DE19810325A1 - Increasing the edge strength of thin glass sheets - Google Patents

Abstract

The method for increasing the edge strength of a thin glass sheet cut out of a larger sheet consists of coating the sheet edges with a highly viscous plastic material to fill the micro cracks emanating from the sheet edges, and hardening the material in the micro cracks. Preferred Features: A glue hardenable by ultraviolet light is used in the role of the highly viscous plastic material. The edges of the glass sheet are dipped into the highly viscous material, and subsequently subjected to ultraviolet light radiation to harden this material in the micro cracks. The material protruding from the glass surface on the outer side of the sheet is subsequently removed.

Description

The invention relates to a method according to the Oberbe handle of claim 1.

Such thin glass panes are used, for example Display displays and required for glass keyboards. At the Cutting thin glass sheets from a thin glass film microcracks develop in the edge area. When handling such thin glass panes when installed in larger ones units, e.g. B. display displays, the problem occurs that when the thin glass panes are under pressure open the micro cracks in the edge area and the whole Destroy thin glass due to crack propagation. Even in the further processed state, e.g. B. in a glass There is a risk of the keyboard breaking if you touch the thin glass foil pressure is exerted or a shock load follows. Even with larger temperature fluctuations the risk that the micro cracks in the Edge area runs out.  

It is known to repair the microcracks by post-processing to remove the edges by sanding or the To cut the thin glass film using laser technology To avoid micro cracks. Both procedures are very complex.

The invention is therefore based on the object Process for stabilizing the glass edges of a thin glass pane to create the manufacture of thin glass panes with increased edge strength.

According to the invention, to solve this problem Features of claim 1.

The invention advantageously provides that the Glass edges of the thin glass pane with a highly viscous Plastic to fill in from the glass edges going micro-cracks are coated, and that at finally the plastic cured in the micro cracks is tested. The plastic becomes due to capillary action pulled into the crack of the micro cracks, so that the micro cracks are completely filled. After this Hardening of the plastic will open another Prevents microcracks on the glass edge and thereby the Edge strength of the glass edge in a simple way increases. In this way, the thin glass pane is in it mechanically resilient to a greater extent.

Preferably, one that cures under UV light Glue used as a highly viscous plastic. One of the like plastic can with the help of UV light un indirectly hardened after inserting the plastic be and has the advantage that the time of the off curing can be controlled precisely.  

The glass edges of the thin glass pane can also be used in the immersed highly viscous plastic and then be irradiated with UV light to the plastic in the Cure micro cracks immediately.

On the outer surface of the thin glass pane, the over standing plastic can be removed. This is one guarantee a perfect surface of the thin glass pane accomplishes.

The following is with reference to the drawings an embodiment of the invention explained in more detail:

Show it:

Fig. 1 a glass sheet cut from a thin glass film thin,

Fig. 2 of the edge portion of the thin glass pane,

Fig. 3 is a section along the line III-III in Fig. 2, and

FIG. 4 shows the edge of the thin glass pane shown in FIG. 1 with a hardened plastic.

A thin glass pane 2 is produced by cutting from a thin glass film. Such thin glass panes are used for. B. for display displays, LCD screens or glass keyboards used, mechanical loads can occur in the handling of the thin glass pane 2 or in the later installation state in larger units, which can lead to glass breakage. The cutting process results in microcracks 18 in the edge region of the thin glass pane 2 , which reduce the edge strength of the thin glass pane 2 and from which there is a considerable risk of cracking when the thin glass pane 2 is subjected to impact or pressure.

By coating or immersing the edges of the thin glass pane 2 in a thin, curable plastic 16 , the microcracks 18 can be filled with plastic 16 as a result of the capillary action.

After the plastic in the microcracks 18 has hardened, there is no longer any risk of breakage from the microcracks, since crack propagation is reliably avoided.

The edge strength is increased so much that the thin glass pane has a significantly higher pressure and Shock resistance reached. This is particularly so important for applications where it is on a flexible bendability of the thin glass pane arrives, for example in the application as a cover glass in a glass keyboard.

FIG. 4 shows the edge coated with a plastic 16 in the edge area 20 of the thin glass pane 2 . The plastic layer located on the outside of the thin glass pane 2 can optionally be removed for optical reasons, but the plastic 16 remains in the microcracks 18 . The highly viscous plastic during coating or immersion can be cured with UV light with the aid of UV light immediately after coating or after immersing the glass edges in the plastic 16 .

The method is preferably applicable to glass thickness in the range between 0.1 and 2 mm and suitable  therefore particularly suitable for glass thicknesses between 0.1 and 0.5 mm, which is used for glass keyboards and pressure switches Thin glass surface are needed.

Claims (4)

1. A method for increasing the edge strength of a thin glass sheet cut from a thin glass film ( 2 ), characterized by

• 1. coating the glass edges with a highly viscous plastic ( 16 ) for filling the microcracks ( 18 ) emanating from the glass edges in the thin glass pane ( 2 ), and
• 2. the hardening of the plastic ( 16 ) in the micro cracks ( 18 ).

2. The method according to claim 1, characterized in that a UV-curing adhesive is used as the highly viscous plastic ( 16 ). 3. The method according to claim 2, characterized in that the glass edges of the thin glass pane ( 2 ) in the highly viscous plastic ( 16 ) are immersed and then irradiated with UV light to harden the plastic ( 16 ) in the micro cracks ( 18 ) . 4. The method according to any one of claims 1 to 3, characterized in that on the outer surface of the thin glass pane ( 2 ) the plastic ( 16 ) projecting relative to the glass surface is removed.