Spur Gears
Spur gears are one of the most commonly used gear types in mechanical systems, characterized by teeth that are straight and parallel to the axis of rotation
Spur gears are one of the most commonly used gear types in mechanical systems, characterized by teeth that are straight and parallel to the axis of rotation
Bevel gears are essential components in systems that require efficient power transmission at angles, especially at 90°
Anti-backlash gears are specially designed to minimize or eliminate the small gaps (backlash) that naturally occur between gear teeth when they mesh
Helical gears are a crucial component in mechanical systems that require smooth, efficient power transmission between shafts.
Worms and worm wheels are essential components in mechanical systems where high torque transmission and compact design are necessary
Anti-backlash worm wheels are essential for high-precision applications that demand accurate, reliable, and quiet power transmission
Unlike external gears, internal gears have teeth cut on the inside of the gear, which allows for unique configuration
Pulleys and belts are key components in power transmission systems, helping to transfer rotational power efficiently across various mechanical systems
Double gears are integral components for precise motion transmission in mechanical systems, offering efficient power transfer between parallel shafts
These components work together to transfer rotational motion between shafts, typically in applications that require continuous motion, such as conveyor systems, bicycles, and industrial machinery
Pinions and pinion shafts are fundamental components in mechanical systems designed to transfer motion and power between gears and other elements
Ratchets and pawls are essential mechanical components used to control motion in one direction while preventing motion in the opposite direction
Toothed Bar Stock is a toothed mechanical component used for linear motion, precise positioning, and power transmission
Ground precision gears and racks are gears and racks that undergo an additional grinding process after their teeth are cut to shape. This process ensures that the teeth have extremely smooth surfaces and precise dimensions, which leads to a higher level of accuracy and performance compared to standard cut gears