SU52106A1 - Compression Tester - Google Patents

Description

The use of hinged lever systems is already widely known in the technique of testing materials for compression. The proposed device, designed for testing soils for compression, using a lever of the second kind for carrying out pressures, makes it possible to carry out experiments in a specific medium (air, water) in order, for example, to prevent the soil sample from drying out from the surface, as well as to monitor its condition with this (cracking, etc.). For this purpose, a cylinder made of an impermeable transparent material surrounding the test sample is applied to the device. The cylinder pressure ring is associated with a pressure reproducing pressure elastic impermeable diaphragm. This kind of connection, while ensuring tightness, at the same time does not create additional efforts that would have to be taken into account.

In FIG. 1 shows the general scheme of the device; FIG. 2-vertical partial section of the device (on a large scale), on which the position of the part 70 is conventionally shifted; FIG. 3 is a view of FIG. 2 above.

The instrument consists of a base / on which a sample is placed /

soil to be tested in the form of a cube or cylinder. On the sides of the sample / surrounded by a cylinder 2 of an impermeable transparent material (for example, glass). The cylinder 2 is clamped between the base 7 and the flange 3 by means of studs 7 and nuts 8, and rubber gaskets 3 are used to achieve tightness. The pressure-generating piston 5 of the device is connected to the pressure ring 4 of the cylinder using an elastic impermeable diaphragm L. and down (to the extent sufficient for the experiment), but preventing penetration of atmospheric air to the sample. At the base / there is a hole provided with a branch tube W which, through the rubber tube JO (Fig. 1), is connected to a glass reservoir C filled with a liquid (water and oil). The liquid plug that forms prevents the penetration of atmospheric air into the device, but does not interfere with the excess air escaping when the piston 5 is lowered. If it is necessary to perform an underwater test, the cylinder through the discharge tube is completely filled with water. At the same time, one of the screws holding the pressure ring 4 is unscrewed to allow air to escape.

To create the necessary pressure on the sample / device, it is equipped with a lever of the second kind b, the end of which is movably fixed on the rack / 5, fixed on the bar 14, and also {a compensator screw 15 and arresting device 16 (Fig. 1). Weights 19 are applied to the free end of the lever 6 by means of the suspension 18. In order to ensure the correct direction of the applied vertical load, the piston rod 9 of the piston 5 passes through the guide sleeve 17 (Fig. 1). In the lower part of the base 7 there is a recess into which the head of the adjusting screw 12 enters, which automatically ensures the exact position of the cylinder relative to the rod 9. The deformations of the soil sample are transmitted by means of a pin 20

(Fig. 1) to record using an indicator.

The subject matter of the invention.

Claims (2)

1. A device for testing soils for compression using a lever of the second kind for carrying out pressures, characterized in that, in order to test a sample in a sealed space, the cylinder 2 surrounding the sample is made of an impermeable material, the pressure ring 4 of which is connected to a piston 5, carrying pressure, elastic impermeable diaphragm A. 2. The form of the device according to claim 1, characterized in that for  observation of the state of sample I during the tests; cylinder 2 is made of a transparent material, on; example of glass. SZZig. I A SZZig.E i