RU138246U1 - Ozone Generator - Google Patents

Abstract

An ozone generator containing an electrode, a power supply and an outer casing, characterized in that the outer casing is made in the form of a rectangular tube, in which a fan is mounted on one side and the protective grill is closed on the other and contains a polypropylene pipe with an external grounded metallized coating, including a block power supply and two rectangular plates of insulating material perpendicular to each other, in which an electrode in organosilicon is placed in the form of several turns of a spiral insulation, through connectors connected to the power supply, while the protective grill is located on the side of rectangular plates.

Description

The utility model relates to devices for the synthesis of ozone from oxygen or air, and can be used in medicine and other sectors of the economy, which require the use of ozone for disinfection treatment in conditions of high humidity and dust [C01B 13/11].

In existing designs of ozone generators [1, 2], the electrode is an expensive and prone to contamination element, which makes it necessary to carry out additional purification of the working gas, or switch to working with pure oxygen to ensure stable operation characteristics of the device.

The closest in technical essence analogue is an ozonizer containing a housing made in the form of a pipeline with two electrodes located inside with individual insulating coatings, communicating with a solid jumper made of insulating material along their entire length and connected to a high-voltage AC source. [3] The disadvantage of the prototype is the low stability of the ozonizer, which consists in reducing the specific output of ozone due to contamination of the surface of the insulating coating and the inability to conduct operational cleaning.

The technical result of the utility model is to increase the stability of ozone production.

The specified technical result is achieved due to the fact that the prototype containing the electrode and the power supply, the outer casing is made in the form of a pipe of rectangular cross section, in which, on the one hand, a fan is mounted, and the other is closed by a protective grill and contains a plastic pipe with an external grounded metallized coating including a power supply unit and two rectangular plates of insulating material perpendicular to each other, in which an electrode is placed in a emniyorganicheskoy isolation through connectors connected to the power supply, wherein the safety guard is located on the part of rectangular plates. The novelty of the utility model consists in the introduction of a new functional unit - connectors between the power supply and the electrode and new elements - two insulating plates perpendicular to each other with an electrode in the form of a spiral, which allow for the rapid replacement of the electrode with insulating plates in order to maintain the specified characteristics of the device for generating ozone without thorough preparation of the gas mixture (cleaning, drainage) and without a complicated service procedure.

Brief Description of the Drawings

In FIG. 1 shows a general view of an ozone generator.

In FIG. 2 shows the design of the electrode.

Utility Model Implementation

The device consists of an external housing 1, on one side of which a fan 2 is mounted, and the other is closed by a protective grill 3, including a plastic pipe 4 with an external grounded metallized coating. The plastic pipe 4 includes a power supply 5 through connectors 6 connected to a spiral electrode 7 located in two rectangular plates 8 perpendicular to each other.

In order to ensure electrical safety of the device, the metallized coating of the plastic pipe 4 is grounded.

As the power supply 5 can be used a serial high-voltage (6000 V) high-frequency power supply of neon lamps.

The electrode 7 is made of a wire in organosilicon insulation, the ends of which are equipped with connectors 6 type "tulip".

Rectangular plates 8 are made of insulating material. The device operates as follows.

The fan 2 pumps air into the plastic pipe 4. At the same time, the power supply 5 generates a high-voltage alternating current with a voltage of about 6000 V. At the same time, an electric charge is concentrated on the insulation of the electrode 7 and the plates 8 (reaction zone), which synthesizes ozone and reaction products from oxygen. The injected air removes ozone, part of the reaction products and removes heat from the electrode 7.

The synthesis cycle is repeated until the maximum amount of reaction products and dust, which affects the level of ozone production, is concentrated in the reaction zone. In this case, the device turns off, the protective grill 3 opens, and through the connectors 6, the electrode 7 is disconnected from the power supply 5 and replaced by a new spiral electrode with insulating plates. The protective cover 3 is returned, the ozone generation cycle resumes.

Blowing air of the spiral electrode 7 provides effective heat removal from it, thereby increasing the reliability of its use.

The industrial feasibility of a utility model is justified by the fact that it uses elements and nodes known for their direct functional purpose. In 2013, the applicant manufactured a model of an ozone generator.

Useful technical effects from using the device are:

1. A stable level of ozone production in the conditions of use of air with a high content of dust and moisture, provided by replacing the electrode 7 and the plate 8 with the contaminated insulation coating with a new electrode, and the plate by disconnecting the electrode 7 from the power supply 5 through connectors 6.

2. Reducing the quality requirements of the air used for the presence of dust and moisture is achieved through the use of a removable inexpensive electrode 7 with insulating plates 8.

3. Increasing the specific power of ozone production by increasing the area of the reaction zone.

4. Improving the operational characteristics of the reaction zone due to the use of silicone rubber as an insulating material. A useful economic effect from the use of the device is to reduce the cost of the ozone synthesis process, which is achieved by reducing the quality requirements of the air used, thereby eliminating filtering and drying devices, as well as by manufacturing an electrode from cheap material.

Information sources:

1. RF patent №2289542, Ozonator, IPC C01B 13/11, 2006, authors: Babitsky A.N. et al., patent holder Institute of Physics named after L.V. Kirensky Siberian Branch of the Russian Academy of Sciences.

2. RF patent №2121115, Fan-ozonizer, IPC F24F 3/16, authors: Nikolaev GV, Novikov GN, patent holder Nikolaev G.V.

3. Copyright certificate SU 1754647, Ozonator, IPC C01B 13/11, 1992, patent holder Institute of Physics, Academy of Sciences of the Kyrgyz Republic (prototype)

Claims (1)

An ozone generator containing an electrode, a power supply and an outer casing, characterized in that the outer casing is made in the form of a rectangular tube, in which a fan is mounted on one side and the protective grill is closed on the other and contains a polypropylene pipe with an external grounded metallized coating, including a block power supply and two rectangular plates of insulating material perpendicular to each other, in which an electrode in organosilicon is placed in the form of several turns of a spiral insulation, through connectors connected to the power supply, while the protective grill is located on the side of rectangular plates.

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