a servo stacker crane is an important logistics node in modern logistics systems and its application in logistics centers is becoming increasingly widespread. currently, the tallest servo stacker cranes in the world can reach a height of 50 meters. the storage capacity per unit area of a servo stacker crane can reach 7.5 (t/m²), which is 5-10 times that of a regular warehouse. by utilizing high-level shelving for storing goods, the storage area can be developed vertically, making full use of warehouse floor and space. as a result, it saves inventory floor space and improves space utilization. by using machinery and automated equipment, the operational processing speed is increased, thereby enhancing labor productivity and reducing the labor intensity of operators.
we provides manufacturing, circulation and distribution companies with intelligent warehouse automation and logistics system planning and design, system integration, software development, equipment customization, electronic control system development, on-site installation and debugging, customer training and after-sales service, etc. to help customers achieve material entry and exit. automation, informatization and intelligence (development and integration of wms and wcs systems) of warehouse, storage, transportation, picking, distribution and other processes to improve efficiency, reduce costs and create value for customers.
delivery time
delivery time
increased storage
condensing the bulky electrical control cabinet into the chip, eliminating the need for wiring, programming and operation
the traditional stacker has 9 layers and the ston stacker has 11 layers, increasing the storage capacity by 20%. the drive uses gears, racks, and servo motors without wire ropes.
up to 40 meters, maximum load 10 tons
suitable for light, small volume and rapid sorting of multiple types of goods
the traditional stacker has 9 layers and the ston stacker has 11 layers, increasing the storage capacity by 20%. servo dual drive, high gear positioning accuracy and strong structural rigidity.
gigabit ring network and male bus technology save 40% energy.
the control system does not require electrical debugging, perfectly solving the problem of 2-month delivery time.
load | 50-1000kg |
---|---|
high | 3-40m |
horizontal speed | 3-200m/min |
boost speed | 3-60m/min |
fork speed | 3-45m/min |
in a traditional three-dimensional warehouse, 4 to 5 months are spent on manual debugging and programming.
stacker control is still monopolized by siemens, but in recent years due to siemens price and delivery issues there is an urgent need for alternatives!
compared with traditional three-dimensional warehouses, which require 6 to 10 months of delivery, ours only takes 2 months at the fastest.