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Feature

FOREDOM SR MOTOR FLEX SHAFT KIT
FLEXIBLE SHAFT MOTOR 1/6 HP 115V-
KIT INCLUDES - MOTOR SR / CONTROL C.FCT-1 / HANDPIECE H.30
Flex shaft motor kit made by Foredom, is it's most popular flex shaft model, the M.SR hang-up style motor (Reversing), is teamed up with the C.FCT-1 foot operated speed control and the H.30 Jewelers 3-Jaw Chuck Handpiece.
Kit Contents: Motor - Foot Control - Handpiece - Chuck Key

Description

M.SR Motor Description: Foredom's 1/6 HP, universal, flexible shaft machine runs in forward and reverse rotation at speeds up to 18,000 RPM. The M.SR combines the most important features our customers expect-power, reversibility, reliability, and versatility- all into one motor. It comes equipped with a motor bale for hanging, and our standard 39" long key-tip inner shaft and outer sheath for connecting to any of Foredom's 20+ interchangeable, quick disconnect handpieces. C.FCT-1 Speed Control Description: The reliable C.FCT-1 is Foredom's most popular speed control. It features solid state circuitry in a heavy duty plastic housing with an extra wide footprint, low profile, and non-skid pads on the bottom. It provides smooth control throughout the entire speed range. CSA listed. 7" long, 4-12" wide, 2-38" high, ship wt- 2 lbs./1 kg. H.30 Handpiece, General Purpose: The H.30 general purpose handpiece has pre-lubricated ball bearings that require no maintenance. Comes with HPCK-0 Chuck Key in molded plastic handle for changing accessories. Replacement chuck keys are shown below in related products. 5-3/16" long, 1" diameter, wt. 5.85 oz. Various bench top tools attach to this versatile handpiece, such as the Foredom drill press, Belt Sander Attachment, Handpiece Holder, and AllSet Stone Setting Kits. HPCK-0 Chuck Key: a Molded plastic handle for changing rotary tools and accessories. Motor Details: The 1/6 hp, ball bearing Series SR has 33% more power than our older 1/8 hp motors and 66% more than our original 1/10 hp models. The added power helps to reduce stalling or slowing down under normal workloads.