The GEARWRENCH 120XP™ ratchets take access and speed to the next level, making it easier and quicker to complete jobs. The double stacked pawl design gives 120 positions providing a 3 degree ratcheting arc. All of the ratchets feature a low profile head and flush mounted on/off switch, allowing better access in tight spaces. The ratchets are a bright, full polish chrome to resist rust & corrosion and have an enclosed head design which allows for extreme resistance to dirt infiltration. Available in standard and extra-long length handles.
Details
Industrial Subcategory:
Punches, Chisels, and Hand Drills
Armstrong to GearWrench Cross References:
Cornwell Cross Reference:
CP0404|1/8" Center Punch|;
JET Cross Reference:
775443|CP816 1/4" CENTRE PUNCH|;
Long Description:
2 Piece 1/4" and 3/8" Drive 120XP™ Dual Material Flex Head Teardrop Ratchet Set
Product Name:
120XP™ Flex Head Ratchet Set
Proto Cross Reference:
J411/4S2|PUNCH CENTER 1/4|No;
Size:
1/4" Drive x 8 in 3/8" Drive x 13-1/2 in
SK Cross Reference:
6908|Punch Center 1/4|No;
Table Description:
2 Pc. 1/4" and 3/8" Drive 120XP™ Dual Material Flex Head Teardrop Ratchet Set
URREA Cross Reference:
41-1/4|1/4 IN PT DIA CENTER PUNCH |Yes;
Williams Cross Reference:
P-38|Center Punch 1/4"|Yes;
Wright Cross Reference:
9536|1/4" x 3-1/2" (Mayhew #415 1/4")Center Punch|Yes;
Manufactured By:
GearWrench
Other Details
120XP ratchets have two double stacked 60-tooth pawls (120 positions) providing a 3° swing arc so you can turn fasteners in tighter confines
Bright, full polish chrome finish easily wipes clean and resists corrosion
Double-stacked pawls alternately engage the 60-tooth gear, providing exceptional strength
Dual Material Comfort Grip Handle
Enclosed Head Design for Extreme Resistance to Dirt Infiltration
Flexible head provides access for hard to reach fasteners
Highly Visible On/Off Markings on the Head
Longer reach handle to access hard-to-reach fasteners
Meets or Exceeds ASME Specifications
Teardrop, low-profile head and flush-mounted on/off switch allow better access in tight spaces