SU575139A1 - Device for obtaining drop flow - Google Patents

Claims (2)

one The image refers to mechanical engineering B, in particular, to obtaining flows of droplets of a given dispersion and density when testing materials and samples for erosion resistance. With very small flow rates, small droplets (OO microns) are used; rotating discs (or drums), but to drive them, high defensive electric motors 24 "U rpm are needed or air turbines. In addition, nozzles with acoustic emitters are used in which the jet or film is exposed to acoustic vibrations, and their frequency can be ultrasonic. A miniature device with an oscillating medical needle is known, which makes it possible to obtain a monodisperse trickle of drops. Its disadvantages are the limited possibility of maintaining the dispersion of the droplet flow in advance (all drops have the same size) and the effect of a trickle of drops on a narrow part of the sample where a groove is formed during erosion and, as a result, the wear pattern is significantly different from the topography on the turbine blades when interacting with wet steam, namely, this relief should be obtained by studying and modeling the erosion of wet-steam turbine blades. The closest in technical essence is a device for receiving a stream of droplets, comprising a chamber with drip gopovkami connected with a source of vibrations, and a supply line with a drive 2. The disadvantages of this device are the limited possibility of controlling the dispersion of the acting flow by a given hole size, the total frequency of oscillations of the perforated wall, and the unevenness of the oily pattern, due to the immobility of the drip tray. The purpose of the invention is to expand the range of dispersion, the droplet flux density, and irrigation equilibrium. This caplet is installed at one end of a two-armed lever and is made in the form of a wall with tubes of different diameters each fortified in it, each; of which is connected to the source of oscillations, and the supply line for supplying fluid is spring-loaded and connected to the drive by a profiled cam formed by two specularly reflected sections of the Archimedes spiral. FIG. 1 and 2 show the proposed device, two projections; in fig. 3 - drip head with several sources of vibrations (vibrators). The device contains; a camera 1 with an oscillating shaft 2 fixed on it for fixing a supply tube 3 having a sleeve 4 to which a spring 5 is attached, which ensures continuous contact of the sleeve 4 with a cam 6 whose profile is formed by two Archimedes' mirrored spirals. Between the bushing located on the chamber and the bushing 4, a flexible hose 7 is applied, which serves to seal the chamber 1. Observation of the drops in the process of setting the drip head occurs through the porthole 8. The drip head contains the bracket O, to which I source 1O is attached oscillations necessary to create a certain frequency of oscillation of the exchangeable tubes of the capillary 11. The bracket is attached with a collar 12 to the supply tube 3. The device is mounted on the lid of the erosion stand 13 with an opening through it th working fluid droplets fall on the test sample surface 14 rotating at a predetermined speed. The device works as follows The working fluid is supplied to the supply tube, which flows into the chamber and flows out from there through the capillary tubes 11. Capillaries of 11 specified sizes oscillate the sources with 10 s-necessary frequencies. As a result, flows of droplets of the required size and dispersion are created. The cam 6 acts on the section of the bush 4, the capillum head is moved along the surface of the sample 14. If it is necessary to change the distribution of dispersion during operation of the device, change the frequency of oscillations of groups or individual tubes. Special cam profiling makes it possible to slow down the movement of the drip head at the moment of approaching the end position in which the movement direction changes. No profiling can lead to dropping of drops for conditional gracid wear and erosion of the border, which makes it difficult to even irrigate and determine the area of the irrigated zone, which is supplied with the amount of liquid in the form of droplets. Swinging the drip head in the sample plane provides uniform irrigation and obtaining the erosion characteristics of the material in the second steady-state period of wear when the relief has formed. F formula of invention A device for receiving droplet streams, comprising a chamber with drip heads, connected to a source of oscillations, and a supply line with a drive, characterized in that extending the range of dispersion, dense droplet flow and uniform irrigation, the Kapledrob head is installed at one end of a two-armed arm and is made in the form of a wall with it with tubes of different diameters, each of which is connected to a source of oscillations, and the supply line for supplying the seat is spring-loaded and connected to the drive by a profiled cam, 2. Device pop. l, differing from the fact that the cam profile is formed by two mirror-enclosed sections of the Archimedes spiral. Sources of information taken into account in the examination: 1. Author's certificate No. 348329, В 05 В 17 / О6., 05.03.70. 2. The author's certificate number 448889, B 05 3/14, 07.07.70. WadSoB fKudHOcmu, C - © (Riga.Z