EP1868797A1

EP1868797A1 - Method for producing a film

Info

Publication number: EP1868797A1
Application number: EP06723754A
Authority: EP
Inventors: Martin Döbler; Roland KÜNZEL; Dirk Pophusen; Winfried Kohl; Matthias Boll
Original assignee: Bayer MaterialScience AG
Current assignee: Covestro Deutschland AG
Priority date: 2005-04-06
Filing date: 2006-03-27
Publication date: 2007-12-26
Also published as: KR20070116689A; JP2008538331A; US20090139639A1; CN101184607A; CA2603218A1; CN101184607B; WO2006105887A1; US20060237123A1; MX2007012215A

Abstract

The invention relates to a method for producing a film that is provided with electrical conductors, comprising the following steps: a) mounting one or more electrical conductors on a frame-shaped element; b) applying and fixing the conductors fastened according to step a) to at least one plastic film, and; c) removing the frame-shaped element.

Description

Process for producing a film

The invention relates to a method for producing a film which is provided with electrical conductors.

In order to reduce body weight in the automotive industry, e.g. Glass panes replaced by transparent plastic panes. For rear windows, the plastic discs are usually provided with heating wires.

Headlamps such as headlamps, tail lights, and other automotive lighting devices typically do not require a dedicated deicing device, as long as conventional halogen or gas discharge lamps are used. These produce enough heat to defrost ice and snow and remove fogging caused by condensation ©,.,. On the other hand, headlamps with cold luminescent elements, such as light-emitting diodes (LED, light-emitting diode) or headlamps with xenon lamps, do not generate a sufficient amount of heat and therefore show too little defrosting power. Ice formation or fogging on the cover of headlamps is disturbing not only for aesthetic reasons. For safety reasons, the light beam should not be attenuated or scattered when exiting the headlamp.

From the prior art methods for the production of plastic discs are known, are embedded in the electrical conductor structures. So 101 47 537 a method is known from DE, a plastic sheet are associated with the electrical conductors of a surface, which are subsequently back-injected with a further plastic ski ^'CHT or after imprinted, is to form a disc body. For laying the wires known methods are used from the prior art. For example, a laying head is guided over the surface of the film, which presses or presses the wires continuously under light pressure and by means of heat into the surface of the film. The disadvantage of this method is that it is relatively time-consuming, since the wires are pressed continuously by means of a laying head in the film.

IP 2003197013 A, JP 2002150812 A and JP 2002211309 A describe the installation of heating wires in the cover of vehicle scissors. However, conventional heating wires are clearly visible and are not acceptable for aesthetic reasons. JP 10312705 A describes the installation of foils or plates in vehicle headlights by means of film back-injection molding. The films or plates are provided with conductive pastes.

The object of the present invention is to provide a method for producing a film in which. a plastic film is provided with a plurality of wires. The procedure should be as simple as possible and feasible in a few steps.

The invention relates to a process for producing a film which is provided with electrical conductors, comprising the following steps: a) mounting one or more electrical conductors on a frame-shaped element (clamping frame), b) applying and fixing the according to step (a) clamped conductor on at least one plastic film, c) removing the frame-shaped element.

The electrical conductors are made of an electrically conductive material, preferably a metal, particularly preferably tungsten. The diameter of the electrical conductors is preferably 5 μm to 3 mm, particularly preferably 10 μm to 40 μm. As electrical conductors wires can be used.

According to step (a) of the method according to the invention, one or more electrical conductors, e.g. Wires, spanned on a frame-shaped element and form a host of ladders. The electrical conductors can for example be clamped substantially parallel to one another. However, they can also be clamped onto the frame-shaped element according to any other pattern. The wires can be clamped, for example, by wrapping a frame-shaped element.

It can also be equipped with electrical conductors at the same time several frame-shaped elements, for example, by two frame-shaped elements are placed together and wrapped with electrical conductors. The conductor ends are then suitably fixed on the clamping frame, z. B. by means of terminal strips. Subsequently, the two frame-shaped elements are separated from each other by the electrical conductors are severed in the region between the two frame-shaped elements. In this way, two frame-shaped elements are produced with clamped conductors simultaneously, which can be applied subsequently to a film. The electrical conductors are preferably arranged on a frame-shaped element, for example a clamping frame, parallel or approximately parallel to one another at a distance of 200 μm to 20 cm, preferably 0.5 mm to 5 cm, particularly preferably 1 to 10 mm.

A - preferably suitable clamping frame ^' is for example a rectangular frame having on at least two opposite sides K'mme or a series of depressions which determine the position of the electrical conductor.

In a second step (b), the clamped conductors are applied to a plastic film and fixed. The application and fixing on the plastic film can be done by heating the conductors and / or the plastic film. The heating of the plastic film can be made selectively or areally. Additionally or alternatively, all electrical conductors or only some of the electrical conductors can be heated. The fixation of the electrical conductors on the plastic film by heating is particularly preferably characterized in that either the electrical conductors are heated over their entire length by applying an electrical voltage so that the surface of the plastic film in contact with the conductors melts and the adhesion of the conductors the plastic film allows. Alternatively, the electrical conductors can also be heated only selectively, for example by means of a hot wire or a soldering iron. ^•

Alternatively or additionally, the application of the electrical conductors on the plastic film can also be done by gluing or welding. The bonding can be done either by applying a suitable adhesive or preferably by using a solvent which dissolves the surface of the film and thereby causes the adhesion of the electrical conductors on the plastic film. In a polycarbonate ballast film, the use of dioxalane and methylene chloride as a solvent for fixing the conductors is preferred.

The application of the electrical conductors to a plastic film can also be carried out under pressure, so that the clamped conductors are pressed onto the plastic film. The pressing is preferably done at elevated temperature, which is at least so high that the plastic film melts.

In a preferred embodiment of the method, at least one further plastic film is applied after applying the clamped conductors to a plastic film according to step (b). This can be done either immediately after step (b) or only after the removal of the frame-shaped element according to step (c). Another plastic film is applied in such a way that the electrical conductors are arranged between the first film and the second, further film. It can also be applied more plastic films. According to a preferred embodiment, a thermoplastic material is applied by injection molding in an additional step (d) on the provided with electrical conductors plastic film. The application by injection molding can be done by injection molding or Hinterprägen. In the following, the term back injection is used partially simplifying. However, within the meaning of the present invention, the term "back injection" always includes the alternative method of embossing.

Alternatively, the plastic sheet provided with electrical conductors may also be applied to a panel, e.g. from thermoplastic material, in particular as it is also used for the plastic film, or 10 glass, are applied. This can be done for example by gluing or laminating.

The thermoplastic material is preferably back-injected or back-embossed in a thickness of 0.5 mm to 50 mm, more preferably 2 mm to 6 mm.

At 15 DEM, injection molding in accordance with step (d) is in particular inserted in accordance with the geometry of the part or tool geometry ^■ prefabricated foil in the shaping tool and strengthens the film with the backer through an injection molding or injection compression molding process.

The film can optionally be placed on the core side (ejector side) or on the die side 20 (nozzle side) in the mold. Depending on the position of the film, this is then either inside (overmolding or embossing) or on the Formteilaμßenseite (injection molding or embossing).

In the injection molding process (reinforcing process) of the step (d), the film should preferably be fixed in the forming tool. The fixation of the film may e.g. on the geometry of the film, 25 via electrostatic fixation, vacuum, holding tabs on the film or via fasteners in the forming tool are performed. Preferably, the film is fixed over the geometry.

, Significant importance in the Hinterspritz- or Hinterprägeprozess comes the positionally accurate

30 fixation of the film too. This is particularly important since there are special ones in the forming tool

Constructions in the form of ejectors, sliders or core pulls for accurate positioning

Ablation on the electrical conductors for the subsequent contacting of the electrical conductors are required. It is preferable to dye the conductors by means of precisely adjustable cores.

35 After inserting and fixing the film, the injection molding is carried out after the backmoulding or back embossing process according to the component-specific manufacturing parameters of the production machine. The plastic film and to be back-injected thermoplastic may consist of the same or different materials, preferably of the same materials. It is possible to use transparent or translucent thermoplastics. As thermoplastics are, for example, polycarbonates or copolycarbonates based on diphenols, the poly or copolyacrylates and poly or Copolymethacrylate, preferably polymethyl methacrylate, poly or. Copolymers with styrene, preferably transparent polystyrene or polystyrene-acrylonitrile (SAN), transparent thermoplastic polyurethanes, and polyolefins, preferably transparent polypropylene types, or polyolefins based on cyclic olefins (for example, TOPAS ^®, Ticona), poly- or copolycondensates of terephthalic acid, preferably poly or copolyethylene terephthalate (PET or CoPET) or glycol-modified PET (PETG).

Particularly preferred materials are bisphenol A polycarbonate, copolycarbonates of bisphenol A and l, l-bis (4-hydroxyphenyl) -3,3,5-trimethylcyclohexane, as well as poly- and Comethylmethacrylate. ^•

The production of the thermoplastic polymer films is known from the prior art. Depending on the application, films with a thickness of 0.01 to 10 mm, preferably 0.1 to 0.4 mm, can be produced and used in the process according to the invention. In order to achieve a high degree of transparency, it is advantageous that the side facing away from the melt flow during the back-injection process has the smoothest possible surface.

In the inventive method, the film may Electrodag ^® 418 SS Fa. Acheson provided, even with a print (Printing), for example, a conductive paste such as prior to the application of the electrical conductors, for example for decorative purposes and / or to the contacting with an electric omnibus manufacture.

The advantage of the method according to the invention is that the electrical conductors are not applied serially with a laying head, but in one step on the plastic film. This greatly simplifies the application of a variety of wires and saves time.

Another object of the invention is a composite material prepared by the process according to the invention.

The film produced by the process according to the invention can, for example, in visors of

Motorcycle helmets or heated windows, such as rear windows in motor vehicles or refrigerator doors, find application. For this purpose, the film is preferably with a transparent or translucent theraioplastic plastic injected behind. The wires are electrically connected to a switchable power supply.

Another object of the invention is a headlamp, in particular for vehicles, comprising a cover for covering a light exit opening, wherein the cover comprises a film produced by the inventive method.

As a headlamp are all known headlights, in particular vehicle dusters. Preferably, it is a headlamp with at least one light-emitting diode as the radiation source. However, it is also headlights with conventional radiation sources such as halogen lamps or gas discharge lamps.

The film provided with electrical conductors is preferably back-injected or embossed with a transparent thermoplastic material and thus forms a molded part, comprising a transparent film, electrical conductors and a layer of a transparent thermoplastic material. The molded part serves as a cover in the headlight according to the invention. The laddered plastic film may be back-injected such that the foil provided with electrical conductors may support either the outside or the inside of the molding, i. the cover, forms. Alternatively, the plastic sheet provided with plastic can also be applied to a glass cover, e.g. by gluing or laminating.

The surface of the molding, i. the cover, can be structured or unstructured. The molding may also be partially printed (e.g. for deckor purposes, be provided. The imprint can also be made up of several layers. The molded part can be painted or unpainted. The paints used are commercial scratch-resistant coatings, e.g. based on siloxane, polyurethane or acrylate, in question.

The electrical conductors as a heater are expediently associated with suitable sensors and a suitable control electronics to automatically regulate the power consumption of the heater and vote with the j eweiligen load condition of the electrical system. example

To make a set of parallel wires a rectangular clamping frame is used, which has a parallel sliding sidebar.

The frame of the clamping frame consists of three fixed side members and a fourth sidebar, which is parallel to the opposite sidebar slidably. The sliding side panel is held in position by two rails each on the right and left sides. Two locking blocks on each side ensure the position of the sliding sidebar. On top of the sliding sidebar and the opposite bar round pins are at a distance of one millimeter attached to each other, forming two opposing ridges. These pins have a diameter of one millimeter. A polycarbonate film lies directly on the pins and is clamped in the clamping frame. A tungsten wire with a diameter of 19 microns, whose end was attached to the fixed side member by adhesive strips, is placed over the tenter. curious; excited. Here, the wire is applied to a pin, stretched over the polycarbonate sheet and placed around the corresponding counter pin on the movable sidebar, led back to fixed bar and there again tightened around the next pin. By appropriate further laying of the wire creates a pattern on the underlying polycarbonate film, which has a total of 80 parallel wires with a spacing of 1 mm. The end of the wire is in turn tautly attached to a side member with tape.

For fixing of the wire on the film a suitable for the polycarbonate used solvent is used, _^ AIS alternatively the local heating of the film by means of a, preferably electrically heated tip, whereby the substrate is softened at certain points and the wire by pressing and then cooling, with the Substrate is connected.

The liquid used for the polycarbonate film is a saturated solution of polycarbonate in methylene chloride. It is dripped onto the parts to be fixed with a pipette. It is important to ensure that the wire rests on the polycarbonate film or at least enclosed by the solvent droplets. The solvent evaporates and the drop hardens to solid polycarbonate, which fixes the wire to the film.

After fixing the wire on the polycarbonate film, the clamping frame is loosened and the formed wire loops are pulled off via the dowel pins. The loop ends of the wires are on both sides of the composite with the aid of a Silberleitpaste with one each

Power distribution rail electrically connected. This will cause the parallel wires on the slide electrically connected in parallel and can be connected to the two poles of a power supply and used as parallel heating wires.

In another approach, only the open ends of the fixed wire are electrically connected to a power supply to achieve a series connection of the parallel wires.

A fixing of the wire as described above is required at the edge of the polycarbonate film, but also useful in the middle as an intermediate fixation, as this facilitates the further processing of the film-wire composite. The individual fixing points are z. B. after the back molding of the film with thermoplastic material (also polycarbonate) or lamination of the film on the wire side with a second polycarbonate film no longer visible.

Claims

claims

1. A method for producing a film, which is provided with electrical conductors, comprising the following steps: a) clamping one or more electrical conductors on a frame-shaped element, b) applying and fixing the step according to step (a) clamped ladder on at least one ^' Plastic film c) Remove the frame-shaped element.

2. Method according to. Claim 1, characterized in that after the application of the clamped conductors on a plastic film according to step (b) at least one further plastic film is applied.

3. The method according to any one of claims 1 to 2, characterized in that the electrical conductors made of metal, preferably made of tungsten.

4. The method according to any one of claims 1 to 3, characterized in that the electrical conductors have a thickness of 5 microns to 3 mm, preferably 10 to 40 microns.

5. The method according to any one of claims 1 to 4, characterized in that the plastic film

^■ made of polycarbonate or copolycarbonate based on diphenols, polyacrylate or copolyacrylate,

Polymethacrylate or copolymer polymethacrylate, preferably polymethylmethacrylate, polystyrene or

Copolymers with StyroJ, preferably transparent polystyrene or polystyrene-acrylonitrile (SAN), transparent thermoplastic polyurethane, Polyolefm, preferably transparent polypropylene, polyolefin based on cyclic olefins or poly- or copolycondensates of terephthalic acid, preferably poly- or copolyethylene terephthalate (PET or CoPET) or

, Glycol-modified PET (PETG) exists.

6. The method according to any one of claims 1 to 5, characterized in that the plastic film has a thickness of 0.01 to 10 mm.

7. The method according to any one of claims 1 to 2, characterized in that in an additional step (d) on the provided with electrical conductors plastic film, a thermoplastic material is applied by injection molding.

, A method according to claim 7, characterized in that the thermoplastic material for injection molding according to step (d) is a polycarbonate.

9. The method according to any one of claims 7 or 8, characterized in that the thermoplastic material is applied in a thickness of 0.5 mm to 50 mm.

10. Composite material with electrical conductors, comprising at least one polycarbonate film with one or more metal wires which are fixed on the film.

11. A composite material according to claim 10, prepared by a method according to any one of claims 1 to 6.

12. A composite material according to claim 10, characterized in that the polycarbonate film is back-injected on the DrabJ ^ ufweisenden side with thermoplastic material.

13. Composite material according to claim 10, characterized in that the material is produced according to one of claims 7 to 9.

14. A headlamp comprising a cover plate for covering the Lichtaustrittsöffhung, wherein the cover plate comprises a film prepared by a method according to any one of claims 1 to 9 comprises.