DE202013001605U1 - Device for monitoring objects - Google Patents

Abstract

Device for monitoring objects, characterized in that it consists of a transmitting and receiving unit, preferably for infrared light.

Description

In the field of security there are various possibilities to monitor an object to be protected with a burglary alarm system. One of the most practical, simplest and least false alarm-prone options is the so-called outer skin protection. Each opening (windows, doors, ...) is monitored for open or closed.

This is usually done by so-called magnetic contacts. In this case, a magnet is attached to the movable part of the opening. At the frame of the opening, a reed relay with ferromagnetic contact tongues is attached opposite the magnet. A control current is passed through the reed relay via the central burglar alarm system. Now, if the opening is closed, the magnet is close to the relay, the contact tongues are closed, the current can flow. If the opening is opened without authorization in the case of a sharp intruder alarm system, the magnet with the window / door moves away from the frame and thus from the reed relay, as a result the ferromagnetic contact tongues open and the current can no longer flow. This is registered by the alarm center and alarm is triggered.

The disadvantage of magnetic contacts lies in their principle of signal transmission. Magnetism works wirelessly and also, possibly with restrictions, through objects or material. Since it is not monitored whether the magnetic field, which keeps the contact tongues closed, really comes from the associated magnet on the frame, a potential culprit can take influence on the magnetic contacts by applying an external field from the outside. In extreme cases, it can keep closed by a foreign field, the reeds and open the opening unnoticed by the alarm center and consequently without alarm triggering. This has been known for a long time, which is why various developments of the magnetic contacts exist, which register such an attempt at overcoming. This happens once through a second reed relay, which responds to external fields and triggers an alarm when creating such. Here, however, there is the disadvantage that a potential offender can very easily trigger alerts by creating a foreign field, which, since no threat or fault is detected, can be interpreted as false alarms. This reduces the alarm plausibility, which weakens the alarm tracking and, in extreme cases, leads to the burglary alarm system being temporarily deactivated on suspicion of a technical defect. It should be noted at this point that the two types of magnetic contacts just described, despite the known weaknesses, are used most frequently. It thus becomes clear that the state of the art in opening surveillance has serious safety deficiencies. However, there is also a magnetic contact in which the second reed relay is controlled via a separate sabotage loop. Here can now be distinguished by the alarm center between alarm by opening the opening and sabotage attempt by creating a foreign field, so that it has no serious security deficiencies and can therefore be described as safe. However, this design of the magnetic contacts in the market hardly exists, moreover, this is about five times more expensive than the simple magnetic contact and about three times as expensive as the magnetic contact with a second reed relay.

The invention is therefore an object of the invention to develop an alarm, mainly, for opening monitoring, which is safer than the simple magnetic contact and the magnetic contact with an additional reed relay and cheaper than the magnetic contact with sabotage monitoring.

This object is achieved according to the invention as in the following description with reference to a preferred embodiment. The accompanying drawings represent the following:

1 : Housing A (electronics) and housing B (reflector), open

2 : Exemplary version of the alarm detector, housing mounted opposite each other on a closed window

3 : Alarm triggered by opening the opening

4 : Exemplary version of the alarm detector consisting of housing A and housing B with translucent filter, shown closed

5 : Path of light with closed mouth

Basically, the alarm detector consists of two basic components. These are as in 1 shown, a send ( 1 [ 1 ]), as well as a receiving unit ( 1 [ 2 ]). These two basic components are in the so-called housing A ( 1 [ 3 ]), which is installed on the frame of the opening to be monitored. Housing B ( 1 [ 4 ]), acts as a reflector and is installed on the moving part of the opening, directly opposite housing A. About the first lead, incorporated in a cable ( 1 [ 5] ), the transmitting unit is now supplied with power from the alarm center (sabotage line). When arming the burglar alarm system is then via a second supply line (signal line), which also in this cable ( 1 [ 5 ]) is incorporated, also passed through the control panel a control current through the receiving unit. If the opening is closed, the two housings are directly opposite each other ( 2 ). The light ( 3 [ 1 ]), which by the transmitting unit ( 3 [ 2 ]), hits the reflector ( 3 [ 3 ]) and from this to the receiving unit ( 3 [ 4 ]). This will make them conductive and allow current to flow across the signal line. If the opening is now opened in the case of a sharp intruder alarm system, the housing B (FIG. 4 [ 1 ]) with the moving part of the opening away from the frame. As a result, the light emitted by the transmitting unit light is no longer reflected on the receiving unit ( 4 [ 2 ]), this is no longer conductive, it can no longer flow on the signal line, this is registered by the alarm center and alarm triggered. In order to avoid internal contamination during operation of the alarm, as well as to protect the electronic components, both housings are closed. However, in order to ensure the signal transmission by the light, both housings are provided with a translucent filter ( 5 [ 1 ]). At this point, four notes have to be added:
First, IR light should preferably be used to eliminate interference with other light sources, such as daylight or room lighting, and not add additional visible light sources into the monitored rooms, which could be very annoying in a bedroom, for example.

Second, a wireless version of this alarm is also conceivable, so that instead of the two leads (sabotage and reporting line), a self-sufficient power supply (such as battery, battery, etc.) and a transmitting or communication unit would be necessary for signal forwarding to the center. Thirdly, housing B is not absolutely necessary since the movable part of the opening itself can also be used as a reflector, or a simple reflector, similar to a reflection light barrier, could be attached. However, this involves the disadvantage that then the alarm could be overcome by the so-called Insidersabotage. This can be done by the fact that a potential offender, for example, enters such a secured object at the time of opening and inconspicuously affixes a further reflector, which is independent of the opening, directly above the movable part of the opening or the reflector. Now, in sharp intruder alarm system this opening can be opened without alarm triggering, since now the signal is reflected by the second, independent of the movable part reflector on the receiving unit and thereby despite opening the opening continues to flow current through the signal line. But now, as explained in this alarm, a second housing used, attaching an independent of the movable part of the opening additional reflector leads to the interruption of the signal forwarding and thus when arming the burglar alarm system for reporting. The task of the second housing is thus to allow the reflection of the light beam in a protected environment, and thus to prevent overcoming of the alarm by insider sabotage, or a culprit.

Fourth, this alarm detector described here was designed primarily for use in opening surveillance. However, it is of course also possible to monitor other objects such as art objects, safes, etc. on presence instead of windows or doors.

Such a designed device for monitoring objects allows the following advantages:
An influence by a potential offender on the outside of the alarm is, if at all possible, much more difficult than in the prior art, the magnetic contacts. Further, the intentional or unintentional interference by extraneous light due to the shielding of the electronic components and the preferred use of IR light is very unlikely. Also, such a designed alarm detector for opening monitoring is most likely cheaper than any kind of magnetic contacts. Moreover, with this alarm, the innovation is that the principle of the reflection light barrier in the field of securing objects to be protected is not used to areas on the passage or penetration, but an object (eg, window, door, art object). ) to monitor for presence. Also, the problem of frequent or slight false alarm triggering, which consists in Alarmmeldem based on light barriers, given by the very small distance of the two housing hardly. Further, the innovation is that the reflection takes place within a second housing to prevent insider sabotage

Claims (3)

Device for monitoring objects, characterized in that it consists of a transmitting and receiving unit, preferably for infrared light. Device for monitoring objects according to claim 1, characterized in that it uses the principle of the reflection light barrier in the field of security to monitor objects such as windows, doors, etc. on presence. Device for monitoring objects according to claims 1 and 2 characterized in that the reflection of the signal takes place within at least one further housing, so that the attempt of manipulation leads to the interruption of the signal by adding a further reflector.

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