SU1793932A3 - Device for production of aerosols - Google Patents

Description

The invention relates to medical equipment and can be used to create a microclimate with adjustable parameters in the treatment and prevention of respiratory diseases.

A device for producing a dry aerosol is known, comprising a housing, an air duct with an inlet air inducer located in a chamber in communication with the air duct, a grinder of the material in the form of a crushing body with a rotation drive and a separator.

This device does not provide the required concentration of aerosol in the treatment room.

The purpose of the invention is the provision of the required concentration of aerosol in the treatment room.

To achieve this goal, the device is equipped with a compressor, an aerosol concentration sensor connected to the control unit connected to the chopper drive switch, and the chopper chamber is connected to the compressor by additional air ducts. "

Haha. 1 shows a diagram of a device; in FIG. 2 is a sectional view of the camera; in FIG. 3 - dependence of the concentration of aerosol during operation of the device.

A device for producing a dry aerosol comprises a housing 1, an air duct 2 with an air flow inducer, for example, an inlet fan (not shown in the drawing). At the outlet of the duct 2, a separator 3 is installed, which can be made in the form of interchangeable cyclone or cascade impactor. A hole is made in the side wall of the air duct 2, connected to the outlet channel 4 of the chamber 5, for example, having an annular shape, in which the grinder of the material 6 having the drive 7 is placed.

1793932 AZ of terial 6 is made in the form of a crushing body. The chamber 5 is connected by air ducts 8 and 9 to the TO compressor through nozzles 11 and 12, spaced · along the perimeter and placed above the crushing body. Pipes, the number of which is not less than two, can be located tangentially. The drive 7 of the crushing body through a switch (not shown) is connected to the output of the control unit 13, the input of which is connected to the concentration sensor 14. The output of the control unit 13 may also be associated with a compressor. The control unit 13 provides a comparison of the signal from the concentration sensor 14 with a predetermined value set in advance by the operator, and if they are equal, it generates a signal to turn off the drive and / or compressor 10. When the concentration of aerosol in the treatment room decreases, the control unit 13 due to the difference between the set and the current one coming from the sensor 14, the signals gives a signal to turn on the drive 7, coming to its switch and, if there is an additional connection of the control unit 13 with the compressor, also the latter.

The nozzles 11 and 12 are located at a distance H from the bottom of the chamber, selected equal to 1.5-3h, where h is the distance from the bottom of the chamber to the upper edge of the crushing body. The range of heights of the nozzle location is selected based on the fact that at H <1.5h a large amount of a large fraction of the aerosol is ejected, which leads to a decrease in efficiency, and at H> 3h the productivity of the device drops sharply,

The device operates as follows. The material 5 is loaded into the chamber 5 without preliminary grinding to a powder state, the drive 7 of the grinder 6, the compressor 10 and the air flow inducer are turned on. The filtered air stream is supplied from the compressor 10 through the air ducts 8 and 9 to the chamber 5 through nozzles 11 and 12, which ensure the formation of air flows in the chamber 5 and the ejection of particles of the material through the outlet channel 4 of the duct 2 through the separator 3, where a large fraction of the aerosol is separated, to the treatment room. The flow of dry aerosol contains particles of the required size. The predetermined concentration required for the treatment session is supported by a circuit including a concentration sensor 14 and a control unit connected to the drive switch 7. Maintaining a predetermined aerosol concentration by periodically turning off the grinder 6 ensures high accuracy of maintaining the concentration at a predetermined level due to the reduction inertia (see the dependence shown in Fig. 3) and increases the service life of the chopper drive, and also reduces the energy consumption of the device.

The tangential location of the nozzles 11 and 12 contributes to the formation of a vortex flow in the chamber 5, which increases the productivity of the device for a fine fraction of particles.

If it is necessary to change the fractional-dispersed composition of the generated aerosol, a removable separator 3 is installed in the device, which is adjusted to extract the desired fraction of aerosol particles from the stream.

Thus, the device provides the creation of an aerosol from unprepared pre-salt material, and the need for its preliminary weight dosing is excluded, the device provides dry separation of particles and high performance of the finely dispersed fraction for a long time, allows you to feed particles of the desired size range into the treatment room and regulate (maintain) the mass aerosol concentration at the level necessary for the treatment procedure.

Claims (6)

Claim 1. A device for producing a dry aerosol, comprising a housing, an air duct, an inlet air flow inducer located in a chamber in communication with the air duct, a grinder of a material in the form of a crushing body with a rotation drive and a separator, characterized in that, in order to provide the required aerosol concentration in treatment room, it is equipped with a compressor, an aerosol concentration sensor connected to the control unit connected to the chopper drive switch, and the chopper chamber is equipped with at least two input pipes, spaced along its perimeter, located above the crushing body and communicated through additional air ducts with a compressor, while the outlet channel of the chamber is perpendicular to the longitudinal axis of the duct, at the outlet of which a separator is located. 2. The device pop. 1! The result is that the nozzles of the chamber are located tangentially. . . 3. The device according to paragraphs. 1 and 2, distinguished by the fact that the nozzles are located at a distance from the bottom of the chamber (1,5-3) h, where h is the distance from the bottom of the chamber to the upper edge of the crushing body. 4. The device according to paragraphs. 1-3, distinguished by the fact that the separator is made in the form of a removable cyclone. 5. The device according to paragraphs. 1-3, characterized in that the separator is made in the form of a removable cascade impactor. 6. The device pop. 1, due to the fact that the control unit is additionally connected to the compressor. i X -- P Fig! Fig.Z Compiled by A. Dubinskaya Editor Tehred M. Morgenthal Corrector M. Andrushenko Order 517 Circulation Subscription ' VNIIIPI of the State Committee on Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35. Raushskaya nab .. 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.