SU1453093A1 - Shock-absorbing arrangement - Google Patents

Abstract

The invention relates to mechanical engineering and can be used for vibro-shock protection of equipment and installations. The aim of the invention is to improve the damping properties at high spring compression and to adjust the amplitude-frequency characteristic. The agitating device contains a coaxially mounted cylindrical split element 2 with slots on its cylindrical part, fixed on the supporting cup 3 that surrounds it, and inside the piston 1, a cylindrical helical spring 4 installed with a gap 7 between its outer surface and the inner surface of the element 2, installed on opposite sides of the piston 1, the elastic elements in the form of a ball 8 and a conical sleeve 9. Under the action of an external load with a small amplitude of compression of the spring 4, a shock-absorbing device ystvo operates as a conventional vibration isolation torus. With large shrinkage, the spring 4 is frictionally engaged with cylindrical element 2 and additional elastic elements 8 and 9. Elastic straps 12, in the form of an elastic retaining ring, allow you to adjust the gap 7, the damping properties of the shock absorbing device and its amplitude frequency response. 2 hp f-ly, 3 ill. B (L

Description

springs 4, there are elastic elements, one of which is made in the form of a ball 8, located inside the spring 4, and its diameter is greater than the internal diameter of the spring 4 by an amount of 0.2 ... 1.0 diameter of the spring wire 4, and the other is in the form of a conical sleeve 9 mounted with a smaller base on the piston rod 1.

The cylindrical element 2 and the cylindrical part of the support cup 3 have slots 10 and 11, respectively, along the direction of the second cylinder. On the cylindrical part of the support cup 3, an elastic straightening 12 is installed, as which can be used split retaining rings and by selecting which a given value of their elastic properties can be selected and, consequently, the size of the gap 7.

The elastic elements in the form of a ball 8 and a conical sleeve 9 are expediently made of material MP by pressing from a thin wire.

The damping device operates as follows.

When an external load P (t) with small amplitudes acts on the device, spring 4 acts like a normal vibration isolator. With an increase in the amplitude of the external load due to an increase in the external diameter of the spring4, the gap 7 decreases, and for a given amplitude value

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Claims (3)

1. A shock-absorbing device, containing a push piston, a cylindrical element split along its length, mounted coaxially on the supporting cup that surrounds it, and a cylindrical helical spring that interacts with the ends of the pressure cup and the bottom of the supporting cup, and with a split cylindrical element, and elastic straps, characterized in that, in order to improve the damping properties for large spring cuts and adjust the amplitude-frequency characteristic, it is equipped with two m elastic elements located on opposite sides of the front ends, one of which is made in the form of a ball placed inside the spring, the diameter of which is greater than the internal diameter of the spring by 0.2 ... 5 1.0 diameter of the spring wire, and the other in the form of conical bushings mounted with a smaller base on the rod, and a cylindrical coil spring mounted relative to the split cylindrical element with a gap. 2. A device according to claim 1, characterized in that the cylindrical part of the support sleeve is made split and the elastic walls of the tie-down are located on the support sleeve. 3. The device according to paragraphs. 1 and 2, characterized in that split retaining rings are used as elastic shells. 0 five FIG. 2