SU747928A1 - Apparatus for shearing testing of soil - Google Patents

Description

The invention relates to the field of construction, in particular to devices for _r study the strength properties of soils on construction site by the rotary cutoff.

Known devices for testing ⁵ soils by a rotary slice, including an impeller, a rod, a wing carrying wings, a rod with a coupler, a device head and a drive [1].

A disadvantage of the known devices is. the impeller is skewed as a result of the deviation of the impeller shaft from the vertical position during rotation during testing * The negative impact of this deviation is especially true when measuring steady-state torque after reaching its maximum value. Due to the skew of the impeller, the outer edges of its blades instead of a vertical cylindrical surface describe a certain complex surface of revolution, cutting off the additional volume of soil. As a result, instead of the expected pure ground friction on the soil, the total force spent on cutting and friction is measured in the shear zone.

The closest technical solution to the invention is a device for testing soil for shear, including a rod, a wing tip and a centralizer [2].

This device also has the above disadvantage.

The aim of the invention is to increase the reliability and accuracy of the obtained measurement results and increase the reliability by fixing the position of the rod during the test. *

This goal is achieved by the fact that in the device for testing soil for shear, including the rod, winged tip and centralizer, the lower end of the device is equipped with an additional centralizer connected to the winged tip with the possibility of rotation.

In addition, the replenishing centralizer can be made into a vice-blade stabilizer.

In FIG. 1 shows a general view of the device *, in FIG. 2 is a section AA of FIG. 1; in FIG. 3 is a section BB of FIG. 1.

The device comprises a rod 1, a wing tip 2, a centralizer 3, an additional centralizer 4 with a thrust bearing 5 and a blade stabilizer 6.

The proposed device operates as follows. .

After it is deepened into the bottom of the well (as shown in Fig. 1), a torque is applied to the rod 1. In this case, the wing tip 2 rigidly connected to the rod 1 rotates, cutting off the soil volume enclosed between the blades, and the centralizer 3 freely sitting on the rod 1 and connected through the thrust bearing 5 with the wing tip 2, the additional centralizer 4 with the blade stabilizer 6 remain fixed, reliably fixing the axis rotation of the wing tip 2 in a predetermined vertical position.

As a result, cutting off the additional unaccounted soil volume is eliminated, which increases the reliability and quality of the information received.

The elimination of errors associated with the skew of the wing tip 2 during the test process eliminates the need for duplication of experiments and increases productivity.

Claims (2)

(54) DEVICE FOR SOIL TESTING The invention relates to the field of construction, in particular to devices for investigating the strength properties of soils at a construction site by rotating the teHbHoro cut. Soil testing devices are known to include a rotational slice, including an impeller, a shaft bearing a impeller, a rod with a coupling, an instrument head, and an actuator I. A disadvantage of the known devices is the impeller misalignment as a result of deflecting the shaft from the vertical position during its rotation. In the test, the HOie Negative is affected by this deviation especially when measuring the steady-state torque after reaching its maximum value. Owing to the impelling of the impeller, the outer edges of its blades instead of verticals of the cilinsophical surface, draw some complex surface of rotation, cutting off the additional volume of the soil CUT. The closest technical solution to the invention is a device for testing soil for a slice, comprising a rod, a wing tip and a centralizer 2. This device also has the aforementioned disadvantage. The aim of the invention is to increase the reliability and accuracy of the obtained measurement results and improve reliability by fixing the position of the rod during the test. The goal is achieved by the fact that in a device for testing a soil for a shear, including a rod, a wing tip and a centralizer, the lower end of the device is equipped with an additional centralizer connected to the wing tip in a rotatable manner. to 374 In addition, the pop-up centralizer can be performed in the vice paddle stabilizer. FIG. I has shown a common device, FIG. 2 is a section A-A of FIG. one; in fig. 3 is a section BB of FIG. I, The device contains a rod I, a wing tip 2, a centralizer 3, an additional centralizer 4 with a thrust bearing 5 and a paddle stabilizer 6. The proposed device works as follows. After its penetration into the bottom hole (as shown in FIG. 1) to the rod 1 apply torque. With -, this rigidly connected with the rod 1 the wing tip 2 rotates, ere,. for the volume of soil enclosed between the blades, and centralizer 3 loosely mounted on the rod I and connected through the thrust bearing 5 to the wing tip 2 additional centralizer 4 with the blade stabilizer 6 remain fixed, reliably fixing the axis of rotation of the sharp tip 2 in a predetermined vertical position. As a result, cutting off the additional unaccounted amount of soil is eliminated, which increases the reliability and quality of the information received. Eliminating errors due to skewed tip 2 in the testing process eliminates the need for duplication of experiments and improves performance. Claim I. Investigation device soil testing. for cutting, including a rod, a wing tip and a centralizer, characterized in that, in order to increase the reliability and accuracy of the measurement results obtained and increase reliability of operation by fixing the position, the rod during the test, the lower end of the device is equipped with an additional centralizer connected to the wing, tipped with the possibility of rotation. 2. A device according to claim 1, characterized in that the additional centralizer is made in the form of a paddle stabilizer. Sources of information taken into account in the examination 1. Trofimenkov Yu. G., Vorobkov LN Field methods for studying the construction properties of soils, M., Stroyizdat, 1974, p. 62-66. rice 28 2. Sangler G. A. Soil analysis by sounding method. M., Stroyizdat, 1971, p. 24, FIG. 9.