DE19824445B4 - elastomeric bearings - Google Patents

Abstract

elastomeric bearings to the flat support of building parts, building constructions or the like in the form of a made of rubber or rubber-like plastic existing, flexible plate, with on both sides of the plate at a distance parallel to each other, in cross section substantially trapezoidal supporting ribs are arranged, characterized in that the support ribs (10) on one Side (6) of the plate (4) to the support ribs (12) on the other Side (8) of the plate (4) perpendicular to the plane of the plate substantially opposite are arranged.

Description

The The invention relates to an elastomeric bearing in the preamble of the claim 1 type for surface support of building parts, building constructions or the like.

An elastomeric bearing of the type in question is by DE 23 18 649 C3 known. The known elastomeric bearing has the form of a rubber or rubber-like plastic existing, flexible plate, being arranged on both sides of the plate at a distance parallel to each other, in cross-section substantially trapezoidal support ribs. In use, the elastomeric bearing is supported by the support ribs arranged on one side of the plate on a component to be supported, while it is supported on another component or a support with the support ribs arranged on the other side of the plate. In the known elastomeric bearing, the support ribs on one side of the plate are offset from the support ribs on the other side of the plate.

On this way results in an over the entire load range of the elastomer bearing progressive course the spring characteristic.

By DE 33 06 793 A1 an elastomeric bearing in the form of a rubber or rubber-like plastic existing, flexible plate is known, which has on both sides of the plate at a distance mutually parallel support ribs. The support ribs have a substantially roof-shaped cross-section, wherein in each case a support rib on one side of the plate with an opposite support rib on the other side of the plate defines a cavity extending in the longitudinal direction of the support ribs. In this way, a spring characteristic curve is obtained, which after an initially progressive increase into a region with degressive rise and then goes back to a region with progressive increase.

The Object of the present invention is an elastomeric bearing of the type concerned, whose spring characteristic is more favorable is designed.

These The object is achieved by the teaching defined in claim 1.

The inventive teaching sees an elastomeric bearing with in cross-section substantially trapezoidal support ribs before, where the support ribs on one side of the plate to the support ribs on the other side the plate substantially perpendicular to the plane of the plate substantially opposite are arranged so that the support ribs on one side with the support ribs on the other side are essentially aligned. In this way results in a spring characteristic, which runs progressively in the lower load range. In This region of the spring characteristic allows the elastomer bearing according to the invention effective shielding of vibrations as well as effective insulation against sound. By selecting a corresponding operating point in the progressive part of the spring characteristic is the load / displacement curve at Load and thus the spring characteristic of the elastomer bearing selectable in the range of this operating point.

in the Connection to its progressive part shows the spring characteristic of the elastomeric bearing according to the invention a part with a substantially straight-line load / distance curve and thus with a nearly constant modulus of elasticity.

On This way is the spring characteristic of the inventions to the invention elastomeric bearing with regard to the shielding of vibrations and the insulation against Sound cheap designed and adaptable to different load conditions.

One Another advantage of the elastomeric bearing according to the invention consists in that it a repeal of the burden of the camp transverse pulling forces allows.

The Elastomeric bearing according to the invention is easy and inexpensive can be produced and robust in construction as well as versatile.

By appropriate choice of the cross section of the support ribs and possibly a lateral Distance of support ribs to each other is the spring characteristic of the elastomeric bearing according to the invention in wide limits selectable and adaptable to the respective load conditions.

The Elastomeric bearing according to the invention is applicable in all areas where a damping of Vibrations is required, for example when supporting Building parts, building structures or the like or even at support of machines.

In principle, the support ribs may have a cross-section which has substantially the shape of a non-isosceles trapezoid. According to a further development, however, the support ribs have a cross-section which essentially has the shape of an isosceles trapezium. In this way, the support ribs are symmetrical in their cross-section to their longitudinal center plane, which is favorable to the spring characteristic of Elastomerla gers.

Basically, each can the side surfaces a support ribs be inclined away from each other, so that the narrow transverse side of the trapezoidal cross-section the support ribs facing the plate. A development of the teaching of the invention however, provides that each the side surfaces of a supporting rib aufein anderzu are inclined. In this way, the longer transverse side the cross section of the substantially trapezoidal support ribs facing the plate. In this way, there is a further favorable effect on the spring characteristic of the Elastomeric bearing.

The support ribs on one side of the plate can in principle have a cross-section which is the cross section of the support ribs on the other side of the plate, for example one larger or a smaller cross section. An advantageous embodiment however, provides that the support ribs on one side of the plate essentially the same cross-section have like the support ribs on the other side of the plate. Through this education is the Achieving a characteristic curve with a progressive part in the lower load range and a substantially rectilinear Part further promoted in the upper load range.

shape and size of the elastomeric bearing according to the invention are selectable within wide limits. in this connection For example, the elastomeric bearing may be integrally formed and of a single rubber or rubber-like plastic Be formed plate. A development of the teaching of the invention However, that provides that Elastomeric bearing of at least two layers stacked together connectable parts. By appropriate training of when using the elastomeric bearing superimposed parts whose spring characteristic is selectable within wide limits.

A particularly expedient development of aforementioned embodiment Provides that Elastomeric bearing of a plate-shaped first part and a disc-shaped second part is that on one side of the first part and the second part of the support ribs are formed and that the first part and the second part respectively on their support ribs abge turned side means for at least in one direction positive connection of the first part having the second part, such that when compound of the first part with the second part, the support ribs formed on the first part to the support ribs formed on the second part perpendicular to the plane of the plate opposite are arranged. In this way, the elastomeric bearing is in two parts educated.

in this connection the first part may consist of the same material as the second part Part, like this one embodiment provides. The spring characteristic of a stratification of the first and the second part existing elastomeric bearing is then substantially depends on the cross sections of the two parts.

A other development of the embodiment with the first and the second part provides that the first Part at least partially made of a material whose material properties from the material properties of the material of the second part differ. In this way, the spring characteristic of a stratification of the first and second parts formed elastomeric bearing by choice different materials for the first and the second part further influenced.

Especially can in the aforementioned embodiment the first part consists at least partially of a material, its shore hardness of the shore hardness of the material of the second part deviates, as is an embodiment provides.

According to one another development of the embodiment with the first and the second part, the means for positive engagement spaced apart parallel connecting ribs on between which recesses are formed, whose cross section is substantially complementary to the cross section of the connecting ribs. On this is the case when the first part is stacked with the second one Part transverse to the longitudinal direction the connecting ribs a secure positive connection and thus a secure connection of the first achieved with the second part.

A Another embodiment provides that the support ribs each one preferably strip-shaped bearing surface for a to be supported structural part or the like, in which the side surfaces of the support ribs merge, and in that support surfaces in each case at least one in the longitudinal direction of the support ribs essentially about their entire extent formed in this direction extending recess is. In this way, the support ribs with bearing surfaces provided in the unloaded bearing or preload in cross section at least partially concave. This is the adaptability the elastomeric bearing according to the invention on components with smooth or uneven, for example, rough surfaces in the Preload range improved.

A development of the embodiment with the recesses provides that the recess extends in the transverse direction of the support rib substantially over the entire extent of the support rib in this direction. In this way, the bearing surface formed in the unloaded state of the elastomeric bearing completely concave, so that the adaptability of the bearing is further improved in the preload range.

A Other development of the embodiments with the wells provides that the recess in cross section essentially arcuate, in particular is formed as part of a circular arc. In this embodiment a component to be supported with the elastomeric bearing gets stronger when it becomes stronger Load of the bearing in the preload range with a gradually increasing Part of the bearing surfaces in contact. As a result, the course of the spring characteristic of the elastomer bearing particularly favorable in the preload range designed.

The However, depression can also be substantially triangular in cross-section or be formed polygonal, as provided for by another development.

According to one another development are parallel between each of the support ribs these running spaces formed, whose cross section to the cross section of the support ribs essentially complementary is. Due to the complementary to the support ribs and thus also results in essentially trapezoidal spaces When loading the elastomer bearing uniform volume displacement of the Material of the supporting ribs in the interstices with little lateral bulge the individual support ribs. This leads to a reduction in area spread of the elastomeric bearing under load.

If no such gaps are provided the support ribs transverse to its longitudinal direction be arranged directly next to each other. The support ribs can but also arranged in this direction with distance from each other be, wherein by selecting the lateral distance of the support ribs the spring characteristic of the elastomeric bearing is further influenced. Here, the plate between each two support ribs these support ribs with each other have connecting webs, as one embodiment provides. At this embodiment participate in stronger expectant load the areas formed by the webs of the plate at the power takeover.

The Elastomeric bearing according to the invention can basically be reinforced. An embodiment sees However, before that Elastomeric bearing is unreinforced.

The The invention is explained in more detail below with reference to the attached drawing, in FIG the embodiments are shown.

It shows:

1 3 shows a schematic perspective view of a partial section of a first exemplary embodiment of an elastomer bearing in the form of a plate according to the invention,

2 in schematic representation and on a larger scale a view from the front of the elastomeric bearing according to 2 .

3 in a similar representation as 1 A second embodiment of the elastomeric bearing according to the invention,

4 a schematic front view of the elastomeric bearing according to 3 .

5 in the same representation as 4 a by layering two elastomeric bearings according to 3 formed elastomeric bearing,

6 in the same representation as 4 a plate-shaped first part of a third embodiment of the elastomeric bearing according to the invention,

7 in the same representation as 4 a by stratification of the first part according to 6 formed with a plate-shaped second part third embodiment of the elastomeric bearing according to the invention and

8th in the same representation as 5 a layering of the elastomeric bearing according to 4 with the plate-shaped first part according to 6 ,

In The figures of the drawing are the same or corresponding parts provided with the same reference numerals.

In 1 is a partial section of an elastomer bearing 2 in the form of a rubber plate 4 pictured on their top 6 and on their bottom 8th each parallel to each other supporting ribs 10 . 12 having. The support ribs 10 . 12 each have the same cross section in the form of substantially an isosceles trapezium in this embodiment. The longer transverse side of the trapezoid is here the plate 4 facing.

The support ribs 10 on the top 6 the plate 4 are to the support ribs 12 on the bottom 8th the plate 4 Placed to the plate plane substantially perpendicular opposite, so that each support rib 10 on the top 6 the plate 4 a support rib 12 on the bottom 8th the plate 4 is assigned, with which it is substantially aligned.

On her each of the plate 4 opposite side, ie on the shorter transverse side of the trapezoid, have the support ribs 10 . 12 each one in this embodiment strip-shaped support surface 14 on, being in the bearing surfaces 14 each one in cross-section arcuate recess 16 is formed, which extends over the entire longitudinal extent and over the entire transverse extent of the support ribs 10 . 12 extends. Due to the depressions 16 are the bearing surfaces 14 of the elastomeric bearing 2 in the unloaded state of the elastomer bearing 2 who in 2 is shown, and concave in the preload.

The plate 4 has webs 18 on, through which the support ribs 10 . 12 are connected to one another with a lateral distance, wherein in each case between two laterally spaced support ribs 10 . 12 on both sides of the plate a gap 20 is formed, whose cross section to the cross section of the support ribs 10 . 12 is substantially complementary, which is thus formed substantially trapezoidal.

Under load in the preload area of the elastomer bearing 2 with a structural part to be supported or the like becomes the material of the elastomeric bearing 2 first in the region of the concave in cross section bearing surfaces 14 compressed until the structural part to be supported after appropriate deformation of the elastomer bearing 2 essentially flat on the bearing surfaces 14 rests. In this way, an adaptation to be supported components with smooth or with uneven surfaces is achieved in the preload.

Upon further loading of the elastomer bearing 2 dampens this according to its spring characteristic in the load range vibrations of the supported structure part. Due to the training of in the 1 and 2 shown elastomeric bearing whose characteristic runs progressively in the lower load range. In this lower load range effective shielding of vibrations, especially in the impact sound area, achieved. The progressively extending part of the spring characteristic is in the upper load range in a characteristic part with a substantially straight-line load / displacement curve, in which the elastomeric bearing 2 thus has a nearly constant modulus of elasticity.

In 3 and 4 is a second embodiment of the elastomeric bearing according to the invention 2 represented, which differs from the embodiment according to 1 differs in that the wells 16 in each case only over a part of the transverse extent of the bearing surfaces 14 extend, such that the bearing surfaces 14 only partially concave.

5 shows a layer of two elastomeric bearings 2 . 2 ' according to 3 and 4 , It can be seen that the support ribs 10 . 12 to the interstices 20 are formed substantially complementary, such that when layering two elastomeric bearings 2 . 2 ' transverse to the longitudinal direction of the support ribs 10 . 12 a positive connection is achieved.

In 6 is a rubber-made, plate-shaped first part 22 a third embodiment of the elastomeric bearing according to the invention 2 shown. The first part 22 points to its top 6 the support ribs 10 on, while it on its underside parallel to each other, in cross-section substantially triangular connecting ribs 24 between which to the connecting ribs 24 parallel recesses 26 are formed, whose cross-section to the cross section of the connecting ribs 24 is essentially complementary.

In 7 is a stratification of the first part 22 with a second part 28 shown on his when using the elastomeric bearing 2 the first part 22 facing side with connecting ribs 30 and recesses 32 is attached to the connecting ribs 24 or to the recesses 26 of the first part 22 are formed accordingly. Out 7 It can be seen that by means of the connecting ribs 24 . 28 and the recesses 26 . 30 between the two elastomeric bearings 2 . 2 ' a positive engagement transverse to the longitudinal direction of the connecting ribs 24 . 28 achieved.

8th shows a layering of the elastomeric bearing 2 according to 4 with the first part 22 according to 6 ,

Claims (16)

Elastomeric bearing for planar support of structural parts, building structures or the like in the form of a rubber or rubber-like plastic existing, flexible plate, being arranged on both sides of the plate at a distance parallel to each other, in cross-section substantially trapezoidal support ribs, characterized in that the support ribs ( 10 ) on the one hand ( 6 ) of the plate ( 4 ) to the support ribs ( 12 ) on the other hand ( 8th ) of the plate ( 4 ) are arranged perpendicular to the plane of the plate substantially opposite one another. Elastomeric bearing according to claim 1, characterized in that the support ribs ( 10 . 12 ) have a cross-section substantially in the shape of an isosceles trapezium. Elastomer bearing according to claim 1 or 2, characterized in that in each case the side surfaces a support rib ( 10 . 12 ) are inclined towards each other. Elastomer bearing according to claim 1, 2 or 3, characterized in that the support ribs ( 10 ) on the one hand ( 6 ) of the plate ( 4 ) have substantially the same cross-section as the support ribs ( 12 ) on the other hand ( 8th ) of the plate ( 4 ). Elastomeric bearing according to one of the preceding claims, characterized in that the elastomeric bearing ( 2 ) consists of at least two stacked parts connected to one another. Elastomeric bearing according to one of the preceding claims, characterized in that the elastomeric bearing ( 2 ) from a plate-shaped first part ( 22 ) and a plate-shaped second part ( 28 ) that on each side of the first part ( 22 ) and the second part ( 28 ) the support ribs ( 10 . 12 ) and that the first part ( 22 ) and the second part ( 28 ) each on their support ribs ( 10 . 12 ) facing away from means for at least in one direction positive connection of the first part ( 22 ) with the second part ( 28 ), such that when the first part is connected ( 22 ) with the second part ( 28 ) in the first part ( 22 ) formed support ribs ( 10 ) to those at the second part ( 28 ) formed support ribs ( 12 ) are arranged perpendicular to the plane of the plate opposite. Elastomer bearing according to claim 6, characterized in that the first part ( 22 ) consists of the same material as the second part ( 28 ). Elastomer bearing according to claim 6, characterized in that the first part ( 22 ) consists at least partially of a material whose material properties are dependent on the material properties of the material of the second part ( 28 ) differ. Elastomer bearing according to claim 8, characterized in that the first part ( 22 ) consists at least partially of a material whose Shore hardness of the Shore hardness of the material of the second part ( 28 ) deviates. Elastomer bearing according to one of claims 6 to 9, characterized in that the means for the positive engagement in spaced mutually parallel connecting ribs ( 24 . 30 ), between each of which recesses ( 26 . 32 ) are formed whose cross-section to the cross section of the connecting ribs ( 24 . 30 ) is substantially complementary. Elastomer bearing according to one of the preceding claims, characterized in that the support ribs ( 10 . 12 ) each have a preferably strip-shaped bearing surface ( 14 ) for a structural part to be supported or the like into which the side surfaces of the support rib ( 10 . 12 ), and that in the bearing surfaces ( 14 ) at least one in the longitudinal direction of the support ribs ( 10 . 12 ) substantially over its entire extent in this direction extending depression ( 16 ) is formed. Elastomer bearing according to claim 11, characterized in that the depression ( 16 ) in the transverse direction of the support rib ( 10 . 12 ) substantially over the entire extent of the support rib ( 10 . 12 ) extends in this direction. Elastomeric bearing according to claim 11 or 12, characterized in that the depression ( 16 ) is formed in cross-section substantially arcuate, in particular as part of a circular arc. Elastomeric bearing according to one of claims 11, 12 or 13, characterized in that the depression ( 16 ) is formed in cross-section substantially triangular or polygonal. Elastomer bearing according to one of the preceding claims, characterized in that between the support ribs ( 10 . 12 ) in each case parallel to these extending spaces ( 20 ) are formed whose cross-section to the cross section of the support ribs ( 10 . 12 ) is substantially complementary. Elastomeric bearing according to one of the preceding claims, characterized in that the elastomeric bearing ( 2 ) is unreinforced.