Universal Tape Feeder
【Introduction】
•Universal Tape Feeder is an efficient feeding tool designed for professional use in industrial manufacturing and production environments. Its main feature is its unique adjustable width design, with the largest model capable of accommodating six different belt widths. Users can easily adjust the width of the feeder to adapt to materials of varying sizes and shapes. This flexibility allows the feeder to meet diverse production requirements, ensuring precise material delivery to the target location. Such precision is crucial for processes demanding high quality and consistency, while also saving time and labor costs simultaneously.
【Features】
Plug and Play, Highly Compatible
The simplified plug-and-play design, coupled with high compatibility, facilitates seamless integration into the production line, thereby further enhancing production efficiency.
Convenient Operation, Increased Efficiency
Streamlined buttons and intuitive operation reduce the user threshold while concurrently boosting operational efficiency.
Durable and Reliable
The robust design of the stepper motor is suitable for prolonged continuous production, ensuring that the feeder has a long lifespan.
Versatile Adaptability
The adjustable width design enables a single machine model to accommodate six different sizes of tape, ensuring flexible application in diverse production requirements.
Efficient and Swift
Through an enhanced motor drive module, smooth and rapid feeding of components is achieved, significantly improving overall production efficiency.
Precision Positioning
Equipped with high-precision motor control, it enhances the accuracy and resolution of the feeding position, ensuring a high level of accuracy in the feeding position.
Taiwan Manufacturing
New product supply with a variety of specifications for your selection—precision, cost-effective, and flexible.
Excellent Feeding Mechanism
The combination of ratchet and carrier cover ensures more stable and faster component feeding, effectively reducing component misalignment.