You're lecture's statement sounds right...rahulpark said:my lecturer keeps saying that path of contact of an involute gear is straight line
A property of the involute tooth form is that if the gears are meshed properly, the line of action is straight and passes through the Pitch Point of the gears.
OCR said:You're lecture's statement sounds right...http://en.wikipedia.org/wiki/Involute_gear
http://en.wikipedia.org/wiki/Gear#Line_of_Action
OCR
Ranger Mike said:Spur or straight cut gears mess teeth along one line more quickly than spriral cut hypoid or involute gears. The pressure angle is max atthe start , goes to zero at mid rotation and returns to max pressure just prior to disengaement. This maximum pressure angle at the " tip " of the can cause high stress breakage with enough load. Spur gears are noisy and subject to higher shock due to more immediate contact upon engagement. The drive gear and driven gear must be located EXACTLY to permit proper meshing. Early Ford flatead engine automobiles used bevel (straight cut) ring and pinion differentials and would break teeth when horsepower was increased enough. Spiral cut gears engage at one POINT then gradually move this enagement point along the entire gear face yet maintain the same contact ANGLE PRESSURE from intial engagement to disengagement. These gears are smoother engaging and more quiet in operation and can handle more power load because of this gradually loading and holding the same pressure over the entire rotation. The drive and driven gear do not require as precise of a location as the spur gear and are less burdensome to assemble. Automobile manufacturers went to spiral bevel to handel the increased horsepower required for heavier vehciles and eventually settled on the hypoid design because they could lower the drive shaft and whole rear center of gravity.
Or something like that..
http://gearcutting.blogspot.com/2008/02/comparison-between-involute-and.html
The involute shape of the teeth on an involute gear allows for a smooth and constant transfer of force between the gears, resulting in a straight path of contact. This reduces wear and tear on the gears and ensures efficient power transmission.
The involute shape is a curve that is generated by unwinding a taut string from a base circle. This shape allows for a gradual and consistent contact between the teeth of the gears, resulting in a straight line of force transfer.
Yes, the straight path of contact also allows for a larger contact area between the gears, distributing the load evenly and reducing the risk of tooth breakage. It also results in a quieter operation compared to other gear types.
No, the involute shape is specifically designed to create a straight path of contact. Any deviation from this shape would result in an uneven transfer of force and potential gear failure.
Involute gears are commonly used in power transmission systems, such as in automobiles, industrial machinery, and even in watches. They are also used in mechanical clocks, where the straight path of contact ensures accurate timekeeping.