Hydraulic energy recuperation with hydraulic accumulators responds to demands for increasingly energy efficient and fuel-conserving solutions. Developers at Freudenberg Sealing Technologies have succeeded at significantly reducing the weight of high-pressure and low-pressure piston accumulators thanks to a special construction design and a new joining technology.
Hydraulic accumulators are used to store braking energy in hybrid vehicles, among other tasks. During braking, the accumulator is initially filled, exerting a force against the gas pressure. This stored energy is then available when needed to accelerate the vehicle. It makes a significant contribution to low fuel consumption, reduces CO2 emissions, and makes it possible to downsize individual components. Hydraulic accumulators are primarily used in mobile work machines, along with fairly small delivery vehicles and trucks with many start-stop cycles.
Developers at Freudenberg Sealing Technologies have succeeded in significantly reducing the weight of the accumulator system—which consists of high-pressure and low-pressure piston accumulators. This has made them more appealing for mobile use. Hydraulic accumulator systems in smaller vehicles are also an alternative to electric hybrid solutions. Unlike batteries, the accumulators do not wear and operate without difficulty at low temperatures.
The low weight of the new steel high-pressure accumulators has been achieved with special design features. They include an end cap design optimized for the force curve, and an aluminum piston as a media separator, and a partial reduction in material thickness in the pressure vessel area. In a high-pressure steel accumulator with about 20-l in gas volume, this leads to roughly a 60% reduction in weight. The cover’s firmly bonded connection with the housing is reliably handled using an electron beaming welding process.
In the newly developed low-pressure accumulators, housings, covers and pistons are made from aluminum. The firmly bonded connection between the cover and the housing is carried out with electromagnetic pulse forming technology. The approach, which guarantees high stability, is being used for firmly bonded joining in aluminum accumulators for the first time. To increase wear resistance in the interior, a gas-tight anti-friction coating is also applied.
For condition monitoring of the two hydraulic accumulators, combined pressure and temperature sensors are provided. Security is safeguarded in each of the two hydraulic accumulators. In the event of overpressure, the system opens with the help of a rupture disk—and with a fuse in the event of a vehicle fire and the accompanying high temperatures. On the liquid side, a valve is available for filling the entire system. It can also be used to prevent possible air pockets by bleeding.
Freudenberg Sealing Technologies