DE3127721A1 - Process and device for the continuous coating of plastics with glass - Google Patents

Abstract

Plastics are continuously coated with glass by guiding a flat glass at constant velocity in a zone for heating to glass softening temperatures. In this zone, only a narrow strip of the flat glass is converted to the liquid state. The flat glass is drawn out of this zone to form a glass film, the draw-off rate being a multiple of the velocity of feeding of the flat glass. The glass film thus formed is combined under tensile stress with the plastic to be coated and bonded to the plastic under the effect of pressure and/or heat, preferably with the use of an interposed hot-melt adhesive film.

Description

Method and device for continuous

union coating of plastics with glass The invention relates a process for the continuous coating of plastics with glass and a Apparatus for carrying out this process. The inventive method is especially for the production of windows for traffic vehicles, buildings, shop windows, as cladding and tiles for architectural purposes as well as for manufacturing suitable for glass film reinforced plastics.

Scratch-resistant coated plastics based on polycarbonates and polymethyl methacrylates are used as break-resistant lenses in transport and industrial vehicles as protective glazing and the like. A special meaning.

The coating is generally 5 - 10 / µm thick and consists of hard polysiloxanes, so that the plastic is given a sufficient amount during constant cleaning Scratch resistance can be imparted. But also coated with hard polysiloxanes Viewing panes, e.g. for transport vehicles withstand the usual, often very tough, automated ones Cleaning methods do not last for a long time. There is therefore a need for coated ones Plastic panes, the scratch resistance of which has that of the glasses, as this more than ten times the service life of the plastic coatings known to date own.

The coating should also adhere very well, good optical qualities and will not discolour even after long use.

The invention is therefore based on the object of providing glass films with good optical properties and uniform thickness in an economical way continuously and these directly after their production on the plastic to raise. The resulting product should then have the scratch resistance of glass and the high breaking strength of plastics together with its much lower Weight 'unite.

It is known to blow glass films down to about 1 µm in thickness to manufacture. The resulting structures show, however, next to an irregular one Also, do not thicken a flat surface; it is rather cylindrical or spherical curved. In addition, these structures crumple and crumple into unusable foils, if the internal pressure is released again after the blowing process. An essential one The object of the present invention is therefore also to develop a method which makes it possible to continuously produce large quantities of flat sheets of glass and to keep them under tension until they are firmly attached to the surface to be coated Plastic surface are applied.

It has now been shown that this task can be achieved with one method can solve, in which a flat glass at constant speed in a zone for Heating up to the glass chung temperature is performed in which only a narrow strip of the flat glass is brought into the flowable state and from this zone the flat glass is pulled out to form a glass film, the Pull-off speed is a multiple of the speed for tracking the flat glass is, and when the glass film is under tension with the plastic to be coated merged and under the action of pressure and / or heat with the plastic is connected. Advantageous developments of this method are set out in the subclaims 2 to 9 explained, while claims 10 and 11 a device for implementation concern this procedure.

According to the invention it was found that by continuous Insertion of normal flat glass with a thickness of about 1 - 3 mm via a preheating zone into a narrow heating zone, in which a narrow strip of less than 30 mm wide is brought into the flowable state, and by continuous Removal of glass foils from this heating zone an optically perfect foil tape can be generated. This film can be applied until it is firmly attached to the plastic surface are kept under tension in such a way that they do not impair the optical qualities Wrinkles, creases and doublings arise.

This glass film is preferably made using an adhesive connected to the plastic surface. A hot-melt adhesive film is particularly useful for this purpose on the basis of polyvinyl butyral suitable. For this purpose, the glass film tape is used the hot melt adhesive tape passed through a heating zone and then over with Silicone rubber coated rollers pressed onto the plastic surface.

The basic requirement of the method according to the invention is an exact one Control of the tracking speed of the flat glass in the narrow Heating zone for softening and precise control of the take-off speed of the glass film strip, which must be coordinated with the tracking speed. Preferably the Tracking speed of the flat glass approx. 3 - 30 mm / min and the take-off speed approx. 0.3 - 6m / min.

Glass foils with a thickness between 2 and 60 μm are formed in the process. Below 2 / µm, the glass films do not have sufficient resistance to this the trigger mechanism more. Glass film thicknesses over about 60 µm are due The brittleness of the glass associated with this thickness is not suitable.

The width of the flat glass ribbon, which is continuous through the heating zone can be about 1 m.

Plastic disks can also be produced using the method according to the invention coat on both sides. For this purpose, the tape coated on one side can be turned and sent through the system again.

Furthermore, alternating layers can be made according to the method according to the invention of glass foils and plastic layers are applied to a plastic pane, so that glass film reinforced plastics of high mechanical strength are obtained can. In such reinforced plastics, it corresponds to the cross section related tensile strength of glass films approximately that of glass fibers of the same thickness. The advantage of such, glass film reinforced plastics.

stands in the fact that the high strength in all directions of the plane the glass foil is present. In addition, good optical properties can be retained, so that this material can be used for break-proof panes.

The device according to the invention is illustrated using the accompanying drawings explained in more detail. It show in schematic simplification figure 1 a plant for the continuous production and subsequent application of Glass foil on plastics and FIG. 2 the representation of the glass flow.

From Figure 1 it can be seen that a flat glass 1 with the help of driven Rubber rollers, the speed of which is precisely adjustable, in a vertical direction Heating section 3 is performed. In this heating section there is a heater 4 for preheating the glass pane and then a device 5 for heating to the Softening temperature of the glass provided. The softening zone 6 of the glass is dimensioned so that the flat glass is only approx.

30 mm is brought into the flowable state. The peel speed from this softening zone 6 is effected by take-off rollers 7 made of rubber, which can also be driven with precise speed control. Subsequent to the softening zone 6, a Kuhlatrecke 8 is also provided with water-cooled copper plates. To After leaving the heating zone, the glass film 9 drawn out in this way is moved over roller 10 in brought a vertical direction and by interposing an adhesive tape 11 by means Rollers 12 are connected to the plastic belt 13. Then you can also use edge trimmers 14 may be provided, through which the protruding edges of the glass film removed will.

From Figure 2 it is clear that the glass ribbon 1 after peeling from the softening zone 6 contracts somewhat in width, so that the resulting Glass foil 9 has an edge zone 15 with a greater thickness. It will therefore Glass films protruding in width are applied to the plastic and the thickened edge zones in the Then removed by the edge trimmer 14. According to one embodiment of the method according to the invention is a flat glass of 2 mm thick introduced into the heating zone at a feed rate of about 5 mm / min. At a take-off speed of 2 m / min, the thickness of the glass film is 5 μm. The ratio of haul-off speed to tracking speed is in this example 400

Claims (11)

Claims 4 method for the continuous coating of Plastics with glass, characterized in that a flat glass with constant Speed in an edge zone for heating to glass softening temperature becomes, in which only a narrow strip of the flat glass in the flowable state is brought, and from this zone the flat glass is pulled into a glass film, where the withdrawal speed is a multiple of the speed for tracking of the flat glass, and that the glass film under tension with the to be coated Plastic brought together and under the action of pressure and / or heat with the plastic is connected. 20 'The method according to claim 1, characterized in that a flat glass with a thickness of 1 - 3 mm at a speed of 3 - 30 mm / min into the The heating zone is tracked and with a withdrawal speed of 0.3 - 6 m / min is drawn into a glass film with a thickness of 2 - 60 / µm. 3. The method according to claim 1 or 2, characterized in that a preferably transparent one for connecting the plastic to the glass film Glue is used. 4. The method according to claim 31 ', 3, that that as an adhesive a hot-melt adhesive film with a thickness of 2 - 20 / µm, preferably on the base of polyvinyl butyral is used. 5. The method according to claim 3 or 4, characterized in that Before connecting the plastic to the glass film, set the glue to the glue temperature is heated. 6. The method according to any one of claims 1 to 5, characterized in that that the plastic to be coated is made of polycarbonate or polymethyl methacrylate consists. 7. The method according to any one of claims 1 to 6, characterized. marked, that the plastic is coated on both sides. 8. The method according to any one of claims 1 to 7, characterized in that that several glass foils reinforced with plastic foils in between Plastics are connected. 9. The method according to claim 8, characterized in that the plastic films at the same time represent adhesive films. 10. Apparatus for performing the method according to claim 1 to 9, characterized in that the flat glass (1) in the vertical direction in a Heating zone (5) can be supplied for heating to the glass softening temperature, and the feeding of the flat glass (1) or the removal of the glass film (9) via rubber rollers (2, 7) takes place with precise speed control. 11. The device according to claim 10, following the heating zone (5) the glass film over rollers (10, 12) with a temperature-resistant coating, can be brought together in the horizontal direction with the plastic (13) and for removal the protruding edges of the glass film (9) cutting devices (14) are provided are.