SU773187A1 - Apparatus for dynamic probing, particularly, of water-saturated soil - Google Patents

Description

(54) DEVICE FOR DYNAMIC SENSING OF PRESENTLY WATER SATURED GROUND

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The invention relates to the study of the properties of soils during engineering surveys for construction.

A device for dynamic sounding is known, including a drive, a probe with a cone and a shank, a measuring device and a friction coupling 1.

A disadvantage of this device is the presence of a complex measuring device.

The closest technical solution to the present invention is a device for dynamic sounding, including a drive, a probe with shtanga, a cone with a shank, a latch and a friction coupling having an internal cut-out, in which the ends of the shtanga, the shank of the cone and the latch in the form of plates connected with a cone shank and shtanga 2.

A disadvantage of this device is that it provides for the transition from the measurement of the frontal drag of the soil to the measurement of lateral friction with dynamic sounding and vice versa by the operation of turning the entire column shtang around

axis, as well as the lack of reliability of its work in water-saturated soils due to the possibility of sanding particles with sand particles.

The purpose of the invention is to increase the production capacity of the device.

The goal is achieved by the fact that in a device for dynamic sounding, including a drive, a probe with a rod, a cone with a shank, a clamp and a friction coupling having an internal cut-out, in which the ends of the rod, the shank of the cone and the clamp, the ends of the shank and rod are freely placed in the form of cylinders with a cavity, and the retainer - in the form of levers, one ends of which are pivotally connected, while others are spring-loaded, and

15 the retainer is installed in the rod cylinder, the diameter of which is larger than the diameter of the cylinder of the shank.

FIG. 1 and 2 show a device for dynamic probing in the working position.

The device consists of a probe drive with rod 1 with end 2 made in the form of a cylinder with a cavity, a cone 3 with a shank 4 made in the form of a cylinder with a cavity, a retainer installed in the cavity of the end 2 of the rod 1 and made in the form of levers 5, one ends which are pivotally connected by the axis 6, and the others are spring-loaded by the spring 7. The shank 4 of the cone 3 and the end 2 of the rod 1 are stirred, the inner cutout of the friction clutch 8 having stops 9. The shank 4 has projections 10.

The operation of the device is as follows.

In the position shown in FIG. 1, the locking levers 5 interact with the stops 9 of the friction clutch 8, and the hammer blows lifted by the drive are transmitted to the end 2 of the shanks 1, the levers 5 of the clamp and the stop 9 of the friction clutch 8, as a result of which the friction clutch 8 moves along the fixed cone 3, which stands in compacted soil. When landing friction clutch 8 in the position shown in FIG. 2, the shank 4 enters the cavity of the end 2 of the rod 1 and closes the levers 5 of the retainer. The hammer blows from the end 2 of the rod 1 are transferred to the shank 4, as a result of which the cone 3 goes deeper into the rock, and the friction clutch 8 stands still. In the lowest position of the shank 4 relative to the friction clutch 8, the rod 1 rises up and the device assumes the position shown in FIG. I. The process is then repeated. Thus, in turn, the dynamic immersion of the cone 3 and the friction clutch 8 is alternately performed, the frontal resistance and lateral friction of the soil are determined separately.

A device for dynamic sounding produces significant

the economic effect, since the execution of the ends of the shank and the rod in the form of cylinders with a cavity, and the retainer - in the form of levers, one ends of which are pivotally connected, while others are spring-loaded, and the installation of the retainer in the rod cylinder, which diameter is greater than the diameter of the cylinder of the shank, allows the operation of rotation of the rod column around the axis during the transition from the measurement of the drag of the soil to the measurement of lateral friction,

increases the reliability of work in water-saturated soils, which increases the performance of sounding.

Claims (2)

1. USSR author's certificate on application no. 2522662 / 29-33, 15.09.77. 2. USSR author's certificate for application number 2335444 / 29-33, March 17, 76. - W