RU2210393C2 - Fluid sprayer - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: fluid sprayer has detachable body, collector with axial hole and fluid and gas throttles, electric motor with two similar parallel disks installed on its shaft and in cavity of joint, and forming working cavity, fluid discharge branch pipe communicated with collector axial hole through tangential hole. Joint cavity is additionally provided with cylindrical tangential hole accommodating fluid discharge branch pipe. Working blades are uniformly spaced uniformly over circumference on disks periphery. EFFECT: higher efficiency of sprayer and provided directed flow of aerosols with high degree of monodispercity. 1 dwg

Description

 The invention relates to devices for spraying liquid and obtaining a directed flow of monodisperse aerosols in medicine and can be used to carry out aerosol methods of administering drugs to the physiotherapeutic zone for various diseases of periodontal tissues, for treating trophic ulcers and non-healing wounds.

 The closest prototype of the proposed solution is a liquid atomizer containing a detachable body, with the formation of a cavity with a tangential hole in the connector, an electric motor located in the body with a disk mounted on its shaft and in the cavity of the connector, means for supplying liquid, made in the form of a collector with an axial hole and a liquid and gas chokes mounted coaxially with the housing, the liquid outlet means in the form of a nozzle in communication with the axial hole of the collector through the tangential hole, once the first syringe, located in the liquid reservoir. The working disk is made in the form of two identical parallel disks with the formation of a working cavity between them, connected with the axial collector through a blind axial hole of the shaft, and through it tangential holes. The disadvantages of this design include the relatively low productivity and displacement of the dispersion towards larger particle sizes of the generated aerosol due to their coagulation and accumulation in the form of large drops of the initial liquid on the periphery of the working cavity.

 The aim of the invention is to increase the performance of the atomizer and obtaining a directed flow of aerosols with a high degree of monodispersity.

 This goal is achieved by the fact that in the liquid atomizer containing the detachable body, with the formation of a cavity with a tangential hole in the connector, means for supplying liquid, made in the form of a collector with an axial hole and liquid and gas chokes, mounted coaxially with the body, an electric motor located in the body with a disk mounted on its shaft and in the cavity of the connector, made in the form of two identical parallel disks with the formation of a working cavity between them, in communication with the axial collector through a blind axial bore of the shaft, and through it tangential openings made therein, a fluid outlet means in the form of a nozzle connected to the axial bore of the collector through a tangential bore, the connector cavity is additionally provided with a cylindrical tangential bore with a fluid outlet manifold located in it, and on the periphery of the working disks rotor blades are made uniformly around the circumference.

 The design of the proposed device is illustrated in the drawing.

 The sprayer consists of two cylindrical bodies 1 and 2 fastened together, forming a cylindrical cavity, where the working disks 3 and 4 are located with blades made on the periphery 5 and 6 and driven by an electric motor 7 located in the housing 8. The sprayer also contains a 9 s collector liquid 10 and gas 11 chokes with corresponding fittings 12 and 13, locknuts 14 and 15, fixing the position of the corresponding chokes. The motor shaft 16 has a blind axial hole 17 and through tangential holes 18. The cylindrical bodies 1 and 2 form a tangential hole 19 of a rectangular shape, where a guide pipe for the output of monodisperse aerosol 20 is fixed. An angle of 180 degrees relative to the hole 19 between the bodies 1 and 2 is made tangential cylindrical hole, where the outlet pipe of the fluid 21. is fixed. In the cylindrical body 2, a seal 22 is installed, which is compressed by the manifold 9.

 The liquid atomizer operates as follows. The medicinal fluid entering through the nozzle 12, passing through the liquid throttle 10, enters the axial bore of the manifold 9. The treatment gas mixture supplied through the gas throttle 11 also enters the axial bore of the manifold 9, where it is mixed with the medicinal fluid. The continuous flow of the gas-liquid mixture, entering through the blind hole 17 of the shaft 16, the tangential holes 18, falls on the working surfaces of the rotating disks 3 and 4, turning into a thin film, which breaks at the section of the disks, being converted into a stream of monodisperse aerosol. The latter, passing through the tangential hole 19, made in the direction of rotation of the disks, enters the pipe 20, at the outlet of which acquires directional movement. In this case, the part of the liquid that accumulates on the periphery of the cylindrical cavity is discarded by the blades 5 and 6 through the pipe 21 beyond its limits.

 Compared with the known proposed spray liquid has the following advantages. The proposed design of the spray allows it to simultaneously perform the functions of both a bleeding device and the generator of monodisperse aerosols proper. The presence of blades on the periphery of the working disks makes it possible to remove the liquid that has accumulated on the periphery of the working cavity beyond its limits through the nozzle 21, thereby eliminating the possibility of large drops entering the main aerosol stream. This increases the performance of the atomizer as a whole and the degree of monodispersion of the generated aerosol.

Claims (1)

 A liquid sprayer comprising a detachable housing with a cavity with a tangential hole located in the connector, means for supplying liquid, made in the form of a collector with an axial hole and liquid and gas chokes, mounted coaxially with the housing, an electric motor located in the housing with the motor installed on its shaft and in said the cavity of the connector with two identical parallel disks forming between themselves a working cavity communicated with the collector through a blind hole in the shaft, in which through e tangential openings the liquid output means in the form of a pipe communicated with an axial hole reservoir through the tangential opening, characterized in that the connector cavity is further provided with a cylindrical tangential opening with disposed therein pipe fluid output, and in the periphery disk uniformly circumferentially formed blades.