Description
The DASQUA Dial Test Indicator is designed to provide high-precision measurements perpendicular to the main axis, making it ideal for checking flatness, alignment, and small deviations. Its robust construction includes shock-resistant gearing, a hardened contact point, and a smooth gear-driven design to ensure stable and reliable readings. The body is crafted with satin chrome finish for durability, and calibration proof is included for confidence in measurement results.
This indicator is widely used in workshops, labs, and industrial production. Optional features include balanced or continuous dials, jeweled bearings for enhanced sensitivity, waterproofing, dustproofing, and reverse reading for specialized applications. Both analogue (mechanical) and electronic (digital) variants are available, allowing for versatile data recording and integration with computer systems.
Features
- With proof of calibration
- Robust shock-resistant gearing
- A body with a strong structure that offers good stiffness
- White dial edge for easy reading
- A ground contact point that is hardened
- Strong case with satin chrome finish.
• A smooth-moving, precision gear-driven design
Specifications
| Unit:mm |
|
|
|
|
| Code |
Range |
Graduation |
Casing Diameter(A) |
Length of Stylus(L) |
| 5221-1129 |
0.8 |
0.01 |
φ30 |
16.5 |
| 5221-1140 |
0.8 |
0.01 |
φ37.5 |
16.5 |
| 5221-3105 |
0.2 |
0.002 |
φ30 |
16 |
|
|
|
|
|
| Unit:inch |
|
|
|
|
| Code |
Range |
Graduation |
Casing Diameter(A) |
Length of Stylus(L) |
| 5221-3106 |
0-0.03″ |
0.0005″ |
1.18″ |
0.62″ |
| 5222-6105 |
0-0.02″ |
0.0005″ |
1.5″ |
0.53″ |
Product Name: Dial Test Indicator
Item Number: 5221-1129
Measuring Range: 0~8 mm / 0~003’’
Graduation: ±0.01 mm / 0.0005’’
Casing Diameter: 30mm
Length of Stylus: 16.5mm
Application
Dial test indicators resemble dial indicators very closely; however, they have a measurement axis perpendicular to their axes. Dial and dial test indicators come in both analogue (mechanical dial) and electronic (digital display) varieties. Some electronic models electronically transport the data to a computer for storage and possible manipulation.
