SU989197A1 - Energy adsorber - Google Patents

Description

The invention relates to mechanical engineering, in particular to devices for absorbing impact energy, and is intended for use in the construction of supports of various devices, as well as bumper devices of cars.

The closest to the invention by the technical essence and the result emomu dostiga- _f is energopoglotitel comprising a housing, a sleeve placed therein and extending therethrough and cut the inside surface of the stem ₁₅ with cutting zubya- E £ 1].

A disadvantage of the known energy absorber is its relatively low energy intensity, due to the fact that its stock is made according to the drawing principle, i.e. tool for processing holes with minimal energy.

The purpose of the invention is to increase energy intensity and reduce the weight of the energy absorber.

This goal is achieved by the fact that in the energy absorber containing the housing, a sleeve placed therein and a rod with cutting teeth passing through it and cutting off its inner surface, deforming belts are made on the trailing edges of the rod cutting teeth.

In addition, the leading edges of the deformation belts are aligned with the trailing edges of the cutting teeth, the working surfaces of which are located at a positive angle to the axis of the rod _h

Figure 1 shows the proposed 'energy absorber, a longitudinal section; figure 2 is an embodiment of the teeth with a separate deforming girdle (node I in figure 1); in Fig. 3 the same with the combined deforming belt.

989197 4

The energy absorber comprises a housing 1, a sleeve 2 placed therein and a rod 3 with cutting teeth 4 passing through it and cutting off its inner surface 4. On the trailing edges $ (not marked) of the cutting teeth 4 of the rod 3, deforming belts 5 are made 5. In Fig. 3, an embodiment is shown performing the teeth 4 of the rod 3 'in which the front edges (not indicated) de 10 forming belts 5 are aligned with the trailing edges of the cutting teeth 4, working surfaces which are arranged at a positive angle to the rod axis pl 3- ¹⁵

The energy absorber operates as follows.

Under the influence of shock loads, the rod 3 moves relative to the housing 1 and the cutting edges of the teeth 4 of the cut-20 emit material from the inner surface of the sleeve 2. Deformation belts 5, whose diameter is larger than the diameters of the corresponding teeth 4, reinforce the material of the sleeve. In this case, each subsequent cutting tooth encounters great resistance when interacting with the sleeve 2.

Thus, a significant increase in the energy intensity of the device is achieved while reducing its weight.

Claims (2)

The invention relates to mechanical engineering, in particular to devices for absorbing impact energy, and is intended for use in the structures of supports of various apparatuses, as well as bumper devices of automobiles. The closest to the invention in technical essence and the achieved result is an energy absorber, comprising a housing, a sleeve disposed therein and an opening thereof and cutting off its stem with cutting teeth 1. The disadvantage of the known energy absorber is its relatively low power consumption due to the fact that its stock is made according to the principle of extension, i.e. tool for machining holes with minimal energy consumption. The purpose of the invention is to increase the energy capacity and reduce the weight of the energy absorber. This goal is achieved by the fact that in the energy absorber, comprising a housing, a sleeve housed therein and a stem with cutting teeth cutting through its inner surface, the deformations of the stem are made on the rear edges of the cutting teeth of the rod. In addition, the front edges of the deforming fins are aligned with the rear edges of the cutting teeth, whose working surfaces are at a positive angle to the axis of the rod. Figure 1 shows the proposed energy absorber, a longitudinal section; Fig. 2 shows an embodiment of the teeth with a Separate deforming wrench (node I in Fig. 1); on fig.Z the same with the combined deforming by skim. 398 The energy absorber contains the housing 1, the sleeve 2 located in it and the stem 3 passing through it and cutting off its inner surface with cutting teeth k. On the rear edges (not marked) of the cutting teeth and the stem 3 are made deforming. 5. FIG. 3 shows an embodiment of the teeth of the stem 3, in which the front edges (not indicated) of the deforming core 5 are aligned with the rear edges of the cutting teeth k , the working surfaces of which are located at a positive angle of ° C to the axis of the rod 3 Energy absorber works as follows. Under the action of shock loads, the rod 3 moves relative to the housing 1 and the cutting edges of the teeth k cuts the material from the inner surface of the sleeve 2. The distorted surface 5, whose diameter is larger than the diameters of the corresponding teeth +, strengthens the material of the sleeve. In this case, each subsequent cutting tooth encounters great resistance when interacting with the sleeve 2. Thus, a significant increase in the power consumption of the device is achieved while reducing its weight. Claim 1. Energy absorber, comprising body, times | The sleeve and the stem with cutting teeth which pass through it and cutting off its inner surface, which is different in it, are different in order to increase energy consumption and reduce the weight of the energy absorber, and deformations are made on the rear edges of the cutting teeth of the rod. 2. The energy absorber according to claim 1, which is based on the fact that the front edges of the deforming fins are aligned with the rear edges of the cutting teeth, whose working surfaces are at a positive angle to the axis of the rod. Sources of information taken into account in the examination of I 1. Bazhenov V.I. and others. Landing of spacecraft on the planet. M., Mechanical Engineering, 1978, p.116 (lrotiotype). FIG. 2 Fig.d