SU892262A1 - Liquid sampler - Google Patents

Description

(54) SAMPLER FOR LIQUID

one

The invention relates to the field of environmental protection, in particular to the control of wastewater pollution, and can be used in wastewater treatment plants of enterprises and individual workshops to determine the flow of pollution during shifts, days, etc.

A sampler is known, which is based on compaction with compressed air that has contact with a liquid, which can cause an undesirable oxidation process and, as a result, unreliability of the sample 1.

A known liquid sampler containing a receiving container, a sampling pipe, a compressed air supply line and an elastic valve 2.

However, in known devices, the pipeline for transporting the fluid is in the form of a precision tube that is difficult to manufacture. The movement of the elastic valve occurs along the length of the entire pipeline, which reaches several meters, as a result of which jamming and failure can occur. In addition, deformation of the cross section of a high-precision pipe in a V-shaped section is possible, as a result of this, seizure and leakage of fluid. The ball must be returned to its initial position by hand or by other means.

The aim of the invention is to increase the reliability of the device and the representativeness of the sample.

This goal is achieved by the fact that in a liquid sampler containing a receiving tank, a sampling pipe 10, a pipeline for supplying compressed air and an elastic valve, the pipelines are equipped with chambers located in the lower part of each pipeline and a check valve located in the chamber of the sampling pipe, The compressed air supply piping is equipped with an electromagnetic valve and a device for controlling it, while the elastic valve is located in the chamber of the pipeline for supplying compressed air. ozduha. In addition, it is advisable to use an elastic valve in the form of a diaphragm.

The figure shows a fluid sampler.

The sampler contains a receiving tank 1 connected by valve 2 to the sampling pipe 3, and an elastic valve 4 placed in chamber 5. The chamber 5 is connected at one end to pipe 3 via a check valve 6 and the other end to a source of compressed air 7 through pipe 8 For supplying compressed air, supplied with a solenoid valve 9 and a pressure sensor 10, a time relay 11 is turned on in the control circuit of the valve 9. The sampler is installed in the vessel 12 so that the elastic valve 4. is afloat, occupies the upper position. A conduit 3 is connected to a sampling container 13, which may be of any known construction.

The device works as follows.

Compressed air filled pipe 8, exerts pressure on the elastic valve 4. Valve 4 under pressure of air begins to descend and displaces the fluid from chamber 5. The displaced fluid in turn exerts pressure on valves 2 and 6. Valve 6, on the contrary, it opens and passes the fluid displaced by valve 4 from chamber 5 into the pipework 3. When the lower position is reached, the liquid is expelled from chamber 5. The valve 6 under the action of its own force of gravity and the weight of the column above it liquid is closed, preventing the emptying of the pipeline 3. At the same time, the air supply in the pipeline 8 continues. The elastic valve 4 prevents air leakage in the direction of the receiving tank 1, as a result of which the air pressure in the pipeline 8 is 0.5-1.0 m of water. Art. Above the lifting height H, the pressure sensor 10 is triggered, the electromagnetic valve 9 opens. The air from the pipeline 8 is released into the atmosphere and the atmospheric pressure is established in the pipeline 8. The valve 2 under the action of the liquid column HI moves away from the mouth of the receiving tank and the liquid enters the chamber 5. The elastic valve 4 at the same time, due to buoyancy, rises to its original position. The valve 9 closes against the pulse of the time relay 11, and the liquid withdrawal cycle is repeated in the order described. As a result, all new portions of the liquid continuously flow into the pipeline for transporting the liquid 3, which force the previous ones into the container 13 for collecting samples. The container 13 is periodically delivered to the laboratory for analysis.

The chamber 5 with a sampling valve 4 can also be made in the form of a truncated cone, in the larger base of which an elastic diaphragm is fixed, which acts as an elastic valve.

In the proposed device, instead of difficult to manufacture precision tubes, conventional rubber or polyethylene hoses are used. The movement of the valve takes place in a working chamber a few centimeters long, which completely eliminates the possibility of seizure and leakage. The short length and straightness of the working chamber ensures the ease of manufacture of a high-precision sampler assembly.

The capacity of the sampler is easily controlled by varying the depth of immersion in the fluid (H2 values) and can be increased by accelerating the return of the valve to its original position by means of a spring.

The valve can be made in a ball or cylindrical shape.

The introduction of the sampler during the inspection of the water management of enterprises, at the operating sewage treatment plant provides information on the quality composition of the wastewater, which makes it possible to improve the quality of the design wastewater and the reliability of the sewage treatment plant operation, i.e. improve the reliability of water protection.

For continuous manual sampling of liquids, it is necessary to have an operator at each controlled point. Taking into account that the number of such points in one plant can be from several units to ten or more, the economic effect from the use of the sampler in only one production amounts to 2-4 thousand rubles.

Claims (2)

1. A liquid sampler containing a receiving vessel, a sampling pipe, a compressed air supply pipe and an elastic valve, characterized in that, in order to increase reliability devices and representativeness of the sample, the pipelines are equipped with cameras located at the bottom of each pipeline, and a check valve located in the chamber of the sampling pipeline, and the pipe for supplying compressed air is equipped with an electromagnetic valve and a device for controlling it, compressed air supply. 2. The sampler according to claim 1, characterized in that the elastic valve is made in as a diaphragm. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 182401, c. CO N 1/10, 1962. 2. USSR Author's Certificate No. 243261, c.OOO N 1/14, 1964.