CS213807B1 - Ionization field generating circuitry - Google Patents

Description

The invention relates to a wiring for generating an ionization pole of ¹ " airborne ions, pre-ionizing air in rooms, air-conditioned rooms and laboratories, industrial plants, warehouses in order to influence its microbiological and hygiene properties, and to influence electric fields such as also in order to eliminate electrostatic charges on materials and raw materials.

It is generally known to use artificial ionization, i. formation of air ions by ionizers for medical purposes in medicine. In this case, the exploitation of negative airborne light ions, which does not occur through the air in which they are produced, is utilized. Negative air ions work through the respiratory tract or through the skin surface with positive results for the human body.

Also for industrial purposes, light air ion concentration can be used as a parameter that characterizes air quality and purity, and it is known that light air ion concentration is indirectly dependent on the concentration of condensation cores that form dust, air pollutants and impurities. Another possibility of using light air ions of ionization pole in industry is the elimination of electrostatic charge, which has a destructive character in the processing of synthetic materials in the production process and to reduce the intensity of electric fields, which also adversely affect human physiology and health.

213 807

213 807

Hitherto known connections for air ionization and the use of a high-intensity electric pole in their operation are designed to ionize air only in confined spaces or for therapeutic purposes and biological experiments. These connections consist of a high-voltage power supply consisting of a single transformer or a transformer in conjunction with a rectifier, or a high-voltage multiplier, and high-voltage electrodes. The high voltage sources of these devices are built and constructed to a predetermined constant value of the high voltage required for the operation of the high voltage electrode, which corresponds only to a particular electrode design and given concentration of generated ions.

The disadvantage of these wiring for air ionization is that they use electrodes and spikes, ie. those electrodes which require very high voltage for the ionization itself, of the order of tens of kilovolts and are characterized by a small and very uneven ionization surface. The use of such a very high voltage results in undesirable gas constituents, such as ozone and nitrogen oxides, being generated by ionization itself, with a large consumption of electricity and low efficiency. A further disadvantage of these circuits is that they do not allow to change the concentration of the ions formed without interfering with their design.

Electrode tip deflection and deflection are used to change the ratio of electric pole strength required for ionization and ion density. In order to achieve a higher concentration of air ions in larger spaces, they are only allowed to increase the number of high voltage electrode tips, which in turn has the disadvantage of increasing the weight of such robust devices. From the point of view of the industrial use of these connections for the air ionization of larger enclosures, their great drawback is that they cannot be used alone, but only in connection with ventilation and air-conditioning equipment.

The above drawbacks eliminate the wiring to form an ionization pole from light / air ions for air ionization of premises, air-conditioned rooms and laboratories, industrial plants, warehouses to affect electrical fields in the premises, and to eliminate electrostatic charges on materials and raw materials according to the invention. The principle is that an independent supply and distribution box is connected to an adjustable source of unidirectional high-voltage negative polarity and also to the actual air flow source represented by the fan. An adjustable high-voltage source is connected to a system of surface high-voltage electrodes, which operate on the principle of corona discharge, while the high-voltage electrodes are provided with a protective grid. Before entering the ventilator, a cleaning filter with a firon filter cartridge is provided and the ventilator outlet is connected to the high voltage electrode system via a diffuser.

The circuitry according to the invention achieves an ideal ionization pole formation from light air ions. For this purpose, a high voltage electrode system is used, which means its operation, i. to produce a high intensity electric pole, it only needs a voltage of 4 to 5 kV, while achieving a uniform ionization field over a large effective flat. The rigid geometry in the construction of the high voltage electrode system makes it possible that the undesirable gas components during ionization are negligible. Consumption of electricity from a common network

213 807 water is small, only 50 VA at a sufficient 70% efficiency. A great advantage of the wiring is that the electric pole intensity is adjustable without interfering with the structure according to the environmental conditions where the concentration of light air ions is to be increased. The adjustment allows to change the intensity of the electric pole required for ionization, which also changes the concentration of light air ions produced. With a suitable wiring design, it is achieved that its weight and dimensions are acceptable to be small, forming a separate suspension assembly without being connected to air conditioning and filtering devices. These advantages are made possible by its general use even for industrial purposes.

The subject matter of the invention will be apparent from the following description and from the drawing, in which the connection of an ionizing device in an exemplary embodiment is schematically illustrated. The device, as a stand-alone pendant unit 1, creates an ionization field of light air ions by connecting it to a 220 V, 50 Hz mains power supply using a conventional power cable. The device does not have a separate switch, as most of these connections are switched by a central switch. The mains current is fed to a separate supply and distribution box 2 and from there the activated current is activated by an adjustable source of negative-polarity high-voltage DC 3 located below and by its own source of air flow, which constitutes a fan 5. the negative polarity voltage is achieved by varying the concentration of light air ions produced as needed, the adjustable source 3 being further connected to the adjacent high voltage electrode system 7 operating on the principle of corona discharge, using the high voltage electrode system in a conductor small diameter configuration between the two planes allow a uniform array of light air ions to be produced. The fan 5 serves to create its own air flow, in that on the one hand, the air stream which I have to be ionized is sucked in by the fan 5 from the surrounding environment through a purifying filter 4 having a firon filter element so as to free the extinguished air medium and large dispersions. On the other hand, the fan 5 pushes the purified air into the diffuser 6, which serves to create a streamlined and uniform air flow. The rectified uniform air flow is finally pushed through the high voltage electrode system 17 in which the ionization field is formed from light air ions due to the high intensity of the electric pole in the inter-electrode space. below the surface high voltage electrode system 7, a protective grid 8 with square meshes is placed on the outlet square opening through which ionized air flows into the space where the concentration of negative light air ions is to be increased.

Claims (1)

3 213 807 water is small, only 50 VA at a sufficient 70% efficiency. The great advantage of wiring is that the intensity of the electric pole is adjustable without interfering with the design according to environmental conditions, where the concentration of light air ions is increased. Indeed, the adjustment makes it possible to change the intensity of the electric pole required for ionization, thereby also changing the concentration of the formed light air ions. With a suitable wiring design, its weight and dimensions are achieved by a small one, forming a separate suspension unit without linking to air handling and filtering equipment. These advantages are made possible by its general use even for industrial purposes. The embodiments of the invention will be apparent from the following description and from the drawing, wherein schematically the connections of an ionization device are shown in an exemplary embodiment. The apparatus as a separate suspension unit 1 generates ionization fields from light air ions by connecting it to a 220 V, 50 Hz mains current with a conventional power cable. The device does not have a separate switch because most of these connections are switched by a central switch. The mains current fed into the separate supply and distribution box 2 and from there the divergent current of the operation, on the one hand, an adjustable source of unidirectional high voltage negative polarity 3 placed underneath, and its own source of air flow, which creates a fan 5. If a change in the concentration of the light air ions produced is achieved as required, the adjustable source 3 is further connected to a downstream system of surface high-voltage electrodes 7 which operates on the corona discharge principle, using a high voltage electrode system in the conductive small wire configuration. between the two planes, a uniform field of light air ions formed is achieved. The fan 5 serves to create its own air flow, namely that on one side the air stream which is either ionized by the fan 5 is sucked from the environment through a cleaning filter 4 having a firon filter element so that the extinguished air bag is free of dirt and dust medium and large dispersion. On the other hand, the fan 5 presses the purified air into the diffuser 6, which serves to form a streamlined and uniform air flow. Finally, a uniform air flow directed in this way is finally pushed through the system-wide high-voltage electrodes JZ, in which an ionizing field is formed from the light air ions due to the high electric pole intensity between the electrode space. an enclosed protective mesh 8 with square meshes through which the ionized air flows into the space where the concentration of negative light air ions is increased. OBJECT OF THE INVENTION A connection for the formation of a light air ion ionization pole to ionize the air of a space that forms a separate zoning unit connected to a source of single phase phase voltage, characterized in that a separate fan current source is connected to a separate supply and distribution box (2) (5), and a one-way source of unidirectional high negative voltage polarity (3), a high-voltage flat electrode system (7) with a protective grid (8) is connected to its output 213 807, and a cleaning filter is arranged upstream of the fan (5). 4) and a phicene filter cartridge and a fan outlet (5) is connected to a system of flat high-voltage electrodes (7) via a diffuser (6). 1 drawing