DE3700854A1 - ENERGY ABSORBING DEVICE ON A BUMPER OF MOTOR VEHICLES - Google Patents

Description

The invention relates to an energy absorbing one Direction on a bumper of motor vehicles through the preamble of claim 1 specified genus.

The facilities of this type known up to now are called hydropneumatic shock absorbers designed and for the purpose provided for a head-on collision at all impact energy exerted on the bumper in this way largely destroy that for the subsequent transfer possible through the vehicle body every injury danger for the vehicle occupants is mitigated. There this hydropneumatic shock absorber principle a relative complex construction of the bumper, it has for example, according to US-PS's 36 06 295, 38 57 596 and 42 58 641 so far no suggestions as with similar to the use of rubber and foamed plastics energy absorbing properties for the bumper of Motor vehicles can be obtained, but so far none has of these suggestions have proven to be practical and suitable.

The invention characterized by the claims solves the task of an energy absorbing device at a Be bumper of motor vehicles of the type specified to sit down, more or less by a Exploitation of known material properties one with the known hydropneumatic devices comparable Energy balance results.

The achievable with the device according to the invention parts are essentially that with the use two different plastics with one two correspond Influencing factors of different sizes  Arrangement and training now a correspondingly cost-effective Overall design of a bumper available stands, where everyone comes to act on the bumper delimiting impact energy in two likewise baren energy levels is absorbed. It becomes one with shock absorbers comparable to hydropneumatic devices with the primarily material-related option ten, the primary level of energy absorption to a relative short period of time with a relatively high share factor To be able to adjust the gate, which then for the bumper Impact behavior is available that up to the change in which maintain over a comparably longer period of time ne secondary level one free of any permanent damage because elastic regression of the bumper construction enables light. For the primary stage of energy absorption there is especially a relatively hard set thermoplastic Plastic is suitable from the supplementary point of view that thus also a favorable temperature behavior for the bumper ge can be reached.

An embodiment of the device according to the invention is shown schematically in the drawing and is described in more detail below. It shows Fig. 1 is a perspective view of the A direction in the arrangement on the front bumper of a motor vehicle with a partly cut ge representation,

Fig. 2 is a sectional view of the device along the line II-II in Fig. 1,

FIGS. 3 and 4 are sectional views of the device according to the Fig. 2, during the primary stage and the secondary stage mung an energy Verfor,

Fig. 5 is a Fig. 2 corresponding sectional view of a second embodiment of the device,

Fig. 6 is a sectional view of a portion of a third embodiment of the device,

FIGS. 7 and 8 curves showing a different sized gate Ausbeulfak two plastics used for the device of FIG. 1 may come to be used, and

FIG. 9 is a characteristic curve to show the energy absorption achievable with the device according to FIG. 1.

The partially sectioned perspective view of FIG. 1 shows the area of the front bumper 12 of a motor vehicle arranged on a direction indicator. The bumper is formed with a bumper 18 covered by a decorative strip 16 and a plurality of energy-absorbing devices 20 , by means of which the bumper 18 is screwed to a mounting plate 22 of the vehicle body 14 .

Each device 20 provided for absorption of a shock energy acting in the longitudinal direction of the vehicle on the bumper 12 and thus on the bumper 18 is formed in the form of a plastic housing 24 , which preferably consists of a relatively hard set thermoplastic and is provided for receiving a pressure cushion 26 , which is gebil det for the provision of a different sized Ausbeulfak tors preferably with a polyurethane foam body. The plastic housing 24 is provided with integrally ausgebil Deten mounting flanges 27 , 28 , which have through holes 30 for rivets or screws, by means of which the bumper 18 is fastened to the vehicle body 14 by the multiple arrangement of the plastic housing 24 .

The provided for the arrangement of the pressure pad 26 interior 34 of the plastic housing 24 may differ from the rectangular cross section shown also a round or any other cross-sectional shape. It is important that this interior 34 has a somewhat longer axial length than the pressure pad 26 , so that when an impact energy acts on the bumper 18, the housing walls 32 forming the interior 34 can bulge out, as shown in FIG. 3, even before the bumper comes into physical contact with the pressure pad 26 . In order to obtain this primary bulging of the walls 32 of the plastic housing 24, which results in a primary stage of energy absorption, the pressure cushion 26 must have a relatively slidable contact with the surrounding inner wall of the plastic housing, and for optimal utilization of the different buckling factor of the plastic housing 24 compared to the pressure cushion can also be advantageous if the pressure pad used in the interior 34 corresponding to the representation of the pressure pad 26 'in Fig. 5 has a somewhat small cross-section or is provided with a sliding surface corresponding to that in Fig. 6 for an alternative embodiment of the pressure pad 26 '' shown corrugations or the like. has, which reduce the friction factor between the pressure pad and the surrounding inner wall of the plastic housing 24 .

For the relatively hard-set thermoplastic material, from which the plastic housing 24 is preferably Herge, for example, the characteristic line shown in FIG. 7 can be decisive, while the characteristic curve shown in FIG. 8 is never decisive for a polyurethane foam body which, on the other hand, is preferably used for the pressure cushion 26 . The characteristic curve of FIG. 7 thus shows that when the walls 32 of the plastic housing 24 are bulged into the state shown in FIG. 3 by means of the bumper 18 , a relatively large proportion of the impact energy in a relatively short period of time during this bulging is absorbed, this initial absorption of the shock energy a reduction in the axial length of the plastic housing 24 practically corresponds to the amount by which the pressure pad 26 is initially axially shorter than the inner space 34th As long as the decisive factor in this primary stage of energy absorption is not exceeded, there is an elastic regression of the plastic housing from the bulged state of the representation according to FIG. 3 in the state shown in FIG. 2, as soon as the effect of an impact energy on the bumper 18 is canceled. If, on the other hand, the portion of the shock energy to be absorbed with the bulging of the walls 32 of the plastic housing 24 is exceeded, then, as shown in the characteristic curve shown in FIG. 7, the resistance of the plastic housing to progressive bulging is reduced relatively quickly, so that the interior 34 around giving wall 32 undergoes the pleating shown in FIG. 4.

The beginning of this pleating now coincides with the secondary stage of energy absorption which is fulfilled by the pressure cushion 26 and which, according to the characteristic curve shown in FIG. 8, has a linearly increasing course of the resistance to bulging, which is decisive. With this linearly increasing course of the opposing resistance through the pressure pad 26 of the progressive impact energy, the rapidly decreasing resistance of the plastic housing 24 due to the pleating is compensated for, so that it can be assumed for this secondary stage with reference to the characteristic curve shown in FIG. 9 that due to the different sized bulge factor of the pressure pad 26 is now absorbed over a prolonged period of time the same proportion factor of the impact energy is absorbed, which can initially only be brought to absorption over a short period of time by the plastic housing 24 . The effect caused by the pressure pad 26 to an initial primary stage downstream of a secondary stage for the absorption of each impact rod acting on the bumper in the longitudinal direction of the vehicle gives the vehicle occupants a lower response sensitivity, which can be further promoted by the fact that the two Levels of energy absorption experience with the different sized buckling factors of the plastic housing 24 and the pressure pad 26 greater differentiation from each other. The mutual differentiation of the two stages is possible both in terms of material and in the mutual training and arrangement of the individual parts that make up the energy-absorbing device.

Claims (5)

1. Device on a bumper of motor vehicles for absorbing an impact energy acting in the longitudinal direction of the vehicle on the bumper and resiliently to be absorbed in relation to the vehicle body, characterized by at least one plastic housing arranged between the bumper ( 18 ) and the vehicle body ( 14 ) (24), one in the longitudinal direction of the vehicle extending main axis, and in a valve disposed within the housing (24), pressure pad (26) made of plastic, which has a relation to the plastic housing (24) of different sizes Ausbeulfaktor in the longitudinal direction of the vehicle . 2. Device according to claim 1, characterized in that the plastic housing ( 24 ) is designed to achieve a material initially relatively high elastic resistance to bulging and the pressure pad ( 26 ) for the development of a comparable resistance, with the beginning of the Bulge of the plastic housing ( 24 ) increases linearly in order to approximately compensate for the rapidly decreasing resistance to the progressive bulge. 3. Device according to claim 1 or 2, characterized in that with the exception of a different size Ausbeulfaktor influence send axial partial length of the entire interior ( 34 ) of the plastic housing ( 24 ) with the a sliding system on the inner wall having pressure pad ( 26 ) filled is. 4. Device according to claim 3, characterized in that on the inner wall of the plastic housing ( 24 ) adjacent sliding surface of the pressure pad ( 26 '') with the friction factor reducing corrugations or the like. is provided. 5. Device according to one of claims 1 to 4, characterized in that the plastic housing ( 24 ) from a relatively hard set thermoplastic and the pressure pad ( 26 ) consist of a polyurethane foam body.