Multi-panel fluid filter with equalized contaminant passages

Gas separation – Two or more separators – Spaced for parallel flow of gas

Reexamination Certificate

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Details

C055S500000, C055S502000, C055S521000

Reexamination Certificate

active

06482247

ABSTRACT:

BACKGROUND AND SUMMARY OF THE INVENTION
The invention relates to fluid filters, including panel-type air cleaners.
It is known in the prior art to use pleated filter blocks for various fluid filtering applications, including panel-type air cleaners. The parent invention and the present invention arose during continuing development efforts directed toward improving space efficiency, capacity, and performance, including reduced pressure drop, of classical panel air filters.
In the present invention, a multi-panel fluid filter with equalized contaminant passages is designed to maximize usage of the volume of the filter housing. The design produces a compact sized filtration system that can be designed with conventional panel filters. The new design makes it possible to either reduce the filter size for a stated fluid flow rate or increase the fluid flow rate for a filter with a size comparable to a conventional panel filter. The unit contaminant capacity for the new filter is greater since nearly the entire volume of the filter housing accommodates filter media.
Individual filter panels are made using alternating seal technology. A gap is provided between individual panels, and a series of spacers or holders are attached to individual panels, as independent inserts, or attached to the filter housing as covers, and uniformly space the pleated elements, including in the case of less rigid pleats. The individual pleated filter elements are sealed by means of an adhesive material and are merged with a leak free bond on one end and are open on the opposite end. The design prevents any contaminant from leaking without being filtered to the required level of particle size and concentration. The combined filter is sealed to the housing with a gasket permanently attached to the multi-element outer perimeter or permanently attached to the filter and the housing. The latter is a disposable filter design option. The gaps between the individual filter elements form flow passages that make it possible for contaminant particles to enter the pleated material through the filter front side between the alternately sealed pleats and through the space above or below the element. The filter front stays open to the flow, and the filter media surface is loaded uniformly with contaminant particles. Because of this uniformly distributed contaminant cake, the surface of the filter media is fully and optimally utilized to achieve high contaminant loading in a small volume.
It is known in the prior art to provide parallel flutes or individual layers of filter media to achieve high volume utilization of the filter housing. When the surface area of the media increases in such designs, the contaminant holding capacity also increases. However, the inlet of such filters can become clogged due to edge phenomena. For a fluid in motion, the flute edges are solid obstacles playing a similar role as single fibers due in filter media. Contaminant particles are captured by edges due to this inertial mechanism. Because adhesive forces between the collected particles are usually greater (because they are the same material) than those between the flute edge and the particles, additional particles are captured on previously captured contaminant, forming large clusters. These clusters can clog the flute openings and drastically increase filter pressure drop. Moreover, the particle aggregates formed on the edges of the flutes prevent the contaminants from entering the space downstream of the particle clusters.
In the present invention, contaminant accumulation on the inlet face is significantly reduced. In contrast to previous designs, the contaminant will not clog the filter inlet because there are allowable contaminant passages around the individual pleated layers of filter media. Contaminant holding capacity increases due to a more uniform flow field and maximum use of filter media surface. The contaminant cake is also distributed more uniformly along the entire filter element length. Because of the uniform contaminant mass distribution, filter pressure drop increases more slowly than previous designs, and filter life increases.
In the present invention, gaps in the multi-panel filter ensure more equalized flow and contaminant distribution to the filter media. The design enables the gaps to be large enough to resist plugging from occasional large objects such as feathers, grass clippings, seeds, insects, etc., that enter the air induction system in an air filter application. The incorporation of such gaps also reduces pressure drop.


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