SU549716A1 - Instrument for determining the filtration ratio of sands - Google Patents

Description

The device includes a filtration tube, which includes the following parts: cylinder 1 with a pointed lower end inserted into tray 2 with a perforated bottom covered with a grid; sieve 4 worn on the side of the cylinder; a transparent measuring vessel 5, in the chamber of which a float 6 is installed, made in the form of lower and upper cone valves, automatically regulating the water level in the chamber of the measuring vessel. In the upper part of the chamber, there are openings for air to avoid compressing it in the chamber during the test, which ensures the expiration of the same amount of water from the tank to the chamber of the measuring vessel at the same time at different heights of water in the tank. In the latter there is a graduated scale of water flow.

The telescopic device is made in the form of a tripod and contains the following parts: a stand 7 for a filtration tube; screw 8; steering wheel 9; a bushing 10 and a nut / / lifting screw mechanism housed in a guide tube 12, along which, when the handwheel 9 rotates, moves rigidly connected to the nut / p-shaped inclined bracket 13, on the right knee of which is applied a hydraulic gradient from 0 to 1; a plate 14 on which the guide tube 12 is closed; a vessel 15 with an arrow-head 16 of a hydraulic gradient in which a filtration tube is located during the test.

A device for standard compaction of sandy soil of disturbed position in the cylinder 1 of the filtration tube includes: a tamper, consisting of a weight 17, a guide rod 18, an anvil / and a stopper 20; a nozzle placed on the side of the cylinder (i) and the insert 21, inserted into the poddoi 2 cylinder / filtration tube.

The operation of the instrument is as follows. In order to determine the filtration coefficient of sandy soil of unbroken addition, a monolith is taken away by cylinder 1, crushing it into the ground; in the production of experience with sandy soils of disturbed compaction in loose constitution, cylinder 1 is filled with sand, and at its maximum volumetric mass, the necessary compaction is carried out with compaction.

By filling the cylinder with sand cylinder

the device 15 is installed on the plate 14 of the telescopic tool, and the filtration tube is placed on the stand 7. Water is poured into the vessel of the device 15 and then the filter tube is slowly lowered into it by filter tube to saturate the sand with water and displace air from it. After that, a measuring vessel 5 is placed on the cylinder 1 and filled with water. The filtration tube is set to the hydraulic gradient required for the test and a series of observations are made of the filtration time and the volume of the filtered water and its temperature. Based on observational data, the filtration coefficient of the test is calculated.

The instrument provides reliable and accurate filtration coefficient values used in various sand building sectors, which is a prerequisite for correctly and reliably evaluating sands as bases of engineering structures or their suitability as materials for engineering structures.

Form} l and inventions

A device for determining the filtration coefficient of sands, including a water-filled tank, a filtering tube with a measuring vessel, and a screw telescopic device, characterized in that, in order to improve the accuracy of determining the filtration coefficient, the device is equipped with a guide tube in which a screw telescopic device connected to filter tube through the lever system, and the measuring vessel in the lower part is equipped with a float and a chamber having openings formed by the bottom of the measuring ud and the end of the filter tube, the float is designed as a connected upper and lower cone valves, one of which is located in the chamber and another in the bottom of the measuring vessel.

Sources of information taken into account in the examination:

1. Lomtadze V. D. “Methods of laboratory studies of the physicomechanical properties of sandy and clayey soils. M., Gosgeoltekhizdat, 1952, p. 140-142.

2.Maksimov V.M. and others. “Reference guide hydrogeologist. L., Gostoptehizdat, 1959, p. 300-302.

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