SU1554915A1 - Inhaler - Google Patents

Abstract

The invention relates to medical technology, specifically to devices for inhalation. The purpose of the invention is to increase the intensity of exposure. The device includes a housing 1 with a bottom 2, a reservoir 3 made in the form of a Dewar vessel, with a heating element 4 and a lid 13, an outlet nipple 5, inlet nipples 6 and 7, a flap 8 with a handle 28, a spring 29, a window 30 and a permanent magnet 31, an air ionizer with electrodes 17, 18, a UV emitter with insulators 19, a quartz lamp 20, a reflector 21 and a stopper 22, a high voltage source 11, a power supply battery 12, a vapor channel 14, a spray solution 15 of a medicinal solution with an energy source 16, channels 23, 24, tube 25, air filters 26, 27, block 32 control laziness with reed switches switches 33-35 and 36, a source 39 of high voltage. 1 hp f-ly, 2 ill.

Description

The invention relates to medical technology, specifically to devices for inhalation.

The aim of the invention is to increase the intensity of exposure.

FIG. 1 shows an inhaler, incision; Fig. 2 shows the electrical scheme of the inhaler in principle.

The inhaler comprises a housing 1, a bottom 2, a tank 3 for water, a heating element 4. an outlet nozzle 5, inlet nozzles 6 and 7, a flap 8, an air ionizer 9, an ultraviolet emitter 10, a high voltage source 11, a power supply 12, a cover 13, a pyro channel 14, a spray 15, a source 16 for dispersing a medicinal solution, electrodes 17 and 18, insulators 19, a quartz lamp 20, a reflector 21. stopper 22, inlet channels 23 and 24, tube 25, air filters 26 and 27 Handles 28, spring 29, window .50. permanent magnet 31, control unit 32, reed switches 33-35, switch 36, diodes 37 and 38, converter 39, multiplier 40, transistor 41, transformer 42 with windings 43--45, resistors 46 and 47, capacitor 48, diodes 49-52, capacitors 53-56, circuit breaker 57.

Recervular 3 for water, inside of which is located the heating element 4 for vaporization, is made in the form of a Dewar vessel with a lid 13 of heat insulating material to reduce heat losses. The tank 3 communicates with the atmosphere through a pipe 25 with a beveled end, an inlet 24, an air filter 27 and an inlet pipe 7. Water vapor from reservoir 3 enters outlet pipe 5 via steam channel 14.

The dispenser 15 of the drug solution is installed at the outlet nozzle and is powered by the energy source 16 for dispersing the drug solution. A negative needle electrode 17 of the ionizer 9, made of carbon felt, is fixed on its inner surface inside the outlet nozzle 5 to eliminate the release of harmful impurities from the electrode material. Inside the outlet nozzle 5 axially on the insulators 19 us0

Tanovlen positive electrode 18, made in the form of a polished metal tube cylinder. The ultraviolet emitter 10 consists of a quartz lamp 20 and a reflector 21 fixed by a threaded plug 22. The optical axis of the ultraviolet emitter 10 passes through the center of the electrode 18. The gap between the latter and the needle electrode 17 communicates with the atmosphere through the inlet 6 and through the outlet 5.

The inlet channels 23 and 24 through the air filters 26 and 27, made in the form of a grid, communicate with the inlet pipes 6 and 7. The latter are connected to the atmosphere through the window 30 of the valve 8 and may overlap with the latter. The valve 8 is mounted on the housing 1 with the possibility of reciprocating movement and is provided with a handle 28, a return spring 29, a window 30 and a permanent magnet 31.

In case 1, at the level of the permanent magnet 31, a control unit 32 is installed with reed switches 33-35 installed at the level of the magnet 31, a switch 36 and diodes 37 and 38.

The reed switch 33 connects the high voltage source 11 to the battery 12, and the reed switch 35 connects the heating element 4. 0 The reed switch 34 switches the power supply circuit of the high voltage source 11 and the heating element 4 through the air ionizer 9 and the steam generator through diodes 37 and 38.

The high voltage source 11 consists of a voltage converter 39 and a rectifier 40. The converter 39 is assembled according to a blocking generator circuit and includes a transistor 41, a transformer 42 with windings

0 43-45, resistors 46 and 47 and capacitor 48. Rectifier 40 is made according to a multiplication circuit on diodes 49-52 and capacitors 53-56 and is connected to the winding 45 of transformer 42. The positive pole of the rectifier 40 is connected to positive

5 by the ionizer electrode 18 9, and the negative pole -U with the electrode 17. To turn on the power supply battery, a mass circuit breaker 57 is used.

Inhaler works as follows.

Depending on the disease, the type of exposure or the complex of influencing factors is determined by the physician, and the patient himself controls the inhaler. Before carrying out the procedures, the battery 12 is switched on with the mass switch 57.

If necessary, the patient moves the steam by moving the handle 28 to the lowest position. In this case, the flap 8 and the magnet 31 move to the lower position, closing the contacts of the reed switch 35 and connecting the heating element 4 to the power supply battery 12. Since the heat losses to the environment from the tank 3, made in the form of a Dewar vessel with a lid 13, are insignificant, the water in the tank 3 heats up quickly, forming steam. Then the handle 28 is released. At the same time, the valve 8 is moved to the upper position by the action of the spring 29, the inlet 6 closes and the inlet 7 opens. The patient breathes in, the air passes through the window 30 of the flap 8, the inlet 7, the air filter 27, the channel 24, tube 25, tank 3, where it is saturated with steam, and through channel 14 the steam enters the outlet nozzle 5. When exhaling, the patient moves the handle 28 down and the process repeats.

If necessary, the simultaneous delivery of the drug includes a source of energy 16 for dispersion, which through the nebulizer 15 delivers the drug to the outlet nozzle 5, which is picked up by the air flow with steam and enters the patient's airway when inhaled.

For ultraviolet irradiation, switch 36 of the control unit 32 is turned on, supplying power from battery 12 to a quartz lamp 20. At the same time, ultraviolet radiation is concentrated by the reflector 21 into a parallel beam along the optical axis of the tube and the axis of the outlet nozzle 5, affecting the oral cavity, back wall of the throat so on, creating a bactericidal and anti-inflammatory effect.

To activate the air ionizer 9, the handle 28 is moved to the upper position. In this case, the magnet 31 closes the contacts of the reed switch 33, applying voltage from the power supply battery 12 to the converter 39 of the high voltage source 11. Converter 39 is energized. and an alternating high voltage from the winding 45 of the transformer 42 is applied to the rectifier 40. The rectified high voltage from the terminals U and -4-6 is supplied to the negative (17) and positive (18) electrodes of the air ionizer, respectively. Under the action of a negative potential, negative ions of air flow from the tips of the needles of the electrode 17, while the electrode 17 itself does not oxidize and does not emit harmful impurities, since it is made of chemically inert needle-like carbon felt. The surface of the electrode 18 does not emit harmful impurities and positive ions, since it has a polished surface. In this case, a portion of ionized air is prepared in the ionizer. In the subsequent translation of the handle 28 of the shutter 8 and inhaling, the patient inhales a stream of air enriched in negative ions that passes through the inlet 6, the filter 26, the channel 23, the ionizer 9, the output

5 pipe 5 into the patient's airway. During expiration, the handle 28 is moved to the up position, and the ionization process is repeated.

By adjusting the handle 28 for the duration of the shutter 8 at various extreme positions, as well as the frequency and depth of breathing, the patient can change the amount of portions of inhaled water vapor (with or without medication) and its temperature over wide limits, as well as the size of the ionized ion of air. At the same time, the alternation of steam inhalation with the treatment of respiratory organs with negatively ionized air and ultraviolet increases the effect of the therapeutic effect.

For the simultaneous action of all these physiotherapeutic factors, the patient sets the knob 28 of the chuck 8 to the middle position and turns on the switch 36. At the same time, under the action of the magnet 31, the contacts of the reed switch 34 are closed and the battery 2 is powered via diodes 37 and 38 simultaneously to the converter 39 of the air ionizer 9 and to the heating element 4 Dewar vessels. At the same time, the flap 8 leaves the channels 23 and 24 half open so that the air flow through the device is evenly divided between them. Thus, in this mode, the air ionizer 9, the UV emitter 10, the aerosol inhaler with water vapor from the tank 3 and the air ionizer 9 simultaneously work.

In the outlet nozzle 5, due to the flow of air through the paths of the air ionizer 9 and the steam channel 14, a homogeneous mixture is formed from water vapor with aerosols of the drug and ionized air.

At the end of the procedure, the patient disconnects the power supply battery 12 with the mass disconnect switch 57.

The use of an inhaler increases the effectiveness of treatment of a wide range of diseases of the upper respiratory tract with relatively small weight and size indicators both in clinical and field conditions.

FIG. 2

Claims (2)

Claim 1 An inhaler comprising a housing with an outlet pipe and a water tank, a heating element connected to a 5 power source, a nebulizer with a glass for a medicinal solution and an energy source for dispersing it, connected with the outlet pipe, characterized in that, in order to increase intensity of exposure, it is equipped with an air ionizer with a high voltage source and electrodes, one of which is made in the form of a cylindrical tube with a polished surface, and the other - needle, two additional 15 input cuttings with filters, a shutter mounted on the housing with the possibility of reciprocating movement and an ultraviolet emitter installed in the output pipe, the heating element is installed in the tank with water, the first and second electrodes are connected respectively to the positive and negative poles of the source high voltage, and the first electrode is axially located in the outlet pipe, on the inner surface of which the second electrode is located. 2. Inhaler according to π. 1, characterized in that, in order to reduce power consumption, the water tank is made in the form of a dewar vessel. Proofreader T. Paly Subscription