Functions
of a Gearbox
A gearbox, also known as a Gear Drive, has three main functions:
to increase torque from the driving equipment (motor) to the driven equipment,
to reduce the speed generated by the motor, and/or to change the direction of
the rotating shafts. The connection of this equipment to the gearbox can be
accomplished using couplings, belts, chains, or hollow shaft connections.
Speed and torque are inversely and proportionately related when
power is held constant. Therefore, as speed decreases, torque increases at the
same ratio.
The heart of a gear drive is the gears within it. Gears operate
in pairs, engaging one another to transmit power. Read on to learn the
different types of gear and the applications and industries that utilize them.
Spur Gear
Spur gears transmit
power through shafts that are parallel. The teeth of the spur gears are
parallel to the shaft axis. This causes the gears to produce radial reaction
loads on the shaft, but not axial loads. Spur gears tend to be noisier than
helical gears because they operate with a single line of contact between teeth.
While the teeth are rolling through mesh, they roll off of contact with one
tooth and accelerate to contact with the next tooth. This is different than
helical gears, which have more than one tooth in contact and transmit torque
more smoothly.
Helical Gear
Helical gears have
teeth that are oriented at an angle to the shaft, unlike spur gears which are
parallel. This causes more than one tooth to be in contact during operation and
helical gears can carry more load than spur gears. Due to the load sharing between
teeth, this arrangement also allows helical gears to operate smoother and
quieter than spur gears. Helical gears produce a thrust load during operation
which needs to be considered when they are used. Most enclosed gear drives use
helical gears.
Double Helical Gear
Double helical gears
are a variation of helical gears in which two helical faces are placed next to
each other with a gap separating them. Each face has identical, but opposite,
helix angles. Employing a double helical set of gears eliminates thrust loads and
offers the possibility of even greater tooth overlap and smoother operation.
Like the helical gear, double helical gears are commonly used in enclosed gear
drives.
Herringbone Gear
Herringbone gears are
very similar to the double helical gear, but they do not have a gap separating
the two helical faces. Herringbone gears are typically smaller than the
comparable double helical and are ideally suited for high shock and vibration
applications. Herringbone gearing is not used very often due to their
manufacturing difficulties and high cost.
Bevel Gear
Bevel gears are most
commonly used to transmit power between shafts that intersect at a 90 degree
angle. They are used in applications where a right angle gear drive is
required. Bevel gears are generally more costly and are not able to transmit as
much torque, per size, as a parallel shaft arrangement.
Worm Gear
Worm gears transmit
power through right angles on non-intersecting shafts. Worm gears produce
thrust load and are good for high shock load applications but offer very low
efficiency in comparison to the other gears. Due to this low efficiency, they
are often used in lower horsepower applications.
Hypoid Gear
Hypoid gears look very
much like a spiral bevel gear, but unlike spiral bevel gears, they operate on
shafts which do not intersect. In the hypoid arrangement because the pinion is
set on a different plane than the gear, the shafts are supported by the bearings
on either end of the shaft.
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|
Industries |
Applications |
Rexnord Products |
|
Spur Gear |
·
Food ·
Beverage ·
Automotive ·
Forest ·
Energy ·
Unit
handling |
·
Small
conveyors ·
Package
handling equipment ·
Farm
machinery ·
Planetary
gear sets ·
Automotive |
·
Planetgear |
|
Helical Gear |
·
Cement ·
Food ·
Beverage ·
Mining ·
Marine ·
Energy ·
Forest ·
Bulk
material handling |
·
Medium
to large conveyors ·
Mixers ·
Large
pumps ·
Water
treatment ·
Crushers |
·
V-Class ·
Quadrive ·
UltraMax |
|
Double Helical Gear |
·
Mining ·
Marine ·
Heavy
industry |
·
Milling ·
Steam
turbines ·
Ship
propulsion |
|
|
Herringbone Gear |
·
Mining ·
Marine ·
Heavy
industry |
·
Milling ·
Steam
turbines ·
Ship
propulsion |
|
|
Bevel Gear |
·
Cement ·
Food ·
Beverage ·
Mining ·
Energy ·
Bulk
material handling |
·
Medium
to large conveyors ·
Mixers ·
Crushers ·
Water
treatment |
·
V-Class |
|
Worm Gear |
·
Food ·
Beverage ·
Automotive ·
Forest ·
Energy ·
Unit
handling |
·
Small
conveyors ·
Package
handling equipment ·
Farm
machinery |
·
Omnibox |
|
Hypoid Gear |
·
Cement ·
Food ·
Beverage ·
Mining ·
Energy ·
Bulk
material handling |
·
Small to
medium conveyors ·
Small
mixers ·
Crushers ·
Water
treatment |
|
