Brand
Break stem kit for MP7, 8, 9, 10
Crash protection devices are designed to break when overtravel forces are exceeded and prior to any damage being caused to the probe. The captive link prevents the loss of the stylus.
Crash Protection Device
| mm | in | |
| A – Ball Dia. | 16.00 | 0.63 |
| Mass Grams | 2.00 |
There are six primary configurations of styli to support HPRA. Each is designed to be compatible with standard sizes of block tooling ranging from 5/8 in to 2 in. Each stylus kit is supplied complete with:
• 15 × 15 × 4 stylus assembly
• Break stem
• Stylus extension/adaptor
There are six primary configurations of styli to support HPRA. Each is designed to be compatible with standard sizes of block tooling ranging from 5/8 in to 2 in. Each stylus kit is supplied complete with:
• 15 × 15 × 4 stylus assembly
• Break stem
• Stylus extension/adaptor
There are six primary configurations of styli to support HPRA. Each is designed to be compatible with standard sizes of block tooling ranging from 5/8 in to 2 in. Each stylus kit is supplied complete with:
• 15 × 15 × 4 stylus assembly
• Break stem
• Stylus extension/adaptor
Includes stylus 10 × 10 × 4, break protect link, adaptor and screw.
Includes stylus 10 × 10 × 4, break protect link, adaptor and screw.
Includes stylus 10 × 10 × 4, break protect link, adaptor and screw.
M4 10 mm swivel crash protection device, stainless steel
Crash protection devices are designed to break when overtravel forces are exceeded and prior to any damage being caused to the probe. Recommended for use with spindle probes. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical.
Previous part number: M-5000-7588
| Thread | M4 |
| mm | in | |
| Length | 10.00 | 0.40 |
| For use on | LP2 | |
| Mass Grams | 1.50 |
M4 Ø2 mm Zirconia ball, stainless steel stem, L 19 mm, EWL 9.20 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Zirconia is a tough ceramic material with hardness and wear characteristics approaching those of ruby. Its surface properties make it an ideal material for aggressive scanning applications on cast iron components.
| Thread | M4 |
| Ball dia | 2 mm |
| Stem material | Stainless steel |
| Tip material | Zirconia |
| Holder material | Stainless steel |
| Centre styli | N |
| mm | in | |
| A – Ball Dia. | 2.00 | 0.08 |
| B – Length | 19.00 | 0.75 |
| C – Stem Dia. | 1.40 | 0.05 |
| D – Effective Working Ler | 9.20 | 0.36 |
| Mass Grams | 2.30 |
M4 Ø3 mm tungsten carbide ball, stainless steel stem, L 55 mm, EWL 25.8 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Tungsten carbide tips are ideal for applications demanding a hardwearing interface with an inspected item.
| Thread | M4 |
| Ball dia | 3 mm |
| Stem material | Stainless steel |
| Tip material | Tungsten carbide |
| Holder material | Stainless steel |
| Centre styli | N |
M4 Ø5 mm tungsten carbide ball, stainless steel stem, L 100 mm, EWL 85 mm
Straight styli are designed to inspect simple features where direct, unobstructed contact with a measured surface is possible. A stainless steel stem offers excellent rigidity and is ideal for applications where weight is not critical. Tungsten carbide tips are ideal for applications demanding a hardwearing interface with an inspected item.
| Thread | M4 |
| Ball dia | 5 mm |
| Stem material | Stainless steel |
| Tip material | Tungsten carbide |
| Holder material | Stainless steel |
| Centre styli | N |
| mm | in | |
| A – Ball Dia. | 5.00 | 0.20 |
| B – Length | 100.00 | 3.94 |
| C – Stem Dia. | 4.50 | 0.18 |
| D – Effective Working Ler | 85.00 | 3.35 |
| Mass Grams | 11.90 |