The invention relates to a motor vehicle part. More particularly, the invention relates to a method for manufacturing a transparent vehicle part and contributing to the exterior appearance of the vehicle.
A vehicle comprises a plurality of transparent parts that are intended to transmit light. In particular, these are parts used for regulatory lighting purposes, for example those protecting the optical units of high and low headlamps or turn signals. Furthermore, the vehicle may also have light sources that are provided for decorative purposes and improve the aesthetics of the vehicle.
For these purposes, it is possible to treat an external surface of the transparent parts in order to improve their appearance. One possibility for achieving this is to overmold a film on the external surface of the transparent part, the film having a predefined opaque pattern. In this way, when the light source that is associated with the transparent part emits light, the light is partially blocked by the opacity of the pattern and transmitted by the parts of the part that are not covered by the pattern. This improves the aesthetics of the light beam transmitted by the transparent part from the light source to the outside environment. Another possibility is to decorate the transparent piece with paint and masking, which allows a similar result to be obtained.
These options are interesting but can be problematic. Indeed, a film such as that described above can cause problems of color mismatching with the paint of the vehicle, which has a negative impact on the aesthetics of the vehicle. In addition, applying the film in one of the ways presented above may not make it possible to obtain a pattern with as high a degree of precision as desired.
The object of the invention is in particular to remedy this problem by proposing a method that does not pose a problem of color mismatching with the paint of the vehicle and is more precise than that of the prior art.
To this end, a method for manufacturing a vehicle part is provided according to the invention which comprises the following steps:
It is thus possible to apply the paint and the first varnish coat to the entire surface of the transparent part and then remove them by etching using laser radiation according to a predefined selected pattern. As will readily be understood, the laser makes it possible to remove the paint and the first varnish coat in order to obtain a more precise rendering than when implementing one of the methods of the prior art. In addition, by virtue of the fact that the color of the coating is given by paint and not by a film as in the prior art, it is possible to choose a paint which corresponds to that used for the vehicle body. It follows that no problem of color mismatching arises.
The arrangement of the different coats and the order in which they are applied also makes it possible to overcome the following technical difficulties:
Advantageously, the transparent part is manufactured by molding a plastic such as polycarbonate, polypropylene, or poly(methyl methacrylate).
The transparent part is thus simple to produce and inexpensive.
Advantageously, the laser radiation has a wavelength within the infrared, preferably the near infrared.
Such laser radiation effectively eliminates the paint coat and the first varnish coat.
Advantageously, the first and second varnish coats are made of a material that absorbs or reflects ultraviolet radiation.
This protects the transparent part from ultraviolet radiation that might deteriorate it by photodegradation, since its entire outer surface is coated with the second varnish coat and, in part, with the first varnish coat.
Advantageously, the first varnish coat is transparent to any laser radiation having a wavelength within the near infrared.
The varnish coat can thus allow the laser radiation to pass without there being any risk of it being damaged by the laser radiation.
Advantageously, the first and second varnish coats are made of the same material.
Advantageously, the paint coat comprises an opacifying primer undercoat.
The opacifying primer undercoat makes it possible to opacify the paint coat and thus improve its appearance. Without an opacifying primer undercoat, it would be necessary to increase the thickness of the paint coat in order to obtain a similar rendering, which is preferable to avoid for reasons of appearance (sagging, color), cost, and adhesion of the paint coat to the transparent part. In addition, this improves the adhesion of the paint to the transparent part.
Advantageously, the vehicle part is polished after the irradiation step.
This improves the transparency of the vehicle part by limiting the edge effects of the irradiated regions. Specifically, the stepped shape of the layers coating the transparent part is reduced, which contributes to making its surface appearance more homogeneous. This also helps promote the transmission of the light beam through the vehicle part so as to maximize its illumination due to the absence of a so-called “magnifying glass” effect that the edge effects might cause.
According to the invention, a vehicle part is also provided which is obtained through implementation of a manufacturing method as defined above.
The manufacturing method improves the general quality of the vehicle parts produced in this way.
The invention will be better understood upon reading the description which follows, given solely by way of example and with reference to the appended drawings in which:
The vehicle part 2 comprises a transparent part 4 that is intended to protect a light source (not shown). The term “transparent” is understood to mean that it is at least transparent to any light radiation having a wavelength within the visible spectrum, i.e., between approximately 380 and 780 nm. The transparent part 4 is made here of a plastic having this characteristic—in this case polycarbonate, commonly called “PC.” However, a provision can be made to produce the transparent part from any other plastic having this characteristic, such as polypropylene (PP) or poly(methyl methacrylate) (PMMA). The transparent part is produced by molding. Since such a method is known, we will not go into further detail about it in the following.
The vehicle part 2 comprises a paint coat 6 that is deposited onto the external surface of the transparent part 4. The term “external surface” is understood to mean a surface of the transparent part that is not situated opposite the light source and that is intended to be exposed to the external environment once the vehicle has been manufactured. Here, the paint coat 6 comprises an opacifying primer undercoat 8 onto which a base coat 10 is deposited. The base coat 10 makes it possible to color the external appearance of the vehicle part 2. The opacifying primer undercoat 8 improves the opacity of the paint coat 6 and improves the adhesion of the base coat 10 to the transparent part 4.
The vehicle part 2 comprises a first varnish coat 12, which is deposited onto an external surface of the transparent part 4 on top of the paint coat 6.
According to the first step of the method for manufacturing the vehicle part 2, the paint coat 6 and then the first varnish coat 12 are deposited onto the transparent part 4.
The irradiation is carried out in only a portion of the vehicle part 2 in the sense that it is carried out according to a predefined pattern of the external surface of the first varnish coat 12. It is controlled in such a way that the paint coat 6 and the first varnish coat 12 are irradiated and thus eliminated in the pattern and throughout their thickness. Even if the first varnish coat 12 is made of a material that is transparent to laser radiation 14, the irradiation of the underlying paint coat 6 makes it possible to eliminate the first varnish coat 12 in the pattern.
After irradiation, the surface of the vehicle part 2 has two levels.
In the region of the predefined pattern, the transparent part 4 is no longer coated. In this region, visible light can be transmitted from the light source to the outside environment, and vice versa.
Outside the region of the predefined pattern, the transparent part 4 is coated with the paint coat 6 and with the first varnish coat 12. In this region, visible light cannot be transmitted from the external environment to the transparent part 4, and vice versa, because it is absorbed by the paint coat 6.
After this irradiation step, a step of polishing the vehicle part 2 can be provided. This improves transparency in the area of the predefined pattern and, more generally, the aesthetics of the vehicle part 2. In addition, this polishing makes it possible to round the corners formed by the etching carried out during the irradiation step, and thus to improve the aesthetics of the vehicle part 2.
Next, a second varnish coat 18 is deposited onto the transparent part 4 on top of the transparent primer coat 16. Given that it is very difficult to adhere a varnish coat to another varnish coat, the transparent primer coat 16 makes it possible to deposit the second varnish coat 18 regardless of the nature of these two varnish coats.
The second varnish coat 18 has the particular function of protecting the transparent part 4 from any ultraviolet radiation to which it may be exposed, particularly from the sun. In addition, the second varnish coat 18 makes it possible to mechanically protect the transparent part 4, particularly to prevent it from being scratched or deformed by external stresses. Here, the first 12 and second 18 varnish coats are made of the same material, but a provision can be made to use two different varnishes to produce the two coats 12, 18.
At that point in time, the coating of the vehicle part 2 has two different structures.
In the region of the predefined pattern, the transparent part 4 is coated with the transparent primer coat 16 and with the second varnish coat 18. In this region, visible light can be transmitted from the light source to the outside environment, and vice versa. The transparent primer coat 16 improves the adherence of the second varnish coat 18 to the transparent part 4. It also makes it possible to prevent direct contact between the second varnish coat 18 and the transparent part 4, lest the transparent part be attacked chemically by the varnish.
Outside the area of the predefined pattern, the transparent part 4 is coated with the paint coat 6, the first varnish coat 12, the transparent primer coat 16 and the second varnish coat 18. In this region, visible light cannot be transmitted from the external environment to the transparent part 4, and vice versa, because it is absorbed by the paint coat 6.
The invention is not limited to the embodiments described here, and other embodiments will become clearly apparent to a person skilled in the art.
The light source can be part of an optical block of low and high beams of the vehicle, of an optical block of turn signals of the vehicle, or of an optical block of decorative lights.
Alternatively, the transparent part can incorporate light guides or light sources without an optical unit through insert molding, overmolding, fixing by gluing, welding, riveting, or by any other fixing means.
2: vehicle part
4: transparent part
6: paint coat
8: opacifying primer undercoat
10: base coat
12: first varnish coat
14: laser radiation
16: transparent primer coat
18: second varnish coat
Number | Date | Country | Kind |
---|---|---|---|
1908966 | Aug 2019 | FR | national |