DE3618403A1 - DEVICE FOR PURIFYING GAS, IN PARTICULAR AIR - Google Patents

Abstract

Device consisting of a housing provided with a gas inlet and outlet grid, and a fan. The problem is to produce an easily-made device for cleaning air, especially for air conditioning plant, in which, by using electrical means presenting no hazards to man, air can be purified in an excellent manner and be freed of germs and bacteria. The invention consists in arranging in the housing at least one electrically-charged grid of a discharge path, said grid being connected to a tapping on the secondary winding of a Tesla transformer and forming the one pole of a discharge path for the high-frequency power produced in the Tesla transformer.

Description

The invention relates to a device for cleaning Gases, especially air, consisting of a gas inlet and gas outlet grille with housing a blower.

Devices for cleaning air, and under it will not only the removal of solid particles, but also that Sanitizing, removing bacteria, viruses, etc. ver have become known in large numbers. they are often equipped with a filter in order to Air contained dust and other suspended particles remove. It is also known the air between elek trical filters pass through, the dust and floating Charge particles of electricity electrostatically and transfer them to electro to deposit statically charged objects. The like electrical filters are expensive to buy and have significant energy consumption. The on Effective high voltages in their electrodes require protection measures so that not people with this high voltage come into contact with leading parts. These protective measures expand the large installation space already required  considerably. Hence the application of such filters limited industrial purposes, even with large air conditioners for large office buildings, hospitals, industrial halls and they are hardly used. You also have the night partly that it is only slightly if anything, kill germs and bacteria. The destruction of germs and bacteria is however of high for air conditioning systems Importance because climate without killing germs and bacteria excellent outbreaks of infection for infectious people form units. For this reason, air-conditioning systems become germs and bacteria in other ways, mostly by chemical means, killed. This requires additional effort in the filter system.

The invention avoids these disadvantages. It is the job the invention, a simply constructed device for cleaning create air, especially for air conditioning systems, in the electrical safe for humans Air excellently cleaned and free of germs and bak terien is exempted.

The invention is that in the housing at least one electrically charged grid of a discharge line is assigned, which with a connection of the secondary winding a Tesla transformer is connected and which the a pole of a discharge path in the Tesla transformer generated radio frequency energy forms.

The high-voltage energy generated in the Tesla transformer is harmless to humans since it has a frequency of about 100 kHz and more. The device for cleaning of air can therefore in small devices with little space be built, where no special protective measures due to the radio frequency energy used, although high voltages in the order of magnitude in the device  voltage of 5-50,000 volts are effective. Through the application of discharges of the high generated in the Tesla transformer Frequency energy is not just a dust and suspended matter component Chen electrically charged, but it will also be in the too gases, vapors and solid particles present in the cleaning air ionized and thereby deposited. Especially however, the formation of ozone in the electrical is important Discharges, ozone is an excellent means of killing of germs and bacteria. The manufacturing effort for this Air purification device is relatively low. The Tesla transformer can use electricity from any house stop existing public supply networks its electricity consumption is in relation to the electricity consumption use of other discharge paths extremely low, because only low currents flow because of the high frequency, and is the electrical efficiency of a transformer high. The degree of killing of germs and bacteria surprisingly high despite the low energy consumption.

One with a paper, fiber, glass frit or textile it is expedient if the discharge path is arranged in front of the filter to hold back the filter catching parts. It can be useful that filter electrostatically charge or as an electrode to be used or to be covered or provided with electrodes.

It is advantageous if the other pole of the discharge path by not in front of or behind the paper, fiber or Textile filters arranged conductors in the form of wires, Rods, braids, grids or the like or through the wings of the blower or through on or in the paper, glass fiber or textile filter arranged conductor or through the Entry grille is formed. The constructive options  for the formation and design of the second electrode the discharge gap are thus large and give the Kon structurer based on many possibilities, simple and with little effort and with little space, the device for To clean the air.

It can be especially when operating in hospitals, however also for operation in warehouses for food, medicine medium or others to be protected against germs and bacteria Goods should be useful if behind the paper, glass fiber or textile filter another, through a Tesla Trans Formator-fed discharge path is arranged.

It is advantageous if behind the paper, glass fiber or textile filter and behind this further Discharge path an activated carbon filter is arranged.

It can be just as important that the electrodes or filters are or are coated with substances caused by influence of electrical discharges in gaseous state go and influence or enhance the desired effect.

The filtering and cleaning effect is achieved by a between Electrode and filter applied internal or external direct current source further increased.

In the various areas of application, it makes sense to use the To completely or partially encase the electrode or both.

To achieve certain effects (including protection of elec toden) the possibility must exist that between Electrode and sheathing remain in a space containing gas or liquid can be filled.  

One can during the operation of this device Purifying air the paper, fiberglass or textile filter can be moved slowly, again and again fresh parts are led into the air flow. Especially but it is advantageous if the motion drive for the Paper, glass fiber or textile filters sporadically a control device is activated, the controlling element a clock or on or behind the Filter arranged, the degree of contamination of the filter or measuring the degree of pollution of the air behind the filter Sensor.

For this purpose it is paper, fiberglass or textile web-shaped fabric filter. It can be wound on rolls be.

It is advantageous if the filter after passing through the device by a cleaning or washing system is led. If there is one, the paper, Glass fiber or textile fabric web can also be designed endlessly and again and again the air flow in the device for cleaning through air.

The device can also be inserted at the same time of evaporation or decomposition products of certain Liquids are used to e.g. B. its fictions too to reach. It is advantageous if above one Electrode of the discharge gap one or more drops dispenser, atomizer or a wetting device are arranged, which liquid on the electrode or the Apply filter.

The essence of the invention is based on in the Drawing schematically illustrated embodiments  explained in more detail. It shows

Fig. 1 shows a section through a device for purifying gases, in particular air, fabric filters with two rear purely other connected paper, glass fiber or hard, two discharge devices, and an activated carbon filter,

Fig. 2 a charge distance simply constructed apparatus with a decision and a paper, glass fiber or solids filter,

Fig. 3 charge stretch a simply constructed device with two Ent and a Textilstoffilter,

Fig. 4 is a view of part of a textile filter web.

In the housing 1 , a blower is arranged, which gases, in particular air, through the inlet grille 3 towards the outlet grille 4 through a first discharge path 5 , a first paper, glass fiber or solid matter filter 6 , a second paper, glass fiber or Solid filter 7 , a second discharge section 8 , an activated carbon filter 9 and the outlet grating 4 presses. The paper, glass fiber or solid material filters 7, 8 are long filter webs, which are unwound from a roll 10 and wound on a roll 11 . The direction of movement of the two continuously driven paper, glass fiber or solid filter webs ( 6, 7 ) is opposite.

Before and after the paper, glass fiber or solids filter tracks 6, 7 , a discharge path 8 is arranged. This consists of a grid, which can be made of bars or pieces of wire, which are expediently arranged parallel to one another and are connected to one another at least at one end by a conductor, but which are preferably designed as a wire mesh. These two grids of the discharge gap are connected to the end versions of the secondary coil, each of a Tesla transformer.

This Tesla transformer draws its energy from a public power grid via the transformer 13 , the secondary coil of which supplies the electrical energy to an oscillating circuit which is formed from the capacitor 14 and the primary coil 15 . A choke 16 forms a high-frequency resistance in the circuit of the secondary coil of the transformer 13 . A switch, preferably an electronic switch 17 , is provided in the resonant circuit 14, 15 . The brought in high frequency transformer 12, 15 to high voltages electrical vibrational energy of the resonant circuit 14, 15 is switched to the two surface electrodes of the discharge gap 5 and 8 ge. Because of the high vibration frequency of more than 10 (high 4) Hz, touching the electrodes of the discharge paths 5, 8 is completely harmless to humans despite the high voltages generated in the value of approximately 5000 to 30,000 volts.

Sparks form between the two electrodes of the discharge paths 5, 8 , which form in the case of flat electrodes in a static distribution over the entire area of the electrodes, with 50,000 discharges per second or more the entire gap between the two surfaces of a discharge path of electrodes electrical discharge energy is filled, which is able to convert tax molecules into ozone, and is able to ionize gases, vapors and also solid particles. This electrical energy in its outstandingly uniform distribution in the entire space between the two electrodes leads to an almost complete destruction of all germs and bacteria which are carried through this discharge path with gases, in particular air.

In the embodiment of FIG. 2, the leads of the secondary coil 12 of the Tesla transformer are connected on the one hand to the inlet grille, and on the other hand via the brush 18 to the impeller 19 of the blower 2 , so that the discharge gap between the inlet grille 3 and the impeller 19 is formed. The paper, glass fiber or solid filter 6 is in this case not continuously, but sporadically driven by a motor 20 which is set in motion by the control device 21 from time to time. The control device 21 evaluates measurements that are recorded by a transmitter 22 or a transmitter 23 . These transducers 22, 23 work as sensors and determine whether the part of the tape of the paper, glass fiber or solid filter 6 that is currently in operation is still sufficiently filtering out the dirt and suspended particles. The sensor 22 carries out the measurement via an electrical conductivity measurement by two brushes on the paper, glass fiber or solid of the paper, glass fiber or solid filter 6 , while the sensor 23 contains the content of dirt particles in the gases, in particular Air behind the paper, fiber or solid filter 6 detects. If the number of dirt, dust and suspended matter particles in the space behind the paper, glass fiber or solid matter filter 6 rises above a certain predeterminable value, then the control device 21 sets the motor 20 into operation until the contaminated part of the web the paper, glass fiber or solid material filter 6 is wound up on the take-up roll 11 and at the same time from the unwind roll 10 a piece of paper, glass fiber or solid matter filter of the same length is wound up and brought into the stream of space by gases, in particular air .

In the exemplary embodiment in FIG. 3, two discharge paths are again provided, the electrode of the discharge path 5 being the inlet grid 3 and the one electrode of the discharge path 8 being the outlet grid 4 . A textile filter 24 is provided here, which is simultaneously designed as a counter electrode. Namely, for this purpose 25 wires 26 or metal strips 27 (preferably aluminum foil strips) and / or a perforated metal foil 28 are arranged on the textile fabric 25 . The electrical energy is directed to these parts 26, 27, 28 of the counter electrode of the discharge gap with the aid of a metal brush 29 .

In this exemplary embodiment, it is expedient if the direction of the spark formation is directed away from the inlet grille 3 onto the counterelectrode 26, 27, 28 and thus onto the textile filter 24 . In order to achieve this direction of the sparks, high-frequency diodes 30 are arranged between the guides of the secondary coil 12 of the Tesla transformer and the electrodes of the discharge gap 5 .

The second discharge path in the exemplary embodiment in FIG. 3 is formed between the impeller 19 of the blower 2 and the outlet grille 4 .

• List of reference numbers
  1 housing
  2 blowers
  3 entry grilles
  4 outlet grilles
  5 discharge path
  6 paper, fiberglass, fabric filters
  7 paper, fiberglass, fabric filters
  8 discharge path
  9 activated carbon filter
  10 roll
  11 roll
  12 secondary coil
  13 transformer
  14 capacitor
  15 primary coil
  16 choke
  17 switches
  18 brush
  19 impeller
  20 engine
  21 control device
  22 sensors
  23 sensors
  24 textile filter
  25 textile fabric
  26 wires
  27 metal strips
  28 perforated metal foil
  29 brush
  30 high frequency diode,
  31 drop dispensers

Claims (18)

1. A device for cleaning gases, in particular air, consisting of a housing provided with a gas inlet and gas outlet with a blower, characterized in that at least one electrically charged grid of a discharge path ( 5 ) is arranged in the housing, which with a connection of the Secondary winding ( 12 ) of a Tesla transformer ( 12, 15 ) is connected and which forms the one pole of a discharge path of the high-frequency energy generated in the Tesla transformer ( 12, 15 ). 2. Device according to claim 1, with one or more paper, fiber, glass fiber or textile filters, characterized in that the discharge path ( 5 ) is arranged in front of the filter. 3. Apparatus according to claim 1 and 2, characterized in that the paper, fiber, glass fiber or textile filter ( 6, 7 ) is fixed and / or movable during operation. 4. The device according to claim 1, characterized in that the other pole of the discharge gap ( 5 ) by closely arranged in front or behind the paper, glass fiber or solid filter conductor in the form of wires ( 26 ), rods, Ge braiding, grids or the like or by the wing ( 19 ) of the blower ( 2 ) or by conductors ( 26, 27, 28 ) arranged on or in the paper, glass fiber or solid matter filter ( 6, 7 ) or by the inlet grille ( 3 ). 5. The device according to claim 2, characterized in that behind the paper, glass fiber or solid filter ( 6, 7 ) a further, through a Tesla transformer ( 12, 15 ) fed discharge path ( 8 ) is arranged. 6. The device according to claim 2 and / or 5, characterized in that an activated carbon filter ( 9 ) is arranged behind the paper, glass fiber or solid matter filter ( 6, 7 ). 7. The device according to claim 2, characterized in that the movement drive ( 20 ) for the paper, glass fiber or solid matter filter ( 6 ) is sporadically put into action by a Steuerervor direction ( 21 ), the controlling element of a clock or on or behind the filter is an ordered sensor ( 22, 23 ). 8. The device according to claim 2, characterized in that the paper, glass fiber or solid filter ( 6, 7 ) is web-shaped and is wound on rolls ( 10, 11 ) or is designed as an endless web. 9. The device according to claim 2, characterized in that the filter ( 6, 7 ) is guided after passing through the device through a cleaning or washing system. 10. The device according to claim 1, characterized in that a drop dispenser ( 31 ) or a wetting device is arranged above the one electrode of the discharge gap ( 5, 8 ). 11. The device according to claim 1, characterized in that between the secondary coil ( 12 ) of the Tesla transformer ( 12, 15 ) and the electrodes of the discharge gap ( 5 ) suitable electrical or electronic circuits or elements, for. B. high-frequency diodes ( 30 ) are arranged, which influence the shape and direction of discharge. 12. The device according to claim 1 or 2, characterized, that the one electrode or filter with a while the discharges of volatile liquid, pasty or solid material or be made of this material stands. 13. The apparatus of claim 1, characterized, that a supply of oxygen or other gases into the Housing of this device is made. 14. The apparatus of claim 1, characterized, that the supply of gas to the device and / or the Feeding suitable devices for physical Pretreatment are upstream. 15. The apparatus according to claim 1, characterized in that the one electrode is the impeller ( 19 ) of the blower and the other electrode is a ring-shaped grid or braid. 16. The apparatus of claim 1, characterized, that an electrode wholly or at least partially by one dielectric material is encased. 17. The apparatus of claim 1, characterized, that there is a space between the electrode and the casing which with solid, liquid, pasty or gaseous substances is fillable, which is influenced by electrical discharges go into a gaseous state. 18. The apparatus according to claim 1, marked by additionally applied internal or external DC voltage Electrode filter and / or filter filter.