RU182722U1 - ENERGY-ABSORBING DEVICE - Google Patents

Abstract

The utility model relates to means of passive shock protection of land vehicles in a collision with other vehicles or obstacles. The energy-absorbing device consists of a tubular energy-absorbing element installed between the upper and lower bases, located along its lateral sides in the diametrical plane of the pairs of rods and levers pivotally attached by the ends in pairs pivotally to the rods and forming a hinged four-link, the opposite side ribs of which are connected to the upper and lower bases by symmetrically installed longitudinal guides. In this case, the longitudinal guides are made in the form of rod elements with rollers mounted on them. The technical result is to increase the reliability of the device and increase its energy consumption during loading. 2 ill.

Description

The utility model relates to means of passive shock protection of land vehicles in a collision with other vehicles or obstacles.

It is known energy-absorbing device containing a base and a working energy-absorbing element in the form of an invertible (inverted) pipe with a radius stamp that works in the plastic deformation mode (Kruglov Yu.A., Tumanov Yu.A. Impact protection of machines, equipment and apparatus. M .: Leningrad "Engineering". - 1986, 219 p.).

A disadvantage of the known energy-absorbing device is that it has significant dimensions and weight, a limited number of loading cycles and the impossibility of perceiving a load with different angles of application of forces and return to its original position.

The closest in technical essence and the achieved result to the proposed utility model is an energy-absorbing device., Consisting of a tubular energy-absorbing element installed between the upper and lower bases, placed along its lateral sides in the diametrical plane of the pairs of rods and levers pivotally attached by the ends in pairs pivotally to the rods and forming a hinged four-link, and the upper and lower bases are equipped with solid longitudinal guides rigidly fixed to them o sections of the same diameter in the form of hemispherical protrusions arranged symmetrically with respect to the geometric centers of the bases (RU 71150).

A disadvantage of the known device is its low reliability, which is due to the significant load transmitted from the bases to the levers and hinge nodes of the four link through the longitudinal guides during operation of the device.

The technical problem to which the proposed utility model is directed is to increase the reliability of the device and increase its energy consumption during loading.

The technical result achieved is to ensure the transfer of load during loading between the upper and lower bases and the articulated four-link in the running mode and, accordingly, to reduce the load transmitted from the bases to the levers and joints of the four-link, by reducing the friction force between the contacted surfaces.

This problem is solved by the fact that in the energy-absorbing device consisting of a tubular energy-absorbing element installed between the upper and lower bases, pairs of rods and levers arranged along its lateral sides in the diametrical plane, pivotally attached by their ends in pairs pivotally to the rods and forming an articulated four-link, opposite side ribs which are connected with the upper and lower bases by means of symmetrically mounted longitudinal guides, according to the utility model, longitudinal guides are designed as rod elements mounted with rollers.

The essence of the utility model is illustrated by drawings, where in FIG. 1 schematically shows a general view of an energy-absorbing device in a static state, FIG. 2 - in working position.

The energy-absorbing device comprises a tubular energy-absorbing element 3 installed between the upper 1 and lower 2 bases, located along its lateral sides in the diametrical plane of the pair of rods 4 and levers 5, pivotally attached by ends with a pair of pivots to the rods 4 and forming an articulated four link, the upper 1 and lower 2 the bases are provided with guides rigidly fixed to them symmetrically mounted relative to the axis of symmetry, made in the form of rod elements 6, on which the rollers are placed 7. Sha in the initial position, the quadruple linker has a rhomboid shape with obtuse upper and lower corners resting on the base elements 6 at the bases 1 and 2 by rollers 7 (Fig. 2).

The device operates as follows. In the case of impact, for example, on the upper supporting base 1 of the load of the calculated acceptable value, the tubular energy absorbing element 3 undergoes plastic deformation, and the load on the tubular energy absorbing element 3 from the upper base 1 is transmitted through the rod elements 6 with rollers 7 to four plates pivotally connected to each other 5 articulated four link. In this case, directed rolling of the rollers 7 with the rod elements 6 on the outer surfaces of the levers 5 occurs. During plastic deformation of the tubular energy-absorbing element 3, the upper corners of the articulated four-link rotate and the lower corners become sharper, as a result, the upper 1 and lower 2 bases come closer together.

Thus, the design features of the proposed device provide a redistribution of the load and increase the specific energy consumption by reducing the friction force between the contact surfaces.

Claims (1)

An energy-absorbing device consisting of a tubular energy-absorbing element installed between the upper and lower bases located along its lateral sides in the diametrical plane of pairs of rods and levers pivotally attached by ends with a pair of pivots to the rods and forming a hinged four-link, the opposite side ribs of which are connected with the upper and lower bases by means of symmetrically installed longitudinal guides, characterized in that the longitudinal guides are made in the form of rod elements with rollers mounted on them.

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