DE2350027A1 - Energy and shock absorber - uses forced flow of plastic material through defined orifices - Google Patents

Abstract

The shock absorber, consists of a flexible casing, of circular cross section filled with a plastic material which can flow. For absorbing energy telescopic tubes are provided. These are pierced by holes of defined size and distribution through which the plastic material is forced when the shock absorber collapses under a load applied in head-on direction. A spring provides a restoring force to return the shock absorber to its normal shape. In another form of the energy absorber the spiral spring and telescopic tubes are replaced by a telescopic spiral spring made from overlapping strip material and pierced by holes.

Description

8 Munich 82
Kcrhburger SIr. 7b-9

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Additional patent application for P 23 k3 92-6 * 1

1. General

Xn the * description and the claims of the application P 23 4-3 926.1, elements are specified that are used to build the Dynamic pressure and thus the deceleration force are used in connection with the design of the container shape, container material, storage zones, properties of the medium and accordingly constructive additions. However, in order to be as large as possible Master the area of occurring mass energy with the device to be able to do justice to the respective space conditions as well as other influential aspects, it is necessary to the retarding force and its even distribution on the entire route with additional, additional funds build what with the telescopic elements described below, in connection with the values of the registered Patent is achieved.

Since these are very effective, simple devices, an additional patent is requested.

2. Description

In the container 1 (Fig. Z) , a teleakop device, consisting of an upper part 2 and a lower part 3 and an energy storage device, in this case a spiral spring 4, is introduced. The lower part 3 has openings 5 (for example slots, bores or prongs, etc.). The medium is pressed in via a valve 6 so that the container and telescope are fully filled. In this case, the air cushion is dispensed with or it is closed for itself in a special container upstream.

509815/0259

3 · Function

When the mass energy is applied in the direction of the arrow, the deceleration forces according to P 23 k3 926.1 become effective simultaneously and alternately with those of the telescope. The upper part 2 moves into the lower part 3 »displaces the medium via control openings in such a way as the use makes it necessary for the best possible damping and the required energy consumption. This is regulated in that the openings are arranged at certain points and have certain orders of magnitude. The spiral spring k acts here as a delay element, but at the same time serves to regulate the reset time without the usual kickback in the energy store being able to take effect because the spring k is prevented from doing so by the plasticity of the medium. At the same time, in this case, the spring, in conjunction with the other given factors, helps to fully fill the telescope. You are not bound to seals, tolerances and other expensive processing, since even larger gaps between the upper and lower part can be used for control due to the non-liquid medium, and the medium itself has a certain amount of lubricity.

k. Other types of construction

Depending on the application and the requirement, the mass energy To build up on a shorter or larger path, of course, several telescopic constructions or similar means for Build up the retarding force and an even distribution possible on the entire route.

So z. B. the telescope according to Fig. JZ not only in one or two parts, but also in several parts, which allows a greater distance.

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In Fig. Z a very effective and simple telescope is shown, in the form of a commercially available conical spring. This telescope also has all the advantages and devices according to Fig. Z ^ and also allows driving through on a very long way.

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In addition, the cone shape has the advantage that the Impact pressure and the final pressure for the different diameters and thus the given pressure per square cm can be controlled. The targeted control effect to build up the back pressure is technically very easy to achieve here by adjusting the tolerances within the conveyor windings accordingly designed. In addition, however, the turns can in turn also have control openings.

In Fig. ) T a solution is shown that is also very effective. Several leaf springs are arranged one above the other either so that they hold in the tower shape or are guided by means of a bolt. The medium is in the cavities. The application of force causes deformations that allow the medium to flow like with control nozzles, but on the other hand the spring bodies themselves also contribute to the build-up of the deceleration force through friction on various surfaces and edges. Due to the property of the spring steel, the element builds itself up again after the work has been carried out and if the appropriate suction effect is created through holes etc., the filling is guaranteed in connection with the other units of the apparatus. Only one form of different design options for the leaf spring elements is shown here.

I think there is no need to give more constructive examples and technical implementation, as the height of the invention by further such solutions in its basic idea is not affected.

Munich, October 1, 1973

5 0 9 8 1 57 0 2 5 * 9.

Claims (5)

Claims Combined shock absorber with Energieverzelir according to patent application P 23 ^ 3 926.1 characterized in that for Increase in the deceleration force and its uniform Distribution over the entire route, in the container telescopic elements are built, containers and Elements fully filled with permanently plastic or permanently plastic-elastic medium s; Lnd, the medium is pressed through control openings when the mass energy is applied, their distribution and size in connection with the deceleration forces according to P 23 ^ 3 92.6. 1 determine the linear dissipation of energy. 2. Combined shock absorber according to claim 1, characterized in that that the telescopes are one or more parts and are coupled with energy storage. 3 · Combined shock absorber according to claim 1 and 2, characterized in that that telescope is one with all functions and storage and allows long distances for energy consumption. Munich, October 1, 1973 5 0 9 B 1 R / 0259 Empty soap