Characteristics Quality starts with consistent tooling -Insist on OSG bits that elivers precision tooling with harness, consistency an maximum torsion strength meeting the market nees. OSG bits FIBER FOW General mille bits optimum press forming machines evelope with OSG technology.
High Precision OSG BITS are manufacture using precision ies in a highly rigi pressing machine. This process minimizes imensional variation an prouctivity. High Torsional Strength Combination of premium material, unique forming process an special heat treatment technology elivers OSG power bits that is guarantee to maximize your torque transmission. Breakage torque Average 68kg f cm Average 6kg f cm High Harness OSG BITS are manufacture from a special high-grae alloy surface harness, an optimum core harness istribution. Recommene Harness Higher range harness is recommene to maximize wear resistance. Precision machinery an appliance assembly. Mi range harness is recommene to prevent breakage. General application from appliance to automotive inustry. ow range harness is recommene to absorb impact shock. Woo construction, automotive an machinery inustry.
Typical Screw Tightening System cross-hea screws Screw-tightening systems preferentially use cross-hea screws in place of slotte heas ue to an ahesive property property improves screw-tightening performance, an also facilitates upwars or sieways screw-tightening, or tightening screws in eep recesses. Non CAM-OUT cross-hea bits ACR bits tightening of cross-hea screws.
OSG s original, revolutionary screw-tightening system Hea) type, with the torque transmission area on the outsie of the screw hea, an an R prouction an isassembly esign. This avance screw-tightening system also complies with Others
Cross-hea screw PH 0~ PH0 PH shank 0.0 PH0-C6. 0 0 9 0 7.0 PH0-C6. 7 00.0 PH0-C6. 00 0.7 PH-C6. 0 7.7 PH-C6. 7 PH C6. 00.7 PH-C6. 00 7 6.0 PH-C6. 7 00 6.0 PH-C6. 00 9 0 6.0 PH-C6. 0 7 6.0 PH-C6. 7 00 6.0 PH-C6. 00 0 6.0 PH-C6. 0 U6.W PH shank 0 PH-U6.W 0 7 PH-U6.W 7 U6.W 00 PH-U6.W 00 7 PH-U6.W 7 00 PH-U6.W 00 0 PH-U6.W 0 V6.W PH shank 7. PH-V6.W 6 7. PH-V6.W 6 V6.W 0 7. PH-V6.W 0 7 PH-V6.W 7 00 PH-V6.W 00 0 PH-V6.W 0 U PH shank 0 0.0 0 PH0-U 0 7.0 0 PH0-U 7 0.7 PH-U 0 7.7 PH-U 7 U 00.7 PH-U 00 0.7 PH-U 0 7.7 PH-U 7 00.7 PH-U 00 0.7 PH-U 0
H PH shank 0 60.0 0 PH0-H 60 0 H 60.0 0 PH-H 60 00.0 0 PH-H 00 60.0 PH-H 60 00.0 PH-H 00 0.0 PH-H 0 H 0 PH shank 0.0 PH0-H 0 0 60.0 PH0-H 60 80.0 PH0-H 80 00.0 PH0-H 00 0.0 PH-H 0 H 60.0 PH-H 60 80.0 PH-H 80 00.0 PH-H 00 0 PH-H 0 60 PH-H 60 80 PH-H 80 00 PH-H 00 D PH shank.0 PH0-D 0 6.0 PH0-D 6 0 D.0 PH-D 6.0 PH-D 6 PH-D 6 PH-D 6 I6. PH shank 0 PH0-I6. PH-I6. I6. PH-I6. PH-I6. 6
ACR ACR ~ C6. ACR shank 6.7 ACR-C6. 6 00.7 ACR-C6. 00 0.7 ACR-C6. 0 6 6.0 ACR-C6. 6 9 C6. 00 6.0 ACR-C6. 00 0 6.0 ACR-C6. 0 6 6.0 ACR-C6. 6 00 6.0 ACR-C6. 00 0 6.0 ACR-C6. 0 U ACR shank 0.7 ACR-U 0 7.7 ACR-U 7 00.7 ACR-U 00 U 0.7 ACR-U 0 7.7 ACR-U 7 00.7 ACR-U 00 0.7 ACR-U 0 H ACR shank 60.0 ACR-H 60 0 0 H 60 ACR-H 60 H 0 ACR shank 0.0 ACR-H 0 60.0 ACR-H 60 H 0 ACR-H 0 60 ACR-H 60 D 0 ACR shank.0 ACR-D 6.0 ACR-D 6 D ACR-D 6 ACR-D 6 I 6. ACR shank ACR-I6. I6. ACR-I6. 7
Square hea SQ~ V6.W SQ shank 6 6 SQ-V6.W 6 0 6 SQ-V6.W 0 V6.W 0 6 SQ-V6.W 0 6 SQ-V6.W 6 0 SQ-V6.W 0 0 SQ-V6.W 0 I 6. SQ shank SQ-I6. I6. SQ-I6. 8
Hexagon hea screws HEX~ C6. 6 9 HEX shank 0. HEX-C6. 0 7. HEX-C6. 7. 0.8 HEX.-C6. 0 7.8 HEX.-C6. 7 0. HEX-C6. 0 7. HEX-C6. 7 00. HEX-C6. 00 0. HEX-C6. 0 C6. 7. HEX-C6. 7 00. HEX-C6. 00 0.6 HEX-C6. 0 7.6 HEX-C6. 7 00.6 HEX-C6. 00 0 7.0 HEX6-C6. 0 6 7 7.0 HEX6-C6. 7 00 7.0 HEX6-C6. 00 U HEX shank 0. HEX-U 0 7. HEX-U 7. 0.8 HEX.-U 0 7.8 HEX.-U 7 0. HEX-U 0 7. HEX-U 7 U 00. HEX-U 00 0. HEX-U 0 7. HEX-U 7 00. HEX-U 00 0.6 HEX-U 0 7.6 HEX-U 7 00.6 HEX-U 00 H HEX shank 60. HEX-H 60 00. HEX-H 00. 60.9 HEX.-H 60 00.9 HEX.-H 00 0 H 60. HEX-H 60 00. HEX-H 00 0. HEX-H 0 60.6 HEX-H 60 00.6 HEX-H 00 0.6 HEX-H 0 9
H HEX shank 0. HEX-H 0 60. HEX-H 60 80. HEX-H 80 00. HEX-H 00 0.9 HEX.-H 0. H 60.9 HEX.-H 60 80.9 HEX.-H 80 00.9 HEX.-H 00 0. HEX-H 0 60. HEX-H 60 80. HEX-H 80 00. HEX-H 00 D HEX shank. HEX-D 6. HEX-D 6. D.9 HEX.-D 6.9 HEX.-D 6. HEX-D 6. HEX-D 6 I6. HEX shank HEX-I6.. HEX.-I6. I6. HEX-I6. HEX-I6. HEX-I6. 0
Hexalobular HT~0 C6. 6 9 HT shank 7. HT-C6. 7 7. HT-C6. 7 6 7.7 HT6-C6. 7 7 7.0 HT7-C6. 7 8 7. HT8-C6. 7 9 7. HT9-C6. 7 0 7.7 HT0-C6. 7 C6. 7. HT-C6. 7 0 7.8 HT0-C6. 7 7. HT-C6. 7 7 7.0 HT7-C6. 7 0 7. HT0-C6. 7 0 7 6.6 HT0-C6. 7 7 7.8 HT-C6. 7 0 7 8.8 HT0-C6. 7 HT shank H 6 60.7 HT6-H 60 7 60.0 HT7-H 60 8 60. HT8-H 60 0 9 H 60. HT9-H 60 0 60.7 HT0-H 60 60. HT-H 60 0 60.8 HT0-H 60 H HT shank 0.7 HT6-H 0 6 60.7 HT6-H 60 7 0.0 HT7-H 0 60.0 HT7-H 60 8 H 0. HT8-H 0 60. HT8-H 60 9 0. HT9-H 0 60. HT9-H 60 0 0.7 HT0-H 0 60.7 HT0-H 60
D HT shank.7 HT6-D 6 6.7 HT6-D 6 7.0 HT7-D 6.0 HT7-D 6 8 9 D. HT8-D 6. HT8-D 6. HT9-D 6. HT9-D 6 0.7 HT0-D 6.7 HT0-D 6 I6. HT shank 6 HT6-I6. 7 HT7-I6. 8 HT8-I6. 9 HT9-I6. 0 HT0-I6. I6. HT-I6. 0 HT0-I6. HT-I6. 7 HT7-I6. 0 HT0-I6. 0 HT0-I6.
Custom Orer
E-mail:osp-info@osg.co.jp
Use the tool only for its intene purpose. Do not use if cracke, chippe, worn, or eforme. Do not make any moifications. Heating or machining will significantly egrae tool quality. We recommen use of protective goggles or glasses. Use a size that matches the screw size. Check that the bit tip solily engages the screw hea before attempting to turn. Insert the bit securely into the power tool attachment before use. Excessive force will amage the screw or bit. Work carefully, an avoi excessive force. Do not use as a chisel or lever. Do not touch the rotating tool. Keep the bit clean an free of foreign matter. * Due to constant prouct improvements, these specifications are subject to change without notice. * Prouct imensions inclue the specifie manufacturing tolerances. 8-, Teori, Kaminagayama-cho,Toyokawa City, Aichi Pref. -0, Japan Phone : 0-9- Fax : 0-9- E-mail:osp-info@osg.co.jp website http://www.j-osp.com/ E-mail:osp-info@osg.co.jp http://www.j-osp.com/