CA1319624C - Pleated charged media air filter - Google Patents

Abstract

ABSTRACT

An electronic air filtration system of the charged media type wherein contact between the filter media and the electrostatic charging media of the filter is minimized or eliminated to increase the efficiency of the filter.
The fibrous filter media is either corrugated to minimize its contact with the charging media or separated from the charging media by nonconductive spacers.
This dramatically increases the efficiency of the filter by reducing the voltage drop on the charged medium caused by conduction across a filter media in close contact with both a charged and a grounded medium.

Description

--` 13~9~4 The present invention relates to electronic air filtration systems of the charged media type and in particular to a novel construction for charged media type air filters wherein contact between the fibrous filter pads and the charging media of the filter is minimized or eliminated, resulting in a dramatic increase in the efficiency of the filter. A number of air filter constructions are disclosed which are adaptable to use as disposable cartridge type filters, as well as a novel air filter cartridge frame and a desk top air filter unit.
Electronic air filtration systems of the charged media type are well known. Traditionally, these systems comprise a metallic screen charged with a hiph voltage/low amperage current which is sandwiched between a pair of fibrous filter pads and a pair of grounded metallic screens that cover each side of the filter sandwich. United States Patent No. 4,549,887 and Canadian Patent Uo. 1,175,754 describe charged media type air filters constructed in this fashion. Although these electronic air filters are much more efficient than passive air filtration systems, they have a feature in their aesign which can impair their efficiency. The close contact of the filter's charging screens with the fibrous filter pads can lead to a considerable voltage drop on the high voltage screen due to conduction across the filter media. This is especially true after the filter media has become soiled with dust and other airborne filtrates. A voltage drop of up to 60% of the input voltage has been observed on the charged screens of these filters. This voltage drop affects the strength of the electro0tatic field created within the fibrous filter pads and thereby impalrs the efficiency of the filter. The present invention overcomes thi~ problem wlth a novel filter construction wherein contact between the flbrous filter media and at least one of the filter's charging screens is minimized or completely eliminated, enabling the maintenance of an electro~tatic field of full or near full potential regardless of the contsminatlon level of the filter media, thus providing an air filtration sy~tem of the charged media type which is dramatically more efficient than those of the prior art. It has also been established that an efficient filter can be produced with only two charging screens and a single filter pad, providing a more economical filter construction.
The present invention provides an air filtration system of the charged media type compri~ing, in combination, electrically conductive charging media PAT tl84-1 19~24 having passageways therethrough to allow for the substantially free passage of air, the charging media being in one or more pairs, the media of eacb pair located in opposed parallel spaced-apart relationship with a fibrous filter pad disposed between each adjacent pair of charging media. Conduction across the filter pads is reduced by either corrugating the filter pads or providing insulating spacers to separate each filter pad from one or both of the adjacent charging media. The charging media of the air filter are connected alternately to the respective poles of a high voltage power source to create an electrostatic field which polarizes the fibers of the filter media. An appropriately constructed frame supports the charging media, the filter media and the insulating spacers in the relation described within an air handling system.
The invention will now be described by way of example only and with reference to the following drawings wherein:
Fig. 1 i9 a perspective view of an air filter cartridge according to the invention with a portion cut away to show the corrugation of the filter media;
Fig. 2 is a cross sectional view of the filter cartridge of Fig. 1;
Fig. 3 is a cross sectional view of a variation of the filter cartridge of Fig. 1 wherein both the charging media and the filter media are corrugated to lend rigidity to the filter cartridge;
Fig. 4 is a perspective view of an alternate filter cartridge construction in accoraance with the inventlon;
Pig. 5 is a cross sectional view of the filter cartridge of Fig. 4;
Fig. 6 is a perspective view of a filter construction according to the invention wherein a filter pad is aisposed between two charging media and in~ulatea from one of the charging mediums by insulating spacers;
Fi~. 7 shows a variation of the filter structure of Fig. 6 wherein the filter pad is insulatea from both charging media;
Fig, 8 is a perspective view of a filter construction wherein a corrugated and a flat filter pat are combinet in a single filter cartridge structure in accordance with the invention;
Fig. 9 is a perspective view of an economical filter cartridge wherein a charging medium is bonded to a filter pad;
Fig. 10 is a perspective view of a filter constructlon wherein two corrugated filter pads are combined in a single filter cartridge structure;

Fig. 11 shows a variation of the filter construction of Fig. 10 using two flat filter pads, each of which are separated from the central charging medium;
Fig. 12 is a schematic view of a filter cartridge of the invention in which the charging media is provided with latitudinal spikes which interleave the corrugations of a corru~ated filter pad;
Fig. 13 shows a cross sectional view of a filter cartridge according to the invention wherein insulating spacers maintain a corrugated charging media and a corrugated filter pad in a spaced relation;
Fig. 14 is a cross sectional view of a variation of the filter cartridge of Fig. 13 wherein three charging media and two filter pads are combined to form a corrugated filter cartridge;
Fig, 15 shows an expanded schematic view of a filter cartridge and a filter cartridge frame according to the invention;
Fig. 16 is a plan view of a corner section of the filter cartridge frame of Fig. 15 showing the details of the high voltage power supply and a switch mechanism for deenergizing the high voltage charging media when a filter cartridge is removed from the frame;
Fig. 17 shows a side view and a plan view of the switch mechanism for the filter cartridge frame of Fig. 16;
Fig. 18 shows a perspective view of the switch mechanism of Fig. 16 and a portion of a filter frame provided with a hole for mounting the switch;
Flg. 19A is a plan view of a desX top filter unit according to the lnventlon, Ylg, 19B i~ a ~ide view of the desX top filter of Fig. 19A, and Plg, 19C is a per0pective view of the desX top filter unit of Fi~. l9A;
Fig, 20 is a side view of the desX top filter unit of Flg, 19, a portlon of the filter unit housing bein8 cut away to illustrate the construction of the unlt;
Flg. 21 is a plan view of the desX top filter unit of Fig. 19, a portion of the filter unit housing being cut away to illustrate the construction of the unit;
Fig, 22 is a per0pective view of a prior art filter cartridge frame ~uitable for use with certain of the filter cartridges of the invention; and Yig, 23 is a per~pective view of a prior art hi8h voltage power ~upply ~acX suitable for u~e with certain filter cartridges of the invention.

~3~

Referring to the drawings, Fig. l shows a disposable filter cartridge according to the invention. The cartridge comprises an insulatin~ frame 1 which houses a charging medium 2 on the top surface and a charging medium 3 on the bottom surface of the cartridge. Insulating frame l i5 preferably constructed of cardboard, although plastics or other non conductive materials are also suitable for this application. Charging media 2 and 3 are traditionally constructed of woven metallic screen, however, expanded metallic mesh has been established to be equally effective and more economical and any electrically conductive construction which provides for the free passa~e of air is suitable for the charging media. A corrugated fibrous filter pad 4 is disposed between the two charging media 2 and 3. Fibrous filter pad 4 is traditionally constructed of fiberglass but most dielectric fibers, including synthetic fibers such as polyester and blends of synthetic and natural fibers such as polyester and cotton have also been established to be effective filter metiums. A hi8h voltage power jack 5 (see Fig. 23 for details) provides a connection between a high voltage power source (not illustrated) and the charging media 2 and 3 of the cartridge. The supply of power to the charging media can, of course, be arranged in any number of alternate ways well known in the art. The generally accepted practice is that charging medium 2 is grounded and that charging medium 3 is connected to a high voltage power of the order of 6 to 10 KV.
Fig. 2 ~hows a cross section of the filter cartridge of Fig. 1. The connection of charging medis 2 and 3 with hi8h voltage power ~ack 5 i9 algo lllu~trated. It may be noted that hi8h voltage medium 3 does not contact the cardboara frame 1 of the cartridge fllter. This is to prevent arcing between the hlgh voltage medium 3 and the frame 1 should the frame 1 become damp or solled enough to become electrically conductive.
A variatlon of the filter csrtridge of Fig. 2 is illustrated in Fig. 3.
In thi~ variation, the charging media 2 and 3 are latitudlnally crlmped to form partial corrugations which conform with the corrugations of the filter medium, lending rigidlty to the filter cartridge. In this construction, the charging media are still adequately separated to significantly reduce conduction acro~ a soiled filter pad whlle providing a more rugged replacement fllter cartridge. The dispossble filter cartrldKes of Figs. 1 and 3 are supported in an air handling system by the filter cartrldge frame of ~319~24 Fig. 22, as will become apparent.
Fig. 4 and 5 show a novel construction for an efficient and very economical disposable filter cartridge. In Fig. 5 a single charging medium 6 and a single fibrous filter pad 7 are corru~ated in unison and provided with a disposable frame 8. This disposable ~ilter cartridge is supported in an air handling system by the filter cartridge frame shown in Figs. 15 and 16, the construction and operation of which will be explained in detail hereinafter.
Charging medium 6 serves as the grounded medium of the filter and is provided with a metallic foil ~round connection 9, the function of which will also be explained hereinafter.
Figs. 6 and 7 illustrate two more disposable filter constructions according to the invention. In the construction shown in Fig. 6, charging media 10 and 11 are disposed on each side of a fibrous filter pad 12.
Spacers 13 maintain an air space 14 between charging media 11 and filter pad 12. Air space 14 prevents electrical conduction across the filter pad and the re~ulting loss of potential in the filter's electrostatic field. The embodiment shown in Fig. 7 employs insulating spacers 13 between fibrous filter pad 12 and both charging media 10 and 11. These filter constructions may al~o be provided with cardboard frames, not illustrated for clarity, and power supply jacks such as the one shown in Fig. 23, or some alternate method known in the art of connecting the charging media to a high voltage power source. Fllter cartridge constructions of this type are also supported in an air handling sy~tem by a filter cartridge frame such as the one shown in Fig.
22, Another embodiment of a filter structure is shown ln Fig. 8 wherein a corrugated filter pad 21 and a flat filter pad 22 are used in combination to provide a progre~sive filter which is more efficient than the fllters hereto~ore de~cribed. The upstream filter pad (either pad 21 or 22) is preferably of a coarser mat than the downstream filter pad, however, this is not mandatory. The central charging media 17 is traditionally connected to the hi8h voltage pole of high voltage power supply ~ack 23 and the outside charging media 18 are traditionally connected to the neutral or grounded pole of the power supply ~ack 23 for securlty a8ainst shock. It has been e~tablished, however, that for purposes of functionality, connecting charging medium 18 to the high voltage power source and charging medium 17 to the 1319~

neutral pole is equally effective. Spacers 19 separate charging medium 18 from flat filter pad 20 to prevent electrical discharge across the pad.
Cardboard frame 20 is preferably continuous across the top and bottom of the filter cartridge but is shown cut away for clarity.
In Fi~. 9 an alternate economical filter cartridge construction is shown.
This filter cartrid~e consists of a single charging medium lS and a sin~le fibrous filter pad 16. This filter cartrid~e construction is generally not provided with a cardboard frame. It may be supported in an air handling system by the filter cartridge frame illustrated in Fig. 15 or the desk top air filter unit illustrated in Fi~s. 19 through 21. Charging medium 15 of this filter cartridge serves as the grounded medium of an air filter. When adapted for use with the filter cartridge frame of Fig. 15, charging medium lS
is made to project slightly beyond the edges of the filter pad 16 so that it contacts the edge of the grounded metallic frame 51 of cartridge filter support frame SO, as will be explained in reference to Fig. 15.
Fig. 10 shows a further embodiment of a progressive filter cartridge ~imilar to that shown in Fig. 8. In this embodiment, two corrugated filter pad~ 26 are disposed between a central charging medium 24 and two outside charging media 25. Again, the upstream filter pad is preferably a coarser mat than the downstream filter pad although this is optional. The two corrugated filter pads 26 provide more filtering surface and, therefore, less air pre~ure drop acro~0 the filter than occurs with flat filter pads. As in the embodiment in Pig. 8, the charging media are connected to the respective poles of h~8h voltage power supply ~ack 28 in the manner described. Cardboard frame 27 i~ also pref0rably continuous acro~s the top and bottom of the filter cartridge although it i~ only partially depicted for clarity.
One further variation of the filter structure~ of Figs 9 and 10 is depicted in Fig. 11. In this embodiment of the invention, two flat fibrous fllter pad~ 30 are di0posed between two outside charging media 29. A central charging medium 28 ls inaulated from each filter pad 30 by opposing insulating ~pacers 31 to prevent electrical conduction across filter pads 30. A
cardboard frame and high voltage power ~ack may al~o be provided in a manner previou~ly de0cribed but are not illustrated for clarity. The filter cartridge~ 0hown ln Pigs. 9, 10, and 11 are supported in an air handling 0y0tem u~ing a cartrid8e filter frame ~imilar to the one depicted in Pig. 22.

i3~9~2~

Fig. 12 depicts a further embodiment of a disposable filter cartridge wherein a corru~ated filter pad 32 is provided with a charging medium 33 which is constructed with latitudinal spikes 34 which interleave the corrugations of the filter pad 32. In this embodiment, the char~ing medium 33 serves as a frame for the disposable cartridge and filter pad 32 is bonded to the charging medium 33 with an appropriate adhesive. This disposable cartridge is used in conjunction with the disposable cartridge filter frame of Fig. 15. It is inserted into filter cartridge frame 50 in an orientation upside down to the illustration of Fig. 12 so that the fibrous filter pad 32 is adjacent the insulating spacers 52 of cartridge filter frame 50 (Fig. 15). Because of interleaved spikes 34 of the charging medium 33, an enhanced electrostatic field is created within and around corrugated filter pad 32, rendering this embodiment particularly useful where very fine airborne contaminants must be removed by an air handling system. The upturned ends of charging medium 33 contact the metal frame 51 of the cartridge filter frame 50 (see Fig. lS) when lnstalled in the cartritge filter frame, providing grounding contact for the charging medium 33.
Figs, 13 and 14 illustrate further embodiments of filter structures according to the invention. The filter cartridge shown in cross section in Fig. 13 comprises two charging medium 35 and 36 and a fibrous filter pad 37.
Filter pad 37 is separated from charging medium 35 by insulating spacers 38.
8pacer~ 38 are affixed to the disposable cardboard frame 39 of the filter cartrldge ln the pattern illu~trated to ~upport the filter elements in the corrugated conflguratlon ~hown. This 0tructure provldes an air filter with an incressed ~urface area and, therefore, lens alr pres0ure drop across the fllter than the tra~ltional flat filter pads of the prlor art. Charging medium 35 and 36 are connected to a high voltage power ~ource in any order in a manner already described and well known in the art.
In Fig. 14, a ~imilar disposable filter cartridge structure is shown which provides either a graduated filter or a double filter of the corrugated type.
The outside surfaces of the corrugated filter pads are coverea by charging medium 40 and 41 and a central charging medium 42 is also provided. Two flbrou~ filter pad~ 43 ana 44 are disposed on either side of the central charglng medlum 42 and separatea therefrom by opposing palr~ of insulating ~pacers 45. Spacers 45 are attached to the cardboard filter cartridge frame ~31~624 46 in the pattern illustrated to support the filter elements in the corrugated relation shown. The upstream filter pad, 43 or 44, is preferably of a coarser mat than the do~lstream filter pad, however, this is optional. Filter cartridge frame 46 is provided with a high voltage power jack 47 and connected to the charging medium as illustrated, the central charging medium 42 being preferably connected to the high voltage pole of power iack 47 for reasons of security against shock. The filter cartridge shown in Figs. 13 and 14 are supported in an air handling system using a filter cartridge frame similar to the frame of Fig. 22.
Fig. 15 shows a filter cartridge support frame according to the invention and an expanded view of the filter cartridge of Figs. 4 and 5. Filter cartridge support frame 50 comprises a metallic frame 51, a charging medium 53 attached to but insulated from frame 51 in a manner known in the art, and insulating spacers 52 disposed at intervals across the surface of the charging medium 53, A high voltage power supply is housed in box 54 which is attached to one end of the frame 51 in this embodiment. The high voltage pole of the power supply 54 (see Fig. 16) is connected via insulated electrode 55 to charging medium 53, ~he neutral pole of.the power supply 54 is connected to metallic frame 51. In use, power supply 54 is connected to an electrical power source and the charging medium 53 i5 thereby charged with a high voltage/low amperage direct current of the order of 6 to 10 KV. The charging voltage i0 preset depending on the type of cartridge to be used with filter cartridge frame 50. In general, the thicXer the filter pad of a cartridge, and consequently the more distancea the charging medium 53 on the bottom of the filter cartridge support frame 50 and the charging medium 6 of the filter cartridge, the hi8her the voltage required on charging medium 53.
Pig. 16 shows in detail a portion of the cartridge filter support frame of Pig, 15, illustrating the construction of the power supply 54 and an optional media charging power interrupter switch 58. Power supply 54 is shielded in a protective box 54A which is supported by a projecting lip 56 which extends from a lower edge of frame 51. Box 54A is provided with an electrical power supply jack 59. The positive pole of jack 59 is connected to the positive input pole of power supply 54. The neutral pole of the jack 59 is connected to frame 51 or box 54A which is electrically continuous with the frame 51.
1'he neutral pole of power supply 54 is connected to the connector end of a i319~4 resilient switch member 58. Switch member 58 is retained in a hole 59 in frame 51 by a frictionally engaging mount 57 (Figs. 17 and 18). Switch 58 is insulated from mounting 57. In use, when an appropriately sized filter cartridge is inserted into frame 51, the cardboard frame 8 of the filter cartridge (see Fig. 15) forces the resilient switch 58 into contact with the metallic frame member 51 of the cartridge filter support frame 50, completing the power supply circuit and providing high voltage power flow through electrode 55 to the charging media ~3. Referring again to Fig. 15, grounding connector 9 on the cardboard filter frame 8 contacts filter frame 51, grounding charging medium 6 and completing the circuitry required to create an electrostatic field in and around the filter pad 7. Switch 58 is optional and i~ not installed if a soft sided filter cartridge such as the filter cartridge of Fig. 9 is to be used in filter cartridge support frame 50.
Fig. 19 shows a novel desk top air filter unit in accordance with the invention. A two part housing with a top part 60 and a base part 61 encloses the other functional components of the unit. A standard power cord 72 supplies AC power to the unit. Referring now to Figs. 20 and 21, housings 60 and 61 are provided with louvres 70 and 74 respectively to permit the passage of air through the filter unit. A fan 62A is driven by a motor 62B which is powered by electric power cord 72. Air forced through the filter by fan 62A must pass through the electronic filter structure which comprises an inside high voltaee charging medium 64 that i9 supported away from fllter pad 66 by upright insulating supports 63. The grounded charging medium 65 is bonded to the filter pad 66 to form a disposable filter cartrldge of the tyDe shown in Fig. 9. Fins 67 which pro~ect from the inslde surface of the housing part 60 serve to retain the cartridge filter formed by filter Dad 66 and charging medium 65 in close proximity with uDright suDports 63 and charging medium 64. Grounded charging medium 65 contacts a grounding shoe 68 which 18 attached to the neutral line or gower cord 72. High voltage power supply 69 is attached to the positive llne of power cord 72. The high voltage power supply provides a high voltage current of the order of 6 to 10 KV to charging medium 64 which Dolarize8 the fiber8 of the filter pad 66 and any particles in the air forced through the fllter pad by fan 62A. The polarized air contaminants are thereby strongly attracted to the fiber~ of the filter pad and most of the contaminants cling to the pad even though they are ~mall ~ ~ PAT 1184-1 g _ - ~31~62~

enough to pass through the pad without obstruction. When the desk top air filter unit requires servicing, power cord 72 is unplugged, and the upper housing part 60 i9 removed to expose the interior of the unit. The disposable filter cartridge which comprises charging medium 65 and filter pad 66 bonded together as a unit is removed and a fresh filter cartridge is inserted. Once the filter cartridge is replaced with a fresh cartridge, the upper housing part 60 is replaced and the unit is again ready for use.
Figs. 22 and 23 illustrate prior art devices used in coniunction with certain filter cartridge structures heretofore described. In Fig. 22 a filter cartridge support frame 80 is provided with a composite electrode which has a neutral pole 81 and a high voltage pole 82. Power is supplied to the high voltage electrode by a high voltage supply cable 83. Fig. 22 illustrates a cross sectional view of a high voltage power jacX which is mounted on the filter cartridges so as to engage the high voltage electrode of the filter support frame 80 of Fig. 22 when the cartridges are inserted into the support frame. High voltage jack 85 is mounted in an end of a cardboard filter cartridge frame 84 and connected via positive lead 86 and negative lead 87 ~ee Flg, 23) to the charging media of the filter cartridge as required by the constructlon of the filter cartridge.

Claims (13)

1. In an air filtration system of the charged media type, the combination of:
electrically conductive charging media having passageways therethrough to allow for the substantially free passage of air, said charging media being in one or more pairs with the media of each pair complementarily corrugated and located in opposed spaced-apart relationship;
a filter medium comprising a fibrous filter pad complementarily corrugated with said charging media and disposed between the media of each said pair of charging media;
electrically insulating spacers separating said filter pad from at least one of said charging media adjacent said filter pad;
means for connecting the charging media of each said pair to respective poles of a high voltage power supply; and frame means for supporting said charging media, said filter media and said insulting spacers in their aforesaid relationship with one another within said air filtration system.

2. A frame for supporting a disposable air filter cartridge in a passageway for air to be filtered in an air filtration system, comprising:
a shallow rectangular tray having an electrically conductive bottom part and provided with passageways therethrough to permit the substantially free passage of air, the tray further provided on its inside surface with electrically insulative spacers in spaced-apart relationship with each other and positioned to prevent the cartridge from coming into electrical contact with the bottom part of the tray, the bottom part being electrically insulated from the sides of said tray; and a high voltage electrical power source providing a voltage across a dielectric filter element of the cartridge, the bottom of said tray connected to one pole of the high voltage power source and conductive screen of the cartridge remote from the tray connected to the other pole of the power source.

3. An air filter cartridge frame as in claim 2, comprising:
a shallow rectangular metal tray, having a bottom part comprising a metallic screen or expanded mesh insulated from the sides of said tray, said tray being further provided with a projecting lip along one side;
a high voltage power supply device affixed to said projecting lip of said tray and housed within a protective shield;
an electrical power supply jack for connecting said high voltage power supply device to an electrical power source, a positive pole of said jack being connected to a positive input pole of said high voltage power supply device and a neutral pole of said back being connected to a neutral input pole of said high voltage power supply device and to a side of said tray;
electrical connection means provided between a high voltage output pole of said high voltage power supply device and the bottom part of said tray, said connection means being insulated from the sides of said tray.

4. An air filter cartridge frame as in claim 3, further comprising an electrical switch means comprising a resilient conductor means and a conductor mounting means, said conductor mounting means frictionally engaging a hole in a side of said tray, said conductor means being substantially L-shaped and insulated from said mounting means, said conductor means being connected on its one end to said neutral input pole of said high voltage power supply, its free end being normally parallel to and closely spaced from a side of said tray so that on insertion of a suitably sized filter cartridge into said tray, salt free end of said conductor is forced into contact with said side of said tray and on removal of said filter cartridge, said conductor returns to its normally parallel, spaced relationship with said side of said tray.

5. In an air filtration system, an electrostatic air filter of the charged media type including a disposable air filter cartridge and a support for the disposable air filter cartridge in an air filtration system, comprising in combination;

at least one pair of electrically conductive charging media having passageways therethrough to permit the substantially free passage of air, the media of each said pair being in opposed parallel spaced apart relationship;
a dielectric filter pad disposed between the charging media of each said pair;
spacing means for minimizing the contact between said filter pad and at least one charging medium of each said pair 80 that electric discharge across said dielectric filter pad is thereby minimized;
means for connecting the charging media of each said pair to the respective poles of a high voltage power supply, one pole electrically connected to one charging medium and the other pole electrically connected to the other charging medium to create a voltage charge across the filter pad; and a frame for supporting said charging media and said filter pad in the aforesaid relationship within a passageway for air to be filtered in said air filtration system.

6. In an air filtration system, an electrostatic air filter of the charged media type as in claim 5 wherein said disposable air filter cartridge comprises;
a pair of charging media in parallel spaced apart relationship;
a dielectric filter pad disposed between said charging media;
electrically insulating spacers disposed between said filter pad and one said charging medium; and means for connecting said charging media to the respective poles of a high voltage power source.

7. In an air filtration system, an electrostatic air filter of the charged media type as in claim 5 wherein said disposable air filter cartridge comprises;
a pair of charging media in parallel spaced apart relationship;
a dielectric filter pad disposed between said charging media;

electrically insulating spacers separating said filter pad from each of said charging media;
means for connecting said charging media to the respective poles of a high voltage power source.

8. In an air filtration system, a disposable air filter cartridge as in claim 6, wherein said air filter cartridge further includes a supporting frame which surrounds the edges of said charging media and said filter pad.

9. In an air filtration system, an electrostatic air filter of the charged media type as in claim 5 wherein said disposable air filter cartridge comprises;
a charging medium and a dielectric filter pad having substantially the same dimensions and adhesively bonded together in opposed relationship.

10. In an air filtration system, an electrostatic air filter of the charged media type as in claim 5 wherein said disposable air filter cartridge comprises;
a charging medium and a dielectric filter pad having substantially the same dimensions and frictionally bonded together in opposed relationship.

11. A desk top electronic air filter unit of the charged media type comprising;
a housing that includes at least two parts which are disengageable to provide access to the interior of the housing, the housing being provided with air intake and air exhaust passageways to permit the passage of air therethrough;
fan means disposed within the housing for forcing the movement of air therethrough;
motor means drivably connected to the fan means;
electronic air filter means disposed between the air intake and air exhaust passages in the housing 80 that substantially all air which passes through the housing passes through the air filter means, said air filter means comprising a first and second electrically conductive charging medium with a filter pad therebetween, the first charging medium being spaced from the filter pad by electrically insulating spacers positioned to inhibit the filter pad from contacting the first charging medium; and a high voltage power supply disposed within the housing, the high voltage power supply having a high voltage output pole which is connected to one of the first and second charging medium and a neutral pole which is connected to an other of the first and second charging medium.

12. A desk top air filter unit as claimed in claim 11, wherein the filter pad and the second charging medium are adhesively boned together to form a disposable filter cartridge.

13. A desk top air filter unit as claimed in claim 11, wherein the filter pad and the second charging medium are frictionally bonded together to form a disposable filter cartridge.