A cycloidal gear is a toothed

gear A gear or gearwheel is a rotating machine part typically used to transmit rotational motion and/or torque by means of a series of teeth that engage with compatible teeth of another gear or other part. The teeth can be integral saliences or ...

with a cycloidal profile. Such gears are used in mechanical

clock A clock or chronometer is a device that measures and displays time. The clock is one of the oldest Invention, human inventions, meeting the need to measure intervals of time shorter than the natural units such as the day, the lunar month, a ...

s and

watches A watch is a Clock, timepiece carried or worn by a person. It is designed to maintain a consistent movement despite the motions caused by the person's activities. A wristwatch is worn around the wrist, attached by a watch strap or another typ ...

, rather than the

involute gear The involute gear profile is the most commonly used system for gearing today, with cycloid gearing still used for some specialties such as clocks. In an involute gear, the profiles of the teeth are ''involutes of a circle.'' The involute of a ...

form used for most other gears. Cycloidal gears have advantages over involute gears in such applications in being able to be produced flat (making them easier to polish, and thereby reduce friction), and having fewer points of contact (both reducing friction and wear). Their gear tooth profile is based on the epicycloid and

hypocycloid In geometry, a hypocycloid is a special plane curve generated by the trace of a fixed point on a small circle that rolls within a larger circle. As the radius of the larger circle is increased, the hypocycloid becomes more like the cycloid creat ...

curves, which are the curves generated by a circle rolling around the outside and inside of another circle, respectively.

Characteristics

When two toothed gears mesh, an imaginary circle, the ''pitch circle'', can be drawn around the centre of either gear through the point where their teeth make contact. The curves of the teeth outside the pitch circle are known as the ''addenda'', and the curves of the tooth spaces inside the pitch circle are known as the ''dedenda''. An addendum of one gear rests inside a dedendum of the other gear. In the cycloidal gears, the addenda of the wheel teeth are convex epi-cycloidal and the dedenda of the pinion are concave hypocycloidal curves generated by the same generating circle. This ensures that the motion of one gear is transferred to the other at locally constant

angular velocity In physics, angular velocity (symbol or \vec, the lowercase Greek letter omega), also known as the angular frequency vector,(UP1) is a pseudovector representation of how the angular position or orientation of an object changes with time, i ...

. The size of the generating circle may be freely chosen, mostly independent of the number of teeth. Cycloidal rotor construction - 2 lobes

Roots blower The Roots blower is a positive displacement lobe pump which operates by pumping a fluid with a pair of meshing lobes resembling a set of stretched gears. Fluid is trapped in pockets surrounding the lobes and carried from the intake side to th ...

is one extreme, a form of cycloid gear where the ratio of the pitch diameter to the generating circle diameter equals twice the number of lobes. In a two-lobed blower, the generating circle is one-fourth the diameter of the pitch circles, and the teeth form complete epi- and hypo-cycloidal arcs.

In clock and watch making

Cycloidal gears are used in clock and watch making, for three reasons. 1. To reduce friction, watch and clock movements require teeth and pinion leaves to be polished. Cycloidal gears can be designed so that the pinions have flat surfaces. This makes them easier to polish without adversely changing their profile. 2. The gear trains used in clocks and watches have multiple stages of wheels and pinions in which the pinions have few leaves. Involute designs for these leaves would be undercut, making them too fragile and difficult to manufacture. 3. A large aspect of the design of watch and clock movements is the minimisation of friction. Involute gear teeth often mesh with 2 to 3 points of contact at once. Cycloidal gears can be made so there are only 1 to 2 points of contact. Since there is always some friction at these meshing points, cycloidal profiles are preferred in

horology Chronometry or horology () is the science studying the measurement of time and timekeeping. Chronometry enables the establishment of standard measurements of time, which have applications in a broad range of social and scientific areas. ''Hor ...

. Horological gear teeth are usually not lubricated (only their pivots are). Oil viscosity can have a detrimental effect on time keeping. Also, since these mechanisms are expected to run constantly for years between servicing, lubrication can become contaminated with dirt and debris and effectively turn into grinding paste. This can damage the wheels and pinions to the point they must be replaced. However, even well made cycloidal wheels and pinions are subject to this wear due to friction, dirt and oil migration from pivot bearings and other places. This is one of the reasons regular servicing of watches and clocks is essential for their precision and longevity. In clockmaking, the generating circle diameter is commonly chosen to be one-half the pitch diameter of one of the gears. This results in a dedendum which is a simple straight radial line, and therefore easy to shape and polish with hand tools. The addenda are not complete epicycloids, but portions of two different ones which intersect at a point, resulting in a "

gothic arch A pointed arch, ogival arch, or Gothic arch is an arch with a pointed crown meet at an angle at the top of the arch. Also known as a two-centred arch, its form is derived from the intersection of two circles. This architectural element was part ...

" tooth profile. A limitation of this gearform is that meshing is only precise on the pitch circle, with the result that where vibration is likely an involute profile is usually preferred. However in clockmaking, particularly prior to the application of mass production, it was common to cut a pair of wheels (or a wheel plus a lantern pinion) and then to use a depthing tool to mark out the pivot positions on the plates: that pivot distance was correct for that specific pair of wheels, and not for any others.

Invention

There is some dispute over the invention of cycloidal gears. Those involved include Gérard Desargues,

Philippe de La Hire Philippe de La Hire (or Lahire, La Hyre or Phillipe de La Hire) (18 March 1640 – 21 April 1718)

Ole Rømer Ole Christensen Rømer (; 25 September 1644 – 19 September 1710) was a Danes, Danish astronomer who, in 1676, first demonstrated that light travels at a finite speed. Rømer also invented the modern thermometer showing the temperature between ...

, and Charles Étienne Louis Camus.

Relationship to involute profile gears

cycloid In geometry, a cycloid is the curve traced by a point on a circle as it Rolling, rolls along a Line (geometry), straight line without slipping. A cycloid is a specific form of trochoid and is an example of a roulette (curve), roulette, a curve g ...

(as used for the flank shape of a cycloidal gear) is constructed by rolling a ''rolling circle'' on a ''base circle''. If the diameter of this rolling circle is chosen to be infinitely large, a ''rolling straight line'' is obtained. The resulting cycloid is then called an

involute In mathematics, an involute (also known as an evolvent) is a particular type of curve that is dependent on another shape or curve. An involute of a curve is the Locus (mathematics), locus of a point on a piece of taut string as the string is eith ...

and the gear is called an

. In this respect involute gears are only a special case of cycloidal gears.

References

* Ross, D. S. (2010). "The inverse trochoid problem". J. Franklin Institute. 347 (7): 1281-1308 (2010). https://doi.org/10.1016/j.jfranklin.2010.06.003

External links