Model DBB brakes are spring applied, pressure released, disc style brakes. They develop equal torque in either direction of rotation. Their torque and thermal capacities allow them to be used in the most demanding applications.
Brake construction and operation is shown in the figure. Pressurizing the brake compresses the brake springs and withdraws the clamping plates from the brake discs. Standard brakes are furnished with either one or two discs, which are free to move axially.
Model DBB uses a conventional piston design to release the brake discs.
The rotating component of the DBB style brake is a very low inertia friction disc core with riveted on friction discs. The low inertia of the rotating components coupled with the high heat sink capacity of the stationary members allow these units to provide superior performance in high cyclic applications. In applications requiring higher speed operation or where precise balance of the rotating components is required, the DBBS style is offered, which utilizes a solid rotor and stationary friction material. Similar to the DBAS design, the DBBS should only be used for applications where brake engagement is non-cyclic.
Torque ratings listed are for brakes with a standard compliment of springs. The quantity of springs can be varied to customize the torque of the brake to suit a particular application. Consult the factory for brake torque of units with non-standard spring configurations.
Brake sizes are indicated by the number of brake discs and the disc diameter in inches. For instance, size 225DBB has two discs 25 inches in diameter.
Brake construction and operation is shown in the figure. Pressurizing the brake compresses the brake springs and withdraws the clamping plates from the brake discs. Standard brakes are furnished with either one or two discs, which are free to move axially.
Model DBB uses a conventional piston design to release the brake discs.
The rotating component of the DBB style brake is a very low inertia friction disc core with riveted on friction discs. The low inertia of the rotating components coupled with the high heat sink capacity of the stationary members allow these units to provide superior performance in high cyclic applications. In applications requiring higher speed operation or where precise balance of the rotating components is required, the DBBS style is offered, which utilizes a solid rotor and stationary friction material. Similar to the DBAS design, the DBBS should only be used for applications where brake engagement is non-cyclic.
Torque ratings listed are for brakes with a standard compliment of springs. The quantity of springs can be varied to customize the torque of the brake to suit a particular application. Consult the factory for brake torque of units with non-standard spring configurations.
Brake sizes are indicated by the number of brake discs and the disc diameter in inches. For instance, size 225DBB has two discs 25 inches in diameter.
Unit of Measure
Features
N/A
Low inertia friction disc assembly. |
Specifications
Model |
N/A 438DBBS |
Dimension D |
N/A 26.34 in669 mm |
Dimension D1 |
N/A 18.00 in457 mm |
Dimension D31 |
N/A 2.45 in62 mm |
Dimension D44 |
N/A 0.25 in6 mm |
Dimension D45 |
N/A 1.00 in25 mm |
Dimension H16 |
N/A 16.50 in419 mm |
Dimension J1 | N/A 44.498 in1135.7 mm |
Dimension J1 |
N/A 36.375 in923.9 mm |
Dimension J2 |
N/A 45.00 in1143 mm |
Dimension O2 |
N/A 3/4-14 NPT |
Minimum Bore |
N/A 10.38 in264 mm |
Maximum Bore |
N/A 10.38 in264 mm |
Dynamic Torque Rating |
N/A 2200000 lb·in248.391 Nm |
Worn Torque Multiplier |
N/A 0.79 |
Disc & Gear (Inertia) |
N/A 2285 lb·ft²9641 kg·m² |
Disc & Gear (Weight) |
N/A 2264 lb1.029 kg |
Housing (Weight) |
N/A 4975 lb2.261 kg |
Minimum Releasing Pressure2 | N/A 90 psi6.2 bar |
Maximum Speed |
N/A 950 rpm |
Manufacturer |
N/A Eaton-Airflex |
Actuation |
N/A Spring Applied, Air Release |
- 1 Tolerance +0.000/-0.005 in (+0.00/-0.08 mm)
- 2 Maximum allowable cylinder pressure is 120 psi (8.3 bar).