RU2013097C1 - Inhalator - Google Patents

Abstract

FIELD: medical technique. SUBSTANCE: inhalator has means, providing possibility of receiving complex drug medium in an outlet branch pipe with use of drugs in initial liquid, gaseous and solid states. EFFECT: enhanced using range. 1 cl, 2 dwg

Description

 The invention relates to the field of therapeutic medical equipment and can be used in the treatment of patients with respiratory diseases, including the upper respiratory tract, as well as patients with stenosing laryngotracheitis.

 Currently, due to intense pollution of the environment, in particular the atmospheric air of large cities by gaseous waste products, the number of people complaining of respiratory diseases is increasing. Medical practice confirms the high effectiveness of the treatment and prevention of such diseases by inhalation using various drugs and traditional medicine. To implement such a treatment method, quite universal and easy-to-use technical equipment is required - inhalers.

 For example, an oxygen-medication insufflator is known that can act as an inhaler containing an aerosol dispenser (nozzle), a container for a medicinal substance, a source of oxygen and compressed air to power the nozzle, but it does not have sufficient versatility - it does not allow simple means to regulate the flow of medicinal ingredients patient, and also use medicinal herbs [1].

 Closest to the invention in technical essence is an inhaler containing a vessel with heated water, a nebulizer connected by its suction channel to a container filled with a medicinal substance, and an outlet pipe with a screen (valve box), as well as an additional glass for another medicinal substance [2] .

 The known inhaler does not provide the possibility of obtaining a complex drug environment in the outlet using liquid medicinal substances, gaseous (oxygen) and solid, for example medicinal herbs, at the same time with a different combination of the modes of their delivery to the patient - the concentration of ingredients and their temperature, which reduces the effectiveness of the treatment.

 The aim of the invention is to increase the effectiveness of treatment - reducing the time of recovery of the patient.

 This goal is achieved by the fact that in the known inhaler containing a closed housing 1 with an outlet pipe 2, opposite which a screen 3 and a spray 4 are placed, connected by its suction channel 5 to a container 6 filled with liquid medicinal substance 7, and a vessel 8 placed in the housing 1 with heated water, in the housing 1 between the outlet pipe 2 and the vessel 8 with heated water there is a perforated cuvette 9 with a solid medicinal substance 10, for example, medicinal grass, which allows to increase the effectiveness of treatment due to t the combined action of water vapor, atomized liquid medicinal substance and the aroma of a solid medicinal substance (grass), as well as a knee-shaped nozzle 11 for oxygen supply, which has the possibility of axial and circular movements, which allows to increase the effectiveness of treatment by supplying the patient with a medicinal medium with the required oxygen temperature, moreover, the sprayer 4 together with the screen 3 concave in the direction of the axis of the sprayer 4 has the possibility of rotation around its axis, which increases the effectiveness of the treatment due supplying a patient with a medicinal medium with a desired concentration of a liquid medicinal substance, and in the suction channel 5 above the surface of a liquid medicinal substance 7, a transverse hole 12 of adjustable cross section is made, which allows to increase the effectiveness of treatment by supplying a patient with the required dispersion of a liquid medicinal substance in the overall composition of the medicinal medium.

 When assessing the compliance of the new features of the inventive inhaler with the criterion of "significant differences" by the available authors and the applicant information sources in the known technical solutions, signs similar to those claimed were not found.

 In FIG. 1 shows a diagram of a proposed embodiment of an inhaler; in FIG. 2 - section of the screen 3 and the suction channel 5 of the atomizer 4.

 The inhaler contains a closed housing 1 with an outlet pipe 2, opposite which a screen 3 and a spray 4 are placed, connected by its suction channel 5 to a container 6 filled with liquid medicinal substance 7, and a vessel 8 with heated water placed in the housing 1. An electric heating element 13, a thermistor temperature sensor 16 and a contact water level sensor 14 are connected in the vessel 8, connected to an electronic control and regulation device 15. In the housing 1, a perforated cell 9 with a solid medicinal substance is placed between the outlet pipe 2 and the vessel 8 with heated water 10, for example with medicinal grass, as well as a knee-shaped nozzle 11 for supplying oxygen, with the possibility of axial and circular movements so that the cut of the nozzle 11 can change its position relative to Finally, the outlet pipe 2 and the surface of the water in the vessel 8. The atomizer 4 together with the screen 3, concave in the direction of the suction channel 5 (for example, as a part of a cylindrical pipe), can rotate around its axis, and in the suction channel 5 above the surface of the liquid medicinal substance 7 made a transverse hole 12 of adjustable cross section. On the tube in which the suction channel 5 is made, an elastic ring 17 is installed with interference, having the possibility of axial movements. The ring 17 may completely or partially overlap the hole 12.

The inhaler works as follows. Filling the container 6 and the cuvette 9 with the required medicinal substances for the patient, the power of the electric heating element 13 is turned on, compressed air is supplied with a pressure of 5.. . 10 kPa to the atomizer 4 and oxygen to the knee-shaped nozzle 11. Upon reaching the temperature of the water in the vessel 8 70.. . ^{100 °} C when starting volatilization, temperature sensor 16 through control and regulating unit shuts off power to the heating element - thus maintained at a constant predetermined temperature of the steam is then supplied through the outlet 2 to the patient. The level sensor 14 generates a command to automatically turn off the power of the heating element 13 when the minimum permissible water level in the vessel is reached 8. Passing through the perforated cuvette 9, the vapor is saturated with the aroma of a solid medicinal substance, for example, medicinal herb 10. The inhaler design allows for the use of medicinal herbs in dry form, which allows to preserve their therapeutic effect for a longer time and that in combination with oxygen and heated steam gives a good therapeutic wow effect. Oxygen entering the body of the inhaler 1 through the knee-shaped nozzle 11 is mixed with steam and also flows to the patient. The rotation of the nozzle 11 around its axis allows you to change the profile of the field of flow rates of the medicinal medium entering the patient, and therefore its other characteristics - pressure distribution and temperature, assigned to the patient personally, depending on the nature of the disease and its individual characteristics. The movement of the nozzle 11 in the direction of the surface of the water in the vessel 8 allows you to smoothly and dynamically control the temperature of oxygen, and therefore the entire drug medium entering the patient. The nebulizer 4 of the liquid drug substance 7 operates as follows. The stream of compressed air flowing out of it ejects liquid drug from the container 6 through the suction channel 5 and sprays it in the outlet pipe 2, saturating the drug medium entering the patient. In this case, part of the drug substance is captured by the screen 3 and returned to the container 6. By rotating the sprayer 4 together with the screen 3 around the axis of the sprayer, the required concentration of the drug substance in the flow of the drug medium is achieved. The presence in the suction channel 5 of the transverse hole 12 allows to obtain a pulsating spray mode with the formation of larger particles of the drug substance. Reducing the cross section of the hole 12 by moving the elastic ring 17 reduces the size of the sprayed particles of the liquid drug substance 7. A smaller particle size is recommended in the treatment of deeper respiratory zones, and a larger size in the upper respiratory tract.

 Thus, the proposed inhaler increases the effectiveness of treatment of the respiratory system due to the combined effects of different drugs with a different combination of modes of their delivery to the patient. The use of water vapor, atomized liquid medicinal substances and medicinal herbs with the simultaneous supply of oxygen improves the effect of medicinal substances, thereby enhancing the therapeutic effect. Thermal moisture better dilutes sputum, which facilitates its drainage. The greatest therapeutic effect is given by the use of an inhaler in the treatment of patients with stenic laryngotracheitis.

Claims (1)

 Inhaler containing a closed housing with a connecting element, a screen, a spray connected to its suction channel with a container filled with liquid medicinal substance, an additional vessel for a medicinal substance and a water tank equipped with heating elements, characterized in that, for the purpose of additional use of medicines in the initial gaseous and solid states with a different combination of the modes of their supply to the patient, it is equipped with a nozzle in communication with the oxygen supply source and fixed in the housing with the possibility of rotation and movement relative to the longitudinal axis, the additional vessel is made in the form of a perforated cuvette for a solid drug substance, with the outlet end of the nozzle made L-shaped and the cuvette located in the body cavity above the water tank, the screen is curved , with a convex surface facing the connecting element and fixedly connected to the spray installed in the housing with the possibility of rotation around its axis, and the spray nozzle in th suction duct adapted to regulate the flow cross section.

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