CN108376324B - System and method for managing metering assets of carrier collector - Google Patents

Abstract

The invention relates to a system and a method for managing metering assets of a carrier wave collector, which mainly solve the problems of low efficiency and easy error of manual sorting of the carrier wave collector in the prior art. The invention provides powerful guarantee for the whole life cycle management of the carrier wave collector, improves the sorting efficiency and accuracy of the carrier wave collector, and can eliminate the aged carrier wave collector in time, thereby improving the flow of the marketing system.

Description

System and method for managing metering assets of carrier collector

Technical Field

The invention relates to the field of electric marketing and metering, in particular to a system and a method for managing metering assets of a carrier collector.

Background

In recent years, with the comprehensive coverage of the intelligent electric energy meter and the continuous deep application of the electricity utilization information acquisition system, the acquisition coverage rate is higher and higher. The power utilization information acquisition terminal is equipment for acquiring power utilization information of each information acquisition point, and comprises a special transformer acquisition terminal, a centralized meter reading terminal (comprising a concentrator and an acquisition device), a distributed energy monitoring terminal and the like. In the thoroughfare area, the number of the operating acquisition devices is 87 ten thousand, wherein nearly 83 thousand are carrier collectors, and from the actual state of the carrier collectors disassembled on site, three states of 'waiting for commissioning', 'shutdown' and 'operating', wherein the operating state accounts for 60%, and great irrationality exists, so that how to make asset management of fault treatment, site operation and maintenance and the like by disassembling the carrier collectors is very important. According to the regulations of national network asset measurement life cycle management, the measurement instrument is disassembled and returned, and the instrument is required to be timely withdrawn and shunted. Because the asset life-saving management from the filing to the scrapping of the carrier collector is different from the management of other metering assets, asset personnel have some difficulties and challenges in the shunting work of the carrier collection terminal. Firstly, when carrying out the life cycle management to the carrier wave collector of pulling back at present, must manually do the state letter sorting in marketing system, and this work need go on at the interface of difference in marketing system, and the operation is comparatively loaded down with trivial details. Secondly, because the data exchange of the interfaces of the marketing system and the acquisition system has unknown reasons, the disassembled acquisition terminal has a running state, the state can be modified only by submitting a problem background, and then the sorting is carried out, so that the operation is complicated. Thirdly, the carrier wave collectors disassembled for on-site operation and maintenance are more in number and high in working pressure due to the requirement for improving the collection indexes. Under present measurement asset life management mode, the manual work carries out the reposition of redundant personnel of carrier collector, and work efficiency is low and make mistakes easily, consequently, the urgent need optimize perfect marketing system and collection system function program, ensures that the collector of pulling back is the outage state to utilize mobile operation terminal to sort, shorten the reposition of redundant personnel time, improve collection terminal reposition of redundant personnel speed.

The patent specification with the application number of 201410527900.1 and the name of 'a mobile operation terminal platform and an access method based on a marketing system and a collection system' discloses a mobile operation terminal platform and an access method based on the marketing system and the collection system.

Disclosure of Invention

The invention mainly solves the problems of low efficiency and easy error of manual sorting of carrier collectors in the prior art, and provides a system and a method for managing the metering assets of the carrier collectors.

The technical problem of the invention is mainly solved by the following technical scheme: the utility model provides a carrier wave collector measurement asset management system, includes carrier wave collector, carries out data acquisition's operation end and the measurement asset management end of shunting carrier wave collector to the carrier wave collector, measurement asset management end is including carrying out the automatic sorting module of letter sorting to the carrier wave collector, carrying out the state anomaly analysis module that analyzes to carrier wave collector abnormal state, the state change module of change carrier wave collector abnormal state, the life statistics module of statistics carrier wave collector service life, the list of generating data list generate module and first data storage module, automatic sorting module, state anomaly analysis module, state change module, life statistics module, list generate module and first data storage module connect gradually.

The invention scans bar codes of carrier collectors through a mobile operation terminal to obtain specific information of the carrier collectors, determines the states of the carrier collectors, sends the information collected by the mobile operation terminal to a marketing service management platform through a wireless communication module, the marketing service management platform processes the received information, and realizes intelligent and effective sorting of the carrier collectors according to the states of the carrier collectors, wherein for the carrier collectors in the outage state, a state abnormity analysis module analyzes the information specifically according to power database data to find out actual outage reasons, then a state change module changes the states of the carrier collectors according to the outage reasons, and for the carrier collectors in the outage state, a service life statistics module counts the recovery times of the carrier collectors in the outage state and sorts the recovery times, and finally a list is stored and exported.

As a preferred scheme, the operation end comprises an infrared scanning module for scanning a bar code of the carrier collector, a state judgment module for judging the state of the carrier collector, a second data storage module and a wireless communication module, the infrared scanning module, the state judgment module, the second data storage module and the wireless communication module are sequentially connected, and the operation end is used for collecting and judging the state data of the carrier collector.

As a preferred scheme, the infrared scanning module adopts an infrared scanner, and is used for scanning the bar code of the carrier collector to collect related data.

As a preferred scheme, the operation end includes acquisition terminal state data extracted from the metering asset management end and used for comparing and judging the state of the carrier acquisition device, and the acquisition terminal state data is a judgment basis of the state judgment module.

As a preferable scheme, the system further comprises an electric power database, wherein the electric power database is connected with the state anomaly analysis module and provides data support for the state anomaly analysis module.

A method for managing the metering assets of a carrier wave collector comprises the following steps:

s1, scanning a bar code of a carrier collector by an infrared scanning module of an operation end to collect related data of the carrier collector;

s2, the state judgment module analyzes and processes the relevant data of the carrier collector according to the state data of the collection terminal, determines the state of the carrier collector and stores the data in the second data storage module, wherein the state of the carrier collector comprises shutdown, operation, inventory, to-be-scrapped and to-be-put-in;

s3, the state data of the carrier wave collector after being analyzed and processed by the wireless communication module is transmitted to a measurement asset management end;

s4, classifying the carrier wave collectors by the automatic sorting module according to the state data of the carrier wave collectors;

s5, the state abnormity analysis module performs abnormity analysis on the carrier collector in the shutdown state to determine whether the shutdown state is abnormal;

s6, a service life counting module counts the recovery times of all the carrier collectors which are shut down and arranges the recovery times from multiple to few according to the times, and the carrier collectors with excessive recovery times are eliminated according to actual requirements;

s7, generating an EXCEL list, wherein the EXCEL list comprises equipment bar codes, original equipment states, new equipment states, sorting personnel, sorting dates, warehousing storehouses, warehousing storage areas and recycling times;

and S8, storing all information in a first data storage module.

As a preferable scheme, the step S4 includes the steps of:

s41, finding out the carrier wave collector in the shutdown state, not performing classification processing for the time being, and directly transmitting the carrier wave collector to a state anomaly analysis module for processing;

and S42, classifying the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors according to the states of the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors, and recording equipment bar codes, equipment original states, equipment new states, sorting personnel, sorting dates, warehousing storehouses and warehousing areas.

As a preferable scheme, the step S5 includes the steps of:

s51, the state abnormity analysis module receives the carrier collector data in the shutdown state;

s52, judging whether the carrier collector in the shutdown state is in a time period of abnormal communication or power failure according to the communication information and the power failure information of the power database, judging that the carrier collector in the shutdown state is in an abnormal state when the carrier collector in the shutdown state is in the time period, and judging that the carrier collector in the shutdown state is correct when the carrier collector in the shutdown state is not in the time period;

and S53, the state change module changes the state of the abnormally stopped carrier collectors and sorts the carrier collectors according to the changed state.

Therefore, the invention has the advantages that: the method provides powerful guarantee for the whole life cycle management of the carrier wave collector, improves the sorting efficiency and accuracy of the carrier wave collector, and can eliminate the aged carrier wave collector in time, so that the flow of the marketing system is more perfect.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention.

The system comprises a carrier wave collector 1, a carrier wave collector 2, an operation terminal 3, a metering asset management terminal 4, an electric power database 21, an infrared scanning module 22, a state judgment module 23, a second data storage module 24, a wireless communication module 31, an automatic sorting module 32, a state abnormity analysis module 33, a state change module 34, a service life statistics module 35, a list generation module 36 and a first data storage module.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Example (b):

the system for managing the metering assets of the carrier wave collector comprises a carrier wave collector 1, an operating end 2 for collecting data of the carrier wave collector and a metering asset managing end 3 for shunting the carrier wave collector, wherein the metering asset managing end comprises an automatic sorting module 31 for sorting the carrier wave collector, a state abnormity analyzing module 32 for analyzing the abnormal state of the carrier wave collector, a state changing module 33 for changing the abnormal state of the carrier wave collector, a life counting module 34 for counting the service life of the carrier wave collector, a list generating module 35 for generating a data list and a first data storage module 36, and the automatic sorting module, the state abnormity analyzing module, the state changing module, the life counting module, the list generating module and the first data storage module are sequentially connected.

The invention scans bar codes of carrier collectors through a mobile operation terminal to obtain specific information of the carrier collectors, determines the states of the carrier collectors, sends the information collected by the mobile operation terminal to a marketing service management platform through a wireless communication module, the marketing service management platform processes the received information, and realizes intelligent and effective sorting of the carrier collectors according to the states of the carrier collectors, wherein for the carrier collectors in the outage state, a state abnormity analysis module analyzes the information specifically according to power database data to find out actual outage reasons, then a state change module changes the states of the carrier collectors according to the outage reasons, and for the carrier collectors in the outage state, a service life statistics module counts the recovery times of the carrier collectors in the outage state and sorts the recovery times, and finally a list is stored and exported.

The operating end comprises an infrared scanning module 21 for scanning a bar code of the carrier collector, a state judging module 22 for judging the state of the carrier collector, a second data storage module 23 and a wireless communication module 24, the infrared scanning module, the state judging module, the second data storage module and the wireless communication module are sequentially connected, and the operating end is used for collecting and judging the state data of the carrier collector.

The infrared scanning module adopts an infrared scanner and is used for scanning the bar code of the carrier collector to collect related data.

The operation end comprises acquisition terminal state data which is extracted from the measurement asset management end and used for comparing and judging the state of the carrier acquisition device, and the acquisition terminal state data is a judgment basis of the state judgment module.

The system also comprises an electric power database 4 which is connected with the state abnormity analysis module and provides data support for the state abnormity analysis module.

Specifically, the automatic sorting module, the state anomaly analysis module, the state change module, the list generation module and the first data storage module are sub-processing modules in a computer; the state judgment module can realize functions by adopting an ARM processor, the wireless communication module adopts wireless GPRS communication, and the second data storage module adopts a FLASH storage chip to realize functions.

A method for managing the metering assets of a carrier wave collector comprises the following steps:

s1, an infrared scanning module of an operation end scans bar codes of a carrier collector to collect relevant data of the carrier collector.

And S2, the state judgment module analyzes and processes the relevant data of the carrier collector according to the state data of the collection terminal, determines the state of the carrier collector and stores the data in the second data storage module, wherein the state of the carrier collector comprises shutdown, operation, inventory, to-be-scrapped and to-be-put-in.

And S3, the state data of the carrier wave collector after the analysis and the processing of the wireless communication module is transmitted to a measurement asset management end.

S4, classifying the carrier wave collectors by the automatic sorting module according to the state data of the carrier wave collectors;

s41, finding out the carrier wave collector in the shutdown state, not performing classification processing for the time being, and directly transmitting the carrier wave collector to a state anomaly analysis module for processing;

and S42, classifying the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors according to the states of the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors, and recording equipment bar codes, equipment original states, equipment new states, sorting personnel, sorting dates, warehousing storehouses and warehousing areas.

S5, the state abnormity analysis module performs abnormity analysis on the carrier collector in the shutdown state to determine whether the shutdown state is abnormal;

s51, the state abnormity analysis module receives the carrier collector data in the shutdown state;

s52, judging whether the carrier collector in the shutdown state is in a time period of abnormal communication or power failure according to the communication information and the power failure information of the power database, judging that the carrier collector in the shutdown state is in an abnormal state when the carrier collector in the shutdown state is in the time period, and judging that the carrier collector in the shutdown state is correct when the carrier collector in the shutdown state is not in the time period;

and S53, the state change module changes the state of the abnormally stopped carrier collectors and sorts the carrier collectors according to the changed state.

And S6, a service life counting module counts the recovery times of all the off-line carrier collectors, arranges the recovery times from multiple to few according to the times, and eliminates part of the carrier collectors with excessive recovery times according to actual requirements.

And S7, generating an EXCEL list, wherein the EXCEL list comprises equipment bar codes, original equipment states, new equipment states, sorting personnel, sorting dates, warehousing storehouses, warehousing areas and recycling times.

And S8, storing all information in a first data storage module.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms of the automatic sorting module, the anomaly analysis module, the state change module, the lifetime statistics module, the list generation module, and the first data storage module are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (7)

1. A carrier wave collector metering asset management system is characterized in that: the system comprises an operation end for acquiring data of a carrier collector and a metering asset management end for shunting the carrier collector, wherein the metering asset management end comprises an automatic sorting module for sorting the carrier collector, a state abnormity analysis module for analyzing the abnormal state of the carrier collector, a state change module for changing the abnormal state of the carrier collector, a service life statistic module for counting the service life of the carrier collector, a list generation module for generating a data list and a first data storage module, and the automatic sorting module, the state abnormity analysis module, the state change module, the service life statistic module, the list generation module and the first data storage module are sequentially connected; the operation end comprises an infrared scanning module for scanning a carrier collector bar code, a state judgment module for judging the state of the carrier collector, a second data storage module and a wireless communication module, wherein the infrared scanning module, the state judgment module, the second data storage module and the wireless communication module are sequentially connected, and the working process of the system comprises the following steps: s1, scanning a bar code of a carrier collector by an infrared scanning module of an operation end to collect related data of the carrier collector;

s2, the state judgment module analyzes and processes the relevant data of the carrier collector according to the state data of the collection terminal, determines the state of the carrier collector and stores the data in the second data storage module, wherein the state of the carrier collector comprises shutdown, operation, inventory, to-be-scrapped and to-be-put-in;

s3, the state data of the carrier wave collector after being analyzed and processed by the wireless communication module is transmitted to a measurement asset management end;

s4, classifying the carrier wave collectors by the automatic sorting module according to the state data of the carrier wave collectors;

s5, the state abnormity analysis module performs abnormity analysis on the carrier collector in the shutdown state to determine whether the shutdown state is abnormal;

s6, a service life counting module counts the recovery times of all the carrier collectors which are shut down and arranges the recovery times from multiple to few according to the times, and the carrier collectors with excessive recovery times are eliminated according to actual requirements;

s6, generating an EXCEL list, wherein the EXCEL list comprises equipment bar codes, original equipment states, new equipment states, sorting personnel, sorting dates, warehousing storehouses, warehousing storage areas and recycling times;

and S7, storing all information in a first data storage module.

2. The system of claim 1, wherein the infrared scanning module employs an infrared scanner.

3. The system according to claim 1, wherein the operation terminal includes acquisition terminal status data extracted from the measurement asset management terminal for comparing and determining the status of the carrier acquisition device.

4. The system of claim 1, further comprising a power database, wherein the power database is connected to the anomaly analysis module.

5. A method for managing metered assets of a carrier wave collector, using the system of any one of claims 1 or 2 or 3 or 4, comprising the steps of:

s1, scanning a bar code of a carrier collector by an infrared scanning module of an operation end to collect related data of the carrier collector;

s2, the state judgment module analyzes and processes the relevant data of the carrier collector according to the state data of the collection terminal, determines the state of the carrier collector and stores the data in the second data storage module, wherein the state of the carrier collector comprises shutdown, operation, inventory, to-be-scrapped and to-be-put-in;

s3, the state data of the carrier wave collector after being analyzed and processed by the wireless communication module is transmitted to a measurement asset management end;

s4, classifying the carrier wave collectors by the automatic sorting module according to the state data of the carrier wave collectors;

s5, the state abnormity analysis module performs abnormity analysis on the carrier collector in the shutdown state to determine whether the shutdown state is abnormal;

s6, a service life counting module counts the recovery times of all the carrier collectors which are shut down and arranges the recovery times from multiple to few according to the times, and the carrier collectors with excessive recovery times are eliminated according to actual requirements;

s6, generating an EXCEL list, wherein the EXCEL list comprises equipment bar codes, original equipment states, new equipment states, sorting personnel, sorting dates, warehousing storehouses, warehousing storage areas and recycling times;

and S7, storing all information in a first data storage module.

6. The method as claimed in claim 5, wherein the step S4 comprises the following steps:

s41, finding out the carrier wave collector in the shutdown state, not performing classification processing for the time being, and directly transmitting the carrier wave collector to a state anomaly analysis module for processing;

and S42, classifying the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors according to the states of the operation, inventory, to-be-scrapped and to-be-dropped carrier collectors, and recording equipment bar codes, equipment original states, equipment new states, sorting personnel, sorting dates, warehousing storehouses and warehousing areas.

7. The method as claimed in claim 6, wherein the step S5 comprises the following steps:

s51, the state abnormity analysis module receives the carrier collector data in the shutdown state;

s52, judging whether the carrier collector in the shutdown state is in a time period of abnormal communication or power failure according to the communication information and the power failure information of the power database, judging that the carrier collector in the shutdown state is in an abnormal state when the carrier collector in the shutdown state is in the time period, and judging that the carrier collector in the shutdown state is correct when the carrier collector in the shutdown state is not in the time period;

and S53, the state change module changes the state of the abnormally stopped carrier collectors and sorts the carrier collectors according to the changed state.

Images