SU1691711A1 - Device for sampling extraction - Google Patents

Abstract

The invention relates to devices for sampling, in particular to devices for sampling the extract in laboratory studies of process fluids in the production process in the chemical, microbiological and other industries. The purpose of the invention is to increase the reliability of the extracted extract sample. The device includes a vessel with a stopper made with a hole into which a diverting nozzle is inserted, made in the form of an ascending and descending part, at the upper point of the bend of which a hole is made. The hole in the tube in its lower part has the shape of a truncated cone, and the plug is made with an additional hole in which the peredpivach tube is inserted into the bottom of the vessel. The device is equipped with a means of displacing the extract of the ultrasonic vessel. The upper inner cavity of the vessel is made in the form of a truncated cone and the diameter of its upper base is made equal to the diameter of the inlet opening in the problem. The discharge nozzle and the vessel are made of a transparent material 2, L. lfl, 2 or 3 (L

Description

The invention relates to a fluid sampling technique, and more specifically to devices that allow the separation of pre-sampled for laboratory tests of fluid samples into parts, taking into account the difference of parts by specific weight, and can be used to monitor the level of contamination, such as oil products, as well as sampling of the extract in the laboratory study of process fluids in the production process in the chemical, microbiological and other sectors of the industry.

The aim of the invention is to increase the reliability of the extracted extract sample.

Figure 1 shows the proposed device before sampling; 2, the upper part of the vessel at the time of sampling.

The device for sampling the extract contains a vessel 1 with a removable plug 2, made with an opening 3 with a discharge pipe 4 installed in it, and a receiving cuvette 5. The discharge pipe 4 is made in the form of upward 6 and downward 7 sections, the upper bending point of which is provided with an opening 8 for communication of the internal cavity of the discharge pipe with the atmosphere. The opening 3 and the plug 2 in the lower part has the shape of a truncated cone 9, and the upper internal cavity of the vessel 1 also has the shape of a broken cone 10, while the diameter of its upper base is made equal to the inlet opening in the plug 2. The plug 2 has an additional

ABOUT

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an opening 11 in which the extrusion tube 12 is inserted into the bottom part of the vessel 1 The extrusion tube 12 The upper end of the extrusion tube 12 is made in the form of a funnel 13, the entrance to which is arranged to interact with the means for displacing the extract 14 from the vessel 1. The means for displacing the extract 14 from the vessel 1 is made in the form of a fluid supply source, for example, a syringe 15 mounted on the clamp 16 of the tripod 17, so that the outlet of the syringe 15 is placed above the funnel 13 of the extrusion tube 12. The cuvette 5 is installed under the end of the descending part 7 of the outlet nozzle 4 on the height adjustable stand 18.

The device works as follows.

A pre-sampled fluid, such as water from a water body (sea, lake or river) or wastewater, is prepared for laboratory testing by introducing an extractant into the sample. After mixing this mixed liquid in vessel 1, a stopper 2 is installed in the neck of the vessel 1 with a tube 4 and an extrusion tube 12 secured in it. A receiving cuvette 5 is installed on the stand 18. The stand 18 is adjusted to the stand 5, directly below the descending section 7 retraction The syringe 15 is filled with a working fluid, the specific weight is greater than the specific gravity of the test liquid. Then the syringe 15 is fixed with a collar 16 by a standard 17, so that the outlet of the syringe 15 is placed above the funnel 13. After lifting The level of the liquid and the layer of extract 14 cause the latter to be removed from the vessel 1, for which the plunger of the syringe 15 is introduced down to the liquid outlet from the syringe 15 into the funnel 13. The liquid squeezed out of the syringe 15 passes through the funnel 13 into the extrusion tube 12. Through the tube 12, the withdrawn liquid enters the liquid layer placed below the minimum filling level of the vessel 1, i.e. under the surface layer of the extract 14, the most expedient is the introduction of this working fluid into the bottom layer. Since the injected fluid has a specific gravity, a greater specific gravity of the liquid under study, the injected working fluid accumulates at the bottom of the vessel, displaces the extract layer up to the throat, inserts it into the upper conical part 9 of the vessel 1. Extract layer 14 moves upwards cork 2, compressed circumferentially, but increases in thickness and gradually reaches the upper end of cork 2. With further extrusion of the liquid from the syringe 15, extract 14 enters the discharge nozzle 4 and then pushes into the descending part 7 and merges into the receiving section Ju 5, With

the need to replace the cuvette 5 prevents extrusion of the working fluid from the syringe 15 and thereby stops the extraction of the extract 14 from the vessel 1 through the discharge tube 4. At the same time, part of the extract 14 in the nozzle

4, having passed the hole 8, due to the communication of its internal cavity with the atmosphere, is drained from the cuvette 5, and part of the extract 14, not reaching the hole 8, stops in the nozzle 4, that the hole 8

made in the upper part of the bend of the nozzle 4, allows, when stopping the extrusion of the working fluid from the syringe 15, to instantaneously stop the movement of the extract 14 in the nozzle 4 to the opening 8. Progress of the layer

Claims (3)

extract 14 in the vessel 1 to the plug 2 and further advancement through the pipe 4 is observed directly due to the transparency of the vessel 1 and pipe 4. Such an observation prevents the sample from entering the cell 5 by timely stopping the extrusion of the working fluid by the syringe 15. This improves the accuracy of the extraction of the extract, and as a result, the accuracy and reliability of the pre-sampled water sample is improved. Claim 1. Sampling device for extract, b, containing vessel with stopper, made with hole, equipped with a nozzle, a means of displacing the extract from the vessel and a receiving cuvette, characterized in that, in order to increase the reliability of the extracted extract sample, the outlet nozzle is made in the form of the ascending and descending sections, at the upper point of the bend of which a hole is made the hole, and the vessel is provided with a tube inserted into the additional hole to its bottom with the possibility of hydraulic communication of its internal cavity with the means for displacing the extract from the vessel. 2. Device pop.1, characterized in that the upper internal cavity of the vessel is made in the form of the surface of a truncated cone, and the diameter of its upper base is made equal to the diameter inlet in traffic jam. 3. The device is pop. 1, characterized in that the discharge nozzle is made of a transparent material. ten 1 2