DE2538958C3 - Disinfection device - Google Patents

Description

The invention relates to a disinfection device consisting of an air flow generating ion generator, its electrodes consisting of profiles and ribbons with the opposite Poles of a high voltage source are connected, and a particulate trap.

In known disinfection devices of this type, mechanical filter elements, for example in the form of fleece layers and the like, used. You are already hindering in the fresh, clean state the air flow is considerable, and the obstruction increases with increasing pollution. Dirty mechanical filters need to be cleaned from time to time with no small amount of work removed and renewed. This contributes significantly to the increase in operating costs.

The object of the invention is to provide a filter that is more effective than mechanical filters and that is more effective in operation to create cheaper suspended matter separator for disinfection devices of the type mentioned.

This task is solved in that as Suspended matter separator an electrostatic precipitator is arranged in the air flow path of the device

There is a high-voltage generator for the ion generator anyway must be present, this can advantageously be used for supplying the electrodes of the electrostatic precipitator can be used with high DC voltage. Advantageously, the electrodes of the electrostatic precipitator made of plates and wires

ίο opposite DC voltage polarity formed be, which are arranged alternately next to each other transversely to the air flow.

Further advantages can be achieved by having at least two electrode filter units in Air flow direction arranged one behind the other, the individual electrode elements each on the gap other unit are set. The plates of one unit advantageously have the same Polarity like the wires of the other unit.

If you have the electrode groups of the electrostatic precipitator or its various units via a multipole changeover switch connects to the high voltage source, then one can depending on the local Needs of pollution and the like create optimal polarity relationships.

Furthermore, it can be advantageous if the longitudinal extent of the electrode groups of the ion generator on the one hand and the electrostatic precipitator or its units on the other hand transversely to the air flow under one Cross angles. In this way, the field strength in the disinfection device is favorably influenced.

Further details and advantages of the invention can be found in the following description of a preferred Embodiment can be taken with reference to a drawing. In it shows

F i g. 1 a schematic representation of the sterilization device described below, and

2 shows a broken away perspective illustration the disinfection device.

■ to the disinfection device consists essentially from an ion generator 10 known per se and one in the air flow direction (indicated by arrows indicated) upstream solids separator in the form of an electric filter 20. Both are from one

■ »5 high-voltage generator, not shown, with high DC voltage provided.

As can be seen in particular from FIG. 1 can be seen, the ion generator 10 consists essentially of a plurality of positive angle electrodes 14 extending into the plane of the drawing and out of them Negative strip electrodes 16 opposite to the intermediate spaces. Those made, for example, of aluminum profiles existing angle electrodes 14 are to reduce air resistance with their vertices the air flow indicated by arrows in the opposite direction, while the, for example, off Razor blade material existing tape electrodes 16 with their knife edge against the air flow are aligned. As can be seen from Fig. 2, the strip electrodes 16 can be occupied at regular intervals with needles 17, the tips of which still protrude beyond the cutting edge of the strip electrodes 16 and for an increase in the field strength between the oppositely polarized electrodes 14/16. The angle positive electrodes 14 are Via a line 11 to the 8000 volt Ii *, for example, there is a positive connection of the not shown DC voltage source connected while the

Ribbon electrodes 16 are connected via a line 12 to the negative high voltage pole. the Line 12 can be connected to the device housing (not shown), so-called "grounding" while the positive angle electrodes 14 via insulators, also not shown, on the housing are attached.

The electrostatic precipitator 20 located in front of the ion generator 10 in the air flow direction is, as is particularly evident can be seen from Fig. 1, in two in the direction of flow One behind the other electrode groups I and II subdivided Each group consists of several parallel, in the plane of the drawing of F i g. 1 running into plate electrodes 22 and each from one between two plates and wire 24 running parallel to them. The plate electrodes 22 and thus also the Wire electrodes 24 of the two groups I and II are spaced from one another and electrically from one another separated. Within each individual group, the plate electrodes 22 are connected by a connecting line 22a, and the wire electrodes 24 are in turn connected to one another by a connecting line 24a corresponding contacts of a multipole parallel switch 27 placed. This switch has for each Electrode group I and II each have three movable contacts, which alternate either through a line 29 positive high voltage or a line 30 are connected to ground or negative DC voltage.

With the help of the multi-pole parallel switch 27, the electrode groups I and II can be different, however, they are always polarized in opposite directions. By this measure, the effect of the electrostatic precipitator influence in such a way that both positively and negatively polarized suspended matter particles from the flowing through Air are captured, which means an increased filter effect.

From Fig. 2 it can be seen that the wire electrodes 24 are designed as thin wires and by means of Tension springs 26 are stretched out at both ends between opposite connecting lines 24a. These connecting lines 24a are relatively stiff and with the help of high-voltage-resistant insulating bushes 32 with respect to the housing, not shown, of the disinfection device formed rods insulated The in F i g. The polarity indicated in FIG. 2 corresponds to that in FIG. 1 shown an operating position of the parallel switch 27

Similarly, the parallel plate electrodes 22 are in the spaces between the wire electrodes 24 lined up on the connecting lines 22a designed as bolts and supported by spacer sleeves 23 fixed, even spacing, of course

ίο are also the plate electrodes 22 with their connecting lines built to be high-voltage-resistant insulated from the housing.

While for the sake of simplicity in FIG. 1 all electrodes of the ion generator 10 and the Electrostatic precipitators 20 are shown as extending into the plane of the drawing, in the exemplary embodiment of FIG. 2 the electrodes of the two cross each other Assemblies at a right angle. This has advantages with regard to the field strength distribution achieved in the air stream.

In operation, the ion generator 10 is, for example, as already mentioned, with 8000 volts DC voltage while the first group I of the electrostatic precipitator 20 supplies 4000 volts, and the second group II, for example Receives 10,000 volts DC. These voltages can come from different cascade stages of a single one High voltage generator are derived. However, it can also be advantageous to have two different ones Use generators for both assemblies.

As is known, a so-called ion generator occurs during operation of an ion generator of the type described above »Electric wind« (»ion wind«), which creates a constant flow of air without a fan, for example 1.5 m per second or more generated In addition, the ion generator has a germicidal effect. The air flow flowing through the ion generator 10 is already made up of solid particles such as dust and Like. In the electrostatic precipitator 20 has been released. These particles are located on the electrodes 22 depending on their polarity and 24 are deposited, where they can be easily removed from time to time after long periods of operation can be removed.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Disinfection device, consisting of an ion generator generating an air flow, whose electrodes, consisting of profiles and tapes, have opposite poles one High voltage source are connected, and a suspended matter separator, characterized in that an electrostatic precipitator (20) in the air flow path of the device as a suspended matter separator is arranged. 2. Apparatus according to claim 1, characterized in that the electric filter in two to the types of electrodes connected to opposite poles (+, -) of a high DC voltage source is divided, of which one of parallel and cross-sectionally aligned parallel to the air flow Plates (22) and the other is formed from wires (24), which transverse to the air flow are stretched between the plates. 3. Device according to claim 2, characterized in that that in the air flow direction two or more such electrode groups (I, II) one behind the other are arranged. 4. Apparatus according to claim 2 and 3, characterized in that the plates (22) of the one Unit each have the same polarity as the wires (24) of the other unit, and vice versa. 5. The device according to at least one of claims 2 to 4, characterized in that the different electrodes (22, 24) of the electrostatic precipitator groups (I, II) via a multi-pole changeover switch (27) are connected to the high voltage source. 6. Apparatus according to claim 2 or 3, characterized in that the longitudinal dimensions of the Electrodes (14, 16 and 22, 24) of the ion generator (10) on the one hand and of the electrostatic precipitator (20) on the other hand cross at an angle across the air flow. 7. The device according to at least one of claims 2 to 6, characterized in that the Electrodes of the electrostatic precipitator (20) relative to a frame or the like of the device electrically are constructed in isolation.