SU1125341A1 - Stand for studying process of breaking firm soils - Google Patents

Abstract

STAND FOR RESEARCH OF THE PROCESS OF DESTRUCTION OF STRONG GROUNDS, containing a base carrying the frame with its drive and located magnetostrictive working bodies on the supporting frame, characterized in that, in order to increase the efficiency of the destruction of the soil by providing the possibility of optimizing the parameters of the location of the working bodies one against another and press them to the ground, provided with vertical guides, on which the bearing frame is mounted, made with beams installed with fixed transverse movement, and the working bodies are placed on the beams with the possibility of fixed movement along the latter and turning in vertical planes, while the drive of the movement of the carrier frame is equipped with a torque limit clutch with the adjustment unit of the latter. from S to SP with N

Description

The invention relates to installations for loosening and breaking up durable soils and can be used in test benches, al to study the process of breaking up soils.

Closest to the present invention is a stand for the destruction of strong soils, including a base, a non-drying frame with a drive for moving it, and magnetostrictive working bodies 1 located on the base frame.

The disadvantage of the known stand is the inability to adjust the installation of the working bodies relative to each other and to press them to the ground.

The purpose of the invention is to increase the effectiveness of the destruction of the soil by providing the possibility of optimizing the parameters of the location of the working bodies relative to each other and their pressing to the ground.

The goal is achieved by the fact that the stand for studying the process of destroying durable soils, containing a base, a supporting frame with a drive for its movement and magnetostrictive working bodies located on the supporting frame, is equipped with vertical guides, on which a supporting frame is installed, made with beams installed with fixed transverse displacement, and the working bodies are placed on the beams with the possibility of fixed displacement along the latter and turning in vertical planes, with The drive of the movement of the carrier frame is equipped with a torque limiting clutch with the adjustment unit of the latter.

FIG. 1 shows a test bench for examining the process of crushing strong soils; in fig. 2 - the same in terms of; in fig. 3 - drive carrier frame; in fig. 4 - clutch torque limit; in fig. 5 - clamp fixing the working body; in fig. 6 - fixing the beam to the frame.

The stand includes a base 1 with vertical guides 2 for moving the carrier frame 3. The upper ends of the guides 2 are connected by an upper frame 4, on which screws 5 of the actuator 6 of the carrier frame 6, containing the engine 7, gear 8 and an equipped pressing control mechanism ( Fig. 3), which is made in the form of a radial-pneumatic coupling of the limiting moment 9, between the leading 10 and the driven 11 coupling halves of which is placed a rubber-cord cylinder 12 with a fitting 13 attached to the coupling half I. On the inside atop The container carries the friction linings 14.

On the carrier frame 3 mounted beams 15 with magnetostrictive working bodies 16, mounted on the lock

17, including the housing 18, the ball joint 19 and the adjusting bolts 20. The beams 15 are fixed in the carrier frame 3 by bolts 21 (FIG. 5) by unscrewing 5 sleeves 22 rigidly mounted on the beams 15. Between the directional direction, they set a sample 2 test soil 23. Compressed air to the fitting 13 is supplied through the pipeline 24.

The stand works as follows. Based on 1, a test specimen of soil 23 is placed. Working bodies are mounted on beams 15 at a given distance from each other and with the necessary rotation in vertical planes (Fig. 4), and the housing 18, after tightening the bolts 20, rigidly connects the beams 15 in pairs. The beams 15 are located in the supporting frame 3 at a predetermined position for this experience and are fixed by bolts 21. Then the actuator 6 is moved

carrier frame 3, the torque being adjusted by means of a radially-pneumatic clutch of the limiting moment (Fig. 3). When compressed air enters through the chaser 13 into the chamber of the rubber cylinder 12, the latter expands and transmits the torque from the coupling half 10 to the coupling 11 through the friction lining 14, and the pressure change in the compressed air in the cylinder 12 changes the torque on the drive shaft 6 the supporting frame 3, and, consequently, the force of pressing the magnetostrictive working bodies 16 installed on it to the sample of the soil 23, determined depending on its physical-mechanical

J properties, the number of working bodies and objectives of the study. After pressing the carrier frame 3 with the working bodies 16 to the test sample 23, the working bodies are switched to the vibration mode and the soil sample is subjected to vibroacoustic

impact, during which the necessary measurements are made. Upon completion of the experiment, the carrier frame 3 is returned by the actuator 6 to its original position. The experiments were carried out with various combinations of the number, interposition and tilt angles of the working bodies, the efforts of pressing them to the tested soil samples.

Thus, the use of stand 0 for studying the process of destruction of durable soils allows for a comprehensive study of both nearby and remote working bodies, increasing the energy transfer of elastic oscillations into the soil mass by optimizing the interposition of magnetostrictive working bodies and pressing them down. which increases the efficiency of the destruction of soils with different strength.

Claims (1)

STAND FOR RESEARCH OF THE PROCESS OF DESTRUCTION OF STRONG SOILS, containing a base, a bearing frame with a drive for moving it and magnetostrictive working bodies located on the supporting frame, characterized in that, in order to increase the efficiency of soil destruction by providing the possibility of optimizing the location parameters of the working bodies relative to each other and the efforts of pressing them to the ground, is equipped with vertical guides on which a support frame is mounted, made with beams installed with the possibility of fixing vannogo transverse displacement, and the operating bodies are arranged on the beams, with the fixed and movable along the latter rotate in vertical planes, wherein the displacement drive of the base frame is provided with clutch torque limit to a node of the last adjustment. >