 0, generating redundant information, and determining that the feedback attribute of the feedback information is redundant;

and responding to the redundant information, acquiring verification quantity of each target verification unit in the preset time period, determining a feedback unit according to the verification quantity, and closing the feedback unit.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

responding to the missing information, determining the feedback increment number according to the undetected equipment number, acquiring a verification unit sequence corresponding to the electric energy meter verification assembly line, determining a feedback unit based on the feedback increment number and the verification unit sequence, and performing opening operation on the feedback unit, wherein the method comprises the following steps:

responding to the missing information, obtaining a feedback adjustment coefficient according to the ratio of the number of undetected equipment to the preset undetected number, and obtaining a feedback increment number based on the product of the reference feedback number and the feedback adjustment coefficient;

Deleting target verification units in the verification unit sequence to obtain an unopened unit sequence, sequentially selecting verification units in the unopened unit sequence as feedback units, stopping acquiring the feedback units until the number of the feedback units is equal to the feedback increment number, and performing opening operation on the feedback units.

7. The method of claim 6, wherein the step of providing the first layer comprises,

responding to the redundant information, acquiring verification quantity of each target verification unit in the preset time period, determining a feedback unit according to the verification quantity, and closing the feedback unit, wherein the method comprises the following steps:

responding to the redundant information, and acquiring verification quantity of each target verification unit in a preset time period;

and acquiring the target verification units with the verification quantity of 0 as feedback units, and closing the feedback units.

8. A data processing system for an electrical energy meter verification pipeline, comprising:

the initial module is used for acquiring the conveying flow of the tray conveying unit, determining the accuracy and the opening quantity of the multifunctional verification units according to the conveying flow, calling a counter opening strategy to process the opening quantity, and determining a target verification unit on the electric energy meter verification assembly line;

The communication module is used for determining a corresponding communication unit as a target communication unit according to the position of the target verification unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals;

the updating module is used for acquiring the detection flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detection flow comprises single-phase flow and three-phase flow, obtaining the predicted quantity according to the vacancy information and the detection flow, and updating the target verification unit and the target communication unit based on the predicted quantity;

the feedback module is used for receiving the feedback information acquired by the feedback detection unit, retrieving a feedback strategy and the feedback information to determine a feedback unit, and performing feedback operation on the feedback unit based on feedback attributes corresponding to the feedback information, wherein the feedback attributes comprise redundant attributes and missing attributes;

according to the position of the target verification unit, determining the corresponding communication unit as a target communication unit, wherein a plurality of communication units are arranged on the electric energy meter verification assembly line at intervals, and the method comprises the following steps:

acquiring a target verification unit positioned at the last position in the going-out direction as a locking verification unit, and determining a communication unit covering the locking verification unit as a screening communication unit;

Wherein, each communication unit is provided with a plurality of verification units which are correspondingly covered;

acquiring a screening communication unit closest to the locking verification unit as a target communication unit;

obtaining the detected flow of the appearance detection unit and the vacancy information of the target verification unit, wherein the detected flow comprises single-phase flow and three-phase flow, obtaining a predicted quantity according to the vacancy information and the detected flow, updating the target verification unit and the target communication unit based on the predicted quantity, and the method comprises the following steps:

analyzing the single-phase flow information to obtain single-phase equipment flow, analyzing the three-phase flow information to obtain three-phase equipment flow, and analyzing the vacancy information to obtain single-phase vacancy number and three-phase vacancy number;

counting the number of single-phase vacancies and the number of three-phase vacancies corresponding to all target verification units to obtain the total number of single-phase vacancies and the total number of three-phase vacancies, and generating additional information if the total number of single-phase vacancies is smaller than the single-phase equipment flow and/or the total number of three-phase vacancies is smaller than the three-phase equipment flow;

responding to the additional information, obtaining a first phase difference quantity according to the difference value of the single-phase equipment flow and the total single-phase vacancy quantity, and/or obtaining a second phase difference quantity according to the difference value of the three-phase equipment flow and the total three-phase vacancy quantity;

The total single-phase vacancy number is smaller than the single-phase equipment flow, and the total three-phase vacancy number is smaller than the three-phase equipment flow;

obtaining a first number according to the ratio of the first phase difference number to the preset single-phase number, and/or obtaining a second number according to the ratio of the second phase difference number to the preset three-phase number;

acquiring the first quantity and/or the second quantity with large values as a predicted quantity, obtaining a total opening quantity according to the sum of the predicted quantity and the opening quantity, and reselecting a corresponding quantity of verification units in a verification unit sequence as target verification units according to the total opening quantity;

and acquiring the last target verification unit which is located in the forward direction after updating as an updating locking unit, and acquiring a communication unit which covers the updating locking unit and is closest to the updating locking unit as an updated target communication unit based on the updating locking unit.