EP1863988B1 - Window or door handle - Google Patents

Abstract

The handle has a monitoring or alarm module (1) that is arranged in a module housing. The alarm module has a set of sensors and an evaluation unit is provided for receiving alarm signals and detection signals. An impact sound sensor (15) is integrated in the module housing and is oriented towards a glass pane. The sound sensor detects sound frequencies resulting from broken glass and transmits an alarm signal to the evaluation unit.

Description

The invention relates to a window or door olive according to the preamble of claim 1.

In such a window or Türolive a monitoring device is provided, in which a sensor device detects the operation of the handle and the presence of alarm signals at a window or a door.

Such a window or Türolive is bekännt from the documents DE-U1-93 01 267 or DE-A1-199 09 953 , An alarm system with a structure-borne sound sensor is known from the document DE-A1-35 34 806 ,

The invention has for its object to provide a window or Türolive that forms both a self-sufficient alarm system, as well as in a central monitoring system can be integrated.

To solve this problem serve the features of claim 1.

The invention advantageously provides that the monitoring and alarm module has at least one structure-borne sound sensor integrated into the module housing, which is aligned in the mounted state in the direction of a glass pane and selectively detects sound frequencies that occur in a glass breakage, and in the case of Glasbruchs transmits an alarm signal to the evaluation.

The structure-borne sound sensor can selectively detect the sound frequency of a glass breakage, whereby an accurate detection by the close proximity of the structure-borne sound sensor or microphone to the glass pane can take place.

It is preferably provided that the structure-borne sound sensor can be activated by a vibration sensor. When using a vibration sensor, the structure-borne sound sensor does not have to be constantly activated, which would lead to a high power consumption. The vibration sensor, preferably a piezo-quartz sensor, detects vibrations preceding a glass breakage and then activates the structure-borne sound sensor, e.g. by switching on the power supply. The vibration sensor is preferably mounted on or on the glass sheet.

The monitoring and alarm module comprises a preferred embodiment of an integrated acoustic and / or optical signal transmitter. The monitoring and alarm module thus forms a decentralized monitoring device for windows, doors or other similar components, wherein the acoustic signal can consist of a siren, a buzzer, a speaker, or a bell. Additionally or alternatively, an optical signal transmitter, for example, consist of a stroboscope or an LED lighting device. With the help of the acoustic and / or optical signal transmitter, not only can a remote transmission of the alarm signal via the monitoring and alarm signal to a central monitoring system take place, but also a local alarm can be triggered. This is particularly useful when e.g. settling a wirelessly transmitted alarm signal to a central monitoring system is prevented by interference with interference frequencies. In this case, a break-in attempt is displayed acoustically and / or visually, at least at the affected window.

Preferably, the monitoring and alarm module has status indicators. These status indicators can be the Display the ready state of the monitoring and alarm module, the battery or accumulator state, and other related to the alarm and detection signals states.

The evaluation device can transmit a message signal to a central monitoring system. For this purpose, a transmitter is preferably provided, which transmits the alarm and / or detection signals and / or the message signal of the evaluation device to a monitoring center.

The invention further relates to a window or a door with a frame for enclosing a glass sheet and with a window or Türolive the aforementioned type.

It is provided that the module housing is recessed in a recess of the frame and that the frame has a sound channel, which leads in the frame of the adjacent structure-borne sound sensor in the module housing to the outer edge of the glass.

The arrangement of the structure-borne sound sensor in the module housing, which is arranged recessed in a recess of the frame, causes the structure-borne sound sensor is shielded from other noise, with the sound channel noise of the glass and the frame, in particular the break frequencies can be detected undisturbed. A structure-borne noise sensor arranged in such a way as a glass-breakage sensor has the advantage that no assembly errors can occur when gluing a glass-breakage sensor on a glass pane. Furthermore, a better cleaning of the window surface is possible because it does not have a glued glass breakage sensor.

The detection of a glass breakage can be done with high accuracy without false alarms, because the structure-borne noise sensor is shielded against noise. Finally, there is also the advantage of ease of installation as the monitoring and alarm module does not need to be wired to an external sensor.

In a development of the invention it can be provided that a solar cell is arranged on or in the glass pane or on the frame, which supplies the monitoring and alarm module with power. The power supply via a solar cell has the advantage that an accumulator can be supplied with power, so that a regular battery replacement for the power supply can be omitted.

Fig. 1

eine perspektivische Darstellung eines ersten Ausführungsbeispiels der Erfindung,

Fig. 2

einen teilweisen Querschnitt durch das Überwachungs-und Alarmmodul mit aufgesetzter Olive, und

Fig. 3

eine Draufsicht auf das Ausführungsbeispiel der Fig. 2 entlang der Linie III-III.

In the following, embodiments of the invention will be explained in more detail with reference to the drawings. Show it:

Fig. 1

a perspective view of a first embodiment of the invention,

Fig. 2

a partial cross section through the monitoring and alarm module with attached olive, and

Fig. 3

a plan view of the embodiment of Fig. 2 along the line III-III.

Fig. 1 shows a window or Türolive with a handle mounted in a handle 2 handle 4, as well as with a self-contained, arranged in a module housing 26 monitoring and alarm module. 1

The monitoring and alarm module has its own power supply 18 and is therefore independent of the power supply. Fig. 1 shows a built-in version for integrating the monitoring and alarm module 1 in the frame 5 of a window or door sash. In this case, the monitoring and alarm module 1 can be recessed in a recess 30, so that the window or Türolive like a standard version without alarm device on the frame 5 is seated.

Shown is a built-in version, in which the window or Türolive conventional design, wherein after replacing a Einsteckverriegelungsteils 6 this is inserted through the monitoring and alarm module 1 and is mounted together with this.

However, the window or door olive can also form a structural unit with the monitoring and alarm module 1.

Furthermore, it is also possible to mount the window or Türolive with a separate monitoring and alarm module 1 together or as a unit on the frame, without the need for a recess 30 in the frame is required.

The monitoring and alarm module 1 is provided with a structure-borne sound sensor 15, which is used as a glass breakage sensor and which is aligned in the direction of a glass plate 34 and can selectively detect sound frequencies that occur in a glass breakage. In the event of glass breakage, an alarm signal is transmitted to an evaluation device 24. The structure-borne noise sensor 15 operates particularly reliably when it is sunk in the recess 30 is because it is then largely shielded from noise.

In order to better transmit the sound frequencies produced during the glass breakage to the structure-borne sound sensor, a sound channel 32 can be provided in the frame 5, which ends between the lateral glass edge of the glass pane 34 and the structure-borne sound sensor 15 located in the module housing 26.

The module housing 26 may further comprise on its front side an integrated acoustic signal generator 17, which consists for example of a siren. Alternatively or additionally, it is also possible to provide optical signal transmitters, such as, for example, a strobe light or LED lights.

Finally, a plurality of status displays 19 can be arranged on the front side of the module housing 26, which can display the state of the battery or the battery 18 and the state of the monitoring and alarm module 1 or the evaluation unit 24. For example, it could also be displayed whether there is a radio connection to a central monitoring system.

The overgrowth and alarm module 1 is a self-contained alarm system that is independent of the power supply and works completely automatically. No sharpening or disarming of the monitoring and alarm module 1 is necessary. Malfunctions are almost completely excluded. Even with sabotage, for example, when superimposed with radio waves of high intensity at least a local alarm triggering is secured. Another sabotage backup can be from a field strength sensor which triggers an alarm when field strength readings change.

It is understood that the window or Türolive with the monitoring and alarm module 1 can also be used independently without central monitoring system and radio transmission of signaling signals to them.

The window or door handle can be retrofitted, at least in the superstructure version. In order to reduce the risk of a false alarm, it is also possible to provide a plurality of structure-borne sound sensors 15, in particular if the structure-borne sound sensor 15 can not be sunk in the frame 5.

The monitoring and alarm module 1 has a replaceable, usually square in cross-section Einsteckverriegelungsteil 6, which is rotatably connected to the handle 4.

The monitoring and alarm module 1 is used in particular for securing enclosed in a frame 5 windows and doors, with a pivotable, stored in a handle fitting 2 handle and connected to the handle 4 interchangeable Einsteckverriegelungsteil 6. A sensor device in the handle fitting 2 detected with a first sensor 8, the operation of the handle and supplies a first detection signal to the evaluation device 24th

In the Einsteckverriegelungsteil 6 a signal-triggering element 12 is arranged, wherein the first sensor 8 is arranged on the Einsteckverriegelungsteil 12 relative to the signal-triggering element 8 such that the first sensor delivers upon deflection of the handle from a predetermined pivot position, the first detection signal to the evaluation. On the handle fitting 2, a second sensor 14 is arranged, which supplies a second detection signal to the evaluation device 24 in the open position of the window or the door. The evaluation device 24 detects from the combination of the two detection signals all locking states, and can provide a corresponding message signal to a monitoring center.

The monitoring and alarm module 1 makes it possible to monitor not only the operation of the handle 4, but also to analyze the grip position and to deliver a corresponding message signal to the monitoring center.

The evaluation device 24 receives the signals of all sensors 8, 14, 15 and can detect the locking state of the handle 4 therefrom. Even if the window or the door is opened without operating the handle 4, at least the second detection signal is present, so that a corresponding message signal can also be generated in this case.

In a preferred embodiment, it is provided that a transmitter 16 wirelessly transmits the detection signals or the notification signal of the evaluation device 24 to the monitoring center. Such a monitoring device has the advantage that it can be installed without an expensive wiring.

Alternatively it can be provided that a cable transmits the detection signals or the message signal of the evaluation device 24 to the monitoring center. Such an embodiment lends itself to when there is already a wiring.

It is preferably provided that the first sensor 8 detects the position of the Einsteckverriegelungsteils 6 contactless. Such contactless detection of the position of the Einsteckverriegelungsteils 6 is wear-free and highly protected against disturbing influences.

Alternatively, the position of the male locking member 6 may be scanned mechanically.

The evaluation device 24 consists of a logic circuit which generates a differentiated signal in accordance with the incoming detection signals.

Alternatively, the evaluation device 24 may also be integrated in the monitoring center, so that the evaluation of the individual detection signals takes place only in the monitoring center.

The transmitter 16 may also be integrated in the handle fitting 2, so that only the replacement of the handle fitting 2 with the Einsteckverriegelungsteils 6 is required for installation of the monitoring device according to the invention.

The power supply is also integrated in the handle fitting 2 in this case.

The first sensor 8 preferably consists of a magnetic switch which detects the position of a magnet mounted in or on the plug-in locking part 6 as a signal-triggering element 12.

In this case, the first sensor 8 consists of a reed contact switch, the plug-in locking part 6 U-shaped or encloses circular. This makes it possible to monitor different pivoting positions of the handle with a single sensor 8. When using a closer as a reed contact switch is in a pivot position of the handle 4, in which the magnet facing the Einsteckverriegelungsteil 6 the reed contact switch, the switch open, the reed contact switch is closed as soon as the handle 4 is slightly pivoted from this position.

The reed contact switch consists of a in the closed position of the handle 4 the signal-triggering element 12 opposite switch body and perpendicular from this switch body or circular protruding connecting lines.

The second sensor 14 consists of a magnetic switch which is actuated by a magnet attached to the frame 5 of the window or door. The second sensor 14 thus determines whether the window or the door has been opened.

Furthermore, a position sensor for blinds integrated in the monitoring and alarm module 1 can transmit a third detection signal to the evaluation device 24. This position sensor can transmit a detection signal to the evaluation device 24 at an early stage, even when manipulated on the blinds, so that, if necessary, a break-in attempt can be detected very early. The signal-triggering element is mounted on the inside of the blinds.

Furthermore, an external glass breakage sensor may additionally be connected to the evaluation device 24 and / or to the transmitter 16. The glass breakage detector can also be used in conventionally be mounted on the glass plate 34, wherein the connecting lines are guided to the evaluation device 24 in the handle fitting 2.

The first sensor 8, as well as a provided with the signal-triggering element 12 Einsteckverriegelungsteil 6, which is interchangeable with the existing Einsteckverriegelungsteil the window or Türolive can be retrofitted in an existing window or Türolive. Such a retrofit kit would allow to use existing handles 4 including the handle fittings 2, without externally recognizable that the handle is provided with a monitoring device.

Alternatively, it may be provided that the first sensor 8, and provided with the signal-triggering element 12 extended Einsteckverriegelungsteil interchangeable with the existing Einsteckverriegelungsteil 6 of the handle fitting 2, a retrofittable unit with its own module housing 26 which forms between the handle fitting and the Window or the door can be used. In this case, an already existing handle 4 including the handle fitting 2 can be used, wherein the module housing 26 of the monitoring and alarm module 1 is retrofitted with only an extended Einsteckverriegelungsteil.

Between the window or the door and the handle fitting 2 or the housing 26, a drill-proof steel plate can be arranged, which protects the electronic elements and the power supply from destruction.

The monitoring and alarm module 1 has at least one sensor device, for example from a reed contact switch 8, in the handle fitting 2 or the module housing 26 in such a way is positioned and fixed, that the reed contact switch 8 in a certain pivot position of the handle is substantially parallel to an edge of the cross-sectionally square Einsteckverrieglungsteils 6.

How out Fig. 2 it can be seen, the reed contact switch 8 extends, for example, parallel to the narrow edge of the cuboid handle fitting 2, while the connection lines are guided parallel to the longitudinal edges of the handle fitting 2 up to an evaluation device 24. The evaluation device 24 may be connected to a transmitter 16, which can transmit the message signal of the evaluation device 24 to a monitoring center or to the acoustic and / or optical signal transmitter 17.

In the lower part of the handle fitting 2, a compartment for a power supply device 18 is provided, which may consist of a battery or a rechargeable battery. The accumulator may optionally be powered by a solar cell.

The reed contact switch 8 can be located on a support plate 10 which can be retrofitted into a commercially available handle fitting 2. The plug-in locking part 6 with a magnet 20 as a signal-triggering element 12 is replaced in the case of retrofitting against an existing Einsteckverriegelungsteil. On the handle fitting 2, a further sensor 14 may be arranged, which is also connected to the evaluation device 24. With the help of the second sensor 14 can be determined by means of a frame 5 of the window or door-mounted signal-triggering element, whether the door leaf or the window sash is opened.

From the combination of the signals of the first and the second sensor 8,14 all lever positions of the handle 4 can be detected by the evaluation device 24, so that a differentiated message signal can be transmitted via the transmitter 16 or a cable connection to the monitoring center.

Claims (9)

1. Olive-shaped window or door fitting with a handle (4) housed in a handle fitting (2), with an autonomous monitoring and alarm module (1) arranged in a module housing (26) with several sensors (8, 14, 15), and with an evaluation unit (24) which receives alarm signals and detection signals, characterized in that the monitoring and alarm module (1) has at least one handling noise sensor (15), integrated into the module housing (26), which in mounted condition is directed towards a pane of glass (34) and selectively records acoustic frequencies which occur when glass is broken and which in the event of glass being broken transmits an alarm signal to the evaluation device (24).
2. Olive-shaped window or door fitting according to claim 1, characterized in that the handling noise sensor (15) can be activated by a vibration sensor.
3. Olive-shaped window or door fitting according to one of claims 1 or 2, characterized in that the monitoring and alarm module (1) has an integrated transmitter for an acoustic and/or visual signal (17).
4. Olive-shaped window or door fitting according to one of claims 1 to 3, characterized in that the monitoring and alarm module (1) module has status displays (19).
5. Olive-shaped window or door fitting according to one of claims 1 to 4, characterized in that the evaluation device (24) transmits a report signal to a central monitoring station.
6. Olive-shaped window or door fitting according to one of claims 1 to 5, characterized in that a transmitter (16) transmits the alarm and/or detection signals and/or the report signal from the evaluation device to a central monitoring station.
7. Window or door with a frame (5) for encasing a pane of glass (34) and with an olive-shaped window or door fitting according to one of claims 1 to 6, characterized in that the module housing (26) is arranged sunk into a recess (30) of the frame (5), and the frame (5) has a sound duct (32) which leads in the frame (5) from the adjoining handling noise sensor (15) in the module housing (26) to the outer edge of the pane of glass (34).
8. Window or door according to claim 7, characterized in that arranged on or in the pane of glass (34) or on the frame (5) is a solar cell which supplies the monitoring and alarm module (1) with current.
9. Window or door according to claim 7 or 8, characterized in that the vibration sensor for activating the handling noise sensor (15) is attached at or against the pane of glass (34).

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