SU816471A1 - Electric aerosol apparatus for vaccination and therapy of animals - Google Patents

Description

The invention relates to devices for the preparation of highly dispersive electro-aerosols and can be used for group vaccination to the treatment of scHBOTHbix with live and inactivated vaccines and other preparations.

Vaccination and therapy apparatus are known, which are separators that can be performed conical, circular i.p. forlsl 13

Separators of this design can only partially collect the largest particles located in the central part of the torch, since the surface of the separator is not large. Therefore, the particles do not have time to condense on the surface of the separator and. rather large particles leave with small particles. For this reason, low power sprayers are used in devices of this design; therefore, the above devices spray an average of 0.5-2 ml / min of liquid.

Electro-aerosol apparatus for spraying monodisperse electrolytic aerosol are known, in which the spray cone is reflected and sent to one or two separation chambers. The second KoiMepa separation is formed by means of a hollow perforated truncated cone located inside the casing with an atomizer. In addition, the spray torch on its way meets the reflective plate, which contributes to the separation of small particles of aerosol from large ones. The power of such an apparatus is also limited by the fact that with the use of high-power sprayers (sprayed 500-700 ml / min of liquid) in the separation chambers, the number of large aerosol particles increases, which become a drag of coagulation of medium and small particles 2.

The purpose of the invention is to increase the productivity of the apparatus.

This goal is achieved by the fact that the reflector is made in the form of a stepped cone with smooth transitions mesedu steps formed from the bottom of the body, and the dispenser is installed above the cone coaxially at its top.

The drawing shows the electro-aerosol apparatus, section.

The housing of the apparatus 1. expanding in the upper direction contains apertures 2 for the outlet of the aerosol, and its lower part forms the reservoir 3

for fluid, the ends 6 of the handle 7 used to hang and transfer the apparatus enter the holes 4 of the lugs 5. In the upper part of the housing 1, a lid 8 with two walls, x: 3 forming cavities 9, is placed in order to place the rectifier power supply 10 or the dry battery in it ;. The cover C has an edge 11 and a cylindrical hole 12. The cover 8 is fixed by the knuckles 6 of the handle 7. An electro-aerosol dispenser 13 is inserted into the hole 12, containing an air 14 and two liquid channels 15, an inductive electrode 16, a spray nozzle 17, contacts 18 and 19, which are connected with a source of 10 power.

A stepped cone-shaped separator 20 is fixed above the inner wall of the tank 3, containing conical surfaces 21, the base diameters of which correspond to the thickness of layers of different dispersion in the flare of the core, and the guide surfaces 22 of the torch that smoothly transform into the conical surfaces of the separator 20

In the housing 1 of the apparatus there are two tubes 23, the upper ends of which are connected to the liquid channels 15 of the atomizer with the help of rubber hose 24 and the lower ones enter the tank 3 for liquid.

The electro-aerosol apparatus for vaccination and therapy of animals works as follows.

For operation of the apparatus, the air channel 14 of the spray gun 13 is connected to the compressor. The compressed sterile air through the channel 14 enters the spray nozzle 17, in which the discharge is created. From the tank 3, a solution is sucked in the tubes 23, which is sprayed with air as it leaves the spray nozzle 17. In this case, the spray particles acquire a charge from the inducing electrode 16 (the negative or positive pole of the voltage source is grounded).

The spray cone during the spraying of the liquid produces particles of different sizes. The largest particles having a large weight are distributed in the center of the plume, the smaller particles are distributed behind the larger particles, and the smallest particles (satellites), having a small weight, are located in the periphery of the spray.

Immediately after leaving the nozzle, the torch of electro-aerosol particles meets the top of a conical stepped separator, on which the largest aerosol Electro-aerosol particles condense, and the remaining particles of medium and small sizes meet the guiding surface 22 of the separator 20 change direction of flight and meet a wall on their way the housing 1 between the openings 2. In this case, the particles of medium size condense on the wall of the housing 1, and small particles through the openings 2 fly into the air.

Particles of the middle part of the spray nozzle that do not meet the first stage of the separator 20 meet the second stage of the separator, the larger ones condense on its conical surface, and the smaller ones change the direction from the second guide surface of the separator 20 and the X leaves through the holes 2 similar to particles reflected by the surface of the first stage of the separator.

In the third stage of the separator 20, the peripheral portion of the plume, containing the smallest particles of electro-aerosol, is treated similarly.

Thus, a stepped cone-shaped separator provides condensation of larger particles within the entire Spray Torch and therefore an insignificant number of medium-sized particles fall into the separation chamber of the housing 1. Because of this, the coagulation process of medium and small aerosol particles is reduced in the separation chamber. The resulting transverse air flows from each guide surface 22 of the stepped separator 20 reduce the turbulence of the particles in the separation chamber, thereby facilitating the exit of small aerosol particles outside the separation chamber.

The table shows the test results of the apparatus.

Efficient extraction of larger particles from the spray jet using a stepped cone-shaped separator allows the use of a more powerful electro-aerosol dispenser without increasing the size of the apparatus, which increases the productivity of the apparatus by 1.7-1.8 times.

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Claims (2)

1. USSR author's certificate number 429818, cl. A 61 M 11/02, 1975. 2. Authors certificate of the USSR 651766, cl. A 01 M 11/02, 1977. Yag 75 2 go