RU148460U1 - FILTERING APPARATUS - Google Patents

Abstract

1. Respiratory filtering apparatus, consisting of an air supply device, a filter element and a front part, characterized in that an injector (ejector) and a gas source in the form of a cylinder with a locking-reducing device are used as an air supply device. A respiratory filter apparatus according to claim 1, characterized in that a chemical generator is used as a gas source of the air supply device. Respiratory filtering apparatus according to claims 1 and 2, characterized in that an economizer (gas battery) is installed in front of the front part. 4. A respiratory filtering apparatus according to claims 1 and 2, characterized in that the front part can be in the form of a hood or a full-face mask. 5. A breathing filter apparatus according to claim 4, characterized in that the front part can be either with overpressure or without excess pressure under the front part. A respiratory filter apparatus according to claim 1, characterized in that the gas source has the ability to control the gas supply to the injector nozzle. The respiratory filter apparatus according to claim 1, characterized in that at the gas source there are indicators (manometers, indicators, etc.) of high and / or medium pressure.

Description

The utility model relates to personal respiratory protective equipment (PPE) filtering with forced air supply and is designed to protect the respiratory system and the face of a person when working in conditions not suitable for breathing, as well as to protect against harmful aerosols, gases and vapors and their combinations in ambient air.

The claimed technical solution can be used in filtering devices with forced air supply for use in closed containers, tanks, wells, compartments and other isolated premises of this type.

The known design of filtering apparatus with forced air supply is OptimAir 3000 (MSA catalog, http://www.tex-x.ru), Proflow 2SC 120 (SCOTT catalog, http://profinservice.com.ua), and others. consist of an air supply device, a filter element and a front part. The air supply device is an electric fan that runs on battery power.

The disadvantage of these technical solutions is that they can be used only in an environment containing at least 17% volumetric oxygen, and also require special performance when used in explosive gas polluted rooms, due to sparking in the air supply device.

The technical result in the claimed utility model is achieved by using an injector (ejector) and a gas source (cylinder with a locking and reducing device, chemical generator, etc.) as an air supply device. As gas, compressed air, compressed oxygen, or artificial respiration can be used.

As a result of this technical solution, the scope of the apparatus is expanding. It can be used in an environment with an oxygen content of less than 17% by volume or in an environment with a complete lack of oxygen, including in explosive atmospheres when using oxygen or an artificial respiratory mixture as a gas.

The design of the apparatus is illustrated by the diagram, where Fig. 1 shows: a source of compressed gas (cylinder, chemical generator, etc.) 1, an injector (ejector) 2, at least one filter element 3, an economizer (gas battery) 4 and the front part 5 (full face mask or hood).

The device operates as follows: when you turn on the gas source 1, the gas enters the nozzle of the injector 2; when leaving the nozzle, the gas at a high speed enters the mixing chamber of the injector, where it entrains air from the environment coming through the filter elements 3 and special openings in the injector body; then the breathing mixture enters the diffuser, where it is again accelerated and then through the hose the mixture enters the economizer 4 and then into the front part 5 for breathing by the user. The filter elements 3 are designed to clean the injected air. The front part 5 is designed to isolate the respiratory system and vision from the harmful effects of the environment and provide breathing, it can be with overpressure or without overpressure. The economizer (air accumulator) 4 is designed for more efficient use of the working gas from the source (the breathing mixture does not get etched into the environment during exhalation, but accumulates in the economizer), as well as to create more comfortable conditions (the breathing mixture comes to the inspector from the economizer located close to the front part, thereby reducing inspiration resistance) when working in the device. When using, as a source of gas, a cylinder with a locking and reducing device for the convenience and safety of the apparatus, pressure indicators (manometers, indicators, etc.) of gas in the cylinder, as well as the outlet pressure of the locking and reducing device, can be used. Also, for a more efficient use of the apparatus, the gas source can be controlled by adjusting the gas supply to the injector nozzle, thereby ensuring optimal flow of working gas in specific conditions of use.

Claims (7)

1. Respiratory filtering apparatus, consisting of an air supply device, a filter element and a front part, characterized in that an injector (ejector) and a gas source in the form of a cylinder with a locking-reducing device are used as an air supply device. 2. The respiratory filter apparatus according to claim 1, characterized in that a chemical generator is used as a gas source of the air supply device. 3. Respiratory filtering apparatus according to claims 1 and 2, characterized in that an economizer (gas battery) is installed in front of the front part. 4. The respiratory filtering apparatus according to claims 1 and 2, characterized in that the front part can be in the form of a hood or a full-face mask. 5. The respiratory filtering apparatus according to claim 4, characterized in that the front part can be both with overpressure and without excess pressure under the front part. 6. The respiratory filter apparatus according to claim 1, characterized in that the gas source has the ability to control the gas supply to the injector nozzle. 7. The respiratory filter apparatus according to claim 1, characterized in that at the gas source there are installed indicators (manometers, indicators, etc.) of high and / or medium pressure.

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