These rack & pinion drives are perfect for an array of applications, including axis drives requiring precise positioning & repeatability, traveling gantries & columns, pick & place robots, and materials handling systems. Large load capacities and duty cycles can also be easily taken care of with these drives. Industries served include Materials Handling, Automation, Aerospace, Machine Tool and Robotics.
Eliminates the necessity for a separate mounting surface area for the rail
Additional alignment between the rack and rail is not necessary
Space-saving, performance optimized designs can be achieved
Different quality racks designed for best price-performance ratio
Allows assembly of rack and rail off of machine frame
This rack range further expands the already wide selection of ATLANTA rack & pinion drives. With this range, it is possible to achieve optimal designs for almost any application constraints. For recommendations on how to integrate the Integrated Rack into your design, please consult the factory.
Teeth: The teeth are the portion of the apparatus that makes contact with Gear Rack For Rack Actuator another gear. In order for two gears to mesh jointly the pitch must be the same for all mating pairs. The pitch of a equipment may be the distance between equivalent points of adjacent tooth. When one’s teeth of gears mesh properly they prevent slipping and may exhibit efficiencies as high as 98%.
Our Integrated Racks attach directly to most standard linear manuals, eliminating the need for additional machining and alignment, saving time and money. Key benefits include:
Radius: The gear radius is defined differently based on the particular portion of the gear being discussed. The two most relevant measurements, nevertheless, will be the root radius and the addendum radius. The root radius is the distance from the center of the gear to the base of the teeth as the addendum radius (also called the “pitch” radius) may be the distance from the center of the apparatus to the outside of the teeth.
In order to make sure that the gear rack you get is right for your application, seek out a reliable and experienced gear rack manufacturer who’ll take the time to listen to your application in order to suggest the proper product. Depending on your application and the requirements of that application, one’s teeth on the gear rack may need to be spaced a certain way to be able to provide correct torque and effectiveness. This small change can make an environment of difference in how your steering system or railway track features.
Gears are mechanisms that mesh together via teeth and so are used to transmit rotary motion from one shaft to another. Gears are defined by two important items: radius and amount of teeth. They are typically mounted, or linked to other parts, via a shaft or base.