SU678223A1 - Energy-absorbing device - Google Patents

Description

one

The invention relates to mechanical engineering, in particular to devices for absorbing impact energy, used to protect vehicles from the effects of accidental jolts and shocks.

 Energy absorbing devices are known. Containing telescopic tubes that deform upon impact 1.

The closest to the invention in its technical essence and the achieved result is an energy absorbing device containing telescopic tubes and plates movable in the axial direction, separating the tubes on the platforms in which filler 2 is located. In this device, the degree of damping is insufficient in a wide range of impact loads devices. The aim of the invention is to increase the damping capacity in a wide range of shock loads.

This goal is achieved by the fact that the energy absorbing device is equipped with a telescopic rod with a port that acts on the plates through the core, and the latter is a honeycomb with different stiffness in each cavity.

The drawing shows an energy absorbing device, a longitudinal section.

Energy absorbing device contains inner 1 and outer 2 telescopic tubes. The outer tube 2 is welded to the body beam 3, and the inner tube through the support point 4 is welded to the bumper beam 5. The tubes form two cavities filled with honeycomb core 6, 7 and 8, 9, having a layered structure with separating plates 10 and 11 between the layer MI 6, 7 and 8, 9.

The pipes 1 and 2 are prevented from axial movement one relative to the other by clamps 12, and the internal pipe 2 relative to the support bar 4 by clamps 13. The telescopic rod 14 with the piston 15 is fixed in the extended position by pins 16. The internal pipe 1 is provided with a lid 17 2 has a throttling hole 18.

The device works as follows. Upon impact, clamps 12 are cut off and deflectors are filled in two mutually opposite directions of the filler layers, first with a lower stiffness of 7 and 9, and then (with a greater shock load) and tougher 6 and 8,

Additional damping is achieved by growing air through the hole 18.

In case of incomplete suppression of the impact, the clamps 13 and the pins 16 on the telescopic shaft 14 are cut off. The pipes 1 and 2 move to the supporting point 4 and the excess energy quenches when they are deformed and destroyed. Meanwhile, the telescopic rod 14 is folded.

The use of a cell aggregate as a damping material allows to reduce the overload coefficient at impact and increases the damping qualities when exposed to external and operational factors.

Claims (2)

1. For the sake of Germany W 1947819, cl. F 16 D 7/12, 1975, according to which the decision to issue an author's certificate was made. 2. US patent N 3891200, cl. 267-140, 1975.