CN116384883A - Production operation management system of electric energy metering equipment - Google Patents

Abstract

The invention provides a production operation management system of electric energy metering equipment, which comprises: the system comprises a warehouse-in and warehouse-out module, a scheduling module, an RFID tag module, a read-write module and a monitoring module; the warehouse-in and warehouse-out module is used for constructing a warehouse space model, obtaining and calculating warehouse-in and warehouse-out time of the transportation equipment for transporting the electric energy metering equipment based on the transportation track of the transportation equipment for transporting the electric energy metering equipment; the dispatching module is used for constructing a dispatching model, acquiring and distributing dispatching tasks to the transportation equipment based on the work types of the transportation equipment in the dispatching model; the RFID tag module is used for setting an RFID tag for the electric energy metering equipment; the read-write module is used for reading information of the RFID tag on the electric energy metering equipment; the monitoring module is used for monitoring key indexes of the electric energy metering equipment and generating an electric energy metering equipment use report; compared with the prior art, the technical scheme of the invention can improve the accuracy of data recording through the RFID technology.

Description

Production operation management system of electric energy metering equipment

Technical Field

The invention relates to the technical field of operation management, in particular to a production operation management system of electric energy metering equipment.

Background

The intelligent warehousing system of the electric energy metering equipment is an important link in the management process of the electric energy equipment, the electric energy metering equipment needs more precise warehousing management due to the storage characteristic of the electric energy metering equipment, the traditional warehousing management generally adopts a manual management mode, the electric energy metering equipment is subjected to warehousing and ex-warehouse management through a manual recording mode, the manual statistics and the scheduling are low in efficiency, the data accuracy is poor, and the condition that the management of warehouse materials is disordered due to inaccurate manual accounting recording often occurs.

Therefore, a production operation management system of metering equipment is needed at present so as to realize informatization management of the existing electric energy metering equipment and reduce the situations of low efficiency and poor data accuracy of manual record warehouse-in and warehouse-out.

Disclosure of Invention

The invention aims to solve the technical problems that: the production operation management system of the electric energy metering equipment is provided, the informatization management of the electric energy metering equipment is realized through an RFID technology, and the accuracy of data recording is improved.

In order to solve the above technical problems, the present invention provides a production operation management system of an electric energy metering device, including: the system comprises a warehouse-in and warehouse-out module, a scheduling module, an RFID tag module, a read-write module and a monitoring module;

the warehouse in and out module is used for acquiring and constructing a warehouse space model based on warehouse topography, marking a warehouse inlet end and a storage point in the warehouse space model, carrying out warehouse in and out route planning on the electric energy metering equipment according to the warehouse inlet end and the storage point to obtain a transportation track of the transportation equipment for transporting the electric energy metering equipment, and calculating warehouse in and out time of the transportation equipment for transporting the electric energy metering equipment according to the transportation track;

the dispatching module is used for constructing a distribution dispatching model according to the warehouse-in and warehouse-out time, acquiring the working state of the transportation equipment in the dispatching model, determining the working type of the transportation equipment according to the working state, and distributing dispatching tasks to the transportation equipment according to the working type so as to dispatch the electric energy metering equipment according to the dispatching tasks;

the RFID tag module is used for setting RFID tags corresponding to the electric energy metering devices one by one;

the reading and writing module is used for reading information of the RFID tag on the electric energy metering equipment to obtain reading information of the electric energy metering equipment;

and the monitoring module is used for monitoring key indexes of the electric energy metering equipment according to the read information of the electric energy metering equipment, obtaining and generating an electric energy metering equipment use report based on the key index information.

In one possible implementation, the distribution scheduling model constructed in the scheduling module is as follows:

；

wherein,,

the number of the electric energy metering devices; />

Is the number of transport devices; />

Delivery time of the electric energy metering device for the transportation device,/-in and out of the warehouse>

Is->

The individual transport devices are located from the storage location to the sorting location>

Is a motion time of (a); />

Is->

The individual transport devices arrive at the sorting station from the storage entry end>

Is>

For->

Operating state of individual transport devices->

The method comprises the steps of carrying out a first treatment on the surface of the Wherein (1)>

。

In a possible implementation manner, the scheduling module is configured to allocate a scheduling task to the transportation device according to the work type, and specifically includes:

acquiring the work type of the transportation equipment, wherein the work type comprises a work for leaving a warehouse, a work for loading and unloading and an idle state;

when the work type of the transportation equipment is in an idle state, dispatching tasks are preferentially distributed to the transportation equipment;

when the work type of the transportation equipment is loading and unloading work, calculating the loading and unloading work ending time of the transportation equipment;

when the work type of the transportation equipment is a warehouse-out work, calculating the warehouse-out work ending time of the transportation equipment;

and sorting the transportation equipment according to the loading and unloading work ending time and the ex-warehouse work ending time, and distributing scheduling tasks to the transportation equipment according to the sorting.

In one possible implementation manner, the monitoring module is configured to monitor key indexes of the electric energy metering device according to the information read by the electric energy metering device, where the key indexes include a condition that the lead exceeds a period of time, a first-level package warehouse-in completion rate, a turnover cabinet warehouse-in ratio, a turnover cabinet lead ratio and a inventory turnover ratio.

In one possible implementation manner, the overtime unfilled condition is statistical information of overtime unfilled conditions of each unit of electric energy metering equipment, wherein the statistical information comprises the number of the overtime unfilled, the number of the premade, the unfilled number of the electric energy metering equipment, the overtime unfilled number and the installation completion rate;

the primary package warehousing completion rate is primary package warehousing completion information of a ground city level, wherein the primary package warehousing completion information comprises primary package warehousing quantity, primary package distribution quantity and primary package warehousing completion rate;

the turnover cabinet warehouse-in duty ratio is turnover cabinet warehouse-in duty ratio information of district level and power supply station level, wherein the turnover cabinet warehouse-in duty ratio information comprises: the number of the storage boxes, the distribution number of the storage boxes and the storage proportion of the storage boxes;

the turnover cabinet is taken as a factor of province, city, district and county and the turnover cabinet of power supply department takes as a factor of information, wherein, turnover cabinet takes as a factor of information includes: marketing lead-out quantity, turnover cabinet lead-out quantity and turnover cabinet lead-out ratio;

the inventory turnover rate monitoring is inventory turnover rate monitoring information of province level, city level, county level and power supply station level, wherein the inventory turnover rate monitoring information comprises: inventory lead number, inventory count, inventory turnover rate, cycle by cycle, and cycle by month.

In a possible implementation manner, the electric energy metering device is scheduled according to the scheduling task, wherein the scheduling task comprises a first in-out task issuing and a first storage point inventory of a primary package library service, and the scheduling task further comprises a second in-out task issuing and a second storage point inventory of a secondary Bao Pingku service.

In one possible implementation, the RFID tag includes a lot status of the electrical energy metering device, wherein the lot status includes a lot to be refunded, and the lot to be refunded includes first-aid failure information, first device status information, and first factory to be returned information;

the batch status also includes a partial replacement batch, and the partial replacement batch includes: second first-aid reject information, second equipment state information and second to-be-returned factory information.

In one possible implementation manner, the monitoring module is further configured to authorize a warehouse manager corresponding to a provincial level, a local city level, a county level, and a power supply station level, so that the warehouse manager can check key indexes of the electric energy metering devices of each level according to respective rights.

The invention provides a production operation management system of electric energy metering equipment, which further comprises: a plan tracking module;

the plan tracking module is used for tracking inventory required plans corresponding to province level, city level, county level and power supply station level to obtain required plan tracking information, wherein the required plan tracking information comprises required plan numbers, required equipment descriptions, execution progress, reporting unit information and warehouse names;

and acquiring demand execution detail information according to the demand planning tracking information, wherein the demand execution detail information comprises the link information of the demand reporting, summarizing and balancing, distribution planning, item matching, warehouse saving, warehouse leaving, transportation distribution and warehouse receiving.

The invention provides a production operation management system of electric energy metering equipment, which further comprises: the equipment account checking module;

the equipment account real spot check module is used for generating a spot check plan, generating a spot check task according to the spot check plan, and issuing the spot check task to a user terminal through a server in the form of a spot check instruction so that the user terminal can finish account real spot check of the electric energy metering equipment according to the spot check task.

Compared with the prior art, the production operation management system of the electric energy metering equipment has the following beneficial effects:

the production operation management system of the electric energy metering equipment comprises: the system comprises a warehouse-in and warehouse-out module, a scheduling module, an RFID tag module, a read-write module and a monitoring module; the warehouse-in and warehouse-out module is used for constructing a warehouse space model, obtaining and calculating warehouse-in and warehouse-out time of the transportation equipment for transporting the electric energy metering equipment based on the transportation track of the transportation equipment for transporting the electric energy metering equipment; the dispatching module is used for constructing a dispatching model, acquiring and distributing dispatching tasks to the transportation equipment based on the work types of the transportation equipment in the dispatching model; the RFID tag module is used for setting an RFID tag for the electric energy metering equipment; the read-write module is used for reading information of the RFID tag on the electric energy metering equipment; the monitoring module is used for monitoring key indexes of the electric energy metering equipment and generating an electric energy metering equipment use report; compared with the prior art, the technical scheme of the invention carries out metering operation management on the electric energy metering equipment through the RFID technology, so that the information acquired in the daily equipment management and recording process is more accurate, the working efficiency is higher, and the situations that the equipment is lost or the distribution of transportation equipment in the equipment operation scheduling process is unreasonable due to information omission caused by manual recording are reduced.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a production operation management system of an electric energy metering device according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. 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.

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a production operation management system of an electric energy metering device provided by the present invention, and as shown in fig. 1, the structure includes an in-out warehouse module 101, a scheduling module 102, an RFID tag module 103, a read-write module 104 and a monitoring module 105, specifically as follows:

the warehouse in and out module 101 is configured to obtain and construct a warehouse space model based on a warehouse topography, mark a warehouse entry end and a storage point in the warehouse space model, perform warehouse in and out route planning on the electric energy metering device according to the warehouse entry end and the storage point, obtain a transportation track of the transportation device for transporting the electric energy metering device, and calculate warehouse in and out time of the transportation device for transporting the electric energy metering device according to the transportation track.

In an embodiment, when the warehousing operation is performed on the electric energy metering device, a transportation device is required to transport the electric energy metering device from the warehouse entry end to the storage point according to the transportation track, and at this time, the warehousing time of the transportation device for transporting the electric energy metering device is calculated, that is, the time for calculating the distance from the warehouse entry end to the storage point of the transportation device is consumed; the method comprises the steps of calculating the warehousing time of the transportation equipment for transporting the electric energy metering equipment according to a preset warehousing calculation formula, wherein the preset warehousing calculation formula is as follows:

；

wherein,,

delivering the warehouse time of the electric energy metering device for the transportation device, < >>

Straight travel distance from warehouse entry to storage point for transport means +.>

The time taken; />

An upper time limit for discharging the electric energy metering device for the transport device; />

The lower time limit for discharging the electric energy metering device for the transport device.

In one embodiment, if the transport apparatus unloads the electric energy metering apparatus for a lower time limit

When the time of the (b) is a fixed value and based on the multi-batch transportation electric energy metering equipment of the transportation equipment, the corresponding multi-batch warehousing time is:

；

wherein,,

for a plurality of transport devices->

Is->

And the transportation time spent by the transportation equipment in the warehouse-in operation.

In an embodiment, when the electric energy metering device is put in storage to perform the out-of-storage operation, the transportation device is required to transport the electric energy metering device from the storage point to the warehouse entry end according to the transportation track, and at this time, the out-of-storage time of the transportation device for transporting the electric energy metering device is calculated, that is, the time consumed for the transportation device to reach the warehouse entry end from the storage point is calculated.

In an embodiment, the difference between the warehousing and ex-warehouse operation of the electric energy metering device and the warehousing and ex-warehouse operation of the electric energy metering device is that when the electric energy metering device performs the ex-warehouse operation,

for the linear travel distance of the transport device from the storage point to the warehouse entry end +.>

Time taken.

The scheduling module 102 is configured to construct a distribution scheduling model according to the time of entering and exiting the warehouse, obtain a working state of the transportation device in the scheduling model, determine a working type of the transportation device according to the working state, and allocate a scheduling task to the transportation device according to the working type, so that the electric energy metering device is scheduled according to the scheduling task.

In one embodiment, a distribution scheduling model is constructed as follows:

；

wherein,,

the number of the electric energy metering devices; />

Is the number of transport devices; />

Delivery time of the electric energy metering device for the transportation device,/-in and out of the warehouse>

Is->

The individual transport devices are located from storage point to storage point +.>

Is a motion time of (a); />

Is the first

The transport device reaches the storage point from the storage inlet end>

Is>

For->

Operating state of individual transport devices

The method comprises the steps of carrying out a first treatment on the surface of the Wherein (1)>

。

In an embodiment, the working state of the transportation equipment in the scheduling model is obtained; specifically, the scheduling model is obtained

Value according to said->

Value, judgment scheduling model->

Middle->

Operating state of the transport device->

The method comprises the steps of carrying out a first treatment on the surface of the Wherein, when said->

When the value is 0, judging the +.in the scheduling model>

The operating state of the transport device is idle when said +.>

Judging the +.in the scheduling model when the value is + -1>

The working state of the transportation equipment is working.

In one embodiment, determining a working type Q of the transportation device according to the working state; specifically, when in the scheduling model

The working state of the transportation equipment is idle, and the working type of the transportation equipment is determined to be the idle state; when +.>

When the working state of the transportation equipment is working, the +.>

Value when said->

When the value is-1, the work type of the h transport equipment is the ex-warehouse work, and when the value is +.>

At a value of 1, the type of work of the h transport apparatus is a loading and unloading work.

In an embodiment, the scheduling task is configured to allocate a scheduling task to the transportation device according to the work type, and specifically, obtain the work type of the transportation device, where the work type includes a work for leaving a warehouse, a work for loading and unloading, and an idle state; when the work type of the transportation equipment is in an idle state, dispatching tasks are preferentially distributed to the transportation equipment; when the work type of the transportation equipment is loading and unloading work, calculating the loading and unloading work ending time of the transportation equipment; when the work type of the transportation equipment is a warehouse-out work, calculating the warehouse-out work ending time of the transportation equipment; and sorting the transportation equipment according to the loading and unloading work ending time and the ex-warehouse work ending time, and distributing scheduling tasks to the transportation equipment according to the sorting. The transport equipment in idle state is firstly subjected to priority classification scheduling tasks, and under the condition that no transport equipment in idle state is available, the transport equipment which is firstly subjected to ex-warehouse work or loading and unloading work is subjected to priority allocation scheduling tasks.

Preferably, after the dispatching task is allocated to the transportation device, the work type of the transportation device is adjusted according to the dispatching task.

In the embodiment, the space model construction is realized on the warehouse through the dispatching module to obtain a dispatching model, the dispatching model is used for carrying out the prediction and planning of the transportation time and the transportation route in combination with the transportation equipment, and the intelligent dispatching of the transportation equipment and the electric energy metering equipment is obtained, so that the effective electric energy metering equipment is dispatched from the working state of the transportation equipment, and the aim of efficient warehouse operation management is realized; and when the warehouse-in and warehouse-out operation of the electric energy metering equipment is executed, the warehouse-in and warehouse-out operation is carried out through the transportation equipment, so that the purposes of equipment transportation, warehouse-out and warehouse-in are realized, the labor cost is greatly reduced, the purpose of replacing manual production operation by using a machine is realized, and the dispatching operation efficiency is effectively improved.

In an embodiment, the electric energy metering device is scheduled according to the scheduling task, where the scheduling task includes a first in-out task issuing and a first storage point inventory of a primary packet vertical service, and the scheduling task further includes a second in-out task issuing and a second storage point inventory of a secondary Bao Pingku service.

Specifically, the scheduling tasks include a newly added Guangzhou office primary package vertical library service mode to support the service operation of Guangzhou office primary Bao Liku, including the issuing of input and output tasks, the storage of inventory and other services.

Specifically, the scheduling task includes a newly added Guangzhou office second-level Bao Pingku service mode to support the service operation of the Guangzhou office second-level Bao Pingku, including the issuing of the in-out and in-in tasks, the storage and inventory and other services. The flat warehouse-in and warehouse-out task execution page supports the function of uploading scanning information by the radio frequency door and the code scanning gun.

In one embodiment, the scheduling module 102 may be configured to schedule the power metering devices in different warehouses; the method can also be used for dispatching equipment in the manual flat warehouse area to the turnover cabinet warehouse area under the same warehouse, and assisting a metering package manager in dispatching equipment in the warehouse area.

Specifically, the scheduling module 102 adds the function of manually leveling the warehouse area under the same warehouse to the function of transferring the warehouse area of the turnover cabinet by calling the warehouse area transferring function on the system interface, and assists the metering package manager to perform the warehouse area transferring service.

The RFID tag module 103 is configured to set RFID tags corresponding to each electric energy metering device one by one.

In one embodiment, the number of RFID tags is related to the number of electric energy metering devices, and a unique corresponding RFID tag is provided for each electric energy metering device, wherein the RFID tag is provided on the electric energy metering device.

In an embodiment, the RFID tag includes a lot status of the electric energy metering device, where the lot status includes a lot to be refunded, and the lot to be refunded includes first-aid failure information, first device status information, and first factory to be returned information; the batch status also includes a partial replacement batch, and the partial replacement batch includes: second first-aid reject information, second equipment state information and second to-be-returned factory information.

The read-write module 104 is configured to read information from the RFID tag on the electric energy metering device, so as to obtain information read by the electric energy metering device.

In an embodiment, when the electric energy metering device is subjected to warehouse-in and warehouse-out management, a worker scans the electric energy metering device with the RFID tag by using the read-write module to obtain information read by the electric energy metering device, so that electronic information records of warehouse-out and warehouse-in corresponding to the electric energy metering device are realized, and the aim of electronic management is realized according to the electronic information records.

In an embodiment, besides the reading and writing module is used for scanning and reading the electric energy metering device with the RFID tag based on a worker, the reading and writing module can be arranged at a certain fixed position at the entrance end of the warehouse, wherein the certain fixed position can enable the reading and writing module to scan and read the RFID tag on the electric energy metering device when the electric energy metering device goes out of the warehouse and goes in the warehouse.

In an embodiment, after obtaining the information read by the electric energy metering device, the information read by the electric energy metering device is transmitted to the user terminal through the server, wherein the server transmits the information read by the electric energy metering device to the information transmission between the server and the user terminal through the switch.

In an embodiment, because the RFID tag may have a tag quality problem, when the electric energy metering device is easily put in and out of the warehouse, the warehouse in and out process may not be completed due to a tag verification failure.

The monitoring module 105 is configured to monitor key indexes of the electric energy metering device according to the read information of the electric energy metering device, obtain and generate an electric energy metering device usage report based on the key index information.

In one embodiment, the key indicators include a lead out-of-date condition, a first-level package warehouse-in completion rate, a turnover cabinet warehouse-in rate, a turnover cabinet lead rate and a inventory turnover rate.

Specifically, the overtime unfilled condition is statistical information of overtime unfilled conditions of the electric energy metering equipment of each unit, wherein the statistical information comprises the number of the overtime unfilled, the number of the premade, the unfilled number of the electric energy metering equipment, the overtime unfilled number and the installation completion rate.

Specifically, the first-level package warehousing completion rate is first-level package warehousing completion information of a city level, wherein the first-level package warehousing completion information comprises first-level package warehousing quantity, first-level package distribution quantity and first-level package warehousing completion rate.

Specifically, the turnover cabinet warehouse entry duty ratio is turnover cabinet warehouse entry duty ratio information of district level and power supply station level, wherein the turnover cabinet warehouse entry duty ratio information comprises: the number of the storage boxes, the distribution number of the storage boxes and the storage proportion of the storage boxes.

Specifically, the turnover cabinet duty ratio is the turnover cabinet duty ratio information of provincial level, district-city level, district-county level and power supply station level, wherein, the turnover cabinet duty ratio information includes: marketing lead out quantity, turnover cabinet lead out quantity and turnover cabinet lead out ratio.

Specifically, the inventory turnover rate monitoring is inventory turnover rate monitoring information of provincial level, local city level, county level and power supply station level, wherein the inventory turnover rate monitoring information comprises: inventory lead number, inventory count, inventory turnover rate, cycle by cycle, and cycle by month.

In one embodiment, a report of usage of the electric energy metering device is generated based on the key index information, so as to realize notification of usage of all levels of the ground and city bureaus.

Specifically, for the situation of overtime and unfinished in the lead, generating a report of overtime and unfinished in the lead of the electric energy metering equipment, wherein the report is used for displaying statistical information of the overtime and unfinished situation of the lead of each unit equipment in the whole province, and the statistical information comprises information such as lead, pre-lead, unfinished, overtime unfinished quantity, installation completion rate and the like; and supporting statistical display according to the device category, the lead type and the dimensionality of the time range, and supporting the lead unfilled total amount information and the detail information.

Specifically, for the first-level package warehouse-in completion rate, a first-level package warehouse-in completion rate usage report of the electric energy metering equipment is generated and used for displaying first-level package warehouse-in completion information of all local offices in the whole province, wherein the first-level package warehouse-in completion information comprises information such as first-level package warehouse-in quantity, first-level package distribution quantity, first-level package warehouse-in completion rate and the like; and supporting statistical display according to the equipment category, the statistical dimension (year, month and day) and the dimension of the time interval, and supporting the derivation of the first-level package warehousing condition statistical information.

Specifically, for the warehouse-in proportion of the turnover cabinets, a turnover cabinet warehouse-in proportion use report of the electric energy metering equipment is generated and used for displaying the warehouse-in proportion information of all units of the whole province, wherein the information comprises the warehouse-in number of the turnover cabinets, the distribution number of the primary packages, the warehouse-in proportion of the turnover cabinets and the like; and supporting statistical display according to the equipment category, statistical dimension (year, month and day) and dimension of time interval, and supporting derivation of the turnover cabinet warehouse-in occupation ratio statistical information.

Specifically, for the turnover cabinet occupation ratio, generating a turnover cabinet occupation ratio use report of the electric energy metering equipment, wherein the turnover cabinet occupation ratio use report is used for displaying turnover cabinet occupation ratio information of each unit in the whole province, and the turnover cabinet occupation ratio use report comprises information such as marketing number, turnover cabinet occupation ratio and the like; and supporting statistical display according to the equipment category, statistical dimension (year, month and day) and dimension of time interval, and supporting derivation of the turnover cabinet receiving occupancy rate statistical information.

Specifically, for the inventory turnover rate, an inventory turnover rate use report of the electric energy metering equipment is generated and used for displaying inventory turnover rate monitoring information of each unit in the whole province, wherein the inventory turnover rate use report comprises information such as the leading number, the evaluating inventory number, the inventory turnover rate, the cycle rate, the month rate and the like; and supporting statistical display according to the storehouse type and the dimension of the time interval, and supporting the derivation of the monitoring statistical information of the inventory turnover rate.

In an embodiment, the monitoring module 105 is further configured to authorize a warehouse manager corresponding to a provincial level, a local market level, a county level, and a power supply station level, so that the warehouse manager can view key indexes of the electric energy metering devices of each level according to respective rights.

In the embodiment, by introducing the RFID technology and based on the stability of the warehouse radio frequency identification technology, the real-time updating of the warehouse data of the electric energy metering equipment is ensured, so that the production operation management system of the optimized electric energy metering equipment can be fundamentally ensured to be more suitable for the warehouse management mode at the present stage, the production efficiency is improved, and the conditions of untimely information updating, data error, idle equipment during scheduling work and unreasonable working state caused by the traditional manual recording are reduced; and by monitoring key indexes of the electric energy metering equipment, the purpose of information real-time update is effectively realized through an electronic information technology.

The production operation management system of the electric energy metering device mentioned in the present embodiment further includes: and (5) a verification scheme matching module.

The verification scheme module is used for formulating a verification task according to the type of the electric energy metering equipment, setting a verification category for the verification task, simultaneously acquiring the equipment type code of the electric energy metering equipment, and associating the equipment type code, the verification category and the verification task so that after a user selects the verification category or the equipment type code, the equipment type code or all verification schemes associated with the verification category are displayed to the user for selection by the user.

In one embodiment, the assay categories include: first verification, unqualified equipment rechecking, verification quality checking, inventory rechecking, supervision spot check, temporary verification/detection-factory return.

In one embodiment, when a verification task is manufactured, a verification line corresponding to the verification task is selected; specifically, verification line options are added in a verification task service interface, and selectable verification lines are displayed and intelligent verification lines meeting requirements are recommended according to service rules.

In an embodiment, the verification scheme module is further configured to generate a verification result in batch according to the selected verification task; specifically, importing asset numbers of verification certificates of the electronic metering equipment in batches, and generating verification certificates in batches for the imported asset numbers according to an asset code verification function; preferably, the maximum import amount is supported when importing asset numbers in batches, and only the asset numbers of the same equipment type code can be imported.

In one embodiment, the verification scheme module is further capable of downloading verification results in batches after the verification results are generated in batches; specifically, the asset numbers corresponding to the verification results to be downloaded are obtained and converted into an excel format table, the asset numbers are imported in batches based on the excel format table, verification result inquiry is conducted based on the asset numbers, and the inquired verification results are exported in batches.

In an embodiment, after the verification scheme module generates verification results in batches, verification results to be approved can be selected in batches, and the verification results to be approved in batches are combined to generate an approval sheet, so that verification staff can approve the approval sheet, approval of the verification results by inquiring one by one is avoided, and approval efficiency can be improved.

In one embodiment, the verification scheme module is further configured to upload a verification result; specifically, the verification result is subjected to file format conversion, the verification result in the PDF format is obtained and uploaded, the uploading result is checked after the uploading is carried out, and when the verification result is checked to be uploaded, a closed loop is filed; and when the verification result is detected to be not uploaded, sending a failure prompt, and requesting to upload the verification result.

The production operation management system of the electric energy metering device mentioned in the present embodiment further includes: and the equipment account checking module is used for checking the equipment account.

The equipment account real spot check module is used for generating a spot check plan, generating a spot check task according to the spot check plan, and issuing the spot check task to a user terminal through a server in the form of a spot check instruction so that the user terminal can finish account real spot check of the electric energy metering equipment according to the spot check task.

In one embodiment, for generating spot check plans; specifically, a new spot check plan is created on a spot check plan generation page by a metering center asset manager, a unique plan number is set for the spot check plan, after the new spot check plan is stored, the new spot check plan is created, the plan state of the new spot check plan is set to be an initial state, and the spot check plan detail page is entered by clicking the plan number of the spot check plan, so that the spot check task is formulated.

In one embodiment, for the formulation of the spot check task, specifically, the metering center asset manager may create functional keys for task creation, batch generation, import, delete, return, etc. on the spot check task formulation interface; when the spot check planning mode is [ random according to the city bureau and random according to the storehouse ], the import button is hidden; when the spot check plan is [ list import ], the buttons of the new tasks and the batch generation tasks are hidden; and the related information of the spot check plan, the spot check task information and all spot check subtask information can be displayed by making a spot check task interface.

In an embodiment, after the setting of the spot check task is completed, the spot check task under the spot check plan and the spot check subtasks under each spot check task can be displayed by clicking the plan number of the spot check plan; respectively issuing all spot check tasks under the spot check plan to account numbers of corresponding roles of the local municipalities according to the local municipalities to which the tasks belong; and pushing a reminding message to the corresponding account to realize the issuing of the spot check task.

In one embodiment, after the spot check task is issued, the ground city asset manager can remind the spot check task detail page through a menu or a message of a production operation management system of the electric energy metering equipment; the spot check task page displays all spot check tasks received by the local exchange, and the spot check task detail page displays asset equipment detail information of the spot check tasks; and auditing the asset equipment detail list according to the spot check tasks and the asset equipment detail information of the spot check tasks.

In one embodiment, after the examination of the inventory of the asset equipment is completed, changing the status of the spot check task into execution, and issuing the spot check subtask according to the spot check category by acquiring the spot check category of the spot check plan, specifically, issuing the spot check subtask to a warehouse of the last receiving task of the asset when the spot check category is a fixed asset; and when the spot check category is qualified in the warehouse, issuing the spot check subtask to a warehouse where the equipment is located and issuing the spot check subtask to a corresponding warehouse, and setting the spot check subtask state as to-be-signed.

In an embodiment, after the issuing of the spot check subtask is completed, a warehouse manager can check the spot check subtask through a warehouse management-spot check task interface of a production operation management system of the electric energy metering equipment, and execute different spot check completion modes according to the equipment state category of the spot check plan set in the spot check subtask; when the equipment state type is in-warehouse equipment, checking the equipment through a code scanning gun; when the equipment state type is running equipment, the task is completed by uploading the picture accessory, at the moment, a warehouse manager needs to sign the spot check subtask to be signed, and if the equipment is considered to be capable of conducting spot check, the sign is conducted. If the spot check subtask cannot be performed, performing rejection operation; after rejection, the spot check subtask state becomes rejected, and the central warehouse manager can change the equipment asset number and issue again or delete the equipment asset number. After signing the spot check subtask, the warehouse manager can click to check the spot check subtask details, and enter different spot check subtask execution pages according to the equipment state category of the spot check plan.

In an embodiment, after the spot check subtask is executed, the asset management personnel in the metering center needs to audit the spot check result of the spot check subtask, and the spot check subtask with unclear uploaded pictures can be rejected and the rejected spot check subtask is sent back to the corresponding warehouse management personnel account; the metering center asset manager can also modify the equipment asset code of the spot check subtask, support to randomly extract equipment which is in the same state and in the same equipment category in the warehouse and is not listed in the spot check plan, update the starting time of the spot check subtask, and push a piece of reminding information to the warehouse manager; the metering center asset manager can archive the spot check program in execution, change all spot check tasks and spot check subtask states under the spot check program into finished states, does not allow the warehouse manager to upload feedback accessories, and supports the export of the spot check task statistical table and the spot check subtask list under the task after the program archiving.

The production operation management system of the electric energy metering device provided in this embodiment further includes: a plan tracking module.

In an embodiment, the plan tracking module is configured to track inventory requirement plans corresponding to a provincial level, a local market level, a county level, and a power supply station level, so as to obtain requirement planning tracking information, where the requirement planning tracking information includes a requirement planning number, a requirement equipment description, an execution progress, report unit information, and a storehouse name; and acquiring demand execution detail information according to the demand planning tracking information, wherein the demand execution detail information comprises the link information of the demand reporting, summarizing and balancing, distribution planning, item matching, warehouse saving, warehouse leaving, transportation distribution and warehouse receiving.

In an embodiment, for inventory requirement planning tracking corresponding to the province level, a province level requirement planning tracking function can be newly added through a system interface to display the requirement planning tracking information, and query display according to the requirement planning type, state, year and month, warehouse type, material coding and the like is supported.

In an embodiment, the plan tracking module is further configured to import plan delivery time information corresponding to the delivery plan in the demand execution detail information, where the plan delivery time information includes demand plan information and maintenance plan delivery date; the distribution time importing functions corresponding to each level are newly added on the system interface to support importing of the demand plan information and maintenance of the plan distribution date; and supporting information query display according to plan types, plan year and month, demand units, marketing plan detail numbers and the like.

In summary, the production operation management system of the electric energy metering device of the invention comprises: the system comprises a warehouse-in and warehouse-out module, a scheduling module, an RFID tag module, a read-write module and a monitoring module; the warehouse-in and warehouse-out module is used for constructing a warehouse space model, obtaining and calculating warehouse-in and warehouse-out time of the transportation equipment for transporting the electric energy metering equipment based on the transportation track of the transportation equipment for transporting the electric energy metering equipment; the dispatching module is used for constructing a dispatching model, acquiring and distributing dispatching tasks to the transportation equipment based on the work types of the transportation equipment in the dispatching model; the RFID tag module is used for setting an RFID tag for the electric energy metering equipment; the read-write module is used for reading information of the RFID tag on the electric energy metering equipment; the monitoring module is used for monitoring key indexes of the electric energy metering equipment and generating an electric energy metering equipment use report; compared with the prior art, the technical scheme of the invention can improve the accuracy of data recording through the RFID technology.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present invention, and these modifications and substitutions should also be considered as being within the scope of the present invention.

Claims (10)

1. A production operation management system of an electric energy metering device, characterized by comprising: the system comprises a warehouse-in and warehouse-out module, a scheduling module, an RFID tag module, a read-write module and a monitoring module;

the warehouse in and out module is used for acquiring and constructing a warehouse space model based on warehouse topography, marking a warehouse inlet end and a storage point in the warehouse space model, carrying out warehouse in and out route planning on the electric energy metering equipment according to the warehouse inlet end and the storage point to obtain a transportation track of the transportation equipment for transporting the electric energy metering equipment, and calculating warehouse in and out time of the transportation equipment for transporting the electric energy metering equipment according to the transportation track;

the dispatching module is used for constructing a distribution dispatching model according to the warehouse-in and warehouse-out time, acquiring the working state of the transportation equipment in the dispatching model, determining the working type of the transportation equipment according to the working state, and distributing dispatching tasks to the transportation equipment according to the working type so as to dispatch the electric energy metering equipment according to the dispatching tasks;

the RFID tag module is used for setting RFID tags corresponding to the electric energy metering devices one by one;

the reading and writing module is used for reading information of the RFID tag on the electric energy metering equipment to obtain reading information of the electric energy metering equipment;

and the monitoring module is used for monitoring key indexes of the electric energy metering equipment according to the read information of the electric energy metering equipment, obtaining and generating an electric energy metering equipment use report based on the key index information.

2. The system for managing the production operation of the electric energy metering device according to claim 1, wherein the distribution scheduling model constructed in the scheduling module is as follows:

；

wherein,,

the number of the electric energy metering devices; />

Is the number of transport devices; />

Delivery time of the electric energy metering device for the transportation device,/-in and out of the warehouse>

Is->

The individual transport devices are located from the storage location to the sorting location>

Is a motion time of (a); />

Is->

The individual transport devices arrive at the sorting station from the storage entry end>

Is>

For->

Operating state of individual transport devices->

The method comprises the steps of carrying out a first treatment on the surface of the Wherein,,

。

3. the production operation management system of an electric energy metering device according to claim 1, wherein the scheduling module is configured to allocate a scheduling task to the transportation device according to the work type, and specifically includes:

acquiring the work type of the transportation equipment, wherein the work type comprises a work for leaving a warehouse, a work for loading and unloading and an idle state;

when the work type of the transportation equipment is in an idle state, dispatching tasks are preferentially distributed to the transportation equipment;

when the work type of the transportation equipment is loading and unloading work, calculating the loading and unloading work ending time of the transportation equipment;

when the work type of the transportation equipment is a warehouse-out work, calculating the warehouse-out work ending time of the transportation equipment;

and sorting the transportation equipment according to the loading and unloading work ending time and the ex-warehouse work ending time, and distributing scheduling tasks to the transportation equipment according to the sorting.

4. The system of claim 1, wherein the monitoring module is configured to monitor key indicators of the electric energy metering device according to information read by the electric energy metering device, where the key indicators include a lead out condition, a first-level package warehouse entry completion rate, a turnover cabinet warehouse entry rate, a turnover cabinet lead rate, and a inventory turnover rate.

5. The production operation management system of an electric energy metering device according to claim 4, wherein the overtime unfit condition is statistical information of overtime unfit conditions of each unit electric energy metering device, wherein the statistical information includes a leading number, a prefire number, an unfit number, an overtime unfit number, and an installation completion rate of the electric energy metering device;

the primary package warehousing completion rate is primary package warehousing completion information of a ground city level, wherein the primary package warehousing completion information comprises primary package warehousing quantity, primary package distribution quantity and primary package warehousing completion rate;

the turnover cabinet warehouse-in duty ratio is turnover cabinet warehouse-in duty ratio information of district level and power supply station level, wherein the turnover cabinet warehouse-in duty ratio information comprises: the number of the storage boxes, the distribution number of the storage boxes and the storage proportion of the storage boxes;

the turnover cabinet is taken as a factor of province, city, district and county and the turnover cabinet of power supply department takes as a factor of information, wherein, turnover cabinet takes as a factor of information includes: marketing lead-out quantity, turnover cabinet lead-out quantity and turnover cabinet lead-out ratio;

the inventory turnover rate monitoring is inventory turnover rate monitoring information of province level, city level, county level and power supply station level, wherein the inventory turnover rate monitoring information comprises: inventory lead number, inventory count, inventory turnover rate, cycle by cycle, and cycle by month.

6. The system of claim 1, wherein the power metering device is scheduled according to the scheduling task, wherein the scheduling task includes a first in-out task issuing and a first storage point inventory of a primary package-up library service, and the scheduling task further includes a second in-out task issuing and a second storage point inventory of a secondary Bao Pingku service.

7. The system according to claim 1, wherein the RFID tag includes a lot status of the electric energy metering device, wherein the lot status includes a lot to be refunded, and the lot to be refunded includes first head inspection failure information, first equipment status information, and first factory to be returned information;

the batch status also includes a partial replacement batch, and the partial replacement batch includes: second first-aid reject information, second equipment state information and second to-be-returned factory information.

8. The system of claim 1, wherein the monitoring module is further configured to authorize a warehouse manager corresponding to a province level, a city level, a county level, and a power supply station level, so that the warehouse manager can view key indexes of the electric energy metering devices of each level according to respective rights.

9. The production operation management system of an electric energy metering device according to claim 1, further comprising: a plan tracking module;

the plan tracking module is used for tracking inventory required plans corresponding to province level, city level, county level and power supply station level to obtain required plan tracking information, wherein the required plan tracking information comprises required plan numbers, required equipment descriptions, execution progress, reporting unit information and warehouse names;

and acquiring demand execution detail information according to the demand planning tracking information, wherein the demand execution detail information comprises the link information of the demand reporting, summarizing and balancing, distribution planning, item matching, warehouse saving, warehouse leaving, transportation distribution and warehouse receiving.

10. The production operation management system of an electric energy metering device according to claim 1, further comprising: the equipment account checking module;

the equipment account real spot check module is used for generating a spot check plan, generating a spot check task according to the spot check plan, and issuing the spot check task to a user terminal through a server in the form of a spot check instruction so that the user terminal can finish account real spot check of the electric energy metering equipment according to the spot check task.

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