DE4003871A1 - Shock absorbing element for sports gear - comprises roller with hard centre attached to outer e.g. polyurethane foam ring having parts with different resilience - Google Patents

Abstract

A shock-absorbing device, partic. for sports gear such as skis etc. has at least one shock-absorbing roller whose resilience varies round its circumference, its elastic parts are made of (pref.) polyurethane foam. ADVANTAGE - The device only needs to be turned as required in order to expose a part of the resilience desired for its application at the time.

Description

The invention relates to a device for cushioning, in particular especially for sports equipment, such as free-standing treadmills or the like chen.

In many areas, especially in the sports area, a preferably damping cushioning of individual parts ge wishes to the particular punctual forces like rythmi act on forces. This is the case with, for example Treadmills. These are driven by an endless belt whose upper run is supported by a running and sanding board becomes. If the runner (at one point) on one The treadmill is running, so he always relies on the grinder when running board that, if it is not elastically cushioned, forms a hard abutment, causing tendons of the current can be affected. Another example is driving wheel saddles, as a rule in bicycles between themselves rotating wheels and the bracket of the saddle itself none damping or resilient elements are provided. The feather elements should have high damping constants in order to the forces acting punctually or rhythmically actually dampen and not lead to resonance vibrations. Next  it is desirable to have the spring and damping properties ten to be able to vary, for example to a runner a running device the impression of running in the range of white to convey chem forest floor to harder paths or else the damping of the saddle depending on the bike to be able to vary from the underground. The softer the surface itself, the harder the suspension can be adjusted and vice versa. There are other uses for such devices for cushioning conceivable.

The invention is therefore based on the object, a verbes Serte device to cushion.

According to the invention, the stated task at a generic according device by at least one as an elastic roller trained damping element with ver over the circumference changeable spring constant solved. By over the scope the roller forming the elastic-damping spring element Variable spring constant can be used to turn the roller and corresponding alignment of an area with the desired Spring constant towards the element to be damped or the Be range of the roller on which the part to be damped rests, the Softness or hardness of movement damping changed and turned on be put. In extremely simple and therefore preferred Design this is achieved in that the roller ent long different radii from the inside out under tapered differently. In the area where the Roller has strong gripping shape, it has a low spring constant and thus a long spring and damping travel, while they are in the area where they only have weak wedge shape or almost rectangular in shape, a has a strong spring constant and a low damping path. The spring and damping properties of the rollers can be in other, also preferred embodiments also there can be achieved by that at completely radially symmetrical  trained roller the density of the material over the circumference is differently designed or that the roller is designed such that a harder core is eccentric the axis of rotation sits, surrounded by soft damping material whose circumference is concentric with the axis of rotation. Also here the spring and damping properties change depending on how strong the soft material is from its outer circumference lower core in the unloaded state in the respective rotation position is.

The elastic parts of the roller preferably consist of Foam plastic and in particular polyurethane foam.

Further embodiments of the invention provide that the Roller with an elastic seated on a holding part damping ring part is formed, in particular in front seen that the holding parts have radial flanges, between those areas of the elastic ring parts for posture the same are connected on the holding part. This can be done before be seen that the soft elastic ring member only is held on the holding part by the radial flanges, preferably radial on the end faces of the holding part flanges are provided. But it can instead or too additionally also in the central areas of the radial holding part flanges be formed. It can also be provided that holding and ring parts firmly, as by gluing or ver welding, are connected. The latter in particular if holding part and elastic ring part made of compatible, the means plastic materials that can be welded together stand, even if the holding part itself is rigid or rigid is formed.

In a specific embodiment, the invention provides direction in particular that at least one roller part  sits on a stationary shaft, while still Place at least two roller parts on the shaft.

Since the spring and Damping properties of the roller-shaped spring part of depend on the rotational position relative to the applied force and this position cannot therefore be changed involuntarily should, further preferred embodiments provide that the Shaft axially limited relative to the support parts holding it is displaceable and relative to the stationary support parts is fixable in at least certain rotational positions, where in particular the shaft with the rollers in any rotation positions can be determined and the shaft with the rollers through Friction in a desired rotational position can be determined.

Other preferred training courses are characterized in that on the one hand on a stationary part, on the other hand on one with the shaft rotatable part opposite Schei ben are at least rotatably attached and elastic against be pressed together and in particular by the fact that one against the wave and the disc sitting on it the stationary disc pressing spring is arranged.

Further advantages and features of the invention result from the claims and from the following description in which an embodiment of the invention with reference to the drawing is explained in detail. It shows:

Fig. 1 shows a preferred embodiment of the damping element according to the invention;

Figure 2 is an overall view of an inventive device for cushioning, partially cut. and

Fig. 3 shows an example of use of the device according to the invention.

The device according to the invention for cushioning, for example in free-standing treadmills, has as an essential element a movement damping element in the form of an elastic roller 1 . The roller 1 consists of a holding part 2 and a ring part 3 seated thereon. The holding part 2 is made of hard, rigid material, such as hard plastic or metal. It is designed as an annular bushing which has 4 radial flanges 6 on its end faces. The ring part 3 consists of resilient material, such as plastic foam, in particular polyurethane foam. It is designed in such a way that it tapers to different extents in the direction of different radii (indicated by lines 7 ) from the holding part 2 (ie from the inside). The roller 1 therefore has radial cuts with a different trapezoidal shape and different radial cuts from its central region to the outside. At least one radial section shows a rectangular section. In other words, this means that the circumferential wall 8 of the roller 1 has a thickness that changes over the circumference. This means that in different radial directions 7 the roller 1 has different spring forces, so that depending on the direction in which direction (corresponding to the radius of the roller) forces act, these are cushioned and damped to different extents.

The radial flanges 6 hold the ring part 3 because of displacement ben or axial movement relative to the holding part 2 . In addition, it can be provided that the holding part 2 and the ring part 3 are firmly connected to one another, for example by gluing or welding, if the holding part 2 also consists of a suitable plastic.

The damping element in the form of the roller 1 is in practice preferably in pairs on a common shaft 11 , on which the roller 1 by an axially parallel, eccentrically driven in half-bores of the roller 1 and the shaft 11 , frictionally seated pin 12 axially and against radial ver rotation relative to the shaft 11 is attached. With the shaft 11, an adjustment handle 13 is connected, for example, into an internal thread of the shaft 11 extends through stationary support 14 and is rotatably supported therein. Furthermore, in the preferred embodiment of Fig. 2, the two Wal zen 1 are arranged at such a distance on the shaft 11 that this can perform a small limited axial movement relative to the carriers 14 . A disk 16 is fastened to one of the carriers 14 and is adjacent to a disk 17 which is fastened in a rotationally and axially fixed manner on the shaft 11 . The disks ben 16, 17 have an increased coefficient of friction on their facing end faces. On the shaft 11 there is also a spring 18 , in the illustrated embodiment, a compression spring, on the one hand by an axially fixed to the shaft abutment 19 , such as a disc, which is held for example by a split pin 21 , and on the other hand by a side wall facing it 22 of the other carrier 14 limited. As a result, the spring 18 presses the shaft 11 and the disk 17 seated on it against the sta tionary disk 16 , so that a high frictional engagement is achieved, which prevents the shaft 11 and with it the rollers 1 from rotating in this rest position. On the other hand, the shaft 11 can be pressed via the handle part 13 against the action of the spring 18 , so that the Schei be 17 detaches from the stationary disc 16 , the movement being limited by the fact that in the embodiment shown, the roller 1 with their holding part 2 comes to rest on the adjacent carrier 14 . In this Verstellposi tion can also be rotated by means of the handle 13, the shaft 11 and with this, the rollers 1 , whereby de ren spring and damping effect in different (Radial) -Rich lines can be adjusted. A practical embodiment example for the use of the device according to the invention for cushioning and movement damping is shown in Fig. 3 Darge. This is a stationary or standing treadmill 31 . The running device 31 has two deflection rollers 33 mounted on a frame part 32 , around which an endless treadmill 34 is guided. The upper run 36 of the treadmill 34 is supported by a support board referred to as a sanding board 37 . The sanding board 37 is pivotally mounted at 38 on the frame part 32 . Furthermore, a tensioning roller 41 for the endless belt 34 is provided in the embodiment shown, for example, on the running board 37 via an attachment part 39 . The treadmill 33 is driven via at least one of the rollers 33 , 41 in the desired manner.

At a distance from the articulation point 38 of the treadmill 34 on the frame 32 , the device according to the invention for cushioning (at 42 ) is arranged, the stationary support 14 of the embodiment of FIG. 2 being parts of the frame 32 . The sanding board 37 lies in an area 43 , which is also sufficiently far from the pivot point 38 , on the rollers 1 of the cushioning device according to the invention. If an athlete now runs on the upper run 36 of the revolving treadmill 34, running essentially on the spot (relative to the frame 32 ), he always exercises changing forces in the area and in the direction of the thickly drawn arrow 46 when he places his feet on the treadmill 34 and the grinding board 37 . These placement forces are transmitted through the grinding board 37 to the elastic-damping roller 1 , which absorbs them and dampens them in a more or less strong manner.

The strength of the movement damping can be changed by rotating the rollers 1 in the manner described with reference to FIG. 2. If the most tapered area of the roller 1 is directed upwards to the sanding or running board 37 , then this is the softest part which can be pressed in on the white test and thus enables the softest running, which allows running on soft forest floor comes close. If, on the other hand, the area of the roller 1 , in whose loading area it has a substantially rectangular cross-section (lower area A in FIG. 2), is directed upwards towards the grinding board 37 , the roller 1 is pressed in significantly less in this area , has a small spring and damping path, so that here is a run as if on a harder path. The hardness of the background and the yielding of the grinding board 37 can be adjusted in this way by rotating the device according to the invention or the rollers 1 . It should be noted that the Wal zenmaterial of the ring member 3 is such that even in the region of the strongest wedge shape at maximum forces 36, the roller material is not fully pressed down to the hard core of the holding part 2 , so that a hard hit on is avoided in any case.

Claims (14)

1. Device for cushioning, especially for sports equipment, such as free-standing treadmills or the like by at least one designed as an elastic roller Damping element with variable over the circumference Spring constant. 2. Apparatus according to claim 1, characterized in that the roller is tapered to different extents along different radii from the inside to the outside. 3. Apparatus according to claim 1 or 2, characterized in that the roller ( 1 ) with an on a holding part ( 2 ) seated elastically damping ring part ( 3 ) is formed. 4. Device according to one of claims 1 to 3, characterized in that elastic parts ( 1 , 3 ) consist of foam plastic. 5. The device according to claim 4, characterized in that the foam plastic is polyurethane foam.   6. Device according to one of claims 3 to 5, characterized in that the holding parts ( 2 ) have radial flanges ( 6 ), between which areas of the elastic ring parts ( 3 ) engage for holding the same on the holding part. 7. Device according to one of claims 3 to 6, characterized in that holding and ring parts ( 2 , 3 ) firmly, such as by gluing or welding, are verbun to each other. 8. Device according to one of the preceding claims, characterized in that at least one roller part ( 1 ) rests on a stationary shaft ( 11 ). 9. The device according to claim 8, characterized in that at least two roller parts ( 1 ) sit on the shaft ( 11 ). 10. The apparatus of claim 8 or 9, characterized net gekennzeich that the shaft (11) share relatively holding to it support (14) is limited axially movable and the stationary support parts (14) in at least certain rotational positions is rela tively fixed. 11. The device according to claim 10, characterized in that the shaft ( 11 ) with the rollers ( 1 ) can be fixed in any rotational positions. 12. The apparatus of claim 10 or 11, characterized in that the shaft ( 11 ) with the rollers ( 1 ) can be fixed by friction in a desired rotational position. 13. The apparatus according to claim 12, characterized in that on the one hand on a stationary part ( 14 ), on the other hand on a part rotatable with the shaft ( 11 ) each opposing disks ( 16 , 17 ) are at least rotatably attached and elastically pressed against each other. 14. The apparatus according to claim 13, characterized in that on the shaft ( 11 ) this and the disc ( 17 ) sitting on it against the stationary disc ( 16 ) pressing spring ( 18 ) is arranged.