DE4203850A1 - Detecting movement of doors, windows etc. - using e.g. infrared light source and receiver, with radiation reaching receiver when object is in set position - Google Patents

Abstract

The method is applied for monitoring an installation which may consist of a housing (1) with a window (3). The housing contains an infrared transmitter and receiver, or a combination working in another spectral range, and is positioned facing the object to be monitored, e.g. a sliding glass window on which a foil layer (8) is fixed. The transmitter is pulsed at about 0.1 ms pulses at a rate of 1 to 1000 Hz. The receiver is adjusted to the level characterised by the reflecting layer. The resulting combination is then tolerant of normal displacement from the detector box. The system may be controlled by a remote coded transmitter. USE/ADVANTAGE - Intruder alarm or work safety system. Adjustable tolerance sensitivity.

Description

State of the art

The invention is based on a method for recognizing the Change of position of an object relative to one intended Nen location according to the genus of the main claim and a pre direction to carry out the procedure according to the Oberbe handle of claim 17.

Such methods are used, for example, for monitoring objects against unauthorized access, but they can also used to secure dangerous jobs be set in that the hazardous process only triggers bar is when a certain protective device, for example a protective cover on a machine tool, right is positioned. The present invention relates in particular especially a display case protection, in which the lock status of the display windows is monitored.  

A known device for securing objects, for example paintings against theft (EP 02 47 003) works with thermowell contacts and permanent magnets, whereby the protective tube contacts on a stationary housing and the Permanent magnets on one side rotatable on this housing attached plate are arranged. The plate is through repelled the permanent magnets from the housing so that they touched object to be monitored. When changing the An alarm is triggered at a distance between the plate and the housing. Known showcase security methods work against this with microswitches with the movable display windows work together. When opening a display window, the assigned microswitch flipped and alarm triggered solves.

These methods have the disadvantage that they are already minor Changes in distance lead to alarm triggering. Due to the position tolerance occurring particularly in the case of showcase panes zen is therefore not guaranteed to function properly continuous The positioning of the microswitch is extremely complicated adorned and sensitive, so that there is either frequent Fehla alarm comes or a correct alarm is not triggered. Even if the microswitches are correctly positioned, it can be too Malfunctions occur as the position changes over time the showcase panes can occur. For these reasons installation of such devices is time consuming and only possible by specialist staff.  

The method according to the invention with the characteristic features len of the main claim has the advantage that a perfect function is always guaranteed that the Tolerance sensitivity is adjustable and that accordingly according to the installation and operation of a drive working device easily and inexpensively is.

Radiation source and radiation receiver act as a sensor unit for recognizing the change in position of the goods to be monitored Object relative to an intended location, by only then emitting the radiation to the receiver reaches if it reflects from the object to be monitored is tiert. This is only the case if the monitoring object in its intended position det. Through the opening of the radiation cone of radiation it is ensured that slight changes in the position of the waking object does not trigger an alarm.

On the other hand, according to an embodiment of the invention Opening angle of the radiation cone should be as small as possible to ensure that the signaling unit responds quickly most. The sensitivity to positional tolerances of the Watched object can be in the inventive method ren by appropriate choice of the opening of the radiation core gels to be adapted to the respective requirements.

This is according to a further embodiment of the invention also possible in that the sensitivity of the receiver is limited to a certain solid angle. This can  can be caused, for example, by shielding the receiver, whereby only radiation from a certain direction on the Received.

According to a further embodiment of the invention Distance from light source and receiver to the monitored Object as low as possible in its intended position. This ensures reliable function on the one hand because there is an interruption in the beam path by others Objects is prevented. On the other hand, this is the required radiation intensity and thus the energy ver need little.

According to a further embodiment of the invention Radiation source and the receiver in that of the movable Chen closing element arranged room. On in this way the deactivation becomes, for example, too Sabotage purposes, by one brought into the beam path reflective object prevented because of the beam path is only accessible when the closing element is open.

According to a further embodiment of the invention, the Emp sensitivity of the receiver to the reflectivity of the monitored object set. This will just if sabotage is difficult because an interruption of the Beam path is only possible without triggering an alarm if this is done by an object that has the same reflex ionic capacity as the monitored object.  

According to a further embodiment of the invention as Radiation uses infrared radiation. For infrared radiation on the one hand there are inexpensive radiation sources and beams receivers available. On the other hand, there is an infrared ray safe and easy to use. Furthermore are the differences in the intensity of the reflected beam suitable with different reflection materials, the Receiver sensitivity to a certain material, at for example a mirror surface, to be sufficiently precise Zen.

According to a further embodiment of the invention Radiation emitted in individual pulses. As a result the ability to view the item only at certain time intervals vallen to monitor.

According to a further embodiment of the invention, the general my for procedures for room surveillance using pulsed Directional radiation with a radiation source and a beam receivers who are in a fixed spatial relationship with are arranged, the relationship is nis chosen from pulse time to dead time as small as possible. On this way the energy consumption can be advantageous be significantly reduced. This is particularly the case with a Power supply by battery or accumulator important. For Monitoring objects against theft or against the Vitri fuse protection has a pulse frequency of some Hertz and a pulse width in the range of 0.1 ms as special emphasized advantageous. The selection corresponds  a ratio of pulse duration to dead time of approx. 1: 1000. This selection combines a safe function and fast Address with a very low energy consumption.

According to a further embodiment of the invention Notification unit connected to an alarm unit, which at a An alarm signal changes the position of the monitored object delivers. This can be an acoustic one in particular and / or act an optical alarm signal by which the Change of location is communicated. When monitoring counter stands against theft and when securing showcases thereby paying attention to the sales or supervisory staff made.

After further development of these features, the alarm system remains also when the object returns to its end current situation maintained for a predetermined time. At Anti-theft systems, especially for showcase security stanchions, this ensures that even with fast Access and reclose the showcase window the note of supervisory or sales personnel becomes.

After further training these features is called an alarm signal for a predetermined time after the change in position of the The object emits a continuous signal and will expire during this time the alarm signal only in a predetermined time given intervals. This way it will last longer the alarm signal reduces energy consumption. This is This is particularly important for battery-operated systems.  

According to a further embodiment of the invention Alarm signal can be suppressed after triggering. This guarantees ensures that authorized persons have access to, for example have items stored in the display case without other sales or supervisory staff unnecessarily attentive be made. If the alarm signal is suppressed this ended after a short time and is thus for the others other people from the long-lasting alarm signal when unauthorized Distinctive access. Of course, that is with tel to suppress the alarm signal secured, for example wise through a hidden arrangement. For this case according to a further embodiment of the invention, the sub press the alarm signal only within a predetermined Time after triggering possible. By briefly dimensioning this Time, preferably 4 to 5 seconds, it is not unauthorized possible, the hidden means of suppression to actuate the alarm signal within this time.

After further training of these features, the alarm will go off when the item returns to its original position reactivated. This ensures that the Alarm unit after suppression of the alarm signal by authorization after the authorized access has ended is switched. Another change in the location of the item this then leads to an alarm signal again.

According to another embodiment of the invention Alarm unit can be muted before triggering. This is after further refinements, for example by means of a key switch or by means of a remote transmission signal advantageously possible. By turning off the alarm  It is triggered when authorized access is given avoided. By using a key switch or a coded remote transmission signal is guaranteed ensures that the muting is only carried out by authorized persons can. In particular comes as a remote transmission signal Consider the infrared signal because it is simple and cost-effective inexpensive devices are available.

After further training of these characteristics, the mute switching automatically after a predetermined time canceled. This ensures that after a authorized access to the alarm unit again is switched if this is forgotten by the authorized person.

Yet another development of these features will automatic restart of the alarm system on return of the monitored object in its starting position. This can advantageously take place in particular by that the recurrence of a signal at the receiver to on circuit of the alarm unit leads.

A device for performing the method according to An Proof 1 is given in claim 23. This device has the advantage that all components are protected and that Radiation source and radiation receiver in a fixed spatial relationship to each other are arranged. Self Ver Certain components such as alarm unit, Mel unit or power supply also in a separate ge be arranged, provided for data transmission among themselves and to radiation receivers and radiation source is taken care of.  

According to an advantageous embodiment of the invention Device are radiation source and / or radiation temperature catcher arranged on an outside of the housing and with provided optical devices through which the opening angle of the radiation cone of the radiation or the beam be sensitive spatial angle of the radiation receiver is bordered. This configuration has the advantage that Strah Source and / or radiation receiver very close to monitoring object can be arranged. Through the optical devices ensures that the out emitted radiation only reaches the receiver when the monitored object is in the intended position.

According to another embodiment of the invention The housing has a passage opening for the device the emitted or reflected radiation and are the Radiation source and / or the receiver at a distance from Passage opening arranged inside the housing. These Design has the advantage that radiation source and Radiation receivers are protected and that a quick Response of the alarm unit is guaranteed. As a result of that the radiation source and / or the receiver at a distance from Passage opening are arranged inside the housing, already leads to a slight change in the position of the monitored Object to trigger an alarm since that reflected Signal the passage opening is missing. The permissible location tolerance of the monitored object is determined by Appropriate size selection of the passage opening specified. Further Optical devices can with this configuration omitted.  

According to a further embodiment of the invention Inner surfaces of the housing walls, in particular that of the guarding object opposite housing wall, not reflective. This is a Eigenre flexion of the emitted radiation through the housing ver avoided and proper functioning of the device guaranteed.

According to a further embodiment of the invention object to be monitored a mirror surface for reflection of radiation present in the intended position of the Subject the radiation cone of the emitted radiation cuts. The use of a mirror surface has the intent partly that the receiver sensitivity is limited can get objects brought into the beam path gerer reflection effect, such as white paper for Trigger alarm. The mirror surface can preferably be in Form of an adhesive film on the object to be monitored to be appropriate. Such adhesive films with high reflection capabilities are available and are easy to attach.

According to a further embodiment of the invention a device for monitoring the closed position of a visible closing element, such as a display window, on the side of the transparent key facing away from the housing a second adhesive film is available, the external dimensions of which the outer dimensions of the side facing the closing element Correspond to the housing and with this side of the housing approximately is aligned, with on the side facing the housing second adhesive film auxiliary lines are available, the Be  mark richly in which the first, the mirror surface adhesive film is to be arranged. Through this shape device is on the one hand the assembly of the invention direction simplified and is also a concealment of the Security system possible.

Further advantages and advantageous refinements of the Erfin are the following description, claims and can be seen from the drawing.

drawing

An embodiment of the subject of the invention is shown in the drawing and will be described in more detail below described.

Show it

Fig. 1 is a plan view of the the to be monitored facing counter stood front of the housing a erfindungsge MAESSEN device,

Fig. 2 shows a section along line II-II in Fig. 1 and

Fig. 3 is a perspective view of an inventive device for monitoring a display window.

The housing 1 shown in FIG. 1 in front view is cuboid and has in its front side 2 to be monitored object a rectangular passage opening 3 , behind which an infrared light-emitting diode 4 and an infrared receiver diode 5 are arranged.

In the sectional view of FIG. 2 it can be seen that the light-emitting diode 4 and the receiver diode 5 are fixedly arranged on a circuit board 6 . Further details such as power supply, clock device and alarm unit are not shown.

The mode of operation of the device according to the invention can be seen from FIG. 3. The front side 2 of the rectangular housing 1 of the device according to the invention is pa rallel arranged to the same to the monitored display disc 7 in accordance clotting distance. In the area of the passage opening 3 of the front side 2 , a mirror film 8 is applied to the display case 7 . The window pane 7 is movable in the direction of arrow 9 . The ode of the Leuchtdi 4 emitted light passes through the passage opening 3 on the mirror surface 8 and reflectors advantage of this in turn, via the passage opening 3 to the receiver diode. 5 Of course, two separate through openings for the emitted and for the reflected infrared light can also be provided. As soon as the window pane 7 is moved so far in the direction of arrow 9 that the mirror gel surface 8 no longer covers the passage opening 3 , that is to say no longer intersects the radiation cone emitted by the light-emitting diode 4 , the emitted infrared light is no longer reflected. The receiver 5 no longer receives a signal and the alarm unit is triggered.

For example, arranged hidden on the rear side of the housing 1, a switch may be provided for suppressing the triggered alarm signal by authorized persons on the housing. 1 After the display case 7 is opened by an authorized person, the switch for suppressing the alarm signal is switched and the desired object is removed from the display case. When the display case 7 is closed again, the alarm unit is reactivated. The infrared light is reflected again on the receiver 5 and the device according to the invention is armed.

Another possibility, not shown, is to provide a key switch, which when actuated sends out a signal that mutes the alarm unit tet. This key switch can, for example, in a side wall the showcase to be built in for outside access enable. Another possibility is in the Showcase a receiver for a coded infrared signal to provide which when receiving a corresponding signal also mutes the alarm unit. The mute is either after a predetermined time or by how the showcase window automatically unlocks again raised.  

The inventive method and the inventive The device is not only movable in its plane Windows or doors, for example showcases can be used, but also with swinging doors or wings. An opening also leads here So a pivoting of the door or the wing to one Triggering an alarm because, on the one hand, the reflected radiation due to the changed geometry no longer to the recipient reached and the other with increasing distance of the right reflecting surface of the radiation source and the receiver received radiation intensity a predeterminable Falls below the threshold. The same applies, for example when monitoring free-standing or hanging objects stood like paintings, in which the invention direction at a short distance from a surface of the opposite is firmly arranged.

All in the description, in the following claims and features shown in the drawing can be both a as well as in any combination with each other be essential to the application.

List of reference numbers

1 housing
2 front of 1
3 passage opening
4 infrared light emitting diodes
5 infrared receiver diode
6 circuit board
7 showcase window
8 mirror film
9 arrow

Claims (29)

1. A method for detecting the change in position of an object relative to an intended position, in particular for monitoring the closed position of access or access openings closing movable closing elements, such as doors, windows or lids, in which the object in its intended position acts on a sensing unit and wherein in the absence of this effect a Meldesi is discharged gnal, characterized in that serve as a sensing unit, a radiation source (4) and a catcher with this standing in a fixed spatial relationship radiation-(5), wherein the radiation source (4) and the radiation receiver ( 5 ) are arranged and designed so that the radiation by reflection on the object ( 7 ) to be monitored only reaches the receiver ( 5 ) when the object ( 7 ) is in the intended position. 2. The method according to claim 1, characterized in that the opening angle of the beam cone of radiation is selected accordingly the permissible position tolerances of the monitored object ( 7 ). 3. The method according to claim 1 or 2, characterized in that the sensitivity of the receiver ( 5 ) extends only over a certain solid angle. 4. The method according to any one of claims 1 to 3, characterized in that the distance from the radiation source ( 4 ) and receiver ( 5 ) to the object ( 7 ) in its pre-seen position is as small as possible. 5. The method according to any one of the preceding claims, characterized in that the radiation source ( 4 ) and the receiver ( 5 ) are arranged in the element closed by the movable closing element ( 7 ). 6. The method according to any one of claims 1 to 5, characterized in that the receiver sensitivity is set to the reflectivity of the object ( 7 ). 7. The method according to any one of the preceding claims characterized in that as radiation infrared radiation is used.   8. The method according to any one of the preceding claims, since characterized in that the radiation in individual Pulse is sent out. 9. Procedure for room monitoring by means of pulsed direction radiation with a radiation source and a radiation receivers who are in a fixed spatial relationship are arranged, in particular according to one of the previously outgoing claims, characterized in that the Ver Ratio from pulse time to dead time is low. 10. The method according to claim 9, characterized in that the pulse frequency is a few Hertz and that the Im pulse width in the range of 0.1 ms. lies, accordingly a ratio of pulse duration to dead time of approx. 1: -1000. 11. The method according to any one of the preceding claims, characterized in that the signaling unit is connected to an alarm unit which emits an alarm signal when the object ( 7 ) changes position. 12. The method according to claim 11, characterized in that even when the object ( 7 ) returns to its starting position, the alarm signal is maintained for a predetermined time. 13. The method according to claim 11 or 12, characterized in that for a predetermined time after the change in position of the object ( 7 ) a continuous signal is given as an alarm signal and that after this time the alarm signal is given at predetermined time intervals. 14. The method according to any one of claims 11 to 13, characterized characterized in that the alarm signal after triggering under is pushable. 15. The method according to claim 14, characterized in that the alarm signal only within a predetermined time can be suppressed after triggering. 16. The method according to claim 14 or 15, characterized in that when the object ( 7 ) returns to its starting position, the alarm unit is reactivated. 17. The method according to any one of claims 11 to 13, characterized characterized that the alarm unit before triggering can be muted. 18. The method according to claim 17, characterized in that the alarm unit by means of a key switch can be muted. 19. The method according to claim 17, characterized in that the alarm unit by means of a coded remote transmission signals can be muted. 20. The method according to claim 19, characterized in that the alarm unit is silent by means of an infrared signal is switchable.   21. The method according to any one of claims 17 to 20, characterized characterized in that the mute after a vorbe certain time is automatically canceled. 22. The method according to any one of claims 17 to 21, characterized in that the muting is automatically canceled when the monitored object ( 7 ) returns to its initial position. 23. Device for carrying out the method according to claim 1 with a radiation source and a radiation receiver, which are arranged in a fixed spatial relationship to one another, and with a reporting unit for reporting a change in position of the monitored object, characterized in that the radiation source ( 4 ), the radiation receiver ( 5 ), the reporting unit, the alarm unit and the power supply device, including the associated circuits, are arranged in a housing ( 1 ). 24. The device according to claim 23, characterized in that the radiation source ( 4 ) and / or the radiation receiver ( 5 ) are arranged on an outside of the housing ( 1 ) and are provided with optical devices for limiting the opening angle of the radiation cone of the radiation or radiation-sensitive solid angle of the receiver ( 5 ). 25. The device according to claim 23, characterized in that the housing ( 1 ) has a passage opening ( 3 ) for the radiation emitted or reflected, and that the radiation source ( 4 ) and / or the receiver ( 5 ) at a distance from the passage opening ( 3 ) are arranged inside the housing ( 1 ). 26. The apparatus according to claim 25, characterized in that the inner surfaces of the housing walls, in particular the object to be monitored ( 7 ) opposite Ge housing wall are not reflective. 27. The device according to one of claims 23 to 26, characterized in that on the object to be monitored ( 7 ) there is a mirror surface ( 8 ) for reflecting the radiation, which in the intended position of the object ( 7 ) intersects the radiation cone. 28. The apparatus according to claim 27, characterized in that the mirror surface ( 8 ) is arranged in the form of an adhesive film on the object to be monitored ( 7 ). 29. The device according to claim 28, characterized in that the device for monitoring the closed position of a transparent closing element, such as a display case ( 7 ) is used and that on the housing ( 1 ) facing away from the transparent closing element, a second adhesive film is present, whose outer dimensions correspond approximately to the outer dimensions of the side of the housing ( 1 ) facing the closing element and which is approximately flush with this housing side, and that auxiliary lines are present on the side of the second adhesive film facing the housing ( 1 ), which identify the area in which the first, the mirror surface ( 8 ) having adhesive film is to be arranged.