SU646229A1 - Liquids dispersion analysis device - Google Patents

Description

(54) DEVICE FOR DISPERSION ANALYSIS OF LIQUIDS 3: flow tangential to the filter plane. It is possible to view and count the number of particles of contaminants retained by the filter during the outflow of liquid through it, and the analysis of the filter surface upon termination of liquid flow through the filter It is not objective, since most of the particles are ijv suspended, in liquid state, filter, filter. The action of convection currents. The design of the device allows you to view the filter only in its central part (the periphery of the filter is not in view). In order to eliminate impurities from the analyzed liquid, increase the filter durability, eliminate vortex formation and improve the visibility of the filter, the device is equipped with prechamber and distribution device placed in the prechamber and connecting the feed and discharge channels. The distribution device is made in the form of a rotary tube with a hole and a branch pipe fixed in THIS holes, and in the measuring chamber in the side wall of the housing an annular cavity is made under the visor. The viewing hole is made in the form of a truncated cone coaxially with the annular cavity. The drawing shows the proposed device, the cut. The housing 1 of the device contains a pre-chamber 2, in which the distributor fixture is installed, some of the rotary plug 3 with a hole, in which the nozzle 4 is fixed, the output 5 of which can alternately interact with the wall of the prechamber 2, the inlet 7 and the outlet 1 8 channels. Channel 9 serves to supply the test liquid, and 10 drain. . , in the housing 1 there is a measuring chamber in which the mounting is mounted: 11; An inspection hole 12 made in the form of a truncated cone coaxially with the annular cavity 13, and the insert 14, the inspection opening 12 and the annular cavity 13 are communicated. between the inserts 11 and 14 are mounted. filter 16. 16. The ring cavity of insert 11 and the IJi test are communicated with ancestor 2, respectively. channels 7 and the internal cavity of the measuring chamber are protected from the surrounding environment by the viewing window 17. The ultrasonic transducer 18 is integrated into the insert 14, and the flow meter 19 is liquid into the discharge channel 8. The operation of the instrument consists of the following technological operations: washing all the internal surfaces of the instrument and filter; sampling; analysis 9 When flushing cork 3, exit 5 of nozzle 4 is aligned with the inlet of channel 8. The test fluid through channel 9 and nozzle 4 enters channel 8. At the same time, some of the liquid through the gap between housing 1 and back wall 3 flows continuously into the prechamber 2, and Part Fluid through the gap between the outlet 5 of the nozzle 4 istenka b also flows continuously into the pre-chamber 2, and its walls, passes into the drain channel 10. The gaps between body i and plug 3 and between you: x: 5 nozzle 4 and wall 6 are designed to create a constant flow of fluid and with particles generated in these places by the device itself through the pre-chamber 2 into the drain channel 10. -,. The main part of the liquid under study from channel 8 enters the internal cavity of the insert 14, passes through the filter 16, the viewing hole 12.1, the gap 15, the annular cavity 13, KeLiian 1 and the pre-chamber 2 and is discharged through the channel 10 to the drain. When this happens, all the internal surfaces of the device and the filter are rinsed with the liquid under study. In order to intensify the process of washing the filter 16 and the internal surfaces of the measuring chamber, an ultrasonic transducer 18 is used. Particles generated by the switching system during its installation are carried away from the internal cavity of the device through the drain channel 10 during double- and triple washing. When sampling by turning the plug 3, the outlet 5 of the nozzle 4 is aligned with the inlet of the channel 7. The liquid under study is through channel 9, nozzle 4, channel 7, the annular cavity 13, the gap 15 enters from above through the inspection hole 12 to the filter. After passing the filter .16, the liquid through channel 8 enters the prechamber 2 and is discharged to the drain through channel 10. The particles of contaminants present in the test liquid are trapped on the surface of the filter. In the analysis by turning the plug 3, the nozzle 4 is set to a position between the channels 7 and 8 seconds slightly. liquid flow through ka, nal 7, ring: cavity 13, gap 15 ,. observation hole 12, filter It, channel 8 to the pre-chamber 2 and through channel 10 to the drain. This fluid flow is necessary to press all particles of contaminants against the surface of the filter 16. Particle counting is performed visually (for example, using a microscope) through viewing window 17 and viewing hole 12, Gap 15 eliminates the possibility of vortex Zones in viewing holes 12. 12.

12 is made in the form of a truncated cone-1 coaxially with the annular cavity 13, facing with a large base in the fctopoHy of the viewing window 17 of the measuring gel chamber, and the smaller one towards the filter 16.

A certain angle of inclination, forming a cone of the cone of the viewing hole 12, provides a view of the entire surface of the filter 16,

Claims (3)

1. A device for dispersive analysis of liquids, including VH8H | v in the body of the measuring chamber $ p5. and inlet and outlet fluid; The channels connected to the measuring chamber, the filter located 15 beneath it, the viewing hole, closed by the viewing window, -O tl and h and 1 h and the fact that, in order to eliminate impurities from the analyzed liquid and increase the ) perpetuity of the filter, it is equipped with a pre-chamber in the body and distribution device, dis- placed. Pick up in the prechamber and connecting the inlet and outlet channels. 2. The device according to Clause 1, of which there is an I and the fact that the distributor fixture is made in the form of a rotary stopper with a hole and a branch pipe fixed to this hole. 3. The instrument according to Claim 1, that is, tea and so that, in order to eliminate eddy formation and improve visibility, in the measuring chamber An annular cavity is made in the side wall of the housing under the viewing window, and the viewing hole is made in the form of a truncated cone coaxially with the annular cavity. Sources of information taken into account in the examination 1. The patent of Germany No. 1598353, cl. 42 2, 3/50, 1970 .. 2, Technical Guidance Material 53406-04. Production of hydraulic and fuel systems. PTM-il20 4.li,. Installation,; control and testing of hydrogas and fuel systems. M., NIAT, 1967.