RU90331U1 - RESPIRATORY DEVICE - Google Patents

Abstract

1. A device for breathing under excessive pressure, comprising a housing with a mouthpiece at the distal end, a breathing mixture supply pipe and an inspiratory-expiration valve located inside the housing, characterized in that the housing is made in the form of a tubular half ring with an open proximal end, a breathing mixture supply pipe located in the middle lower part of the body, the inspiratory-expiration valve is made in the form of a tubular half ring with a damped proximal end and coaxially located with the possibility of movement inside the body At the bottom of the valve, inspiration and expiration openings are alternately located. ! 2. A device for breathing under excessive pressure according to claim 1, characterized in that it is made of translucent material. ! 3. The device for breathing under excessive pressure according to claim 1, characterized in that the housing is equipped with a handle. ! 4. A device for breathing under excessive pressure according to claim 3, characterized in that the handle is combined with a pipe for supplying a respiratory mixture. ! 5. The device for breathing under excess pressure according to claim 1, characterized in that the nozzle of the supply of the respiratory mixture is connected to the storage of the respiratory mixture, made in the form of a corrugated tube made of an elastic material. ! 6. The device for breathing under excessive pressure according to claim 1, characterized in that it is made of a biologically and chemically inert material.

Description

The utility model relates to the field of medicine, namely to pulmonological physiotherapeutic devices, and can be used for breathing treatment and prophylactic mixtures under excessive pressure by persons suffering from diseases of the bronchopulmonary system.

A device for breathing, containing an oxygen source, a housing, an inspiratory-expiration valve and a control unit (1).

The disadvantage of this device is the design complexity and lack of effectiveness of the therapeutic effect.

A device is known comprising a mouthpiece, a housing, an inspiratory-expiratory valve and an adjustable expiratory resistance (2).

The disadvantage of this device is the low effectiveness of the therapeutic effect.

Known breathing apparatus containing a housing, an inspiratory-expiration valve, respiratory channels and a locking element (3).

The disadvantage of this device is the inconvenience of use.

Known valve breathing apparatus containing a three-way housing, a fitting for supplying and discharging gases and an elastic membrane (4).

The disadvantage of this valve is the low effectiveness of the therapeutic effect.

Known breathing valve containing a housing, a fitting for supplying and discharging gases and an inspiratory-expiratory valve (5).

The disadvantage of this valve is the low effectiveness of the therapeutic effect.

A device for breathing under excessive pressure, comprising a housing, an oxygen device, a mask, an inspiratory-expiratory valve, a compensating chamber and inlet hoses (6).

The disadvantage of this device is the inconvenience of use.

A device for breathing is known, comprising a body, a mask, inspiratory-expiratory valves, a compensation chamber, and hoses (7).

The disadvantage of this device is the inconvenience of use.

A device for breathing is known, comprising a body, a mouthpiece and an inspiratory-expiratory valve (8).

The disadvantage of this valve is the low effectiveness of the therapeutic effect.

A device for treating respiratory failure, comprising a body, a mouthpiece and an inspiratory-expiratory valve (9).

The disadvantage of this valve is the low effectiveness of the therapeutic effect.

A device for breathing apparatus is also known, comprising a body, a mouthpiece and a valve for inspiration - exhalation and a gas inlet and outlet fitting (10).

The disadvantage of this device is the high cost of the treatment process due to unproductive consumption of the respiratory mixture, which is a common disadvantage of most known devices for breathing, because the respiratory mixture enters the device constantly, both when inhaling and when exhaling. Meanwhile, in devices such as a nebulizer, expensive respiratory mixtures and often scarce medications are used to prepare the respiratory mixture.

The purpose of creating a utility model is to increase the efficiency of using the device by stopping the flow of the respiratory mixture during exhalation.

This goal is achieved by the fact that the casing is made in the form of a tubular half ring with an open proximal end, the pipe for supplying the respiratory mixture is located in the middle lower part of the casing. The inspiratory-expiratory valve is made in the form of a tubular half ring with a damped proximal end and is coaxially positioned to move inside the body, with the inspiration and expiration openings being alternately located in the lower part of the valve, the device being made of translucent material, the body is equipped with a handle, the handle is combined with a supply pipe of the respiratory mixture, the supply pipe of the respiratory mixture is connected to the storage of the respiratory mixture, made in the form of a corrugated tube of elastic material, device TVO is made of a biologically and chemically inert material.

Comparison of the proposed device with others known in the field of medicine, showed its compliance with the criteria of a utility model.

The utility model is illustrated by graphic material. The figure 1 shows the proposed device in its original state; figure 2 - the same in the process of inspiration; figure 3 - the same, in the process of exhalation; figure 4 - shows an embodiment of a device with a handle combined with a pipe for supplying the respiratory mixture in its original position; in figure 5 - the same at the time of inspiration; figure 6 is the same at the time of exhalation.

The breathing device comprises a housing 1, made in the form of a tubular half-ring with a mouthpiece 2 on the distal ring 3 and an open proximal end 4. In the middle lower part of the housing 1 there is a pipe 5 for supplying the respiratory mixture. The housing 1 is equipped with a handle 6 in the housing 1 is coaxially arranged to move the inspiratory-expiratory valve 7, made in the form of a tubular half-ring with a muffled proximal end 8 and the inspiration 9 and expiration 10 openings located alternately in its lower part.

The pipe 5 of the supply of the respiratory mixture can be equipped with a filler 11 of the respiratory mixture (see figure 4, figure 5, figure 6), made in the form of a corrugated tube of elastic material. On the proximal section of the housing 1 there is an expiration opening 12.

The pipe 5 of the supply of the respiratory mixture can be combined with the handle 6 (see figure 4, figure 5, figure 6).

The device may be made of translucent material and / or biologically and chemically inert, for example polymeric, material.

A device for breathing is used as follows. When inhaling, the inspiratory – expiratory valve 7 moves to the mouthpiece 2. In this case, the opening 9 of the inspiratory – expiratory valve 7 is combined with the nozzle 5 of the housing 1. The respiratory mixture comes under pressure from the reservoir 11 through the nozzle 5, the opening 9 of the inspiratory – expiratory valve 7, the mouthpiece 2 into the lungs of the patient (see figure 2). At the end of the inspiration under the action of gravity, the valve 7 returns to its original state, figure 1, blocking all the holes.

When exhaling, the valve 7 inhalation - exhalation in the housing 1 moves to the right. In this case, the hole 10 of the valve 7 inhalation-expiration is combined with the hole 12 of the housing 1 (see figure 3). In this case, the spent breathing mixture through the mouthpiece 2, the opening 10 of the inspiratory-expiratory valve and the opening 12 of the housing 1 is withdrawn from the patient.

At the end of the exhalation, the inspiratory-expiration valve 7 returns to its original position, under the action of gravity (see Fig. 1).

A variant of the device (see figure 4, figure 5, figure 6) works in a similar way.

Using the proposed device can reduce the involuntary consumption of expensive and severely deficient drugs, increase the effectiveness of the treatment procedure, because medicinal respiratory mixture is fully used.

This device is intended for use with devices and apparatuses for forming a respiratory mixture, for example, a nebulizer, an oxygen concentrator, etc.

The proposed device is easy to use and reliable in operation, it is advisable to use it in the treatment of diseases of the broncho - pulmonary system both in inpatient medical facilities and at home.

INFORMATION SOURCES

1. UK patent No. 2164568, Cl. A61M 16/00, 1084

2. The patent of Germany No. 1491631, Cl. A61M 17/00, 1966

3. US patent No. 4143872, Cl. A61B 5/08, 1977

4. Swiss patent No. 452120, Cl. 30 K 13/00, 1968

5. Auth. Testimonial. USSR No. 577038, Cl. A61M 16/00, 1977

6. British patent No. 1042741, Cl. a, 1971

7. Auth. Testimonial. USSR No. 1208625, Cl. A61M 16/10, 1995

8. Auth. Testimonial. USSR No. 1442218, Cl. A61M 16/06, 1988

9. Auth. Testimonial. USSR No. 1235500, Cl. A61H 31/02, 1986

10. Auth. Testimonial. USSR No. 848036, Cl. A61M 16/00, 1981

Claims (6)

1. A device for breathing under excessive pressure, comprising a housing with a mouthpiece at the distal end, a breathing mixture supply pipe and an inspiratory-expiration valve located inside the housing, characterized in that the housing is made in the form of a tubular half ring with an open proximal end, a breathing mixture supply pipe located in the middle lower part of the body, the inspiratory-expiration valve is made in the form of a tubular half ring with a damped proximal end and coaxially located with the possibility of movement inside the body At the bottom of the valve, inspiration and expiration openings are alternately located. 2. A device for breathing under excessive pressure according to claim 1, characterized in that it is made of translucent material. 3. The device for breathing under excessive pressure according to claim 1, characterized in that the housing is equipped with a handle. 4. A device for breathing under excessive pressure according to claim 3, characterized in that the handle is combined with a pipe for supplying a respiratory mixture. 5. The device for breathing under excess pressure according to claim 1, characterized in that the nozzle of the supply of the respiratory mixture is connected to the storage of the respiratory mixture, made in the form of a corrugated tube made of an elastic material. 6. The device for breathing under excessive pressure according to claim 1, characterized in that it is made of a biologically and chemically inert material.