SE456951B - ALARM DEVICE STEPPED BY A WINDOW CONSTRUCTION AND INCLUDING AT LEAST ONE TRANSMITTER OF ULTRA SOUND - Google Patents

Description

15 20 25 30 456 951 _2 there has been no adequate alarm device for such constructions. According to the invention, it is possible to create a solution to the above-mentioned problems by means of ultrasound. The features which are characteristic of the present invention appear from the appended claims. The risk of false alarms is minimal according to the invention in cases where the ultrasound is emitted and registered in the glass pane of a multi-glass construction which is located inside the room or room to be protected. If a laminated multi-glass construction is used, the risk of false alarms is even less, since the laminate layers can insulate the ultrasound to only the innermost glass pane at the same time as each crack hole or the like in the glass package directly triggers the alarm. Of course, the ultrasound can be used on other glass, but then a deteriorated function is obtained.

The invention is described in more detail below with reference to the accompanying drawing, which schematically shows in a cross-sectional view the alarm according to the invention mounted in a multi-glass construction.

The drawing shows a window construction comprising three glass panes 1-3, which are held together by two laminate layers 4,5.

An ultrasonic transmitter 6 is mounted in a first place at preferably the inner glass pane 1, i.e. on the inside 10 of the window construction and so that it is embedded in the laminate layer 4 adjacent to the inner glass pane 1, the transmitter 6 having one of its surfaces preferably abuts directly against the actual surface of the glass pane 1. A receiver 7 of the ultrasound emitted in the glass pane 1 is mounted in another place against the glass pane 1 for recording pulses received from the glass pane 1. An alarm not shown in the drawing is connected to the receiver 7 via connection cables 9 and the transmitter 6 is in turn connected via connection cables 8 to a suitable energy source not shown in the drawing. The window construction is mounted in a glass seam 11 in a conventional manner. The receiver 7 can also be located in the laminate layer 4 next to the inner glass pane 1 at a distance from the transmitter 6 and then suitably in an area of the glass pane 1 which is located in the glass seam 11.

The transmitter 6 can transmit an ultrasound which is secretly pulsating so that one cannot pass by and it can be of the Pico-crystal type. The transmitter 6 is suitably positioned so that only one glass is exposed to the ultrasound if a multi-glass laminated window construction is used. If single glass is used, however, the risk of false alarms increases. The location of the receiver 7 on the glass pane 1 should be made so that the best possible registration of the ultrasound emitted in the glass pane 1 can be achieved and thus at a suitable distance from the transmitter 6, The nature of the glass, size, thickness, resistance, impedance etc. that the ultrasound emitted from the transmitter 6 is perceived in the receiver 7 in a certain way. It is of course also possible to use two or more transmitters 6 as well as two or more receivers 7 in cases where this is necessary on optional glass.

Should a damage to the glass in the form of lameness, breakage, etc. occur, a registration takes place in the receiver 7 that a change has taken place in the received impulses, for example in the form of frequency increase or decrease in frequency. It is possible to enter a time factor in the electronics that control the processes in transmitter 6 and receiver 7, so that changes that take place in the impedance in the glass due to external influences have a longer period of time than an intentional damage in time takes and then decreases. the risk of false alarms. However, the described system works best with other glass and plastic layers in a laminate package. Then the transmitter 6 is preferably tightly fixed to the inner glass 1 in order to best transmit the ultrasound through the glass 1. The laminate layer 4 also embeds the transmitter crystal so that the ultrasound can penetrate into the outer glasses 2 and 3 as little as possible. In this way, the risk of false alarms is limited to a minimum, as external influences are not able to affect the impedance in the inner glass pane 1. Similarly, the system can be compared to a swimming pool where a transmitter makes waves in the water. The waves bounce against walls, bottom, corners, etc. and create a certain wave signal depending on the resistance in the water, walls, etc., whereby one can talk about the impedance of the pool. If you put an object in the water, the whole movement pattern changes, which is registered by the receiver or receivers. The change then triggers the alarm. If the swimming pool leaks to another pool via a canal, the change can affect the indoor pool so that an alarm is triggered.

In a glass pane, it may be enough to place a hand against it to trigger the alarm falsely. Of course, electronics can remedy this phenomenon by adjusting the time factor up or down. In a laminated construction, the outer glass 3 does not affect the alarm when a hand is placed, as is the case with the use of only one glass pane, so that false alarms are almost completely excluded. However, every crack, hole or the like in the glass package triggers the alarm.

The electronics can also be combined with recognition patterns other than ultrasound to further improve the function of the alarm.

A placement of transmitter 6 and receiver 7, respectively, can also be performed on the edge or short side of the glass 1 or the 2,3 glass. vi, .M

Claims (3)

10 15 20 456 951 Patent claims An alarm device preferably in a window construction and comprising at least one transmitter (6) of ultrasound mounted in a first place at a glass pane (1-3) included in the window construction so that the glass pane can be exposed to the ultrasound and at least one receiver (7 ) of ultrasound emitted in the glass pane from the transmitter (6) mounted at another place at a distance from the transmitter (6) at the glass pane for recording pulses received from the glass pane, an alarm coupled to the receiver (7) being triggerable when the pulses have such values which, for example, occur when the glass pane is broken, are characterized in that the glass pane consists of a glass (1-3), which is included in a laminated package (1-5) and that the transmitter (6) and the receiver (7) are attached at the edge of an intermediate glass pane (2) or on one side of the glass panes (1-3) facing another glass pane (1-3) included in the package (1-5). Alarm device according to claim 1, characterized in (1) in the laminated package (1-5). that the glass pane consists of the innermost glass Alarm device according to claim 1 or 2, characterized in that both the transmitter (6) and the receiver (7) of ultrasound are mounted in an area of a glass included in the package (1-5) which is in a window construction supporting glass seam (11).