RU2103019C1 - Salt aerosol forming device - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: pulsating flow is created by means of impeller positioned in cylindrical casing with holes overlapped by holes of circular shutter mounted for turning around casing. Branch pipe of casing is inserted in horizontal channel provided in central horizontal partition. Each chamber has air-duct tube communicating with chamber. Some of tube ends are coupled to diffuser communicating with breathing mask, and other ends of air-duct tubes are coupled to vertical tube positioned on central partition. Vertical tube has gravitation valves, and it is manufactured for supplying the air through it to chamber arranged in lower position and for discharging the aerosol flow formed due to counter flow of air and salt particles through air duct of chamber arranged in upper position. EFFECT: more efficient treatment. 3 dwg

Description

 The invention relates to medicine and can be used for individual treatment of respiratory diseases.

A device for the formation of salt aerosols is known, in which a pulsating flow of salt mixture is created using an ultrasonic generator [1], but such generators create a “rough” adjustment of the pressure change in aerosols (100 - 300 mm H ₂ O), which does not provide a high positive therapeutic the effect achieved with a "soft" pulsation of the aerosol stream (units mm H ₂ O).

 Known climatic chamber containing a sealed room, air, air conditioning, pressure regulators, equipped with a lock chamber, salt blocks [2].

 The disadvantage of the camera is the insufficiently high quality of the resulting salt mixtures, limited use.

 The task of the invention is to increase the therapeutic effect by creating the optimal pulsating flow in the device.

 The problem is solved in that the device containing the housing C; an internal cavity for accommodating crushed salt rock, divided by a horizontal partition with holes into two communicating chambers, each of which contains an additional perforated jumper, a fan, an air heater, a pressure regulator, an air duct, and a pulsating mechanism made in the form of an impeller located in a cylindrical cage with holes overlapped by the holes of the annular flap mounted with the possibility of rotation around the cage, and the pipe sleeve is inserted into isontal channel made in the central horizontal partition, in each of the chambers there is an air pipe connected to it, while one of the ends of the pipes is connected to a diffuser in communication with the breathing mask, and the second ends of the air pipes are connected to a vertical pipe mounted on the central partition gravity valves and made with the possibility of supplying air through it to the chamber located in the lower position and the output formed due to the oncoming movement of air and h astits salt aerosol flow through the air duct of the chamber located in the upper position.

 Thanks to this embodiment of the pulsating mechanism, a low-frequency aerosol flow with soft pulsation control is achieved, which contributes to the formation of fine particles of salt aerosol, which increase the positive therapeutic effect.

 Figure 1 presents a General view of the device, section; figure 2 - pulsating mechanism; figure 3 is the same side view.

The device comprises a housing consisting of two identical communicating chambers 1 and 2, filled with crushed potassium-salt mixture 3. In the central part between the chambers there is a horizontal partition 4 with two types of through holes: 5 - for passage, mainly salt mixture, hole diameter D _c ≥ d _maxr , 6 - for air passage, hole diameter d _b = 1/2 _dmaxr , where d _maxr - maximum diameter of salt particles. 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 town 4 is made with symmetrical sides in which a thread is cut for connection with chambers 1 and 2. Lids 10 are screwed onto the thread of the upper end of the chambers 1 and 2 with central holes into which the air duct tubes 11 are inserted, having openings at one end, through gravity valves 12 connected to a vertical tube 13 fixed to the horizontal partition 4. On the other side of the air duct tube 11 connected to a diffuser 14, which is connected through a hose 15 to the breathing mask 16. The vertical tube 13 has openings at both ends, the upper opening of the pipe 13 and the opening of the lower pipe 11 of the air duct always overlapping by gravity valves 12.

 In the middle of the chambers 1 and 2, an additional perforated bridge 17 is fixed for more uniform formation of the aerosol stream. A block 18 is installed on the support 9, including a fan with a heater, which can be used, for example, commercially available, which are connected to a household network through a cord 19.

 In the upper part of block 18 there is a pulsating mechanism made in the form of an impeller 20, sitting on the axis 21. The impeller is located in a holder 22, which has a pipe 23 that is inserted into the horizontal channel of the partition 4, which has an outlet in the hole of the vertical tube 13. The holder 22 also has the outlet through the nozzle 24 to the fan in the block 18. An annular shutter 25 is mounted on the yoke 22, with the possibility of rotation around the yoke 22, The yoke 22 and the shutter 25 have openings that can be opened or overlapped when they are rotated, creating those with rotating impeller easy air flow pulsation chamber 1. The impeller is made in the form of several blades 26 each of which is fitted onto shaft 27 with respect to which it can unfold. All blades are fixed on axis 21.

 The device operates as follows.

 The crushed salt mixture 3 is poured into the chamber 1 under the perforated shell 17 and above it, the lid 10 is closed, while the lower gravity valve 12 in the chamber 2 closes the hole in the lower tube 11 of the air duct, and the upper gravity valve closes the upper hole of the tube 13. Turn on the fan, block heater 18. Air from the fan enters through the pipe 24 into the clip 22 of the pulsating mechanism, in which a pulsating air flow is generated using the impeller blades 26, the open holes of the clip 22 and the annular gap nki 25, the actual area of which is determined by their relative position. The pulsating air flow enters through the pipe 23 into the horizontal channel of the partition 4 and then into the lower part of the vertical tube 13 and through the hole in it into the chamber 2, and then through the additional jumper 17 moves to the horizontal partition 4. At the same time, particles of the salt mixture from the chamber 1 through it the jumper 17 move to the horizontal partition and pass through the hole 5 into the lower chamber 2. In the process of mutual counter movement of the air flow and the particles of the salt mixture, the air stream is actively saturated with with ole particles, forming a therapeutic aerosol, which enters through the open hole of the upper tube of the air duct 11, the diffuser 14, in which large salt particles are separated into the lower part of the diffuser and the aerosol flows with a finely divided salt mixture into the breathing hose 15 to the mask 16. After the saline is poured mixtures of the upper chamber 1 to the lower 2 turn the lower chamber 2 to the upper position (chamber 1), and the cycle repeats.

Claims (1)

 A device for the formation of a salt aerosol, comprising a housing with an internal cavity for accommodating crushed salt rock, a fan, an air heater, a pressure regulator, an air duct, characterized in that the housing is mounted for rotation around a horizontal axis and is provided with a central horizontal partition with openings dividing the internal cavity into two identical communicating cameras, each of which contains an additional perforated jumper, and the device is equipped with a mechanism for creating bullets a flowing stream made in the form of an impeller located in a cylindrical cage with holes overlapped by the holes of the annular flap mounted with the possibility of rotation around the cage, and the casing nozzle is inserted into a horizontal channel made in the central horizontal partition, in each of the chambers there is a tube connected with it air duct, while one of the ends of the tubes is connected to a diffuser in communication with the breathing mask, and the second ends of the tubes of the air duct are connected to the neutral baffle with a vertical tube having gravity valves and configured to supply air through it to the chamber located in the lower position and exit the aerosol stream formed through the counter movement of air and salt particles through the chamber air duct located in the upper position.

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