Determining tooth thickness of various gear types – Part II

How to calculate the nominal values of span measurement of teeth in various types of gearing.

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In order to determine the tooth size of a gear after taking into account the backlash allowance, you first must determine what the nominal tooth thickness should be. There are three methods for determining this value. They are chordal tooth thickness measurement, span measurement, and over pin or ball measurement. For this article, we will discuss span measurement.

The span measurement of teeth, W, is a measure over a number of teeth, k, made by means of a special tooth thickness micrometer. The value measured is the sum of normal tooth thickness on the base circle, sbn, and normal pitch, Pbn(k –1). (See Figure 1).

Figure 1: Span measurement over k  teeth (spur gear).

Figure 1 details the span measurement of a spur gear. As such, the span measurement is on the outside of the teeth. For internal gears, the tooth profile is opposite to that of the external spur gear. As such, the measurement for an internal gear is between the inside of the tooth profiles. The calculations for both an external spur gear and an internal ring gear are detailed in Table 1.

Table 1: Span measurement calculations for spur and internal gear teeth.

Measuring helical gears can be done in either the normal plane or the transverse plane dependent on how the gears are cut. The formulas for measurements in the normal plane are detailed in Table 2, and those for measurements in the transverse plane are detailed in Table 3.

Table 2: Equations for the span measurement of normal system helical gears.
Table 3: Equations for span measurement of transverse system helical gears.

There is a requirement of a minimum face width to make a helical gear span measurement. Let bmin be the minimum value for face width. See Figure 2.

Figure 2: Face width of helical gear.

Then  bmin  =  Wsin βb + ∆b

Where βb is the helix angle at the base cylinder,

βb  =  tan -1 (tan β cos αt)

βb =  sin -1 (sin β cos αn)

These calculations resolve to show that a minimum value of b > 3mm is required in order to have a valid value for W.

Due to the tooth form of a bevel gear, whether it is a straight or spiral tooth, this span measurement technique cannot be used. The span measurement technique is also not employed for a worm wheel or a worm.                   

Using the above tables and formulas, you will be able to determine the proper span measurement for your spur gear, helical gear or internal ring gear. From these values and the measured values, you can determine the tooth thinning or backlash allowance cut into the gear.

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is general manager of KHK USA Inc, a subsidiary of Kohara Gear Industry with a 24-year history of working in the industrial automation industry. He is skilled in assisting engineers with the selection of power-transmission components for use in industrial equipment and automation. Dengel is a member of PTDA and designated as an intern engineer by the state of New York. He is a graduate of Hofstra University with a Bachelor’s of Science in Structural Engineering.