RU2779878C1 - Therapeutic and preventive respiratory device (options) - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to medical equipment, namely to variants of medical and prophylactic breathing device. In the first option, the device includes a mask containing a mask heating element placed on its surface, an inhalation valve and an exhalation valve. The inhalation valve is connected to a breathing tube containing temperature and humidity sensors at the ends, as well as a heating element. The outlet of the breathing tube is connected to the body of the steam generator, on the outer surface of which there is a control and monitoring unit. The device has an air supply tube with a heating element, which enters the inside of the steam generator body, provides pre-heating of the air mixture and contains an air intake filter at the outer end, as well as outlets in the part of the air supply tube located inside the steam generator, as well as a temperature sensor installed on the inlet of the air supply pipe to the steam generator. The device contains a tubular electric heater (TEH) located inside the steam generator housing for heating water to a predetermined temperature. The device includes a water level maintenance chamber connected to the steam generator, containing a water supply unit, and a float valve that provides constant monitoring of the water level and its replenishment inside the steam generator. In the second option, the device contains inhalation and exhalation openings without valves and a fan for forced air injection.

EFFECT: increasing the accuracy of maintaining the set parameters of inhaled air in real time.

4 cl, 2 dwg

Description

The invention relates to medical equipment, namely to devices for maintaining the patient's respiratory system and is intended for use in intensive care units, surgery, anesthesiology in medical institutions of any type.

Various devices for influencing the respiratory system are widely used in medical institutions to provide support for the patient's breathing in the form of prescribed therapy. This therapy is administered through various interface devices that are either invasively attached to the patient, such as an endotracheal tube or tracheostomy tube, or non-invasively attached, such as a nasal mask, full face mask, or nasal cannula.

An increase in temperature is a protective reaction of the body. At this time, the rate of biochemical reactions increases - with an increase in temperature by only 1 degree (from 36.6 to 37.6), this rate increases 10 times. Protective antibodies are formed faster, metabolic products are utilized faster, and thus the human body more effectively fights against the disorders that caused the temperature increase. Since most often an increase in temperature is caused by some kind of infection, in its evolutionary and biological essence, this process should be considered as a measure of protection against infectious pathogens.

In this regard, the purpose of the proposed invention is to provide and maintain the specified parameters (temperature, humidity, etc.) of the inhaled air on the apparatus, which the body considers optimal under certain circumstances during the period of exacerbation of diseases, within reasonable values that do not pose a risk of complications (usually , 35.5-39.5 degrees).

The prior art patent RU 2008938 C1, May 08, 1991, discloses a device for inhalation, containing a housing, a steam generator with safety valves and a steam pipeline system in communication with the nozzle, an electric heating element, a container for collecting condensate, a tube and a reservoir with a liquid medicinal substance and a supply tube, while it is additionally equipped with nozzles, tubes and reservoirs with feed tubes according to the number of chambers additionally made in the upper part of the body isolated from one another for the formation of aerosol, the steam generator is installed in the cavity of the body with a gap and is provided with an external heat-insulating shell, while the cavity of each of The chambers are connected with a condensate collection tank, a supply pipe and a nozzle, each of the tubes is made in the form of a corrugated elastic tube attached to the chamber with a tip and a retainer, and the nozzles are connected to the steam pipeline through a spool.

The disadvantage of this solution is the inability to control, set and change the parameters of the air supply and the impossibility of its precise adjustment in time.

From the prior art, a patent is known, selected as a prototype RU 2587955 C2, 06/27/2016, which discloses a humidifier system for humidifying the gas mixture supplied to the patient, while the said system contains a humidifier unit located in the patient circuit, configured to provide a gas mixture for the patient wherein the humidifier unit is positioned proximal to the patient interface device of the patient circuit, the humidifier unit comprising a chamber configured to receive water from a water source, a valve configured to control fluid flow between the water source and the chamber, a heat source located within the chamber , a flow sensor configured to measure the flow of water supplied to the chamber from the water source, and a temperature sensor configured to measure the temperature of the humidified gas mixture in the patient circuit; and a controller operatively connected to a valve, a heat source, a flow sensor, a temperature sensor, the controller comprising at least one processor configured to receive from the flow sensor flow data relating to water supplied to the chamber from the water source, receiving from the sensor the temperature of the temperature data relating to the temperature of the humidified gas mixture in the patient circuit, and controlling the actuation of a valve for adjusting the flow of water supplied to the chamber by the water source according to the flow rate and temperature data.

The disadvantage of this solution is the inability to accurately control the parameters of the air supply and the impossibility of its adjustment/adjustment over time.

The basis of this invention is the task of developing a design of a therapeutic respiratory apparatus that eliminates the indicated disadvantages of known devices and provides for setting and maintaining the parameters of the inhaled air in real time, which is vital for certain types and courses of diseases.

The technical result is to increase the accuracy of maintaining the specified parameters of inhaled air in real time.

This technical result according to the first variant is achieved by the fact that the therapeutic respiratory apparatus includes a mask containing at least one mask heating element placed on its surface, an inhalation valve and an exhalation valve,

at the same time, the inhalation valve is connected to a breathing tube containing temperature sensors and humidity sensors at the ends, as well as a heating element,

the outlet of the breathing tube is connected to the body of the steam generator, on the outer surface of which there is a control and monitoring unit,

an air supply tube with a heating element, which enters the inside of the steam generator body, provides pre-heating of the air mixture and contains an air intake filter at the outer end, outlets in the part of the air supply tube located inside the steam generator, as well as a temperature sensor installed at the inlet of the air supply tube to the steam generator

tubular electric heater (TEH), located inside the steam generator housing, for heating water to a predetermined temperature,

a water level maintenance chamber connected to the steam generator, containing a water supply unit, and a float valve that provides constant monitoring of the water level and its replenishment inside the steam generator.

The body of the steam generator, the breathing tube and the air supply tube include thermal insulation.

A container with a control liquid is additionally connected to the air supply tube, to which oxygen is supplied through the control valve for its additional addition to the air mixture.

This technical result according to the second variant is achieved by the fact that the therapeutic respiratory apparatus includes a mask containing at least one mask heating element placed on its surface, an inhalation hole and at least one exhalation hole,

at the same time, the inhalation hole is connected to a breathing tube containing temperature sensors and humidity sensors at the ends, as well as a heating element,

the outlet of the breathing tube is connected to the body of the steam generator, on the outer surface of which there is a control and monitoring unit,

an air supply tube with a heating element, which enters the inside of the steam generator body, provides pre-heating of the air mixture and contains an air intake filter and a fan for forced air injection at the outer end, as well as outlets in the part of the air supply tube located inside the steam generator, as well as a sensor temperature, installed at the inlet of the air supply pipe to the steam generator,

tubular electric heater (TEH), located inside the steam generator housing, for heating water to a predetermined temperature,

a water level maintenance chamber connected to the steam generator, containing a water supply unit, and a float valve that provides constant monitoring of the water level and its replenishment inside the steam generator.

The body of the steam generator and the breathing tube and air supply tube include thermal insulation.

A container with a control liquid is additionally connected to the heating tube, to which oxygen is supplied through the control valve for its additional addition to the air mixture.

Next, the proposed invention will be discussed in detail with regard to the illustration, where in Fig. 1 shows a therapeutic and prophylactic breathing apparatus according to the first variant, in Fig. 2 shows a therapeutic and prophylactic breathing apparatus according to the second variant:

1 - mask;

2 - mask heating element;

3 - breathing tube;

4 - temperature sensors;

5 - humidity sensors;

6 - heating element of the breathing tube;

7 - steam generator;

8 - control and monitoring unit;

9 - air supply tube;

10 - filter;

11 - heating element;

12 - chamber for maintaining the water level;

13 - water supply unit;

14 - float valve;

15 - thermal insulation;

16 - inhalation valve;

17 - exhalation valve;

18 - inhalation hole;

19 - exhalation hole;

20 - container with control liquid;

21 - adjusting valve;

22 - fan;

23 - heating element.

Therapeutic respiratory apparatus includes a mask 1, made, as a rule, as a respirator. The mask 1 contains at least one mask heating element 2. It is advantageous to use two or four mask heating elements. The mask heating element 2 is located on the surface of the mask 1, as a rule, on the inner surface of the mask 1. The mask heating element 2 serves to prevent condensation. The mask 1 includes, according to the first embodiment, an inhalation valve 16 and an exhalation valve 17, according to the second embodiment, an inhalation hole 18 and at least one exhalation hole 19. Preferably, two exhalation holes 19 are made. The inhalation valve 16 and the inhalation hole 18 serve for the receipt of a given vapor-air mixture, the exhalation valve 17 and the exhalation openings 19 - for exhalation.

The inhalation valve 16 / inhalation opening 18 is connected to the breathing tube 3. The breathing tube 3 serves to transfer the air mixture with the specified parameters to the mask 1. The breathing tube 3 contains at the ends, that is, at the beginning of the breathing tube 3 and at the end, sensors temperature 4 and humidity sensors 5, as well as a heating element 6. The heating element 6 is placed, as a rule, throughout mainly the entire breathing tube 3. The heating element 6 is made, for example, in the form of a heating coil or heating wires. Temperature sensors 4 and humidity sensors 5 are placed at the inlet of the breathing tube 3 and at the outlet, measuring temperature and humidity before passing through the heating element 6 and after passing through it.

The outlet of the breathing tube 3 is connected to the body of the steam generator 7.

On the outer surface of the body of the steam generator 7 there is a block 8 for controlling and monitoring the device.

Block 8 of the control and monitoring of the device provides control of all components of the device, heating, humidity adjustment, adjustment of the incoming air mixture, etc. The scheme of operation of the control and monitoring unit 8 is not the subject of this application.

The steam generator 7 contains an air supply tube 9 with a heating element 23, which enters inside its body and provides preheating of the air mixture. The principle of operation of the heating element 23 of this air supply tube 9 can be any, providing, if necessary, preheating of the air mixture. The air supply tube 9 contains, at its outer end, a filter 10 for taking the air purified through it. The air supply pipe 9 contains outlet holes in the part that is located inside the steam generator 7. Air enters the body of the steam generator 7 through these holes. The temperature sensor 4 is installed at the inlet of the air supply pipe 9 to the steam generator 7.

According to the second embodiment of the device, the air supply tube 9 additionally includes a fan 22 for forced air injection.

The steam generator 7 also contains a heating element 11 located inside the body of the steam generator 7, in its lower part, for heating water to a predetermined temperature at the command of the control and monitoring unit 8, to increase the humidity of the air mixture. The temperature of the water inside the steam generator, as a rule, is in the range of 25-70°C, for the formation of the necessary steam and humidification of the air mixture to the specified values in the control and monitoring unit 8.

The chamber 12 for maintaining the water level is also connected to the steam generator 7 through a tube. The water level chamber 12 contains a water supply unit 13 for replenishing the water level in the steam generator 7 and a float valve 14 that provides constant monitoring of the water level and its replenishment inside the steam generator 7.

The body of the steam generator 7, the breathing tube 3 and the air supply tube 9 include thermal insulation 15, which covers the body 7 and the breathing tube 3 and the air supply tube 9, preventing heat loss in the device, which increases the accuracy of the temperature/humidity of the air mixture entering the mask 1. any material can be suitable as a thermal insulator, preferably foamed, such as polyethylene foam, rubber, etc.

To the air supply tube 9 is additionally connected to a container 20 with a control liquid, for example, water, to which oxygen is supplied through the control valve 21 for its additional addition to the air mixture. In this node, the container with the liquid serves as a visual guide to control the amount of oxygen supply (by rising bubbles), to avoid oversaturation of the air mixture with it, or vice versa, its insufficiency.

The principle of operation of the device (Example) according to the first option is as follows:

On the control and monitoring unit 8, the parameters of the air mixture required by the user are set/set.

User puts on mask 1.

The device turns on.

The air passes through the filter 10 and enters the air supply tube 9, where it is preheated by the heating element 23. If it is necessary to further increase the oxygen level, the adjusting valve 21 opens with an oxygen cylinder supplied. The air mixture supply temperature is controlled by temperature sensor 4.

The preheated air enters the steam generator 7, where it is humidified to a predetermined parameter.

Further, the air mixture is sent to the breathing tube 3, where sensors 4 and 5 measure the temperature and humidity of the air at its inlet.

The obtained data are processed by the control and monitoring unit 8 and adjustments are made to the heating temperature of the air supply tube 9, water in the steam generator 7 (heating temperature of the heating element 11) and the temperature of the heating element 6 of the breathing tube 3.

The air mixture passes through the breathing tube 3, warms up if necessary, and is again read by sensors 4 and 5 at the outlet of the breathing tube 3.

If necessary, the mask heating element 2 is turned on, which prevents the formation of condensate inside the mask 1.

The user inhales the heated and humidified air through the inhalation valve 16.

The exhaust air exits through the exhalation valve 17.

The cycle is repeated.

The principle of operation of the device (Example) according to the second option is as follows:

On the control and monitoring unit 8, the parameters of the air mixture required by the user are set/set.

User puts on mask 1.

The device turns on.

The air is driven by the fan 22 through the filter 10 and enters the air supply tube 9, where it is preheated by the heating element 23. If it is necessary to further increase the oxygen level, the adjusting valve 21 opens with an oxygen cylinder supplied. The air mixture supply temperature is controlled by temperature sensor 4.

The preheated air enters the steam generator 7, where it is humidified to the required parameter.

Further, the air mixture is sent to the breathing tube 3, where sensors 4 and 5 measure the temperature and humidity of the air at its inlet.

The data obtained are processed by the control and monitoring unit 8 and adjustments are made to the rotation speed of the fan 22, the temperature of the heating of the air supply pipe 9, the water in the steam generator 7 (heating temperature of the heating element 11) and the temperature of the heating element 6 of the pipe 3.

The air mixture passes through the breathing tube 3, warms up and is again read by sensors 4 and 5 at the outlet of the breathing tube 3.

If necessary, the mask heating element 2 is turned on, which prevents the formation of condensate inside the mask 1.

The user inhales the heated and humidified air through the inhalation port 18.

The exhaust air exits through the exhalation port 19.

The cycle is repeated.

The proposed group of inventions provides an increase in the accuracy of maintaining the set parameters of inhaled air in real time, which is vital for certain types and courses of diseases.

Claims (14)

1. Therapeutic respiratory apparatus, characterized in that it includes a mask containing at least one mask heating element placed on its surface, an inhalation valve and an exhalation valve, wherein the inhalation valve is connected to a breathing tube containing temperature sensors and humidity sensors at the ends, as well as a heating element; the outlet of the breathing tube is connected to the body of the steam generator, on the outer surface of which there is a control and monitoring unit, an air supply tube with a heating element, which enters the inside of the steam generator body, provides pre-heating of the air mixture and contains an air intake filter at the outer end, as well as outlets in the part of the air supply tube located inside the steam generator, as well as a temperature sensor installed at the tube inlet air supply to the steam generator, tubular electric heater (TEH), located inside the steam generator housing, for heating water to a predetermined temperature, a water level maintenance chamber connected to the steam generator, containing a water supply unit, and a float valve that provides constant monitoring of the water level and its replenishment inside the steam generator. 2. Therapeutic respiratory apparatus, characterized in that it includes a mask containing at least one mask heating element placed on its surface, an inhalation hole and at least one exhalation hole, wherein the inhalation hole is connected to a breathing tube containing temperature sensors and humidity sensors at the ends, as well as a heating element; the outlet of the breathing tube is connected to the body of the steam generator, on the outer surface of which there is a control and monitoring unit, an air supply tube with a heating element, which enters the inside of the steam generator body, provides preheating of the air mixture and contains an air intake filter and a fan for forced air injection at the outer end, outlets in the part of the air supply tube located inside the steam generator, as well as a temperature sensor, installed at the inlet of the air supply pipe to the steam generator, tubular electric heater (TEH), located inside the steam generator housing, for heating water to a predetermined temperature, a water level maintenance chamber connected to the steam generator, containing a water supply unit, and a float valve that provides constant monitoring of the water level and its replenishment inside the steam generator. 3. Therapeutic respiratory apparatus according to any one of paragraphs. 1, 2, characterized in that the body of the steam generator, the breathing tube and the air supply tube include thermal insulation. 4. Therapeutic respiratory apparatus according to any one of paragraphs. 1, 2, characterized in that a container with a control liquid is additionally connected to the air supply tube, to which oxygen is supplied through the control valve for its additional addition to the air mixture.

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