DE2933371C2 - Insulating glass unit with alarm device - Google Patents

Description

The invention relates to an insulating glass unit with an alarm device according to the preamble of the patent claim I.

Such a device is known from DE-OS 26 42 203. In this known arrangement occurs Difficulty on. that their responsiveness is strongly dependent on the external atmospheric pressure. is If this is very deep, the interior space of the unit increases as the panes move away from each other. In contrast, when the atmosphere is high, the interior space is reduced as the panes approach each other. This of course also changes the internal pressure of the gas filling and thus the response sensitivity the alarm device. In the case of extreme pressure fluctuations in the atmosphere, this is even normal Set sensitivity to fear an unintentional triggering of the alarm.

The invention is intended to eliminate this problem and to provide an insulating glass unit with an alarm device are created that are essentially unaffected by external influences such as pressure, temperature and the like and a constant responsiveness owns

According to the invention, this object is achieved by means of two mutually independent embodiments the characterizing parts of claims 1 and 2 solved, in which the thermal conductivity or the electrical Conductivity of the gas filling of the insulating glass unit measured and in the event of a sudden change in this conductivity an alarm signal is triggered.

It is possible through this solution according to the invention have become to leave the connected alarm system switched on continuously, since the associated Space and also when the window containing the insulating glass unit is actuated Vibrations and noises do not trigger an alarm. This only occurs when the insulating glass unit breaks triggered because air penetrates into the interior of the unit and that measured by the sensor changes the physical or chemical properties of the gas filling. This change may be delayed of a few seconds, but this is entirely permissible in this case. After this Time, the alarm is automatically triggered because of the deviation of 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. The structure of such a Sensor with the necessary electronic component to generate signals when calibrating the measured The person skilled in the art is familiar with the value of a setpoint value from other contexts and must therefore are not explained in more detail here.

Such a sensor with electronic component can be extremely small, so that it is advantageous Embodiment of the invention in a recess of the sealing and connecting member οΧτ of the associated Window frame is arranged invisible from the outside. Under sealing and connecting organ is each Understood device that 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, one edge-soldered seal or from the fused deformations of the pane edges All-glass double panes exist. If a spacer in the form of an aluminum hollow profile is used the probe can be conveniently located in the cavity of the Profile can be accommodated. Since the arm device according to the invention is not visible from the outside. becomes a Enticed burglars to break the apparently unsecured window pane and thereby set off the alarm trigger.

In the embodiment of the invention with a thermistor surrounded by the gas filling as a measuring sensor Specifically heavier and lighter gases than air can be used for gas filling.

mostly heavier ones because of the simpler filling Gases are preferred. In any case, the gas filling has a different warmth than air conductivity, so that heat dissipation from the Constantly energized thermistor is changed as soon as air enters the interior of the insulating glass unit penetrates. When the unit breaks, therefore after a short delay, the electrical conductivity of the thermistor as a result of the changed heat.

the discharge into the surrounding atmosphere has changed beyond a specified deviation from the target value, so that the electronic component sends a signal to the alarm system and triggers it.

In the embodiment with a condenser surrounded by the gas filling as a sensor, the Difference in the ionizability of the gas filling and the penetrating air for triggering the alarm exploited.

A major advantage of the invention is also therein to see that the installation of the alarm device is extremely simple and from the manufacturer of the insulating glass unit can usually be done by yourself.

An exemplary embodiment of the invention is explained with the aid of the figures. It shows

F i g. 1 a schematic representation of the insulating glass unit with alarm device and connected alarm system;

FIG. 2 shows a section along the line H-II in FIG. 1; and

F i g. 3 is an enlarged partial illustration of a corner the in F i g. 1 insulating glass unit shown.

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

In a recess 20 of the spacer 14, a rod-shaped measuring sensor 22 is arranged, which over an opening 24 of the recess 20 with the interior 18 communicates. The gas filling in the interior 18 therefore touches the sensor 22, but is the The sensor 22 itself cannot be seen from the outside due to the small size of the opening 24. In the illustrated embodiment If the spacer 14 has a bulge 26 in the region of the recess 20, which is located in the sealant 16 extends into it so that the probe 22 can be conveniently accommodated in the recess 20 can without being visible from the outside.

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

In addition 1 Bleu drawings

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Claims (2)

Patent claims: 1. Insulating glass unit with alarm device, consisting of of at least two parallel sheets of glass, one around the edge of the unit, between the glass panes arranged sealing and connecting member, a gas filling in that of the Glass panes and the sealing and connecting member formed interior and one on the unit attached sensor, which is in contact with the gas filling and via an electrical connection line can be connected to an alarm system that can be triggered by a signal emitted by the sensor is. wherein the sensor gives a signal in the connecting line as soon as the measured by the sensor Value of a property of the gas filling by more than a predetermined amount of one Seals setpoint, characterized that the sensor (22) has a thermistor surrounded by the gas filling and that a with the electronic component connected to the sensor (22) by means of determining the electrical conductivity of the thermistor is suitable for measuring the thermal conductivity of the gas filling. 2. Insulating glass unit with alarm device, consisting of of at least two parallel sheets of glass, one around the edge of the unit, between the glass panes arranged sealing and connecting element, a gas filling in the of the Glass panes and the sealing and connecting member formed inside the unit attached measuring sensor, which is in contact with the gas filling and via an electrical connection line can be connected to an alarm system that can be triggered by a signal emitted by the sensor is, the sensor gives a signal in the connecting line as soon as the measured by the sensor Value of a property of the gas filling by more than a predetermined amount of one Setpoint deviates, characterized in that the measuring sensor (22) is surrounded by the gas filling Has capacitor and that an electronic component connected to the sensor (22) is suitable for measuring the electrical conductivity of the gas filling.