SU968535A1 - Plastic shock absorber - Google Patents

Description

(54) PLASTIC DAMPER

The invention relates to a device to protect objects from vibration and shocks and can be used in construction for earthquake-resistant structures in the automotive industry when creating passive safety elements, with amortization of aircraft units, etc.

Known is a plastic shock absorber containing a pipe of plastic material, a rod located in it and knives fixed on the latter, interacting with pipe 1.

The disadvantage of such a device is its considerable size and weight.

The closest to the invention in its technical essence and the effect achieved is a plastic shock absorber, comprising a housing, a movable guide cylinder disposed therein, directional sleeves and plastic members connecting the housing with the cylinder and made in the form of two hollow cylindrical sections of a larger and smaller diameters and a smooth transition between them, having the form of a ring with an S-shaped generatrix, in the hollows of which with

the sides of the housing are guided sleeves 2

The disadvantage of the known shock absorber is low power consumption with large dimensions and weight.

The purpose of the invention is to increase the amount of absorbed energy.

This goal is achieved by

10 that in a plastic shock absorber with a housing, a movable guide cylinder placed in it, guide bushings and plastic elements connecting the housing with the cylinder and made in the form of two hollow cylindrical sections of larger and smaller diameters and a smooth transition between them, having the form of a ring with a 5-shaped generat

20 cavities of which, from the side of the body, guide sleeves are located, plastic elements are placed one in the other and fastened together, and the internal element is made

25 of material with greater plasticity than the material of the outer element.

In addition, the plastic elements are fastened together, and the inner one is fastened with a guide cylinder using

30 glue, ensuring the specified force

separation is one from the other and from the guide cylinder.

FIG. 1 shows a plastic shock absorber in the initial position; a longitudinal section J in FIG. 2 is the same in the partial actuation position.

The shock absorber contains plastic elements 1 and 2, interconnected between each other. The internal element 2 is made of a material with greater plasticity than the material of the external element 1. The internal element 2 is fixed with one section of smaller diameter on the movement of the guiding cylinder 3, and the other section a larger diameter on the housing 4. On the housing 4, the outer plastic element 1 is also fixed. Sections of larger and smaller diameters of elements 1 and 2 are connected by smooth transitions that have the shape of a ring with an S-shaped y. In the hollows of the rings on the side of the body 4, there are guiding sleeves 5 and b, which determine the intermediate diameters of the deforming plastic elements 1 and 2. The plastic elements 1 and 2 and the cylinder 3 can be cut together with each other using glue. Other methods of fastening can be used, for example soldering, but with the condition to provide a predetermined tearing force of elements 1 and 2 from each other and from cylinder 3.

The shock absorber works as follows.

Under the influence of dynamic load, the plastic elements 1 and 2 are deformed, with their preceding separation from each other and from cylinder 3 and the subsequent formation of an intermediate diameter, due to the plasticity of the material and guide bushings 5 and 6.

The implementation of the proposed shock absorber makes it possible to significantly increase the amount of absorbed energy, as well as the reliability of the shock absorber actuation due to the reduction of distortions.

Claims (2)

Invention Formula 1, A plastic shock absorber comprising a housing, a movable guide cylinder accommodated therein, guide bushings and plastic elements connecting the housing with the cylinder and made in the form of two hollow cylindrical portions of larger and smaller diameters and a smooth transition between them having a ring shape S-shaped, in the cavities of which, on the side of the body, there are guiding sleeves, characterized in that in order to increase the amount of energy absorbed, the plastic elements are placed one inside the other and are fastened together, and the internal element is made of a material with greater plasticity than the material of the external element. 2. The shock absorber according to claim 1, characterized in that the plastic elements are bonded to each other, and the inner one with a guide cylinder with an adhesive that provides a predetermined force for tearing them apart from one another and from the guide cylinder. Sources of information taken into account in the examination 1. The patent of France No. 2137258, cl. F 16 F 7/00, 1972. 2 UK Patent 127988 Cl. F 2, 1972 (prototype). H) v S. I 4VvWsY y) If., F.J Y j / CCS Y 7 J J j .1s 7 f d} 2 4 // y /// J ////// d / M W // y; L / UU / UUU / U // UUU7UU p / 7. W 7 f 77 .