SU1695225A1 - Device for simulation of soil freezing processes - Google Patents

Description

one

(21) 4722127/33

(22) 07.20.89

(46) 11/30/91. Bul №44

(71) Ural Polytechnic Institute named after SM Kirov

(72) V.Ya.Lapshin, B.G.Alekseyev, N.S. Kalinin, K.G.Pshenichnikov and Yu.V. Syrokomsky (53) 551.343.002.23 (088.8)

(56) USSR Copyright Certificate Mg 916650, cl. G 01 N 33/24, 1980.

(54) DEVICE FOR MODELING PROCESSES OF PRIMER FREEZING

(57) The invention relates to the construction and can be used in research in laboratory and field conditions.

in determining the hereditary properties of the soil. The purpose of the invention is to improve the accuracy of measuring the depth of freezing and volumetric expansion of the soil. The device containing the sleeve 3 for the soil sample 4 with thermoelements 1 and 2 at the ends is additionally equipped with a permafrost meter located in the vertical groove 6 formed in the sleeve 3. The permafrost meter is in the form of a moisture-conducting cord 11 in contact with the soil sample 4 , and the housing 7 with the probe 8 installed in it. The housing with the probe is placed in a groove with the possibility of vertical movement and contact of the probe with the cord. 1 hp ff, 2 ill.

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The invention relates to construction and can be i-exploited in exploration in laboratory and LSH.YVUH conditions when determining the high-risk properties of soils.

The purpose of the invention is to improve the accuracy of measuring the depth of freezing and volumetric expansion of the soil.

FIG. 1 shows the proposed device, the cut; in fig. 2 shows section A-A in FIG. one.

The device contains top and two thermal elements and placed between them a cylindrical sleeve 3 with a sample of 4 soils. The sleeve 3 is located in the calorimetric beaker 5 and has a vertical groove 6. In the groove b there is a merzlotomer containing chorpus 7 with a probe N. A scale is located on the outer surface of the housing. The probe 8 is made in the form of a needle and has a limiter 9. located in the TO hole of the body. The permafrost meter also contains a moisture-conducting cord 11 in contact with the ground and covering the groove 6 along its entire length,

Thermocouples 1 and 2 have heat sources 12 and 13, respectively. A thermoelement 1 (cryostat) is supplied with a refrigerant with a negative temperature. The regulator of the thermoelement 1 is produced by an electronic thermostat controlling the electric heat source 12. The lower thermoelement 2 is provided with a heat source 13 that provides an underscore: not using an electronic thermostat of a given positive temperature at the bottom end of the soil sample A.

The device works as follows.

When a predetermined negative temperature of the upper thermoelement 1 and a positive temperature of the lower thermoelement 2 inside the sample 4 is established, the temperatures are redistributed over the height of the sample and, accordingly, the freezing front moves downward. The magnitude of the volume expansion (heave) at this time characterizes the heaving properties of the soil. During the tests, the depth of frost penetration and the volume expansion of the soil sample needed for the calculation, determine the degree of frost heaving of the soils of buildings and structures.

As the depth of soil freezing increases, the body 7 is immersed in the groove 6 of the sleeve.

3, the probe probe 8 cord 11, in contact with a wet sample 4 soil. The value of the probe stroke, incoming or not, entering the cord with its tip, determines whether the cord is frozen through this point. Wherein

it is assumed that the depth of freezing of the cord and the sample are the same. The limiter 9 of movement protects the soil 4 of the sample from direct contact with the probe 8, thereby ensuring the safety of sample 4. According to

The depth of soil freezing is determined from a scale of the outer surface of the housing 7.

The volumetric expansion of sample 4 is determined by measuring the movement of the upper surface of the sample with an indicator

clock type.

The device, by improving the accuracy of measuring the depth of freezing and volumetric expansion of the soil, improves the quality of the simulation of its freezing, while reducing the labor intensity of the tests.

Claims (1)

Claim 1, A device for modeling soil freezing processes, containing a cylindrical sleeve for a sample of a groom located in a calorimetric beaker; a, on which the upper and lower thermoelements and measuring instruments are installed, characterized by then, in order to improve the accuracy of measurement of the depth of freezing and volume expansion, it is provided with a permafrost meter in the zide of the moisture cord and probe freely installed in the housing, and the sleeve with a vertical groove, while the moisture cord is placed along the entire length of the groove with its overlapping on the inner surface of the sleeve, and the housing with the probe is installed in the groove with the ability vertical movement and interaction of the probe with a moisture cord, with a scale on the outer surface of the probe body. 2, Device pop. 1, characterized in that the probe is provided with a movement limiter relative to the housing. FIG 2