DE2330769C3 - Electrode arrangement for generating constant electrical fields in an electric air conditioning system - Google Patents

Description

35

The invention relates to an electrode arrangement for generating constant electrical fields, in particular that between a ceiling electrode and located at the positive pole of a DC voltage source a counterelectrode located at the negative pole, which can also be formed by ground, generated constant field in an electric air conditioning system for stationary and movable spaces.

In the case of electric air conditioning systems in buildings or in land, air and water vehicles, the side effect often occurs that the air contained in the room is ionized Dirt particles are deposited on the electrode, so that this electrode becomes soiled over time. This side effect is in many cases even desirable for the purpose of air purification. In the case of electrostatic precipitators it is this dirt separation is the main task.

Layers of dirt are visually unattractive. Too thick layers of dirt can also reduce the effectiveness of the Affect the electrode. It is therefore common practice to clean the electrode from time to time. However, this is troublesome. In addition, it is almost never possible to reproduce the original appearance of the electrode surfaces.

It is therefore already known such electrodes as to train so-called disposable electrodes by making them from thin, electrically conductive cardboard and stretched on frames to be mounted on the ceiling. Here, however, it is necessary to replace an old elec- replace the electrode with a new one.

An electrostatic filter is also known, in which the polluted gas successively several, provided with holes, perpendicular to the flow direction standing electrodes of alternating polarity flows through A band of gas-permeable, isolate _{de £ n} material is guided zigzag in such a manner over deflecting rollers, that it is ever drawn between successive electrodes, this band is moved in the direction from the filter outlet mm filter inlet and has the Task to mechanically filter the gas passing through. Dirt is electrostatically deposited on the electrodes, which have not yet been completely cleaned up. No special measures are provided for cleaning these electrodes.

The invention is based on the object of specifying an inexpensive electrode arrangement which can be cleaned in a very simple manner.

According to the invention, this object is achieved in that an electrically conductive base layer is covered with a multiplicity of thin cover layers which can be individually peeled off from one another.

If dirt is deposited on this electrode arrangement, it only covers the outer cover layer. For cleaning it is therefore only necessary to peel off the outer cover layer. This is a simple operation. The supporting structure, be it a special frame or the base layer itself, if it is thick enough, does not need to be removed to become. The electrical connection also does not need to be detached from the base layer.

The cover layers are also particularly advantageously electrically conductive. The higher the conductivity on the surface of the electrode arrangement, the greater the separation of dirt. However, this is permissible because of the ease with which it can be cleaned desirable for reasons of air purification. For example, the cover layers can consist of metal foils, e.g. B. made of aluminum foils. But you can too consist of electrically conductive plastic films, in which the plastics by some additive or have experienced a certain electrical conductivity, which does not have to be great, during a treatment. The outer layer passes through the individual cover layers Cover layer connected to the base layer so that it is connected to the positive pole of the DC voltage source Connection

The cover layers can also consist of insulating material. They also then fulfill their task as Peel-off layer to remove dirt.

There are various ways of connecting the individual cover layers to one another. In In some cases, the normal adhesion of two films to one another is sufficient. In other cases it will a non-hardening adhesive, which can also be electrically conductive, can be used.

In order to be able to grasp the outer film in each case, it is advisable if the cover layers have individually grippable tabs on at least one side.

The edges of the electrode are particularly dirty as a result of the field strength concentration prevailing there. In order to be able to easily remove the dirt there, it is advisable to turn the top layers around reaching around the edges of the base layer.

The invention is explained in more detail below with reference to an exemplary embodiment illustrated in more detail in the drawing

F i g. 1 a schematic representation of a room equipped with the electrode arrangement according to the invention.

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F i g. 2 shows a cross section through an electrode arrangement according to the invention,

F i g. 3 is a plan view of part of the electrode arrangement and FIG

F i g. 4 shows a cross section through another electrical system den assembly according to the invention.

In Fig. 1 shows a room 1 with side walls 2 and 3, a floor 4 and a ceiling S, all of which are grounded. An electrode arrangement 6 is provided on the ceiling, which is shown in FIG. 2 illustrates in more detail A DC voltage source 7 is with its positive pole with a switch 8 with the conductive part of the electrode arrangement 6 and connected with its negative pole to the ruum boundary surfaces 2 to 5. As a result, a constant electric field arises in room 1, which, especially in connection with a certain ionization of the room air, a positive influence on those in the room. People exercising At the same time, ionized dirt particles are attracted to the ceiling electrode assembly 6, store on the underside and dirty it.

Like F i g. 2 shows, a thick insulating layer 9 is made of metal and is therefore electrically conductive Base layer 10 applied There are numerous cover layers 11 on it, which are also electrically conductive are. As soon as the bottom outer layer is soiled, it can simply be peeled off will. As an example, 10 to 20 top layers may be mentioned

F i g. 3 shows a plan view of the arrangement of FIG. 2. Only laterally protruding edges 12 of the cover layers 11 can be seen. These edges have different lengths, which are shortened from bottom to top. Therefore, in the case of the lowermost cover layer 11, the part a of the edge remains individually grippable as a flap. After the lowermost cover layer has been peeled off, part b of the edge of the subsequent cover layer 11 remains individually grippable. The same applies to the edge parts c and d of the subsequent cover layers after the respective underlying layers have been peeled off.

In the embodiment according to FIG. 4 is a base layer 20 with a plurality of thin cover layers 21 provided, the ends 22 of which reach around the edge 23 of the base layer, so that the particularly heavily soiled edges can be cleaned by peeling off the top layers. For fixing the electrode on the ceiling is a cylindrical insulator 19, whose circumference with a plurality is provided by insulating cover layers 24 which are individually peelable from one another.

1 sheet of drawings

Claims (6)

Patent claims: 1. Electrode arrangement for generating constant electrical fields, in particular between one at the positive pole of a DC voltage source and one at the negative Pole lying opposite electrode, which can also be formed by ground, generated constant field in an electric air conditioning system for fixed and mobile rooms, characterized in that an electrically conductive base layer (10, 20) with a plurality of thin cover layers (11, 21) is occupied, which can be individually removed from each other. 2. Electrode arrangement according to claim 1, characterized in that the cover layers (11, 21) are also electrically conductive. 3. Electrode arrangement according to claim 2, characterized in that the cover layers (U, 21) consist of metal foils. 4. Electrode arrangement according to claim 2, characterized in that the cover layers consist of There are electrically conductive plastic films. 5. Electrode arrangement according to one of claims 1 to 4, characterized in that the cover layers (U) have individually grippable tabs (a, b, c, c / ^ on at least one side. 6. Electrode arrangement according to one of claims 1 to 5, characterized in that the cover layers (21) around the edges (23) of the base layer (20) reach around.