With the rapid development of intelligent manufacturing technology, the demand for automation technology in various industries will become higher and higher. Automatic transportation management has gradually become an embodiment of the advanced nature of production technology. The shuttle car is a kind of intelligent robot, which can realize the tasks of automatic pickup, transportation, and placement through data programming. It can also communicate with the host computer or WMS system for data transmission on the platform. In combination with RFID identification technology, it realizes automatic identification, Access and other functions. RFID technology has become the core of shuttle landmark readers (shuttle landmark sensors). RFID technology combined with AGV technology has created intelligent transportation.
On the one hand, the automation level of its production equipment is constantly improving; on the other hand, automated storage and transportation have also been widely used in manufacturing enterprises, including AGV automated transportation, unmanned forklift transportation, etc., but how to control AGV transportation and records The transportation of goods has become a difficult problem. Currently, it is more manual to record the quantity of goods transported by AGV trolleys, and manually operate the position of goods to be transported by AGV, which is time-consuming and labor-intensive, and the manually recorded quantity of goods is also prone to errors. Therefore, more and more companies have introduced RFID technology to manufacturing, warehousing and logistics management. With the introduction of RFID technology, manpower and goods losses have been greatly reduced in various production enterprises.
The RFID landmark sensor is installed on the shuttle, and the RFID track is installed on the shuttle track. When the shuttle equipped with the landmark sensor passes the track node, the shuttle landmark sensor collects information, including the location and quantity of shuttle access. The warehouse system is a component of the automated three-dimensional warehouse system. The rail-type trolley is used to complete the loading and unloading of goods, and cooperates with the stacker to complete the storage operation. The shuttle trolley is also called RGV. How is the RFID landmark sensor of a shuttle used in a three-dimensional warehouse?
Cargo identification: By installing RFID on the pallets and goods, the AGV trolley can accurately obtain the information of the pallets and goods during transportation.
Information transmission: The RFID reader transmits the read tag information to the background through the network port or serial port.
Cargo transportation: The AGV trolley determines the route that the goods need to be transported and the area where the goods need to be placed by reading the tags of the goods.
Cargo records: The AGV trolley can accurately record the number of goods transported and the number of times the goods are transported through the read label information for easy inquiry at any time.
Complicated environment: AGV trolleys are used to transport goods, which will inevitably encounter harsh environments. The on-site environment will inevitably have vibration and pressure resistance. RFID vehicle-mounted readers are focused on industrial vehicles such as forklifts and AGV trolleys. Vibration resistance and impact resistance, and has excellent outdoor waterproof and sun protection.
Improve AGV trolley utilization: Install a vehicle-mounted reader on the AGV trolley. The tag information transmitted by the reader can accurately know the position of the fixed route of the AGV trolley to deploy the AGV trolley. The position and status of each AGV car can be grasped in real time, the AGV car scheduling can be more flexible, and the utilization rate of the AGV car can be maximized. Reasonable use of automated collection, location, time, quantity, and other information is fed back to the management system for efficient warehouse management.
The shuttle has its own advantages, fast operation speed and high storage density. While improving logistics efficiency and space utilization, it also greatly saves manpower and storage area, has good flexibility and is easy to expand. Combined with RFID technology, the icing on the cake of the three-dimensional warehouse is icing on the cake. The RFID landmark sensor reads information accurately and quickly, realizing fully automatic information and data management, and promoting the development of automated and intelligent three-dimensional warehouses.
The application of the landmark sensors of the shuttle improves the management efficiency and promotes the development of informatization, dataization, intelligence, automation, and visualization of the three-dimensional warehouse. At the same time, it has driven many industries: cold chain industry, pharmaceutical industry, home industry, power industry, The rapid development of the retail industry, building materials industry, and book industry.
Intelligent storage and intelligent logistics management are developing intelligently, automatically, and informationally. With the combination of shuttle technology and RFID technology, relying on various core technologies such as their own technical algorithms, robot dispatching systems, and warehouse management systems to support various sorts of picking , Handling and distribution. It can shuttle between various production workshops with great flexibility, and has been widely used in various types of enterprises and manufacturing industries such as e-commerce, express delivery, warehousing and sorting, automobiles, tobacco, medicine, 3C, and clothing. It is widely used in various industries to form a smart assistant of intelligent storage platform system.