EP3554802A1

EP3554802A1 - Method for producing a three-dimensional motor vehicle interior element through which light can shine, and motor vehicle interior element

Info

Publication number: EP3554802A1
Application number: EP17822604.9A
Authority: EP
Inventors: Alena Sina Kolbe; Peter Bolte; Till Fiegler; Simon Hauck; Jochen Möller
Original assignee: Continental Automotive GmbH
Current assignee: Continental Automotive Technologies GmbH
Priority date: 2016-12-13
Filing date: 2017-12-12
Publication date: 2019-10-23
Also published as: WO2018108861A1; US20190291659A1; DE102016225813A1; CN110072689B; CN110072689A; US11827160B2

Abstract

The invention relates to a method for producing a three-dimensional motor vehicle interior element (2) through which light can shine and which has an observer-side surface, wherein the motor vehicle interior element (2) is produced in two steps. According to the invention, in order to simplify the method, in a first step, a three-dimensional transparent substrate is produced from a cross-linked polymer, and in a second step, the substrate is provided with a colouring (14) on an observer-side surface of the substrate, through which colouring light can be shone in a sub-region thereof. The invention also relates to a motor vehicle interior element (2) which is designed such that it is three-dimensional and light can be shone through same.

Description

description

A method for producing a three-dimensional transilluminable motor vehicle interior element and power vehicle in ^¬ nenraumelement

The invention relates to a method for producing a vehicle-side transmittable three-dimensional automotive interior element having a observer-side surface, wherein the motor vehicle interior element is produced in two steps. In addition, the invention relates to a three-dimensionally and durchleuchtbar trained Kraftfahrzeuginnenraumele ^¬ ment.

An aforementioned method is known in which depressions of a three-dimensional deep-drawn translucent foil of a tinted cover of a display device on a side facing away from an observer are filled with a so-called optical-bonding material. The known method is complicated and harbors, for example, due to possible defects in the film and possibly not sufficient contour accuracy of the film a risk of an undesirably high reject rate in the manufacture of corresponding automotive interior elements.

The object of the invention is to provide a simplified method of the type mentioned for producing a motor vehicle interior element. Moreover, it is an object of He ^¬ invention to provide a simplified manufacturable motor vehicle interior element of the type mentioned.

The first object according to the invention is achieved in that in a method of the type mentioned in a first step, a three-dimensional transparent carrier is made of a crosslinked polymer and that in a second step, the carrier on a observer-side surface of the carrier with a at least in a partial area is provided by translucent coloring. Of particular advantage in the method according to the invention is that a high contour accuracy and a good impression of edges of the three-dimensional motor vehicle interior element is achieved. In addition, both the first step and the second step may be performed in a single production tool. Can be made possible that, for example, by means of an integrated production tool in the displacement and / or rotation ^¬ device. Also conceivable is a realization by means of a retraction of a tool core of the production tool. The second step of providing the color follows the first step of producing the transparent support, preferably immediately after.

The crosslinked polymer that can be commonly referred to as cross-linked plastic is a Du ^¬ ROPLAST, preferably. In principle, however, the crosslinked polymer can also be an elastomer, in particular a strongly crosslinked elastomer.

Advantageously, the carrier may be made of a thermoset, and the thermoset of the carrier is preferably a polyurethane. The transilluminable coloring is preferably a homogeneous coloring. With the coloring, for example, a so-called disappearance effect can be achieved. In particular, the coloring may have a dark gray or black color, which advantageously a so-called

Black panel effect, a special training of the aforementioned disappearance effect, can be achieved. With a

Black panel effect, the observer-side surface of the motor vehicle interior element appears with Be ^¬ lighting, which illumination, for example, in the force ^¬ vehicle interior element or, for example, on a rear side remote from the observer of the motor vehicle interior element is arranged and by means of which the motor vehicle interior space element can be illuminated, dark whereas, when the lighting is switched on, for example, a rear side of the motor vehicle facing away from an observer comprises generating interior elements arranged light source, for example within the automotive vehicle interior element or behind the motor vehicle interior element, that is at ^¬ play, on its rear side, disposed display symbols are visible.

The observer-side surface of the motor vehicle ^{interior ¬} elements is when the motor vehicle ^interior element is installed in a motor vehicle, the vehicle occupant surface. Thus, the observer-side surface facing a vehicle interior and an observer located in the vehicle interior, for example, the driver of the motor vehicle, in which the motor vehicle interior element is installed, facing.

Preferably, the observer-side surface of the motor ^¬ vehicle interior elements is plastically formed, and the observer is remote from, rear surface of the driving force generating ^¬ interior elements is preferably planar. In its installed in a motor vehicle state, the vehicle interior element can rest, for example, on an Ad ^¬ vortexed direction, such as a display.

The three-dimensional configuration of the motor vehicle interior element can, for example, be such that the force ^¬ vehicle ^interior element varies in its cross section in the cross section ^height between, for example, a minimum of 0.5 mm and a maximum of 10 mm. Advantageously, the three-dimensional Ausges ^¬ lay out your vehicle interior member for an operator as an ergonomic sensing support and / or finger guide can be used.

Advantageously, a transilluminous motor vehicle interior element can be produced with the method according to the invention, the three-dimensional structures with varying cross-sectional height, wherein transitions to cross-section jumps can have very small cross-sectional radii, and at the same time has a visual disappearance effect and a very high Has surface quality, which allows use of the motor vehicle interior element ^¬ creative as display and / or control in a motor vehicle. Additional advantageous developments of the invention are specified in the subclaims.

According to an advantageous development of the invention, the carrier is produced by mixing a first component and a second component. The blended components are shaped and a chemical reaction of the components and curing occurs to form the carrier. The mixing of the two components can take place, for example, by means of a mixing head directly on the production tool for the motor vehicle interior element.

In principle, it is conceivable that the carrier consists for example of any transparent thermosetting plastic. However, it has proven to be particularly advantageous for the motor vehicle interior element and its use in a motor vehicle if according to an embodiment of the invention, the first component is a polyol and the second component is an aliphatic polyisocyanate and if the crosslinked polymer from a reaction of the polyol and the Polyisocyanate resulting polyurethane is. The polyol can, for example, a

Be polyester polyol.

According to another advantageous embodiment of the invention, the support on its observer-side surface with a colored cross-linked polymer is the

durchbluchtbare coloring flooded as a cover layer forming on the obobach ^¬ terseitigen surface of the carrier. The cover layer is then a transilluminable, colored layer on the support on its side facing an observer. As crosslinked polymer, in particular thermoset, the cover ^¬ layer on a material corresponding to that of a crosslinked polymer, in particular thermosetting plastic, existing carrier. It is particularly advantageous for both the optical properties of the motor vehicle interior element with regards to its By ^¬ lighting as well as for the aesthetic appearance of the vehicle interior member for an observer, that is regular for an occupant of the motor vehicle, in particular its driver, it's when, according to a refinement of the invention, the carrier a ^¬ heitlicher layer thickness on the observer side surface of the support is flooded with the forming colored crosslinked polymer, in particular thermosetting plastic, a colored topcoat.

Which is another advantageous development of the invention the cover layer forming colored crosslinked polymer, in particular thermosetting plastic, prepared by mixing a first cladding layer material component and a second outer layer Mate ^¬ rialkomponente, wherein layer material component having a mixing ratio of the first outer layer material component and second cover ^¬ and / or with a scratch resistance of the cover layer is set to a selection of the first cover layer material component and the second cover layer material component. In this way, even with the second step of the method according to the invention a scratch-resistant surface of the motor vehicle interior element can be produced at the same time, without an additional, subsequent step is required in which the surface, for example, with a

Scratch resistance causing paint would be provided. The selection of the first facing material and the second component facing material component comprises, for example selecting a particular combination of materials of the first cover material and second cover material component ^¬ component or, for example, the provision of an additional additive in at least one of the two components. On the one hand, scratch resistance can mean that the surface has a high degree of hardness, but on the other hand, that the surface has a self-healing effect against scratches, so that any scratches in the surface are automatically regressed become. In principle, both of the aforementioned meanings of scratch resistance are encompassed by the invention.

One could imagine that the carrier and the cover layer are made of a same cross-linked polymer, in particular the same duroplast. The first facing material ^¬ component could then correspond to the first component of the carrier and the second covering layer constituent material of the second component of the carrier. An advantageous development of the invention, on the other hand, provides for the carrier to be produced from a first crosslinked polymer, in particular first thermosetting plastic, and for the dyed covering layer to consist of a second crosslinked polymer, in particular a second thermoset, deviating from the first crosslinked polymer, in particular duroplastic , will be produced. In this way, for the carrier at ^¬ play a crosslinked polymer, in particular thermosetting plastic, with the best possible stability and transparency of the support is achieved are chosen, and for the outer layer, for example, may be a crosslinked polymer, in particular thermosetting plastic, are selected with which the best possible Kratzfes ^¬ activity and surface quality of the motor vehicle interior element is achieved.

According to another advantageous embodiment of the invention, the carrier is at least with its observer side

Surface immersed in a liquid dye, and the liquid dye forms the transilluminable coloring. In this development, therefore, a cover layer is not formed on the carrier in the second step of the method according to the invention, but the carrier itself forms with its be ^¬ obachterseitigen surface and the surface of the force ^¬ vehicle interior space element. The transilluminable coloring on the observer-side surface of the support is preferably formed by dye molecules of the liquid dye which penetrate into the support, for example into the support

diffuse. The liquid dye is preferably a dye solution. Preferably, the Carrier immersed in the liquid dye forming a homogeneous coloration at least the observer-side surface of the carrier. The dye forming the transilluminable dye remains after immersion in and / or in the carrier.

In principle, it can be provided that a uniform surface of the motor vehicle interior element, forming its entire surface, is provided throughout with the transilluminable coloring. By contrast, according to another advantageous development of the invention, the support is masked on flooding with the colored crosslinked polymer, in particular duroplastic, or on immersion in the liquid dye in at least one subregion of the flooded or submerged surface of the support. For example, such a masked subregion can be provided for a display element or display symbol to be specially emphasized in the force vehicle ^interior element, or the masked subregion can be provided with a non-transilluminable coloring, for example in order to exclude unwanted illumination of the motor vehicle ^interior element in this region. Also, by means of a masking, for example, partial areas with and without disappearing effect and / or partial areas of different brightness and / or partial areas of different color can be formed.

According to another advantageous embodiment of the invention, a side of the carrier facing away from the observer, in particular a rear-side surface of the carrier, is connected to a display device in an optical bonding process step. The optical bonding process step preferably comprises a bonding of the carrier and the display device by means of an optical bonding material. In this case, a gap between the display device and the carrier is filled by means of the optical-bonding material, so that the display device and the carrier are firmly connected to each other. The above second object is achieved according to the invention with a motor vehicle interior element of the type mentioned above, wherein the motor vehicle interior element a three-dimensional transparent carrier of a crosslinked polymer and arranged on a observer side surface of the carrier colored, at least in a portion durchleuchtbare cover layer of a crosslinked polymer as transilluminable coloring or having a transilluminable coloring remaining in the carrier after dipping at least the observer-side surface of the carrier in liquid dye.

The motor vehicle interior element is preferably produced by a method according to the invention. The motor vehicle interior element is intended for installation in a motor vehicle or already installed in such a vehicle. In principle, the motor vehicle interior element could, for example, generally be an interior trim or a cockpit trim of the motor vehicle. Preferably, however, the motor vehicle interior element is an operating and / or display element. The control and / or display element may for example also be part of an aforementioned interior trim or cockpit trim. For example, the operating and / or display element, and thus the motor vehicle interior element of the invention is part of an input device, such as a berührungsemp ^¬-sensitive input device such as a touch screen.

The crosslinked polymer of the carrier and / or the cover layer may be, for example, an elastomer. Preferably, the crosslinked polymer ^¬ ver of the carrier and / or the cover layer is a Du ^¬ ROPLAST.

According to an advantageous development of the invention, a display device is arranged on a side of the carrier remote from an observer, in particular on a rear-side surface of the carrier. The carrier and the display Devices are preferably connected by means of an optical bonding material, wherein the optical bonding material fills a gap between the carrier and the display device, so that the carrier and display device are firmly connected to each other. The display device is preferably an electro-optical display device. In particular, the display device may be a display or screen.

Embodiments of the invention are illustrated schematically in the drawing and sketchily represented and described in detail in the fol ^¬ constricting reference to the drawing. Show it

FIG. 1A shows a carrier of a motor vehicle interior element in a plan view,

FIG. 1B shows the carrier according to FIG. 1A in a perspective view

View,

FIG. 2 shows the carrier according to FIG. 1A in a sectional view,

Figure 3 shows the carrier of Figure 1A with a coloring in one

Top view and

Figure 4 shows a carrier with a display in a sectional view.

Corresponding elements are provided in all figures with the same reference numerals.

FIG. 1A shows a top view of a carrier 1 of FIG

Motor vehicle interior element 2 (see Figure 3). In the plan view, a observer-side surface 3 (see FIG. 2) of the carrier 1 can be seen. The viewing direction here corresponds approximately to that of a motor vehicle occupant on the

Motor vehicle ^{interior element} 2, if this is installed in a power ^¬ vehicle. The carrier 1 is produced as a three-dimensional transparent carrier 1 and generally from a crosslinked polymer, in this embodiment especially made from a duroplastic. To illustrate the three-dimensional design of the carrier 1, this is shown in Figure 1B in a perspective view corresponding to an oblique top view shown.

In FIGS. 1A, 1B it can be seen that the carrier 1 has a planar carrier central region 4 and, adjacent thereto, in the region of a first longitudinal side 6 of the carrier 1, a first elongated one

Carrier lifting area 8 has. In the region of a second longitudinal side 10 of the carrier 1 opposite the first longitudinal side 6 of the carrier 1, the latter has a second elongated carrier elevation region 12. The carrier 1 is thus plastically formed on its observer-side surface 3. An obverse side facing away from the observer 11 (ver ^¬ same Figure 2) of the carrier 1 is flat.

For further clarification, in particular of the three-dimensional, plastic embodiment of the carrier 1, FIG. 2 shows a perspective view of a section of the carrier 1 along line I-I in FIG. 1A. The carrier 1 represents a one-piece, made of a material, namely thermoset, transparent component.

In Figure 3, the vehicle interior element 2 is shown in a plan view, wherein the viewing direction here corresponds approximately to that of an observer, in particular a vehicle in ^¬ sassen a motor vehicle, which looks at the motor vehicle interior space element corresponds. In Figure 3, therefore, is to see an observer-side surface of Kraftfahrzeuginnenraumele ^¬ ment second The motor vehicle interior element 2 may be, for example, an operating and display element which is inserted into a recess, for example a cockpit panel. Forming the motor vehicle interior element 2, the carrier 1 (see FIGS. 1A, 1B, 2) is provided on its observer-side surface 3 with a transilluminable coloring 14. By way of example, the carrier 1 is flooded on its observer-side surface 3 with a colored crosslinked polymer, in particular with a colored thermoset, forming the transilluminable coloring 14 as a covering layer on the observer-side surface of the carrier 1. However, for example, the support 1 may also be immersed in a liquid dye, at least with its observer-side surface 3, so that the liquid dye forms the transilluminable coloring 14.

The coloring 14 is formed homogeneously. For this purpose, based on the above examples, either the aforementioned top layer a uniform, constant layer thickness over the entire observer-side surface 3 of the support 1, or the aforementioned liquid dye is evenly distributed across the be ^¬ obachterseitige surface 3 of the carrier. 1 Consequently, the contour of the motor vehicle interior element 2 corresponds to the contour of the carrier 1, so that the two Trägererhe ^¬ advertising areas 8, 12 are formed corresponding to the motor vehicle interior ^¬ space element 2. In further embodiments, it is also conceivable that the carrier 1 has on its entire surface, that is, on all sides, the transilluminable coloring. The carrier 1 is then provided on its entire surface with which the radiolucent ^¬ A dye-forming covering layer or with the transilluminable coloring forming dye.

FIG. 4 shows, in a perspective view of a section, a carrier 1, which for example corresponds to the carrier shown in the preceding figures, of a motor vehicle interior element 2. On a side facing away from an observer, namely here at the rear surface 11 of the carrier 1, is a Display device 16 is arranged. The display device 16, which is an electro-optical display device 16 and a display in this embodiment, is connected to the carrier 1 with its back surface 11 by means of a bonding layer 18 having an optical bonding material.

Claims

claims

1. A method for producing a transmittable surface having a transmittable three-dimensional motor vehicle interior element (2), wherein the motor vehicle interior element (2) is produced in two steps, dadurchgekenn ^¬ characterized in that in a first step, a three-dimensional transparent carrier (1) made of a crosslinked polymer is and that in a second step, the carrier (1) on a observer-side surface (3) of the carrier (1) with a transilluminable at least in a partial area coloring (14) is provided.

2. A method according to claim 1, wherein a carrier (1) is prepared by mixing a first component and a second component.

3. The method according to claim 2, characterized in that the first component is a polyol and the second component is an aliphatic polyisocyanate and that the crosslinked polymer is a ent ^¬ standing from a reaction of the polyol and the polyisocyanate polyurethane.

4. The method according to any one of the preceding claims,

In this case, the support (1) is flooded on its observer-side surface (3) with a colored cross-linked polymer to form the transilluminable coloring (14) as a cover layer on the observer-side surface (3) of the support (1).

5. The method according to claim 4, characterized in that the carrier (1) with the dyed crosslinked polymer is a dyed cover Layer of uniform layer thickness on the observer-side surface (3) of the support (1) is formed flooding.

The method of claim 4 or 5, d a d u r c h

in that the cover layer forming colored crosslinked polymer is prepared by mixing a first cladding layer material component and a second outer layer material component, said layer material component ^¬ with a mixing ratio of the first cover and second cover layer Mate ^¬ rialkomponente and / or with a selection of the first facing material component and second cover layer ^¬ material component a scratch resistance of the cover layer is adjusted.

Method according to one of claims 4 to 6, characterized in that the carrier (1) is made of a first crosslinked polymer and that the colored top layer is made of a deviating from the first ver ^¬ wetted polymer second crosslinked polymer.

Method according to one of claims 1 to 3, characterized in that the carrier (1) is immersed in a liquid dye at least with its observer-side surface (3) and that the liquid dye forms the transilluminable coloring (14).

Method according to one of the preceding claims, characterized in that the support (1) is masked on flooding with the colored crosslinked polymer or on immersion in the liquid dye in at least a portion of the flooded or submerged surface of the support (1).

10. The method according to any one of the preceding claims, characterized in that an observer side facing away from the carrier (1) in an optical bonding process step with a display ^¬ device (16) is connected.

11. Motor vehicle interior element (2), wherein the force ^¬ vehicle interior element (2) is formed three-dimensionally and radiotranslucent, characterized in that the motor vehicle interior ^¬ space element (2) has a three-dimensional transparent support (1) made of a crosslinked polymer and on a observer-side surface (3 ) of the carrier (1) to ^¬ ordered dyed, at least in a portion durchleuchtbare cover layer of a crosslinked polymer as a transilluminable coloring (14) or after immersion at least the observer side surface (3) of the carrier (1) in liquid dye in the carrier (1) having remaining transilluminable (14) coloring.

Motor vehicle interior element (2) according to claim 11, characterized in that a display device (16) is arranged on a side of the carrier (1) facing away from an observer.