In the case of the warehouse robot, the customer is an enterprise specializing in the integrated service of home warehouse assembly and assembly, and has rich experience in comprehensively improving the operational efficiency and service quality of the home circulation supply chain. In order to improve the efficiency of workshop operation, improve handling efficiency, reduce costs and increase efficiency, warehouse robots have teamed up with the customer to deploy a flexible logistics unmanned solution in their warehouse, replacing manual operations to complete the transportation of finished furniture products from the production line to the warehouse, including the first batch of visual The launch of unmanned vehicles in the navigation industry and the application of intelligent scheduling algorithm optimization technology.
In the past, during manual operation, the wrong storage of finished products often occurred, which brought a lot of trouble to the subsequent cargo management and out-of-stock operations. Warehouse mobile robots can 100% accurately identify the target, collect information through the QR code scanner assembled on the body, and place the target in the corresponding storage location. On-site managers can master real-time product location information and make more efficient arrangements for limited storage space.
In the cache area, the customer adopts the warehouse robot monitoring system for in-out control. Based on deep learning image recognition technology, the monitoring system can perform real-time detection of storage location, effectively identify and track objects such as goods/pallets/forklifts/personnel, and share the object information to the customer's supply and central control scheduling system in real time. In isolated island areas such as buffer areas that are prone to "broken links" in information flow, the monitoring system can play an effective role in supplementing and transmitting information, allowing information flow to match logistics in an instant and complete manner.
When the finished product is placed in the storage buffer area, the system detects it through a high-precision industrial lens and generates a storage task. The storage task information then enters the central control system, and the central control system dispatches the warehouse robot to fork and fetch. At the same time, the system connected with the central control will transmit the storage location information to the central control, and warehouse mobile robots will know the accurate storage location information. In this closed-loop information with instant feedback and complete connection, goods do not need to be stranded in the buffer area, making the entire warehousing process fast and efficient.
Under the development trend of intelligent manufacturing and intelligent logistics, more home furnishing enterprises will actively invest in the construction of intelligent production workshops, and gradually realize "machine substitution" in all aspects. All production activities have also begun to be controlled by automated integrated systems, and industrial unmanned vehicles have been introduced. , warehouse robots and other automation equipment to improve the efficiency of logistics operations, gradually transition to mature automation and new industrialization marked by unmanned, and become a smart industry.