The adoption of an automated guided vehicle system continues to revolutionize how materials are managed in factories and warehouses. By integrating an automated guided vehicle system, you can boost productivity and lower labor costs, all while enhancing safety through advanced collision avoidance te
An automated guided vehicle forklift is designed to operate without a human driver, efficiently transporting materials throughout a warehouse using state-of-the-art automation. These automated guided vehicle forklifts closely resemble traditional forklifts in appearance but depend entirely on advanc
Automated guided vehicles now play a major role in helping you boost productivity and cut costs in logistics. Many companies report smoother material flow and fewer manual tasks, which leads to higher efficiency. You can see benefits such as reduced labor costs, less product damage, and continuous o
The four-way shuttle vehicle system has only been used in recent years, and belongs to an upgraded version of the two-way shuttle vehicle (i.e., shuttle rack). It is mainly divided into two parts: a four-way shuttle vehicle(for transporting goods) and a corresponding rack system(for storage goods). In addition to the wireless network and WMS system used to connect and control the entire system, they cooperate with elevator, tray conveyor lines, and jacking and transferring machines to enable the transportation of goods to move forward, backward, left, and right, up and down, reaching any selected rack location, and achieving fully automated storage, picking up, and sorting. The front end of the stereoscopic warehouse is equipped with manual picking tables. When the picking task is issued, the system intelligently dispatches vehicles and plans the optimal path, and cooperates with manual picking to complete automatic material picking and warehousing operations. Compared to traditional three-dimensional warehouses, their operating range space is larger and their degree of automation is higher.
Technical parameters of four-way shuttle vehicle
Project Name | Technical parameters | ||
Rated cargo capacity(kg) | 1500(Customizable) | ||
Level moving | Traveling driving mode | Servo drive | |
Braking mode | Electromagnetic braking | ||
Positioning(X-direction) accuracy (mm) | ≤±3mm | ||
Maximum speed under full load | 35m/min | ||
Maximum no-load speed | 70m/min | ||
Fork | Drive mode | Motor+linkage | |
Positioning method | Encoder+photoelectric | ||
Jacking time | 4s | ||
Communication method | Wireless communication | ||
Control mode | Siemens PLC control | ||
Operation mode | Semi automatic/automatic | ||
Airborne man-machine interface | Touch screen | ||
Power supply mode | Battery powered | ||
Power supply specifications | 48V | ||
Single machine noise (high speed and full load) | ≤65dB | ||
Host color | Sunli standard color (customizable) | ||
The four-way shuttle vehicle system has only been used in recent years, and belongs to an upgraded version of the two-way shuttle vehicle (i.e., shuttle rack). It is mainly divided into two parts: a four-way shuttle vehicle(for transporting goods) and a corresponding rack system(for storage goods). In addition to the wireless network and WMS system used to connect and control the entire system, they cooperate with elevator, tray conveyor lines, and jacking and transferring machines to enable the transportation of goods to move forward, backward, left, and right, up and down, reaching any selected rack location, and achieving fully automated storage, picking up, and sorting. The front end of the stereoscopic warehouse is equipped with manual picking tables. When the picking task is issued, the system intelligently dispatches vehicles and plans the optimal path, and cooperates with manual picking to complete automatic material picking and warehousing operations. Compared to traditional three-dimensional warehouses, their operating range space is larger and their degree of automation is higher.
Technical parameters of four-way shuttle vehicle
Project Name | Technical parameters | ||
Rated cargo capacity(kg) | 1500(Customizable) | ||
Level moving | Traveling driving mode | Servo drive | |
Braking mode | Electromagnetic braking | ||
Positioning(X-direction) accuracy (mm) | ≤±3mm | ||
Maximum speed under full load | 35m/min | ||
Maximum no-load speed | 70m/min | ||
Fork | Drive mode | Motor+linkage | |
Positioning method | Encoder+photoelectric | ||
Jacking time | 4s | ||
Communication method | Wireless communication | ||
Control mode | Siemens PLC control | ||
Operation mode | Semi automatic/automatic | ||
Airborne man-machine interface | Touch screen | ||
Power supply mode | Battery powered | ||
Power supply specifications | 48V | ||
Single machine noise (high speed and full load) | ≤65dB | ||
Host color | Sunli standard color (customizable) | ||
