SU851181A2 - Device for testing soil for breaking - Google Patents

Description

The invention relates to the construction, in particular to the study of the physical and mechanical properties of soils and can be used in the development of measures to combat wind erosion of soils. According to the main author. St. No. 739365, a device for testing a soil for breaking, mainly peat-bog soil, including a trap. movable and stationary cuvettes with grips, a colo set between them, and the cuvettes are provided with a NiT pin with a grooved surface rigidly fixed on the inner surface of the bases of the cuvette. A disadvantage of the known device is that when measuring the strength of the bonds between soil particles, the sample is broken only in the vertical direction, in which it is necessary to take into account the unstable weight of the movable cell with the part of the soil sample that is torn off: which complicates the test and negatively affects accuracy measurement The purpose of the invention is to improve the measurement accuracy. The goal is achieved by the fact that the device, which includes a movable and stationary cuvettes with grippers, is installed ring them, moreover, the cuvettes are equipped with pins with a corrugated surface rigidly fixed on the inner surface of the bases of the cuvette, equipped with an axis and a support block, made in the form of a holder and installed There are rolling bearings in it, the holder is connected with a movable cuvette, one end of the axis is connected, with the fixed holder, and the other end of it is passed through the bearings. This makes it possible to exclude the influence of the own weight of the movable cell with the ground cut off on the magnitude of the measured force. A slight resistance between the guide bearings and the axle when moving the movable cuvette into myent of the sample rupture is taken into account by the taring characteristic. FIG. 1 shows the proposed device, a general view of FIG. 2, a cuvette; in fig. 3 shows section A-A in FIG. 2.I The device consists of a unit 1 kuvt, an electromagnet 2 with the measuring unit 1 is not shown) platform 3, the calibration unit 4, pull 5 and the adjusting support screws 6.

The cuvette-1 unit consists of a movable 7 and a fixed 8 cuvette, having evenly dispersed pins 9 with a grooved surface, axis 10 and intermediate ring 11 in their bottoms. The movable cuvette 7 is located on the axis 1.0 on two supporting blocks 12 and connected to an electromagnet 2 tons 5 through the cover 13. The stationary cuvette 8 is rigidly connected to the axis 10, which fits loosely into the seat of the fixed casing 14 and is fixed by a spring-loaded gripper 15.

The support unit 12 consists of a yoke 16, brackets 17, axes 18 and rolling bearings 19.

The device works as follows.

Using the adjusting support screws b, the horizontal position of the cuvette block axis is established. To fill the soil sample, block 1 is removed from the instrument. The movable cuvette 7 is then removed from axis 10. The stationary cuve B is mounted on a special tool in the press, an intermediate ring 11 is superimposed on it for a certain test specimen of material of the required height from a set of rings and dry soil is filled to the upper edge of the ring. A cuvette 7 is placed on the loosely buried test specimen. The soil specimen is adjusted to the required density by squeezing the cuvette with a calibrated load using a press. After the sample has been compacted with an intermediate Hde, the ring 11 is removed and the cuvette block 1 with the ground is fixed on the instrument

using a clamp 15. Next, the movable cuvette 7 is connected to the electromagnet 2 via a cover of 13 5. Using a unified power source of the UIP-1 type, an electromagnet 2 is operated, the electrical circuit of which is connected to a measuring unit registering an electrical signal, proportional to the breaking strength of the soil sample. Thus, the magnitude of the signal recorded by the measuring unit, at which the sample undergoes rupture, measures the strength of the bonds between the soil particles.

The proposed device allows

5 to measure the tensile strength of the samples with high accuracy and more effectively to carry out studies of the physicomechanical properties of peat bog soils in order to develop measures to combat wind erosion.

Claims (1)

1. USSR author's certificate 40 No. 739365, cl. G 01 N 3/08, 1978. // V 7 9 ig.2 J (-A