Gas separation – Flexible or collapsible bag type – Seaming – reinforcing or bag structure
Reexamination Certificate
1999-08-11
2002-04-16
Chiesa, Richard L. (Department: 1724)
Gas separation
Flexible or collapsible bag type
Seaming, reinforcing or bag structure
C015S347000, C055S485000, C055S486000, C055S487000, C055S528000, C055SDIG002, C055SDIG005, C096S066000, C096S068000, C264S258000, C264SDIG004, C442S389000
Reexamination Certificate
active
06372004
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to porous filter media for removing solid particles entrained in a moving gas stream. More specifically, it relates to a filter composite comprising a plurality of non-pre-bonded tiers of filter material assembled in preselected juxtaposition and bonded together to form a unitary stratified structure useful for filtering particulates from air.
BACKGROUND
In recent times, the technology for filtering particulates from gases has become quite sophisticated in both commonplace applications such as consumer oriented vacuum cleaning of dirt and dust as well as very demanding industrial applications such as removal from gases of specific particle size fractions of wide varieties of contaminants including from inert to biochemically sensitive, among others. It is now well appreciated that the contaminating particulates in a gas stream can have a wide variety of sizes, geometric shapes, e.g., elongated and spherical, and chemical and physical compositions, e.g., odor-free and odor-emitting particles.
Consequently, filtration technology has evolved to provide filter media which are adapted to optimally filter specific fractions of the contaminating particulates. Also, this technology has developed techniques for maximizing various performance characteristics of filters such as maintaining low pressure drop across the filter and increasing the filter service life so as to extend the length of time between filter element replacements.
The traditional approach to achieving these objectives has been to provide a multilayer filter medium composed of separate, individually designed layers which are each intended to accomplish primarily one, and sometimes several specific filter functions. For example, a very open, porous and thin scrim is often used to protect underlying filter layers from abrasion by fast moving, large and hard particles; a porous and bulky layer is typically used to capture substantial amounts of chiefly large particles, and an ultrafine diameter filament, low porosity layer is usually prescribed for removing the smallest particles to increase filtration efficiency. From the many choices available, separate filter layers are selected and combined in a preselected sequence then assembled as a group to form a multilayer, and therefore multifunctional filter. The one or more adjacent layers can be bonded to each other or the layers can be unbonded. Optionally, the individual layers can be sandwiched between covers, typically of paper, for structural integrity and ease of handling.
A drawback of the aforementioned multilayer system of constructing multifunctional filters is that there is repetitive processing of the filter media which can be excessive. That is, the filter material in a given layer is first processed to form the individual layer, then it is processed to assemble that layer in the multilayer filter. Each step adds to the compaction and cover, if ever slight, of the final filter product. This tends to raise the pressure drop through the filter and reduce dust holding capacity, thereby limiting service life. It is desirable to have a multifunctional, multicomponent filter which can be produced with a minimum of filter medium compaction and cover.
SUMMARY OF THE INVENTION
Accordingly, the present invention now provides a composite filter comprising a plurality of non-prebonded tiers each tier independently comprising at least one filtration material and being distinct from adjacent tiers, in which the plurality of tiers are bonded together to form a unitary stratified structure having a first boundary surface adapted to receive particulates entrained in air and a second boundary surface adapted to discharge filtered air.
There is also provided a novel method of making a composite filter comprising the steps of
(a) laying down a filtration material onto a support to form a non-prebonded tier,
(b) depositing onto the tier previously formed another filtration material having a different composition from that of the tier previously formed to form a non-prebonded overlying tier,
(c) bonding the tiers of filtration material to form a composite filter having a unitary stratified structure.
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American Allergy Supply-3M Filtrete Vacuum Filter Bags Internet Web Publication http://www.neosoft.com/users/s/sreifler/3mbagidx.htm Copyright 1994-1997.
The Nonwoven Fabrics Handbook, Association of Nonwoven Fabrics Industry (1992), p. vii.
Schultink Bas
Schultink Jan
Airflo Europe N.V.
Chiesa Richard L.
Schnader Harrison Segal & Lewis LLP
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