WO2006005768A1

WO2006005768A1 - Device for the parallel monitoring of a plurality of elements, use of said device and method for monitoring elements and for detecting and displaying damages to elements

Info

Publication number: WO2006005768A1
Application number: PCT/EP2005/053388
Authority: WO
Inventors: Janos-Gerold Enderlein
Original assignee: Siemens Aktiengesellschaft
Priority date: 2004-07-14
Filing date: 2005-07-14
Publication date: 2006-01-19
Also published as: TW200606763A; DE102004034005A1

Abstract

The invention relates to a device for the parallel monitoring of a plurality of elements, comprising an optical source for producing a light beam, an optical sensor element including an evaluation device, a beam splitter system for splitting the light beam into at least two different directions, a control unit, coupled to the evaluation device, for triggering an action, and/or a radio module, coupled to the evaluation device, for transmitting results of the evaluation device. The invention also relates to a method for monitoring elements and for detecting and displaying damages to elements caused by vandalism and to the use of the inventive device.

Description

description

Device for parallel monitoring of multiple elements, use of such a device and methods for monitoring elements and for detecting and indicating damage to elements

The invention relates to a device for parallel monitoring of several elements and to trigger a specific action and / or display in case of damage of one or more elements. Furthermore, the invention relates to a method for monitoring elements and for detecting and indicating damage to elements and to a use of a device according to the invention.

Elements such as window panes or mirrors are often vandalized. Especially in trains of public local and long distance windows or mirrors are increasingly destroyed by vandalism. In large cities, such as Berlin, the destruction of the windows by glass cutters or scratches has become "in vogue". For the operators of the vehicles, especially the railways, this type of vandalism causes considerable costs in the rehabilitation of the vehicles or the prevention of future damage.

It is known to monitor such elements, such as windows and mirrors, and to indicate when destroyed or damaged. When destroying, for example, a windowpane by means of glass cutters, the pane is mechanically excited and put into specific mechanical oscillations. The vibrations are emitted acoustically and are audible. In the known state of the art accordingly takes place an acoustic monitoring of the passenger compartment. For this purpose, a microphone is arranged inside the passenger compartment. This microphone picks up the noise within the passenger compartment and forwards it to a system with subsequent signal analysis. Disadvantages of this known solution are the susceptibility to failure by a variety of unpredictable noise that cause a significant deterioration in the detection of the destruction noise, such as the typical scratching noise of a glass cutter. The noise is z. B. driving noise or calling / screaming of people. A safe and reliable detection of a destructive noise can not be achieved with this method alone.

Another known possibility of detecting a destruction noise above-mentioned elements, in particular of windows and mirrors would be through the attachment of electromechanical sensors, such as. Strain gauges, on each element, d. H. on every window, possible. Although this method would be very safe and reliable, the implementation would fail due to the high cost of wiring the sensors to all windows.

The object of the invention is to provide a device and a method for parallel monitoring of elements, in particular of windows and mirrors, which / is cost-effective, flexible and easy to handle and at the / after detection of destruction of an element an action and / or an alarm is triggered on an external device. Furthermore, a simple and inexpensive use of such a device is to be created.

These objects are achieved by a device having the features of patent claim 1, a method having the features of patent claim 9 and a use of the device having the features of patent claim 10.

A device for parallel monitoring of a plurality of elements, comprising an optical source for generating a light beam, an optical sensor element with an evaluation device, a beam splitter system for splitting of the light beam in at least two different directions, a control unit coupled to the evaluation unit for triggering an action and / or a radio module coupled to the evaluation unit for transmitting results of the evaluation device is inexpensive, flexible and easy to handle and triggers detection of a destruction of an element an action and / or an alarm on an external device. Such a device can be easily retrofitted, so that only small retrofit costs. The beam splitter system ensures that the light beam emanating from the optical source or parts of the light beam are directed at all elements, such as panes and mirrors, and after reflection on these elements the respective light beams are directed in such a way that they are directed onto the optical sensor element. This optical sensor element absorbs the light rays reflected by the elements and the evaluation device of the optical sensor element evaluates these light rays. In this case, the evaluation device compares the phase position of the emitted light with that of the returned or reflected light and with previously determined reference values. The reference values are set under quiet conditions or under normal operating conditions. For example, a reference value in a vehicle or a moving compartment of a vehicle can be measured in a moved state of the vehicle, wherein no contact of the elements, in particular no destruction takes place. When using the device according to the invention, the light beams received by the optical sensor element are compared with the reference values in the evaluation device and if a previously determined value is exceeded, a signal is emitted via a control unit coupled to the evaluation device, which leads to an action in an external device. Action means that the signal triggers a mechanical or audible action. For example, the emitted signal of the control device is a door or a plurality of doors of a vehicle or a compartment of a vehicle closed. As a result, immediately after destruction of at least one element in a vehicle or in a compartment of a vehicle, the cause of the destruction can be recorded. Furthermore, for example by the signal of the control device, a camera can be activated, which films the area in which the elements are located. Alternatively or additionally, an authorized recipient can be notified via the radio module coupled to the evaluation device. For this purpose, the radio module transmits a signal to the receiver, so that an alarm is triggered at the receiver. As a receiver also radio modules with a display device can be used. Advantageously, the receivers are mobile phones with a corresponding display for visual display of the alarm or with a loudspeaker for the acoustic display of the alarm. On the one hand, it can immediately be established by means of such a device that destruction of an element, such as a pane of glass, a mirror, a metal plate, etc. takes place, and, on the other hand, immediate notification via the radio module to corresponding points, such as the driver of the vehicle, the security service or the police, who can then take immediate action to seize the destroyer.

Advantageous is a device in which the optical source is a laser. As a result, an irregularity, ie a destruction of an element, can be determined particularly effectively and simply. The laser is focused by the beam splitter system on the surface of the elements to be measured. Due to the Doppler effect, the frequency of the backscattered laser light shifts during a movement of the surface or element to be measured. This frequency shift is evaluated in the evaluation by means of the evaluation and output as a voltage signal or digital data stream. In the case of the laser light, care should be taken to use a laser which is located in the low-energy range and which is not visible. The laser light should be set so that contacting is harmless to humans. The beam guidance of the laser light should be made so that it is out of the reach of people.

It is particularly advantageous if the optical sensor element of the device has an interferometer. By means of an interferometer, mechanical vibrations can be detected particularly easily and accurately.

Also preferred is a device in which the beam splitter system has at least one partially transparent light-transmitting mirror. By such a partially light-transmissive mirror, a part of the light beam is deflected and directed to the surface of a first element, while the remaining part is directed to at least one other element. It is particularly advantageous if a plurality of partially light-transmissive mirrors is used. As a result, a plurality of elements can be irradiated by a single light beam.

In the device according to the invention, at least a small part of the light beam directed onto the surface of the elements must be reflected so that it is fed to the optical sensor element with its evaluation device with the aid of the beam splitter system. For this purpose, it is particularly advantageous if the elements each have a reflective region. Glass panes or mirrors reflect due to their nature incident light rays. Other elements of metal, plastic, wood or other materials have a corresponding reflective area. This area can be integrated into the surface of the respective element.

In a further advantageous embodiment of the device, in each case a reflective component is arranged on the elements. This is particularly advantageous if the reflective element does not penetrate into the surface of the Integrate element. If possible, the reflective component should be located in the upper part of the element. This is advantageous in confined spaces, as the light beam can be guided along the ceiling of the room without it coming into contact with persons. This is possible because the elements are usually seconded to the ceiling of the room.

The elements of the device are preferably glass panes, plastic panes and / or mirrors. These elements reflect light rays sufficiently well that no additional reflective component must be placed on them.

Also preferred is a device which has at least one acoustic sensor. By means of an acoustic sensor, for example a microphone, the noises in a room in which the elements are located can be recorded and a first evaluation can take place on the basis of the recorded noises. The recorded noises are compared with reference values in the evaluation device of the sensor element and, if a limit value is exceeded, the light beam is emitted from the optical source of the device. As a result, a lower energy is expended on the one hand and, on the other hand, it is avoided that persons who are in the monitoring area are permanently exposed to a light beam, in particular a laser beam.

The acoustic sensor serves as a preliminary check for possible destruction.

The object is further achieved by a method for monitoring elements and for detecting and indicating damage to elements due to vandalism with the features of claim 9.

A method of monitoring elements and detecting and indicating damage to elements due to Vandalism, in which an optical light beam is directed by the optical source of a device according to the invention above the beam splitter system to a plurality of elements, from there and directed via the beam splitter system to the optical sensor element with an evaluation, wherein in the evaluation device changes, in particular frequency shifts, the optical light beam are measured, wherein when exceeding a previously determined measured value for triggering an action, a signal from the control unit coupled to the control unit is emitted and / or to indicate the exceeding of the measured value coupled to the evaluation radio module a radio signal to at least one with the Radio module connected receiver provides a simple, inexpensive and flexible method for monitoring elements and for detecting and indicating damage to elements. By the one Atz such a method according to the invention, a destruction of an element, such as discs or mirrors in a train compartment, immediately detected, so that it can be reacted directly to this destruction. On the one hand, an action such as the closing of doors and windows can be triggered so that the destroyers can be easily grasped, to others via the connected radio module an alarm in an external device such as a mobile phone or other device having a radio module , so that these external recipients can take appropriate action to seize the destroyer.

The device according to the invention and the method according to the invention have a number of advantages. On the one hand, by means of such a device from a central location in a room, a vehicle or a compartment of a vehicle, and a simple beam splitting system, all the elements in the room, the vehicle or the compartment of a vehicle can be monitored. This allows a very cost-effective monitoring. This device can be retrofitted very easily, so that it can be used flexibly. By means of the device according to the invention and the method according to the invention, a very accurate and a very reliable detection of destruction of monitored elements is possible.

The object is further achieved by using a previously mentioned device according to the invention in a building, a vehicle or a compartment of a vehicle. In particular, in means of transport of public transport, such as in buses and trains, the use of the device according to the invention and the method according to the invention is advantageous. Especially in these public transport is often a wanton destruction of elements, such as windows and windows and mirrors, instead. Such spaces or compartments can be easily equipped with the device, so that inexpensive and easy reliable and accurate monitoring of the respective elements can be performed.

The features and advantages listed for the device according to the invention also apply to the method according to the invention and vice versa.

A preferred embodiment of the present invention will be explained in more detail with reference to the drawing. It shows:

1 shows a device according to the invention for monitoring a plurality of elements in a room.

Fig. 1 shows an embodiment of the device according to the invention for the parallel monitoring of several elements (1). The elements (1), here windows and doors are in this embodiment part of a passenger compartment (8) of a vehicle, such as a train. The optical source (2) and the optical sensor element (4) with the Evaluation device are arranged at a central location of the passenger compartment (8), preferably on the ceiling of the passenger compartment (8). The beam splitter system (5) has a plurality of successively arranged partially transparent mirror. Starting from the optical source (2), the light beam (3) is directed to the partially translucent mirror (5), is partially deflected there, so that these parts radiate to the respective elements (1), of which in turn parts of the light beam ( 3) are reflected back and directed over the partially transparent mirror (5) to the optical sensor element (4) with connected evaluation. By comparing the phase position of the emitted and the reflected light beam (3) in the evaluation of the optical sensor element (4) can be determined whether changes take place on the surface of the elements (1). By means of an interferometer in the evaluation device, the portions of the acousto-mechanical spectrum located on the reflected light beam (3), which have been generated, for example, by scratching on a window pane (1), can be filtered out. Due to their extremely high sensitivity, interferometers are particularly suitable for detecting changes to the elements (1). If it is determined in the evaluation device that a change takes place on an element (1), in particular a destruction of the surface of the element (1), a signal from the control unit coupled to the evaluation device is exceeded when a previously determined measurement or reference value is exceeded ( 6), which triggers an action. In this embodiment, the doors and windows of the passenger compartment (8) are immediately closed, so that the cause of the destruction of an element (1) can be enclosed within the passenger compartment (8). Parallel to the triggering of this action, the radio module (7) coupled to the evaluation device transmits a radio signal to at least one receiver connected to the radio module. The receiver receives thereby news of the exceeding of the measuring or reference value, ie of the Destruction of an element (1) so that it can immediately initiate measures to seize the destroyer. The partially transparent light-transmitting mirror of the beam splitter system (5) are arranged in the passenger compartment (8) that parts of the optical source (2) emitted light beam (3) are each deflected at an angle of 90 °. Due to the preferred arrangement of the device on the ceiling of a space to be monitored, the light beam (3) can pass unhindered by interference by persons to the respective elements (1).

A non-illustrated variant of the device according to the invention provides that in addition at least one acoustic sensor is arranged in the space to be monitored, which receives all sounds of the room. This additional acoustic sensor performs a preliminary monitoring of the elements (1). The evaluation device of the device filters out unwanted noise and, upon detection of unfamiliar noises, transmits a signal to the optical source (2) via the control unit (6). Upon receipt of the signal, the optical source (2) emits a light beam (3). That is, the optical source (2) does not transmit a light beam (3) until it receives a signal from the control element (6). As a result, on the one hand energy can be saved, on the other hand, the people in the monitored room are not permanently exposed to a light beam (3).

Claims

claims

1. An apparatus for parallel monitoring of a plurality of elements (1) comprising: an optical source (2) for generating a light beam (3), an optical sensor element (4) with an evaluation, a beam splitter system (5) for splitting the light beam (3) in at least two different directions, a control unit (6) coupled to the evaluation device for triggering an action and / or a radio module (7) coupled to the evaluation device for transmitting results of the evaluation device.

2. Apparatus according to claim 1, characterized in that the optical source (2) is a laser.

3. Apparatus according to claim 1 or 2, characterized in that the optical sensor element (4) comprises an interferometer.

4. Device according to one of the preceding claims 1 to 3, characterized in that the beam splitter system (5) has at least one partially transparent light-transmitting mirror.

5. Device according to one of the preceding claims 1 to 4, characterized in that the elements (1) each have a reflective region.

6. Device according to one of the preceding claims 1 to 4, characterized in that on the elements (1) each have a reflective component is arranged.

7. Device according to one of the preceding claims 1 to 6, characterized in that the elements (1) glass panes, plastic discs and / or mirrors are.

8. Device according to one of the preceding claims 1 to 7, characterized in that the device has at least one acoustic sensor.

9. A method for monitoring elements (1) and for detecting and indicating damage to elements (1) due to vandalism, characterized in that by a device according to one of the preceding claims 1 to 8 of the optical source (2) a light beam (3) directed to a plurality of elements (1) via the beam splitter system (5), directed from there and directed via the beam splitter system (5) to the optical sensor element (4) with an evaluation device, wherein changes in the optical light beam (3 ), wherein when a previously determined measured value for triggering an action is exceeded, a signal is transmitted from the control unit (6) coupled to the evaluation unit and / or the radio module (7) coupled to the evaluation unit displays a radio signal to indicate the exceeding of the measured value at least one receiver connected to the radio module sends.

10. Use of a device according to one of the preceding claims 1 to 8 in a building, a vehicle or a compartment of a vehicle.