DE3718965A1 - Support - Google Patents

Abstract

The support consisting of a rubber bearing block with integrally moulded support studs on at least one of its support surfaces is suitable in particular for bearing dynamically applied loads and/or dynamically applied thrusts and, under these conditions, has a long lifetime in that the support studs project from depressions which are arranged in the support surface of the bearing block made of the elastomer such that the support studs can deform without hindrance into the depressions or hollow spaces surrounding them.

Description

The invention relates to a support in the preamble of claim 1 described Art.

known from practice supports from a rubber-elastic Material made from a bearing block or a flat Stock material exist and on at least one of their edition surfaces, be it the load-bearing surface or the contact surface resting on the abutment with Support knobs are provided, which are the most varied Serve purposes, mostly for the purpose of reduction the risk of sliding and slipping, for example when starting surfaces, but also with statically loaded surfaces, but dynamically loaded support, for example Loading areas of transport devices.  

The problem with these studded supports is the high one Stress on the support knobs. Already at exactly vertical load, i.e. when loaded in the direction of Such pimples become normal to the contact surface the high pressure acting on them with heavier loads so heavily used that the accompanying strong Sidewall deformation to rapidly reduce the Elasticity of the knobs and tearing of the knobs leads. As a rule also act on the knobs the shear force component, particularly in the transverse to Vibrations acting under load become a strong ver wear the knobs also in the sense of a tendency to ab tear the nubs observed from the pad. This one Influences can be reduced by reducing the height and encountered an enlargement of the base area of the knobs be, however, the desired effectiveness and the desired effect of the knobs reduced in the mass, in which these measures to improve resilience the knobs can be realized. Especially where with the knobs also an acoustic decoupling between open load and abutment to be reached are just that Measures undesirable that improve the mechani resilience of the knobs serve as they are the same timely the desired acoustic decoupling ver worse.

The invention is based on this prior art based on the task, a support of the aforementioned To create kind with knobbed contact surfaces, its Auf layered knobs a high degree of mechanical resilience and have mechanical resistance especially in terms of improved cross-loading ness without losing its elasticity and its good acoustic decoupling properties.  

To solve this problem are the one in a support the type mentioned in the characterizing part of the An mentioned 1 realized characteristics.

The essence of the invention is therefore that the edition do not bump directly on the bearing surface of the bearing blocks or the corresponding rubber mat are brought, but are arranged in depressions that are formed on this contact surface, and from this out beyond the surface of the contact surface protrude. The volume is, more precisely not filled in by the pimples, but the non-binding, briefly free volume of this depression, from the edition protrudes, at least so big that it at least essentially equal to the volume of the surface of the support surface protruding part of the support knob is. This free volume is preferably the support dimple surrounding depression about two to ten times greater than the volume of the over the contact surface of the Bearing block protruding part of the support knob. By These dimensions ensure that Bela at least essentially free the support knobs and with a comparatively low voltage load in can deform these recesses, be it through Material compression, be it through bending deformation. Ins the overall result is a reduction in tension load on the pimples and thus a significant Extension of the service life of these knobs achieved. About this can make the support knobs softer and / or less ren cross sections are formed so that a Improvement of the acoustic decoupling between ballast and abutment is reached.

It is immediately clear from the above that that the geometric design of the support knobs and of the depressions from which these protrude, essentially  at least as long as their purpose is not critical to absorb the load under the given parameters of the application is met. So the edition pimples, for example, conical, pyramidal or as bridges, both as straight lines Webs as well as webs running in curved lines be trained as long as they have one under the top surface of the base lying from a ver protrude well, their total free volume at least least equal to the volume of the total over the edition area protruding part of the support knob.

It is still evident that it is aimed for In principle, tension reduction in the pimples it is also irrelevant whether the wells in the edition surfaces of the bearing blocks in self-contained contours or have contours open to the side.

It is also relatively unwich for the essence of the invention tig, in what way this out of the wells protruding support knobs on the surface of the bearing block are distributed. This distribution will change in individual cases practically exclusively according to the requirements of the contractor determine if necessary, as long as the requirement of the depression surrounding each knob remains.

After all, it also belongs largely in the area the parameters specified by the application and not by the aim of realizing the invention given parameters, whether the bearing block and the knobs out one and the same elastomer, or whether the knobs made of a harder or softer elastomer consist. Techniques for making such homogeneous and integral molded elastomer body in which the elastomer  different in different areas of the molded body Liche hardness, the expert to a large extent choice available.

According to one embodiment of the invention, the bearing block itself preferably interspersed with hollow channels that one in the bearing block itself to a softer spring behavior lead, but also mechanical strength Do not weaken the bearing block.

The support according to the invention can in principle both for recording static as well as for recording dynamic Loads serve, whereby naturally with the bearing according to The achievable advantages only fully make dynamic stress noticeable.

Both with static and with dynamic stress Chung the support according to the invention, the elastic cal load capacity of the support knobs preferably so that the payload to be cushioned or that of Bearing load to be borne under static storage conditions rests exclusively on the bearing crowns, i.e. without the under these conditions, as it were, as a stop surface touching the supporting surface of the bearing block itself.

The dynamic spring problems associated with the support the invention can be solved, can in principle differ be of the purest nature. So it may be in one case act as stationary storage of a mass or payload, which are either arbitrary even with vibrational energy Distribution is acted upon or which is itself dormant is, however, the support, usually over the abutment, is subjected to vibrations. Especially suitable the bearing according to the invention for cushioning stationary Loads if there is a between the support and the load  relative transverse mobility is required. On the other hand the area of dynamic cushioning closes But loads also the case of cushioning stops one, i.e. the case in which one is at least essentially freely vibrating mass in its vibration path through a Is limited. The pads can be in in this case either for the entire cushioning or just to cushion the dyna serve mixed accelerated mass, then the bearing block either only the overload cushioning or more normal the actual main cushioning of the dynamic Mass at the stop serves. In both cases, is opposite a common rubber buffer suspension on stops a significant reduction in noise, so an acousti he decoupling and damping at such attacks enough.

The invention is based on execution examples in connection with the drawings explained. Show it:

Figure 1 shows a first embodiment of the support in cross section. and

Fig. 2 shows a second embodiment of the support.

A first exemplary embodiment of the invention, which is shown in FIG. 1, shows a cross section through a support in a sectional plane lying in the normal to the support surface 1 of a bearing block 2 . The elastic bearing block 2, which is made of non-foamed solid material, is crossed with channels 3 which are open on both sides in order to produce a softer course of the spring characteristic. In the support surface 1 annular recesses 4 are ausgebil det, which merges with rounded shoulders 5 in the support surface 1 of the bearing block 2 . From the recess 4 , more precisely from its center, an at least substantially conical support knob 6 protrudes, in such a way that its rounded crown 7 lies above the contact surface 1 of the bearing block 2 , and so high above that one on the crown 7 stored load, which is not shown in the figure, does not touch the bearing surface 1 of the Ela stomerblocks 2 in static storage.

In the embodiment not shown to scale in FIG. 1, the total volume of the annular recess 4 is approximately eight times as large as the volume of the part 8 of the support knob 6 , which lies above the plane defined by the support surface 1 . This ensures that the material of the support knob 6 deformed under load is not pressed and squeezed under high stresses, but deformed under a more or less freely established equilibrium between compression and deformation into the annular space 4 , or deflect into this annular space can.

In the configuration shown in Fig. 1 and under the condition that the support knob 6 and the bearing block 2 are made of the same material, the static spring characteristic of this support shows an initially very soft, ie flat linear increase, which then with a relative short progressive transition into a steep linear branch, namely the initial characteristic of the bearing block 2 .

Another embodiment of the invention is shown in FIG. 2. The section shown in Fig. 2 through a support corresponds to the section shown in Fig. 1, wherein the same reference characters are used for functionally identical parts.

In contrast to the game Ausführungsbei shown in Fig. 1, a longitudinal section through a strip material is shown in Fig. 2, in which the support knobs 6 'are designed as webs with a trapezoidal cross-sectional profile. The web-shaped support knobs 6 'extend continuously from one longitudinal edge to the opposite of the longitudinal edge of the strip material. The crown 7 'of the pimples 6 ' is in contrast to the ge shown in Fig. 1 embodiment th flat. Incidentally, the web-shaped support studs 6 'protrude from a recess 4 , which in the case of the game shown in FIG. 2 consists of two partial depressions 4 ', 4 '', each of which is open on both sides from a band edge to the opposite of the band edge of the band-shaped Bearing block, better bearing strand, are extended. The profile of the recess 4 is also trapezoidal, that is to say without the curves shown in FIG. 1. In its operation and mode of operation, the embodiment shown in FIG. 2 corresponds to the behavior of the support according to the invention described above in connection with FIG. 1.

While the embodiment shown in FIG. 1 is particularly suitable for absorbing lifting loads dynamically and softly, for example for cushioning impacts, the embodiment shown in FIG. 2 is particularly suitable due to its flattened flat support crown 7 ′ for stationary storage of loads. This statement is not to be misunderstood as meaning that this would be equivalent to the static storage of such masses. Much more is to be understood under stationary storage, a storage situation in which the load does not, or at least practically not, lift off from the bearing surface on the crowns 7 'of the support knobs 6 ' even under extreme conditions. Within this limit condition, however, the bearing can definitely be a dynamic bearing, that is to say that the load and bearing or load and abutment oscillate relative to one another with the interposition of the bearing, both in the transverse direction and in the direction of the normal to the bearing surface 1 of the bearing here band-shaped bearing blocks 2 because precisely in the light and unhindered deformability speed of the support knobs 6 'into the recess 4 ', 4 '' into a long service life of the support according to the inven tion even under dynamic load, especially under steady-state dynamic Strain.

Claims (9)

1. Support made of a rubber-elastic material for static and / or dynamic loading, consisting of a bearing block with molded support knobs on at least one of its support surfaces, characterized by depressions ( 4 ; 4 ', 4 '') in the support surface ( 1 ), from which projecting the support studs (6) on the support surface (1) addition, and a free volume have, at least equal to the volume of is about to bearing surface (1) the projecting part (8) of the support knob (6). 2. Support according to claim 1, characterized in that the free volume of the depressions ( 4 ) is two to ten times larger than the volume of the part ( 8 ) of the support projecting over the support surface ( 1 ) of the support ( 6 ). 3. Support according to one of claims 1 or 2, characterized in that the recess ( 4 ) surrounds the support knob ( 6 ) in the form of a closed circular ring ( 4 ) or oval ring. 4. Support according to claim 3, characterized in that the support knob ( 6 ) has a circular radial cross-sectional contour. 5. Support according to one of claims 1 to 3, characterized in that the support knob is designed as a web ( 6 '), which is accompanied on both longitudinal sides by a complementary partial recess ( 4 ', 4 ''), the two partial recesses (4 ', 4' ') are not connected to each other and the sum of the two free part volume is the total volume of the free part consisting of the two recesses (4', 4 ''), recess (4). 6. Support according to claim 5, characterized in that the ends of the partial recesses running with the web-shaped support knob are open towards the side wall surfaces of the bearing block ( 2 ). 7. Support according to one of claims 1 to 6, characterized by hollow channels ( 3 ) which pass through the bearing block ( 2 ). 8. Bearing according to one of claims 1 to 7, characterized in that the hardness of the elastic pad material and the elastic bearing block material and the cross section and the axial profile of the bearing studs ( 6 ) and their arrangement and distribution on the support surface ( 1 ) of the bearing block ( 2 ) are so coordinated that one another on the crowns ( 7 ; 7 ') of the support knobs ( 6; 6' ) statically resting load does not touch the bearing surface ( 1 ) of the bearing block ( 2 ). 9. Use of the support according to one of claims 1 up to 8 for storing and / or collecting more dynamic Loads, especially for pre-cushioning rubber buffered attacks, especially with additional Cross mobility of the load relative to the support.