| Set CAD-format | ||
|---|---|---|
| Bearing Block 8 80×80-50 | CADPDFRFQ |
Preview
Bearing Block 8 80×80-50
Preassembled Profile housing 80×80-50, Al, anodized Shaft D25-38.5 36A/F M8, Al Bearing cover D40/D8-8, Al 2 deep groove ball bearings 6005, St 2 circlips DIN 472, St Dowel pin ISO 8734 5m6x16, St, bright zinc-plated Countersunk Screw DIN 7991-M8x20, St, bright zinc-plated
Scope of Delivery
Preassembled Profile housing 80x80-50, Al, anodized Shaft D25-38.5 36A/F M8, Al Bearing cover D40/D8-8, Al 2 deep groove ball bearings 6005, St 2 circlips DIN 472, St Dowel pin ISO 8734 5m6x16, St, bright zinc-plated Countersunk Screw DIN 7991-M8x20, St, bright zinc-plated
Properties
| Line | Line D30 |
|---|---|
| ESD-safe | Yes |
| Weight | m = 693 g |
| Delivery unit | 1 pce. |
A powerful response to load changes! If moving components build up considerable momentum, systems can be overwhelmed, thereby putting staff at risk. Bearing Block 8 80x80-50 with rotational dampers uses multi-stage damping to reliably absorb even high torques and thus control rotary motion. The key component is easy-running Bearing Block 8 80x80-50. This precise rotary bearing can be used in opposing pairs or as a one-sided bearing. Rotational Damper Set 8Nm 4kt10 M5-68 T1 is used to ensure rotary motions are gentle and controlled. The braking torque can be extended with up to two Rotational Damper Sets 8Nm 4kt10 5.5-68 T2. This means braking torque can be scaled to 8, 16 or 24 Nm. As required by CE standards, the rotational damper prevents the uncontrolled acceleration of an assembly and thus impact injuries. The sturdy Bearing Block is connected to a load-bearing construction via Line 8 grooves.
M B = 0 Nm/8 Nm/16 Nm/24 Nm M B = Max. braking torque Bearing Block 8 80x80-50 (0.0.695.21) can be fitted with up to three rotational dampers, as required. Rotational Damper Set T1 (0.0.704.09) uses a square spindle as an axle. To prevent injuries, this spindle must be cut to size if fewer than three rotational dampers are being used on Bearing Block 8 80x80-50.
M B = 0 Nm/8 Nm/16 Nm/24 Nm M Y = 45 Nm F X = 1000 N F Z = 3000 N Note : In addition to the maximum load-carrying capacity of the Bearing Block, it is important to also take into account the load limits of the adjacent components.
