EP1899612A1

EP1899612A1 - Level compensation plate

Info

Publication number: EP1899612A1
Application number: EP06754423A
Authority: EP
Inventors: Boris Koch; Harald Becher; Jacques Hoffner
Original assignee: Lanxess Deutschland GmbH; Faurecia Kunststoffe Automobilsysteme GmbH
Current assignee: Lanxess Deutschland GmbH
Priority date: 2005-06-28
Filing date: 2006-06-17
Publication date: 2008-03-19
Also published as: US20090129852A1; DE102005029952B3; WO2007000254A1; JP2008544187A; KR20080033185A; CN101213378A

Abstract

The invention relates to a device for fixing one or more components (4) to a support part (2) in a distortion-free manner, whereby the edges or surfaces of the component or components (4) have to be fixed in a precisely defined position in relation to the support part (2) or to adjoining components and production and assembly tolerances of the component or components (4) are largely compensated.

Description

Leveling bracket

The invention relates to a device for tension-free fastening of one or more components on a support part, wherein the edges or surfaces of the / the component / e should stand in a precisely defined position to the carrier or adjacent components and manufacturing and assembly tolerances of / the component / e be largely compensated.

The invention further relates to the use of such devices for attaching housings, housings plus covers, headlamps, headlamp housings, especially in automotive technology on module carriers or frontends.

A fastening device for bridging manufacturing or assembly tolerances is already known from EP 1 200 745 Bl. However, EP 1 200 745 B1 describes a device for bracing connections of components lying at a distance from one another by means of a component

Spacer arranged spacer and one of the two components against each other spanning clamping piece, wherein the fastening operation of the clamping piece initially moves from a spacing position to an abutment position to the second component and subsequently the device by means against the wall of a Einsteckhöhlung the first

Components settling spreading determines the first component and the spreading on

Spacer are arranged.

Although this fastening device is also an attachment with simultaneous tolerance compensation, it is a fastening device which is used in addition to a normal screw connection. In this case, the adjusting element is placed between the fastening tab of the housing and the carrier. The adjustment automatically corrects the tolerances of the mounting tabs when screwing. The adjustment also consists of several items that must be made precisely. Another disadvantage is that the adjustment by design exerts a certain force on the mounting tabs and thus it can thus come in certain cases to a shift in the desired component position.

Thus, there has been a need to develop a fastening system which is simple to manufacture and which operates without additional work, assembly or adjustment steps, i. which automatically adapts to a specific installation situation of a housing and does not transfer any voltage to the housing, thus guaranteeing fault-free, precise fastening.

Object of the present invention and thus a solution of the problem is a fastening device for tension-free attachment of one or more components (eg housing, housing plus cover, headlight, headlight housing) on a support member (eg module support, front end), wherein the edges or surfaces of / the component / e in a precise position should stand to the support or adjacent components and manufacturing and assembly tolerances of / the component / e are largely compensated, characterized in that by two flexible or hinged at their respective ends tabs, which are located on a support member, a tension-free tolerance compensation between an arbitrary positioning point on a component to be fastened or a component group to be fastened and the actual mounting strap on the component itself is made possible, the position of the component / group of components over three reference surfaces, a concentric bore and a slot to the carrier part is determined and the tabs on the support part automatically adapt to the level of attachment tabs when connecting the joint, whereby after connecting the two carrier tabs with the (the) intermediate component pocket (s) and by the arrangement of the tabs to each other a rigid connection between The component or component group and carrier part is created without changing the position of the component or component group towards the carrier part.

Compared with fastening systems of the prior art, the fastening device according to the invention requires no additional elements except the actual connecting element, is easy to manufacture, simple and error-free in handling and is characterized by a high rigidity and load capacity. The erfϊndungsgemäße fastening device is therefore ideal for tension-free fastening of components on support parts, especially where it is production-related to larger manufacturing or assembly tolerances, for example in the construction industry, furniture industry, wagon, vehicle, shipbuilding, aircraft or spacecraft.

By means of the fastening device according to the invention components of different materials with support parts of the same material or different materials can be connected stress-free. Suitable materials are: thermoplastic and thermosetting plastics, polyurethanes, metals, e.g. Steel, aluminum, magnesium.

The fixed on the support member flexible tabs should preferably be made of polymeric materials. Preferably tabs are used, which are obtained by injection molding or compression molding of thermoplastic or thermosetting plastics, such as polyethylene, polypropylene, polyamide, polyester or epoxies or polyurethanes.

The attachment of the component / group of components via the attachment tabs takes place on the flexible tabs (which are connected to the support member). The connection itself takes place by means of one or more connecting elements, preferably screws or rivets.

The small relative movement perpendicular to the direction of movement of the flexible tabs when connecting is compensated by larger holes or square holes (compared to the screw or rivet diameters) on the mounting tabs of the component / component group. The determination of the position of the component to the support member via three reference surfaces, a concentric bore and a slot on the component. Also, there are three reference surfaces and two concentric pins on the support member. To position the component to the support part, the reference surfaces and the pins and holes are brought into coincidence. Subsequently, the carrier tabs with the / the intermediate component bag (s) are screwed or riveted.

After connecting the carrier tabs with the / the intermediate component bag (s) and by the arrangement of the tabs to each other creates a rigid connection between the component (s) and carrier part. This rigid connection can be done either on the principle of a three-jointed joint or on the principle of a four-bar linkage. In the case of the connection according to the principle of a triangular joint is formed by closing the free ends of two flexible or hinged tabs on a support member, a three-jointed, the common connection point is immovable. In the case of the connection according to the principle of a four-bar linkage, a four-bar linkage, the joint point of which is movable in a limited manner, is formed by closing the free ends of two flexible lugs, which are articulated at their respective ends, on a carrier part. By using at least three four-link systems in space, with the third four-bar linkage having to be rotated 90 ^° C to four-bar linkage 1 and 2, a system is created whose joints are immovable.

Hereinafter, embodiments of the invention will be explained with reference to the accompanying drawings. Show it:

Fig. 1 is an exemplary overall view of the fastening device according to the invention on the example of a box-shaped component (4) on a flat support member (2).

Fig. 2 shows two tabs of a carrier part (not shown) via a component pocket (5) with a component (only the frame is visible) are connected.

Fig. 3 Principle of the double flap: Variant 1 three-jointed.

Fig. 4 Principle of the double flap: Variant 2 four-bar linkage

Fig. 5 example of a fastening tab with square hole on the component

In Fig. 1 shows an exemplary overall representation of the inventive fastening device, characterized in that by two flexible or hinged at their respective ends lugs (1), which are located on a support member (2), a stress-free tolerance compensation between any Positioning point (3) on a component (4) or a group of components and the actual fastening tab (5) on the component (4) is made possible. The Position of the component is determined by three reference surfaces (6), a concentric bore (7), and a slot (8) towards the carrier down. This results in the position of component (4) and the fastening tabs (5) present on the component. The tabs (1) on the carrier adapt during connection, preferably the screwing, the connection point automatically to the level of the fastening tabs (5) on the component (4). After connecting or screwing the two carrier tabs (1) with the intermediate component pocket and by the arrangement of the tabs (1) to each other according to the principle of the three-joint or more four joints creates a rigid connection between the component / e and support member, especially when using of three attachment points, without changing the position of the component to the support member out.

Variant 1: three-jointed

By closing the free ends of two flexible or articulated lugs (1) on a support (2) creates a three-jointed, the common connection point (9) is immovable.

Variant 2: four-jointed joint

By closing the free ends of two flexible or hinged at their respective ends tabs (1) on a support (2) results in a four-bar joint whose joint junction (10) is limited mobility.

By using at least two in-plane four-link systems or three four-link systems in space, with four-bar linkage 3 rotated 90 ° to four-link linkage 1 and 2, a system is created whose joints (10) are immovable.

Claims

claims

1. Fastening device for stress-free attachment of one or more components on a support member, wherein the edges or surfaces of / the component / e are in a precisely defined position to the support or adjacent components and manufacturing and assembly tolerances of / the component / e are largely compensated , characterized in that by two flexible or hinged at their respective ends tabs, which are located on a support member, a stress-free tolerance compensation between any positioning point on a component to be fastened or a component group to be fastened and the actual mounting strap on the component itself is made possible , the position of the component / component group over three

Reference surfaces, a concentric bore and a slot is determined to the support member and the tabs on the support member automatically adapt to the level of mounting straps when connecting the joint, whereby after connecting the two carrier tabs with the (the) intermediate component pocket (s) and through the arrangement of the tabs to each other a rigid connection between the component or

Component group and carrier part is created without changing the position of the component or the group of components to the support part.

2. Fastening device according to claim 1, characterized in that the flexible or hingedly mounted at their respective ends tabs made of flexible materials are made.

3. Fastening device according to claim 1, characterized in that a rigid connection between the component (s) and carrier part takes place according to the principle of a triangular joint.

4. Fastening device according to one of the preceding claims, characterized marked, that a rigid connection between the component (s) and support member according to the principle of

Four-joint done.

5. Use of the fastening device according to the claims 1 to 4 for stress-free fastening of components on support parts.

6. Use according to claim 5, characterized in that components are mounted on support parts, where it is due to production to manufacturing or assembly tolerances.