Generally, the transmission of power is the movement and transfer of the energy or power from the original place or the origin of the generation point to the required location, actually applied to perform different types of works either in the circular direction or linear direction.
There are four types of power transmission which are mechanical power transmission, electrical power transmission, hydraulic power transmission and, pneumatic power transmission. The mechanical power transmission has taken place by introducing power transmission components such as the shafts, gears, couplings, and automotive belts.
The selection of power transmission components such as the shafts, gears, couplings, and automotive belts to achieve the mechanical power transmission depends on various engineering factors such as application, load, speed of revolution, friction, location of fitment, etcetera.
Generally, the mechanical power transmission to a particular location has achieved through the different type of automotive belts, comes under the group of power transmission components, made out of a compound prepared with the mixture of synthetic rubber, chemical ingredients and weaved along with fabrics, cords, and adhesives.
The timing belts are the improved versions of normal, conventional, outmoded belts such as Flat belts, V-belts, O-belts, and the next version of cogged belts generally used for mechanical power transmission comparably with more efficiency between the perfect time gaps also termed as timing chain and cambelts.
A single, thin, flat, continuous belt with multiple rectangle teeth at a perfect distance in the inner surface of the belts made out of mainly with synthetic rubber, fabric, cord and adhesives defined as timing belts, used to drive pulleys made of same profile teeth on the outer peripheral surface fitted in the machine assembly runs at variable speed in perfect time gap without slip and with higher tension.
The timing belts used to eliminate the slip, the backlash, reduce the mechanical losses, the working temperature, and the noise of operation, improve the machine efficiency, belt life, bearing life, etcetera. This type of belts used to rotate the crank shafts of the engines and, the machines runs with the support of servo motors & controls instead of the other engineering parts such as cam, chain, and gear.
There are numbers of expensive, production processes such as manufacturing molds with teeth, mixing, blending, calendaring, building cords, fabrics, vulcanizing, cutting, grinding, grooving, etcetera and facilities introduced to manufacture timing belts in the way to control the vital features such as tension or reinforcement, thickness, and profile of teeth.
Although, the timing belts manufactured by many renowned industries, introducing modern technologies and production facilities, still there are some gaps, in the way to increase the quantity, quality and to reduce the product cost, found, further to be filled.
All the three gaps can fill through controlling different inputs & rejections, reduce the number of processes and increase the finish, dimensional accuracy, and plant efficiency by this way of introducing improved versions of production technologies and manufacturing facilities.
VEL CONSULTANCY and the group of VEL CONSULTANCY feels proud to inform that since 1998, as per client’s requirement, we are providing topnotch quality of technical services and supports under one roof, comparably at a lower budget. We have improved versions of production technologies and designs for the production facilities suit to manufacture wide ranges of Timing Belts in the way to meet the global market strategies, expecting more opportunities to serve the best.