Traditional power asset management methods generally rely on non-automated, paper document-based systems to record, track and manage; a few use barcodes to realize asset identification and management; but the efficiency is extremely low. As the number of assets increases, extremely The earth has increased the burden on managers and at the same time increased the difficulty of asset management, often causing problems such as untimely data and high error rates. It often leads to confusion in inventory management and errors in data in and out of the warehouse. If it cannot be solved for a long time, it will bring great cost problems to the enterprise.
System composition
(1) Reader equipment:
integrates RFID read-write module, GPRS wireless communication module and reader power interface board to realize real-time automatic collection and wireless transmission of remote data.
it is used for power asset inventory, which can quickly read the electronic tag information on the device, and send the read tag information to the background server for processing through the built-in GPRS wireless communication module.
(2) Electronic label:
Power assets in the power industry have a wide variety of different specifications and most of them are metal surfaces. Metal interference has always been a difficulty in the application of RFID technology. In order to solve the problems of metal interference and easy attachment to power assets of various specifications, a special Attached labels and tag labels for power assets of different sizes and specifications, through the special design and packaging of the built-in antenna of the label, the label has good anti-metal interference performance.
(3) Card issuing software:
it is mainly used to write data into electronic labels, including device name, device model, device barcode, etc. After the data is written, the report can be automatically generated and imported into the system server.
System advantages
1. Locating the location of assets in a timely and reliable manner
2, non-contact automatic identification of power attribute information
3. Reduce the inventory cost of power assets, improve inventory utilization and audit frequency
4. Use automated/semi-automatic identification methods to improve inventory accuracy and operational efficiency
5. Realize real-time sharing and management of power asset data on the network, and complete report output according to needs
6. Establish a unified power asset information platform to improve the level of asset supervision
Sign up to be the first to learn about specials and news.