DE3930872A1 - Room air purifying electrostatic filter - has separator flow ducts as electrically conductive houses, spaced by insulators - Google Patents

Abstract

The filter has a gas ioniser, tow which is coupled in the room air flow direction a tubular, electrostatic separator, formed of conventric, mutually insulated tubular flow ducts, between which lies a HV field fed by a voltage source. The separator flow ducts are in the form of electrically conductive hoses. On the lengths of the hoses are distributed insulators for their mutual spacing. Pref. the hoses are mutually slidably mounted. They are typically ribbed, flexible, metal hoses, with the ribbed surfaces forming the separating faces. The separator may be formed by at least three concentric metal hoses, the external one earthed. ADVANTAGE - Simple assembly, and applicable to existing systems.

Description

The invention relates to an electrostatic filter direction for the purification of gases according to the genus of Main claim.

From DE-PS 35 15 508 is an electrostatic fil tereinrichtung known to purify the air in Living and recreation rooms is provided. These be Known filter device uses an electrostatic separator in conjunction with a gas ionizer. The air to be cleaned is combined in one in the gas ionizer High-voltage field ionized, so that in the following Separator, where there is also a high voltage field, the airborne particles due to the ionization attaches itself to a separating surface in the separator the put on. Such an electrostatic air fil ter is very effective in terms of small and small most suspended particles. The well-known electrostatic Air filter is housed in a cylindrical housing brings, which be a much larger diameter sits as the gas ionizer in the device.

The invention has for its object an electro static filter device for cleaning gases create that allows easy assembly and on place existing pipe or hose lines in Ab  air or recirculation systems can be used.

The solution to this problem is given by the main one received specified characteristics. By use of electrically conductive hoses, preferably flexible metal hoses that bil the separator , it is possible to counter existing ventilation hoses replace the hose arrangement of the separator, the electrostatic precipitator the gas ionizer is connected upstream. The concentrically intertwined arranged metal hoses of the separator are by means of spacer elements arranged along their length kept at a distance. They are preferably as isolas gates trained spacers arranged so that the metal hoses are not rigidly connected are, but are longitudinally displaceable against each other. There it is particularly advantageous for aluminum known per se use flexible hoses as used in ventilation technology are common. These Aluflex hoses are in their length can be easily changed within certain limits, so that a concentric Aluflex Hoses of existing electrostatic precipitators more or less depending on the requirements ger can be laid strongly bent.

The Aluflex hoses also have the advantage that they have a ribbed surface, which makes the effective separation area increases and thus the Kapa the separator is increased accordingly.

A particularly effective and simple execution of a electrostatic precipitator is obtained by Ver Use of three concentrically arranged metal hoses che, with a negative on the middle metal hose High voltage is present and the inner and outer me tall hose are grounded. This arrangement has great Large separating surfaces and high electrical safety  because the outer metal hose is grounded and such can be touched safely. In one execution with three concentrically arranged metal hoses the spacers on the middle metal hose be rigidly attached while the outer and inner Slide the metal hose lengthways on the spacers in cash. This makes it a very simple setup for get an electrostatic precipitator that Lich its radius of curvature can be varied very much can without additional assembly work are required.

The entire structure of the electrostatic filter device tion is greatly simplified in particular that the gas ionizer upstream of the separator as Ge housing element has an outer tube that connects to the through knife of the outer metal hose of the electrostati adapted and connected to this separator is. This will keep the entire electrostatic fil tereinrichtung a uniform outer diameter. The electrostatic filter device can be due to their uniform outer diameter and due to the Flexibility of the separator instead of an existing one Ventilation hose in an existing ventilation system can be retrofitted. The outer tube of the Gasio nisators lies just like the outer hose of the Ab on ground, i.e. the entire filter device can be grounded outside, making the entire filter direction can be touched safely.

The gas ionizer has one inside the outer tube metal coil wound on an insulating body, in a helical groove on the insulating body by intervening. Such a metal coil can be very thin material are punched out without waste, so that the outwardly facing edges or tips of the Metal coil an extremely small radius or one  have extremely small material thickness. This will a high field line at these edges or peaks density of the electrostatic generated for ionization Field reached.

So that not immediately before the gas ionizer desired deposits of dirt particles occur, a flow cone is arranged in front of the gas ionizer, that the air to be cleaned without deposits in the Io nization space of the gas ionizer conducts. Have attempts shown that just a hemispherical flow key gel is optimal for this application.

A very easy assembly for the metal coil the insulating body is obtained in that the next available as a flat band coil in the groove running on the insulating body by means of a roller le pressed in and angled.

The present invention is not on use a certain number of concentrically arranged Metal hoses limited, because depending on the requirements a suitable number of flexible, electrically conductive hoses for education of the separator can be used.

The invention is based on the drawing ago explained. Show it:

Fig. 1 shows an embodiment of the electrostatic filter means,

Fig. 2 is a cross section along the section line AB of the embodiment shown in Fig. 1 filter means,

Fig. 3 shows an enlarged detail in the area of metal strip coil,

Fig. 4 shows a section of a metal strip which is used as a metal strip coil,

Fig. 5 shows an embodiment with four concentrically arranged metal hoses and

Fig. 6 is an enlarged section in the region of the äuße ren metal hose of the embodiment of Fig. 5.

The electrostatic Filterein direction shown in Fig. 1 consists of a gas ionizer 1 and an electrostatic precipitator 2 , at the outlet opening 3 , a mechanical filter 4 connects.

The gas ionizer 1 has an insulation body 5 inside with a helical circumferential groove 6 , in which egg ne metal coil 7 is inserted.

In Fig. 3 a section in the area of the metal coil 7 is shown enlarged.

Furthermore, Fig. 1 shows that the gas ionizer 1 is enclosed by egg nem outer tube 8 , which opens into a metal hose 9 of the separator 2 . From the separator 2 consists essentially of three concentrically arranged metal hoses 9 , 10 , 11 , wherein on the middle metal hose 10 ausgebil Dete spacers 12 are attached as insulators. The outer metal tallschlauch and the inner metal hose 11 are longitudinally displaceable on the spacers 12 . The metal hoses 9 to 11 are shown in the drawing to simplify the illustration with smooth outer surfaces, but preferably ribbed, variable in length flexible metal hoses are used ver.

The metal hoses 9 to 11 are mechanically connected to the gas separator by means of tensioning straps 13 , 14 , 15 , the outer metal hose 9 also being electrically connected to the outer tube 8 . The tube 8 and the metal tallschlauch are at ground or earth potential. The middle metal hose 10 is at a negative high voltage, which is supplied via an electrical line 16 from high-voltage electronics 17 . The inner metal hose 11 is also like the outer metal hose 9 to ground.

The metal coil 7 is at a negative high voltage, so that the gas to be cleaned is ionized in the ionization space 18 between the tallband spiral Me and the outer tube 8 lying on the ground. The ionized gas passes according to the indicated arrow directions 19 into the spaces 20 , 21 between the middle metal hose 10 and the other two metal hoses 9 , 11 . The charged suspended particles in the gas are now deflected against the separating surfaces 22 , 23 due to the high-voltage field, which consists in the spaces 20 , 21 , so that the suspended particles in the gas to be cleaned or in the air to be cleaned are on the inner surface of the deposit outer metal hose 9 and on the outer surface of inner metal hose 11 . An in the area of the outlet 3 arranged additional activated carbon filter 24 can be used depending on the application. The indicated upper, straight position of the separator 200 shows this in the area of the outlet opening without an activated carbon filter.

In the area of the air inlet opening 25 , the isolati on body 5 of the gas ionizer 1 is preceded by a hemispherical flow cone 26 , which prevents unwanted deposits of floating particles from occurring in this area before the gas ionizer 1 .

The electrical connection of the filter device takes place via an electrical cable 27 with plug 28 , which is inserted into a socket with 220 volt AC voltage, for example. The high-voltage electronics 17 generates the required negative high voltage in a manner known per se, which is applied to the metal coil 7 and to the middle metal hose 10 . The metal coil 7 and the metal tube 10 are fed by a common high voltage source 17 and are therefore at the same negative potential.

It is essential for ionization that the metal strip is helically formed 7 jagged or serrated, as can be seen in Fig. 2 and Fig. 4. In this way, peaks 29 with extremely small radii are formed, which result in a concentration of the field lines in this area. The energy density of the electrostatic field is increased in this way.

In Fig. 2 it can also be seen that the Hochspan voltage electronics 17 from the insulating body 5 , which is designed as a tube, is completely enclosed. This measure also increases the electrical safety of the filter device. The outer tube 8 is held by means of star-shaped spacer elements 30 at a safe distance from the metal coil 7 . In the air inlet area, a grounded ter 31 ( FIG. 1) can serve as a spacer between the insulating body 5 and the outer tube 8 .

In Fig. 3 a section in the area of the metal coil 7 is shown, here the groove 6 has a ge inclined side wall 32 . The metal coil 7 , which is initially in the form of a flat metal strip, as shown in FIG. 4, is pressed into the groove 6 by means of a roller R, so that the metal coil is bent in an L-shaped manner. The groove 6 thus forms an assembly aid in connection with the roller R and ensures that the coil 7 is positioned exactly on the insulating body 5 .

In Fig. 4, the metal coil 7 is shown before insertion into the groove of the insulating body 5 .

The electrostatic filter device can for under various applications are used, whereby the small spatial dimensions the most diverse Favor possible uses. The filter device can be used as a flue gas filter in industrial and home stop area are used. In kitchens, restaurants, Incineration plants and also in technical processing tion processes, the electro according to the invention Use static filter device effectively. For is used as a circulating air filter in kitchen hoods the filter device is particularly suitable.

The subject matter of the invention is not limited to an embodiment with three flexible metal hoses, but much more other electrically conductive hoses can also be used. Depending on the requirements, more or less electrically conductive hoses can also be used in the separator 2 .

In Fig. 5, an embodiment with four flexible metal hoses is shown, which are alternately from the outside in to ground potential or to a negative high voltage. The outer hose 9 is at earth potential, the hose 10 is at a negative high voltage, the hose 11 is again at earth potential, while the inner hose 33 is again at the same negative high voltage as the hose 10 and the metal coil 7 .

Spacers 34 are fastened to the inner tube 33 and, like the spacers 12, are designed as insulating bodies. The spacers 34 are not connected to the hose 11 , but lie on this slidably.

In the embodiment shown in FIG. 5, a blower 35 is used, with which the air to be cleaned is conveyed through the filter device. The filter device according to FIG. 5 is thus a self-contained device which does not require any external fan devices.

An insulating bearing body 36 is arranged between the metal hose 11 and the metal hose 33 , which is designed as a hollow body and has openings 37 in its wall. Through these openings and through the bearing body 36 , the air to be cleaned can flow into the inter mediate space between hose 11 and hose 33 .

In Fig. 6 the section 38 of the hose 9 is shown enlarged ver. Because of its ribbed surface, the metal hose has a large number of grooves 39 in which dirt particles can be deposited. The filter area relevant for the filter effect is thereby considerably enlarged compared to a smooth surface.

Claims (15)

1. Electrostatic filter device for cleaning gases, in particular for cleaning the room air, with a gas ionizer, to which a tubular electrostatic separator is connected in the flow direction of the gas to be cleaned, which is formed from essentially concentrically arranged, mutually insulated tubular flow channels, between which there is a high voltage field fed by a voltage source, characterized in that the flow channels of the separator ( 2 ) are designed as electrically conductive hoses ( 9 to 11 ; 33 ) which are arranged by means of insulators ( 12 ) arranged along their length. are kept at a distance from each other. 2. Filter device according to claim 1, characterized in that the concentrically arranged hoses ( 9 to 11 ; 33 ) against each other are slidably mounted ver. 3. Filter device according to one of claims 1 or 2, characterized in that the hoses ( 9 to 11 ; 33 ) are ribbed, flexible metal hoses, the ribbed surfaces forming the separating surfaces ( 22 , 23 ). 4. Filter device according to one of the preceding claims, characterized in that the hoses ( 9 to 11 ; 33 ) have a flexible length. 5. Filter device according to one of the preceding claims, characterized in that at least three concentric metal hoses ( 9 to 11 ) form the separator ( 2 ), the outer tall hose Me ( 9 ) is grounded and the outside in NEN following further metal hoses ( 10 , 11 , 33 ) from alternating negative high voltage or ground potential. 6. Filter device according to claim 5, characterized in that at three metal hoses Chen on the middle metal hose ( 10 ) projecting inwards and outwards, designed as insulators distance elements ( 12 ) are attached, on which the outer and inner metal hose ( 9 , 11 ) longitudinally adjustable - fit. 7. Filter device according to one of the preceding claims, characterized in that the gas ionizer ( 1 ) as housing elements has an outer tube ( 8 ) which is adapted to the diameter of the outer tall hose ( 9 ) of the electrostatic precipitator ( 2 ) and to these connected. 8. Filter device according to one of the preceding claims, characterized in that the gas ionizer ( 1 ) sits on a cylindrical insulating body ( 5 ) applied metal coil ( 7 ) be, which engages in a helical groove ( 6 ) on the Isolierkör by ( 5 ) . 9. Filter device according to claim 8, characterized in that the metal coil ( 7 ) has an angled leg engaging in the groove ( 6 ). 10. Filter device according to one of claims 8 or 9, characterized in that we at least one of the side walls ( 32 ) of the groove ( 6 ) are aligned at a greater angle than 90 ° to the groove base. 11. Filter device according to one of claims 8 to 11, characterized in that the metal coil ( 7 ) from the insulating body ( 5 ) protruding, closely lined-up tips ( 2 ). 12. Filter device according to claim 11, characterized in that the metal strip helix ( 7 ) is toothed over its entire length. 13. Filter device according to one of the preceding claims, characterized in that a flow cone ( 26 ) is arranged directly in front of the gas ionizer ( 1 ) in the flow direction of the gas to be cleaned. 14. Filter device according to claim 13, characterized in that the diameter of the flow cone ( 26 ) is so large that the first Win applications of the metal coil ( 7 ) are in the flow shadow of the flow cone ( 26 ). 15. A method for mounting a metal coil on egg nem gas ionizer of an electrostatic filter device according to one of the preceding claims, characterized in that an initially flat metal strip is pressed by means of a roller (R) into a circumferential groove ( 6 ) on an insulating body ( 5 ) and is angled in an L-shape.