-
FM-50-G-3/35-NR
Basic version3 elastomer elements with a shore hardness of 35 -
FM-50-G-3/43-NR
Basic version3 elastomer elements with a shore hardness of 43 -
FM-50-G-3/53-NBR
Basic version3 elastomer elements with a shore hardness of 53 -
FM-80-G-3/35-NR
Basic version3 elastomer elements with a shore hardness of 35 -
FM-80-G-3/43-NR
Basic version3 elastomer elements with a shore hardness of 43 -
FM-80-G-3/53-NBR
Basic version3 elastomer elements with a shore hardness of 53 -
FM-80-Ü-3/35-NR
with overload protection3 elastomer elements with a shore hardness of 35 -
FM-80-Ü-3/43-NR
with overload protection3 elastomer elements with a shore hardness of 43 -
FM-80-Ü-3/53-NBR
with overload protection3 elastomer elements with a shore hardness of 53 -
FM-80-P-4/35-NR
with pneumatic cylinder4 elastomer elements with a shore hardness of 35 -
FM-80-P-4/43-NR
with pneumatic cylinder4 elastomer elements with a shore hardness of 43 -
FM-80-P-4/53-NBR
with pneumatic cylinder4 elastomer elements with a shore hardness of 53 -
FM-80-V-4/35-NR
with torsion protection4 elastomer elements with a shore hardness of 35 -
FM-80-V-4/43-NR
with torsion protection4 elastomer elements with a shore hardness of 43 -
FM-80-V-4/53-NBR
with torsion protection4 elastomer elements with a shore hardness of 53 -
FM-100-G-4/35-NR
basic version4 elastomer elements with a shore hardness of 35 -
FM-100-G-4/43-NR
basic version4 elastomer elements with a shore hardness of 43 -
FM-100-G-4/53-NBR
basic version4 elastomer elements with a shore hardness of 53 -
FM-100-Ü-4/35-NR
with overload protection4 elastomer elements with a shore hardness of 35 -
FM-100-Ü-4/43-NR
with overload protection4 elastomer elements with a shore hardness of 43 -
FM-100-Ü-4/53-NBR
with overload protection4 elastomer elements with a shore hardness of 53 -
FM-100-P-4/35-NR
with pneumatic cylinder4 elastomer elements with a shore hardness of 35 -
FM-100-P-4/43-NR
with pneumatic cylinder4 elastomer elements with a shore hardness of 43 -
FM-100-P-4/53-NBR
With pneumatic cylinder4 elastomer elements with a shore hardness of 53 -
FM-100-V-4/35-NR
With torsion protection4 elastomer elements with a shore hardness of 35 -
FM-100-V-4/43-NR
With torsion protection4 elastomer elements with a shore hardness of 43 -
FM-100-V-4/53-NBR
With torsion protection4 elastomer elements with a shore hardness of 53 -
FM-125-P-6/35-NR
With pneumatic cylinder6 elastomer elements with a shore hardness of 35 -
FM-125-P-6/43-NR
With pneumatic cylinder6 elastomer elements with a shore hardness of 43 -
FM-125-P-6/53-NBR
With pneumatic cylinder6 elastomer elements with a shore hardness of 53 -
FM-160-P-6/53-NBR
With pneumatic cylinder6 elastomer elements with a shore hardness of 53 -
FM-160-P-12/53-NBR
With pneumatic cylinder12 elastomer elements with a shore hardness of 53 -
FM-160-V-6/53-NBR
With torsion protection6 elastomer elements with a shore hardness of 53 -
FM-160-V-12/53-NBR
With torsion protection12 elastomer elements with a shore hardness of 53 -
FM-200-P-12/53-NBR
With pneumatic cylinder12 elastomer elements with a shore hardness of 53 -
FM-200-V-12/53-NBR
With torsion protection4 elastomer elements with a shore hardness of 35 -
FM-250-P-12/53-NBR
With pneumatic cylinder12 elastomer elements with a shore hardness of 53 -
FM-250-V-12/53-NBR
With torsion protection12 elastomer elements with a shore hardness of 53 -
FM-300-P-12/53-NBR
With pneumatic cylinder12 elastomer elements with a shore hardness of 53 -
FM-300-P-24/53-NBR
With pneumatic cylinder24 elastomer elements with a shore hardness of 53
Compliance wrists

Description
Compliance wrist in eight sizes with optional load limiter, pneumatic cylinder and/or anti-twist device
Features
• Prevents jamming and tilting of the workpieces
• Protects robots and assembly structures from premature wear by minimizing joining forces and moments
• Minimization of the cycle time
• Available in up to four different versions
Operating principle
The adjustment of the position is made possible by specially developed elastomer elements. If a positional offset occurs, the workpiece to be joined is automatically moved by the reaction forces that occur in such a way that jamming and tilting of the joining partners is prevented. The maximum compensation movement is determined by the size of the insertion bevel on the parts to be joined and the maximum compensation movement of the elastomer elements. The compensation movement is horizontal in the X-Y directon and, in the case of angle compensation, radial around the X, Y or Z axis. After a deflection, the element returns to its initial position by self-centering.

Mit dem Laden des Beitrags akzeptieren Sie die Datenschutzerklärung von Instagram.
Mehr erfahren
75031 Eppingen, Germany
F +49 7262 9239-400
www.iprworldwide.com