DE2933371A1 - Double glazing system with breakage alarm facility - uses sensor triggered by release of gas between panes of glass - Google Patents

Abstract

The double glazing system using a space filled with a gas includes a sensing element that is triggered if a breakage occurs. The two panes of glass (10,12) are mounted in a frame (14) with a seating packing (16). The bar-shaped sensor is mounted in the frame-packing and communicates with the space between the panes through an aperture (24). The sensor is selected to react to the physical or chemical characteristics of the contained gas. In the event of a breakage the gas escapes and the sensor triggers an alarm. The use of a sensor of this type excludes the possibility of false triggering due to externally generated sound.

Description

Insulating glass unit with alarm device

Insulating glass unit with alarm device, consisting of at least two parallel panes of glass, one around the edge of the unit, between the Glass panes arranged sealing and connecting member, one under about atmospheric pressure standing gas filling in that of the glass panes and the sealing and connecting element Formed interior space and a sensor attached to the unit, which is connected to the Gas filling is in contact and via an electrical connection line to a can be connected to an alarm system which can be triggered by a signal emitted by the sensor.

In known insulating glass units, the alarm device usually has one that responds to vibrations or sound waves Probe on. This has the disadvantage that the alarm system is often triggered unintentionally. It is therefore only switched on in the periods in which the alarm system the space to be protected is not being used. Either expensive time switches are required for this be provided, or there is a risk that the switching on and off Alarm system is forgotten. Also, those are on vibrations or sound waves appealing measuring sensor attached to the known insulating glass units in such a way that that they can be seen from the outside. A trained burglar will therefore try to penetrate into the associated room elsewhere than at the protected window.

The invention is intended to provide an insulating glass unit with an alarm device be created in which the alarm system only when the window is broken, not on the other hand, in the event of vibrations or the occurrence of sound waves of a certain intensity is operated.

In the case of an insulating glass unit, this task becomes the one mentioned at the beginning Type solved according to the invention in that the sensor is an electronic component has, which gives a signal in the connecting line as soon as that from the sensor measured value of a physical or chemical property of the gas filling deviates from a target value by more than a specified amount.

This inventive solution, it has become possible, the connected Leave the alarm system switched on at all times, since the associated Space and also when the window containing the insulating glass unit is actuated Even occurring vibrations and noises do not trigger an alarm. This is only triggered when the insulating glass unit breaks, as air enters the The interior of the unit penetrates and the physical or measured by the sensor chemical The property of the gas filling changes. This change can be made with a delay of a few seconds, but this is entirely permissible in this case. To If this time expires, the alarm is automatically triggered because the deviation of the The value measured by the sensor has then become so large from the set target value is that the sensor emits the signal required to trigger the alarm. Of the Structure of such a sensor with the required electronic component for generating signals when the measured value deviates from a nominal value is dem A person skilled in the art is familiar per se from other contexts and therefore does not need to be detailed here explained. Numerous embodiments are of course suitable of sensors that have different physical or chemical properties of a Can measure gas.

Such an electronic component sensor can be extraordinary be small, so that it is in an advantageous embodiment of the invention in a recess the sealing and connecting member or the associated window frame invisible from the outside is arranged. Sealing and connecting elements are understood to mean any device which connects the two parallel panes of glass. It can therefore for example from a spacer bonded to the glass panes with or without sealing strips, an edge-soldered seal or from the deformations fused together the edge of the pane with all-glass double panes. If a spacer is used in the form of an aluminum hollow profile, the sensor can be conveniently placed in the Cavity of the profile can be accommodated.

Since the alarm device according to the invention is not visible from the outside a burglar is tempted to open the apparently unsecured window pane to break and thereby set off the alarm.

In the preferred embodiment of the invention, the sensor a thermistor surrounded by the gas filling, and the electrical component is by determining the electrical conductivity of the thermistor to measure the Suitable for thermal conductivity. For the gas filling, both specifically heavier ones can be used as well as lighter gases than air can be used, mostly because of the simpler ones Filling heavier gases are preferred. In any case, the Gas filling has a different thermal conductivity than air, so that the heat dissipation is changed by the thermistor, which is constantly under current, as soon as air enters the Penetrates the interior of the insulating glass unit. When the unity is broken, therefore after a short delay, the electrical conductivity of the thermistor as a result the changed heat dissipation into the surrounding atmosphere via a predetermined one Deviation from the nominal value also changed, so that the electronic component sends a signal on the alarm system and triggers it.

In a further preferred embodiment, the sensor a capacitor surrounded by the gas filling and the electronic component is suitable for measuring the electrical conductivity of the gas filling. At this Embodiment is the difference in the ionizability of the gas filling and the ingress of air is used to trigger the alarm.

There are also a number of further advantageous embodiments the invention. For example, sensors for measuring the speed of sound, Air humidity, chemical composition of the gaseous surrounding the sensor Atmosphere and the like. It is only essential that the used Gas filling of the insulating glass unit and air in the respective measured physical or chemical property are different.

A major advantage of the invention can also be seen in the fact that the installation of the alarm device is extremely simple and from the manufacturer of the Insulating glass unit can usually be made by yourself.

An exemplary embodiment of the invention is explained with the aid of the figures. It shows: FIG. 1 a schematic representation of the insulating glass unit with alarm device and connected alarm system; Fig. 2 is a section along the Line II-II in Fig. 1; and FIG. 3 is an enlarged partial illustration of a corner of FIG insulating glass unit shown in Fig. 1.

The insulating glass unit shown has two parallel glass panes 10 and 12, by a rinc # encircling and on both sides with the glass panes 10 and 12 glued spacers 14 are held in a parallel position. Outside of of the spacer 14 is the space between the glass panes 10 and 12 filled with a sealing compound 16. The interior 18 contains the gas filling.

In a recess 20 of the spacer 14 is a rod-shaped Sensor 22 is arranged, which via an opening 24 of the recess 20 with the interior 18 communicates. The gas filling in the interior 18 therefore touches the sensor 22, however, due to the smallness of the opening 24, the sensor 22 itself is of not to be seen on the outside. In the embodiment shown, the spacer 14 in the region of the recess 20 has a bulge 26 which is embedded in the sealant 16 extends into it so that the probe 22 is conveniently housed in the recess 20 without being visible from the outside.

The sensor 22 is via a through the wall of the bulge 26 and electrical connection line 28 led to the outside through the sealant 16 connected to a known alarm system 30, which has an acoustic or has optical alarm transmitter 32.

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Claims (4)

PATENT CLAIMS Insulating glass unit with alarm device, consisting of of at least two parallel panes of glass, one around the edge of the unit, Sealing and connecting member arranged between the glass panes, one approximately below Atmospheric pressure gas filling in the glass panes and the sealing and connecting member formed interior space and one attached to the unit Sensor which is in contact with the gas filling and via an electrical connection line can be connected to an alarm system which can be triggered by a signal emitted by the sensor is, characterized in that the sensor (22) is an electronic component has, which gives a signal in the connecting line (28) as soon as the sensor measured value of a physical or chemical property of the gas filling rejects more than a predetermined amount from a target value. 2. insulating glass unit according to claim 1, characterized in that the measuring sensor (22) in a recess (20) of the sealing and connecting member (14, 16) or the associated window frame is arranged invisible from the outside. 3. insulating glass unit according to claim 1 or 2, characterized in that that the sensor (22) has a thermistor surrounded by the gas filling and that the electronic component by determining the electrical conductivity of the thermistor is suitable for measuring the thermal conductivity of the gas filling. 4. insulating glass unit according to claim 1 or 2, characterized in that that the sensor (22) has a capacitor surrounded by the gas filling and that the electronic component for measuring the electrical conductivity of the gas filling suitable is.