Kaifull Motors' Breakthrough in Automation: The Power of Through-Shaft Linear Stepper Motors
In a recent demonstration, Kaifull Motors showcased the innovative capabilities of their 57 Through-Shaft Linear Stepper Motor, setting a new standard for precision and power in automation.
The video highlights how this advanced motor integrates a lead screw within the stepper motor structure. This unique design allows the motor to convert rotational motion into linear motion seamlessly. By embedding the nut within the motor and enabling the lead screw to pass through, Kaifull Motors achieves an impressive combination of compact size and exceptional thrust power.
Key Features on Display
- Compact and Powerful: The motor's design optimizes space while delivering significant pushing force.
- Heavy-Load Capability: In the video, the 57 through-shaft linear stepper motor is subjected to a rigorous load test, successfully pushing a 35 kg weight with ease.
- Precise and Reliable: The smooth and accurate motion control makes it ideal for demanding applications.
Applications in Automation
This motor is particularly well-suited for automation equipment, especially in material handling systems like loading and unloading mechanisms. Its ability to deliver high thrust in a compact form factor addresses the growing demand for efficiency and precision in industrial settings.
Why Choose Kaifull Motors?
Kaifull Motors combines cutting-edge technology with practical engineering to provide solutions that meet the needs of modern automation. With a focus on high precision, high responsiveness, and stability, their motors are transforming the industry one step at a time.
Watch the video demonstration to see how Kaifull’s stepper motors are driving innovation in automation.
About Kaifull Motors
Kaifull Motors is a leader in motion control solutions, specializing in stepper motors that are tailored for industrial and automation applications. Their commitment to quality and innovation ensures optimal performance and reliability across diverse use cases.