SU1649034A1 - Device for probing soils - Google Patents

Abstract

The invention relates to devices for determining the strength characteristics of soils during engineering surveys in construction. The aim of the invention is to enable both static and dynamic sounding. The device for probing soils contains a frame, an additional stand with a support, a probe in the form of a rod with a tip, rod grips, a hammer and an anvil mounted on a guide, a mechanism for pressing the probe in the form of a hydraulic cylinder with a hollow rod, a mechanism for raising and dropping the hammer. The hammer lifting mechanism is made in the form of pushers and hinged link arms with support plates. The middle part of the hinged links and the ends are connected by axles and are connected to the support plates by means of intermediate links. The upper end of the hollow rod of the hydraulic cylinder is connected to the lower axis connecting the middle of the hinged links, and the pusher is connected to the upper axis. 1 il. sh e

Description

The invention relates to devices for determining the strength characteristics of soils during engineering surveys in construction.

The purpose of the invention is to enable both static and dynamic sounding.

The drawing shows the proposed device, a General view.

The device comprises a stand 1 with a support 2 and anchoring devices 3, a probe 4, a probe pushing mechanism made in the form of a hydraulic cylinder 5 with a hollow rod 6, a hammer 7 with an anvil 8 mounted on a guide 9, a hammer lifting mechanism made in the form of a hinge -left links 10 with supporting

the plates 11 and 12 and the pusher 13, and the mechanism 14 for gripping and dropping the hammer. The support plate 11 is rigidly fixed on the upper end cover of the hydraulic cylinder 5.

The anvil 8 communicates with the base plate 11 by means of the protrusion 15, and the guide 9 interacts with the support 1 by means of the bracket 16.

The hollow rod 6 of the hydraulic cylinder 5 and the mechanism 14 for gripping and dropping the hammer are provided with rod grips 17 and 18, respectively, mounted on the rack 1.

The cylinder 5 has an oil supply switching mechanism 19 and a pressure source 20.

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The device works as follows.

In the production of static soundings, the hammer 7 is removed, and the anvil 8 with the protrusion 15 is rigidly fixed on the probe 4 and used as an emphasis interacting with the base plate 11.

Using the rod grips 17 and 18 and the oil supply switching mechanism 19, move the hydraulic cylinder 5 upward along the upright 1 to the level of alignment of the support plate 11 with the anvil 15 and fix the support plate above the protrusion. Fixed on the rack 1 pin grip 17. The gripper 18 is unlocked. The oil is fed into the lower cavity of the hydraulic cylinder 5, as a result of which the hydraulic cylinder body will move downwards and through the base plate 11 transfer force to the probe 4, crushing it into the soil under study to a depth caused by the stroke of the hydraulic cylinder piston. After that, the sucker rod 17 is released and the oil is fed into the upper cavity of the hydraulic cylinder, as a result of which the hollow rod 6 moves down the rack 1 by the stroke value of the piston. Rod capture 17 fix and serves the oil in the lower cavity of the hydraulic cylinder, carried out a further immersion of the probe into the ground. The pressure force is recorded by a pressure gauge (not shown) mounted on the pressure source 20.

Removing the probe is carried out in reverse order. When this support plate 11 is fixed under the ledge 15.

In the production of dynamic sounding, the hammer 7 is mounted on the guide 9 and fixed by the mechanism 14 for gripping and dropping the hammer. The support plate 11 is fixed above the protrusion 15 of the anvil.

The rod clamps 17 and 18 are fixed. The oil is fed into the lower cavity of the hydraulic cylinder, as a result of which the rod 6 will move upward, opening the hinge-lever link 10. At the same time, the pusher 13 interacts with the mechanism 14 for gripping and dropping the hammer and releases the hammer 7 from fixing . The hammer falls on the anvil 8, immersing the probe 4 into the soil under study, as a result of which the hydraulic cylinder 5 supported by the base plate 11 moves to the anvil 15 and moves down along the rack 1 by the immersion value of the probe 4. Simultaneously the bracket 16 is lowered by this value along the rack 1 guide 9.

The oil is fed into the upper cavity of the hydraulic cylinder. During the course of the rod 6 occurs

folding the hinged links 10 with simultaneous lowering of the mechanism 14 for gripping and dropping the hammer until it interacts and automatically fixing with the hammer 7. Oil is fed into

0 the lower cavity of the hydraulic cylinder, as a result of which the hammer 7 is raised to the fcx height and is dropped. The cycle is repeated until the end of the soil test.

5 An oil supply switching mechanism 19 automates the process of raising and dropping a hammer, which improves the performance and convenience of producing dynamic probing.

0 v Removing the probe to the day surface is carried out in the same way as in the production of static sounding.

Claims (1)

Invention Formula 5 A device for sounding soils, including a frame, anchoring devices, a probe in the form of a rod with a tip, a mechanism for pushing the probe in the form of a hydraulic cylinder with a hollow rod and a sucker rod, a pressure source, characterized in that, in order to provide both static and dynamic sounding, the device is equipped with a stand with a support, an additional 5 with a sucker grip, a hammer and an anvil mounted on a guide, a mechanism for gripping and dropping a hammer, a hammer lifting mechanism made in the form of a pusher and a hinged lever 0 links with base plates, with the middle part of the hinged link arms and the ends connected by axles and connected by means of intermediate links with the support plates, while the upper end of the hollow The 5 rods of the hydraulic cylinder are connected to the lower axis connecting the middle of the hinge-link links, and the pusher to the upper axis, the mechanisms for pushing the probe and raising the hammer are mounted on a stand with With the possibility of axial movement, the mechanism for gripping and dropping the hammer is mounted on the upper support plate, and the lower support plate interacts with the anvil protrusion. five 7 eight 18