About Impact Wrench

An impact wrench (also known as an impactor, impact gun, air wrench, air gun, rattle gun, torque gun, windy gun) 


is a socket wrench power tool designed to deliver high torque output with minimal exertion by the user, by storing energy 


in a rotating mass, then delivering it suddenly to the output shaft.


Compressed air is the most common power source, although electric or hydraulic power is also used, 


with cordless electric devices becoming increasingly popular since the mid-2000s.


VALU-AIR Impact wrenches are widely used in many industries, such as automotive repair,


 heavy equipment maintenance, product assembly, major construction projects, and any other instance where a high torque 


output is needed. For product assembly, a pulse tool is commonly used, as it features a reactionless tightening while reducing 


the noise levels the regular impacts suffer from. Pulse tools use oil as a medium to transfer the kinetic energy from the hammer


into the anvil. This gives a smoother impulse, a slightly lower torque to weight ratio and a possibility to design a shut off mechanism 


that shuts the tool down when achieving the correct torque. Pulse tools are not referred to as "impact wrenches" as the performance 


and technology are not the same.


Impact wrenches are available in every standard socket wrench drive size, from small ¼" drive tools for small assembly and disassembly, 


up to 3½" and larger square drives for major construction. Impact wrenches are one of the most commonly used air tools.


In operation, a rotating mass is accelerated by the motor, storing energy, then suddenly connected to the output shaft (the anvil), 


creating a high-torque impact. The hammer mechanism is designed such that after delivering the impact, the hammer is again allowed to 


spin freely, and does not stay locked. With this design, the only reaction force applied to the body of the tool is the motor accelerating the hammer, 


and thus the operator feels very little torque, even though a very high peak torque is delivered to the socket. (This is similar to a conventional hammer, 


where the user applies a small, constant force to swing the hammer, which generates a very large impulse when the hammer strikes an object.) 


The hammer design requires a certain minimum torque before the hammer is allowed to spin separately from the anvil, causing the tool to stop 


hammering and instead smoothly drive the fastener if only low torque is needed, rapidly installing/removing the fastener.

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