EP3007139A1 - Systeme de fermeture de porte - Google Patents

Systeme de fermeture de porte Download PDF

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Publication number
EP3007139A1
EP3007139A1 EP15186057.4A EP15186057A EP3007139A1 EP 3007139 A1 EP3007139 A1 EP 3007139A1 EP 15186057 A EP15186057 A EP 15186057A EP 3007139 A1 EP3007139 A1 EP 3007139A1
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EP
European Patent Office
Prior art keywords
control unit
central control
evaluation
signal
control device
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP15186057.4A
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German (de)
English (en)
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EP3007139B1 (fr
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ABUS Seccor GmbH
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ABUS Seccor GmbH
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Publication of EP3007139A1 publication Critical patent/EP3007139A1/fr
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/00174Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
    • G07C9/00571Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated by interacting with a central unit
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/00174Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
    • G07C9/00896Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys specially adapted for particular uses
    • G07C9/00904Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys specially adapted for particular uses for hotels, motels, office buildings or the like
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/008Alarm setting and unsetting, i.e. arming or disarming of the security system
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B25/00Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
    • G08B25/009Signalling of the alarm condition to a substation whose identity is signalled to a central station, e.g. relaying alarm signals in order to extend communication range

Definitions

  • the invention relates to a door locking system comprising a central control unit and at least one electronic locking unit with at least one electronic key.
  • the central control unit has an electronic evaluation and control device and a memory for storing authorization data (for example for checking access authorizations) and configuration parameters (for example for a time control).
  • the central control unit comprises a communication interface for bidirectional communication with the electronic locking unit, and a network interface at least for receiving control and configuration data based on an Internet protocol and / or a mobile radio interface at least for receiving control and configuration data based on a mobile radio protocol.
  • the evaluation and control device of the central control unit is designed to change the stored authorization data and / or configuration parameters as a function of the control and configuration data received via the network interface and / or the mobile radio interface.
  • the electronic locking unit comprises an actuator for a closing element of the electronic locking unit or an associated door closing device, furthermore an evaluation and control device and a communication interface for bidirectional communication with the central control unit.
  • such a door locking system with a network interface enables convenient configuration of the door locking system via a standard web browser or a mobile Internet application ("app"), which the authorized user can perform locally or from any location.
  • apps mobile Internet application
  • a configuration via wireless networks, in particular the public cellular mobile services is made possible via a mobile radio interface.
  • the management of access authorizations for the electronic clamping unit (or for several connected electronic clamping units) is particularly simple.
  • the authorized user can temporarily or permanently change access authorizations even during his absence.
  • a disadvantage of a conventional (mechanical or mechatronic) door locking system is that an existing burglar alarm system can usually not or only partially be connected to the door locking system.
  • a burglary alarm system is usually used to monitor buildings and premises at all access points of the so-called outer skin, where an unauthorized intrusion of people in the building or the premises is possible. Additionally or alternatively, the burglar alarm system can also perform an interior monitoring. When activated, i. armed intruder alarm system is preferably triggered an alarm when a person, in particular an unauthorized third party, the outer skin passes at one of the monitored access points or is in the monitored interior space or moves.
  • a functional coupling of the burglar alarm system with the door locking system is usually done only via a so-called block lock.
  • a block lock allows, according to the principle of inevitability, arming the burglar alarm system only when the associated door is closed and an associated (mechanical) door closing device is locked. Unlocking the door closing device and opening the door is in turn only possible if the burglar alarm system has been previously disarmed.
  • a block lock is undesirable in its structure and in terms of the required additional interconnection.
  • a wall reader and an electromechanically displaceable locking element may be provided, wherein the wall scanner is connected via a data bus with the burglar alarm system, and wherein the blocking element is displaceably mounted in a door frame of the door.
  • the locking member e.g., a latch
  • the locking element is also withdrawn from the door panel to release the door for opening.
  • the burglary alarm system thus provides the inevitability for the door in question independently of the locking state of the door closing device.
  • a disadvantage of this solution is, in particular, that the blocking element, including a drive device for displacing the blocking element, has to be inserted in the door frame of the door in a complicated manner for installation.
  • the doors of a building are equipped with electronic locking units and the release of the electronic locking units is detected and / or controlled by an electronic door locking system, it is advantageous for increasing the security of surveillance to establish a connection between the door locking system and the burglar alarm system to the respective functionalities for example, to facilitate the realization of a desired inevitability.
  • the central control unit further comprises at least a first switching output for outputting a control signal to a connected burglar alarm system and at least a first switching input for receiving a status signal from the connected burglar alarm system.
  • At least one electronic locking unit is managed and controlled by a central control unit.
  • a plurality of electronic locking units can also be managed and controlled by the central control unit.
  • the door locking system realizes a central access control with a digital user interface, in which an access authorization to premises whose doors are secured by electronic locking units is checked by means of an electronic key.
  • a network interface may be provided, for example a Local Area Network (LAN) interface (e.g., a RJ45 LAN 10/100 Mbit Ethernet interface).
  • the network interface is preferably a wired interface; however, it may also be a wireless interface for a local wireless connection, such as a Wireless Local Area Network (WLAN) interface in accordance with an IEEE 802.11 family standard.
  • WLAN Wireless Local Area Network
  • the central control unit can be connected locally to a standard personal computer (PC) on which a web browser or an internet application is installed, or to an internet access (router).
  • PC personal computer
  • the authorized user can configure and control the access control of the door locking system locally or else remotely, for example by means of any web browser or a mobile internet application ("app"). This includes, for example, changing the access rights stored in the authorization data for the holders of the assigned electronic keys.
  • the central control unit can also be connected to a local area network (eg LAN) which, for example, extends to a building in which the door locking system is installed.
  • a PC can be connected to the central control unit at any access points of the local network, so that the central control unit can be controlled from one of these access points.
  • WLAN wireless LAN
  • the door locking system and the burglary alarm system can be managed and controlled with the aid of a mobile-radio-capable terminal or via an external server.
  • the door closing system may comprise a mobile radio interface, i. an interface adapted to establish a wireless connection (especially data connection) over a public cellular mobile radio network (such as GPRS, UMTS or LTE).
  • a public cellular mobile radio network such as GPRS, UMTS or LTE
  • the central control unit of the door locking system is thus connected via the mobile radio interface with a public cellular mobile network, so that the door locking system according to the relevant mobile standard, for example, can only communicate with a mobile terminal or with a server connected to the relevant mobile network.
  • the door lock system is controlled directly or indirectly via a mobile radio connection.
  • Both the central control unit and the electronic locking unit are each equipped with a communication interface, whereby bidirectional communication between the central control unit and the electronic locking unit can be established.
  • the central control unit for easy connection to an existing (analog or digital) burglar alarm system with at least equipped with a first switching output, through which a control signal can be output to the connected burglar alarm system.
  • a control signal may, for example, contain an instruction that the burglar alarm system should change its operating state from a state A to a state B.
  • the first switching output preferably comprises a bistable relay, which reliably maintains its switching state even after a power failure.
  • at least one first switching input is provided at the central control unit of the door closing system, via which a status signal can be received by the connected burglar alarm system.
  • a status signal may be, for example, a ready signal or an acknowledgment signal, which informs the central control unit about an operating state of the burglar alarm system.
  • the burglar alarm system can be controlled indirectly digitally locally or remotely, since the intrinsically intruder alarm system is connected via the switching outputs and switching inputs to the central control unit of the door closing system.
  • a standard web browser or via an application (eg "App") of an Internet-enabled or mobile-enabled terminal, or via a connection by means of an external server (as explained below) for example, a focus or disarm the burglar alarm system can be prompted ,
  • an existing burglar alarm system which may be very expensive to set up and accordingly expensive, can be upgraded in a simple way in terms of comfortable and contemporary operation. Even if the communication interfaces of an existing burglary alarm system may already be outdated, such burglary alarm system can always still be perfectly functional. An exchange of burglar alarm system is thus not necessary in the present invention to improve the operability of the burglar alarm system and in particular to bring about a functional coupling with an electronic door locking system.
  • an electronic door locking system can be combined with an existing burglar alarm system and functionally coupled or expanded.
  • the aforementioned actuator of the electronic clamping unit is electrically controllable, for example, to displace and / or hold an associated closing element (e.g., electromotive or electromagnetic) and thereby selectively unlock a door closing device.
  • Said closing element may form part of the electronic closing unit or a part of a mechanical or mechatronic door closing device, wherein the electronic closing unit, depending on the embodiment, may be coupled to the door closing device or form part of the door closing device.
  • the electronic locking unit including the actuator may in particular be arranged on the associated door (for example on the door leaf or on the door frame).
  • the electronic locking unit may, for example, according to a preferred embodiment, an electronic door cylinder, which by means of a handle (eg knob) is manually operated.
  • a handle eg knob
  • unlocking the electronic door cylinder in this embodiment is only possible if the actuator due to a corresponding control command the closing element in a coupling position, in which the closing element (eg driver), the handle directly or indirectly with a release mechanism (eg rotatable locking lug of the electronic door cylinder) mechanically coupled, ie only due to such coupling can by actuation of the handle the relevant door lock (eg mortise, which is operated by means of the locking lug) actually be unlocked.
  • the actuator due to a corresponding control command the closing element in a coupling position, in which the closing element (eg driver), the handle directly or indirectly with a release mechanism (eg rotatable locking lug of the electronic door cylinder) mechanically coupled, ie only due to such coupling can by actuation of the handle the relevant door lock (
  • the door closing device is released electromechanically by the actuator for a manual unlocking.
  • the closing element can also be designed as a blocking or locking element, which can be driven (for example by a motor) for direct locking and unlocking of the associated door closing device.
  • the said handle for manual unlocking could be omitted, and the user only has to move the associated door.
  • the door closing system can be advantageously used for commercial premises, which are often monitored by a burglar alarm system.
  • the door locking system has advantages when a larger number of changing users (eg 150) should have different access rights to individual premises equipped with electronic locking units. This is often the case in commercial premises.
  • By connecting the intruder alarm system to the door locking system it is also possible to allow a selected group of users to control the burglar alarm system by issuing specially configured electronic keys whose identification data entitle to a corresponding control.
  • a hierarchy of differently authorized user groups can be introduced.
  • two user groups can be provided, wherein only the first user group is authorized to control the burglary alarm system (arming and disarming) and the second is excluded.
  • a member of the second group of users is thus basically authorized to enter only if the burglar alarm system is disarmed (in particular by a member of the first group of users).
  • the door locking system is also generally suitable for high-quality equipped real estate, which are also frequently monitored by a burglar alarm system.
  • the door locking system offers a high level of comfort, which will be explained in more detail below and which helps to ensure a consistent use of burglar alarm system and to avoid false alarms.
  • the central control unit preferably comprises or forms an internal web server for bidirectional communication via the network interface and / or the mobile radio interface.
  • a web server is a server that is able to transfer files (in particular electronic documents) to clients (such as web browsers). Such a web server can be provided within the central control unit as a pure software implementation or as a separate circuit. The presence of such a web server has several advantages.
  • the authorization data and / or configuration parameters which are stored in the central control unit for example by means of a Hypertext Markup Language (HTML) file can be prepared so that they can be transmitted via the network interface particularly advantageous to a PC or the like and there can be read or displayed in a particularly user-friendly manner by means of a web browser.
  • HTML Hypertext Markup Language
  • transmission protocols encrypted by the internal web server such as HTTPS (HyperText Transfer Protocol Secure) can be used to secure the transmission of data between the central control unit and the PC, in particular via the Internet.
  • HTTPS HyperText Transfer Protocol Secure
  • an access restriction to the data of the central control unit can be realized by means of a HyperText Transfer Protocol (HTTP) authentication, ie the data becomes accessible only after input of a user ID and a password.
  • the web server can log all accesses or access attempts to the data (eg by means of an automatically generated log file). As a result, it can also be subsequently determined when and, if so, by whom, which changes have been made to the data.
  • an integrated web server of the type described is not absolutely necessary, in particular if a connection of the central control unit is made only with an external server via the network interface or the mobile radio interface (as will be explained below).
  • the network interface of the central control unit is preferably assigned or assignable its own Internet Protocol (IP) address. Based on its own IP address, which can be assigned in particular fixed or dynamic, the central control unit and in particular the aforementioned integrated web server can thus be addressed or addressed via the Internet or via a connected Internet router.
  • IP Internet Protocol
  • the evaluation and control device of the central control unit is adapted to establish a secure Internet connection via the network interface (eg according to "Secure Sockets Layer” or “Transport Layer Security” protocol, so-called SSL or TLS protocol ).
  • a secure internet connection it is possible to safely control and configure the door locking system from any location using a conventional PC, as mentioned above, even if this PC also connected to the internet.
  • the control and configuration of the door locking system including the connected burglar alarm system are thus simplified over conventional systems which can only be controlled and configured at the location of the door locking system and burglary alarm system while maintaining a required safety standard.
  • other Internet-enabled devices can be used, such as smartphones or tablets.
  • the evaluation and control device of the central control unit can be adapted to set up a secure mobile radio connection via the mobile radio interface. Due to a secured mobile radio connection, it is possible to safely control and configure the door locking system via the mobile radio network concerned by means of a mobile-radio-capable terminal or by means of an external server which is connected to the relevant mobile radio network from any location. In the latter case, the authorized user connects only to the external server (which communicates with the central control unit via the mobile network). This connection of the authorized user to the external server can, for example, once again be a secure Internet connection, which the authorized user establishes by means of a PC or another Internet-capable terminal.
  • a "secure connection” is to be understood in the context of the invention in particular as an encrypted connection (i.e., a connection with encrypted data transmission).
  • the evaluation and control device of the central control unit is adapted to output via the first switching output a switching signal for arming and / or disarming the connected burglar alarm system.
  • This allows the door closing system be used to control a connected burglar alarm system via the central control unit so that an authorized user of the door locking system can arm or disarm the burglar alarm system indirectly - via the door locking system.
  • the evaluation and control device of the central control unit is preferably adapted to receive via the first switching input a status signal from the connected burglar alarm system, which contains information about an operating state of the burglar alarm system.
  • the burglar alarm system can notify the central control unit via the status signal whether the burglar alarm system is in an arming ready state or whether the burglar alarm system is in an armed or disarmed operating state.
  • This information can be used by the central control unit of the door locking system, for example, to implement the explained principle of inevitability electronically, for example by the burglar alarm system can only be armed when the burglar alarm system signaled arming ready state, and / or by the electronic locking unit not released ( ie the corresponding door closing device can not be unlocked) can be, as long as the armed intrusion alarm system still notified an armed operating state.
  • the examination of the operating state of the burglary alarm system and the communication with the user are in both cases via the central control unit of the door locking system.
  • the evaluation and control device of the central control unit is adapted to receive an arming ready signal from the connected burglar alarm system via the first switching input.
  • the evaluation and control device of the electronic locking unit can be adapted from the electronic key Arming request signal to receive and in response to the received arming request signal via the communication interfaces of the central control device and the electronic locking unit to send a Arming request signal to the central control unit.
  • the evaluation and control device of the central control unit is adapted to check whether the connected burglar alarm system is in an arming ready state in response to receiving the arming request signal from the arming ready signal received via the first switching input.
  • the evaluation and control device sends the central control unit via the communication interfaces of the central control unit and the electronic clamping unit a negative answer signal to the electronic clamping unit.
  • the evaluation and control device of the electronic clamping unit is adapted, upon receipt of the negative answer signal, to control an optical and / or acoustic display device of the electronic closing unit for displaying a negative acknowledgment signal.
  • a request signal for arming the burglar alarm system are transmitted. If the burglar alarm system is not in a armed ready state, this is signaled to the electronic clamping unit by means of an optical and / or acoustic display device. In this way, in particular, it is avoided that the user, after transmitting an arming request signal, could erroneously assume that the burglar alarm system was armed, although the burglar alarm system is not ready for this purpose (eg because not all openings of the outer skin of the building are properly closed).
  • the central control unit also has a second switching input.
  • the evaluation and control device of the central control unit is adapted to output an arming command to the connected burglar alarm system via the first switching output in the case of a positive result of the above-described check of the arming standby state.
  • the evaluation and control device of the central control unit is adapted to receive an arming acknowledgment signal from the connected burglar alarm system via the second switching input (if the burglar alarm system was able to properly perform the desired arming).
  • the evaluation and control means of the central control unit is adapted to send a positive answer signal to the electronic clamping unit in response to the reception of the arming confirmation signal via the communication interfaces of the central control unit and the electronic closing unit.
  • the evaluation and control device of the electronic clamping unit is adapted to control upon receipt of the positive response signal, the display device of the electronic clamping unit for displaying a positive acknowledgment signal.
  • the evaluation and control device of the central control unit is adapted to start on the output of the above-mentioned arming command to the connected burglar alarm a time counter and only then the positive answer signal to the electronic Send closing unit when the evaluation and control device of the central control unit has received the arming acknowledgment signal from the connected burglar alarm system within a predetermined waiting time interval from the start of the time counter.
  • the evaluation and control device of the central control unit is adapted to send via the communication interfaces of the electronic locking unit and the central control unit the already explained negative answer signal to the electronic locking unit, if within the predetermined waiting time interval no arming acknowledgment signal from the connected burglar alarm system over the second switching input has been received.
  • the evaluation and control device of the electronic clamping unit is in turn adapted to control the display device of the electronic clamping unit for displaying the or a different negative acknowledgment signal upon receipt of the negative answer signal.
  • the above-mentioned time counter is used in particular to give the user a (negative) feedback even if the burglar alarm system does not respond or does not react in time to a switching command of the central control unit.
  • the user after transmitting an arming request signal, could erroneously assume that the burglar alarm system was armed, although this is not actually the case.
  • the evaluation and control device of the electronic locking unit is adapted to receive a disarming request signal from the electronic key (which, of course, must be authorized to disarm the burglar alarm) and depending on the received disarming request signal via the communication interfaces of the electronic clamping unit and the central Control unit to send a disarming request signal to the central control unit.
  • the evaluation and control device of the central control unit is further adapted to issue a disarming command to the connected burglar alarm system in response to receipt of the disarming request signal via the first switching output or via another switching output.
  • the evaluation and control device of the central control unit is further adapted to receive via a switching input, in particular via the already mentioned second switching input or a further switching input, a disarming confirmation signal from the connected burglar alarm system, wherein the evaluation and control means of the central control unit also adapted thereto is to send a positive answer signal to the electronic clamping unit in response to receiving the disarming acknowledgment signal via the communication interfaces.
  • the evaluation and control device of the electronic clamping unit is adapted in this embodiment, in turn, to control the display device of the electronic clamping unit for displaying a positive acknowledgment signal upon receipt of the positive response signal.
  • the absence of the already mentioned arming acknowledgment signal at the relevant switching input is interpreted by the central control unit evaluation and control unit as the disarming acknowledgment signal (for example 0 V instead of 12 V).
  • such disarming of the burglar alarm system is associated with an access release to the relevant electronic clamping unit.
  • the evaluation and control device of the electronic locking unit is adapted, upon receipt of the last-mentioned positive response signal (which confirms the disarming of the burglar alarm system and in the embodiment described here, an access release command contains) to control the actuator of the electronic locking unit for releasing the access to the respective door.
  • the evaluation and control device of the central control unit may be adapted to start a time counter on issuing the disarming command explained above to the connected burglar alarm system and only then to send the positive answer signal to the electronic clamping unit, if the evaluation and control device of the central control unit has received the disarming acknowledgment signal from the connected burglar alarm system within a predetermined waiting time interval from the start of the time counter.
  • the evaluation and control device of the central control unit is adapted to send a negative response signal to the electronic locking unit via the communication interfaces of the electronic locking unit and the central control unit, if within the predetermined waiting time interval no arming acknowledgment signal from the connected intrusion alarm system over the second or another switching input has been received.
  • the evaluation and control device of the electronic clamping unit is in turn adapted to control upon receipt of the negative answer signal, the optical and / or acoustic display device of the electronic clamping unit for displaying the already mentioned or another negative acknowledgment signal.
  • the closing unit system is thus similar to the described possibility of arming adapted to that means of an electronic key, the burglar alarm system can be disarmed, but there is no check of a relevant standby state of the burglar alarm system.
  • the central control unit further has a further, in particular third switching input for receiving an alarm signal from the connected burglar alarm system, which indicates a triggered alarm.
  • the evaluation and control device of the central control unit is further adapted in this embodiment, in response to the receipt of an alarm signal via the further switching input a message to a predetermined receiver via the network interface or other device (eg relay for a telephone line, GSM module ) to send.
  • a message data message or voice message
  • the said alarm signal is preferably generated by the burglar alarm system when a burglary at one of the monitored access points or another alarm state (for example, unauthorized manipulation of the burglar alarm system) is detected.
  • the message which in addition to the alarm information may also contain clues to the nature and location of the alarm, can be transmitted in the form of an email, SMS or automatically generated telephone call, if via the central control unit corresponding means (eg telephone connection) are automatically controlled can.
  • corresponding means eg telephone connection
  • one or more predetermined recipients for example a security service or a police station, may be provided as recipients of the message.
  • An arming ready signal can be received by the burglar alarm system via the first input of the central control unit (eg 12 V). This is generated by the burglar alarm system if all the connected and correspondingly configured signal heads are in the ready state Show. This is the case, for example, when all of the outer skin openings monitored by the intruder alarm system are closed and locked (ie, detection of the closed position of the doors or windows closing the outer skin openings and detection of the locking state of the associated locking devices) and any movement detectors in the Interior no movement notice.
  • the user places a corresponding arming request signal on the associated electronic closing unit.
  • this functionality of driving the burglar alarm system can be integrated into the electronic locking unit such that no additional physical switch on the door is required.
  • the respective electronic locking unit then sends (preferably by radio) a Arming request signal to the central control unit.
  • the arming ready signal is not reported by the burglar alarm system to the first input of the central control unit, immediately a negative answer signal is transmitted back to the electronic locking unit (preferably by radio) and from this the user is signaled (optically and / or acoustically) that Arming the burglar alarm system is not possible. If, however, the arming ready signal is present at the first input of the central control unit, this generates at the first output (eg by means of a relay) an arming command for the burglar alarm system and starts at the same time said time counter.
  • the burglar alarm (optionally after further or renewed checks) effects the desired arming and then generates (in the case of a positive completion of the checks) the arming acknowledgment signal, which is transmitted to the second switching input of the central control unit.
  • This transmits (preferably by radio) a positive answer signal to the electronic locking unit, which outputs a positive acknowledgment signal for the user (again optically and / or acoustically).
  • the central control unit of the door locking system does not receive the arming acknowledgment signal from the burglar alarm within a predetermined time interval monitored by the time counter, the central control unit transmits the negative answer signal (preferably by radio) to the electronic locking unit which in turn indicates to the user a corresponding negative acknowledgment signal.
  • the burglar alarm system must therefore have at least two signal outputs and a signal input (which at least two switching inputs and a switching output of the central control unit of the door locking system are assigned).
  • a conventional burglar alarm system must be able to be connected to an (electromechanical) block lock (or a wall scanner with associated blocking element).
  • the present invention is currently taking advantage of the fact that the communication facilities provided for a conventional block lock can be used to combine an existing burglar alarm system with an electronic door lock system to thereby control the burglar alarm system via the connected central control unit of the door lock system and its integrated web server to be able to.
  • the decision sovereignty over opening the door secured by the electronic locking unit is preferably at the central control unit. That is, before the Locking unit can be opened by means of an associated electronic key, the locking unit must always ask the central control unit, whereupon they on the basis of a comparison of identification data (which was transmitted from the electronic locking unit) and authorization data (which are stored in the central control unit) a decision via the release of the electronic locking unit or unlocking the corresponding door closing device meets.
  • additional parameters eg time
  • the central control unit can also check or take into account the state of the burglar alarm system (eg checking whether the burglar alarm system is disarmed). In the case of a positive test result, the central control unit sends an access release command via the mutual communication interfaces to the electronic locking unit to release the locking unit for access to the relevant door, preferably only for a predetermined (preferably adjustable) period of time.
  • such a decision sovereignty of the central control unit has the advantage that it can prevent opening of the door, for example, as long as the burglar alarm system is still armed and the user has no electronic key with identification data, which is assigned the authorization to disarm the burglar alarm system , Whether the burglar alarm system is armed is known due to the arming acknowledgment signal at the relevant switching input of the central control unit, ie the central control unit is informed of the arming operating state (armed or disarmed) of the burglary alarm system. As a result, the triggering of a false alarm can be prevented by a user who wants to gain access to the building or the interior without taking into account that the monitoring by means of the burglar alarm system is active.
  • the user receives an indication in the form of a negative acknowledgment signal informing him that the burglar alarm system is armed, that the electronic door lock system is working properly, and that access (opening the door) for its authorization level is not allowed.
  • a forcedness is realized without the need for an additional (electromechanical) block lock or a wall scanner with blocking element.
  • the door locking system may optionally have an additional electronic "fall-back" key with an increased level of authorization (also referred to as a "master” or “override” key or transponder).
  • an additional electronic "fall-back" key with an increased level of authorization also referred to as a "master” or “override” key or transponder.
  • the electronic clamping unit After receiving an identification signal from the electronic "fall-back" key at least if despite one or more attempts a communication with the central control unit or a central verification of the identification data are not possible (eg because the central control unit does not respond) , transmitted by the evaluation and control device of the electronic clamping unit directly a control signal to the actuator of the electronic clamping unit for releasing the access.
  • a "fall-back" key is preferably issued only to specially authorized persons, so that in a special situation, for example in the event of a power failure or a malfunction of the central control unit, the electronic locking unit can release (ie unlock the corresponding door locking device). With regard to such special situations, it is particularly useful to provide the central control unit and the electronic locking unit with separate power supplies.
  • the electronic clamping unit is battery-powered or battery-backed, with it in the case of a central power failure, a self-sufficient power supply for the electronic clamping unit is provided.
  • Control signals and identification data are exchanged between the evaluation and control devices of the central control unit and the electronic locking unit via the communication interfaces of the central control unit and the electronic locking unit.
  • the above-described interaction between the central control unit and the electronic clamping unit is thereby made possible.
  • the communication interface of the central control unit and the communication interface of the electronic locking unit each have a wireless transmitting and receiving device for establishing a radio link between the central control unit and the electronic locking unit.
  • the radio link can also be adapted for the transmission of encrypted switching and data signals.
  • the evaluation and control device of the electronic locking unit is adapted to receive an identification signal from the electronic key and a door opening request signal with identification data of the electronic key to the to send central control unit.
  • the identification data received by the key can either be forwarded directly and unchanged, or the received identification data are first analyzed and / or modified.
  • the evaluation and control device of the central control unit is preferably adapted to compare the identification data contained therein with the stored authorization data upon receipt of the door opening request signal and in the case of a positive result of the comparison (and optionally the checking of further parameters, such as the time or the state of the burglar alarm system) to send an access enable command via the communication interfaces of the electronic clamping unit and the central control unit to the electronic clamping unit.
  • the evaluation and control device of the electronic locking unit is preferably adapted, upon receipt of the access release command, to control the actuator of the electronic locking unit for an access release (eg coupling a handle with an unlocking mechanism).
  • the electronic locking unit preferably has a reception module (in particular a radio reception module) for receiving the identification signal from the electronic key.
  • a reception module in particular a radio reception module
  • the electronic key may include a passive or active transponder (eg, RFID, radio-frequency identification, or NFC, near field communication) through which control signals and identification data may be transmitted to the electronic locking unit without any interaction between the electronic key and the electronic locking unit a mechanical connection exists.
  • a passive or active transponder eg, RFID, radio-frequency identification, or NFC, near field communication
  • control signals and identification data may be transmitted to the electronic locking unit without any interaction between the electronic key and the electronic locking unit a mechanical connection exists.
  • the evaluation and control device of the central control unit is preferably adapted to be able to receive a door opening request signal via the network interface and / or the mobile radio interface, the evaluation and control device of the central control unit also being adapted for this purpose is to send on the door opening request signal an access enable command via the communication interfaces of the central control unit and the electronic clamping unit to the electronic clamping unit.
  • the evaluation and control device of the electronic locking unit is further adapted, upon receipt of the access release command, to control the actuator of the electronic locking unit for release of access to the respective door.
  • the authorized user of the door locking system can also grant remote access to the building to a third party without the need for the third party to have their own electronic key (so-called remote control or "remote" control).
  • the central control unit further has at least one further switching output for controlling mechatronic closing devices or associated monitoring devices.
  • This switching output may be formed as a floating output (e.g., changeover relay).
  • further access devices e.g. Barriers or engine locks controlled by the door closing system. This can in particular be done automatically, for example "event” controlled, e.g. when an alarm is displayed by the burglar alarm system.
  • opening of additional access devices in particular remotely, can also be initiated via the network interface and / or the mobile radio interface of the central control unit.
  • the further switching output can also be used, for example, to control a connected video camera to record one or more still images or to record a video sequence. Preferably, this is also done automatically, in particular "event" controlled. Such occasions or “events” may be present, for example, if an access request is detected at one of the electronic locking units (electronic key transmits identification signal to the evaluation and control device the electronic locking unit), or only if a specially configured electronic key (eg, corresponding to a security guard) transmits its identification signal to one of the electronic locking units, or if an unsuccessful access request is detected (eg while the intruder alarm system is armed and the electronic key in question is not armed) Disarming is authorized) or if an alarm is displayed by the burglar alarm system.
  • a specially configured electronic key eg, corresponding to a security guard
  • the other switching output can only be used to trigger the recording of image data by the video camera, but the image data is stored in the video camera and later read out from the memory of the video camera.
  • the central control unit additionally has at least one video input for receiving image data from a connected video camera, wherein the image data generated by the video camera is transmitted via the video input to the central control unit. This preferably takes place during or immediately after the respective recording.
  • the video data received by the central control unit can preferably be output via the network interface and / or the mobile radio interface, in particular in real time (so-called streaming) or at any later time (for example as video files).
  • the central control unit preferably additionally has a nonvolatile memory for the received image data.
  • said further switching output (via which the video camera captures image data) and said video input may also be formed by a single physical interface (e.g., common electrical connector).
  • the first switching output of the central control unit for outputting an analog control signal, for example the aforementioned arming command, adapted.
  • the first switching input of the central control unit for receiving an analog state signal, for example, the above arming ready signal or arming acknowledgment signal, be adapted. Accordingly, all other mentioned switching inputs and outputs of the central control unit can be designed analogously.
  • first switching output of the central control unit is freely configurable and the evaluation and control device of the central control unit is adapted in particular to generate a control signal optionally independent of a voltage applied to the first switching input switching signal and output at the first switching output.
  • the evaluation and control device immediately activates the burglary alarm system connected to the first switching output (for example, due to an arming request signal sent by the electronic locking unit) by means of a corresponding arming command, i. regardless of the concern of arming readiness signal of the burglar alarm system at the first switching input of the central control unit.
  • the evaluation and control device of the central control unit also does not monitor whether, as a result of the issued arming command, the connected burglar alarm system reports an arming acknowledgment signal.
  • the explained free configurability of the first switching output and the evaluation and control device of the central control unit can also be used for a so-called virtual arming and disarming, in which no burglar alarm system is connected to the first switching output and the first switching output only for storing an operating state of the door locking system (required authorization level) is used.
  • a hierarchy of two differently authorized user groups may be provided, whereby only the first user group is authorized for (virtual) arming and disarming, and a member of the second user group (ie the respective electronic key) is only allowed access is authorized if the first switching output is (disarmed) (by a member of the first user group).
  • the door locking system can optionally be used to operate the door locking system with two hierarchical levels with a particularly high level of failure or interference safety, even without a burglary alarm system connected.
  • the first switching output is preferably designed as a bistable relay which reliably retains its last position even in the event of a temporary power failure.
  • the evaluation and control means of the central control unit is adapted to query the switching state of the first switching output (ie the bistable relay) upon receipt of a door opening request signal (from the electronic clamping unit) and in particular after a power failure and an access release command to the to transmit electronic clamping unit when the state "(virtual) disarmed" is determined at the first switching output.
  • the current operating state of the door locking system (second user group is currently authorized to access or excluded from access) indirectly stored by means of the first switching output for the desired interference immunity even in pure access control operation with subdivision of the electronic key in two hierarchy levels (ie by the virtual arming or disarming).
  • a separate non-volatile memory is therefore not required for storing the current operating state, and erroneous memory entries are avoided which could otherwise occur if a power failure occurs during writing to a dedicated memory.
  • the evaluation and control device of central control unit further be adapted to transmit over the network interface stored in the memory authorization data and / or configuration parameters to another, but similar central control unit of the same door locking system via the network interface. If, for example, the respective central control unit or its evaluation and control device can only manage a limited number of electronic locking units and / or electronic keys, this makes it possible to combine a plurality of central control units within a single door locking system via their network interfaces to form a network necessary exchange of stored authorization data and / or configuration parameters.
  • the door locking system comprises a plurality of central control units, each having a plurality of electronic locking units associated with one of the plurality of central control units (ie each electronic locking unit only communicates with the associated central control unit), and wherein the plurality of central control units communicate with one another via their network interfaces.
  • the control of this exchange of authorization data and / or configuration parameters and / or the control of the corresponding electronic locking units can be centralized or decentralized, for example by means of a virtual web server (ie as a pure software implementation) or by means of its own central control device (ie as hardware -Implementation).
  • An integrated master-slave functionality of the network of several similar central control units is also possible, for example.
  • the central control unit of the door lock system is adapted to establish a bi-directional (and preferably secure) network connection to an external (ie door lock system remote) server via the network interface (if present).
  • the central control unit can be adapted to set up a bidirectional (and preferably secure) mobile radio connection (if available) via the mobile radio interface (ie a connection via a wireless network, in particular the public cellular mobile services) to an external server.
  • the door lock system can be remotely controlled and managed via the external server.
  • the external server can in particular form a so-called "cloud" server.
  • a secure connection can preferably be set up between the network interface of the door locking system and the external server, for example as a virtual private network (VPN) with a "Secure Sockets Layer” (SSL) or “Transport Layer Security” (TLS) encryption ( So as a so-called “SSL VPN” connection).
  • VPN virtual private network
  • SSL Secure Sockets Layer
  • TLS Transport Layer Security
  • the authorized user of the door locking system preferably only communicates with the server to transmit control and configuration data to the central control unit of the door lock system and to change the authorization data and / or configuration parameters stored therein.
  • the external server has or forms a web server
  • the authorized user preferably by means of a standard web browser or by means of an application (eg "App ") of an Internet-enabled terminal communicates with the web server of the external server.
  • the invention also relates to a door closing and burglar alarm system comprising a door locking system of the type described above and a burglary alarm system having at least a first signal input for receiving said control signal of the central control unit of the door closing system (in particular the central control unit via the first switching output Control unit output control signal) and at least a first signal output for outputting a status signal to the central control unit of the door locking system (in particular to the first switching input of the central control unit), wherein the burglar alarm system is connected to the central control unit of the door closing system or connectable (in particular at their switching inputs and outputs).
  • the invention also relates to a door lock system arrangement comprising a door lock system of the type described above and an external server, wherein the external server is adapted to provide bidirectional (and preferably secure) access via the network interface and / or the mobile interface of the door lock system ) Establish network connection (eg via the Internet) or mobile connection (eg via a public cellular mobile network) to the central control unit of the door lock system.
  • a door lock system arrangement comprising a door lock system of the type described above and an external server, wherein the external server is adapted to provide bidirectional (and preferably secure) access via the network interface and / or the mobile interface of the door lock system ) Establish network connection (eg via the Internet) or mobile connection (eg via a public cellular mobile network) to the central control unit of the door lock system.
  • the external server is adapted to send control and configuration data via the network connection or mobile connection to the central control unit, wherein the central control unit is adapted to receive the control and configuration data via the network interface or mobile radio interface (and the stored authorization data and / or change configuration parameters accordingly).
  • the electronic door locking system shown comprises a central control unit 11 and at least one electronic locking unit 13.
  • An intrusion alarm system 17 is connected to the central control unit 11 by means of a plurality of electrical connections. The exact configuration of the electrical connections will be explained in more detail below.
  • the communication with the burglar alarm system takes place exclusively via analog electrical signals, wherein the invention is not limited thereto and in particular also includes communication via digital signals.
  • the door lock system serves as a central access control for a building, which in the embodiment shown has, for example, a door and a window.
  • the door is secured directly or indirectly by the electronic clamping unit 13.
  • an electronic key 15 which is associated with the electronic locking unit 13, the door closing system and the connected burglar alarm system 17 can be operated.
  • the electronic key 15 is implemented by a transponder which can transmit control signals and identification data to the electronic locking unit 13 in a radio-based manner (i.e., wirelessly).
  • the central control unit 11 has an electronic evaluation and control device 19, a memory 21, a communication interface 23, a network interface 25 embodied here for example as a LAN interface, a mobile radio interface 26, a time counter 49 and a web server 65. At least the evaluation and control device 19, the memory 21, the communication interface 23, the network interface 25, the mobile radio interface 26, the web server 65 and the subsequently explained first switching input 41, first switching output 45 and second switching input 51 of the central control unit 11 form a common unit, ie these components are arranged in a common housing of the central control unit 11.
  • the electronic locking unit 13 comprises an evaluation and control device 27, a communication interface 29, an electrically controllable actuator 31 for a closing element of the closing unit 13 or an associated door closing device, and a display device 43.
  • the communication interfaces 23 and 29 there is an encrypted radio link for bidirectional communication between the central control unit 11 and the electronic locking unit 13.
  • the communication interfaces each have a transmitting and receiving unit 63 or 63 '.
  • a local area network (LAN) connection or a secure internet connection with the integrated web server 65 of the central control unit 11 can be established, for example, from a standard personal computer (PC) 33.
  • the PC 33 for a local connection can be connected directly to the network interface 25, or the connection is established via the Internet, wherein the part of the central control unit 11, a suitable Internet router (not shown) may be connected.
  • control and configuration data of the door locking system which are stored in the memory 21, can be read out and changed via the web server 65. Further control options of the PC 33 will be explained below.
  • the control and configuration data stored in the memory 21 also include, in particular, configuration parameters and authorization data, on the basis of which the authorization for operating the door locking system and for the Control the burglar alarm system 17 (eg arming / disarming) by means of the electronic key 15 is checked.
  • a secured Internet connection to the integrated web server 65 of the central control unit 11 can likewise be established via the mobile radio interface 26 of the central control unit 11.
  • the mobile radio interface 26 communicates directly with the evaluation and control device 19 of the central control unit 11 (ie without the need for an integrated web server 65 and without the use of an Internet protocol).
  • This can be provided, in particular, if the authorized user does not communicate directly with the central control unit 11 by means of a mobile-capable terminal and via the mobile radio network (for example GRPS, UMTS or LTE) but via an external server 67 (as will be explained below).
  • the central control unit 11 either only has the network interface 25 for communication based on an Internet protocol, or only the mobile radio interface 26 for communication based on a mobile radio protocol. In the embodiment shown here, however, both interfaces 25, 26 are provided.
  • the central control unit 11 is connected to the burglar alarm system 17.
  • the purpose of intruder alarm system 17 is to monitor all security-related access points of the building for unauthorized intrusion of third parties, and to trigger an alarm in case of unauthorized intrusion.
  • Suitable signaling devices are used to monitor the security-relevant access points.
  • the burglar alarm system monitors, for example, the window by means of an opening detector 35, which detects an opening of the window sash, in particular in the case of an unauthorized opening of the window from the outside.
  • the interior of the building is monitored by means of a motion sensor 37.
  • several control options are provided for the door locking system. These include communication sequences between the intruder alarm system 17 and the electronic locking unit 13, which are controlled by the central control unit 11 and will be explained in detail below.
  • the burglar alarm system 17 can be armed or disarmed using the electronic key 15, if this is associated with a corresponding authorization level.
  • an arming request signal is sent to the evaluation and control device 27 by the user of the electronic key 15, for example after leaving the building and during or after closing and locking the closing unit 13.
  • an arming request signal is then sent to the central control unit 11 via the communication interfaces 29 and 23.
  • the central control unit 11 now first checks whether the burglar alarm system 17 is in a armed ready state.
  • the evaluation and control device 19 an analog arming readiness signal is checked, which is sent from a signal output 39 of the burglar alarm system 17 to a first switching input 41 of the central control unit 11 and applied to the first switching input 41.
  • a negative answer signal is sent from the central control unit 11 via the communication interfaces 23 and 29 to the electronic locking unit 13.
  • a negative acknowledgment signal is output by the display device 43 of the electronic clamping unit 13.
  • the display device 43 for example, a green and a red LED, wherein the negative acknowledgment signal is indicated by a brief turn on the red LED.
  • the evaluation and control device 19 of the central control unit 11 After receiving a Arming request signal ScharfschaltrschaftsSullivan the burglar alarm system 17 determines (ie the inevitability is ensured), the evaluation and control device 19 via a first switching output 45 of the central control unit 11 a analog arming command to the burglar alarm system 17, wherein the arming command is received by the burglar alarm system 17 via a signal input 47.
  • the time counter 49 provided in the central control unit 11 is started.
  • the evaluation and control device 19 expects an analog arming confirmation signal in response to the transmitted arming command from the burglar alarm system 17.
  • This arming acknowledgment signal is optionally transmitted from a signal output 53 of the burglar alarm system 17 to a second switching input 51 of the central control unit 11 and is applied to the second switching input 51. If the evaluation and control device 19 receives the arming confirmation signal within the predetermined waiting time interval, the evaluation and control device 19 sends a positive answer signal to the electronic locking unit 13, wherein the evaluation and control device 27 of the electronic locking unit 13 upon receiving the positive answer signal, the display device 43 for displaying a positive acknowledgment signal drives. In the illustrated embodiment, the green LED of the display 43 illuminates in response to the positive response signal.
  • the evaluation and control device 19 of the central control unit 11 does not receive the arming acknowledgment signal within the predetermined waiting time interval (eg due to a defect of the burglary alarm system 17)
  • the evaluation and control device 19 sends a negative answer signal to the electronic locking unit 13 via the communication interfaces 23 and 29 , whereupon the evaluation and control device 27 of the closing unit 13 controls the display device 43 in the form of a negative acknowledgment signal (red LED lights up).
  • the evaluation and control device 19 causes the central control unit 11 to deactivate the arming command previously output via the first switching output 45 to the burglar alarm system 17, ie. the signal at the first switching output 45 is "switched over" to a disarming command.
  • the evaluation and control device 19 by comparing the stored predetermined waiting time interval with the time from the start of the time counter 49 thus determines until when the arming confirmation signal according to the predetermined waiting time interval must be received, so that the positive response signal to the electronic clamping unit 13th may be sent.
  • the closing unit 13 first transmits a disarming request signal to the central control unit 11, which then transmits a disarming command to the burglar alarm system 17 and waits for a disarming acknowledgment signal of the burglary alarm system 17. Only when this is present, transmitted the central Control unit 11, a positive response signal to the electronic clamping unit 13th
  • the user of the electronic door locking system may unlock the electronic locking unit 13 or unlock the associated door locking device as follows.
  • the user sends by means of the electronic key 15 an identification signal with identification data to the electronic locking unit 13.
  • Then sends the evaluation and control device 27 of the electronic locking unit 13 via the communication interfaces 29 and 23, a door opening request signal with the identification data of the electronic key 15 to the central control unit 11th
  • the evaluation and control unit 19 of the central control unit 11 compares the identification data contained in the door opening request signal with the permission data stored in the memory 21.
  • the evaluation and control unit 19 sends an access release command to the electronic locking unit 13 via the communication interfaces 23 and 29.
  • the evaluation and control unit When the access authorization command is received, the evaluation and control unit generates 27 a control signal for the actuator 31 of the electronic locking unit 13, which releases the door (directly or indirectly, in particular via a closing element and an associated door closing device) for opening, so that the user can enter the building (eg coupling a handle with an unlocking mechanism) ,
  • the electronic locking unit 13 can also be unlocked due to a combined disarming and door opening request signal, which is initiated by the electronic key 15 and by the evaluation and control device 27 of the clamping unit 13 is transmitted to the central control unit 11: If the electronic key 15 is authorized to control the burglar alarm system 17 and in particular to disarm, causes the evaluation and control device 19 of the central control unit 11 first disarming the burglar alarm system 17, and transmits (only ) then immediately a positive answer signal (which confirms the disarming of the burglar alarm system 17) and an access release command (for corresponding activation of the actuator 31) to the electronic clamping unit 13.
  • a door opening request signal can be received from the central control unit 11 via the network interface 25 or the mobile radio interface 26, wherein the evaluation and control device 19 again receives an access release command via the communication interfaces 23 and 29 to the electronic unit upon receipt of the door opening request signal Closing unit 13 sends. Then, the electronic clamping unit 13 is opened as described above.
  • the burglar alarm system 17 detects unauthorized intrusion of third parties along one of the access points (window or door) to the building on the basis of the sensors 35 and 37, this triggers an alarm.
  • the burglary alarm system 17 sends a (eg analog) alarm signal to the central control unit 11 via a signal output 57, the alarm signal being received by the central control unit 11 via a third switching input 55 and applied to the switching input 55.
  • the evaluation and control device 19 of the central control unit 11 via the network interface 25 or the mobile radio interface 26 send a message to a predetermined recipient.
  • an e-mail containing information of the alarm is sent, for example, to the responsible building management and to a security service.
  • the central control unit 11 has, in addition to the already mentioned switching outputs, a further switching output 59, by means of which, for example, a barrier 61, which prevents the unauthorized access to a parking area adjacent to the building, can be opened or closed.
  • a corresponding opening command can be generated automatically via the switching output 59 ("event" -controlled), for example when an alarm is triggered by the burglar alarm system 17 and a corresponding alarm signal is output via the signal output 57 to the third switching input 55 of the central control unit 11.
  • such an opening command by the evaluation and control device 19, for example, via the switching output 59 are output when the opening command transmitted by means of a correspondingly configured electronic key 15 to the electronic clamping unit 13 and then from the electronic clamping unit 13 to the central control unit 11 is forwarded.
  • the burglar alarm system 17 can be armed or disarmed.
  • an arming request signal is sent to the central control unit 11 via the PC 33, whereupon the evaluation and control unit 19 checks on the basis of the arming ready signal applied to the first switching input 41 as to whether the burglar alarm system 17 is in an armed ready state. If this is not the case, sends the evaluation and control device 19 via the network interface 25, a negative answer signal to the PC 33, which is displayed to the user of the PC 33 graphically.
  • the burglar alarm system 17 If, however, the burglar alarm system 17 is in an arming ready state, an arming command is issued to the burglar alarm system 17 via the first switching output 45, whereupon, as described above, it issues an arming acknowledgment signal to the central control unit 11 when the arming command has been executed.
  • the evaluation and control device 19 the arming confirmation signal within the stored in the memory 21 predetermined waiting time interval, it sends a positive answer signal to the PC 33, which is displayed to the user of the PC 33 graphically. If no arming acknowledgment signal is received within the predetermined waiting time interval, a negative answer signal is correspondingly sent to the PC 33 and displayed there accordingly.
  • the determination as to whether the arming confirmation signal is received within the predetermined waiting time interval or not is determined by the evaluation and control device 19 by means of the time counter 49.
  • the burglar alarm system 17 in the manner described above via the mobile interface 26 can be armed or disarmed, for example by means of the aforementioned external server 67.
  • For graphical display of the positive or negative response signal can then, for example, connected to the external server 67 terminal of be provided to authorized user (not shown).
  • an indirect communication of the authorized user over the already be said external server 67 may be provided (so-called "cloud" server).
  • the user establishes a secure and bidirectional connection to the external server 67 via the Internet via a web-enabled terminal and the external server 67 provides a secure and bidirectional connection to the network interface 25 or the mobile radio interface 26 ago.
  • the electronic door locking system can be administrated and operated particularly comfortably by means of the PC 33 or via the external server 67. This is particularly advantageous when a plurality of electronic locking units 13 are integrated into the door locking system.
  • all stored in the memory 21 configuration and authorization data can be checked and possibly changed.
  • a plurality of electronic keys 15 can be issued to authorized users, wherein the authorization data, which are set individually for each key 15, can also be managed remotely efficiently via the network interface 25 or the mobile radio interface 26.
  • a mobile, PC-like or mobile-enabled terminal for example, a smartphone (with an "App” installed thereon) or a tablet (with Web terminal). Browser) are used.
  • a particular advantage of the invention is therefore that in a modular design, an electronic door locking system on the one hand, which serves the access control and management and which has a network interface 25 and / or a mobile radio interface 26 for a particularly convenient control and configuration from a distance, on the other hand can be functionally linked to an existing (eg analog) burglar alarm system 17 on the other hand, not only to improve the operability of the burglar alarm system 17, but also to allow additional functionality (eg electronic device of a forced operation during locking / arming and / or disarming / unlocking ).
  • an existing (eg analog) burglar alarm system 17 not only to improve the operability of the burglar alarm system 17, but also to allow additional functionality (eg electronic device of a forced operation during locking / arming and / or disarming / unlocking ).

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  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Computer Security & Cryptography (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Lock And Its Accessories (AREA)
  • Burglar Alarm Systems (AREA)
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CN106131212A (zh) * 2016-08-18 2016-11-16 安居慧云(厦门)科技有限公司 一种基于物联网的智慧社区控制装置及系统
EP3300035A1 (fr) * 2016-09-23 2018-03-28 Astra Gesellschaft Für Asset Management MbH&Co. Kg Dispositif de sécurité comprenant un dispositif d'alarme et un dispositif de commande d'accès
EP3561789A1 (fr) * 2018-04-24 2019-10-30 Carrier Corporation Système de sécurité domestique amélioré doté d'une fonctionnalité d'autorisation automatique
CN113724429A (zh) * 2020-05-25 2021-11-30 安讯士有限公司 门禁控制

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EP3007139B1 (fr) 2019-12-04
DK3007139T3 (da) 2020-01-27
DE102014115187A1 (de) 2016-03-24

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