Gas separation: processes – Solid sorption – Inorganic gas or liquid particle sorbed
Reexamination Certificate
2002-07-26
2004-09-07
Spitzer, Robert H. (Department: 1724)
Gas separation: processes
Solid sorption
Inorganic gas or liquid particle sorbed
C096S135000, C096S137000, C096S138000, C096S140000, C096S141000, C096S144000, C096S149000, C096S151000, C096S153000
Reexamination Certificate
active
06786953
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to a compressed air system, and specifically an air dryer assembly for the compressed air system that removes moisture and oil. The invention finds particular application in a compressor system for vehicles that use pressurized air to selectively control application of vehicle brakes and for other air operated systems associated with the vehicle.
Compressed air systems are used in conventional brake systems, for example, to provide and maintain air under pressure to operate vehicle brakes and auxiliary air systems. Water, particulates, and oil in the compressed air system can lead to component degradation and interfere with optimal operation of the system. Accordingly, an air dryer is usually incorporated into the system to remove water from the compressed air. The air dryer collects and removes air system contaminants in solid, liquid, and vapor form before the contaminants enter the system. The air dryer delivers clean, dry air for braking system components, thereby increasing system life and reducing maintenance costs.
An air brake compressor is typically supplied with oil from the vehicle engine in order to lubricate bearings and other components of the compressor. As will be appreciated, it is difficult to contain the oil in the compressor and oil occasionally becomes entrained in the pressurized air stream exiting the compressor. Modem air dryers use a desiccant material to adsorb water vapor as it passes through an air line from the compressor toward a reservoir or downstream components. The operation and efficiency of the desiccant is adversely affected by oil and thus it is important to minimize contamination of the desiccant with oil by employing a filtering element or oil filter that effectively removes the oil.
In addition, commercially available desiccant-type air dryers provide a structure that allows for replacement of the desiccant material. Periodic replacement of the desiccant material is desirable since, in use, the desiccant material becomes coated with contaminants such as oil, which ultimately reduces its water vapor retention characteristics. Since other components of air dryers have a longer service life, a convenient system for selectively replacing the desiccant material is desired. For example, a spin-on type desiccant air dryer cartridge resembles a conventional motor vehicle spin-on oil filter in the form of a canister. A load plate has a centrally threaded bore such that the entire replaceable air cartridge unit is threaded onto an upstanding boss extending from a mounting surface of the vehicle.
An oil coalescing element removes a majority of aerosols and liquid oil entering a spin-on desiccant cartridge. Unfortunately, known designs have not adequately addressed removal of coalesced oil from the cartridge. For example, purge flow systems direct air flow in a reverse direction or back through the oil coalescing element in an effort to remove entrained oil from the desiccant. However, a poor design can lead to desiccant leakage, to a reduction in the removal of oil from the cartridge, thus leading to a decrease in desiccant life, and ultimately to a negative impact on the performance of the compressed air system.
Thus, a continued need exists in the art to effectively eliminate desiccant contaminant in an air dryer assembly of a compressed air system, to remove the contaminant from the dryer assembly, and to contain the desiccant.
BRIEF SUMMARY OF THE INVENTION
An improved air dryer assembly for removing moisture and oil from a compressed air system is provided that meets the above needs and others in a simple and economical manner.
More particularly, an exemplary embodiment of the invention includes a desiccant material received in a shell for removing moisture as compressed air passes therethrough. An inlet is disposed upstream of the desiccant material, and an outlet disposed downstream thereof. A coalescing element is disposed in the inlet and has a coalescing material for removing at least oil aerosols from the compressed air. A check valve is located in parallel with the coalescing element inlet. The check valve forces compressed air to pass through the coalescing element as air flows from the inlet to the outlet, and allows compressed air to bypass the coalescing element as purge air flows from the outlet to the inlet.
In one embodiment of the present invention, a support member advantageously retains the coalescing element and check valve in the shell.
In another embodiment, a biasing assembly exerts a compacting force on the desiccant material in the shell.
Another aspect of the present invention is a method of removing oil aerosols and liquid oil from the cartridge is also provided. The method includes the steps of directing incoming air through the coalescing element and bypassing the coalescing element during a reverse purge flow.
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Fornof William P.
Koenig James P.
Quinn Leonard
Bendix Commercial Vehicle Systems LLC
Calfee Halter & Griswold LLP
Spitzer Robert H.
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