RU147285U1 - HOSE UNIT - Google Patents

Abstract

1. Respiratory hose apparatus, consisting of an air supply device, a hose reel and a front part, characterized in that an injector (ejector) and an air source in the form of a cylinder with a shut-off reducing device, or a network source of overpressure or autonomous, are used as an air supply device minicompressor. 2. Respiratory hose apparatus according to claim 1, characterized in that the front part can be in the form of a hood or a helmet-mask or a full-face mask, both with overpressure under the front part and without overpressure. 3. Breathing hose apparatus according to claim 1, characterized in that at least one filter element in front of the front part is used to improve the quality of the inhaled air. 4. A breathing hose device according to claim 1, characterized in that an economizer (air accumulator) located in front of the front part is used to increase the efficiency of the device and improve breathing conditions. A breathing hose apparatus according to claim 1, characterized in that for a more efficient use of the apparatus, the air source has the ability to control the air supply to the injector nozzle. 6. The breathing apparatus according to claim 1, characterized in that for safety and ease of use, high and / or medium pressure indicators (manometers, indicators, etc.) are installed on the air source.

Description

The utility model relates to personal respiratory protective equipment (PPE) and is intended to protect the respiratory system and the face of a person when working in conditions not suitable for breathing, in particular, in conditions where less than 17% of volumetric oxygen is in the air, as well as when harmful substances of unknown composition and concentrations.

The claimed technical solution can be used in hose gas masks for use in closed containers, tanks, wells, compartments and other isolated rooms of this type.

Known insulating hose breathing apparatus (patent PM No. 46189 from 08.02.2005) containing a portable pneumatic system with cylinders for compressed air, a user rescue unit, a hose, a lung machine connected to the face mask. The pneumatic system contains cylinders for compressed air connected through a shut-off valve with a pressure gauge, a quick-fill valve and a gear; a coil connected to a medium pressure hose. The pneumatic system is made in a compact mobile design with carrying straps on the shoulders, with shock-absorbing supports on the base of the cylinders, and a medium pressure hose reel is mounted on the suspension system of the cylinders. User’s rescue unit with increased protective time is made of lightweight balloons for backup air, with a shut-off valve, pressure gauge, recharge valve and distribution tee, which automatically turns on the backup air supply to the user's face mask while disconnecting the medium pressure hose in the event of a fall pressure in it or in case of damage.

The disadvantage of this technical solution is that in the apparatus the working hose is under medium pressure, the hose itself is small in cross section, which increases the likelihood of damage (breakage, cutting, crushing, etc.). The pneumatic system designed to be carried by the user himself is limited in weight, which, in turn, limits the supply of air for breathing (you can not use large-capacity cylinders) and thereby the device’s operating time.

A known design of a hose gas mask PSh-2 (TU 2568-243-05795731-2006, http://www.sorbent.ru, prototype), consisting of an air supply unit, a hose reel, ammunition and a front part.

The disadvantage of this technical solution is that the installation for supplying air with a combined drive, operating from an electric motor or from a manual drive, requires the presence in the area of use of the apparatus, an electrical AC network (220 V, 50 Hz) and at least two people, when working from a manual drive (one - safety, the second - twists the handle of the manual drive). At the same time, the air supply from the manual drive is reduced more than 2 times (120 dm ³ / min from the electric motor and 50 dm ³ / min from the hand drive at a crank speed of 65 ± 5 rpm). When working in manual mode, it is possible to ensure the indicated speed only for a short time. Those. manual air supply can be considered emergency in the event of a motor failure.

The technical result in the claimed utility model is achieved by using as an air supply device an injector (ejector) and an air source (cylinder with a shut-off reducing device, a network source of overpressure air, an autonomous minicompressor, etc.).

As a result of this technical solution, there is no need for the presence in the area of use of the apparatus of an electric AC network, as well as the need for a second one.

The design of the apparatus is illustrated in the diagram, where in FIG. 1 shows: an air source (cylinder with a locking-reducing device, a network source of overpressure air, an autonomous mini-compressor, etc.) 1, an injector (ejector) 2, a hose reel 3, at least one filter element 4, an economizer (air battery) 5, ammunition (suspension system) 6 and front part 7 (helmet-mask, full-face mask or hood).

The device operates as follows: when the source 1 is turned on, air enters the nozzle of the injector 2; when leaving the nozzle, the air enters at a high speed into the mixing chamber of the injector, where it entrains air from the environment coming through special openings in the injector body; then the mixed air enters the diffuser, where it is again accelerated and further into the hose 3; from the hose, air enters the economizer 5 and then into the front part 7 for breathing by the user. The filter elements 4 are designed to clean the working, injected and / or mixed air, can be located both at the inlet to the injector and at the outlet, as well as at the entrance to the front part. Ammunition (suspension system) 6 is designed to place the nodes of the device on the user's body and ensure operational safety. The front part 7 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) 5 is designed for more efficient use of working air from the source (air during exhalation is not etched into the environment, but accumulates in the economizer), as well as to create more comfortable conditions (air for inspiration comes from the economizer located close to the front part, thereby reducing the resistance to inhalation) when working in the device. When using, as an air source, a cylinder with a locking and reducing device for the convenience and safety of the apparatus, pressure indicators (manometers, indicators, etc.) of air 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 air source can be controlled by adjusting the air supply to the nozzle of the injector, thereby ensuring optimal flow of working air in specific conditions of use.

Claims (6)

1. Respiratory hose apparatus, consisting of an air supply device, a hose reel and a front part, characterized in that an injector (ejector) and an air source in the form of a cylinder with a shut-off-reducing device, or a network source of overpressure or autonomous, are used as an air supply device minicompressor. 2. A breathing hose device according to claim 1, characterized in that the front part can be in the form of a hood or a helmet-mask or a full-face mask, both with overpressure under the front part and without overpressure. 3. The breathing apparatus according to claim 1, characterized in that at least one filter element in front of the front part is used to improve the quality of the inhaled air. 4. A breathing hose device according to claim 1, characterized in that an economizer (air accumulator) located in front of the front is used to increase the efficiency of the device and improve breathing conditions. 5. The breathing apparatus according to claim 1, characterized in that for more efficient use of the apparatus, the air source has the ability to control the air supply to the injector nozzle. 6. The breathing apparatus according to claim 1, characterized in that for safety and ease of use, high and / or medium pressure indicators (manometers, indicators, etc.) are installed on the air source.

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