RU2146536C1 - Method for preparation and supply of therapeutic gas mix and device for its embodiment - Google Patents

Abstract

FIELD: medical devices, in particular, for curing, first aid, rehabilitation after surgery, and so on. SUBSTANCE: method involves proportioning and mixing compressed gases, their heating and adding inhalation doping agents and subsequent processing in recycling mode with oxygen additions. Gas mix is supplied as either atmospheric air or as prepared gas mix of specific content. Inhalation doping agents are added by means of blowing heated gas mix through inhalation materials. Prepared mix is used as gas mix for breathing using inhalation mask or as gas environment in helmet, intensive treatment unit or under local cover. Corresponding device has inhalator, which is embedded into mix chamber, which is located in gas channel between therapeutic tank and gas heater, which is designed as controlled transmission-type heat exchanger. Output unit may be designed as inhalation valve which is connected to air or be connected to additional gas mix flask, which has reduction valve and constrictor, or to additional oxygen flask. Main gas channel between gas mix flask and heat exchanger may include forced breathing bellows or compressor with periodic action receiver and maximal pressure reduction unit, which are equipped with single turn gas mix supply and regulators of rate and speed of its actuation. EFFECT: increased efficiency of inhalation. 21 cl, 5 dwg

Description

 The invention relates to medicine and can be used at home, in hospitals, sanatoriums and in the field as equipment for disaster medicine.

 Known inhalation dispenser, equipped with a regulator of the start time of spraying in the respiratory cycle, and a regulator of the speed of the inhaled air flow; in addition, the dispenser can be equipped with a respiratory cycle counter. A pressure regulator is located between the atomizer and the compressed gas supply line (USSR patent 1679968 from 1985, MKI A 61 M 15/00).

 A device for conducting artificial respiration is also known, comprising an air duct with a filter chamber provided with inlet and outlet valves. The device also contains a separation chamber with an inhalation cartridge and an exhalation chamber communicating with the atmosphere through the exhalation valve (RF patent 2066205 from 1996, MKI A 61 M 16/00).

 The disadvantage of these analogues is the lack of heating of the inhaled substance, which reduces the effectiveness of the treatment process.

 The closest analogue to be taken as a prototype of the claimed invention is a method of forming a therapeutic gas mixture and apparatus for its implementation according to the patent of the Russian Federation 2072241 of 1997, MKI A 61 M 16/00, in which the gas mixture is supplied with a circulation stream and a breathing mask. In the process of preparing the gas mixture, it is mixed from the necessary constituent components, dosed, heated, the necessary inhalants are added and fed to the patient through the main gas channel. The exhaust gas mixture is passed in recirculation mode through microflora purification apparatus, an impurity absorber, a partial absorber of carbon dioxide and moisture, and then, at the signal of the gas analyzer, it is again brought to the required condition and fed to a breathing mask.

 A device for preparing and supplying a respiratory gas mixture contains a gas source, a main gas channel with an inlet device, a gas heater, a mixing chamber, a medication inhaler and a breathing mask with an outlet valve.

 The method and device of the prototype do not provide, firstly, the possibility of artificial respiration of the patient, and secondly, there is no possibility of regulating the respiratory rate, a single volume of the supplied air mixture, the flow rate of the mixture by inhalation, and thirdly, the inhaled substance falls into gas channel in an unheated state.

 The objective of the invention is to expand the scope of the method and device for its implementation and use it with atmospheric air, with compressed gas cylinders, with recirculated exhaust gases while creating the ability to regulate the forced frequency and intensity of respiration, as well as increase the efficiency of the inhalation procedure in the treatment of various diseases, during postoperative therapy, with artificial respiration during first aid and in other cases ayah.

This problem is solved in that the method of preparing and supplying a therapeutic gas mixture to a patient is carried out by dosing and mixing the supplied compressed gases with heating and the introduction of inhalation substances and after using their processing in recirculation mode, which consists in cleaning microflora, impurities and partially from carbon dioxide and enrichment with oxygen. The therapeutic gas mixture is supplied in the form of atmospheric air or in the form of a pre-prepared composition containing:
oxygen and helium in the following proportions,%:
Oxygen - 10 - 40
Helium - 60 - 90
oxygen, helium and argon in the following proportions,%:
Oxygen - 10 - 40
Helium - 55 - 65
Argon - 5 - 25
oxygen, argon and nitrogen in the following proportions,%:
Oxygen - 10 - 40
Nitrogen - 30 - 85
Argon - 5 - 30
or pure oxygen. The introduction of inhalation substances is carried out by blowing a heated therapeutic gas mixture through inhalation substances. The prepared composition is used in the form of a respiratory gas mixture in a breathing mask or in the form of a gaseous medium in a helmet, or in an intensive care chamber or under a local cap. The supply of the gas mixture to the patient is carried out in a forced mode. The gas mixture and inhalants are supplied to the patient at a constant temperature. The gas mixture used by the patient is partially or completely discharged into the atmosphere. When the gas mixture is forcedly supplied, the patient is dosed with a single supply volume of the mixture, and the frequency and speed of the supply of its single volume are also regulated.

 A device for preparing and supplying a therapeutic gas mixture contains a gas source, a main gas channel with an inlet device, a gas heater, a mixing chamber, a medication inhaler and a treatment tank with an outlet valve.

 The inhaler is built into the mixing chamber, which is located in the gas channel between the treatment tank and the gas heater, made in the form of an adjustable passage heat exchanger, and the treatment tank is made in the form of a breathing mask, or a helmet, or a local cap, or an intensive care chamber. The inlet device is made in the form of a breath valve connected to the atmosphere. The input device of the main gas channel is connected to an additional cylinder with a gas mixture equipped with a reduction adapter and a throttle. In the main gas channel between the cylinder with the gas mixture and the heat exchanger, forced-breathing bellows or a compressor with a periodic receiver and a limit pressure reducer are mounted. The inlet of the main gas channel is connected to an additional oxygen cylinder equipped with a reduction adapter and a throttle. A multi-way valve is installed in the main gas channel with the possibility of switching the treatment tank to a cylinder with a gas mixture or to a cylinder with oxygen. A multi-way valve is installed in the main gas channel with the ability to switch the treatment tank to cylinders with a gas mixture or oxygen or to an inspiratory valve. The heat exchanger is powered from the mains, or from the battery, or from a chemical heat generator. The device is additionally equipped with a recirculated channel of the exhaust gas mixture connecting the outlet of the treatment tank and a multi-way valve mounted on the main gas channel with the ability to switch the treatment tank to oxygen cylinders or a gas mixture or to the inspiration valve. The exhaust gas recirculation channel is equipped with a gas analyzer of oxygen content in the mixture associated with an oxygen supply throttle. A device for absorption of impurities, dehydration and microflora of the exhaust gas mixture is mounted in the recirculation channel. A device for partial removal of carbon dioxide from the exhaust gas mixture, mounted with the possibility of shunting, is mounted in the recirculation channel. The heat exchanger is equipped with a sensor and a temperature controller. Forced breathing bellows or a compressor are equipped with a dispenser for a single supply of the gas mixture and regulators of the frequency and speed of its operation. The treatment tank is made in the form of a breathing mask, or a helmet, or a local cap, or an intensive care chamber.

A comparative analysis of the claimed utility model with the prototype shows that it differs in that the therapeutic gas mixture is supplied in the form of atmospheric air or in the form of a pre-prepared composition containing:
oxygen and helium in the following proportions,%:
Oxygen - 10 - 40
Helium - 60 - 90
Oxygen, helium and argon in the following proportions,%:
Oxygen - 10 - 40
Helium - 55 - 65
Argon - 5 - 25
Oxygen, argon and nitrogen in the following proportions,%:
Oxygen - 10 - 40
Nitrogen - 30 - 85
Argon - 5 - 30
or pure oxygen, and the introduction of inhalation substances is carried out by blowing a heated therapeutic gas mixture through inhalation substances. The prepared composition is used in the form of a respiratory gas mixture in a breathing mask, or in the form of a gaseous medium in an intensive care chamber, or under a local cap. The supply of the gas mixture to the patient can be carried out in a forced mode. The gas mixture and inhalants are supplied to the patient at a constant temperature. The gas mixture used by the patient can be partially or completely discharged into the atmosphere. With a forced supply of a gas mixture, a patient can be dosed with a single supply volume of the mixture, and the frequency and speed of the supply of its single volume can be adjusted.

 A device for preparing and supplying a therapeutic gas mixture is characterized in that the inhaler is integrated in the mixing chamber, which is located in the gas channel between the therapeutic mixture and the gas heater, made in the form of an adjustable passage heat exchanger, and the treatment tank is made in the form of a breathing mask, or helmet, or local cap, or intensive care chamber. The inlet device may be in the form of an inspiratory valve connected to the atmosphere, or may be connected to an additional cylinder with a gas mixture equipped with a reducing adapter and a throttle or with an additional oxygen cylinder also equipped with a reducing adapter and a throttle. Mechs of forced breathing or a compressor with a periodic receiver and a limit pressure reducer, equipped with a gas mixture dispenser and regulators of frequency and speed of its operation, can be mounted in the main gas channel between the cylinder with the gas mixture and the heat exchanger. In the main gas channel, a multi-way valve can be installed with the ability to switch the treatment tank to a cylinder with a gas mixture or to an oxygen cylinder, as well as a multi-way valve with the ability to switch the treatment tank to cylinders or to the inspiration valve. The heat exchanger can be powered from the mains, or from the battery, or from a chemical heat generator. The device can be additionally equipped with a recirculated channel of the exhaust gas mixture connecting the outlet of the treatment tank and a multi-way valve mounted on the main gas channel with the possibility of switching the treatment tank to oxygen cylinders or with a gas mixture or to the inspiration valve. The recirculation channel may be equipped with a gas analyzer for the content of oxygen in the exhaust gas mixture associated with an oxygen supply choke. In addition, a device for absorption of impurities, dehydration and microflora of the exhaust gas mixture, as well as a device for partial removal of carbon dioxide from the exhaust gas mixture installed with the possibility of shunting can be mounted in the recirculation channel. The heat exchanger can be equipped with a sensor and a temperature controller.

 This analysis indicates the presence of novelty in the claimed invention.

 Comparison of the claimed invention with other known technical solutions for a similar purpose shows that the introduction of inhalation substances into the gas mixture by blowing the gas mixture through these substances, as well as the use of a therapeutic gas mixture with inhalation substances, depending on the nature of the patient’s disease, either as a respiratory mixture or as a gaseous medium increases the intensity of treatment. The possibility of supplying a gas mixture in forced mode with a single volume dosing and adjusting the frequency and speed of the mixture to the patient expands the scope of the device: in the simplest version of its implementation - at home, in a more complex version - as a mobile device in the field for first aid to victims , when fully equipped with all the declared devices - in hospitals, in particular during treatment in conditions of hyperoxia, normoxia and hypoxia, including the treatment of local Ogove lesions of the skin.

 Thus, we can conclude that the claimed device exceeds the prior art.

The invention is illustrated by example. The drawings show:
- in FIG. 1 is a schematic diagram of a device in an embodiment of using atmospheric air;
- in FIG. 2 - the same in the embodiment of using a cylinder with a gas mixture;
- in FIG. 3 - the same in the use of bellows;
- in FIG. 4 - the same in the embodiment of the recirculation mode of use of the exhaust gas mixture;
- in FIG. 5 - layout option of a mobile device.

 A device for preparing and supplying a therapeutic gas mixture in its simplest form (Fig. 1) is made in the form of a main gas channel 1, at the beginning of which an inlet device is installed in the form of an inlet valve 2 connected to a heat exchanger 3. The heat exchanger is connected to a power supply unit 4 connected by a connector 5 with a source of electricity, which can be used as an electrical network or batteries (not shown in the drawings). Next on the gas channel is mounted a mixing chamber with a container for inhalation composition 6, connected to a treatment tank made in the form of a breathing mask 7 with an outlet valve 8.

 In a more complex form (Fig. 2), along with the inspiration valve 2 connecting the device to the atmosphere, a cylinder 9 with a pre-prepared gas mixture of a programmed composition can be installed. The cylinder in this case is equipped with a pressure-reducing adapter 10 with a manometer 11, a gas flow restrictor 12 and a breathing machine 13. For first aid in case of injuries in the main gas channel 1 between the breathing machine 13 and the heat exchanger 3, forced breathing gears 14 or a compressor with a periodic receiver and a limit pressure reducer (not shown in the drawings), allowing artificial respiration to the injured (Fig. 3). If a multi-way valve 15 is installed on the gas channel, which is connected to the cylinder with the gas mixture 9 and to the inspiratory valve 2, then it becomes possible to use atmospheric air or the gas mixture from the cylinder 9 during the procedure by switching the multi-way valve.

 The passage heat exchanger can be equipped with a temperature sensor and its regulator (not shown in the drawings), which allows you to set and maintain a specific set temperature during the procedure. The heat carrier in the heat exchanger can, along with electricity, serve as a chemical heat generator. In addition, the forced breathing bellows 14 can be equipped with a dispenser for supplying the gas mixture and the bellows operating frequency 16, which makes it possible to control the frequency of forced breathing, the volume of the single supply of the gas mixture and the intensity of its injection into the patient's lungs.

 Due to the fact that the gas mixture coming from the balloon 9 or from the atmosphere is heated to a certain temperature in the heat exchanger 3, when it passes through the inhaler, the inhalation process is intensified, and the use of the dispenser 16 allows you to control the respiratory rate of the patient or the victim.

 In addition to the cylinder with the gas mixture, the device may (Fig. 4) have an additional oxygen cylinder 17 equipped with a reduction adapter 18 with a pressure gauge 19 and an electromagnetic valve 20 connected by electric circuits to the control unit 21. A mixing tank is installed to completely mix the gas mixture and the supplied oxygen 27. A multi-way valve 15 is installed in the main gas channel 1 with the possibility of switching the treatment tank to gas cylinders 9, 17 or to air. The device can be additionally equipped with a recirculation channel 22 of the exhaust gas mixture connecting the outlet of the treatment tank 7 with a device 23 for absorbing impurities and cleaning up microflora and a device for dewatering 24 of the exhaust gas mixture. In addition, a device 25 is installed in the recirculation channel for the partial removal of carbon dioxide from the exhaust gas mixture. To control the composition of the respiratory gas mixture, an oxygen analyzer 26 is connected to the control unit 21, which generates an electric signal to open the electromagnetic valve 20 and supply oxygen to the respiratory mixture.

The method of preparation and supply of a respiratory gas mixture is as follows:
Therapeutic gas mixture is supplied in the form of a pre-prepared composition containing,%:
oxygen and helium in the following proportions,%:
Oxygen - 10 - 40
Helium - 60 - 90
or oxygen, helium and argon in the following proportions,%:
Oxygen - 10 - 40
Helium - 55 - 65
Argon - 5 - 25
or oxygen, argon and nitrogen in the following proportions,%:
Oxygen - 10 - 40
Nitrogen - 30 - 85
Argon - 5 - 30
This gas mixture is contained in cylinder 9.

 In addition to it, the installation uses a cylinder 17 with compressed oxygen. The components that make up the treatment gas mixture come from cylinders 9 and 17 through pressure reducing adapters 10 and 18, the breathing machine 13, and the solenoid valve 20 (if it is open) into the mixing chamber 27. Either the gas mixture or air can be supplied to the heater 3. depending on the position of the faucet 15. If the patient is on artificial respiration, the gas flow from the gas supply source (mixing chamber 27 or air) through the forced breathing bellows 14 is directed through the dispenser of a single supply of the gas mixture 16 to the heat exchange iku 3. The dispenser 16 measures the volume of gas at one patient breath. In the process of passing the gas mixture through the heat exchanger 3, it is heated to a temperature controlled by the sensor, which, if necessary, sends a signal to the control unit 21. The heated gas mixture enters the tank 6, where the gas mixture is saturated with the inhalation composition and the final mixing of all its components. Due to the constant pumping of the heated gas mixture through the container 6, the process of entering the inhalation formulations into the gas mixture is intensified.

 The spent therapeutic gas mixture from the treatment tank 7 is either released into the atmosphere through the outlet valve 8 (Fig. 1 - Fig. 3), or enters the recirculation channel 22, passing through which it is cleaned of microflora, impurities and moisture in the devices 23, 24 and from part or all of the carbon dioxide in the device 25. Then, the purified waste mixture is fed back into the main gas channel 1 for reuse. If the exhaust gas mixture is oxygen depleted, the gas analyzer 26 gives a signal to the control unit 21, and that in turn to the solenoid valve 20, increasing the oxygen supply to the mixing chamber 27 to the required value. The prepared composition is used in the form of a respiratory gas medium in a helmet, in an intensive care chamber or under a local cap (not shown in the drawings).

 The possibility of using mixtures of various gases, as well as various forms of their application (breathing mask, helmet, local cap, camera) allows us to diversify the impact on the patient depending on the nature of the disease or lesion: compounds with helium are applicable for hypothermia, nitrous oxide relieves pain in case of injury, it is applicable as anesthesia for surgical operations, and the oxygen content in the mixture provides treatment in conditions of hyperoxia, normoxia or hypoxia.

 A device for preparing and supplying a therapeutic gas mixture can be performed in a mobile version, when all the components and parts that are its components are mounted in two suitcases - this embodiment is especially suitable for use in emergency situations: in a fire, when rescuing people in avalanches during earthquakes, etc. situations.

Claims (21)

1. A method of preparing and supplying a therapeutic gas mixture to a patient by dosing and mixing the supplied gases with heating and introducing inhalation substances and treating them after use in recirculation mode, which consists in cleaning microflora, impurities, carbon dioxide and enriching it with oxygen, characterized in that the therapeutic the gas mixture is supplied as a mixture of inhalants with atmospheric air, or with oxygen, or with one of the pre-prepared compounds containing oxygen and helium in the following ratios,%:
Oxygen - 10 - 40
Helium - 60 - 90
or oxygen, helium and argon in the following proportions,%:
Oxygen - 10 - 40
Helium - 55 - 65
Argon - 5 - 25
or oxygen, argon and nitrogen in the following proportions,%:
Oxygen - 10 - 40
Nitrogen - 30 - 85
Argon - 5 - 30
while the introduction of inhalation substances is carried out by blowing heated air, or oxygen, or one of the above formulations prepared through inhalation substances, followed by using the resulting therapeutic gas mixture in the form of a respiratory gas mixture in a breathing mask or in the form of a gas medium in a helmet, or Intensive care unit, or under a local cap.  2. The method of preparation and supply of therapeutic gas mixture according to claim 1, characterized in that the supply of therapeutic gas mixture to the patient is carried out in a forced mode.  3. The method of preparation and supply of therapeutic gas mixture according to claim 1, characterized in that when the patient is supplied with a therapeutic gas mixture, its constant temperature is maintained.  4. The method of preparation and supply of therapeutic gas mixture according to claim 1, characterized in that the therapeutic gas mixture used by the patient is partially or completely discharged into the atmosphere.  5. The method of preparation and supply of the therapeutic gas mixture according to claim 1, characterized in that when the forced supply of the therapeutic gas mixture is dosed to the patient, a single volume of the mixture is dispensed.  6. The method of preparation and supply of the therapeutic gas mixture according to claim 1, characterized in that when the forced supply of the therapeutic gas mixture to the patient, the frequency of the mixture is regulated.  7. The method of preparation and supply of a therapeutic gas mixture according to claim 1, characterized in that when the forced supply of a therapeutic gas mixture to a patient is regulated, the flow rate of a single volume of the mixture.  8. A device for preparing and supplying a therapeutic gas mixture containing a gas source, a main gas channel with an inlet device, a gas heater, a mixing chamber, a medication inhaler-vaporizer and a treatment tank with an outlet valve, characterized in that the inhaler is integrated in the mixing chamber, which is located in the main gas channel between the treatment tank and the gas heater, made in the form of an adjustable passage heat exchanger, and the treatment tank is made in the form of a breathing mask, and and helmet, hood or local, or intensive care chamber.  9. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the inlet device is made in the form of an inspiration valve connected to the atmosphere.  10. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the inlet device of the main gas channel is connected to an additional cylinder with a gas mixture equipped with a reduction adapter and a throttle.  11. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that forced breathing bellows or a compressor with a periodic receiver and a pressure limiter are mounted in the main gas channel between the cylinder with the gas mixture and the heat exchanger.  12. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the input device of the main gas channel is connected to an additional oxygen cylinder equipped with a reducing adapter and a throttle.  13. A device for preparing and supplying a therapeutic gas mixture according to claims 8, 10 or 12, characterized in that a multi-way valve is installed in the main gas channel with the ability to switch the treatment tank to a cylinder with a gas mixture or to a cylinder with oxygen.  14. A device for preparing and supplying a therapeutic gas mixture according to claims 8, 9 or 13, characterized in that a multi-way valve is installed in the main gas channel with the ability to switch the treatment tank to cylinders with a gas mixture or oxygen or to an inspiration valve.  15. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the heat exchanger is powered from the mains, or from the battery, or from a chemical heat generator.  16. A device for preparing and supplying a therapeutic gas mixture according to claim 8 or 14, characterized in that it is additionally equipped with a recirculation channel for the exhaust gas mixture connecting the outlet of the treatment tank and a multi-way valve mounted on the main gas channel with the possibility of switching the treatment tank to cylinders with oxygen or with a gas mixture or on the inspiratory valve.  17. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the recirculation channel of the exhaust gas mixture is equipped with a gas analyzer of oxygen content in the mixture associated with an oxygen supply throttle from the cylinder.  18. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that a device for absorbing impurities, dehydrating and cleaning microflora of the exhaust gas mixture is mounted in the recirculation channel.  19. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that a device for completely or partially removing carbon dioxide from the exhaust gas mixture, mounted with a possibility of shunting, is mounted in the recirculation channel.  20. A device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the heat exchanger is equipped with a temperature control sensor.  21. The device for preparing and supplying a therapeutic gas mixture according to claim 8, characterized in that the forced-breathing bellows or compressor are equipped with a dispenser for a single gas mixture supply and frequency and speed controllers.

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