DE19860872A1 - Pane breakage detector for panes in windows and doors - Google Patents

Abstract

The detector has a breakage sensor in the form of an electrically conducting, transparent coating (3) applied to the entire surface of the pane. If the pane is damaged the applied coating is changed. The coating can be divided into one or more segments and/or meander shapes (1).

Description

Various are used to secure panes in windows and doors Disc breakage sensors used. So is putting on an acoustic or piezoelectric sensor on the disk to be secured Technology. These sensors can, however, due to the limited sensitivity not detect any tampering with the pane to be monitored. Several sensors are also required for larger panes. That too thermal prestressing of the disc with simultaneous integration of a Break sensor in the disc is an applied method of break detection, which, however, is very complex and expensive. In addition, must already at the beginning of the disc production the later use as Prestressed, breaking plate should be taken into account. Furthermore are the procedures used in practice are very expensive.

The invention specified in claim 1 is based on the problem to be able to clearly determine the breakage of the pane and also with one Glass cutter to be able to detect separated sections of the pane. Furthermore, the cost of the break sensor is reduced as well as the problem-free Retrofitting of the fracture evaluation aimed for.

This problem is solved by the features listed in claim 1, that a firmly adhering, electrically applied to the entire surface of a disc conductive, transparent coating used as a broken glass sensor is, the layer applied changes when the pane is damaged will be solved.

A sudden change in the electrical resistance of the conductive layer caused by a broken glass, a crack in the pane or even a cut section is caused by a suitable evaluation electronics prepared so that, for. B. a corresponding alarm can be triggered can. In the simplest case, the evaluation electronics can be made from a suitable one Relays exist. Also a more precise evaluation that the acquisition of allows smaller changes in resistance or a detection of Change in the capacitive and / or inductive properties of the layer enables, is conceivable.

Every large-scale, transparent pane made of glass, composite materials or other materials with a technological breakdown ter, firmly adhering, electrically conductive, transparent coating for heat Protective measures can be taken by segmenting and / or meandering the applied layer, according to claim 2, by means of laser or other tech African methods are brought to the state of the invention. An on bring the firmly adhering, electrically conductive, transparent coating is known by methods such as gluing, sputtering, vapor deposition  simultaneous or subsequent segmentation / meandering possible. On Apply the firmly adhering, electrically conductive, transparent coating It is also possible if this is not necessarily due to technological developments gave how heat protection measures are necessary to the above exploit parts of the invention. Contacting the generated segments / Meanders with the downstream evaluation electronics can be applied of - according to the application - contact lugs or connection wires are made, which is permanently bonded to the hard with a conductive adhesive adhesive, electrically conductive, transparent coating be done or by inductive / capacitive coupling. An upgrade the disk with the evaluation electronics is then later if necessary feasible, the evaluation electronics can also be integrated into the pane. A massive effort to secure buildings and other capital goods Panes in windows and / or doors is easy and for the Not visible to outsiders.

The following embodiment of the invention, which allows numerous imple mentation forms, shows on the basis of Figure 1 a possible implementation of the invention using the example of large-scale heat protection glass. If the technically prescribed, firmly adhering, electrically conductive, transparent coating of the pane for certain heat-insulating glasses is used before joining the panes to form a double pane (the electrically conductive layer lies in the interior of the panes mounted opposite one another) by means of a laser or other technical processes as shown in Figure 1 with a meander ( 1 ), can be detected by the downstream evaluation electronics for detecting the change in the electrical resistance of the conductive layer, a change in resistance caused by manipulation (broken glass, partial break, cut out piece). In order to separate the electrically conductive, evaluable layer from the mostly metallic connecting frame, for which usually two panes are sufficient, the connection to the frame is interrupted by a continuous interruption of the conductive layer ( 3 ) by means of a laser. The electronics are contacted via the contact surfaces ( 4 ) applied to the conductive layer. The heat shield is installed in the window frame in such a way that the pane provided with the electrically conductive layer and equipped according to the invention is mounted towards the outside of the room. Fig. 2. A manipulation on the outside of the slide already leads to a break alarm. It is also possible to install the electrically conductive, transparent coating on the inside of the room.

List of the reference symbols used

1

meander

2nd

Evaluation electronics

3rd

electrically conductive layer

4th

Contact areas

Claims (2)

1. Disc breakage sensor for panes in windows and doors, characterized in that a surface applied on a pane, firmly adhering, electrically conductive, transparent coating is used as a break sensor, the layer applied being changed when the pane is damaged. 2. pane break sensor for panes in windows and doors according to claim 1, characterized in that the coating in one or more Segment (s) and / or meandering is divided.