high overload capacity
integrated support bearings
< 1 arcmin gear play
high torsional stiffness
compact design, saves space
lower costs by reducing the amount of components required
high degrees of reliability and uptime
precise individual elements ensure high efficiency
prolonged service life through minimum wear
FEATURES AND BENEFITS
Ever-Power develops and manufactures cycloidal equipment boxes to round off the product portfolio. In drive technology, especially in neuro-scientific tool machinery, automation and robotics, these small designed, high tranny precision gear boxes are used specifically to meet the highest demands for stiffness, efficiency and efficiency. As well as the constantly extended regular range, these cycloidal precision equipment boxes can be adapted to consumer requirements upon request.
Able to handle larger “shock” loads (>500%) of rating compared to worm, helical, etc.
High reduction ratios and torque density in a compact dimensional footprint
Exceptional “built-in” overhung load carrying capability
High efficiency (>95%) per reduction stage
Minimal reflected inertia to engine for longer service life
Just ridiculously rugged since all get-out
The entire Ever-Power design proves to be extremely durable, and it requires minimal maintenance following installation. The Ever-Power is the most dependable reducer in the commercial marketplace, and it is a perfect match for applications in large industry such as oil & gas, primary and secondary metal processing, industrial food production, metal slicing and forming machinery, wastewater treatment, extrusion devices, among others.
Cycloidal advantages over other styles of gearing;
Inline Cycloidal Gearboxes
circulute-gearboxes EP 3000 Series variants, Ever-Power product family
The Ever-Power 3000 and our related products that utilize cycloidal gearing technology deliver the most robust solution in the many compact footprint. The primary power train is comprised of an eccentric roller bearing that drives a wheel around a couple of inner pins, keeping the reduction high and the rotational inertia low. The wheel includes a curved tooth profile instead of the more traditional involute tooth profile, which gets rid of shear forces at any point of contact. This design introduces compression forces, instead of those shear forces that would can be found with an involute gear mesh. That provides a number of efficiency benefits such as high shock load capability (>500% of ranking), minimal friction and put on, lower mechanical service elements, among many others. The cycloidal design also has a huge output shaft bearing period, which gives exceptional overhung load capabilities without requiring any extra expensive components.
A cycloidal drive has some similarities to both planetary gearing and strain-wave gears. In the image proven, the green shaft is the input and its own rotation causes an eccentric motion in the yellow cycloidal disk. The cycloidal disk is usually geared to a stationary outer ring, represented in the computer animation by the outer band of grey segments. Its motion is transferred to the purple output shaft via rollers or pins that interface to the holes in the disk. Like planetary gearing, the result shaft rotates in the contrary direction to the input shaft. Because the individual parts are well-suited to 3D printing, this opens the door 
to easily prototyping customized styles and gearing ratios.
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