SU938066A1 - Device for sampling liquid - Google Patents

Description

(5) DEVICE FOR SELECTING SAMPLES OF LIQUIDS

one .

The invention relates to devices for the collection and analysis of liquid samples or slurries and can be used in automatic analytical control systems for liquid media in the chemical, metallurgical and other industries of the national economy.

A sampler is known, where a JQ device and method are used in the sample preparation circuit for analysis to continuously feed a liquid sample or pulp into the flow chamber of the analyzer under discharge, including a hopper in which a movable sampling tube ts is placed above the funnel with adjustable gap, , the funnel is connected to the cumulative capacitance of the operational sample, the level of which must be constant, the accumulative capacity of the operational pro- gram would be connected to the supply tube with the analyzer flow chamber installed at the level or yshe urbvn sample into collecting vessel, flow chamber analyzer provided with a siphon tube sbrodnoy effect CllNedostatkami device- this is the need to output a large volume of the liquid sample or the pulp from the process.

It is also known a device for sampling a liquid, including a sample divider, a cone sample flow divider, a cumulative capacity of a balance sample, and a cumulative capacity of an operational sample equipped with a circulation pump, a feed and waste tube, and an analyzer 21.

Claims (2)

The known device is unreliable in operation since at the time of monitoring the flow chamber of the analyzer is under pressure and if the film covering the flow chamber window is damaged, the sample enters the analyzer, which leads the entire analyzing system to an emergency condition. The device does not provide for flushing its nodes after each analysis cycle. which leads to contamination of the sample in the path of the sample in the flow through the analyzer chamber. The device divider does not allow to regulate the separation of samples in a wide range and at the same time ensure the representativeness of the sample for balance and operational control. The purpose of the invention is to increase the reliability of the sample and the reliability of the device. The goal is achieved by the fact that the device is equipped with an ejector installed on the discharge tube, a cuvette installed under the cone and equipped with curtains made in the form of two plates arranged at an angle to each other movably on the axis of the cone, with one of the plates mounted vertically inside the cuvette, the supply tube is fitted with a valve, and the circulation pump is mounted on the discharge tube. The drawing shows the device. General view. The device includes a splitter containing a cylindrical body 1 with a conical base, terminated by a nozzle 2 connected to the cumulative capacity of the operational sample 3. In the case of the spaced divider, there is a cone flow divider or slurry. The cone is set with its tip upward so that its axis is vertical and aligned with the axis of the inlet opening of the transfer tube 5 and the axis of the body 1 of the divider. A gap 6 is formed between the cylindrical wall of the body 1 of the splitter and the cone k, which is partially blocked by a cuvette 7 located under the base of the base of the cone k, which fits tightly to one of the smaller sides of the body or splitter. Between the base of the cone Ts and the cuvette 7, there are two curtains 8 installed. Each curtain has an inclined and vertical plates that form an acute angle between them. The length of the plates is greater than the width of the gap 6, and the width of the inclined plates is more than half the width of the cuvette 7. The shutters B are fixed on the axis of the cone C movably, the vertical plates of the shutters are inserted into the cuvette 7, forming an adjustable slot 9. The cuvette 7 is connected by tube 10 with a cumulative capacity of 11 balance samples. If it is necessary to separate the flow of more than 93 64 into two, it is possible to install a larger number of cuvettes. Accumulative capacity of operational test. 3 is connected to a supply tube 12, equipped with a valve 13, with a flow chamber 1 of the analyzer. The flow chamber of the analyzer C has a window 15 and is located at or above the level of the sample in the storage tank of the operational test 3. The flow chamber of the analyzer T through the waste pipe 16, the circulation pump 17 and the ejector 18 is connected to the storage tank of the operational test 3, which is equipped with a discharge valve 19 for discharge of fluid. The device works as follows. When the discharge valve 19 is closed, the empty storage tank of the operational sample 3 and the open valve 13 does not include the ejector 18 and the circulation pump 17. The storage tank of the operational sample 3 receives water from the ejector 18, which, due to the siphon effect (suction), is sucked through the valve 13, the supply tube 12, the flow chamber of the analyzer Il, the discharge tube 1b, the circulation pump 17 and then through the through hole of the ejector 18 into the collection capacity of the operational sample 3. The circulation of water in the closed system begins, and It has been consistent, and flushing the sample flow path to the flow cell analyzer. Then the ejector 18 is turned off, the valve 13 is closed, and the circulation pump 17 is turned off. The discharge valve 19 opens, and the collection capacity of the operational sample 3 is freed from water. The discharge valve 19 closes. The feed tube 12, the flow chamber of the analyzer T and the cavity of the pump 17 remain filled with water. This is necessary to create conditions for the start of the circulation pump 17 at the time the sample is supplied to the flow chamber of the analyzer It. The limited amount of analysis that arrives at the analysis is preliminarily accumulated by a representative sample through the sampling tube 5- and is introduced into the sample divider. The sample flow falls on the top of the cone 4 and spreads evenly along its surface. The main part of the flow flows through the gap 6 into the base of the body 1 of the divider and through the nozzle 2 enters the collection tank 3 of the operative test, and the part necessary for balance control enters the cell 7 located under the base of the cone through two shutters 8. cuvette 7 through tube 10 sample st. into the accumulative capacity of balance sample 11. To obtain the required sample volume of balance control, the width of the slit 9 is adjusted with the help of gate curtains around the axis of the cone, after filling The breakdown of the tank 3, immediately before the start of the measurement, opens the valve, 13 turns on the circulation pump 17, and the sample begins to circulate through the flow chamber of the analyzer. At the same time, the analyzed sample passes multiple times through the flow chamber of the analyzer 1. After the analysis has been performed, the unloading valve 19 opens and the analyzed sample is discharged from the device. The discharge valve 19 closes. This ends the duty cycle of the device. The next cycle is similar to that described. The device is controlled automatically according to a predetermined program. Due to the fact that the circulating pump 17 is located along the circulation of the sample, behind the flow chamber of the analyzer 1, the vacuum is not created in the storage tank 3 of the latter and, in case of damage to the film covering the window 15, circulation the sample stops, the slurry does not enter the analyzer flow chamber It, and consequently, the analyzer, and flows into the storage capacitance of the operational sample 3 .. The discharge is created in the analyzer flow chamber by circulating a circulating pump In this case, the sample is measured behind the flow chamber, the analyzer increases the reliability of the device in operation, as it prevents the sample from being ejected from the flow chamber window to the analyzer in case of damage to the film covering the window. Washing the sample supply path nodes into the flow chamber, the analyzer when the ejector is turned on, to create conditions for starting the circulation pump, prevents the sample from being contaminated, which is received for analysis by residues of the analyzed sample. The ability to change the width of the slit formed by two curtains located above the cuvette and fixed to the axis of the cone movably allows you to adjust the separation of sample volumes in a wide range and at the same time ensure the representativeness of samples when combining the function of balance and operative selection. The claims of the fluid sampling device, including a sample divider, a cone sample flow divider, a balance sample storage capacity and a performance test storage capacity, equipped with a circulation pump, supply and waste tubes, and an analyzer that are different in order to increase the reliability test and reliability of the device, the device is equipped with an ejector installed on the discharge tube, a cuvette installed under the cone and equipped with curtains, made in the form of two plates, position at an angle to each other and movably mounted on the cone axis with one of the plates mounted within the cuvette .vertikalno powering a tube provided with a valve and a circulation pump installed on the waste pipe. Sources of information, rintye taken into account in the examination 1. UK Patent No.. 1226195, cl. C | 01 N 1/14, 1968. 2. Technical description and designs for operation 67HS. OOOTO, Norilsk Mining and Metallurgical Cominate; 1975. Chh