SU641299A1 - Resonance machine for fatigue testing of springs - Google Patents

Description

innovated on the same shaft with the gear wheel of the first pair.

In the second embodiment, each of the beams is fixed on a separate axis, and the mechanism for the forced antiphase synchronization is made in the form of engaging gear sectors with the same radius mounted on the axes of the beams.

The invention is illustrated in the drawings, where in FIG. Figure 1 shows the kinematic diagram of a resonant spring fatigue testing machine in the first embodiment; Fig. 2 is the same according to the second embodiment.

The resonant machine contains two parallel-installed swinging beams 1 and 2, having loads 3 at the ends and equipped with devices 4 for securing the tested springs 5. The cranky-type exciter b is connected to beam 2 by means of a connecting rod 7.

In the embodiment illustrated in FIG. 1, one of the beams 2 is loosely mounted on an axis 8 located on supports 9 and 10 and rigidly connected to an EGT beam 1.

The mechanism for the forced antiphase synchronization of the oscillations of the beams is made in the form of two pairs of gears.

The first one is formed by gears 11 and 12 with external gearing, the gear wheel 12 being fixed on the axis 8, and the second gear pair is formed by the gear sector 13 with internal gearing, which is rigidly connected to the beam 2, and the gear wheel 14, which is installed on the same shaft 15, located in the supports 16 and 17, with a gear wheel 11,

In the embodiment illustrated in FIG. 2, each of beams 1 and 2 is fixed on a separate axis 18 or 19, which is mounted respectively in support 20 or 21.

The mechanism for the forced antiphase synchronization of the oscillations of the beams is made in the form of engaging gear sectors 22 and 23, which have the same radii and are mounted respectively on the axes 18 and 19 of the beams 2 and 1.

During the test, the oscillation pathogen 6 acts by means of the connecting rod 7 on the swinging beam 2 and causes it to oscillate.

The mechanism for the forced antiphase synchronization with the oscillations of the beams 2 sets in motion with a phase shift of 180 beams 1.

When excited with a resonant frequency, the compression of the tested springs 5, installed in the fixture 4 for securing the tested springs, is carried out by the forces of inertia of the loads 3 acting in opposite directions.

Claims (3)

1. Resonant spring testing machine not fatigue, containing two parallel-installed beams, equipped with fixtures for fixing the tested springs, weights mounted on the ends of the beams, and a vibration exciter connected with one of the beams, characterized in that, in order to improve test accuracy, it is equipped with a mechanism for the forced antiphase synchronization of the oscillations of beams, 2. The machine according to claim 1, characterized in that one of the beams is freely mounted on an axis rigidly connected to the second beam, and the mechanism for forced antiphase synchronization is made in the form of two pairs of gears, of which the first is formed by gears with external gearing, one of them is fixed on the axis, and the second toothed sector with internal gearing, rigidly connected to the first beam and the gear wheel mounted on the same shaft with the gear wheel of the first pair. 3. The machine according to claim 1, characterized in that each of the beams is fixed on a separate axis, and the mechanism for the forced antiphase synchronization is made in the form of engaging gear sectors with the same radius mounted on the axes of the beams. Sources of information taken into account in the examination: 1. Df-aht, v.21, No. 3, 1970, p. 149. 2. Serensen S.V., Garf M.E. et al. Dynamics of fatigue testing machines. M,. Machine building, 1967, p. 42 eleven