RU29469U1 - Compressed air hose breathing apparatus - Google Patents

Description

Compressed air hose breathing apparatus

The device is designed to protect the respiratory and human eyes from the harmful effects of an unsuitable environment, for example, toxic and smoky gas environments, when working in such an atmosphere in various industries, as well as for use as a rescue tool in extreme situations.

The closest analogue of the proposed solution is known from the description of US patent No. 4377163, CL. A 62 B 7/00, published 03/22/1983, a compressed-air hose breathing apparatus containing a reserve cylinder of compressed air attached to a belt suspension system, equipped with a gearbox and a pressure gauge, a mask with a lung machine with a hose for connecting to a reserve cylinder of compressed air, there is a hose with a fitting for connecting the pulmonary machine to the compressed air supply system from an external source, as well as means for switching the compressed air supply source. However, the known means indicated in the mentioned source does not have sufficient reliability and efficiency when switching to work from an individual source of compressed air supply to work from an external source of compressed air supply and vice versa, because switching the supply source in it is done by shutting off the balloon valve and supplying compressed air from an external source through a reducer, which must be capable of passing air in different directions, which, as a result, determines its complex design. In addition, the known apparatus does not have

MKI 7 A 62 V 7/12

means for separating moisture that can accumulate in the hose when air is supplied from an external source, and also does not have a means for cleaning the compressed air entering the apparatus from traces of oil trapped in compressed air during compressor operation, which makes it difficult for the user to breathe, especially during physical exertion .

The technical task of the proposed solution is to create a design with increased reliability and maximum safety, allowing the device to be used both as a mobile autonomous individual rescue tool and as a device for long-term operation from an external source of compressed air (for example, as part of a mobile system).

The problem is solved in the proposed hose breathing apparatus with compressed air, containing a reserve cylinder of compressed air attached to the waist suspension system, used in extreme situations, equipped with a gearbox and pressure gauge indicator, a mask with a lung machine with a hose for connecting to a reserve cylinder of compressed air, there is a hose with a fitting for connecting the pulmonary machine to the compressed air supply system from an external source, as well as means for switching the source compressed air supply, wherein the hose with the nozzle contains a filter and a dehumidifier connected with the cylinder through a hose reserve a tee and means for switching the compressed air source is designed as a check valve mounted on a hose with a nipple to the tee.

The desiccant filter may include means for discharging condensate accumulated in it, made, for example, in the form of a tap or valve, and a handle for forcing the condensate to drain.

An information search carried out by the applicant showed that the apparatus intended for work in an environment unsuitable for breathing, operating from a compressed air cylinder, comprising a suspension system, a mask, a reducer, a tee and a filter-drier, is unknown from the prior art. which allows us to conclude that the claimed combination of features is new, and the claimed technical solution meets all the requirements for such an object of protection as a utility model.

The proposed utility model is illustrated by drawings, in which:

figure 1 - shows the suspension system of a hose breathing apparatus;

figure 2 - shows the basic pneumocircuit hose breathing apparatus.

The structure of the apparatus (Fig. 1), made according to the utility model, includes: a suspension system 1, a cylinder 2 with a valve, a reducer 3, a manometer - indicator 4, a tee 5, an air hose 6, a pulmonary gun 7, a panoramic mask 8, a hose 9 for connecting to an external (e.g. mobile) air supply system, which has a check valve 10 and a fitting 11.

The suspension system is used to fasten the systems and components of the apparatus on it and consists of a soft waist belt 12 with a waist belt 13 inserted into it and an adjustable quick-release buckle 14.

A cover for a cylinder 15, carabiners 16 and a shoulder strap 17 are fixed on the waist pad. Loops 18 are installed on the shoulder strap for fixing the air hose 6, loop 19 with ring 20 for fixing the hose of the external (mobile) system, loop 22 for fixing the hose 9 as well as a buckle 21 for adjusting the length of the shoulder strap.

The protection of the air duct system from moisture and oil particles that may be in the hose 9 (in which atmospheric air with a high moisture content and compressed air with traces of oil from the compressor can be located before operation) is carried out by a semi-automatic filter-oil-moisture separator 23. Condensate accumulated in the filter is discharged through valve 24. In this case, condensate is discharged after a pressure drop when disconnected from the mobile balloon system. For manual condensate drainage, a tap with handle 25 is used. By turning the handle clockwise, the filter drain valve closes.

Cylinder 2 is designed to store a working supply of compressed air. A tapered thread is cut in the neck of the cylinder, through which the stop valve 2 is screwed into the cylinder.

The reducer 3 (Fig.2-piston, balanced type) is designed to convert high air pressure in the cylinder into a reduced pressure in the range of 0.7 ... 0.85 MPa.

The pulmonary automaton 7 is designed to automatically supply air for the user's breathing and to maintain excess pressure in the mask space of the mask.

The mask 8 is equipped with a glass 26 and is intended to protect the respiratory organs, vision and skin of the face from the effects of a toxic and smoky environment and the connection of the human respiratory tract with a pulmonary machine.

The principle of operation of the apparatus is illustrated by examples of its operation both in conjunction with a mobile balloon system, and as an individual means of rescue, and in both cases the apparatus works according to an open breathing pattern (Fig. 2) with an exhalation into the atmosphere.

The device operates in conjunction with a mobile balloon compressed air system.

When working in conjunction with a mobile balloon compressed air supply system, the nozzle 11 is connected to the system connector, and air through the filter-oil separator 23, check valve 10, tee 5 and hose 9 enters the lung machine 7.

The pulmonary automaton maintains a given excess pressure in the cavity D. When inhaling, air from the cavity D of the pulmonary automaton is supplied to the cavity B of the mask 8. The air blows through the glass 26 and prevents it from fogging. Further, through the inspiration valves (not indicated), air enters the cavity G for breathing.

When you exhale, the inspiration valves close, preventing the exhaled air from entering the glass. To exhale air into the atmosphere, a valve opens, located in the valve box (not indicated). The exhalation valve (not indicated) allows you to maintain a predetermined overpressure in the submask space.

If the device is not connected to the mobile system or there is no air supply from it, it works as a breathing apparatus with a short protective time against the reserve supply of compressed air located in the cylinder, the cover 15 of which is fixed to the waist belt of the suspension system.

The operation of the device is shown in the following example of operation in the mode of individual rescue equipment.

When the valve on cylinder 2 is opened, air under high pressure enters from it into the filter of pressure reducer 3, into pressure chamber A and after reduction into pressure cavity B. Pressure reducer 3 maintains constant pressure reduction in cavity B irrespective of changes in inlet pressure.

In the event of a malfunction of the gearbox and an increase in the reduced pressure, a safety valve (not shown) is activated.

From the cavity B of the gearbox, air enters through the hose 9 into the pulmonary automaton 7, the check valve 10 closes.

To control the air supply in the cylinder, a pressure gauge is used - indicator 4 mounted on the gearbox 3.

The device can work from other compressed air systems that meet the necessary requirements, with a pressure of 0.7 ... 0.85 MPa, ensuring safety in the prescribed manner.

Therefore, as can be seen from the above example, in each of the aforementioned cases, the operation of the proposed apparatus does not differ from the operation of known devices, however, it allows in both cases to use the same apparatus.

Thus, the implementation of the utility model allows you to create a small-sized, lightweight and easy-to-use device that allows the possibility of working from an external source of compressed air pressure, and also allows you to successfully use it in extreme situations as an individual rescue tool with a limited life.

USEFUL MODEL FORMULA

1. A hose breathing apparatus with compressed air, containing a reserve cylinder of compressed air fixed to the waist suspension system, equipped with a gearbox and pressure gauge, a mask with a lung machine that has a hose for connecting through the gearbox to a reserve cylinder of compressed air for individual consumption, a hose with a fitting for connections of the pulmonary automaton of said apparatus with a compressed air supply system from an external source, as well as means for switching compressed air supply sources, distinguishing by the fact that the hose with the nozzle and comprises filtrvlagootdelitel coupled with demand valve and the reserve tank through the tee, and means for switching the compressed air supply source is made as a cylinder valve and a check valve mounted on a hose with a nipple.

2. The apparatus according to claim 1, characterized in that the filter-drier is made in the form of a combined oil filter-drier.

3. The apparatus according to claim 1 or 2, characterized in that said filter comprises an automatic valve for condensate discharge and means for forcing the opening of said valve. Hose breathing apparatus

Claims (3)

1. A hose breathing apparatus with compressed air, comprising a reserve cylinder of compressed air mounted on a waist suspension system, equipped with a gearbox and a pressure gauge, a mask with a lung machine that has a hose for connecting through the gearbox to a reserve cylinder of compressed air for individual consumption, a hose with a fitting for connections of the pulmonary automaton of said apparatus with a compressed air supply system from an external source, as well as means for switching compressed air supply sources, distinguishing The fact that the hose with the fitting contains a water-separator filter and is connected to the pulmonary machine and the backup cylinder by means of a tee, and the means for switching the compressed air supply sources is made in the form of a cylinder valve and a check valve mounted on the hose with a fitting. 2. The apparatus according to claim 1, characterized in that the filter-drier is made in the form of a combined oil filter-drier. 3. The apparatus according to claim 1 or 2, characterized in that said filter comprises an automatic valve for condensate discharge and means for forcing the opening of said valve.