DE1278084B - Ionization tubes for devices for air freshening - Google Patents

Description

Ionization tube for air freshening devices The invention relates to an ionization tube for devices for air freshening with one insulating tube and two on the inner or

Outer wall of the insulating tube abutting metallic electrodes, from which at least one electrode is formed by a wire mesh and in operation by an air flow to be ionized moving in the direction of the longitudinal axis of the tube is rinsed.

While efforts have so far mostly been made in devices for air freshening To achieve the highest possible ozone concentration teaches the problem of air improvement developed more recent theories that it was not due to a high concentration of ozone, but rather An as intensive as possible loading of the air with ions is important for breathing to activate, to fight tiredness and the hair dryer symptoms and the air for similar Purposes to improve without harmful ozone concentration.

In the previously known ionization tubes, which are on the inner wall Outer wall of an insulating tube, usually made of glass, with one metallic electrode each have, the electrodes are generally designed as perforated sheets, thus the ionization products from the gap between the electrode and the insulating tube can flow out to the outside.

It is also known to design the electrodes as wire mesh, the fabric wires being parallel to the axis of the tube and perpendicular to the axis, respectively lying levels run.

However, the known designs have the major disadvantage that by means of a fan in the direction of the longitudinal axis of the ionization tube guided air flow does not evenly reach all points where ionization processes occur play. In particular with the known ones provided with perforated electrode sheets Ionization tubes shows again and again that at individual points in the gap between unwanted "ozone nests" arise on the electrode sheet and the insulating tube.

The even, intensive rinsing of the entire electrode in the ionization area between the electrode and the insulating tube is, however, just taking into account the more recent ionization theories are crucial for good air freshening. Attempts have already been made to flush electrodes with air as perforated metal sheets are formed by arranged inside and outside of the insulating tube guide body to improve the turbulent air flow on the outside of the electrodes cause. One such design is however, on the one hand because of the necessary Guide body relatively expensive, on the other hand due to the turbulence of the Air flow an undesirable energy consumption.

After all, ionization tubes are also known for which the glass tube on the outside with helical around the longitudinal axis of the Tube running thin wires is provided. However, all wires run in the same screw sense; it is therefore not a tissue.

The main disadvantage of such a design is that that the air sweeping along the outside of the glass tube in the area between adjacent helical wires forms a flow boundary layer, which largely shields the outer air zones from the actual ionization space. In the absence of elements arranged in the transverse direction of the helical wires the mentioned flow boundary layer is hardly torn. As a result, will only a relatively small proportion of the ones brushing along the ionization tube Air ionized.

The invention is therefore based on the object of an ionization tube of the type mentioned above, avoiding the shortcomings of the known designs to be designed so that the entire electrode surface contributing to the ionization is effectively flushed by the air stream to be ionized, without this air stream is placed in a noticeably turbulent flow.

This object is achieved according to the invention in that the wire mesh, from which at least one of the two electrodes of the ionization tube consists, as a body tissue is formed, the fabric wires helically around the longitudinal axis of the Run the tube.

With such a twill fabric (diagonal fabric) in particular the corners of each fabric mesh very effectively from the one facing in the direction of the Long axis of the tube moving air stream flushed. Due to the constant intense Fresh air can therefore also be supplied to these particularly endangered areas do not form ozone nests.

The inventive twill fabric with helical around the The longitudinal axis of the tube has fabric wires opposite a wire mesh with fabric wires running parallel or perpendicular to the longitudinal axis of the tube furthermore the further advantage that the flow movement of the air does not cross tissue wires lying in the direction of flow are obstructed and the air is thereby removed from the Surface of the electrode is deflected. In the case of the invention, with a twill fabric equipped ionization tube, the air is rather without becoming turbulent Forms flow, guided through the tissue close to the electrode circumference, so that an even, intensive rinsing of the entire area contributing to the ionization Electrode surface is guaranteed with fresh air.

In the ionization tube according to the invention, either both Electrodes or just one electrode, preferably the outer electrode, through a body tissue educated; in the latter case, the other electrode is expediently a metallic one Mirroring of the insulating tube and the air flow only over the body fabric executed electrode.

According to an expedient embodiment, the twill fabric consists of Invention of round wires with a thickness between 0.1 and 0.5 mm.

Round wires have the advantage that they have a particularly low, theoretically linear contact surface between the wires of the electrode and the Insulating tube results, so that the air to be ionized has particularly good access to the actual ionization area.

According to the invention, the distance between adjacent fabric wires of the body fabric is expediently in the range between 0.3 and 1.5 mm.

An exemplary embodiment of the invention is shown schematically in the drawing illustrated.

The drawing shows a perspective view of an ionization tube, that of a glass tube (Byron tube) 1, an outer electrode 2 and an inner one Electrode 3 is made. The outer electrode 2 lies on the outer wall of the glass tube 1 on, while- The inner electrode 3 rests against the inner wall of the tube 1. the Connections of the two electrodes 2 and 3 to one operated, for example, with 3000 volts Voltage sources are not illustrated in detail.

Both electrodes 2 and 3 are in the illustrated embodiment designed as a twill fabric (diagonal fabric), the fabric wires of which are helical run around the longitudinal axis of the tube.

In the operation of the device is not shown in the drawing Fan shown an intense air flow in the direction of arrows 4 through creates the interior of the tube as well as along its outer surface. This to be ionized Thanks to the inventive design of the electrodes 2 and 3, air gets in as Body tissue without turbulent flow in the whole contributing to ionization Space between the electrodes 2 and 3 and the outer wall or inner wall of the Tube 1. With the ionization tube according to the invention can therefore be a relatively low expenditure on ionization energy and fan power a very intensive, Achieve uniform ionization of the air and thus an effective air improvement.

Claims (3)

Claims: 1. Ionization tube for devices for air freshening with one insulating tube and two resting against the inner or outer wall of the insulating tube metallic electrodes, of which at least one electrode is covered by a wire mesh formed and in operation by a moving in the direction of the longitudinal axis of the tube, to be ionized air flow is flushed, characterized in that the wire mesh (2, 3) is designed as a twill fabric, the fabric wires of which are helical run around the longitudinal axis of the tube. 2. ionization tube according to claim 1, characterized in that the twill fabric (2, 3) consists of round threads with a thickness between 0.1 and 0.5 mm. 3. ionization tube according to claim 1, characterized in that the distance between adjacent tissue wires of the body tissue (2, 3) between 0.3 and 1.5 mm lies. Publications considered: Austrian patent specification No. 235 524.