Common Dimension
| Shank Adaptors | Weight Approx(Kg) | Length(mm) | Thread | Diam(mm) | Hydraulic Drifter |
 |
3.6 | 351 | R32F | ⌀45 | HYD200 |
| 3.6 | 351 | R32F | ⌀45 | ||
| 5.05 | 351 | T38F | ⌀55 | ||
  |
3.12 | 462 | A32 | ⌀38 | HYD200,HYD300 |
| 3.65 | 462 | R38 | ⌀38 | ||
| 3.65 | 462 | R38 | ⌀38 | ||
| 3.65 | 462 | T38 | ⌀38 | ||
| 3.8 | 485 | A32 | ⌀38 | Atlas Copco COP 1036HB,1038HD,1038HL,1038HB,1238,1238ME | |
| 4.1 | 485 | R38 | ⌀38 | ||
| 4.1 | 485 | T38 | ⌀38 | ||
| 4.2 | 500 | R38 | ⌀38 | ||
| 3.98 | 500 | T38 | ⌀38 | ||
| 4.8 | 575 | R32 | ⌀38 | ||
| 4.7 | 575 | R35 | ⌀38 | ||
| 4.95 | 575 | T38 | ⌀38 | ||
| 4.95 | 575 | T38 | ⌀38 | ||
 |
5.7 | 500 | T45 | ⌀45 | Atlas Copco COP 1038HL,1036HB,1238LH |
| 5.7 | 500 | T45 | ⌀45 | ||
| 5.55 | 575 | R38 | ⌀45 | Atlas Copco Cop1036/1038HB/1238/1038/COP1038HL/1036HB/Cop1238LH | |
| 5.55 | 575 | T38 | ⌀45 | ||
| 5.45 | 575 | T38 | ⌀45 | ||
| 6.3 | 575 | T45 | ⌀45 | ||
| 6.3 | 575 | T45 | ⌀45 | ||
| 6.2 | 575 | T45 | ⌀45 | ||
 |
3.9 | 310 | R32F | ⌀52 | Atlas Copco COP 1432,COP 1532,COP 1440,COP 1838 |
| 3.8 | 435 | A32 | ⌀38 | ||
| 3.9 | 435 | R35 | ⌀52 | ||
| 3.8 | 435 | R38 | ⌀38 | ||
| 3.8 | 435 | R38 | ⌀38 | ||
| 3.8 | 435 | R38 | ⌀38 |
Applications of Shank Adapter
Mining
Used with hydraulic drifters and rock drills in mining blasthole and tunneling operations.
Tunneling
Provides stable impact transmission for tunnel drifting and underground drilling projects.
Anchoring
Ideal for slope stabilization, anchor hole drilling, and geotechnical reinforcement works.
Quarrying
Reliable for quarry blasting, secondary rock breaking, and aggregate production drilling.
Hydropower
Suitable for reinforcement, excavation, anchoring, and grouting in hydropower projects.
Competitive Advantage
Premium Material, Stable Quality
Made from high-quality 23CrNi3Mo alloy steel with controlled carburizing and heat treatment, the product delivers stable hardness, strong core toughness, consistent batch quality, and more reliable service life.
High Temperature & Pressure Resistance
Designed for blast furnace taphole conditions, it performs reliably under continuous high temperature, high pressure, and rapid thermal changes, helping maintain stable operation in harsh working environments.
Optimized Thread Connection, Lower Failure Risk
The precision-machined thread structure improves fit, pull-out resistance, and torsion strength, effectively reducing slippage and connection failure during high-impact and high-torque operation.
Strong Wear Resistance & Impact Toughness
With a wear-resistant hardened layer and tough core structure, the product withstands abrasion, repeated impact, and alternating loads, reducing breakage, premature wear, and replacement frequency.
Precision Machining, Efficient Energy Transmission
Produced by high-precision CNC machining, it ensures accurate fit, high coaxiality, and efficient transfer of impact energy and torque, while also helping reduce abnormal wear on drilling equipment.