RU2195325C2 - Device for generation of phytoaeroions - Google Patents

Abstract

FIELD: medicine, applicable for optimization of use of phytoaeroionization. SUBSTANCE: device has a phytoaeroion generator, mechanically disperses this liquid by ultrasound, electrically charges said liquid by ultrasound, electrically charges the disperse particle and then delivers to the room in the form of electric-charged fine-disperse aerosol, which by inhalation is fed to the lungs and then transported by arterial blood to the central nervous system and to various organs and tissues of the organism. The device has an electric pulse generator, glass container, spray chamber, separator, piezoelectric ceramics element, fan. The separator detains particles exceeding 5 μm, due to which aerosol comes out of the generator nozzle in the form of fog. For protection of piezoelectric ceramics against overheat and subsequent destruction provision is made for a circuit that automatically cuts off the ultrasonic generator at a complete emptying of the container of the dispersed liquid. Two control timers cut off the generator on termination of the procedure time - 30 minutes for adults or 15 minutes for children. EFFECT: enhanced reliability of operation due to enhanced chemical resistance of assemblies and prevented overheat of piezoelectric ceramics at durable operation. 1 dwg

Description

 The invention relates to medicine, in particular to inhalers, and is intended for the treatment and prevention of diseases with phytoaerosols.

 Currently, in some cases, use the inhalation method of introducing liquid drugs into the body. To do this, the liquid in which the drug is located can evaporate, disperse, be captured by the air blown through it and then through the hose, and then, following the nasolabial mask, enters the respiratory tract.

 Small-capacity ultrasonic inhalers are made of plastic, because modern synthetic drugs taken by mouth are not chemically aggressive and in most cases do not react with plastic. One such inhaler is the "Monsoon-2" manufactured by the Almaz plant. (Rostov-on-Don). In the Monsoon-2 inhaler, dispersion is carried out by means of a piezoceramic element, which changes its configuration under the influence of electric pulses generated by a generator located in a single module with a piezoceramic element.

 The volume of dispersible liquid, refilled at a time into the inhaler, is 5 ml. The duration of continuous operation, safe for the inhaler, in accordance with the instructions in the instrument passport is 5 minutes. The recommended break before re-starting is 30 minutes. The performance of the inhaler in terms of the volume of dispersible liquid is not regulated, constant and is 1 ml / min.

 Since the performance of the inhaler by aerosol is small, and the procedure time is limited to five minutes, the patient breathes directly from the "torch" exiting their nozzle device. Therefore, in a short time, a high concentration of medical aerosol is delivered to the recipient's airways, and the phytoaeroionization technology is based on low levels of aerosol concentration entering the airways.

 The closest analogue is a device for generating phytoaeroions containing a spray chamber, an ultrasonic frequency electric pulse generator, a piezoceramic element, a fan with an adjustable volume of air blown through the spray chamber, and an outlet from the spray chamber made as a separator.

 Dispersible liquid contains biologically active substances of plants. The concentration of phytoaerons in the room air is achieved by changes in the volume of air blown by the fan through the spray chamber.

 The technical result is to increase reliability by increasing the chemical resistance and preventing overheating of piezoceramics during hours of operation of the device.

 The indicated technical result is achieved in that the device for generating phytoaeroions containing a spray chamber, an ultrasonic frequency electric pulse generator, a piezoceramic element, a fan with an adjustable volume of air blown through the distribution chamber, the outlet from the distribution chamber made as a separator, according to the invention, has a glass container for a dispersible liquid containing biologically active phytocomplexes, with the neck installed downward, a tube for I transporting the biologically active liquid into a spray chamber made of glass, electrical contacts on the inner surface of the spray chamber, disconnecting the electric circuit and disconnecting the ultrasonic frequency generator when the dispersible liquid decreases below the contacts, and timers to turn off the device at the end of the procedure.

 The device is illustrated in the drawing, which shows a diagram of the proposed device.

 The device contains the following components and parts: an ultrasonic emitter 1, a minimum liquid level sensor 2, a spray chamber 3, an air supply pipe 4, a guide 5, a cover 6, a container 7, a casing 8, an aerosol exit pipe 9, an air duct 10, a fan 11, an indicator "network" 12, minimum liquid level indicator 13, operating mode indicators 14, mode switch 15, spraying process indicator 16, process stop button 17, process start button 18, regulator 19, power supply and electronics box 20, base 21, will switch l mains 22, the nut 23.

 The device implements a method of influencing the body by two factors - phytophone and aeroionization. These are two climatotherapy components.

 There are two equivalent biologically active components in the phytoaeroion - the biologically active phyto particle obtained from various plants, the second biologically active component is the electric charge, for which the phyto particle is the material carrier on which the electric charge enters the body.

 The device operates as follows. The liquid in which the biologically active phytocomplex is located (solution, extract, water emulsion, etc.) is poured into a device in the spray chamber of which is mechanically finely dispersed, electrically charged and, in the form of a finely dispersed electrically charged aerosol, is blown out through the spray chamber into the room. This electrically charged particle of a biologically active phytocomplex, located in the air of the room in the form of an aerosol and electrically charged, is a "phytoaeroion".

 The components (phytophone and aeroion) act as independent agents and are therefore studied separately by climatologists, hygienists and clinicians. The physiological effect of the phytophone and air ion is unidirectional - each of them improves the functional activity of various systems and organs of the body.

 Procedures are released collectively and the concentration of phytoaeroions in the air should be low (at the level of a natural phytophone). The rooms in which the procedures are carried out are different in volume, therefore, the performance of the phytoaeroionizer is regulated, and the volume of biomass refueling into the phytoaeroionizer is increased in order to extend the continuous operation of the phytoaeroion generator.

 The power of the output electric signal of the ultrasonic pulse generator in the device is increased, therefore, if the dispersible liquid was fully developed, the liquid cooling of the piezoelectric element would be stopped, and this would lead to overheating of the piezoceramics with its subsequent destruction. The device provides a circuit for switching off the generator of electric pulses swinging piezoceramics when the container is completely unloaded from the dispersible liquid.

 The device has timers that turn off the power of the ultrasonic signal generator at the end of the procedure for children and adults.

 Biologically active plant complexes contain energetic chemicals, including organic acids. Therefore, the dispersion chamber should be made of materials with high chemical resistance.

 The volume of dispersible liquid located directly in the spray chamber is 50 ml.

 The upper liquid level above the piezoceramic element is selected taking into account its geometry in order to ensure optimal dispersion.

 The necessary cooling and optimal operation of the piezoelectric element is provided by a special system of automatic support for a constant level of dispersible liquid. It is carried out as follows. The main stock of dispersible liquid for four hours of continuous operation is located in a glass container located in one module with an ultrasonic frequency generator of electrical pulses. The container is placed in a tripod with the neck down, from which the tube, transporting liquid to the spray chamber, leaves. Dispersible liquid may leak out of this tube until its level in the spray chamber closes the outlet of the conveying tube. As the dispersible fluid is consumed, its level in the spray chamber decreases slightly, the lower opening of the transport tube from the container to the chamber opens, air enters through the container, and a volume of liquid enters the chamber to compensate for its flow. In this regard, there is an increase in the liquid level in the spray chamber. A water lock works and stops the further flow of air into the container, and from the container - liquid into the chamber. Thus, the upper meniscus of the liquid is maintained at a predetermined level in the spray chamber with high accuracy.

 The volume of aerosol entering the unit per time is controlled by the amount of air blown through the spray chamber, for which a silent fan with a capacity of 1 to 10 liters of air per minute is installed in one module with an ultrasonic oscillation generator.

 The exit of the aerosol from the spray chamber to the room air is a separator that traps droplets of dispersible liquid with a diameter of more than 5 microns, as a result of which only finely dispersed aerosol in the form of fog leaves the spray chamber.

 To ensure that the ultrasonic oscillation generator is turned off when the dispersible liquid is fully developed, two contacts are installed on the inner surface of the spray chamber at a given height above the piezoceramics, through which an electric current is passed. When lowering the upper meniscus of the liquid below these contacts, the circuit is disconnected, and the ultrasound generator is turned off.

 All parts of the spray chamber and the container for the reserve liquid are made of glass certified for food purposes.

 The hours-long operation of the ultrasound generator itself without additional cooling is provided by the selection of modern radio components and microcircuits. Therefore, with three to four hours of continuous operation of the heating generator, the threat of structural failure does not occur.

 In addition, the low-voltage electric current passing through the dispersible liquid as a result of electron emission increases the electric potential of the liquid and, accordingly, increases the electric charge of the aero ions, which, when mechanically dispersed, already receive the electric potential as a result of the Lenardo effect.

Claims (1)

 A device for generating phytoaeroions containing a spray chamber, an ultrasonic frequency electric pulse generator, a piezoceramic element, a fan with an adjustable volume of air blown through the distribution chamber, an outlet from the distribution chamber made as a separator, characterized in that it has a glass container for dispersible liquid, containing biologically active phytocomplexes, installed with the neck down, a tube for transporting biologically active liquid into a spray chamber made of glass, electrical contacts on the inner surface of the spray chamber that disconnect the electric circuit and turn off the ultrasonic frequency generator when the dispersible liquid drops below the contacts, and timers to turn off the device at the end of the procedure.