Tehnička dokumentacija
Tehnički podaci
Brand
RulandSize
41.3mm
Coupling Types
Oldham Coupling
Torque Rating
3.65Nm
Material
Nylon
Misalignment - Angular
0.5°
Maximum Operating Temperature
+54°C
Misalignment - Axial
0.15mm
Minimum Operating Temperature
-23°C
Misalignment - Parallel
0.25mm
Maximum Speed
4500rpm
Zemlja podrijetla
United States
Detalji o proizvodu
Torque Discs
Nylon discs (resilient) - help dampen vibration and noise,Acetal discs (backlash-free) - designed for precise applications requiring zero backlash and higher torque capacity
Ruland Oldham Style Couplings
Paradrive™ couplings are ideal for motion control applications, especially those utilising stepper or servo motors. Their low inertia design is ideally suited to higher speed applications and where electrical isolation is also required. Small angular and axial misalignments may be accommodated.
Informacije o stanju skladišta trenutno nisu dostupne.
Provjerite ponovno kasnije.
KM 224,94
1 Bag of 5 (bez PDV-a)
KM 263,18
1 Bag of 5 (s PDV-om)
1
KM 224,94
1 Bag of 5 (bez PDV-a)
KM 263,18
1 Bag of 5 (s PDV-om)
1
Kupujte na veliko
količina | Jedinična cijena |
---|---|
1 - 4 | KM 224,94 |
5+ | KM 220,62 |
Tehnička dokumentacija
Tehnički podaci
Brand
RulandSize
41.3mm
Coupling Types
Oldham Coupling
Torque Rating
3.65Nm
Material
Nylon
Misalignment - Angular
0.5°
Maximum Operating Temperature
+54°C
Misalignment - Axial
0.15mm
Minimum Operating Temperature
-23°C
Misalignment - Parallel
0.25mm
Maximum Speed
4500rpm
Zemlja podrijetla
United States
Detalji o proizvodu
Torque Discs
Nylon discs (resilient) - help dampen vibration and noise,Acetal discs (backlash-free) - designed for precise applications requiring zero backlash and higher torque capacity
Ruland Oldham Style Couplings
Paradrive™ couplings are ideal for motion control applications, especially those utilising stepper or servo motors. Their low inertia design is ideally suited to higher speed applications and where electrical isolation is also required. Small angular and axial misalignments may be accommodated.