EP3942128B1 - Intelligentes schloss zum betätigen eines türschlosses und eine alarmanlage mit einem solchen schloss und einer zentraleinheit - Google Patents

Intelligentes schloss zum betätigen eines türschlosses und eine alarmanlage mit einem solchen schloss und einer zentraleinheit Download PDF

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Publication number
EP3942128B1
EP3942128B1 EP20713855.3A EP20713855A EP3942128B1 EP 3942128 B1 EP3942128 B1 EP 3942128B1 EP 20713855 A EP20713855 A EP 20713855A EP 3942128 B1 EP3942128 B1 EP 3942128B1
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EP
European Patent Office
Prior art keywords
smart lock
door
housing
lock
screw
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EP20713855.3A
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English (en)
French (fr)
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EP3942128A1 (de
Inventor
Henrik LINDSJÖ
Ola MÅNSSON
Robert Johansson
Sergio Benages MONTOLIO
Noroz Akhlagi
David LJUNGMAN
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Verisure SARL
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Verisure SARL
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Priority to EP23174392.3A priority Critical patent/EP4234854A3/de
Publication of EP3942128A1 publication Critical patent/EP3942128A1/de
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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B45/00Alarm locks
    • E05B45/06Electric alarm locks
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B13/00Burglar, theft or intruder alarms
    • G08B13/02Mechanical actuation
    • G08B13/06Mechanical actuation by tampering with fastening
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B2047/0048Circuits, feeding, monitoring
    • E05B2047/0057Feeding
    • E05B2047/0058Feeding by batteries
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B2047/0048Circuits, feeding, monitoring
    • E05B2047/0067Monitoring

Definitions

  • the invention relates to an alarm system having a central unit and a smart lock.
  • the invention further relates to an alarm installation.
  • Alarm installations or alarm systems for buildings are generally known. Typically, they comprise a control unit and a couple of intrusion detection devices, in particular magnet sensors which send a signal when a door or a window is being opened. After receipt of such signal, the user has a predefined time period within which he has to disarm or deactivate the alarm system, for example by entering a pin or code at a central unit (also referred to as "control unit"). If the alarm system is not deactivated within the predefined time period, the control unit assumes that there is an alarm situation.
  • a central unit also referred to as "control unit”
  • building here refers to small businesses and homes. These can be houses or flats within a house.
  • Such smart lock is a device for electrically actuating a deadbolt of the door.
  • such smart lock takes over the function of a mechanical key. It allows operation of the door lock only for authorized people, for example those who carry a transponder or a smartphone with an app connected to the smart lock, and it moves a deadbolt of the door lock from the closed position to an open position so that the door can be opened, or from the open to the closed position so that the door is locked.
  • a typical smart lock comprises an electric motor which provides the mechanical power for operating the deadbolt, batteries for providing the electrical power for operating the motor, and a control also supplied from the battery for controlling operation of the motor.
  • the control receives an authorization signal indicating that an authorized person is in the vicinity of the door equipped with the smart lock.
  • US 2018/158 268 A1 discloses a door assembly having a housing. Inside the housing, a power supply, a sensor and a control are arranged on a circuit board. By means of the sensor, the control is adapted to detect a tampering with assembly and to initiate a corresponding alarm.
  • a look assembly having a lock, a lock sensor and a door sensor.
  • a movement of a door is registered and the lock sensor provides a lock signal if the lock adjusts from the locked configuration to the unlocked configuration.
  • US 9 482 032 B2 shows a handle for a window.
  • the handle comprises a printed circuit board on which an acceleration sensor is placed and batteries arranged in a recess of handle. By means of the sensor, it is possible to monitor the state of movement and the position of the handle 1.
  • EP 1 340 869 A2 discloses a lock for a window or a door having a tamper alert sensor, an evaluation and control device and a battery supplying electrical energy to the tamper alert sensor and to the an evaluation and control device. An attempted break-in is detected by means of vibrations occurring at the door or at the window, which are detected by the sensor.
  • DE 10 2016 122 280 A1 shows an actuating device comprising a handle and an alarm transmitter housing, in which an electronic module is arranged.
  • the module has a battery and a sensor and the housing is fixed to a base body of the actuating device by means of screws.
  • a smart lock is known.
  • the smart lock is coupled to a door and has a motor for operating a drive shaft of the door.
  • the smart lock receives a corresponding signal from a vibration/tapping sensing device or a mobile device.
  • the object of the invention is to provide a smart lock which has an increased security level.
  • the invention provides a smart lock adapted to be mounted on a door, comprising a drive device for operating a deadbolt, a control for controlling operation of the drive device, a battery, an accelerometer and an RF module each located inside a housing, the housing arranged to prevent access to the battery, the accelerometer and an RF module whilst the smart lock is mounted on a door, the accelerometer and the RF module arranged to provide a RF tamper alert signal if the smart lock is removed from the door.
  • a locking mechanism for locking a battery cover to the housing is provided, the locking mechanism being accessible only from an interface side of the housing adapted for mounting the housing to the door, and the smart lock is mounted to the door by means of a bayonet connection.
  • the invention is based on the integration of the accelerometer into the smart lock so that additional signal are available which can be evaluated and allow detecting that there is an attempt to tamper with the smart lock.
  • the accelerometer signals allow detecting that the smart lock is being tilted about an axis which coincides with its central axis. This is an indication that there is an attempt to remove the smart lock from the door which will trigger an alarm unless the central unit has in advance received a maintenance signal which indicates that the smart lock will be removed from the door, e.g. for replacement of a battery.
  • the accelerometer signals allow detecting that the smart lock is being tilted about a horizontal axis which is perpendicular to the central axis of the smart lock. This is an indication that the smart lock has been removed from the door as such tilting cannot occur if the door lock is properly mounted to the door, and will trigger an alarm unless the central unit has in advance received a maintenance signal which indicates that the smart lock will be removed from the door, e.g. for replacement of a battery.
  • an authorization signal can be sent so that no alarm is activated by disengaging the smart lock from the door.
  • a locking mechanism comprises a screw and a support block associated with the battery cover, the screw extending through the support block.
  • the screw forms a mechanically strong means for holding the battery cover in place.
  • the screw can extend through an opening in the support block which is closed in a circumferential direction.
  • the support block has a through-opening through which the screw extends. This makes it impossible to withdraw or disengage the battery cover in a radial direction from the screw.
  • the screw has a thread that is threaded into the housing. This allows using the screw also for holding the components of the housing together.
  • the support block is formed integrally with the battery cover, for example by injection molding of the battery cover which is formed from a plastics material.
  • the screw is threaded into the support block.
  • the support block provides sufficient material, in particular viewed in an axial direction of the screw, so as to provide a mechanically strong connection with the screw.
  • the screw preferably has a stepped thread with a first diameter at the tip of the screw and a second, larger diameter at the shaft of the screw, the first diameter thread engaging into the housing and the second diameter thread engaging into the support block.
  • the battery cover is curved and comprises two locking tabs at opposite ends, the locking tabs engaging behind edges of the housing.
  • the locking tabs provide a mechanical connection between the ends of the battery cover and the housing so that the battery compartment cannot be pried open with a tool.
  • each of the tabs overlaps with the housing by approx. 2 % of circumference of the smart lock.
  • the mechanical connection is particularly strong when the locking tabs engaging behind the edges of the housing extend over the entire width of the battery cover.
  • the accelerometer and the RF module are arranged on a common PCB so that a compact design is obtained.
  • an alarm installation comprising a central unit and a smart lock as defined above wherein the central unit is adapted for evaluating RF tamper alert signals received via the RF module in order to distinguish between at least two of the following situations:
  • the accelerometer signals allow detecting if there is a situation in which someone is tampering with the smart lock so that an alarm should be triggered.
  • the signals received from the accelerometer can be used to detect if the smart lock is unexpectedly removed from the door as could occur if the door lock is being tampered with. This might result in the smart lock being rotated, in order for example to disengage the door lock from the carrier. This might result in the smart lock being moved axially away from the door, or rotated about the plane of the door, which might occur is someone were attempting to prise the lock from the door or from the carrier.
  • one or more the accelerometers are used in order to detect movement in each of these axes. Detecting such movement of the smart lock can be an indication that somebody tries to get access to the side of the smart lock usually rigidly connected to carrier.
  • the alarm installation is notified in this regard to that signals which in an armed state of the alarm installation are suspicious, do not result in triggering of an alarm.
  • the attempt to remove the lock from the door or carrier can be detected. It is also possible to detect the attempt to drill into the lock.
  • the accelerometer can also detect shocks on the door, for example a thief trying to break open the locked door.
  • the signals of accelerometer can also be used for detecting whether deadbolt should be moved towards the locked position after it has been opened. If the door lock has been opened and the door has not been moved for a specific period of time (which is detectable with the accelerometer), control can again operate drive device so as to close the door lock.
  • FIG. 1 schematically shows a door 1 which is provided with a deadbolt 2.
  • the deadbolt 2 can be moved between a closed or locked position (in which it protrudes outwardly over the respective end face of the door) and an open or unlocked position (in which it is retracted into the door so as to not protrude over the end face) by means of a door lock actuation device 10 (referred to in the following as "smart lock").
  • Smart lock 10 comprises a housing 12 which is mechanically mounted on a carrier 3.
  • Carrier 3 is screwed or otherwise mechanically connected to door 1.
  • the side of the housing which is mounted to carrier 3 is referred to as being an interface side of the housing.
  • a drive device 14 (here in the form of an electric motor) is arranged which is operatively connected to an output element 16.
  • Output element 16 is operatively connected to deadbolt 2 so that rotation of output element 16 moves the deadbolt from the locked position to the opened position, and vice versa.
  • a battery compartment 18 is formed in which a battery 20 is arranged.
  • Battery 20 provides the electric energy for operating drive device 14.
  • control 22 for controlling operation of drive device 14.
  • the energy necessary for operation of control 22 is also provided by battery 20.
  • smart lock 10 On the side remote from door 1, smart lock 10 is provided with an operating element 24 (e.g. a thumb turn) which is mechanically connected to output element 16 and allows rotation of the output element in case of need (e.g. a failure of the drive device or a lack of electric energy from batteries 20).
  • an operating element 24 e.g. a thumb turn
  • output element 16 On the side remote from door 1, smart lock 10 is provided with an operating element 24 (e.g. a thumb turn) which is mechanically connected to output element 16 and allows rotation of the output element in case of need (e.g. a failure of the drive device or a lack of electric energy from batteries 20).
  • FIGS 2 to 6 show details of the construction of smart lock 10 according to the invention.
  • One element of the smart lock according to the invention is a tamper-proof battery cover 26 which forms the external wall of battery compartment 18.
  • Battery cover 26 has the shape of an approximately semi-circular shell and is provided with two locking tabs 28 at opposite ends. As can be seen in Figure 6 , each locking tab 28 extends over the entire width of battery cover 26.
  • locking tabs 28 engage, when battery cover 26 is mounted to housing 12, behind edges of housing 12. Locking tabs 28 are comparatively long in the circumferential direction so that there is a significant overlap between locking tabs 28 and housing 12.
  • Locking tabs 28 extend so far in under housing 12 so that there will never be a gap between battery cover 26 and housing 12 when somebody tries to pry the battery cover open, even if battery cover 26 flexes a little bit when put under load during an attempt to pry it open.
  • locking tabs 28 are arranged at a small distance from an interior wall 30 which can form an abutment for locking tabs 28 in case somebody tries to press the entire battery cover into the housing.
  • Battery cover 26 is provided with a support block 32 on its inner surface approximately in the middle between locking tabs 28.
  • support block 32 is provided with an opening 34 through which a screw 36 extends.
  • Screw 36 has a stepped thread at its forward portion, namely a thread 38 with a first diameter portion 38 and a second diameter portion 40.
  • the second diameter is larger than the first diameter.
  • Examples for the diameters can be 2 mm for the first diameter portion 38 and 3 mm for the second diameter portion 40.
  • Threads 38, 40 are arranged such that the first diameter portion 38 engages into housing 12 (please see in particular Figure 4 ) while second diameter portion 40 is threaded into support block 32.
  • opening 34 in support block 32 of battery cover 26 is provided with a reduced diameter at the end remote from the head of screw 36.
  • Screw 36 thus mechanically engages both housing 12 and battery cover 26.
  • a screw with a continuous thread could be used.
  • Support block 32 together with screw 36 forms a locking mechanism which is accessible only from the interface side of housing 12 (the side of the housing adapted for being mounted on carrier 3). This can be seen in particular in Figure 3 . This effectively prevents any opening of battery compartment 18 as long as smart lock 10 is properly mounted to door 1.
  • Control 22 is mounted on a PCB 42 which is arranged within housing 12.
  • Walls 30 can be used for mounting PCB 42 within housing 12.
  • PCB 42 also carries an accelerometer 46. Further, a communication module 48 (hereinafter referred to as "RF module”) is arranged on PCB 42.
  • RF module a communication module 48
  • a first PCB carrying the control of the smart lock can be provided, and a second PCB with the accelerometer and the communication module 48.
  • the alarm installation can comprise other components such as glass breakage sensors, window sensors and door sensors.
  • reference numeral 50 designates the living space of an apartment or a house.
  • Door 1 provides access to living space 50.
  • the door is equipped with smart lock 10.
  • a central unit 52 is provided in the apartment or the house, which is part of an alarm installation. Additional intrusion detection devices, in particular magnet sensors which send a signal when a door or a window is being opened, or a glass breakage sensor are part of the alarm installation.
  • Central unit 52 has a communication module 54 which can receive RF signals from smart lock 10, in particular the signals from the accelerometer. Central unit 52 can also send signals to smart lock 10 so as to control operation of drive device 14.
  • Central unit 52 further includes an evaluation unit 56 for evaluating the accelerometer signals received from smart lock 10. Depending from the result of the evaluation, a plurality of different situations or occurrences can be detected, and control unit 52 can react with a specific response.
  • Central unit 52 also includes an external communication device 58 via which a communication with an external monitoring station 60 (operations control).
  • evaluation module 56 is used to distinguish between a plurality of different situations.
  • a first situation consists in somebody removing smart lock 10 from door 1 without prior authorization.
  • Signals indicative of such attempt comprise a rotation of the smart lock about a horizontal central axis of the smart lock, and a tilting of the smart lock about a horizontal axis which is perpendicular to the central axis.
  • smart lock 10 is mounted to door 1 by means of a bayonet connection between smart lock 10 and carrier 3, the bayonet connection requiring a rotation of smart lock 10 around the central axis of the smart lock, this axis being perpendicular to the door. For removing the smart lock from the door, a rotation in the opposite direction is necessary.
  • central unit 52 If central unit 52 detects that smart lock 10 is rotated or tilted in a manner which should not occur during normal operation, an alarm can be triggered.
  • the alarm can involve a notification sent to monitoring station 60, and/or involve activation of a siren, a loudspeaker and/or an alarm light.
  • the alarm can also put the entire alarm installation into a state of higher alert.
  • a microphone and/or a camera 62 can be activated, and the information captured therewith can be transmitted either to operations control 60 for a decision whether or not the police should be notified or a guard should be sent, and/or the user so that he/she can see e.g. on his/her smartphone what is going on.
  • the information captured by the microphone and/or the camera can also be evaluated by evaluation module 56 in order to detect it there is an intrusion or not. This reduces the number of false alarms.
  • a maintenance signal is to be sent to central unit 52.
  • the maintenance signal can either be sent from monitoring station 60 or can be initiated by the user directly at central unit 52, for example by inserting a corresponding PIN code. Subsequently, removal of smart lock 10 from door 1 is authorized without an alarm being triggered.
  • the signals sent from accelerometer can also be used for detecting other attempts of tampering with smart lock 10 and/or door 1.
  • shocks resulting from an interaction with the door for example from somebody trying to pry open the door, can be detected and result in an alarm being triggered.
  • vibrations resulting from an interaction with the smart lock and/or the door can indicate that somebody tries to drill a whole into the door and/or the smart lock. In this case, an alarm is triggered as well.
  • the signals received from the accelerometer can also be used for improving the operation of smart lock 10.
  • a smart lock can move deadbolt 2 of door 1 from an unlocked to a locked position after a predefined period of time after opening of the door.
  • the signals received from the accelerometer can either extend this time period or completely prevent smart lock 10 from locking deadbolt 2, as long as the door is being moved. Locking of deadbolt 2 can also be prevented when the signals of the accelerometer indicate that the door has come to a stop in an open position.
  • Central unit 52 can also make smart lock 10 move deadbolt 2 towards a locked position when the signals received from the accelerometer indicate that there has been a contact between the door and the door frame, and the door has subsequently remained in a stationery condition. Then, an automatic locking of the door can be initiated.
  • the signals received from the accelerometer can also be used to "overrule" an automated locking sequence implemented in the smart lock. It is known that the smart lock automatically moves the deadbolt from an unlocked to a locked position at a predetermined point in time after it was unlocked (for example 5 seconds). Central unit 52 can generate a delay signal which extends this time period as long as the signals received from the accelerometer indicate that either the door is still being moved or that the door has come to a stop in an open position. In both of these cases, it does not make much sense to move the deadbolt towards a locked position.
  • the signals received from the accelerometer can also be used to very conveniently make smart lock 10 lock deadbolt 2. It is possible that a user stores in central unit 52 a specific sequence of knocks on the door or on the smart lock. Should the central unit receive signals from the accelerometer which correspond to this sequence of knocks after having previously received signals which indicate that the door has been closed, smart lock 10 is commanded to move deadbolt 2 into the locked position. It is thus possible for a user to close the door and knock on the door from the inside or outside with the predefined sequence so as to lock the door without any further steps.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Lock And Its Accessories (AREA)
  • Alarm Systems (AREA)
  • Burglar Alarm Systems (AREA)

Claims (12)

  1. Intelligentes Schloss (10), das zur Montage an einer Tür (1) eingerichtet ist, das eine Antriebsvorrichtung (14) zur Betätigung eines Riegels (2), eine Steuerung (22) zur Steuerung des Betriebs der Antriebsvorrichtung (14), eine Batterie (20), einen Beschleunigungsmesser (46) und ein HF-Modul (48) umfasst, die sich jeweils in einem Gehäuse (12) befinden, wobei das Gehäuse (12) so ausgeführt ist, dass der Zugang zu der Batterie (20), dem Beschleunigungsmesser (46) und einem HF-Modul (48) verhindert ist, während das intelligente Schloss (10) an einer Tür (1) angebracht ist, wobei der Beschleunigungsmesser (46) und das HF-Modul (48) so ausgeführt sind, dass sie ein HF-Manipulationswarnsignal liefern, wenn das intelligente Schloss (10) von der Tür (1) abgenommen wird, dadurch gekennzeichnet, dass ein Verriegelungsmechanismus (32, 36) zur Verriegelung einer Batterieabdeckung (26) mit dem Gehäuse (12) vorgesehen ist, wobei der Verriegelungsmechanismus (32, 36) nur von einer Schnittstellenseite des Gehäuses (12) aus zugänglich ist, die zur Montage des Gehäuses (12) an der Tür (1) eingerichtet ist, wobei das intelligente Schloss (10) mittels einer Bajonettverbindung an der Tür (1) angebracht ist.
  2. Intelligentes Schloss (10) nach Anspruch 1, bei dem der Verriegelungsmechanismus eine Schraube (36) und einen der Batterieabdeckung (26) zugeordneten Trägerblock (32) umfasst, wobei sich die Schraube (36) durch den Trägerblock (32) erstreckt, insbesondere durch eine Öffnung (34), die in einer Umfangsrichtung geschlossen ist.
  3. Intelligentes Schloss (10) nach Anspruch 2, bei dem die Schraube (36) ein Gewinde (38) aufweist, das in das Gehäuse (12) eingeschraubt ist.
  4. Intelligentes Schloss (10) nach Anspruch 2 oder Anspruch 3, bei dem der Trägerblock (32) einstückig mit der Batterieabdeckung (26) ausgebildet ist.
  5. Intelligentes Schloss (10) nach Anspruch 4, bei dem die Schraube (36) in den Trägerblock (32) eingeschraubt ist.
  6. Intelligentes Schloss (10) nach einem der Ansprüche 2 bis 5, bei dem die Schraube (36) ein Stufengewinde (38, 40) mit einem ersten Durchmesser an der Spitze der Schraube und einem zweiten, größeren Durchmesser am Schaft der Schraube aufweist, wobei das Gewinde (38) mit dem ersten Durchmesser in das Gehäuse (12) eingreift und das Gewinde (40) mit dem zweiten Durchmesser in den Trägerblock (32) eingreift.
  7. Intelligentes Schloss (10) nach einem der vorhergehenden Ansprüche, bei dem die Batterieabdeckung (26) gekrümmt ist und zwei Verriegelungslaschen (28) an entgegengesetzten Enden umfasst, wobei die Verriegelungslaschen (28) Ränder des Gehäuses (12) hintergreifen.
  8. Intelligentes Schloss (10) nach Anspruch 7, bei dem sich die die Ränder des Gehäuses (12) hintergreifenden Verriegelungslaschen (28) über die gesamte Breite der Batterieabdeckung (26) erstrecken.
  9. Intelligentes Schloss (10) nach einem der vorhergehenden Ansprüche, bei dem der Beschleunigungsmesser (46) und ein HF-Modul (48) auf einer gemeinsamen Leiterplatte (42) angeordnet sind.
  10. Alarmanlage mit einer Zentraleinheit (52) und einem intelligenten Schloss (10) nach einem der vorhergehenden Ansprüche, bei der die Zentraleinheit (52) zur Auswertung von über das HF-Modul (48) empfangenen HF-Manipulationswarnsignalen eingerichtet ist, um zwischen wenigstens zwei der folgenden Situationen zu unterscheiden:
    - einer Drehung des intelligenten Schlosses (10) um eine Mittelachse,
    - einem Kippen des intelligenten Schlosses (10) um eine zur Mittelachse senkrechte horizontale Achse,
    - einer Drehung der Tür (1), an der das intelligente Schloss (10) angebracht ist,
    - Schwingungen, die aus einer Wechselwirkung mit dem intelligenten Schloss (10) entstehen,
    - Erschütterungen, die aus einer Wechselwirkung mit der Tür (1) entstehen,
    - Stehenbleiben der Tür (1) in einer offenen Stellung,
    - Schließen der Tür (1),
    - einer vorgegebenen Abfolge von Klopfvorgängen an der Tür (1) oder an dem intelligenten Schloss (10).
  11. Alarmanlage nach Anspruch 10, bei der die Zentraleinheit so eingerichtet ist, dass sie eine Kamera (62) und/oder ein Mikrofon aktiviert, wenn sie eine Drehung des intelligenten Schlosses um eine horizontale Achse und/oder eine Drehung der Tür (1), an der das intelligente Schloss (10) angebracht ist, und/oder Schwingungen, die aus einer Wechselwirkung mit dem intelligenten Schloss (10) entstehen, und/oder Erschütterungen erfasst, die aus einer Wechselwirkung mit der Tür (1) entstehen.
  12. Alarmanlage nach Anspruch 10 oder Anspruch 11, bei der die Zentraleinheit (52) so eingerichtet ist, dass sie ein Deaktivierungssignal empfängt, das es einem Benutzer ermöglicht, das intelligente Schloss (10) von einer Tür (1) abzunehmen, ohne einen Alarm auszulösen.
EP20713855.3A 2019-03-21 2020-03-17 Intelligentes schloss zum betätigen eines türschlosses und eine alarmanlage mit einem solchen schloss und einer zentraleinheit Active EP3942128B1 (de)

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EP23174392.3A EP4234854A3 (de) 2019-03-21 2020-03-17 Intelligentes schloss zum betätigen eines türschlosses und eine alarmanlage mit einem solchen schloss und einer zentraleinheit

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DKBA201900020 2019-03-21
PCT/EP2020/057258 WO2020187899A1 (en) 2019-03-21 2020-03-17 A smart lock for operating a door lock and an alarm installation with such smart lock and a central unit

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EP20713855.3A Active EP3942128B1 (de) 2019-03-21 2020-03-17 Intelligentes schloss zum betätigen eines türschlosses und eine alarmanlage mit einem solchen schloss und einer zentraleinheit

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EP (2) EP4234854A3 (de)
BR (1) BR112021018714A2 (de)
CL (1) CL2021002450A1 (de)
ES (1) ES2947190T3 (de)
IL (1) IL286491B1 (de)
PE (1) PE20211991A1 (de)
PT (1) PT3942128T (de)
WO (1) WO2020187899A1 (de)

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ES2956852A1 (es) * 2022-05-24 2023-12-29 Verisure Sarl Dispositivo de videocámara de timbre

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PE20211991A1 (es) 2021-10-18
EP4234854A3 (de) 2023-11-15
ES2947190T3 (es) 2023-08-02
PT3942128T (pt) 2023-06-20
BR112021018714A2 (pt) 2021-11-23
IL286491B1 (en) 2024-10-01
WO2020187899A1 (en) 2020-09-24
CL2021002450A1 (es) 2022-04-08
EP3942128A1 (de) 2022-01-26
EP4234854A2 (de) 2023-08-30
IL286491A (en) 2021-12-01

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