SU1263771A1 - Vibrated ripper - Google Patents

Abstract

VIBROORTER, including a magnetostriction pathogen, a working body, an element of its attachment and an additional mass, are installed / XXX / Y / X / Lennaya with the ability to move the vibration exciter along the longitudinal axis, characterized in that in order to expand its functionality in research work by providing the change in the impedance of the fastening element, the latter is made in the form of a pipe with an annular exciter with an annular support fixed on the working element and an additional mass of cm It is mounted on the tube enclosing the vibration exciter with the possibility of moving from the plane of the arrangement of the ring from the support to a distance equal to the length (C of the longitudinal wave in the pipe material. (

Description

The invention relates to earth-moving equipment and can be used on the vibrating working bodies of earth-moving machinery for working and studying their operational parameters.

The purpose of the invention is the expansion of the functionality of the vibrator in research by changing the complex resistance of the fastener.

In FIG. 1 shows a diagram of a vibratory ripper; in FIG. 2 - support with a lock in the form of a nut; in FIG. 3 the same, in the form of a fusible alloy. 1ί

The device contains a magnetostrictive vibration exciter 1, rigidly connected to the working body 2, mounted on an annular support 3 _S located inside the cavity-2 (containing vibration exciter pipe 4 in the plane of one of the extreme positions of the center of gravity of the additional mass 5 mounted on the pipe 4 with the possibility of its longitudinal pereme- ² '| 1tseniya, e.g., by a thread, the container with the ground or the load model 6 and a frame length of the transport path 7. The mass in the pipe is equal to the length L of the longitudinal wave in the pipe material 3ι apparatus pa. It works as follows.

The center of gravity of the extra mass. 5 by moving the latter can be installed anywhere on the pipe z;

4. Its extreme position is the support plane 3. The variable distance I of the center of gravity of the additional mass 5 ranges from 0 to ί and is equal to the length of the longitudinal wave (λ) in the pipe material. Change interval 1 is set by the experimenters. After selection and fixation of the additional mass 5 include a vibration exciter 1 and measure the amplitude of the displacement on the working surface of the working body, as well as in the necessary sections of the oscillatory system of the working body. In this case, the natural frequency of the fastening elements is determined from the equation tg (o) ₀ £ / c) = pi · S'c / m _b ω _ο · Ι, where S is the pipe cross-sectional area;

C is the speed of sound in the pipe material;

m _s - mass of the working body.

With a change in Ϊ, the natural frequency of the fastening elements i) _о changes, and hence their complex resistance. When 2 changes from 0 to 2 (the ratio o) / (D changes from 0 to 2), the complex resistance takes on the maximum, minimum, and again maximum values, which allows studies to be carried out in a reliable range of changes in complex resistance. The obtained values are used to construct the dependence of the displacement amplitudes of various sections of the oscillatory system on the complex resistance of the fastening elements.

jigz

Claims (1)

A VIBRATOR, including a magnetostrictive pathogen, a working element, its fastener and an additional mass installed with the possibility of moving along the longitudinal axis of the vibration exciter, characterized in that, in order to expand its functionality in research by providing a change in the complex resistance of the fastener, the latter is made in the form of a pipe covering the vibration exciter with an annular support fixed to the working body, and the additional mass is mounted on exciter tube intercepts a movable arrangement of the annular support plane over a distance equal to the length E of the longitudinal wave in the pipe material. fig ( SU 1263771 A1