PL183956B1 - Elastomer-based shock absorber - Google Patents

Abstract

The invention deals with an elastomeric bumper. Bumper comprises a tank filled with compressed elastomer, of a deepen into it rod with a head, the head (6) is of changeable diameter, at that the central part (13) of the head has cylindrical shape (14), the ends (15, 18) of the head are of diameter (d) smaller than the diameter (D) of the central part of the head, and in the tank (1), near the guide (7), and in the sealing (3) as well, cavities (16, 20) are formed, in which those ends can go in. Bumper corresponding to this patent makes it possible to increase the rod path in comparison to elastomeric bumpers used till now and having same dimensions.

Description

The present invention relates to an elastomeric shock absorber.

A shock absorbing device with an energy-absorbing elastomer is known from the Polish patent specification No. 116 375. It consists of a sleeve with a high-pressure compressed elastomer and a sliding shaft with a head, guided in a guide with sealing elements. The guide with sealing elements is embedded in a separate surface centering sleeve and is fixed with a threaded element screwed into the sleeve. Moreover, in the embodiment of the invention shown in the drawing, it is shown that the flow of elastomer is ensured between the cylindrical surface of the head and the inner surface of the container over the entire working length.

The aim of the invention is to expand the range of manufactured elastomeric shock absorbers.

The essence of the elastomeric damper according to the invention consists in the fact that the head of the shock absorber shaft is made in the form of a rotational body of various diameters, the central part of the head being formed by a cylindrical surface and the ends of the head having a smaller diameter than the central part of the head. Furthermore, recesses are formed in the shock absorber container adjacent the guide and in the gland to accommodate these ends.

It is advantageous to provide the head on both sides with ends formed by cylindrical or conical surfaces.

It is also preferred that one end of the head is cylindrical and the other is conical.

A further advantage is obtained by forming an outer threaded step on the container near the bottom.

183 956

The damper according to the invention makes it possible to obtain a longer stroke of the shaft compared to elastomeric shock absorbers of the same dimensions used so far. This was made possible by reducing the height of the head, which, for the sake of stiffness, was reinforced with ends that could fit into cavities formed inside the container in the vicinity of the guide and in the gland. Moreover, the shock absorber can be screwed into the plate of the absorbing apparatus, so that it is possible to use a longer and therefore more effective shock absorber in the current absorbing apparatus.

The subject of the invention is shown in the embodiment in the drawing, in which Fig. 1 shows an elastomeric shock absorber in partial section along the main axis, Fig. 2 shows the head of the shock absorber with cylindrical ends, and Fig. 3 - a head with conical ends.

The elastomeric damper consists of a container 1, which is closed on one side with a bottom 2 and on the other with a gland 3 and is filled with a compressible, pre-compressed elastomer 4. The container is immersed in a shaft 5, on which a head 6 is formed inside the container. The shaft is slidably mounted. in the stuffing box and in the guide 7, provided with through holes 8, in the slide bearings 9. In order to ensure the tightness between the stem and the stuffing box, a moving seal 10 is used, and the seals 11 and 12 are used to seal the joints between the container and the stuffing box and the bottom. it has the form of a rotating solid of various diameters. The central part 13 of the head is formed by a cylindrical surface 14 with a diameter D, and the ends of the head are smaller than the central part of the head. The end 15 of the head facing the bottom is formed by the surface of a cylinder, the diameter d of which allows this end to be loosely placed in a cylindrical recess 16 formed by a step 17 made on the inner surface of the container next to the guide. On the other hand, the head end 18 facing the gland is in the form of a truncated cone allowing the end to abut against the inner surface 19 of the conical cavity 20 formed in the gland. It is obvious that the not shown in the drawing, the location of the conical cavity next to the guide and the cylindrical cavity in the stuffing box, while ensuring the opposite positioning of the head ends is also an implementation of the shock absorber according to the invention. In addition, the container of the elastomeric shock absorber near the bottom ends with an outer shoulder 21 with threads 22 for mounting the shock absorber in an absorbing apparatus not shown. In addition, the bottom, on the inside of the container, has an axial recess 23. In the example shown in Fig. 2, the head 24 has ends 15, 15 'formed by cylindrical surfaces, and in the example shown in Fig. 3, the head 25 has ends 18, 18' in the form of truncated cones. It is clear that the step inside the container and the inner surface of the stuffing box form recesses which ensure complete immersion of such ends.

183 956

183 956

Fig. 3

183 956

Publishing Department of the UP RP. Circulation of 50 copies

Price PLN 2.00.

Claims (6)

Patent claims 1. An elastomeric damper consisting of a container filled with a compressible elastomer and a shaft with a head immersed in it, the flow of elastomer between the cylindrical surface of the head and the inner surface of the container over the entire working length, characterized in that the head (6) has a different diameter, the central part (13) of the head is formed by a cylindrical surface (14) and the ends of the head (15, 18) have a smaller diameter (d) than the diameter (D) of the central part of the head, and in the container (1) adjacent to the guide ( 7) and in the stuffing box (3) there are recesses (16, 20) capable of accommodating these ends. 2. A shock absorber according to claim 2. The process of claim 1, characterized in that the ends (15,15 ') of the head (24) are formed on both sides of the head by cylindrical surfaces. 3. A shock absorber according to claim The process of claim 1, characterized in that the ends (17.17 ') of the head (25) on both sides thereof are in the form of truncated cones. 4. A shock absorber according to claim A method as claimed in claim 1, characterized in that the end (15) of the head (6) on the bottom side (2) has a cylindrical shape and the end (18) on the gland (3) side has a conical shape. 5. A shock absorber according to claim A device according to claim 1, characterized in that the end of the head (6) located on the bottom side (2) has a conical shape and the end on the gland side (3) has a cylindrical shape. 6. A damper according to claim The container as claimed in claim 1, characterized in that the container (1) terminates adjacent to the bottom (2) with an outer shoulder (21) with a thread (22).