RU54054U1 - DEVICE FOR SOUND SENSING - Google Patents

Abstract

The proposed utility model relates to devices for determining the physicomechanical characteristics of soils during engineering surveys in construction and may find application in examining the foundations of foundations in cramped conditions. The objective of the utility model is to reduce the complexity of the work, increase the accuracy of measurements by standardizing the results obtained, their independence from human efforts, expanding the range of studied soils. To solve the problem in a device for sensing soils, including a rod with a working tip, a housing with a loading mechanism, a sleeve with a measuring device, the latter is equipped with a recording device and is installed in the sleeve in front of the loading mechanism, which is made in the form of a screw jack with an emphasis extending to the side opposite to the extension of the rod with a working tip.

Description

The proposed utility model relates to devices for determining the physicomechanical characteristics of soils during engineering surveys in construction and may find application in examining the foundations of foundations in cramped conditions.

From the patent literature known "Dynamic densitometer" according to the patent of the Russian Federation No. 2034954, E 02 D 1/00, which contains a conical tip, cargo, anvil, guide and handle, made in the form of a stamp.

The disadvantage of this densitometer is the high complexity of the work performed, due to the need to manually control the process of immersion of the tip in the ground.

The closest to the proposed utility model can be considered "Device for soil testing", according to the patent of the Russian Federation No. 1629405, E 02 D 1/00, including a rod with a working tip, a housing made in the form of a spring with H-shaped horizontal slots, a handle, a sleeve with rod lock and measuring device.

The disadvantage is the design complexity and insufficient measurement accuracy, due to the fact that the soil resistance to immersion of the tip depends on the force transmitted by the hands, and this leads to unevenness of the indentation and lack of control over this process.

The objective of the utility model is to reduce the complexity of the work, increase the accuracy of measurements by standardizing the results obtained, their independence from human efforts, expanding the range of studied soils.

The problem is solved in that in a device for sensing soils, including a rod with a working tip, a housing with a loading mechanism, a sleeve with a measuring device, the latter is equipped with a recording device and installed in the sleeve in front of the loading mechanism, which is made in the form of a screw jack with an emphasis extending to the side opposite to the extension of the rod with a working tip.

The figure shows a general view of the device for sensing soils.

The device for sensing soils consists of a rod 1 with a working tip 2, a housing 3 with a loading mechanism made in the form of a screw jack 4 with a stop 5, a sleeve 6 with a measuring device 7, equipped with a recording device 8. A measuring device 7 is installed in the sleeve 6 in front of the loading mechanism 4.

Horizontal or inclined sounding of soils occurs as follows:

Under the foundation of an existing or projected building, it is necessary to dig a mine to the depth required for the study (pit, trench, etc.). A sensing device is placed in it so that the tip 2 abuts against the test soil, and the stop 5 of the screw jack 4 - in the opposite wall of the mine.

Using a screw jack 4, uniformly with a constant speed (for example, at a speed of 1.2 ± 0.3 m / min), the pressure is transmitted to the rod 1 with a working tip 2. Measuring device 7, for example, a dynamometer or manometer, fixes the value soil resistance to immersion of the working tip 2. The value of resistance is recorded by the device 8 at constant intervals, for example, every 8 cm of immersion.

Having built graphs of the dependence of the sounding resistance on the immersion depth, we divide the thickness of the probed soils by composition, structure, condition and properties.

The proposed device allows to obtain an adjustable and constant speed of pressing the working tip into the soil, independent of the efforts of the person performing the probing, which in turn makes it possible to reduce the complexity of the work, increase the accuracy of measurements by standardizing the results, expand the range of the studied soils.

Claims (1)

A device for sensing soils, including a rod with a working tip, a housing with a loading mechanism, a sleeve with a measuring device, characterized in that the latter is equipped with a recording device and is installed in the sleeve in front of the loading mechanism, which is made in the form of a screw jack with an emphasis extending to the side, opposite to the extension of the rod with a working tip.