RU2027447C1 - Apparatus for producing saline aerosol - Google Patents

Abstract

FIELD: medical engineering, particularly, apparatuses designed for individually treating affected respiratory tracts and allergic diseases. SUBSTANCE: this apparatus includes rotatable housing that has horizontal partition in its central portion having through holes, inlet and outlet connections, air conduit, and connecting member for patient. Partition divides housing into two intercommunicating chambers capable of varying their holding capacities and having perforated plates. EFFECT: more sophisticated design. 1 dwg

Description

 The present invention relates to medicine and can be used in the individual treatment of respiratory diseases, allergic diseases.

 Known underground climatic chamber containing a sealed room inside a potash mine, blower and air conditioning. Its disadvantage is the limited use (1).

 Known climatic chamber containing a sealed room, a blower, air conditioning, pressure regulators, equipped with a lock chamber, salt blocks installed with gaps relative to the walls, floor and ceiling of the lock chamber and a tight room, a salt filter-saturator, connected to the inlet to the air conditioner (2).

 The disadvantage is the limited number of patients using such a camera.

 The goal is to expand the number of patients by modeling the underground conditions in an individual device.

The drawing shows a diagram of a device for the formation of salt aerosols. The housing contains two identical communicating chambers 1 and 2, with an external thread at both ends, one of the vessels 1 (upper) is filled with potassium-salt mixture 3. In the central part of the chamber there is a horizontal partition 4 with two types of through holes: 5 - for passage into mainly a salt mixture with a diameter of d _c ≥ d _{max h} ; 6 - for the passage of air with a diameter of d _in ≅ d _{max h} , where d _{max h} is the maximum diameter of salt particles. The holes 5 have double-sided chamfers to facilitate the passage of the mixture. The partition 4 in the horizontal plane is fixed by means of pins 7 on the supporting posts 8 mounted on the support 9. The partition 4 is made with symmetrical sides in which a thread is cut for connection with vessels 1 and 2. Lids 10 are screwed onto the thread of the upper end of vessels 1 and 2 with fittings, creating the possibility of changing the volume of vessels, and at the border of the covers and vessels installed perforated bridges 11 with a hole diameter d _a equal to the diameter d _{b of the} air holes in the Central partition 4.

 In the support 9, a fan block 12 with a heater is installed, which can be used as a commercially available fan and a heater for a household hairdryer type FRN-1.02 / 2. The fan is connected to the household network via cord 13.

The fan block 12 with the heater has the possibility of vertical movement, for example, by means of a splined connection 14 of the block 12 with the support 9. The block 12 ends with a nozzle 15 with an antiseptic filter 16. The nozzle fits tightly into the opening of the nozzle of the cover 10 from the side of the lower vessel 2. On the nozzle of the cover 10 on the side of the upper vessel 1, an expander of a connecting element 17 is connected, connected to a breathing mask 18, equipped with a pressure regulating valve 19 with a resolution of (1.1 - 1.2) ^. 10 ⁵ Pa.

 The camera operates as follows.

d_{max ч}. Такие соотношения диаметров отверстий вызваны требованием перемещения солевой смеси сверху вниз и нагретого воздуха снизу вверх. В результате создается встречно-поступательный режим активного насыщения воздушного потока полезными компонентами, содержащими мелкодиспергированную соляную аэрозоль, легкие отрицательные аэроионы, характерные для микроклимата спелеолечебниц калийно-соляных шахт. Время насыщения не превышает 20 мин. Насыщенный поток воздуха поступает через отверстие крышки 10 сосуда 1 в дыхательную маску 18 к пациенту. Необходимый расход насыщенного воздушного потока регулируется изменением объема под крышкой 10 и контролируется клапаном 19, срабатывающим при давлении (1,1:1,2) ^.10⁵П.The upper vessel is filled with a potassium-salt mixture weighing, for example, 0.5 kg from raw materials (ore) of selvinite strata of potash deposits (it is supposed to be delivered to the retail pharmacy network). Close the vessel 1 with a cover 10, on which a connecting element 17 with a mask 18 is put on. A pipe 15 of the block 12 is inserted into the opening of the fitting of the cover 10 of the lower vessel 2. The fan with a heater is turned on. The potassium-salt mixture from the vessel 1 will be lowered through the openings of the horizontal partition 4 into the vessel 2, and the heated antiseptic air from the block 12 through the filter 16 of the openings 6 and partially 5 will rise into the vessel 1, forming a finely dispersed salt aerosol, light negative air ions, some trace elements selvinite formations, for example cesium, rubidium. Holes 5 have a diameter d _c ≥ d _{max h} , where d _{max h} is the maximum particle size of the potassium-salt mixture; air holes 6 have d _b ≅

d _{max h} Such ratios of hole diameters are caused by the requirement of moving the salt mixture from top to bottom and heated air from bottom to top. As a result, a reciprocating regime is created for active saturation of the air flow with useful components containing finely dispersed salt aerosol, light negative air ions, characteristic of the microclimate of speleotherapy clinics in potash and salt mines. Saturation time does not exceed 20 minutes. A saturated air stream enters through the opening of the lid 10 of the vessel 1 into the respiratory mask 18 to the patient. The required flow rate of saturated air flow is controlled by a change in volume under the cover 10 and is controlled by a valve 19 that operates at a pressure of (1.1: 1.2) ^. 10 ⁵ P.

 When the contents of the vessel 1 moves to the vessel 2 (which can be traced through the inspection window in the vessels), turn on the fan 12. Lower the unit 12 to the lower position, bringing the nozzle 15 to the covers 10 of the vessel 2. Remove the connecting element 17 from the cover 10 of the vessel 1. After why we turn the vessel 1 into the position of the vessel 2 using the pins 7, and the cover 10 in the lower position, screw the pillbox of the stop on the vessel 1 so that the volume of the inverted vessel 1 under the cover 10 is minimal. On the cover 10 of the vessel 2, now occupying the upper position, the connecting element 17. In the cover 10 of the vessel 1, occupying the lower position, we introduce the pipe 15 of the fan unit 12, and the treatment session continues.

 The duration of the respiratory session is individual and can last from 1 to 8 hours.

 Thus, the proposed salt inhaler makes it possible to treat allergic and inflammatory diseases of the respiratory tract in individual conditions outside the stationary treatment process, simulating the artificial microclimate of potassium-salt speleotherapists by creating a counter flow of potassium-salt mixture and air.

Claims (1)

 DEVICE FOR THE FORMATION OF SALT AEROSOLS, comprising a housing with an internal cavity for accommodating crushed salt rock, located on the side of its opposite ends of the outlet and inlet fittings, an air duct communicated with a fan, an air heater and a pressure regulator, characterized in that it is provided with a connecting element for the patient , the casing is mounted with the possibility of rotation around the horizontal axis of symmetry and in the middle part of the casing there is a horizontal partition dividing its inner a chamber for two communicating chambers, each of which is made with the possibility of changing its volume and contains an additional perforated jumper, while the fittings are made with the possibility of alternating interaction with the air drive and the connecting element, and through holes are made in the partition to ensure the oncoming flow of particles of salt rock and air pumped by a fan.

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