SU649785A1 - Device for investigating soil stabilization - Google Patents

Description

placing it across the disk 8. A dynamometer 14 is mounted between the rod 5 and the piston 4.

The device works (Fig. 1) as follows.

In polysonip I lever 7, the arm / lever in the form of a disk 8 is zero and there is no pressure on the rod 5. When the lever 7 rotates with the load W from position I to position II, the arm / lever in the form of a disk 5 smoothly changes from zero to a maximum value Imax equal to the radius of the disk 8. According to the pressure of the disk 8 on the rod 5 and the piston 4 on the groove sample. 5 increases from zero to a certain maximum value determined by the mass of the load 10 and the ratio of the arms of the levers 7 to 8. With the further rotation of the lever 7 with the load 10 from position II to position III, the arm / lever in the form of a disk 8 smoothly changes from the maximum value / „U ,, v TO zero and respectively crushed e disc 8 on the rod 5 and the piston 4 pas soil sample 5 gradually decreases from the maximum to the pool. The deformation (sediment) of the heap and the displacement of the porsche 4 with the rod 5 of the harvester during the compaction process is monitored by turning the disk 8 and the lever 7 around the horizontal swing axis 9. Soil deformation is measured on a scale of 5 on the rod 5. The load and its change over time is recorded by a dynamometer 14, the sigal from which is fed to the recording igribor (for example, a self-recording oscillograph, etc.) not shown in the drawing. By changing the mass of the load 10, the rate of increase and removal of the load by changing the speed of rotation of the lever and the holding time of the maximum load, it is possible to simulate real load trajectories under various operating conditions of the soil compacting machine.

The device for exploration of soil under ground, shown in FIG. 2 (embodiment) contains stage 1 with the container 2 installed with the sample of soil 3, on which the piston 4 with the rod 5 presses, which can be mixed along the guide 15 and equipped with a scale 6. The levers 7 and S have horizontal axes 9 and / 5 kachaii passing through the center of the disk 8. The disk 8 rests on the protrusion / 7 of the rod 5 at the point of maximum distance from the horizontal axis of the swing 16. The guide 15 is provided with a handle // for rotating the disk 8, the brush. 5 with a protrusion / 7 around a vertical axis passing through the center of the disk 8. On the guide 15

A key 18 is installed to prevent the guide 15 and the stem 5 from turning side to side. A lever 10 holds the weight 10 and a roller / is mounted along the disk 8 as it rotates around the vertical axis.

The second version of the device is similar to the first version. The difference is the rotation-around the vertical axis of the disk 8. At the same time, its shoulder moves from the pool to the maximum value and again to zero, the pressure of the disk 8 on the protrusion 17 of the rod 5 and the sample 4 on the sample changes accordingly.

soil 3. The drive of the rotation of the levers around the vertical axis in both examples of the device can be manual or automated.

The use of the invention allows

to increase the accuracy of measurements and more reasonably choose the types of soil compacting machines and their modes of operation in relation to specific conditions for the erection of structures.

Claims (3)

1. Device for the study of soil compaction, including a container mounted on a bed with a piston with a rod placed in it, a load and measuring device, which is so that, in order to improve the accuracy of measurements by simulating the movement of a soil compaction The machine is equipped with a rotary shaft with a disk mounted on it and a lever with a load, the disk being supported on the piston rod and connected to the lever by means of a roller. 2. Device no. 1, clause 1 with the fact that the lever with the load is mounted with a hinge on the upper end of the rotary axis. 3. A device according to claim 2, characterized in that the disk is mounted rotatably in a horizontal direction. Sources of information taken into account in the examination: 1. Application No. 2352778 E 02 D 1/02, 1976, according to which a decision was made to issue an author's certificate. 2. Mesch S. R., Mechanical properties of soils and laboratory methods for their determination, M., Nedra, 1974, p. 37. 7 3 Yu A j