RU2067875C1 - Aerosolization assembly - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: aerozolization assembly has case 1, fan 6 and mill 3 provided with drives, ionizer 11 with glass members, which are disposed layer by layer in form of a stack. Members of adjacent layers are turned by 90 deg. Glass members are made in form of plates 13, disposed at 10-15 deg angle to vertical line. There is common drive 9 for both fan 6 and mill 3. EFFECT: improved output. 2 cl, 3 dwg

Description

 The aerosol installation refers to medical equipment and is intended to produce dry aerosol of table salt.

 Known climatic chamber (USSR AS N 1532035, A 61 G 10/02, 988), containing a shell, air conditioning with connecting piping, a salt hopper with a net, glass balls and a silk cloth. When air is supplied, balls move, which grind the salt to a size of 0.2-0.3 microns. In addition, glass balls are charged with a positive charge (from friction against silk fabric) and induce a charge on the salt particles. Salt ionization occurs.

 The disadvantage of this device is not enough fine grinding of salt and rapid wear of glass balls.

 A device is known for producing a dry aerosol, comprising a housing, a fan, a powder tank with a grinder (AS USSR N 1630834, A 61 M 11/02, 1989). The grinder is made in the form of a rotation body fixed on the fan shaft, the working part of which is located in the opening of the tank. In this case, the shaft is equipped with an unbalance. The device provides grinding medical powder and eliminates the ingress of large particles of salt into the outlet pipe.

 This device provides the production of table salt of the required dispersion, but the absence of ionized particles reduces the therapeutic effect of this respiratory mixture. The depth of penetration of the substance into the respiratory organs depends on the dispersion of particles and the degree of ionization of the aerosol. In addition, ionized air contains virtually no dust.

Known aerosol installation N devil. EL99-1528 M-00, taken as a prototype, containing a housing, a fan and a mill with drives, an ionizer (filter) with glass tubes arranged in several layers with a stack, and the elements (tubes) in adjacent layers are deployed at 90 ^o . ("Installation for the production of sodium chloride aerosol" issued by the Chelyabinsk association "Flight" in December 1992). Glass elements are made in the form of tubes. Two drives are located in the lower part of the case: horizontally the fan drive and vertically the mill drive.

 The disadvantage of this aerosol installation is the complex, laborious manufacture of glass tubes.

 The task of the invention is to simplify the manufacture of glass elements.

 In addition, the task is to simplify the drive system.

This problem is solved due to the fact that in an aerosol installation containing a housing, a fan and a mill with a drive, an ionizer with glass elements arranged in several layers in a stack, and the elements in adjacent layers are rotated 90 ^o , according to the invention, the glass elements are made in the form plates located at an angle of 10-15 ^o to the vertical axis of the duct.

 In addition, the drive is equipped with two output shafts for connecting with a fan and a mill, respectively.

The implementation of glass elements in the form of plates cut from sheets of glass is much simpler than the special manufacture of round elements, and their location at an angle of 10-15 ^o to the vertical axis of the duct provides a fairly good ionization of the dispersed salt.

 And supplying the drive with two output shafts for connecting with a fan and a mill, respectively, simplifies the design and reduces the metal consumption of the installation.

 The claimed technical solution has a difference from the prototype i.e. meets the criterion of "novelty" and does not follow explicitly from the studied prior art, that is, meets the criterion of "inventive step" and can find application in medical technology, as an installation for the treatment of respiratory diseases, i.e. characterized by "industrial applicability".

 The invention is illustrated by the drawing, which shows the aerosol installation in two projections of FIG. 1 is a front view, FIG. 2 view on the right. Below in FIG. 3, a section A-A of the installation is made in the part where the duct is made in the form of a snail.

 The inventive aerosol installation includes a housing 1 with a reclining pipe 2. In the lower part of the housing 1 there is a mill 3 with a knife 4 and a taper nozzle 5 provided with holes, as well as a fan 6 in the air duct 7, which is equipped with an electric air heater 8. The drive 9 is installed vertically and has two output a shaft for connecting, respectively, with a fan and a mill 3. The duct 7 at the location of the knife 4 of the mill 3 with a conical nozzle 5 and a knife 4 is twisted into a cochlea 10.

In the pipe 2 installed coaxially with the mill is a retractable ionizer 11 near the outlet of the nozzle of the mill. The ionizer is made in the form of a cartridge 12. The glass elements of the ionizer are made in the form of plates 13 and are cut from ordinary glass 3-4 mm thick, 15-20 mm wide and the length corresponding to the length of the cartridge 12. The cartridge is drawn from twenty-five plates 13. To install the plates along the edges of each frame 14, grooves are cut at an angle of 10-15 ^o to the vertical axis of the duct. In adjacent layers of the frame 14, the plates 13 are rotated 90 ^° . On the sides of the plate 13 are closed by a casing to prevent loss.

 Aerosol installation works as follows.

 Dry table salt through a sieve is poured into the nozzle 5 of the mill 3, by folding the pipe 2 of the duct. Turn on the electric heater 8, fan 6 and mill 3. Salt is crushed with a knife 4 of mill 3 to a dispersed state. The heated air passes through the duct 7 and enters the cochlea 10 through the holes in the conical nozzle 5. A rarefied state is created in the center of the cochlea 10 and the dispersed salt rises and passes through the ionizer 11. Soy particles, hitting the inclined surfaces of the plates 13, are ionized and, passing all layers of the plates 13 are converted into aerosol. Through the pipe 2 particles exit to the room where the chairs for patients are located.

The operating time of the installation and the amount of salt is determined empirically. The required concentration of aerosol is maintained at a certain level. The therapeutic effect on the patient's body with ionized air is carried out with a concentration of charged particles up to 5 • 10 ³ ions / cm ³ .

 The claimed technical solution is simple to manufacture, has a small metal consumption and provides high-quality dry aerosol of table salt. YYY2

Claims (2)

 1. An aerosol installation, comprising a housing, a fan and a mill connected to the drive, connected to the outlet section of the duct, in which an ionizer is installed with glass elements stacked in several layers, the elements in adjacent layers being rotated 90 ° from one another, different the fact that the glass elements are made in the form of plates, each of which is located at an angle of 10-15 ° to the vertical axis of the duct.  2. Installation according to claim 1, characterized in that the drive is equipped with two output shafts for connection, respectively, with a fan and a mill.

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