DE102019000694A1 - Elastic bearing - Google Patents

Abstract

The present invention relates to an elastic bearing (10), in particular for suspending a load, having: at least one elastic body (12), the at least two bending beams (14, 16, 18, 20) and at least two receiving openings (26, 28) for receiving coupling elements, at least one of the at least two bending beams (14, 16, 18, 20) being connected to at least one articulation section (22, 24), and at least one reinforcement (30) which is inserted into the at least one elastic body (12 ), the at least one reinforcement (30) having at least two reinforcement sections (32, 24), the at least two reinforcement sections from one of the at least two receiving openings (26, 28) to the other of the at least two receiving openings (26, 28) ) run, with at least one of the reinforcement sections (32, 34) in at least one of the at least two bending beams (14, 16, 18, 20) and in the connecting beam (14, 16, 18, 20) connected to this bending beam nden joint section (22, 24), each of the at least two reinforcement sections (32, 34) having at least one deflection point (36, 38, 40, 42) at which it changes its direction, wherein at least one of the at least two reinforcement sections (32 , 34) at the at least one deflection point (36, 38, 40, 42) is curved in the opposite direction to its curvature at the joint section (22, 24) in which it extends.

Description

The present invention relates to an elastic bearing for a load. The elastic bearing can be used, for example, for attaching an exhaust system to a body of a vehicle. However, the elastic bearing can also be used in other areas for storing or fastening loads to devices or units. The elastic bearing can be coupled via coupling elements such as bolts or similar elements to the devices or units to be connected via the bearing.

From the prior art, for example, in DE 100 13 121 C1 disclosed suspension device known. The suspension device has two sockets that can be inserted into bolts. Furthermore, the receiving device comprises two joint zones, between which a load beam extends. The load beam is connected to two support legs, which in turn are connected to each other. The support legs and the load beam are made in one piece from a rubber. An insert is embedded in the support legs and the load beam.

It is an object of the present invention to provide an elastic bearing that is inexpensive to manufacture and at the same time more wear-resistant.

This object is achieved with an elastic bearing with the features of claim 1.

Further embodiments result from the dependent claims.

• wenigstens einen elastischen Körper, der wenigstens zwei Biegebalken und wenigstens zwei Aufnahmeöffnungen zur Aufnahme von Kopplungselementen aufweist, wobei wenigstens einer der wenigstens zwei Biegebalken mit wenigstens einem Gelenkabschnitt verbunden ist, und
• wenigstens einer Armierung, die in den wenigstens einen elastischen Körper eingebettet ist, wobei die wenigstens eine Armierung wenigstens zwei Armierungsabschnitte aufweist, wobei die wenigstens zwei Armierungsabschnitte von einer der wenigstens zwei Aufnahmeöffnungen zu der jeweils anderen der wenigstens zwei Aufnahmeöffnungen verlaufen, wobei sich zumindest einer der Armierungsabschnitte zumindest in einem der wenigstens zwei Biegebalken und in dem mit diesem Biegebalken verbundenen Gelenkabschnitt erstreckt, wobei jeder der wenigstens zwei Armierungsabschnitte wenigstens eine Umlenkstelle aufweist, an der er seine Richtung ändert, wobei wenigstens einer der wenigstens zwei Armierungsabschnitte an der wenigstens einen Umlenkstelle gegenläufig zu seiner Krümmung an dem Gelenkabschnitt gekrümmt ist, in dem er sich erstreckt.

The elastic bearing according to the invention comprises

• at least one elastic body, which has at least two bending beams and at least two receiving openings for receiving coupling elements, at least one of the at least two bending beams being connected to at least one joint section, and
• at least one reinforcement, which is embedded in the at least one elastic body, the at least one reinforcement having at least two reinforcement sections, the at least two reinforcement sections running from one of the at least two receiving openings to the other of the at least two receiving openings, at least one of the Reinforcement sections extends at least in one of the at least two bending beams and in the joint section connected to this bending beam, each of the at least two reinforcement sections having at least one deflection point at which it changes its direction, at least one of the at least two reinforcement sections at the at least one deflection point in opposite directions its curvature is curved at the joint portion in which it extends.

The wear resistance of the elastic bearing can be increased by the at least one deflection point. In addition, the elastic bearing can be produced inexpensively, since the at least two reinforcement sections can be tensioned with the deflection points from the outside during the production of the elastic bearing. The at least one deflection point achieves greater freedom in the positioning of the receiving openings and the dimensioning of the elastic bearing, without negatively influencing the wear resistance of the elastic bearing.

Each of the at least two reinforcement sections can be concavely curved at the at least one deflection point with respect to a straight line extending through the receiving openings. The straight line can extend, for example, through the center points of the at least two receiving openings. Each of the at least two reinforcement sections can be convexly curved on the at least one hinge section in relation to the straight line extending through the receiving openings. The reinforcement sections can also be convexly curved at the receiving openings.

The at least two reinforcement sections can be connected to one another at at least one connection point. A deflection point can be formed in each of the at least two reinforcement sections by the at least one connection point. The at least two reinforcement sections can be sewn or woven together at the at least one connection point. With the at least one connection point, longer bending beams can be provided. The at least two reinforcement sections can rest against one another with their inner sides at the at least one connection point. The inner sides of the at least two reinforcement sections can lie against one another over the entire extent of the reinforcement sections in the Y direction. The two reinforcement sections can also be connected via a distance sewing process or a distance weaving process, in which the inner sides of the reinforcement sections do not abut one another.

The elastic bearing can be constructed symmetrically with respect to a straight line extending through the at least two joint sections. The elastic bearing can also be related to the be constructed symmetrically through the straight line extending through the receiving openings. The intersection of these two straight lines can determine the center of the component of the elastic bearing. The elastic bearing can thus be constructed symmetrically both with respect to the straight line extending through the at least two joint sections and with respect to the straight line extending through the receiving openings.

Furthermore, a further bending beam can be connected to the at least one hinge section, so that the elastic bearing can comprise four bending beams. At least one of the two receiving openings can be arranged between two interconnected bending beams. In this case, the bending beams can extend from one of the receiving openings to one of the joint sections.

The at least two bending beams can form a spring section with at least two joint sections. At least one of the at least two receiving openings can be arranged outside the spring section. Both receiving openings can also be provided outside the spring section. The receiving opening arranged outside the spring section or the receiving openings arranged outside the spring section can lie outside the force flow of the bending beams. Furthermore, the distance between the two receiving openings can be increased by arranging the receiving openings outside the spring section. As a result, the extension of the elastic bearing in the X direction can be reduced. The elastic bearing can thus take up less installation space in the X direction.

The at least one connection point at which the at least two reinforcement sections are connected to one another can be provided in the vicinity of the at least one receiving opening. Along the straight line that runs through the receiving openings, the at least one connection point can be provided above or below at least one of the receiving openings. The at least one connection point can also be provided between the spring section and at least one of the receiving openings. The at least two reinforcement sections can also be connected to one another at two, three or more connection points.

A cross-sectional area of at least one end of at least one of the at least two reinforcement sections can emerge in whole or in part on an outer surface of the at least one elastic body. A section of an outer surface of the elastic body can be formed by the cross-sectional area or by parts of the cross-sectional area of a reinforcing section. It is also possible for the cross-sectional areas of one end of the two reinforcement sections to emerge completely or partially on an outer surface of the elastic body or to be fully or partially recognizable on this outer surface. The two ends of the reinforcing sections can emerge completely or partially on a different outer surface of the elastic body. The outer surfaces can extend transversely to the straight line extending through the receiving openings.

The at least two reinforcement sections can extend independently of one another in the elastic body. The at least two reinforcement sections can form separate elements which extend separately from one another in the elastic body. In this case, a connection between the at least two reinforcement sections can only be established via the elastic body. The at least two reinforcement sections can have a predetermined distance from one another over their entire extent.

The at least two reinforcement sections can be formed in one piece. The at least two reinforcement sections can together form a band and each have a free end. The free ends of the two reinforcement sections can be connected to one another. In this case, the inside of one of the two reinforcement sections can rest on the outside of the other reinforcement section, so that the free ends are connected to one another. The free ends of the reinforcement sections can also emerge independently of one another on an outer surface from the elastic body. The two free ends of the reinforcement sections can also be connected to one another via a connection point. In this case, the two inner sides of the reinforcement sections can lie against one another. The at least two reinforcement sections can also be part of an annular or circumferential reinforcement. The two reinforcement sections can likewise be connected to one another via a distance sewing method or a distance weaving process, in which the two reinforcement sections are not in direct contact with one another, but are connected to one another at the connection point via the distance between them. These methods can also be used to make the junctions.

The reinforcement sections can be completely or partially exposed at the at least one deflection point. In particular, the outside of one of the reinforcement sections can be completely or partially exposed at the deflection point. The reinforcement sections can thus be identified on the outside by the elastic body. At least one Deflection point, the armoring section can be free of the elastic material of the elastic body. The material of the elastic body can be an elastomer, rubber or a silicone. The at least one deflection point can be identified on an outer surface of the elastic body. The outer surfaces of the elastic body can have, for example, a notch at the at least one deflection point.

Each reinforcement section can have at least one support point, which ensures an at least substantially rectilinear course in a predetermined section in one of the bending beams. In this case, “at least essentially rectilinear” means that the reinforcement section runs straight or with a slight convex curvature with respect to a straight line running through the at least two receiving openings.

The elastic bearing can have a higher rigidity in the direction of the Y axis than in the direction of the Z axis.

The at least one reinforcement can be a thread reinforcement, textile reinforcement or a wire reinforcement. The reinforcement can be a webbing, a ring or a film. The reinforcement can be a textile band or a textile ring. The reinforcement can be a woven band. The woven tape may have gaps that allow the elastomer to flow when the elastomer is injected. The reinforcement can also be a scrim made of individual threads running in parallel. The individual threads can be connected to one another via one or more transverse threads. The reinforcement can also have cross layers.

The elastic body can have two sections which extend at an angle to one another. The elastic body can have at least three receiving openings. A straight line can extend through at least two of the receiving openings. The straight lines that run through the at least two of the receiving openings can intersect in a receiving opening. The elastic body can have at least two spring sections. Each of the spring sections can be formed by four bending beams and two joint sections.

• 1 eine Schnittansicht eines elastischen Lagers gemäß einer ersten Ausfü h ru ngsform;
• 2 eine Schnittansicht eines elastischen Lagers gemäß einer zweiten Ausführungsform;
• 3 und 4 Ansichten eines elastischen Lagers gemäß einer dritten Ausführungsform; und
• 5 bis 18 Ansichten weiterer Ausführungsformen eines elastischen Lagers.

Exemplary embodiments of the present invention are described below with reference to the attached figures. They represent:

• 1 a sectional view of an elastic bearing according to a first embodiment;
• 2nd a sectional view of an elastic bearing according to a second embodiment;
• 3rd and 4th Views of an elastic bearing according to a third embodiment; and
• 5 to 18th Views of further embodiments of an elastic bearing.

1 shows a sectional view of an elastic bearing 10th according to a first embodiment. The elastic bearing 10th has an elastic body 12th on. The elastic body 12th has four bending beams 14 , 16 , 18th , 20 . The bending beams 14 and 16 are over a joint section 22 connected with each other. The bending beams 18th and 20 are over a joint section 24th connected. The elastic body 12th also has two receiving openings 26 and 28 on. The receiving openings 26 and 28 are designed to receive coupling elements such as bolts (not shown) that are attached to the elastic bearing 10th devices to be connected are provided.

In the elastic body 12th extends a reinforcement 30th . The reinforcement 30th has two reinforcement sections 32 and 34 on. The reinforcement sections 32 and 34 extend along the bending beam 14 , 16 , 18th , 20 and the hinge sections 22 and 24th . The reinforcement sections 32 and 34 run from the receiving opening 26 to the receiving opening 28 . The reinforcement sections 32 and 34 are connected to each other according to this embodiment, so that the reinforcement 30th also around the receiving openings 26 and 28 extends around. The reinforcement 30th can be a thread reinforcement, a textile reinforcement or a wire reinforcement. The reinforcement can be ring-shaped or band-shaped. Textile reinforcement can be formed by at least one textile band. The ends of such a textile tape can be connected to each other. For example, the ends can be sewn or woven together. A thread reinforcement can be formed from one thread or several threads. The thread or threads can form a scrim or a winding. It is also possible for the threads to be connected to one another.

In each of the reinforcement sections 32 and 34 are two deflection points according to this embodiment 36 , 38 , 40 and 42 intended. At the deflection points 36 , 38 , 40 and 42 change the reinforcement sections 32 and 34 their direction. Through the deflection points 36 , 38 , 40 and 42 have the reinforcement sections 32 , 34 related to one through the receiving openings 26 and 28 straight line G has an essentially concave curvature. In other words, the reinforcement sections 32 and 34 in the area of the deflection points 36 , 38 , 40 and 42 curved inward in the direction of the line G. The straight G can do the reinforcement 30th into the two reinforcement sections 32 and 34 divide. Each Deflection point 36 , 38 , 40 and 42 is a bending beam 14 , 16 , 18th , 20 assigned. So there is a redirection point 36 , 38 , 40 , 42 between one of the receiving openings 26 and 28 and one of the joint sections 22 and 24th intended. The deflection points 36 , 38 , 40 , 42 places in the vicinity of the receiving openings 26 , 28 a predetermined course of the reinforcement sections 32 , 34 for sure. At the joint sections 22 and 24th are the reinforcement sections 32 and 34 with respect to the straight line G convexly curved. At the joint sections 22 and 24th are the reinforcement sections 32 and 34 thus counter to the curvature at the deflection points 36 , 38 , 40 and 42 curved. Relative to the straight line G, the pairs of deflection points are located 36 , 42 and 38 , 40 in each case in a direction transverse to the line G essentially at one level. The pairs of deflection points 36 , 42 and 38 , 40 are also essentially level with one of the receiving openings 26 and 28 .

The elastic bearing 10th is related to that through the receiving openings 26 and 28 straight line G constructed symmetrically. In addition, the elastic bearing 10th related to one through the joint sections 22 and 24th The straight line SG is symmetrical. The intersection of the straight line G and the straight line SG defines the center of the elastic bearing 10th .

With the deflection points 36 , 38 , 40 , 42 becomes a defined course of the reinforcement 30th or the reinforcement sections 32 and 34 achieved with which, among other things, it can be ensured that the elastic bearing 10th has its target stiffness. In the manufacture of the deflection points 36 , 38 , 40 and 42 can a predetermined tension in the reinforcement 30th be introduced. The tension can be at the deflection points 36 , 38 , 40 , 42 from the outside into the reinforcement 30th be introduced. This is due to the notches in the elastic body 12th at the deflection points 36 , 38 , 40 and 42 clear. Due to the notches at the deflection points 36 , 38 , 40 and 42 the reinforcement lies in the elastic body 30th at the deflection points 36 , 38 , 40 and 42 completely or partially free. The notches at the deflection points 36 , 38 , 40 , 42 are on the outer surface AF of the elastic body 12th recognizable. The outer surface AF connects the two substantially parallel side surfaces (not shown) of the elastic body 12th .

The elastic body 12th has an opening 44 on, which is between the receiving openings 26 , 28 and the joint sections 22 and 24th extends. In the opening 44 are buffer elements 46 and 48 provided that is in the opening 44 to extend towards each other. The buffer elements 46 and 48 extend in sections along the straight line G.

At the joint sections 22 , 24th are on the inside of the reinforcement sections 32 , 34 Notches 50 and 52 in the elastomer body 12th recognizable. Also in the area of the intake openings 26 and 28 are on the inside of the reinforcement 30th Notches 54 in the elastic body 12th intended. In the area of the notches 50 , 52 and 54 can the reinforcement 30th fully or partially exposed. There can be a thin layer of elastic material on the notches 50 , 52 , 54 and also at the notches in the deflection points 36 , 38 , 40 , 42 be present which is the reinforcement 30th completely or partially covered. The reinforcement sections 32 , 34 can be partially or fully visible from the outside despite the thin layer.

2nd shows a sectional view of a bearing 10th according to a further embodiment. The warehouse 10th exhibits the elastic body 12th and the reinforcement 30th on. The reinforcement 30th includes the reinforcement sections 32 and 34 . The reinforcement sections 32 and 34 extend along the bending beam 14 , 16 , 18th , 20 and along the hinge sections 22 and 24th . The reinforcement sections 32 and 34 are at two junctions 56 and 58 connected with each other. At the connection points 56 and 58 can the reinforcement sections 32 and 34 for example sewn or interwoven. The reinforcement sections 32 and 34 can be formed, for example, by two textile bands.

The connection points 56 and 58 lie on the straight line G above and below the receiving openings 26 and 28 . At the connection points 56 and 58 has each reinforcement section 32 , 34 a deflection point 60 , 62 , 64 and 66 on. At the deflection points 60 , 62 , 64 , 66 change the reinforcement sections 32 and 34 their direction. At the deflection points 60 , 62 , 64 and 66 are the reinforcement sections 32 , 34 counter to their curvature at the joint sections 22 and 24th curved. The reinforcement sections point to the straight line G. 32 , 34 at the deflection points 60 , 62 , 64 , 66 a concave curvature or bulge. At the joint sections 22 and 24th are the reinforcement sections 32 , 34 with respect to the straight line G, convexly curved or curved. Up to the deflection points 60 , 62 , 64 and 66 the reinforcement sections run 32 and 34 in the bending beam 14 , 16 , 18th , 20 angled to the straight line G. From the deflection points 60 , 62 , 64 , 66 or from the connection points 56 , 58 the reinforcement sections run 32 , 34 essentially parallel to line G.

The reinforcement sections 32 , 34 run to the outer surfaces 68 and 70 of the elastic body 12th essentially parallel to line G. The outer surfaces 68 and 70 extend essentially across the line G and intersect it. The ends 72 , 74 , 76 , 78 of the reinforcement sections 32 , 34 can sections of the outer surfaces 68 , 70 form. The cross-sectional areas or only parts the cross-sectional areas of the ends 72 , 74 , 76 , 78 of the reinforcement sections 32 , 34 can on the outer surfaces 68 , 70 from the elastic body 12th stand out or be recognizable. At the connection points 56 , 58 lie the inside of the reinforcement sections 32 , 34 to each other. The inside of the reinforcement sections 32 , 34 are over the entire extent of the reinforcement sections 32 , 34 facing each other. The outside of the reinforcement sections 32 , 34 point over the entire extent of the reinforcement sections 32 , 34 away from each other. The outside surfaces AF1 and AF2 of the elastic body 12th connect the outer surfaces 68 , 70 together. In addition, the outer surfaces connect AF1 and AF2 the substantially parallel side surfaces (not shown) of the elastic body 12th together.

At the joint sections 22 , 24th are on the inside of the reinforcement sections 32 , 34 the notches 50 , 52 educated. In the area of the notches 50 , 52 can the reinforcement sections 32 , 34 or the inside of them must be exposed. Unlike in the embodiment according to 1 are at the receiving openings 26 , 28 no notches formed. Through the deflection points 60 , 62 , 64 , 66 can be the distance between the receiving openings 26 , 28 and the reinforcement sections 32 , 34 the reinforcement 30th be enlarged. In other words, due to the deflection points 60 , 62 , 64 , 66 more material of the elastic body 12th between the receiving openings 26 , 28 and the reinforcement sections 32 , 34 available. This can increase the wear resistance of the elastic bearing 10th and lower assembly forces when fastening the elastic bearing 10th can be achieved on bolts or similar coupling elements.

3rd shows a perspective view of an elastic bearing 10th according to a third embodiment. The elastic bearing 10th exhibits the elastic body 12th on. The elastic body 12th has the opening 44 . In the opening 44 are the buffer elements 46 and 48 educated. At the joint sections 22 and 24th are in the area of the opening 44 the notches 50 and 52 educated. The bending beams 14 , 16 , 18th , 20 extend between the receiving openings 26 and 28 and the joint sections 22 and 24th . In 3rd the X, Y and Z axes are also shown. The definition of these axes applies to all the embodiments described here.

The outside surfaces AF1 and AF2 of the elastic body 12th connect the outer surfaces 68 , 70 together. The outside surfaces AF1 and AF2 also connect the side faces SF of the elastic body which extend essentially parallel to one another 12th with each other, of which in 3rd only one is shown. On the outer surfaces AF1 , AF2 of the elastic body 12th that run along the bending beam 14 , 16 , 18th , 20 are the deflection points 80 , 82 , 84 , 86 recognizable. The deflection points 80 , 82 , 84 , 86 are due to the notches on the outer surfaces of the elastic body 12th displayed. The outside surfaces AF1 and AF2 have a predetermined extension in the Y direction. The deflection points 80 , 82 , 84 , 86 or the notches at the deflection points 80 , 82 , 84 , 86 extend essentially in the Y direction. The deflection points 80 , 82 , 84 , 86 can cover the entire exterior AF1 , AF2 or only over parts of the outer surfaces AF1 , AF2 extend.

4th shows a sectional view of the elastic bearing 10th according to 3rd . Compared to the embodiment according to 2nd it can be seen that the essential differences between these two embodiments in the deflection points 80 , 82 , 84 , 86 lie. The deflection points 80 , 82 , 84 and 86 are in addition to the deflection points 60 , 62 , 64 , 66 at the connection points 56 and 58 intended. The deflection points 80 , 82 , 84 and 86 are between the deflection points 60 , 62 , 64 , 66 and the joint sections 22 , 24th arranged. The deflection points 80 , 82 , 84 and 86 are in the area of the bending beams 14 , 16 , 18th , 20 intended. Compared to the deflection points 60 , 62 , 64 , 66 are the deflection points 80 , 82 , 84 , 86 closer to the joint sections 22 and 24th arranged. With the deflection points 80 , 82 , 84 , 86 can be the distance between the receiving openings 26 , 28 and the reinforcement sections 32 , 34 be further enlarged. There is therefore more material between the receiving openings 26 , 28 and the reinforcement sections 32 , 34 available. Furthermore, with the deflection points 80 , 82 , 84 , 86 the distance between the receiving openings 26 and 28 be enlarged.

With the deflection points 80 , 82 , 84 , 86 can also be achieved that the subsections of the reinforcing section 32 in the bending beam 14 , 16 that over the joint section 22 are connected, have a small angle to each other. The same applies to the subsections of the reinforcement section 34 in the bending beam 18th , 20 that over the joint section 24th are interconnected. Even those at the junctions 56 , 58 interconnected reinforcement sections 32 , 34 have a small angle to each other. As a result, the elastic bearing 10th lower rigidity in the Z direction (see 3rd ), which can lead to improved acoustics. Through the connection points 56 and 58 points the camp 10th relatively high rigidity in the Y direction.

5 shows a sectional view of an elastic bearing 10th according to a fourth embodiment of the invention. In the embodiment according to 5 are the deflection points 80 , 82 , 84 and 86 closer at the deflection points 60 , 62 , 64 , 66 arranged by the joints 56 and 58 be formed. Due to the deflection points arranged close to each other 80 , 82 , 84 and 86 and 60 , 62 , 64 , 66 becomes the direction of the armor sections 30th , 32 changed in quick succession. The basic structure of the elastic bearing 10th according to 5 corresponds to the structure of with reference to the 2-4 described embodiments.

6 shows a sectional view of an elastic bearing 10th according to a further embodiment. The elastic bearing 10th exhibits the elastic body 12th and the reinforcement 30th on. The reinforcement 30th is made up of two reinforcement sections 32 and 34 educated. The reinforcement sections 32 and 34 extend along the bending beam 14 , 16 , 18th , 20 and the hinge sections 22 , 24th . The reinforcement sections 32 and 34 extend in the elastic body 12th . The reinforcement sections 32 and 34 are not connected to each other according to this embodiment. The reinforcement sections 32 , 24th thus form two separate elements. The reinforcement sections 32 and 34 each have two deflection points 60 , 62 , 64 , 66 on which the reinforcement sections 32 and 34 change their direction. The deflection points 60 , 62 , 64 , 66 are in the vicinity of the receiving openings 26 and 28 intended. After the deflection points 60 , 62 , 64 , 66 on which the reinforcement sections 32 , 34 change their direction, the reinforcement sections run 32 , 34 essentially parallel to the line G and essentially parallel to each other. Reinforcement sections point in a direction transverse to the straight line G. 32 and 34 after the deflection points 60 , 62 , 64 , 66 a substantially constant distance from each other. The reinforcement sections 32 , 34 extend to the outer surfaces 68 and 70 of the elastic body 12th that run across the line G. The ends 72 , 74 , 76 , 78 of the reinforcement sections 32 and 34 lie in the outer surfaces 68 and 70 . The cross-sectional areas of the ends 72 , 74 , 76 , 78 or parts thereof can be sections of the outer surfaces 68 and 70 form. The cross-sectional areas of the ends 72 , 74 , 76 , 78 or parts of it can be on the outer surfaces 68 and 70 be recognizable.

In the area of the deflection points 60 , 62 , 64 , 66 are notches 88 and 90 on the outer surfaces AF1 , AF2 of the elastic body 12th recognizable. In the area of the notches 88 and 90 can the reinforcement sections 32 and 34 be exposed and thus recognizable from the outside. In particular, the outer sides of the reinforcement sections 32 and 34 be exposed.

At the deflection points 60 , 62 , 64 , 66 are the reinforcement sections 32 , 34 counter to their curvature at the joint sections 22 and 24th curved. At the deflection points 60 , 62 , 64 , 66 are the reinforcement sections 32 , 34 with respect to the straight line G, curved concavely, whereas at the joint sections 22 and 24th are convexly curved with respect to the straight line G.

7 shows a sectional view of an elastic bearing 10th according to a further embodiment. The main difference from that in 6 The embodiment shown lies in the deflection points 80 , 82 , 84 , 86 which according to the embodiment 7 are also provided. Through the deflection points 80 , 82 , 84 , 86 there will be a larger distance between the receiving openings 26 and 28 enables. The deflection points 80 , 82 , 84 and 86 are between the deflection points 60 , 62 , 64 , 66 and the joint sections 22 , 24th arranged. The deflection points 80 , 82 , 84 and 86 are in the area of the bending beams 14 , 16 , 18th , 20 intended. Compared to the deflection points 60 , 62 , 64 , 66 are the deflection points 80 , 82 , 84 , 86 closer to the joint sections 22 and 24th arranged. The deflection points are located in relation to straight line G. 80 , 84 and 82 , 86 in pairs each in a direction transverse to the straight line G, essentially at the same level as the receiving openings 26 and 28 .

8th shows a view of an elastic bearing 10th according to a further embodiment. The elastic bearing 10th exhibits the elastic body 12th on. The elastic body 12th has four bending beams 14 , 16 , 18th , 20 . The bending beams 14 and 16 are about the joint sections 22 and 24th connected with each other. The elastic body 12th also has the two receiving openings 26 and 28 on. The basic structure of the elastic bearing 10th according to 8th corresponds to the structure of with reference to the 1 described embodiment.

In the elastic body 12th the reinforcement extends 30th . The reinforcement 30th has two reinforcement sections 32 and 34 on. The reinforcement sections 32 and 34 extend along the bending beam 14 , 16 , 18th , 20 and the hinge sections 22 and 24th . The reinforcement sections 32 and 34 are connected to each other according to this embodiment, so that the reinforcement 30th also along the receiving openings 26 and 28 extends.

The reinforcement sections 32 and 34 extend from the joint sections 22 and 24th over a predetermined section d essentially straight in the bending beam 14 , 16 , 18th , 20 towards one of the receiving openings 26 , 28 . The reinforcement sections run over this predetermined section d 32 , 34 essentially along an imaginary straight line or have a slight convex curvature with respect to the straight line G. The reinforcement sections can extend over this predetermined distance 32 and 34 with a substantially constant angle to the straight line G run. This essentially rectilinear course can be carried out with support points 92 , 94 , 96 , 98 getting produced. At the support points 92 , 94 , 96 , 98 are notches in the elastomer body 12th recognizable. Due to the notches in the area of the support points 92 , 94 , 96 , 98 the reinforcement sections 32 and 34 or their outer sides can be recognized from the outside in whole or in part. In the manufacture of the elastic bearing 10th become the reinforcement sections 32 and 34 at the support points 92 , 94 , 96 , 98 supported to the substantially straight course of the reinforcement sections 32 ensure at least over the predetermined section d. The essentially straight course of the reinforcement sections 32 , 34 in section d by the elastic material of the elastic body 12th fixed. The support points 92 , 94 , 96 and 98 are on the bending beam 14 , 16 , 18th , 20 formed essentially in the middle.

In the reinforcement sections 32 and 34 are also two deflection points 36 , 38 , 40 and 42 intended. At the deflection points 36 , 38 , 40 and 42 change the reinforcement sections 32 and 34 their direction. Through the deflection points 36 , 38 , 40 and 42 have the reinforcement sections 32 , 34 based on the through the receiving openings 26 and 28 straight line G an essentially concave curvature. The reinforcement sections thus extend 32 , 34 starting from the joint sections 22 and 24th due to the support points 92 , 94 , 96 and 98 initially at least essentially in a straight line until they reach the deflection points 36 , 38 , 40 and 42 change their direction. At the deflection points 36 , 38 , 40 , 42 go the reinforcement sections 32 , 34 into a concave curve. The support points 92 , 94 , 96 and 98 are closer to the joint sections 22 , 24th arranged as the deflection points 36 , 38 , 40 , 42 . The support points 92 , 94 , 96 , 98 thus provide an at least substantially straight course of the reinforcement sections 32 , 34 in section d for sure. The reinforcement sections 32 , 34 thus change at the support points 92 , 94 , 96 , 98 their direction is not, whereas the reinforcement sections 32 , 34 at the deflection points 36 , 38 , 40 , 42 change their direction. The support points 92 , 94 , 96 , 98 can help the reinforcement sections 32 , 34 a predefined course in the elastic body 12th take in. The support points 92 , 94 , 96 , 98 thus also contribute to the adjustment of the rigidity of the elastic bearing 10th at.

9 shows a sectional view of an elastic bearing 10th according to a further embodiment. The warehouse 10th exhibits the elastic body 12th and the reinforcement 30th on. The reinforcement 30th includes the reinforcement sections 32 and 34 . The reinforcement sections 32 and 34 extend along the bending beam 14 , 16 , 18th , 20 and along the hinge sections 22 and 24th . The reinforcement sections 32 and 34 are at the connection points 56 and 58 connected with each other.

In this embodiment, too, the reinforcement sections extend 32 and 34 starting from the joint sections 22 and 24th over a predetermined section d substantially straight in the bending beam 14 , 16 , 18th , 20 . This essentially rectilinear course can with the support points 92 , 94 , 96 , 98 can be achieved. At the support points 92 , 94 , 96 , 98 are notches in the elastomer body 12th recognizable. Due to the notches in the area of the support points 92 , 94 , 96 , 98 the reinforcement sections 32 , 34 or their outer sides can be seen from the outside.

In the embodiment according to 9 are the deflection points 80 , 82 , 84 and 86 closer to the deflection points 60 , 62 , 64 , 66 arranged by the joints 56 and 58 be formed. Due to the deflection points arranged close to each other 80 , 82 , 84 86 and 60 , 62 , 64 , 66 becomes the direction of the armor sections 30th , 32 changed twice with a short distance. The basic structure of the elastic bearing 10th according to 9 corresponds to the structure of with reference to the 2-5 described embodiments.

10th shows a sectional view of an elastic bearing 10th according to a further embodiment. The elastic bearing 10th exhibits the elastic body 12th on the the receiving openings 26 and 28 Has. The bending beams 14 , 16 , 18th , 20 according to this embodiment are along the straight line G between the receiving openings 26 and 28 arranged. The bending beams 14 , 16 , 18th , 20 are about the joint sections 22 and 24th connected with each other. The joint sections 22 and 24th form together with the bending beams 14 , 16 , 18th and 20 a spring section FS. Unlike the embodiments described above, the bending beams 14 , 16 , 18th , 20 not from the receiving openings 26 and 28 Cut. The receiving openings 26 and 28 are therefore not between the bending beams 14 , 16 , 18th and 20 arranged, but outside of that of the bending beam 14 , 16 , 18th , 20 formed spring section FS. The spring section FS has the opening 44 that between the bending beams 14 , 16 , 18th , 20 and the joint sections 22 and 24th is set. In the opening 44 are the buffer elements 46 and 48 trained to extend towards each other.

The elastic bearing 10th also includes reinforcement 30th . The reinforcement 30th is from the two reinforcement sections 32 and 34 educated. The reinforcement sections 32 and 34 extend along the spring section FS and along the receiving openings 26 and 28 . The reinforcement sections 32 and 34 extend according to this Embodiment separate from each other in the elastic body 12th . The reinforcement sections 32 and 34 stand exclusively over the elastic body 12th in connection with each other. The reinforcement sections 32 and 34 extend along the outer contour of the elastic bearing 10th . The reinforcement section 32 extends along the receiving openings 26 , 28 , the bending beam 14 , 16 and along the hinge section 22 . The reinforcement section extends in the same way 34 along the receiving openings 26 , 28 , the bending beam 18th , 20 and the joint section 24th . The reinforcement sections 32 and 34 each have two deflection points 100 , 102 , 104 , 106 on which the reinforcement sections 32 , 34 be concave in relation to the straight line G. At the joint sections 22 and 24th are the reinforcement sections 32 , 34 with respect to the straight line G convexly curved. At the deflection points 100 , 102 , 104 , 106 are the reinforcement sections 32 , 34 thus counter to their curvature at the joint sections 22 and 24th curved.

At the deflection points 100 , 102 , 104 , 106 are also notches 88 and 90 in the elastic body 12th recognizable. The notches 88 , 90 are on the outside of the reinforcement sections 32 , 34 educated. On the notches 88 , 90 can the outside of the reinforcement sections 32 , 34 exposed and thus visible from the outside.

The reinforcement sections 32 and 34 extend to the outer surfaces 68 and 70 of the elastic body 12th . Between the deflection points 100 , 102 , 104 , 106 and the outside surfaces 68 and 70 the reinforcement sections extend 32 , 34 essentially parallel to each other. The reinforcement sections 32 , 34 have an essentially constant distance from one another in this region. The outside surfaces 68 and 70 extend essentially across the line G. The ends 72 , 74 , 76 and 78 of the reinforcement sections 32 and 34 can inside the exterior 68 and 70 lie. The cross section of the reinforcement sections 32 and 34 can on the outer surfaces 68 and 70 be partially or fully recognizable. In the manufacture of the elastic bearing 10th become the reinforcement sections 32 and 34 led out of an injection mold and after production on the outer surfaces 68 , 70 separated. The reinforcement sections 32 , 34 can be energized from outside the tool and / or before the injection process.

11 shows a sectional view of an elastic bearing 10th according to a further embodiment. Unlike in the embodiment according to 10th are between the receiving openings in this embodiment 26 , 28 and the spring section FS the connection points 56 and 58 provided on which the reinforcement sections 32 and 34 are interconnected. At the connection points 56 and 58 become the reinforcement sections 32 , 34 deflected so that each reinforcement section 32 , 34 in the area of the connection points 56 , 58 a deflection point 60 , 62 , 64 , 66 having. On the spring section FS or on the bending beam 14 , 16 , 18th , 20 are further deflection points 108 , 110 , 112 , 114 formed on which the reinforcement sections 32 , 30th change their direction. The deflection points 108 , 110 , 112 , 114 are between the connection points 56 , 58 educated. Each of the bending beams 14 , 16 , 18th , 20 has a deflection points 108 , 110 , 112 , 114 on. The reinforcement sections 32 , 34 each have four deflection points.

The ends also extend in this embodiment 72 , 74 , 76 , 78 of the reinforcement sections 32 , 34 up to the outer surfaces 68 , 70 of the elastic body 12th . After the connection points 56 , 58 the reinforcement sections extend 32 , 34 in sections around the receiving openings 26 , 28 around before being substantially parallel to each other up to the outer surfaces 68 , 70 run.

12th shows a sectional view of an elastic bearing 10th according to a further embodiment. The main difference between the camp 10th according to 11 and the embodiment according to 12th is that two junctions 116 and 118 between the reinforcement sections 32 , 34 are provided. The connection points 116 and 118 are between the receiving openings 26 , 28 and the outside surfaces 68 , 70 intended. At the connection points 116 and 118 become the redirection points 120 , 122 , 124 , 126 of the reinforcement sections 32 , 34 educated. Even at the deflection points 120 , 122 , 124 , 126 are the reinforcement sections 32 , 34 related to the straight line G concavely curved. So that are the reinforcement sections 32 , 34 at the deflection points 120 , 122 , 124 , 126 counter to their curvature at the joint sections 22 , 24th and also counter to their curvature at the receiving openings 26 , 28 curved. In both cases, the reinforcement sections 32 , 34 with respect to the straight line G convexly curved. At the receiving openings 26 , 28 are on the inside of the reinforcement sections 32 , 34 Notches 54 recognizable. On the notches 54 can the reinforcement 30th be exposed.

13 shows a sectional view of an elastic bearing 10th according to a further embodiment. Unlike in the embodiment according to 11 are the reinforcement sections 32 , 34 in the embodiment according to 12th integrally formed. The reinforcement 30th thus also extends around the receiving opening 26 completely around. The ends 76 and 78 of the reinforcement sections 32 and 34 extend in sections along the receiving opening 28 and after the intake opening 28 essentially parallel to each other End face 70 of the elastic body 12th . The end face 70 of the elastic body 12th runs across line G.

14 shows a sectional view of an elastic bearing 10th according to a further embodiment. In this embodiment, the receiving openings 26 , 28 outside of that of the bending beams 14 , 16 , 18th , 20 formed spring section FS provided. The reinforcement 30th extends in the elastic body 12th . The reinforcement 30th shows the two reinforcement sections 32 on that along the bending beam 14 , 16 , 18th , 20 and along the hinge sections 22 and 24th extend. According to this embodiment, the reinforcement surrounds 30th also the receiving openings 26 , 28 . The reinforcement 30th can be formed in one piece. The reinforcement 30th can be formed, for example, by a textile ring, a thread ring or a textile band, the ends of which are connected to one another.

The reinforcement sections 32 , 34 point the deflection points 100 , 102 , 104 , 106 on which the reinforcement sections 32 , 34 are concave. At the deflection points 100 , 102 , 104 , 106 are the reinforcement sections 32 , 34 counter to their curvature at the joint sections 22 , 24th and also counter to the curvature of the reinforcement 30th at the receiving openings 26 , 28 curved. At the joint sections 22 , 24th and the receiving openings 26 , 28 is the reinforcement 30th with respect to the straight line G convexly curved. In this embodiment, the bending beams 14 , 16 , 18th , 20 trained relatively short.

15 shows a sectional view of an elastic bearing 10th according to a further embodiment. The basic structure of the camp 10th according to 15 agrees with the construction of the warehouse 14 match. At the camp 10th according to 15 are the bending beams 14 , 16 , 18th , 20 trained longer. Among other things, this is due to the greater concave curvature of the reinforcement sections 32 , 34 at the deflection points 100 , 102 , 104 , 106 together. The two reinforcement sections 32 , 34 approach the deflection points 100 , 102 , 104 , 106 further together. The deflection points 100 , 102 , 104 , 106 are between the receiving openings according to this embodiment 26 , 28 and that of the bending beams 14 , 16 , 18th , 20 formed spring section FS formed.

16 shows a sectional view of a bearing 10th according to a further embodiment. In contrast to the embodiments described above, the straight line G does not form an axis of symmetry in this embodiment. The warehouse 10th exhibits the elastic body 12th , Bending beam 14 , 18th , 20 and the receiving openings 26 and 28 on. The reinforcement sections 32 , 34 point the deflection points 128 , 130 , 132 , 134 and 136 on. At the deflection points 128 , 132 , 134 and 136 are the reinforcement sections 32 , 34 based on the straight line G concave. At the redirection point 130 is the reinforcement section 32 based on the straight line G convex. The deflection point 130 is on the bending beam 14 trained who at the deflection point 130 has a kink. The bending beams 18th , 20 are over the joint section 24th connected with each other. In the elastic body 12th is the opening 44 educated. In the opening 44 are the buffer elements 46 and 48 intended. The bending beams 14 and 16 extend angled to each other. The deflection points 128 and 130 mark one end of each of the bending beams 14 , 16 .

Starting from the deflection points 134 , 136 the bending beams extend 18th , 20 essentially across the line G before entering the hinge section 24th pass over. In the bending beam 18th , 20 the reinforcement section extends 34 essentially across the line G. The reinforcement section 34 extends into the bending beam 18th , 20 almost at right angles to the straight line G. The reinforcing section extends between its two sections running transversely to the straight line G. 34 with a convex curvature in the joint section 24th . The two bending beams 18th , 20 are tab-shaped together with the joint section. After the deflection points 128 , 130 , 132 , 134 the reinforcement sections extend 32 , 24th essentially parallel to each other to the outer surfaces 68 , 70 of the elastic body 12th . On the outer surfaces 68 , 70 are the cross sections of the reinforcement sections 32 , 34 fully or partially recognizable.

17th shows a sectional view of an elastic bearing 10th according to a further embodiment. The elastic bearing 10th exhibits the elastic body 12th and a reinforcement 30th on. In the elastic body 12th are intake openings 26 , 28 and 138 educated. The elastic body 12th shows the bending beam 14 , 16 , 18th , 20 on that together with the joint sections 22 , 24th a first spring section FS1 form. They are also in the elastic body 12th the bending beams 140 , 142 , 144 , 146 and the joint sections 148 and 150 formed together a second spring section FS2 form. The receiving openings 26 , 28 , 138 are outside the spring sections FS1 and FS2 arranged, the receiving opening 28 between the two spring sections FS1 and FS2 is arranged.

The reinforcement 30th is from the reinforcement sections 32 and 34 formed independently in the elastic body 12th extend. The reinforcement sections 32 and 34 are exclusively about the elastic body 12th connected with each other. The reinforcement sections 32 and 34 extend from the receiving opening 28 up to the receiving opening 138 . The reinforcement sections 32 , 34 extend along the outer surfaces AF1 and AF2 of the elastic body 12th between the outer surfaces 70 and 152 of the elastic body 12th . The reinforcement section 32 extends in the bending beam 14 , the joint section 22 , the bending beam 16 , the bending beam 146 , the joint section 148 and the bending beam 144 . The reinforcement section 34 extends in the bending beam 18th , the joint section 24th , the bending beam 20 , the bending beam 140 , the joint section 148 and the bending beam 142 .

The elastic body 12th has two sections according to this embodiment 154 and 156 that extend at an angle to each other. Through the intake openings 28 and 26 runs a straight line G1 . Through the intake openings 26 and 138 runs a straight line G2 . The straight lines G1 and G2 run at an angle, especially at right angles to each other. The straight lines G1 and G2 intersect in the receiving opening 26 . More precisely, the straight lines can G1 and G2 at the center of the opening 26 to cut. The outside surface 70 runs across the straight line G1 and essentially parallel to the straight line G2 . The outside surface 152 runs across the straight line G2 and essentially parallel to the straight line G1 .

The reinforcement sections 32 and 34 each have several deflection points. The reinforcement section 32 has the deflection points 100 , 102 , 158 , 160 , 162 on. The reinforcement section 34 has the redirection points 104 , 106 , 164 , 166 . In addition, the reinforcement section 34 when circulating the receiving opening 26 redirected. The deflection point 158 of the reinforcement section 32 is in the area of the receiving opening 26 provided and directs that of the first spring portion FS1 coming reinforcement section 32 towards the second spring section FS2 around. To the redirection point 158 runs the reinforcement section 32 along the straight line G1 . From the redirection point 158 runs the reinforcement section 32 along the straight line G2 . The reinforcement section 34 runs to the reception opening 26 along the straight line G1 , runs around the receiving opening 26 and then runs along the straight line G2 . There are notches at the deflection points 168 recognizable. On the notches 168 the respective reinforcement section 32 or 34 or its outer surface can be seen from the outside. The reinforcement sections can be cut through the notches 32 and 34 be partially or completely exposed in this area.

Based on the straight line G1 are the reinforcement sections 32 and 34 at the deflection points 100 , 102 , 104 , 106 concavely curved, whereas at the joint sections 22 and 24th related to the straight line G1 be convexly curved. Also at the redirection point 158 which between the two spring section FS1 and FS2 on the reinforcement section 32 is formed, the armoring section 32 an essentially concave curvature. At the deflection points 160 , 162 , 164 , 166 are the reinforcement sections 32 and 34 related to the straight line G2 concavely curved. In contrast, the reinforcement sections 32 and 34 on the joint sections 148 and 150 related to the straight line G2 convexly curved.

In the two spring sections FS1 and FS2 become openings 44 and 168 fixed. In the openings 44 and 168 are the buffer elements 46 and 48 or. 170 and 172 educated.

18th shows a sectional view of an elastic bearing 10th according to a further embodiment. The main difference from the embodiment according to 17th is that the elastic bearing 10th according to 18th has a one-piece reinforcement. The reinforcement 30th thus extends around the receiving openings 28 and 138 around. Accordingly, the elastic body 12th also no outside surfaces 70 and 152 on. The reinforcement sections 32 and 34 are thus connected to each other according to this embodiment.

The deflection points of the above-described embodiments can be produced during the manufacture of the elastic bearing. To produce the deflection points, the reinforcement sections can be led out of a cavity of an injection molding tool, the deflection points being generated either via the connecting parts or via a tool that acts on the reinforcement sections. Alternatively, it is also possible to generate the deflection points only using a tool acting on the reinforcement or the reinforcement sections. In both alternatives, the reinforcement or the reinforcement sections can be tensioned. With the deflection points, a defined course of the reinforcement sections can be generated in the elastic body, as a result of which the rigidity of the elastic bearing can be set precisely, reduced assembly forces and increased wear resistance can be achieved.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 10013121 C1 [0002]

Claims (22)

Elastic bearing (10), in particular for the suspension of a load, with: at least one elastic body (12) which has at least two bending beams (14, 16, 18, 20) and at least two receiving openings (26, 28) for receiving coupling elements, at least one of the at least two bending beams (14, 16, 18, 20) is connected to at least one joint section (22, 24), and at least one reinforcement (30) which is embedded in the at least one elastic body (12), the at least one reinforcement (30) having at least two reinforcement sections (32, 24), the at least two reinforcement sections extending from one of the at least two receiving openings ( 26, 28) to the other of the at least two receiving openings (26, 28), at least one of the reinforcing sections (32, 34) being located in at least one of the at least two bending beams (14, 16, 18, 20) and in the this articulated section (22, 24) connected to said bending beam (14, 16, 18, 20), each of the at least two reinforcement sections (32, 34) having at least one deflection point (36, 38, 40, 42) at which it points in its direction changes, wherein at least one of the at least two reinforcement sections (32, 34) at the at least one deflection point (36, 38, 40, 42) is curved in the opposite direction to its curvature at the joint section (22, 24) in which it extends. Elastic bearing (10) after Claim 1 , wherein the at least two reinforcement sections (32, 34) at the at least one deflection point (36, 38, 40, 42) are concavely curved with respect to a straight line (G) extending through the receiving openings (32, 34). Elastic bearing (10) after Claim 1 or 2nd The at least two reinforcement sections (32, 34) in the at least one joint section (22, 24) are convexly curved with respect to the straight line (G) extending through the receiving openings (26, 28). Elastic bearing (10) according to one of the Claims 1 to 3rd , wherein the at least two reinforcement sections (32, 34) are connected to one another at at least one connection point (56, 58), with at least one deflection point (60, 62, 64, 66) at each of the at least one connection point (56, 58) at least two reinforcement sections (32, 34) is formed. Elastic bearing (10) after Claim 4 , The inner sides of the reinforcing sections (32, 34) abutting one another at the at least one connection point (56, 58). Elastic bearing (10) after Claim 4 or 5 , wherein the at least one connection point (56, 58) is provided in the vicinity of the at least one receiving opening (26, 28). Elastic bearing (10) according to one of the Claims 1 to 6 , wherein the elastic bearing (10) is constructed symmetrically with respect to a straight line (SG) extending through the at least two joint sections (22, 24). Elastic bearing (10) according to one of the Claims 1 to 7 , wherein the elastic bearing (10) is symmetrical with respect to a straight line (G) extending through the receiving openings (26, 28). Elastic bearing (10) according to one of the Claims 1 to 8th , At least one of the two receiving openings (26, 28) being arranged between two mutually connected bending beams (14, 16, 18, 20). Elastic bearing (10) according to one of the Claims 1 to 9 , wherein the at least two bending beams (14, 16, 18, 20) form a spring section (FS), at least one of the at least two receiving openings (26, 28) being arranged outside the spring section (FS). Elastic bearing (10) according to one of the Claims 1 to 10th , wherein at least one end (72, 74, 76, 78) of one of the at least two reinforcement sections (32, 34) extends to an outer surface (68, 70) of the elastic body (12). Elastic bearing (10) according to one of the Claims 1 to 11 , wherein a cross-sectional area of at least one end (72, 74, 76, 78) of at least one of the at least two reinforcement sections (32, 34) emerges completely or partially on at least one outer surface (68, 70) of the at least one elastic body (12). Elastic bearing (10) according to one of the Claims 1 to 12th , wherein the at least two reinforcement sections (32, 34) extend independently of one another in the elastic body (10). Elastic bearing (10) according to one of the Claims 1 to 12th , wherein the at least two reinforcement sections (32, 34) are integrally formed with one another. Elastic bearing (10) according to one of the Claims 1 to 14 , At the at least one deflection point (36, 38, 40, 42) the reinforcement sections (32, 34) are completely or partially exposed. Elastic bearing (10) according to one of the Claims 1 to 15 , with at least one of the Reinforcement sections (32, 34) has at least one support point (92, 94 96, 98) which ensures the essentially straight course in a predetermined section (d). Elastic bearing (10) according to one of the Claims 1 to 16 , wherein the elastic bearing (10) has a higher rigidity in the direction of the Y axis than in the direction of the Z axis. Elastic bearing (10) according to one of the Claims 1 to 17th , wherein the at least one reinforcement (30) is a thread reinforcement, textile reinforcement or wire reinforcement. Elastic bearing according to one of the Claims 1 to 18th , wherein the reinforcement sections (32, 34) extend at least in sections parallel to one another. Elastic bearing (10) according to one of the Claims 1 to 19th , wherein at least one of the at least two reinforcement sections (32, 34) extends into two bending beams (14, 16, 18, 20) which are connected to one another via a joint section (22, 24). Elastic bearing according to one of the Claims 1 to 20 , wherein the elastic body (10) has at least four bending beams (14, 16, 18, 20). Elastic bearing (10) according to one of the Claims 1 to 21 , wherein the elastic body (12) has two sections (154, 156) which extend at an angle to one another.

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