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A Basic Principle of Automotive V Belts


Automotive V Belts operate on a basic principle: molded […]

Automotive V Belts operate on a basic principle: molded teeth of the belt and mating grooves of the pulley make positive engagement. The teeth enter and leave the pulley in a smooth rolling manner with low friction. This positive engagement results in exact shaft synchronization, elimination of slippage and speed loss common to v-belts. Synchronous operation at speeds higher than most chain drives.

All ancillary belts accomplish on the absolute assurance principle. Chains accomplish on the aforementioned assumption but ancillary belts accept abounding above characteristics. The closing blanket about the caster by agency of flexion and not by circling of articulate locations which eliminates one of the causes of abrasion and noise. With them, the appropriate take-up allowances for tensioning are decidedly less. Ancillary belts accept no hidden costs. They accept beyond availability of ratios and lengths.

Synchronous drives represent a avant-garde and able arrangement of ability transmission. They about amalgamate the advantages of automated apparatus (gears & chain) and adjustable apparatus (flat & V-belts) while eliminating the inherent disadvantages of these components.

The capital apparatus of a ancillary drive are the compactness cords, the teeth, elastic abetment and tooth facing. Steel was originally acclimated as a compactness bond material. Most belts today use top modulus (low-stretch) fiberglass or aramid cilia as the compactness member. Compactness bond is the amount address aspect of the Automotive V Belts