Known as clickers, they are a thin flat piece of carbon, plastic, or spring steel that is placed on the arrow as it is being nocked to the bowstring. When the archer draws the arrow back, the clicker “falls” off the point of the arrow and makes contact with the riser, resulting in a click. This is the point at which archers relax their fingers in order to release the arrow.
- The term “archery clicker” refers to a device that, when used with a recurve bow, produces an audible click when the bow is brought to the correct draw point. When you go through your archery form, a small vibration is sent via the riser or one of the limbs, providing tactile input.
Why use a clicker on a recurve bow?
Generally, clickers are only used on recurve bows to notify the archer when he has brought the bow back to the proper draw length or all the way back to full draw. As a result of this sound, as well as a tiny vibration in the riser, the archer is informed that the bowstring has been pulled back to the necessary distance to ensure consistent arrow speed.
Why do Olympic archers use recurve bows?
While there are international contests using compound bows, Olympic competitions employ recurves, which are so named because when the bow isn’t pulled, the ends of the bow curve back in the direction in which the arrow is intended to go.
How does an Olympic recurve bow work?
The “Olympic recurve” is the sort of bow that Olympians use to shoot their targets. When the bow’s limbs flex in unison as you draw the bowstring, the power of the bow is generated. When you let go of the bowstring, the limbs snap forward, releasing the energy that has been stored in the limbs to drive the arrow to its intended target.
Which type of bow has wheels?
Compound bows are used in contemporary archery to bend the limbs of the bow with the help of a levering system, which is typically comprised of cables and pulleys.
How does a compound bow work?
Using a compound bow is similar to using a simple block and tackle, in that it multiplies input energy across a distance. By pulling back on the bowstring, both outer wheels revolve in the same direction, increasing the amount of stress given to the cables on the inner wheels as you do so.