DE102020105927A1 - Bush bearing, comprising a plastic core with an insert part on the end face - Google Patents

Abstract

The invention relates to an elastomeric bush bearing, comprising a central inner element comprising a plastic material, which has an end face on at least one end face which is designed to bear against an associated contact surface of a component to which the bush bearing can be fastened, at least one radially on the inner element adjoining elastomer body and an outer sleeve which surrounds the inner element and the elastomer body. The elastomer bushing bearing according to the invention is characterized in that the inner element is designed as a hybrid element, comprising at least one insert element cast in a plastic core on one of its end faces, which protrudes in sections over the end face of the plastic core to improve the connection of the inner element at its end face with the associated one Component on its contact surface in the installation position of the bush bearing.

Description

The present invention relates to an elastomeric bush bearing comprising an inner element comprising a plastic material, which has an end face on at least one end face which is designed to rest on an associated contact surface of a component to which the bush bearing can be fastened, at least one radially adjoining the inner element Elastomer body and an outer sleeve which surrounds the inner element and the elastomer body. The invention also relates to a method for producing an elastomeric bush bearing according to the invention.

Elastomer bushing bearings of this type are used in particular in automobile manufacture, for example to mount parts of the chassis on the vehicle body or parts within the chassis in a damped manner and thus keep vibrations away from the passenger cell. In one arrangement, the bushing bearing is connected to the outer sleeve with the chassis and the component to be supported is usually screwed via a bolt extending through the bushing bearing core or the inner element, so that a frictional connection between the end face of the inner element and the associated contact surface of the to stored component is provided.

For reasons of cost and weight, it can be provided that at least the inner element of a bush bearing is manufactured from a plastic material. This constructive measure is associated with the disadvantage that the frictional engagement between the end face of the inner element and the associated contact surface of a component, compared to metal, for example, is low. This can lead to the fact that, when torsional forces occur during operation, the bush bearing and the component resting against the end face of the inner element twist with respect to one another.

The patent specification DE 10 2012 108 799 B4 describes such an elastomer bush bearing, with a bearing core (inner element), which in one embodiment can be made of plastic.

The object of the invention is to provide an elastomeric bush bearing which is light and to provide an improved connection of the inner element and an associated component at their associated end faces in the installed position of the bush bearing.

The object is achieved on the device side by an elastomeric bush bearing according to the invention with the features of the main claim and a method specified in claim 13 for producing a bush bearing according to the invention.

The elastomer bushing bearing according to the invention comprises a central inner element comprising a plastic material, which has an end face on at least one end face which is designed to rest on an associated contact surface of a component to which the bushing bearing can be fastened, at least one elastomer body radially adjoining the inner element and an outer sleeve which engages around the inner element and the elastomer body. The elastomer bushing bearing according to the invention is characterized in that the inner element is designed as a hybrid element, comprising at least one insert element cast in a plastic core on one of its end faces, which protrudes at least in sections over the end face of the plastic core to improve the connection of the inner element at its end face with the assigned component on its contact surface in the installation position of the bushing bearing.

The elastomer bush bearing according to the invention, in which the inner element is designed as a hybrid element, comprising at least one insert element embedded in plastic material, has the advantage over the conventional bush bearing described with a plastic core that the connection between the bearing and an associated component can be improved without the To increase the weight of the bearing significantly, since the insert element used can be kept small in its dimensions in relation to the entire plastic core. Another advantage is that the surface of the insert element can be machined before being inserted into the plastic core or can be machined, e.g. embossed, during manufacture, which increases the friction between the contact surfaces and enables the shape of the insert element to be designed in a simpler and more varied manner.

Further features according to the invention and developments of the invention are specified in the general description, the figures, the description of the figures and the subclaims.

The insert element and the plastic core can advantageously be made of different materials and, in particular, the insert element can comprise a metal material. In an expedient embodiment it can be provided that the plastic material of the plastic core is a thermoset or a thermoplastic plastic.

In order to further increase the frictional engagement between the end face of the hybrid element and the contact surface of the component resting against the hybrid element, a section of the protruding from the end face of the plastic core can be used Insert element have a roughening or embossing on its surface. This roughening or embossing can be in the form of knobs, grooves, depressions or in the form of a sawtooth structure, for example.

In an advantageous embodiment of the bush bearing according to the invention, the insert element can have recesses in surface sections surrounded by the material of the plastic core in order to improve load transfer from the insert element to the plastic core.

The at least one insert element can be formed in one piece or in several pieces. It can be designed in the form of a disk or ring. Provision can preferably be made for such a disk-shaped or ring-shaped insert element to be oriented in relation to its axis coaxially to the bush bearing axis in the plastic core. In embodiments in which the insert element comprises a plurality of insert parts, these can be arranged on an associated end face of the plastic core in a ring or circular shape.

In such embodiments, in which the insert element comprises a plurality of separate individual parts, it can be provided that at least a subset of these individual parts protrudes in sections from the front surface of the plastic core. These items can, for example, be in the form of pins or have a different design or be shaped differently, with the different design or embossings each having a profile for generating a frictional connection of different strengths with relative left-hand rotation and relative right-hand rotation of the plastic core with embedded insert element or embedded insert parts may have associated component, for example, by a sawtooth structure. Such a design of the surface structure of the portion of a one-piece insert element protruding from the plastic core can be designed in a similar manner to generate a frictional engagement of different strengths when the plastic core is rotated relative to the left or the right, with the insert element embedded in relation to the associated component.

In a particularly expedient embodiment of the bushing bearing according to the invention, the insert element can be arranged and designed in such a way that it penetrates in sections into the contact surface of the associated component in the installed and fastening position of the bushing bearing. In this way, a form fit can be provided in addition to the frictional fit between the hybrid element and the contact surface of the associated component. Due to the additional form fit, bush bearings and the associated component are set up for an even higher torsional load transfer from the bush bearing to the component.

In a further embodiment, the bush bearing can be designed in such a way that, in the installed position, the insert element embedded in the plastic core is elastically deflected in the axial direction of the bearing by contacting its section protruding from the plastic core against the contact surface of the associated component, resulting in increased frictional engagement of the bush bearing with respect to the component is set.

One embodiment of the bush bearing according to the invention can provide that the insert element is conical in the axial direction of the bush bearing. The cross-sectional area of the insert element can be trapezoidal in order to enlarge the surface located in the plastic core and thus to produce a more secure fit of the insert element in the plastic core. The length of the exposed front-side trapezoidal side of the insert element can be set such that it is a maximum of a quarter of the radial length of the front-side trapezoidal side of the insert element, which is surrounded by the plastic core.

To set a predetermined stiffness of the bearing in the axial and / or radial direction, it can be expedient for the plastic core or the hybrid element to have an axially non-constant diameter, the plastic core or the hybrid element being particularly rotationally symmetrical.

In order, in particular, to increase the radial rigidity of the bush bearing, it can advantageously be provided that the elastomer body comprises at least one intermediate layer. This intermediate layer can in particular consist of a material which has a higher rigidity in relation to the elastomer material, such as plastic or a metal material such as aluminum.

In order to avoid twisting of the individual elements of the bearing with respect to one another during operation of the bush bearing according to the invention, it may be useful to vulcanize the elastomer body onto the hybrid element, vulcanize the outer shell onto the elastomer body and / or, if available, the at least one intermediate layer onto the one surrounding it Vulcanize elastomer material.

In terms of the method, the above object is achieved by a method according to the invention for producing an elastomeric bush bearing according to the invention. Thereafter, an injection mold is first used to encapsulate the at least one insert element to produce a hybrid element provided. The at least one insert element is then introduced into the injection mold and held in the space of the injection mold to be filled with plastic material. Next, the hybrid element is produced by encapsulating the at least one insert element located in the injection mold with liquid plastic. Subsequently, a second injection mold is provided for overmolding the hybrid element to produce an elastomer body. The hybrid element is then inserted into the second injection mold. To produce the at least one elastomer body, the hybrid element is encapsulated with an elastomer. An outer sleeve is provided, and an arrangement is provided in which the outer sleeve engages around the one elastomer body and the hybrid element and is attached to the at least one elastomer body. It should be noted that, according to the invention, the above steps of the method according to the invention can also be carried out in a different order, in particular with regard to the provision and attachment of the outer sleeve to the elastomer body.

To increase the rigidity of the at least one elastomer body, in a particularly advantageous embodiment of the method for producing an elastomeric bush bearing according to the invention, one or more intermediate layers can be introduced and held in the injection mold of the at least one elastomer body before the elastomer is injected. This intermediate layer or intermediate layers are arranged within the elastomer body and are part of the same.

In order to prevent the relative rotation of the hybrid element to the elastomer body when torsional forces occur on the bearing, it can be provided in an advantageous embodiment of the method for producing an elastomeric bush bearing according to the invention that the elastomer body is vulcanized onto the hybrid element during the injection of the elastomer into the injection mold of the elastomer body to undertake.

To attach the outer sleeve to the elastomer body, in one embodiment of the method for producing an elastomeric bushing bearing according to the invention, vulcanizing the outer sleeve onto the elastomer body during the injection of the elastomer into the injection mold to produce the elastomer body or, in another embodiment, pressing in the elastomer body with an adhering hybrid element be provided in the outer sleeve.

• 1 in einer Prizipskizze eine Ausführungsform des erfindungsgemäßen elastomeren Buchsenlagers in einem Längsschnitt,
• 2 in einer Prinzipdarstellung eine Ausführungsform eines Innenelementes mit einem Einlegeelement für ein erfindungsgemäßes elastomeres Buchsenlager in einem Längsschnitt im Ausschnitt,
• 3 in einer Prinzipdarstellung eine weitere Ausführungsform eines Innenelementes mit einem Einlegeelement für ein erfindungsgemäßes elastomeres Buchsenlager in einem Längsschnitt im Ausschnitt, und
• 4 in einer Prinzipskizze eine zusätzliche Ausführungsform eines Innenelements für ein erfindungsgemäßes elastomeres Buchsenlager in einer Draufsicht auf die Stirnseite,

zeigt.In the following, the invention is explained by reference to the accompanying figures and various embodiments are shown, wherein

• 1 in a schematic diagram of an embodiment of the elastomeric bush bearing according to the invention in a longitudinal section,
• 2 in a schematic representation of an embodiment of an inner element with an insert element for an elastomeric bush bearing according to the invention in a longitudinal section in the cutout,
• 3 in a schematic representation of a further embodiment of an inner element with an insert element for an elastomeric bush bearing according to the invention in a longitudinal section in the cutout, and
• 4th in a schematic diagram of an additional embodiment of an inner element for an elastomeric bush bearing according to the invention in a plan view of the end face,

shows.

In 1 an elastomer bush bearing designed according to the invention is shown, with on each end face of the plastic core 1 a respective annular insert element 3 is cast that the end face 5 of the plastic core protrudes in sections. In the embodiment described, the bush bearing is rotationally symmetrical to the axis A. educated. To the plastic core 1 is an elastomer body 2 vulcanized, which here is rotationally symmetrical to the axis A. is trained. The outer sleeve 4th adjoins the elastomer body 2 is vulcanized onto it and encloses it and the plastic core 1 . The plastic core 1 and the insert 3 together form that as a hybrid element 6th trained inner element.

2 shows an embodiment of a hybrid element in a schematic diagram 6th for the formation of a bush bearing according to the invention in longitudinal section in a cutout, wherein the insert element 3 ' is designed and arranged in the plastic core in such a way that several pin-like projections form the front surface of the plastic core 1 protrude and thus in the installed position of the bush bearing according to the invention in the material of the end face 5 of the plastic core 1 dig in the adjacent component, thus creating an additional form fit between the adjacent component and the plastic core 1 to train. The hardness of the component is set lower than the hardness of the insert element or the parts of the insert element.

3 another embodiment of a hybrid element in a schematic diagram 6th for the formation of a bush bearing according to the invention in longitudinal section in a cutout, wherein the insert element 3 '' is axially conically shaped and the cross-sectional area is trapezoidal. The length the exposed end-face trapezoidal side is a maximum of a quarter of the length of the plastic core in this embodiment 1 enclosed frontal trapezoidal side.

4th shows a schematic diagram of another embodiment of the hybrid element with insert element 3 ''' for a bush bearing according to the invention, wherein the insert element 3 ''' comprises four individual, circumferentially successive parts on the core element, each of which has a sawtooth structure on its end face, this sawtooth structure being designed either counter to left or right rotation.

List of reference symbols

1

Plastic core

2

Elastomer body

3, 3 '3' ', 3' ''

Insert element

4th

Outer sleeve

5

Face

6th

Hybrid element

A.

Axis of rotation

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely 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 102012108799 B4 [0004]

Claims (16)

Elastomer bushing bearing, comprising an inner element comprising a plastic material, which has an end face (5) on at least one end face, which is designed to rest on an associated contact surface of a component to which the bushing bearing can be fastened, at least one elastomer body radially adjoining the inner element (2) and an outer sleeve (4) which surrounds the inner element and the elastomer body (2), characterized in that the inner element is designed as a hybrid element (6), comprising at least one molded into a plastic core (1) on one of its end faces Insertion element (3, 3 ', 3'',3''') which protrudes in sections over the front surface of the plastic core (1) to improve the connection of the inner element on its end face (5) with the associated component on its contact surface in the installation position of the Bushing bearing. Elastomer bush bearing according to Claim 1 , characterized in that the insert element (3, 3 ', 3 ", 3"') and the plastic core (1) are made of different materials, in particular the insert element (3, 3 ', 3 ", 3"') comprises a metal material. Elastomer bush bearing according to Claim 1 or 2 , characterized in that a section of the insert element (3, 3 ', 3'',3''') protruding from the end face of the plastic core (1) has a roughening or embossing on its surface to increase a frictional connection between the hybrid element (6 ) and the assigned component in the installation position of the bush bearing. Elastomer bush bearing according to one of the preceding claims, characterized in that the insert element (3, 3 ', 3 ", 3"') has recesses in surface sections surrounded by the material of the plastic core (1). Elastomeric bush bearing according to one of the preceding claims, characterized in that the insert element (3, 3 ', 3'',3''') comprises a plurality of separate individual parts, of which at least a subset from the front surface of the plastic core (1) protrude in sections. Elastomeric bush bearing according to one of the preceding claims, characterized in that the insert element (3, 3 ', 3'',3''') is arranged and designed in such a way that in the installed and fastening position of the bush bearing it is partially in the contact surface of the associated Component penetrates. Elastomeric bush bearing according to one of the previous ones Claims 1 until 6th , characterized in that the insert element (3, 3 ', 3'',3''') embedded in the plastic core (1) is elastic in the installation position of the bush bearing by contacting its section protruding from the plastic core (1) against the contact surface of the associated component can be deflected in the axial direction of the bearing. Elastomeric bush bearing according to one of the preceding claims, characterized in that the insert element (3 ″) is conical in the axial direction of the bush bearing, the cross-sectional area being trapezoidal. Elastomer bushing bearing according to one of the preceding claims, characterized in that the plastic core (1) has an axially non-constant diameter for setting a predetermined stiffness of the bearing in the axial and / or radial direction, the plastic core (1) being particularly rotationally symmetrical. Elastomer bushing bearing according to one of the preceding claims, characterized in that the elastomer body (2) comprises at least one intermediate layer, in particular in the form of a sleeve, which is arranged to increase the rigidity. Elastomer bush bearing according to one of the preceding claims, characterized in that the elastomer body (2) is vulcanized onto the hybrid element (6). Elastomer bush bearing according to one of the preceding claims, characterized in that the outer sleeve (4) is vulcanized or pressed onto the elastomer body (2). Method for producing an elastomer bushing bearing, in particular an elastic bushing bearing according to the preceding claims, with the steps of - providing at least one insert element (3, 3 ', 3 ", 3"'); - Providing an injection mold for overmolding the at least one insert element (3, 3 ', 3 ", 3"') for producing a hybrid element (1); - Introducing the at least one insert element (3, 3 ', 3 ", 3"') into the injection mold and holding the at least one insert element (3, 3 ', 3 ", 3"') in the plastic material filling space of the injection mold; - Production of the hybrid element (1) by injection molding around the at least one insert element (3, 3 ', 3 ", 3"') located in the injection mold; - Providing a second injection mold for overmolding the hybrid element (1) with at least one elastomer body (2); - Inserting the hybrid element (1) into the second injection mold; - Overmolding of the hybrid element (1) with an elastomer to produce an elastomer body; - Providing an outer sleeve (4) and producing an arrangement in which the outer sleeve engages around the at least one elastomer body (2) and the hybrid element (1); - Attaching the outer sleeve (4) to the elastomer body. Process for the production of an elastomeric bush bearing according to Claim 13 , with the further step of introducing or holding one or more intermediate layers in the injection mold before or during the injection of the elastomer to produce the elastomer body (2). Process for the production of an elastomeric bush bearing according to the Claims 13 or 14th , comprising the further step - connecting the elastomer body (2) to the hybrid element (1) by vulcanization during the injection of the elastomer into the injection mold of the elastomer body (2). Process for the production of an elastomeric bush bearing according to the Claims 13 until 15th , characterized by the further steps for attaching the outer sleeve to the elastomer body: - vulcanization of the outer sleeve (4) onto the elastomer body (2) during the injection of the elastomer into the injection mold to produce the elastomer body (2), or pressing on the outer sleeve (4) on the elastomer body (2).

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