In an industrialised field, motors and turbines utilise energy to generate rotational mechanical movement. In order to tackle this movement to perform a helpful task, there must be a method to pass it to other elements and machines. A way to transmit power is via Chain and sprocket drives. Chain and sprocket drives include a non-ending series of chain links, which further meets with toothed sprockets. Chain and sprocket drives are utilised for three primary functions: power transmission, conveying materials, and timing procedures.
Chain and sprocket drives are utilised for power transmission from one element to the other. Particularly, these systems transfer speed and torque via the utilisation of a linked chain and sprockets. Chain and sprocket drives are best for this work as the sprocket teeth and chain setup bring in a positive speed ratio. They are also able enough to transfer a big amount of torque within a compact region.
Sprocket drives are utilised and worked on in several kinds of fields to move, slide, carry, push and pull a range of materials. These drives can be utilised to move substances directly by joining pockets, buckets, frames, or meshes to these chains. They can also be utilised indirectly, like in turning rollers that further move a conveyor belt.
There are lots of benefits of utilising chain and sprocket drives over other kinds of mechanical transmission procedures. They include non-slipping and non-creeping and so are more effective than belt drives. Chains and Sprockets are more compact and are really easier to install as compared to belt drives. They can tolerate and operate efficiently at higher temperature conditions and can also tolerate abrasive conditions. Chains and Sprockets can be operated perfectly in wet conditions and will never deteriorate due to oil, grease, sunlight, or age, unlike belt drives, and can also be utilised in reverse directions as well.
Source: Bolton Enginering Products