CA1263089A

CA1263089A - Filter cartridge

Info

Publication number: CA1263089A
Application number: CA000474172A
Authority: CA
Inventors: James Leonard Manniso; Glenn Roland Voshell; Eugene William Sieber
Original assignee: WL Gore and Associates Inc
Current assignee: WL Gore and Associates Inc
Priority date: 1984-03-15
Filing date: 1985-02-13
Publication date: 1989-11-21
Also published as: IE850377L; NZ211144A; NO161655C; AU576336B2; JPH04684B2; ES541245A0; ZA849436B; US4878930A; SG83491G; JPS618111A; DK117585A; EP0160168A3; FI850532L; DK117585D0; NO161655B; EP0160168A2; PT80102A; IE55937B1; FI850532A0; GR850613B

Abstract

ABSTRACT OF THE DISCLOSURE

A filter cartridge for removing particles or dust from a stream of moving gas or air, including a filter medium disposed between a pleated inner wire support frame, outer longitudinal wire support stays disposed along each inner apex of the pleats of the filter medium, and end caps. The outer wire stays are formed from inwardly bent wires which attach at each end to the inner frame and exert pressure on the filter medium to support it against inner pressure of a pulse jet cleaning device. Preferred filter media are felt or fabric composites containing a layer of porous expanded polytetrafluoroethylene membrane. A preferred form of lower end cap has the periphery contoured to conform to the configuration of the filter medium and inner support frame.
he cartridge structure is advantageous in preventing build-up of ledges of dust on protuberances, with consequent reduction of filter efficiency.

Description

BACKGROUND OF THE INVENTION
FIELD OF THE INVENTION
This invention relates to caLtridge filters for use in filter systems designed to remove solid particles or dust from large volume~ of gases, including air. in which they are suspended, such as industrial 6weepers, bag housesO plenum type du~t collectors. and the like. These systems rely on a plurality of filter devices which embody a porous ~ilter material throug~
which the gaseous medium passes, the solids being retained on the upstream surface of the filteL medium as the gases pa~ through.
The separated solids build up on the upstream side of the filter medium with time and must be removed before the thicknes~ o~ the accumulated solids layer causes excessive pressure drop. In current practice, the filter cake is dislodged from the filter elements by means o~ a pulse of compressed air admitted to the filter elementO a reverse air flow, or a shaker mechanism. The filter medium flexes under the force of the air pulse to dislodge the filter cake and the flow of gases being filtered is maintained while su~h flexinq and dislodging is taking place.
The improved cartcidge filter of the invention iR intended for use with such devices and methods of cleaning, in particular the pul~e jet cleaning method.
DESCRIPTIOM QF THE PRIOR ART
Cartridge filters per se are well known in the art for both gaseous a~d liquid filtration and have the usual construction of a ~olded or pleated filter medium arranged cylindrically around a perforated cylindrical su~porting member or tube. The fil~er medium may be optionally surrou~dad by a per~orated cylindrical supporting member, such as a perforatea tube. The supporting tubes and filter medium are adhered to end capfi which prevent leakage around the ~ilter medîum and provide support ~or the filter medium and the other component~;.

~xample~ of such cartridges are found in the Parker patent, U.S. 2,739,916, where thermo~lastic resin plastisol is used to bond, seal, oz pot the ends of the pleated filter medium and supporting members in a layer of reain pla~tisol in the end caps. Mumby, in U.S. 3,392,843, describes a disposable carteidge, including a paper fil~er medi.um, where the outer edges of the pleats are indented at certain points to ~orm a surface for disposing a filter rein~or~ing adhesive to space adjacent plea~s apart from one a~other to form hetter inlets for fluid ~o be filtered to the filter medium. A knock-down filter was shown by Frosolone, in U.S. 3,49B,464, wherein a pleated paper medium was used to filter organic 601vents. A dual-stage cartridge was provided by Readinq, in U.S. 3,5S2,553, where a foamlike material comprised the first stage filter medium which suerounded a pleated paper or felt-like second stage filter medium. Groh, in U.S. 4,007,026, in filters for an industrial sweeper apparatus, utilizes a pleated paper ~ilter surrounding a cylindrical coiled ~spring inner support with restraining bands around tha outæide o~
the filter medium to resist the force of the air pulse jet cleaning action on the filter medium.
A web, fra~e, or grid of wiee supports has been used ~o support filtee media against the pressure of a gas being filtered~ Boothe, U.S. 3,853,529, provided in flat disposable cartridge form a pleated wire frame on the downstream side of the filter medium and coated ~he wires of the web with an adhesive to both protect the wire against corrosion and to bond to the filter medium ~o prevent its billowing in the gaps between the wires of ~he support frame under the pressure of the stream o~ air being fil~ered. Rudin, U.S. 3,933,452, also folded a filter medium and wire support frame into a bellows shape in a plastic fra~e ~263~

cartrid~e. Successive foldæ of ehe wire frame and filter medium were held apart by projectionz from the wire frame of one fold extending acro6s to the frame wires of ~:he adjacent fold.
Huber and Meier, U.S. 3,679,537, utilized wires disposed on both sides of strips of column packing element for materials ex~hange columns with the wire spot welded together into a frame to hold the packing in place.
A very simple way to hold a pleated filter medium across a gas steam was provided by Giocovas, in U.S. 4,004,899, by bending a fiber strand (wire) into a series of parallel longitudinal portions disposed in two parallel planes connected by intervening lateral wire sections and weaving the filter medium back and forth between alternating wires disposed in the two parallel planes to give pleats supportad on the inside o~
each apex by one o~ the longitudinal wires from one or the other of each of the alternating planes o~ wires.
The problems of suppo~t of a filter medium on both sides against gas flow pressures was addressed by Leliaert in U.S. 3,B53,509. A filter bag was supported between inner and outer wire cage6 of conforming star-shaped cross-section to which the filter bag conformed. The outer support cage circumferential wires, however, also provided many locations where dust could settle or form into piles which could partially block the active filter surface and result in a mo~e rapid pressure drop than might be otherwise desirable.
Also known to be used in the art are inner wire support cages composed of longitudinal wires which extend the length of the fil~er medium and disposed at the outer apex in6ide each fold of the filter medium, the ends of each wire being a~tached, usually by spot welding, to a supporting circle of wire at both ~Z63138~3 top and bottom. A conforming similarly constructed outer cage is used in conjunction with the inner cage, the filter medium being sandwiched between them. U-shaped bulges extend outwardly from the longitudinal wires of the outer cage to citcular circumferential wire rings to which they are welded. The outer circumferential ring supports help resist the bowing out of the outer wire supports and filter medium when air jet pulse methods of cleaning are used~
SUMMARY QF THE INVE~TION
The present invention relates to a simplifiad and improved cartridge filter for removing solid particlee or dust from a stream of movi~g gas, including air. The cartridge compcises an inner pleated wire frame support for a correspondinyly pleated sheet of filter medium, outer filter medium suppo~t wire stays located at the inner apex of each pleat or fold of the filter medium, and end caps into which the ends of the inner wiee support frame, filter medium, and ou~er stay wires are sealed.
The inne~ wire frame is focmed of wires o~ suitable size, strength, stif~ness, corrosion resistance, and other properties, the wires being spaced apart at predetermined intervals and bent into a generally cylindrical shape having a pleated or folded configuration around the cylindrical axis.
A sheet of filter medium of ~he same length as the inner wire frame is folded or pleated to con~orm with the folds of ths frame and formed into a plea~ed cylindrical filter supported by the frame. Filter media well known in the art for fil~ering particles from gas may be u~ed as t~e filter medium. Woven and non-woven textile ~abrics, mats, and fel~s of natural, synthetic organic, glass, or metal fibrous materials may be used as well as ~2~3~

porou6 polymeric films, sheets, and foams. Composite sheets or film~ of one or more of the above materials are often used to provide an appropria~e porosity to remove particles from the gas and/or ~o provide s~rength to resist the f iltration pressure o~
the ga~ stream and~or the gas pressure of a pulse jet cleaning mechanism or method. The preferred filt:er material for u~e in ~his invention is a composite sheet of porous expanded polytetrafluoroethylene film bonded to a woven or felt textile backing matecial. The porous expanded polytetrafluoroethylene film is pcepared in accordance with one or more of Gore U.S. patents 4,187,390; 4,110,3g2: 4,096,227; 3,96Z,153;
3,953,566 and 4,025,679. The non-sticking properties of the polytetrafluoroethylene surfaces of such composites minimize the sticking and consequent build-up of particles being filtered from the gas stream to the filter and also facilitate periodic removal of any filter cake build-up by pulse jet or other cleaning method.
The filter medium is supported against the inner pleated wire frame by wira stays attached at each end to the frame wires and disposed each in an inner apex of a pleat of the outside of

2~ the filter medium. Each end of the outer support wire stay is bent into a shape such that it may be hooked across top or bottom wires of the inner support cage to hold the longi~udinal portion of the wire stay firmly in place in the apex of ~he pleat of the filter medium. Each outer support wire stay is also bent into an initial inwardly curved shape, preferably parabaloidal, such that when one end of the stay wire is attached to the inner wire frame, and the wire stay pressed into the apex o~ a pleae of the filter medium, and the other end of the stay hooked over a wire at the other end of the inner wire frame, then the spring tension in the wire stay will cause it to press ~irmly in~o the apex o ~63~
the pleat o~ the fil~er medium and hold it firmly in place against air pressure impinging on the back side of the filter medium from a pulse jet cleaning apparatus or the like. The use of ~he bent wire outer support stays is advantageous in that it not only holds ~he filter medium firmly to the inner wire frame, but no protuberances, bulges, or ledges are present to catch and hold dust against the active filter area. Also, less wire is reguired than for many other wire support methods known in the art. An alternative form of outer suppor~ stay to the hent wire stay is a slightly inwardly bowed stay prepared by rolling or bending f lat metal sheeting into a U-~haped or V-shaped or other appropriately shaped cross-6ection, with the ends le~t flat for easy attachment to the wires of the inner frame. Further, bent U-shaped or V-shaped stay wires without the flat ends may be bent and held in place by bent round (or o~her shaped) stay wires placed in the outer grooved side of the stays and the ends of the round wires hooked over the innec support frame wires to hold ~he combina~ion in place.
T~e assembled pleated inner ~upport fra~e, pleated filter medium, and outer support wire stays are then sealed to end caps by ~eans known in ehe art, such as adhesives or imbedding in rubbers, thermoplas~ic resin plastisols, or the Iike. A preferable embodiment for a lower end cap, where minimum accumulation of particles on the protube~ances of the filter assembly would occur~ would consist of a contoured end cap with the con~our ~ollowins or approximating in shape that of the pleats in the filter medium and inner wire suppor~ frame. The end caps can be a metal or plastic cap or ~he molded thermoplas~ic resin plastisol and its imbedded components can serve aa the lower end cap. This can ba made by imbedding or ~2g~3~
potting the lower end of the filter assembly in the requisi~e potting material, letting it harden sufficiently to hold i~
shape, removing the mold, and allowing the pottinq material to continue ~o cure to a hacd completely cured end cap.
It is, therefore, an object of the invention to provide a simplified caetridge filter which is particularly u eful with a pulse jet cleaning system for removing particles or dust from a stream of gas, has a minimum o~ protruding parts on which du can collect to reduce the a~ailable surface of the filtration medium available for filtering, filters ef~iciently for long periods between cleaning cycles, is easily cleaned, and is eelatively long lasting without requiring replacement.
BRIEF DESCRIPTION OF THE DRAWING~
Fig. 1 is an exploded perspective diagram of the cartridge filter of the invention, with a cut away view of the pleated filter medium in the pleats of the inner support wire feame, the placing of the outer wire support stays, and two alternative forms of lower end cap.
E'ig. 2 is a perspective view of details of attachment of the outer suppor~ stays to the inner frame, the filter medium cut away to show the plea~ed inner frame, and a sealed or potted lower end of the caetridge.
Fig. 3 is a perspective view of the attachmen~ of an alternative outer support stay 8 o V-shaped or U-shaped cros6-section to the inner support ~rame.
Fig. 4 is a schematic drawing of an outer support wire stay in both bent (before attachment) and s~raight (after assembly to cartridge) configurations.
Fig. 5 is a schematic dr~winq of an alternati;re outer support stay 8 o V-shaped or U-shaped cross-section.

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DETAILE~ DESCRIPTION OF THE INVENTION
~ITH REFERENCE TO THE DRAWIUGS
The filter cartridge of the invention as shown in Fig. 1 is simply con~tructed in cylindrical form from a gasketed top end cap, a pleated inner wire suppoct ~rame for the pleated filter medium, outer support stay wires, and a lower end cap. The top end cap 2 is formed of thin stee~, galvanized steel, stainless steel, or alu~inum sheet, molded plastic or other material~, and may be stamped, spun, turned, molded, or cast. 24 guage stamped galvanized steel is a prefereed material. A ga~ket 1 o~ rubber or polyurethane is affixed to the top cap 2 to aid irl sealing the cartridge to its mounting means and may be of molded, cast, or strip material. Neoprene (E. I. duPont de Nemours. Inc.
trademark) foam rubber is a preferred gasket material. The filter medium support ecame 3 may be of welded wire me~h or woven or non-woven s~reen of steel, stainless steel, galvanized steel, aluminum, or plastic. A preferred embodiment utilizes 14 guage welded wire mesh galvanized steel of 1" x 2" or 1" x 3 1~4" ~esh spacing.
The pleated filter medium 4 is formed from woven or non-woven fabric or ~elt used either alone or in combination with a porous membrane. The fabric or felt may be of natural or synthetic fibers, organic polymers, metal, etc., and of a porosity and composition ap~ropriate for the s.ze of particles being filtered ~rom the gas stream and the temperature, corrosiveness, and other conditions to be encountered in filtration. Pre~erred filter media are laminates of pOrOU8 expanded polyte~ra~luoroethylene membrane with polye~ter, conductive polyester, polypropylene, polyaramide, ~Iberglass, and polytetra1uoroethylene felts and fabric~. The porous expanded polytetra~luoroethylene membranes, Pelts, and fibers are _ 9

3~9 described in the above references and the6e and the other preferred felts and fabric are obtained as well-known co~mercially available matecials.
The outside stay wires 5 may be drawn wire of 5 to lZ
guage ~teel, stainless steel, or galvanized steel and aLe ~ormed preferably in a parabaloid curve so that when one end is hooked to the support frame, the wire pressed into the apex of a fold in the filter medium, and the o~her end hooked over the other end of ~he support frame, the tension of the straightened bo~ in the wire will hold the filter medium in place against air pressure from a jet pulse cleaning device. A preferred example of suitable wire is 9-guage galvanized steel wire oE
65,000 - 100,000 psi tensile strength, Wire of high tensile strength such as 250,000 psi or above specificatlon may also be used.
Lower end caps 6 and 7 are made from the same materials as and formsd similarly to the top end cap. Contoured end cap 7 is particularly suitable for use to avoid build up of dust ledges or piles at the bottom of ~he cartridge. A molded cap 6 or contoured cap 7 may consist solely of hardened encapsulating or potting material formed or molded about the bottom of the support frame, filter medium, and stay wires to effect a botto~ seal and closur~ to the cartridge. A pre-shaped mold would be filled with ~ encapsulating or potting material of the proper consistency or softness, the assembled cartridge components to be capped pressed into or embedded in the mold, the encapsulating material allowed to cure or harden sufficiently to be self-supporting, the outer mold removed, and ~he mold0d bottom end cap allowed to cure or harden complet~ly.
Fig. 2 show~ how the outer stay wires 5 hook over the wires o~ the inner frame ~ as well as give~ details oE the inner sup~or~ frame 3 and the imbedding of the support frame 3, the filter medium 4, and the outer stay wires 5 in bottom end cap 6.
Fig. ~ details the attachment of the outer stay wires 8 in ~he alternative V-shaped or U-~haped cross-section to the S inner wire support frame 3 by folding the flat ends over the wire~s inner frame 3 by mechanical ~eans,.
Fig. 4 depicts the shape and e~d detail of outer stay wire 5.
Fig. 5 details the alternative foem of outer ~tay wire 8 of V-shaped or U-shaped cross-section. This is formed by bending strips of flat steel to a cross-sectional shape over a mandrel, leaving the ends in flat tab form for subsequent bending over the inner support frame wires eor attachment during a~sembly of the cartridge. The strip is then rolled to a slight bow configuration to peovide the springine& needed to exert pras~ure into the apex of the filter medium as shown above. It is intended that the term outer support wire or stay wire be inclusive of wire of any cross-section which, when in i~s initially bent form it i~ straightened into an inner apex of an outer fold of the filter medium and attached a~ its ends to the wires of the inner frame, will exert pressure on the filter medium to hold it in place and eesist the pressure exerted against the filter medium from the interior of the filter cartridge by the forces exerted on it by a pulse jet cleaning 25 ~ device. The stay wire should no~, howevee, have such a shape or cross-section that edges would cause wear oe damage to ~he filter medium from peessure~ friction, puncture or the like.
An optional varia~ion o~ the method of using ~he stay wires to furthee hold the stay wire# fiemly ~o the ~iltar medium and inner wire ~rama in this invention is a combination o~

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adhesives wi~h ~he method of the in~ention. The longitudinal portion of the stay wires may be coa~ed with an adhesive on the sur~ace of the wire intended to ~ace the filter medium. A
coTnmercial grade of either solvent-basecl urethane or hot-melt polyester adhesive could be used as well as o~hers which will adhere to both ~he stay wi~es and to the outer surface of ~he filter medium being U8 ed.
Where exceptional outer stay wire rigidity i~ desired, a round stay wire is placed in the groove of a U-shaped or V-shaped stay wire, which has been manufactured without the flat ends for subsequent attachment purposes, and the combinatiorl of stay wires pressed into an inner pleat of the ilter m~dium, where it is held by hooking the ~ound wire over the wires o the inner support frame in the usual manner. Stay wires of cros~-section other than round or circular may be used. The U-~haped or V-~haped stay wire is held firmly in place by the other stay wire and does not ordinarily require other attachmen~.
The preferred way of sealing the inner support frame, filter medium, and outer support stays into the end cap~ is by imbedding or potting each end in a matrix of uretha~e, epoxy, or silicone rubb~r or in a thermoplastic resin plastisol or other suitable thermoplastic resi~. The preferred material is a commercial 2-component polyurethane resi~ system, such as the PN # DRZ 27141 sy tem available from Isocyanate Corporation.
The improved filtration cartridge of the invention has a number of ad~antages over many of the cartridges known in the art. The filter medium is supported by a formed wire support frame which prevent~ the mediu~ from collapsing und~r pressure and dust loading. The frame also prevent~ the inside and the outside of the pleats of the pleated filter medi~m from closing ~;3~

off and thus reducing air flow through the filter cartridge~ The u~e of outer ~pring stay wires with the inner support frame also keeps the ~ilter medium open by presSing the medium firmly to the wire suppo~t frame and prevents the collap~e of the pleats ~o the outside when the filter medium is cleaned from the inside by a hi~h energy air pulse jet. The straigh~ outer s~ay wi~e eliminates ledges which allow dust build-up and reduce air flow through the filter cartridge. The alternative for~ o~ contouLed bottom/lower end cap, the outer periphery of which i6 shaped to correspond to the pleats of the filter medium and inne~ ~ire support frame, also helps to eliminate ledges for du~t build-up and the resul~ant reduction of air flow.

Claims

I CLAIM:

1. An improved gas filter cartridge comprising (a) an inner pleated wire support frame capable of supporting a correspondingly pleated filter medium:
(b) a pleated filter medium supported on said inner wire support frame;
(c) an outer filter medium support wire stay disposed at the inner apex of each pleat of said filter medium and;
(d) end caps into which the end of said filter medium pleats, said inner wire support frame. and said outer filter medium-support wires stays are sealed.

2. A cartridge of Claim 1. wherein said outer medium-support wire stays are formed from inwardly curved wires.

3. A cartridge of Claim 2, wherein the ends of said outer medium-support wire stays are mechanically fastened to said inner pleated wire support frame.

4. A cartridge of Claim 3, wherein the periphery of said lower end cap has the same contour as said pleated filter medium and said inner pleated wire support frame.

5. A cartridge of Claim 3, wherein the mechanically fastened outer stay wires are adhered to said filter medium along the line of contact with said medium.

6. A cartridge of Claim 4, wherein the mechanically fastened outer stay wires are adhered to said filter medium along the line of contact with said medium.

7. A cartridge of Claim 1, wherein said pleated filter medium comprises at least one layer of porous expanded polytetrafluoroethylene.

8. A cartridge of Claim 4, wherein said pleated filter medium comprises at least one layer of porous expanded polytetrafluoroethylene.

9. A cartridge of Claim 3, wherein said outer medium-support wire stays further comprise a pair of wires; a first wire disposed in a continuous outwardly-facing groove along the length of a second wire. aid first wire holding said second wire in place, and only said first wire being mechanically fastened to said inner pleated wire support frame.