Appearance and Design
The robot has a well-thought-out appearance with dimensions that ensure stability and optimal workspace utilization. With a length (A) of 1450mm, width (C) of 730mm, and height (D) of 1100mm, it fits seamlessly into most production lines. The other dimensions, such as E (1900mm), G (2800mm), H (300mm), I (860mm), K (260mm), and M (830mm), contribute to its robust and compact structure.
Itinerary and Movement
The robot's itinerary is designed for maximum versatility. The double-arm main arm has an up-and-down movement of 1200mm, allowing it to reach different heights with ease. The front and rear auxiliary arms have a lateral movement of 650mm, while the one-arm front-and-back movement also covers 650mm. This comprehensive range of motion enables the robot to handle various tasks, from picking and placing small components to manipulating larger workpieces.
Technical Parameters
The robot is compatible with lateral applicable injection molding machines with a tonnage (B) ranging from 300–530T. Its posture angle (B) can be adjusted to suit different working conditions. The drive mode is full-servo, ensuring precise and smooth movements. The working air pressure is maintained between 0.5–0.7 MPa, providing the necessary force for its operations. The minimum picking interval is an impressive 1.5 seconds, and the idle cycle time is 5 seconds (not including smelting), which significantly enhances productivity. The air consumption is 0.26 m³/min, and it can handle a maximum load of 5KG (including smelting tools).
🎯
High Precision
The full-servo drive system ensures that the robot's movements are extremely accurate. This precision is crucial in applications such as injection molding, where even the slightest deviation can result in defective products. The robot can consistently place components in the exact position required, reducing waste and improving product quality.
⚡
Increased Efficiency
With its rapid picking and placing capabilities, the robot can significantly increase the production speed of your manufacturing process. The short minimum picking interval and idle cycle time mean that it can complete more cycles in a given period, leading to higher output and better utilization of resources.
🔄
Flexibility
The dual-arm design allows the robot to perform multiple tasks simultaneously or switch between different operations quickly. It can handle a variety of workpieces, from small precision parts to larger components, making it a versatile addition to any production line.
🛡️
Reliability
The robust construction and high-quality components of the robot ensure its long-term reliability. It can operate continuously for extended periods without requiring frequent maintenance, minimizing downtime and ensuring a stable production process.
🌱
Energy Efficiency
The servo system and optimized air consumption make the robot energy-efficient. This not only reduces your operating costs but also contributes to a more sustainable manufacturing process.
🏭
Injection Molding
The robot is ideally suited for injection molding applications. It can accurately place molds, remove finished products, and perform secondary operations such as trimming and inspection. Its compatibility with a wide range of injection molding machines makes it a valuable asset in the plastics industry.
🔩
Assembly
In assembly lines, the robot's dual-arm configuration allows it to handle multiple components at the same time. It can assemble complex products with precision and speed, improving the overall efficiency of the assembly process.
📦
Material Handling
The robot can be used for material handling tasks, such as transporting workpieces between different workstations. Its large load-bearing capacity and flexible movement make it an efficient solution for moving materials in a manufacturing environment.
🔍
Inspection and Testing
The robot can be equipped with inspection and testing equipment to perform quality control tasks. It can accurately position products for inspection, ensuring that only high-quality products are passed on to the next stage of production.
QWhat injection molding machine tonnage is the WKFI-750 robot compatible with?
The WKFI-750 robot is compatible with injection molding machines ranging from 150T to 250T, making it suitable for a wide range of mid-sized production environments in the plastics industry.
QWhat is the maximum load capacity of the WKFI-750 robot?
The WKFI-750 robot has a maximum load capacity of 5–10 KG, including smelting tools, allowing it to handle a variety of workpieces in different manufacturing applications.
QWhat drive system does the WKFI-750 robot use?
The WKFI-750 uses a full-servo drive system, which ensures highly precise and smooth movements. This makes it ideal for applications requiring consistent accuracy, such as injection molding and precision assembly.
QWhat is the minimum picking interval of the robot?
The minimum picking interval of the WKFI-750 is 1.5 seconds, with an idle cycle time of 5 seconds (not including smelting). This rapid cycle capability significantly enhances production throughput.
QWhat is the working air pressure required for the WKFI-750?
The WKFI-750 requires a working air pressure between 0.5 and 0.7 MPa. The air consumption is 0.26 m³/min, making it an energy-efficient option for continuous industrial operations.
QWhat are the main application scenarios for the WKFI-750 robot?
The WKFI-750 is widely used in injection molding, assembly lines, material handling, and quality inspection and testing. Its dual-arm design and flexible range of motion make it adaptable to diverse manufacturing environments.
