Spiral bevel gears are key components in mechanical transmission. Due to their high load-bearing capacity, low noise, and smooth
transmission, they are widely used in the machinery manufacturing
industry, especially in aerospace, vehicles, ships, military and
other fields.
The machining method for spiral bevel gears involves multiple steps
to ensure their precision manufacturing. Starting with design and
engineering, gear specifications such as tooth size, number of
teeth, pitch, pressure angle and other factors need to be
determined based on application requirements and load conditions.
The gear cutting process involves removing material from a blank
gear to form the gear teeth. There are two main methods used for
spiral bevel gear cutting: a: Gleason method: The Gleason method is
widely used in the mass production of spiral bevel gears. It
involves the use of a special machine, called a Gleason machine,
which produces a combination of gear rolling and cutting actions to
produce the gear tooth profile. b. Klingelnberg method: The
Klingelnberg method is another commonly used cutting method for
spiral bevel gears. It utilizes a Klingelberger machine, which uses
generative motion to create gear tooth profiles. This method is
known for its accuracy and flexibility in producing high-quality
gears.
Our factory has corresponding processing equipment for production,
and for quality control, there are also Klingelnberg testing
equipment, gear measurement centers and three-dimensional
coordinates, etc.