In today’s environment technology is constantly pushing for improved system efficiencies and industrial hydraulic systems is a good example of this where reduced weight and size of components and increased system pressures are often among the key requirements.
With these objectives in mind, a new range of Air Bleed Orifices from The LeeCompany will be of interest to hydraulic engineers who are looking to improve efficiencies and reduce system pressure losses.
Lee’s Industrial Micro HydraulicsGroup (IMH) has developed a new 5.5mmAir Bleed Orifice, which is claimed to be an ideal solution to the problem of removing trapped air in hydraulic systems which can cause issues with system performance as air is compressible, whereas hydraulic fluid is not. Trapped air causes slower system reaction times or ‘spongy feel’.
The traditional way to remove trapped air is often to drill a small hole approximately ø 0.5mm in the manifold allowing this air to escape back to the sump and so eliminating its negative effect on system performance. However, this drilled hole also allows the hydraulic fluid to flow out of the system resulting insignificant hydraulic loss, inefficient system performance, and wasted energy.
A novel solution though is the Lee AirBleed Orifice, which removes this trapped air while keeping hydraulic pressure losses to an absolute minimum. It utilizes a small precision flow orifice, with an integral 25μm safety screen for contaminant protection which allows trapped air to escape but is small enough to restrict most hydraulic fluid from passing.
Crucially this minimizes system losses and enables designers to optimize system component sizing which significantly contributes to improved efficiencies, reduction in overall system weight, and ultimately lower costs.
The Air Bleed Orifice is 100% flow tested for consistent performance helping to reduce system losses by up to 99%(see graph) while the integral safety screen ensures reliability. Its compact size and self-retained design for easy installation make it ideal for high-volume applications in automotive, off-road, and other industrial hydraulic systems.
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