CP Chicago Pneumatic 1.5" Impact Wrenches
CP Industrial 1.5" Impact Wrench Models CP have developed a range of 7 clutch types to meet the differing demands of our customers' applications. No single clutch is perfect for every type of joint, so we give you the choice to make your job easier. There are also a choice of handles and trigger configurations depending on the tool size. This enables the operator to work in the best ergonomic way for the job. The tools are of a simple 3 piece construction for ease and speed of servicing. Durable steel clutch housings (zinc option on some models) These tools are suitable for high production rates such as those on production/ assembly lines, where high durability is used and the tools are used frequently. Support handles included with these tools. Click on the product code links on the left to view the full specs of each tool.
Ingersoll Rand 1.5" - 3.5" Impact Wrenches Proprietary hardening and treatment processes, innovative ergonomic design, and excellence in manufacturing all add up to the longest lasting, hardest hitting impact tools in the business. 1-1/2" to 3-1/2" drive Impactools™ offer up to 80,000 ft-lb of power, for the most demanding applications in the world.
IR 1.5" - 3.5" Industrial Impacts
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The Chicago Pneumatic, RediPower, Desoutter, and Ingersoll Rand impact wrenches we carry are of the highest quality available. These companies have many years experience in manufacturing and repairing these tools, and with proper maintenance these impacts can handle heavy extended usage. Impact wrenches differ basically from screwdrivers and nutrnunners in the method by which torque is applied to the fastener. Screwdrivers and nutrunners have high torque motors which deliver torque directly to the fastener until air is shut off or a limiting clutch in the tool functions. The operator must resist the tendency of the tool to rotate in the opposite direction. An impact wrench has a relatively low torque motor which imparts rotary inertia to a special type of clutch. The clutch converts this inertia into a series of rotary blows which gradually build up torque in the fastener. The effect is similar to that obtained when a hand wrench is placed on a nut and the opposite end is struck with a hammer. Torque reaction is not transmitted back through the tool to the operator, therefore fasteners can be safely tightened to high torques with hand-held tools.
