Workpiece Fixturing

Whether for tactile, optical or X-ray applications: Fixing the component on the measuring device is decisive in order to achieve meaningful and accurate measuring results. ZEISS clamping devices and accessories are designed to be universal: They are suitable for a wide variety of geometries and measuring devices. You can choose from well thought-out kits, the components of which can also be purchased separately, as well as universal clamping devices such as vices and three-jaw chucks.
Toggle clamp riser, L = 75 mm
600062-0344-001
Length (L)
75,0 mm
336,00 krSales tax not included
 Shipment within > 30 days
Column D20 M6 FF - L20
600062-0210-068
Length (L)
20,0 mm
124,00 krSales tax not included
 Shipment within > 30 days
295,00 krSales tax not included
 Shipment within > 30 days
273,00 krSales tax not included
 Shipment within > 30 days
Slotted clamp bracket, adjustable, 80 mm
600062-0338-001
Length (L)
80,0 mm
1.504,00 krSales tax not included
 Shipment within > 30 days
207,00 krSales tax not included
 Shipment within > 30 days
Bracket 25x15x120 - D20
600062-0210-094
Length (L)
120,0 mm
271,00 krSales tax not included
 Shipment within > 30 days
Part Fastening D10 - Column for Clip L=40
600062-0215-010
Length (L)
40,0 mm
136,00 krSales tax not included
 Shipment within > 30 days
Column D20 M6 FF - L10
600062-0210-067
Length (L)
10,0 mm
96,00 krSales tax not included
 Shipment within > 30 days
Part Fastening D10 D5 - Wire Clip
600062-0215-013
Length (L)
46,0 mm
328,00 krSales tax not included
 Shipment within > 30 days
Clamp or hold?

Clamp or hold?

Clamp or hold: These are the variants used to position components for measurement. Frictional clamping devices are used when probing forces are applied in tactile metrology or machine movements can influence the position of the workpiece (e.g. active damping). In optical metrology or CT applications the body is held, i.e. brought into a defined position, without exerting force. This corresponds to the VDI guideline 2860, among others.
Statically determined

Statically determined

In all cases, the aim is to achieve static determinacy: For non-deformable workpieces, static under-determinacy is avoided by defining them in all six degrees of freedom - translatory in three directions and rotary around three axes. For deformable workpieces, such as objects made of sheet metal or plastic that deform before assembly, static overdeterminacy must be avoided.