SU640168A1 - Liquid sampler - Google Patents

Description

the spring 15 by the valve 16, located in the pipeline 1.

The nozzles 4-7 are mounted tangentially, the chamber is tilted to the apparatus from which the sample is taken, and one of the ends of the intake tube is lowered into the fluid to be withdrawn.

The measuring cell consists of two cylindrical housings into which the measuring electrodes 17 are hermetically inserted. The housings are connected by tangentially mounted nozzles 18.

The clan 16 is located in the saddle 19 and is connected to a tank mounted in the lid 14 by a tube 20 that holds a liquid inlet. Pipeline 1 is made without abrupt transitions, so that it is not blocked.

The device works as follows.

Compressed gas is supplied to the ejector 8 via a line. A vacuum is created in the device, and the liquid enters through the intake pipe 1 through a three-way valve 10 into the flow measuring cell 2, the sampler 3 and the gas and the liquid ejector 8, where the liquid is mixed with the compressed gas flowing from the active nozzle of the ejector and is discharged back into the device through the exhaust chamber 11 Through viewing windows 12, the movement of fluid in the device is visually monitored. The crane 10 is in the position shown in FIG. I, and the fluid passes unhindered through pipeline 1. In cell 2, the liquid enters through the nozzle 4 into the first cylindrical case, where, moving along a spiral trajectory due to tangential entry, it washes the electrode 17 and then enters the second case tangentially through nozzle 18 where again, moving in a spiraling trajectory, the fluid washes in electrode 17 and is tangentially outputted through nipple 6. With such fluid movement, there are no stagnant zones. The sampler is in the position shown in FIG. 3. The fluid is tangentially through pipe 5 and discharged through pipe 7.

In the case of discrete sampling with a capacity of 13, pressure is applied to valve 16, compressing the spring 15. The valve opens and liquid 13 enters the container 13 through the tube 20. Air from the tank 13 flows directly into the fluid flow and is discharged through the ejector 8 into the apparatus. After filling, the container 13 undocks and automatically returns to its original position.

When a blockage occurs in any place, the valve 10 is transferred to the positions where the pipe 9 is connected to the pipeline 1. The washing liquid under pressure is supplied to the cleaning of the measuring cell 2 of the sampling tank 3 and the ejector 8 or the pipeline 1.

Claims (4)

Invention Formula 1- A device for sampling a fluid, including a suction pipe, a measuring cell installed successively on it, a sampler with nozzles of input and output of a liquid, and an ejector, characterized in that, in order to increase the reliability of the nrob and the reliability of the design, it is equipped with an exhaust chamber, the sampler is made in the form of a container with a lid and a spring-loaded valve located in the intake manifold, and the inlet and outlet nozzles are installed tangentially. 2. Device but n. I, since it is equipped with a pipe for supplying the washing liquid connected by the three-running crane to the pipeline. 3. The device according to paragraphs. 1 and 2, characterized in that the sampler is installed above the liquid level in the measuring the cell. 4. Device but nn. 1-3, characterized in that the chamber has viewing windows. Sources of information taken into account in the examination 1. Sampling systems and their elements for petroleum product quality analyzers. There are comprehensive reviews. M., TsNIITEneftekhim, 1967, p. 19, fig. 13, w