RU135258U1 - MULTI POSITION UNIVERSAL RESPIRATORY SIMULATOR - Google Patents

Abstract

1. A multi-position universal breathing simulator containing an oxygen concentrator and a flavoring unit in a single body, connected via pipelines to individual non-contact cannulas, characterized in that it further comprises two seats rigidly attached to a single body, with individual cannulas built into their backs on hinges, connected to pipelines of a single housing. 2. The multi-position universal breathing simulator according to claim 1, characterized in that instead of the leg closest to the single unit, the seat contains a rigid connection to the body of the single unit. A multi-position universal breathing simulator according to claim 1, characterized in that a metal frame is used as a seat fixture to the body of a single unit. A multi-position universal breathing simulator according to claim 1, characterized in that a metal pipe is used as a seat fixture to the body of a single unit. The multi-position universal breathing simulator according to claim 1, characterized in that a metal channel is used as a seat fixture to the body of a single unit. The multi-positional universal breathing simulator according to claim 1, characterized in that it further comprises N free cannulas on the flexible conduits. The multi-position universal breathing simulator according to claim 1, characterized in that it works through an adapter from a 12 V network.

Description

The claimed utility model relates to the field of wellness products, in particular to the manufacture of universal inhalers and individual breathing simulators.

The well-known "DESIGN OF INDIVIDUAL RESPIRATORY UNIVERSAL SIMULATOR" (RF Patent for the invention No. 2381819), characterized in that the individual universal breathing simulator containing a respiratory tube and a container for inhaled and exhaled mixture, the container is made of plastic, in its middle part along the incomplete perimeter is made connector for installation in its internal volume of a replaceable sealed container to obtain the volume of respirable gas mixture required for training in a plastic container, while on the case of the latter she installed mounting device simulator trains on the body.

The main disadvantage of the known technical solution is the completely unresolved issue with vandal resistance (protection from destroying the system of unauthorized actions), which significantly limits the scope of the known patent.

Also known is the “DESIGN OF AN INDIVIDUAL RESPIRATORY UNIVERSAL SIMULATOR” (RF Patent for Utility Model No. 108302) characterized in that the mobile inhaler with heating containing an elastic breathing tube, mouthpiece and heating source uses the human body as a heating source, and an elastic breathing tube contains flexible fasteners with which it is attached to a person’s clothes with the possibility of heating the inhaled mixture from the heat of his body.

The disadvantages of this technical solution are also a narrow range of applicability and lack of vandal resistance design.

The purpose of the claimed utility model is to eliminate the above disadvantages and achieve a technical result: expanding the range of applicability (for example, while waiting in line in public places), increasing the strength of the structure with the creation of a vandal resistant design.

To achieve the indicated technical result, the construction of a multi-position breathing universal simulator contains an oxygen concentrator and a fragrance unit (synonym: aroma station) in a single building, connected via pipelines to individual non-contact cannulas, it is characterized by the fact that it additionally contains two seats (for example, chairs based on a metal base ), rigidly attached to a single body, with individual non-contact cannulas built into their backs on hinges, is connected bubbled with pipelines single housing. A single metal case together with metal chairs give the entire structure strength and reliability in use, in addition, they may not have extreme legs and can be attached (for example, by bolting, welding, etc.) with their inner part to a single, for example, metal case.

A multi-position universal breathing simulator can be designed so that instead of the legs closest to the single unit, the seat contains a rigid connection to the body of the single unit.

A multi-position universal breathing simulator can be made so that a metal frame is used as a seat fastener to the body of a single unit.

A multi-position universal breathing simulator can be made so that a metal pipe is used as a seat fixture to the body of a single unit.

A multi-position universal breathing simulator can be made so that a metal channel is used as a seat fixture to the body of a single unit.

A multi-position universal breathing simulator can be made so that it additionally contains N free cannulas on flexible pipelines.

A multi-position universal breathing simulator can be designed to work through an adapter from a 12 V network.

The claimed utility model relates to vandal-resistant breathing simulators, in addition, the entire claimed design is compact and quite mobile, at the same time, for all its compactness, it is reliable in operation and is not subject to unauthorized destruction. The claimed technical result is achieved, including the solidity of the claimed design. In the claimed design, a single, for example, metal casing is rigidly fastened to the seats with the help of additional supports replacing, in particular, the legs of the seats.

In FIG. 1. shows the device of the claimed utility model, where the numbers indicate:

1) A single metal case.

2) Oxygen (air) concentrator.

3) Aromostation.

4) Pipelines.

5) Contactless cannulas.

6) Armchairs.

7) Additional support.

The inventive device operates as follows: oxygen (air) supplied by means of a concentrator 2 located in a single metal case 1 enters the aroma station 3 (located also in the above-mentioned single metal case 1) and is saturated with various aromatic substances, followed by aromatic oxygen (air) by means of tubes 4 enters the non-contact cannula 5, which with the help of hinges can be moved in a vertical plane. A user sitting in a chair 6 attached with the help of additional supports 7 to a single metal casing 1, brings contactless cannulas 5 to his face, and in case of stopping the use of oxygen, they are removed behind chair 6, in addition, the position of contactless cannulas 5 is regulated depending on consumer growth. The inventive utility model is easily applied in health facilities, in educational institutions, in fitness centers and in other public places, for example, to engage people in pleasant and useful activities while waiting in line.

Industrial applicability. Due to the simplicity of the design, and its compactness, the claimed utility model can be manufactured at small enterprises, and without the involvement of serious expensive equipment for this, in addition, the presence of a larger number of standard parts in the claimed design allows you to quickly establish its mass production.

Claims (6)

1. A multi-position universal breathing simulator containing an oxygen concentrator and a flavoring unit in a single body, connected via pipelines to individual non-contact cannulas, characterized in that it further comprises two seats rigidly attached to a single body, with individual cannulas built into their backs on hinges, connected to the pipelines of a single housing. 2. The multi-position universal breathing simulator according to claim 1, characterized in that instead of the leg closest to the single block, the seat contains a rigid connection to the body of a single block. Z. The multi-position universal breathing simulator according to claim 1, characterized in that a metal frame is used as the seat fixture to the body of the single unit. 4. The multi-position universal breathing simulator according to claim 1, characterized in that a metal pipe is used as the seat fixture to the body of the single unit. 5. The multi-position universal breathing simulator according to claim 1, characterized in that a metal channel is used as a seat fixture to the body of a single unit. 6. The multi-position universal breathing simulator according to claim 1, characterized in that it further comprises N free cannulas on flexible pipelines. 7. The multi-position universal breathing simulator according to claim 1, characterized in that it works through an adapter from a 12 V network.

Images