DE1604311B1 - Electrode blanket - Google Patents

Description

The invention relates to an electrode blanket for electrical Air conditioning of the room air with an electrical one at a distance below the ceiling insulated, suspended ceiling electrode attached to one pole of a direct current source high voltage can be connected to the serving as a counter electrode with the other pole of the direct current source connectable ceiling to cooperate.

It is known to use different types of electrodes in rooms below the raw ceiling Suspend the form insulated and connect these electrodes to the positive pole of a direct current source of high voltage, then the floor, walls and ceiling of the room form the negative electrodes. In these arrangements, in one so equipped room generates an electric field, which over a depending on the voltage of the direct current source higher or lower voltage gradient depending Meters of ceiling height. It is basically irrelevant which shape the have electrodes suspended in an insulated manner below the ceiling. You can go out simple tensioned wires, grid grids or acoustic panels with a There is a metal coating on the side facing the ceiling.

Under the influence of an electric field generated in this way, the Ions contained in the natural room air according to their polarization in The direction of the unequally charged electrode is set in motion and held there, i.e. eliminated from the room air. Because of the ions that are called Condensation nuclei act, contaminants are bound in the room air, too these impurities under the action of an electric field from the room air eliminated, which is the real purpose of such an arrangement. The movement of the ions depends on the field strength and the size of the ions, and It has been shown that at lower field strengths in particular the large ions are unable to follow electrical forces or can only follow them to a very limited extent, so that it is not possible under all circumstances to use systems of the known type to in particular the large ions that act as condensation nuclei, to which impurities the room air are particularly bound to excrete. It also has shown that by the action of the electric field when a precipitation of the -Ions takes place, gradually an ion depletion of the room air occurs, which in turn poses a disadvantage as the elimination of air pollutants, in particular of odorous substances, is dependent on the maintenance of an ion current can, which is not the case if the originally contained in the room air Ions are excreted and bound to the electrodes after some operating time. The effect of the known electrode arrangements is therefore largely on the The indoor air content of natural air ions depends on their replacement in itself closed spaces depends on randomness and is arbitrary influence so far withdrawn. These circumstances are made more difficult when in such a room for other climatic reasons an air circulation takes place, because then the Mobility of ions, including small ions, especially large ions, of course, no longer control them in the desired way and the respective circumstances can be adjusted.

It is also known to supply additional ions to a space by the air is passed through an air conditioning system or device the output of which is ionized by means of a spray discharge. For these plants or devices you need appropriate space, a voltage generator, isolators and the like m.

The invention is based on the object in a room with a Electrode blanket of the type described above to show a way that allows generate additional ions with very little effort.

This object is achieved in that on the or the electrodes on the side facing the other electrode have the same name Potential like the spray electrodes having the associated electrode are arranged.

With this construction, taking advantage of the existing components and voltages and ions generated by just adding the spray electrodes each having the polarity of the associated electrode. In particular also completely take over the insulators already required for the electrode ceiling or partially the insulation of the spray electrodes. As a spray voltage can largely the voltage between the electrode ceiling and the room ceiling can be used. Additional space is not required as the electrodes are in the space between Electrode ceiling and room ceiling are located. Depending on the arrangement of such spray electrodes on the positively charged ceiling electrode or the one that forms the negative pole Room ceiling you have it in your hand, the content of the indoor air in ions of one or the other with a different sign arbitrarily.

There is also the option of having the spray electrodes opposite the - to arrange the associated electrode electrically insulated. This gives even bigger ones Variation options. For example, you can then use the spray electrodes form associated electrode electrically interconnectable and in particular the Spray electrodes of the ceiling to a preferably controllable negative electrical Put pretension.

The spray electrodes can also be inclined relative to the vertical arrange. If spray electrodes are arranged on both electrodes, they should be inclined to the same side. This leads to that due to the spray discharge a so-called electric wind is generated, which in many cases is fully sufficient, in order to maintain a desired air circulation: It is also useful that the Ceiling electrode suspended below the ceiling, insulated from the side walls of the room to be arranged at a distance on all sides.

The ceiling electrode can also be used to improve air circulation provided with air openings or in several fields arranged at a distance from one another subdivide.

The invention is illustrated schematically below with reference to some in FIG Drawing illustrated embodiments explained in more detail. It shows F i g. A cross-section through a room in the ceiling area with a hanging underneath to the positive pole of an electrical direct current source connected Ceiling electrode with spray electrodes arranged thereon, the ceiling electrode is divided into several electrically interconnected fields, F i g. 2 one similar cross-section, but with the spray electrodes directly on the ceiling are arranged and the positively charged ceiling electrode suspended underneath Air vents is provided, F i g. 3 shows a similar cross-section, but with both on the top of the ceiling electrode and on the underside of the ceiling spray electrodes inclined towards one and the same side are provided, FIG. 4th a cross section through the ceiling with arranged thereon partly with the ceiling electrically connected spray electrodes, some of which are arranged insulated from them, F i g. 5 again in cross section a ceiling electrode with arranged on the upper side Spray electrodes in the form of serrated bands or the like.

In Fig. 1 denotes the ceiling of a room with 1, its walls with 2 and the ceiling electrode suspended from insulators 3 below the ceiling with 4. As FIG. 1 shows, the cover electrode 4 can be subdivided into several fields which are arranged at a mutual distance 5 from one another and are all connected to the positive pole of an electrical direct current source of high voltage. Since the negative pole of this voltage source (not shown) is grounded as usual, the ceiling 1 and the side walls 2 of the room and its floor (not shown) represent the negative electrode. It is useful to place the ceiling electrode 4 at a distance 6 from the walls 2 of the room, so that in principle the room 7 between the ceiling 1 and the ceiling electrode 4 can be ventilated.

Should it be desirable to enrich the ion deficiency occurring in the course of the operating time with regard to its content of positively charged ions, spray electrodes 8 can be arranged according to the invention on the upper side of the ceiling electrode. These spray electrodes can according to FIG. 5 have the shape of serrated bands 8 a. It would also be possible to arrange tip rods or the like accordingly. Should it be desirable to enrich the room air with negatively charged ions, according to FIG. 2 on the ceiling 1 spray electrodes 9, which are similar to the spray electrodes 8 and 8 a in FIG. 5 can be shaped. In cases in which the aim is to enrich the room air with both positively and negatively charged ions, spray electrodes 8 and 9 are arranged both on the ceiling electrode 4 and on the ceiling 1. The spray discharge depends both on the current intensity and the voltage and on the size of the distance 10 between the electrodes.

There is also the possibility, according to FIG. a spray electrodes 9 a to be arranged on the ceiling 1 by means of insulators 11 and with an additional negative bias towards the room ceiling: 1 to connect. There is also the possibility of how F i g. 4 reveals a part in its middle part to connect the electrodes 9 directly to the ceiling 1 so that they are the same have negative voltage like this, or they, as shown at 9 a, electrical Insulated to be attached to the ceiling and with a higher electrical negative Bias to connect as the ceiling 1. Depending on your needs, you can either only the spray electrodes 9 or those due to an increased negative bias voltage Spray electrodes 9 a or both can be brought into effect together.

If the ceiling electrode 4 is to act as a uniform ceiling, one will to a subdivision of the electrode 4 into a plurality of fields as according to F i G. 1 waive. In order to ventilate the ceiling electrode 4 from the rear, but then, as in FIG. 2 shown, instead of the distances 5 between each Fields of the electrode 4 arrange air openings 5 a, without these for the view appeared. It would be B. possible, a ceiling electrode in the manner of a Arrange sound-absorbing ceiling made of perforated plates, which then on their top would wear a metal coating, which with the positive pole of the electrical direct current high voltage source would be to connect.

As all figures show the drawing, it is possible to arrange the spray electrodes 8, 9, 9 a at an angle to the vertical. The spray discharge then causes an electric wind, which causes air to be circulated in the manner shown in FIGS. 1 to 3 entered arrows 12 and ensures that the generated ions of one or both signs are constantly introduced into the room air and can maintain an ion current with the desired elimination of air pollutants. The described arrangement of spray electrodes also allows ozone to be generated in the desired amount depending on the voltage selected.

Claims (6)

Claims: 1. Electrode cover for electrical air conditioning the room air with an electrically insulated suspendable at a distance below the ceiling Ceiling electrode that can be connected to one pole of a high voltage direct current source is to be used with the counter electrode, with the other pole of the direct current source cooperate connectable ceiling, characterized in that on the or the electrodes (4, 1) on the side facing the other electrode same potential as the corresponding electrode having spray electrodes (8, 9, 9a) are arranged. 2. Electrode blanket according to claim 1, characterized in that that the spray electrodes (8, 9, 9a) are electrical with respect to the associated electrode (4, 1) are arranged isolated. 3. Electrode blanket according to claim 1 or 2, characterized in that that the spray electrodes (8, 9, 9a) are inclined relative to the vertical are. 4. Electrode blanket according to one of claims 1 to 3, characterized in that that the spray electrodes (8, 9, 9 a) are arranged on both electrodes (4, 1) and after are inclined on the same side. 5. Electrode blanket according to one of the speeches 1 to 4, characterized in that the suspended below the ceiling (1) insulated Ceiling electrode (4) spaced from the side walls (2) of the room on all sides is. 6. Electrode cover according to one of claims 1 to 5, characterized in that the cover electrode (4) has air openings (5a).