How to implement management of RFID technology in the framework of manipulator production
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With the rapid development of artificial intelligence, the field of intelligent automation has become the focus of attention in various manufacturing fields. The market demand for intelligent production is constantly escalating and diversifying, and intelligent manipulators have also become one of the core constructions; production links with high risk factors appear to be particularly important. The RFID technology manipulator collects fast and accurate. In the current trend of intelligent production and manufacturing information integration, RFID technology has greatly reduced the manpower investment and improved the efficiency of management and control. How to implement management of RFID technology in the framework of manipulator production.
There are also more and more applications of manipulators, especially those that cause harm to personnel. Therefore, the varieties of manipulator parts have begun to vary, and the output has also increased. In the face of the complex variety and huge quantity of manipulator parts, the traditional production management method is to use manual labor to manage the production of manipulator parts. The key to work efficiency lies in employees, so it is related to the products of manipulator parts during the work process. The speed and accuracy of information reading and recognition will have a certain impact, and the final result will affect work efficiency and even the quality of manipulator parts. Facing the existing management status of the manipulator, try to use automatic identification technology to improve the management status of the manipulator parts.
RFID technology realizes automatic control and monitoring of products on the production line of manipulator parts, which will greatly improve the speed and accuracy of production, increase work efficiency, improve production methods, and save costs. RFID tags can conveniently and accurately record process information and process operation information on the robot parts production line to meet the needs of flexible production. The record of worker ID, time, operation, and quality inspection results fully realizes the traceability of production, and can also avoid errors caused by handwriting and seeing information in the production environment. On the assembly line, it is judged whether it is the part model to be assembled by identifying the model information on the RFID tag. If it is, it will be put into the next process to wait for assembly. If it is not, it will be screened out.
At present, the warehouse management of manipulator parts is mainly realized based on the corresponding standardized manual operations and computer semi-automatic management. The disadvantage is that a large amount of manpower is required to standardize the placement of items, regular inventory, and exit/entry registration. This makes the warehouse management of manipulator parts very cumbersome and wastes a lot of time. The design of the warehouse management system for manipulator parts based on RFID technology is to realize the automation of item out/in control, item storage location and quantity statistics, and information query process, which is convenient Managers conduct statistics, inquiries and grasp the flow of materials.
An RFID electronic tag is affixed to each pallet that enters and exits the robotic parts warehouse. RFID readers are installed on the doors of the warehouse. Each warehouse manager has an RFID handheld. In this way, before each batch of manipulator parts enter the warehouse, the warehouse manager uses the RFID handheld to scan the RFID electronic tags of the manipulator parts on each pallet, and records the manipulator parts. When the manipulator parts of this pallet enter the warehouse, the RFID reader at the door The robot part information on the label will be directly read out and stored in the computer for recording. The back-end information management system will automatically generate records and accurately record where the robot parts are placed in the warehouse, so that when there is no longer a shipment to be shipped, warehouse management personnel need to look for them row by row.
If someone pushes the pallet out of the warehouse, the back-end system will immediately show that these manipulator parts are out of the warehouse and automatically generate a time record. In this way, there will be no trouble that the warehouse management personnel forget to input the information into the computer due to the negligence of the warehouse management personnel, and it will be difficult to check the data after the problem occurs, and if the warehouse management personnel themselves do not know how to operate the computer, it will not be generated for information management. problem.
The application of RFID technology will perfectly assist the storage management of manipulator parts and become a carrier for information collection. RFID technology makes the robot arm more intelligent and flexible, continuously optimizing each operation link in the entire management, and reducing errors caused by many factors in the management process. A lot of labor costs are saved, and work efficiency is improved.
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