SU1288530A1 - Installation for determining mechanical composition of soil - Google Patents

Abstract

The invention makes it possible to accurately determine the mechanical composition of soils and soil. Installation to determine the mechanical co. The soil consists of body 1, pipettes 2, having at the top of the chamber 3 with the mouth 4 automatic zero, and at the bottom of the nozzle - the crosspiece 5 with perforation. Pipettes 2 are connected to a vacuum pump 7 by means of a tube 8 assisted, equipped with a suction 9 and an inlet 10 three-way valves. The lower parts of the pipettes 2 are placed in the sections of the polycylinder 11, and the upper parts are connected to a manifold 12 equipped with a vented 13 and a container 14 for washing liquid. The cylinder 11 is mounted on a movable table top 15. An intermediate tank with a receiver serves to flush excess slurry. Pipettes 2 in the upper part are rigidly attached to the multi-position clamp 18 to its fixed plates 19. The middle part of the pipettes is placed in the sockets - the holes of the metal plate 20. The movable plates 21 of the multi-position clamp 18 are fixed on the cable 22, which has a spring 23 and an anchor 24. The suction and discharge mode in the vacuum pump is provided by switching the screws 25 and 26, 2 3.p. f-ly, 4 ill. a (L, j /// m. f.7 /./ /, /., .. | OyyyPP 3 / p. PP. J / 26 -I W, "15 15

Description

This invention relates to methods.

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determine the mechanical composition of the soil and can be used in E; PH components and hydrogeology in the study of soils and soils.

The purpose of the invention is to increase the accuracy of determination and reduce the length of analysis due to wounds - numbered vzmuchivanie and at the same time: - all samples with all the pipettes, uniform sampling over the cross section of the suspension with a strictly specified depth.

FIG. 1 is a setup for determining the mechanical composition of the soil; a general view; in fig. 2 - the same, side view, cut; in fig. 3 - pipette tip, top view, section; in fig. 4 - the same cross section

The proposed installation consists of body 1, made in the form of KpciH-matte or vertical racks, pipettes 2, in the upper part having chambers 3 with mouth 4 of automatic zero, and in the lower part - a nozzle made in the form of a hollow cross 5 It is equipped with a vacuum pump 7 by means of a tube 8 equipped with a suction 9 and a discharge three-way valves. The lower parts of the pipettes 2 are placed in the sections of the polycylinder 11, and the upper parts are connected to the collector 12, equipped with a 1m outlet 13 and a capacity 14 for the washing liquid. The nozzle - the cross of Vina 5 consists of pipes, having a drop-shaped form in cross section. The perforation 6 in the pipes of the cross 5 is applied in a section of the largest diameter in one row with a uniform increase in the number of holes to the periphery of the section.

A polycylinder 11, the number of sections of which corresponds to the number of pipettes 2 in the structure, is installed in the slot of the cover of the table 15, which can move freely in both horizontal and vertical planes.

To flush the excess of the withdrawn suspension from the mouth 4, an automatic tank 16 with a receiver 17 is designed into the chambers 3.

Pipettes 2 in the upper part are rigidly attached to the multi-clamp 18 to its fixed plates 19, which are rigidly connected to the vertical posts of the housing 1,

the middle part of the pipette 2 is placed in the sockets - the holes of metallic platinum 20 rigidly attached to the housing 1.

The movable plates 21 of the multi-position clamp 18 are fastened to the cable 22, which on one side ends with a spring 23 rigidly connected to the housing 1, and on the other hand is provided with a locking latch 24. This design of the multi-position clamp 18 provides simultaneous switching on and off of the pipettes during flushing their distilled water after dropping the suspension. Pipettes 2 are connected in parallel with a suspension.

The suction and discharge mode in the vacuum pump 7 is provided by switching the screws 25 and 2.6.

The number of pipettes can be ... different; their optimal number is 20-0 pcs.

Preparation of the installation for operation (output to the operating mode, determined by the nature of the test), All Cranes and multi-position clamp 18 interrupt. The vacuum is turned on 7, then the screw 25 sets the optimum mode for supplying air to the pipettes 2, simultaneously ensuring complete soil stirring up in the aquatic environment and the same concentration of the suspension over the entire height of its column of each section of the cylinder 11. Screw 26 sets the required rate of soil absorption suspensions of polycylinder 11 through the side holes of the nozzle 5 pipettes 2.

The duration of air injection into the pipette is at least 15–20 s, and the volume of air supplied to the pipette is 3-5 cm in 1 s.

When we fill the pipettes, the suspension depends on the type of fraction and is 3-15 seconds (for fractions of physical clay or clay particles it can be 7-15 seconds, for fractions of physical sand 3-7 seconds.

The installation works as follows.

Stirring up the soil suspension in C; CIs of POLYCILINDER 11 o existing t-VLYAN1T by supplying air to the E1 pipette by turning off the vacuum pump 7 and bringing it to the pumping mode with screw 25 and three-way valve 9. After the end of the stirring up, the air supply to pipette 2 is stopped by turning three way crane 9.

Then the table cover is lowered 15. To the depth at which the nozzle — the cross of 5 pipettes 2 corresponds to the depth of sampling of the first fraction. After the time has expired, the fractions are filled with pipettes by transferring the pump to the suction mode with a screw 26. and a three-way valve 10. Then the table top 15 is lowered down with the polyzindrome 11 and simultaneously moved to the side, replaced (by position under the pipettes) with a funnel unit to filter the suspension or the dishes. The pipettes 2 are rinsed with distilled water coming from the collector 12 to the chambers 3 by opening the multi-position clamp 18. The suspension is filtered, the precipitate is dried to constant weight, and the amount of fraction is determined by weighing.

The presence at the lower end of the pipette of a nozzle, shaped as a hollow cross, with a drop-like shape over the cross section, ensures a free sedimentation of solid particles in the liquid column along its entire height. Horizontal perforation in the cross pipes allows the selection of only that portion of the suspension sample that corresponds to this fraction and ensures uniform and simultaneous collection of the suspension from the working area.

In addition, the performance of the nozzle in the form of crosses. And the nature of the perforation on the pipes provide a uniform air supply over the entire bottom area of each section of the polycylinder.

To fill the pipettes at the same time (with an automatic zero equivalent to the volume of the suspension), it is necessary that the total orifice areas of each pipette are equal to each other.

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The arrangement of the pipettes in parallel with each other at the same distance from the air supply point makes it possible to simultaneously produce the initial and final stages of collecting the suspension from all sections of the cylinder.

Thus, the proposed: installation design, by definition, the mechanical composition of the soil makes it possible with the highest possible accuracy in a short period of time to analyze a large batch of soil and soil samples with the minimum cost of manual labor of the researcher. The plant is compact in execution and applicable for determining the mechanical composition of the soil when studying patterns of land and landscape formation.

Claims (3)

1. Installation for determining the mechanical composition of the soil, including a table for the placement of cylinders with samples, a frame for fastening pipettes connected by a vacuum pump, characterized in that ,. in order to increase the accuracy of determination, reduce the duration. analysis by uniformly stirring up and simultaneous sampling, uniform sampling over the cross section of the column, suspension from a strictly specified 5 depth, each pipette is fitted in the lower part with a nozzle made in B1 of the hollow cross of tubes with a cross section of a drop-like shape with a perforation made in the cross section of the largest pipe diameter in one row, with a uniform increase in the number of holes to the periphery of the pipe, and the total area of the holes of each nozzle are equal to each other. 2. Installation according to claim I, characterized in that the pipettes are interconnected parathrically. 3. The installation according to claim 1, characterized in that it is provided with a multi-position clamp. nt // I Editor A. Shishkin Compiled by L. Gorinova Tekhred l.Oleinik Proofreader G. Reshetnik Order 7798/39 Circulation 799 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 f.5 Figm