RU222934U1 - Ozone generating device - Google Patents

Abstract

The utility model relates to devices for the synthesis of ozone from oxygen or air.

It is used in medicine and other sectors of the national economy that require the use of ozone for disinfection treatment in conditions of high humidity and dust.

A device for generating ozone, consisting of a composite body with a thread (1), an inlet pipe (2), an outlet pipe (3), a generator (7), a ceramic plate for generating ozone (4), plugs (6), and plugs ( 6) are fixed to the ends of the composite housing with threads (1), and the generator (7) has racks for attaching at least one ceramic plate for ozone generation (4).

Description

The utility model relates to devices for the synthesis of ozone from oxygen or air.

It is used in medicine and other sectors of the national economy that require the use of ozone for disinfection treatment in conditions of high humidity and dust.

BACKGROUND OF THE ART

Patent RU 2128143 MPK S01B 13/11 is known from the prior art, published on 03/27/1999. The invention relates to the field of ozone production and can be used in industrial and rural areas. X. enterprises for processing air and water environments.

The beneficial effect of the present invention is to simplify the design and improve the performance of the ozonizer.

The disadvantages of this invention are the absence of a sealed housing for collecting ozone with the possibility of its subsequent local output.

Patent RU 77944 IPC F24F 3/16 published on November 10, 2008 is known from the prior art. The utility model relates to poultry farming, in particular to systems for cleaning and ozonizing recirculated air in livestock and poultry buildings.

The beneficial effect of the utility model is to increase the efficiency and reduce the energy consumption of technological processes in livestock and poultry complexes due to the highly effective purification of recirculated air and its simultaneous saturation with ozone.

The disadvantage is the inability to hermetically collect the generated ozone, as well as its targeted local output.

Patent RU 138246 MPK S01B 13/11, published on March 10, 2014.

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 national economy that require the use of ozone for disinfection treatment in conditions of high humidity and dust.

The beneficial effect of the present utility model is to increase the stability of ozone production.

The disadvantage of this utility model is the lack of tightness of the housing for centralized collection of generated ozone with the possibility of subsequent local output, while at the same time there is no quick access to the inside of the product to replace the plates.

Patent RU 138246 MPK S01B 13/11, published on March 10, 2014.

Taken as the closest analogue, the disadvantages of which are eliminated by the proposed technical solution.

DISCLOSURE OF THE ESSENCE OF THE UTILITY MODEL

The technical challenge is to expand the arsenal and functionality of ozone generation devices.

The technical result, which the claimed technical solution is aimed at achieving, is the creation of a device for generating ozone, providing ozone generation with a sealed collection and local output with the ability to quickly access the elements of the internal part of the device.

The technical result makes it possible to achieve a device for generating ozone, consisting of a composite body with threads, an inlet pipe, an outlet pipe, a generator, a ceramic plate for generating ozone, plugs, wherein the plugs are fixed to the ends of the composite body with threads, and the generator has racks for mounting less than one ceramic plate to generate ozone.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 - Image of a device for generating ozone.

Fig. 2 - Image of a device for generating ozone inside.

Fig. 3 - Functional diagram of the ozone generator.

In fig. 1-3 the following positions are indicated:

1 - Composite body with thread;

2 - Inlet pipe;

3 - Outlet pipe;

4 - Ceramic plate for ozone generation;

5 - Wire;

6 - Plugs;

7 - Generator.

IMPLEMENTATION OF THE UTILITY MODEL

All components of this utility model are described in detail below with reference to the drawings and the reference positions indicated on them for a more complete understanding of the scope and all technical aspects of the claimed technical solution by a person skilled in the art.

In fig. 3 shows a diagram of the claimed device for generating ozone.

The composite body with thread 1 is a container, for example cylindrical, which consists of two components. Two parts of a composite body with a thread 1 are connected into a single whole using a thread and its counterpart, which are made directly on the component elements. The threaded connection allows for quick access to the internal space of the device for generating ozone, and also allows for the required parameters of the tightness of the structure.

The inlet pipe 2 is a pipe fixed, for example, by welding, in a hole located on the side of a composite body with a thread 1. It is used to supply the source material for the subsequent generation of ozone.

The outlet pipe 3 is a pipe fixed, for example, by welding, in a hole located on the side of a composite body with thread 1. It is used for local output of generated ozone to the location required by the user.

The ceramic plate for generating ozone 4 is a rectangular element connected to the generator 7 by soldering wires from the generator 7 to the contact pads of the ceramic plate for generating ozone 4. Also, the ceramic plate for generating ozone 4 in the corners has holes for installation on the posts of the generator 7, and the lower part is made with perpendicular rectangular protrusions located at an equal distance from each other to ensure the removal of excess heat. The ceramic ozone generation plate 4 is used directly to generate ozone inside the composite threaded housing 1.

Power wire 5 is a thin conductor of several rubber-braided strands. One end is connected to the network, the other is hermetically soldered to the generator 7. It is used to power the generator 7.

Plugs 6 are a flat product, for example round in shape, and can be made of the material of the composite body with threads 1. They are installed in the end parts of the composite body with threads 1 and prevent the inadvertent escape of gas beyond the boundaries of the composite body with threads 1. Plugs 6 are securely connected to composite body with thread 1 assisted welding or threaded connection, ensuring sealing of the internal space.

Generator 7 is a device in a rectangular body with metal posts in the corners used to fasten the ceramic plate for generating ozone 4. At the end there is a hole for the power wire 5 and connection wires to the ceramic plate for generating ozone 4. It is used to create the required voltage for the operation of a ceramic plate for ozone generation 4. Installed in the internal space of a composite housing with thread 1.

The device operates as follows.

Description of the operating principle of the ozone generation device is to turn on the power to the generator 7 using the power wire 5, after which a corona discharge is formed on the ceramic ozone generation plate 4.

After that, the initial gas mixture is supplied to the composite housing with thread 1 using the inlet pipe 2. The gas mixture passing around the ceramic ozone generation plate 4 is converted by splitting oxygen molecules and then combining them into another compound - ozone.

The tightness of the ozone generation device due to the connection of the composite body with thread 1 and plugs 6 does not allow the resulting gas to spread outside the ozone generation device. In this case, the design of the housing in the form of a composite housing with thread 1 allows, if necessary, to provide quick access to the internal space of the device for generating ozone. The resulting ozone is discharged through the outlet pipe 3 to a strictly user-defined location. In addition, the columns on the generator 7 allow you to arrange several ceramic plates for generating ozone 4, which will increase the power of the ozone generating device and produce more ozone.

In this case, the ceramic plates for ozone generation 4 must be placed at a distance from each other to prevent breakdown and burnout of the conductive paths on the ceramic plates for ozone generation 4. The required distance is ensured by springs placed between each subsequent ceramic plate for ozone generation 4.

Thus, a technical result has been achieved, namely the creation of a device for generating ozone, providing ozone generation with a sealed collection and local output with the ability to quickly access the elements of the internal part of the device.

Claims (1)

A device for generating ozone, consisting of a composite body with threads, an inlet pipe, an outlet pipe, a generator, a ceramic plate for generating ozone, plugs, wherein the plugs are fixed to the ends of the composite body with threads, and the generator has stands for attaching at least one ceramic plates for ozone generation.