EP4080000A1 - Dispositif de commande pour dispositifs électriques de verrouillage d'une porte - Google Patents

Dispositif de commande pour dispositifs électriques de verrouillage d'une porte Download PDF

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Publication number
EP4080000A1
EP4080000A1 EP22167767.7A EP22167767A EP4080000A1 EP 4080000 A1 EP4080000 A1 EP 4080000A1 EP 22167767 A EP22167767 A EP 22167767A EP 4080000 A1 EP4080000 A1 EP 4080000A1
Authority
EP
European Patent Office
Prior art keywords
door
control device
power supply
integrated module
locking devices
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
EP22167767.7A
Other languages
German (de)
English (en)
Other versions
EP4080000C0 (fr
EP4080000B1 (fr
Inventor
Wolfgang Müller
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Assa Abloy Sicherheitstechnik GmbH
Original Assignee
Assa Abloy Sicherheitstechnik GmbH
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Assa Abloy Sicherheitstechnik GmbH filed Critical Assa Abloy Sicherheitstechnik GmbH
Publication of EP4080000A1 publication Critical patent/EP4080000A1/fr
Application granted granted Critical
Publication of EP4080000C0 publication Critical patent/EP4080000C0/fr
Publication of EP4080000B1 publication Critical patent/EP4080000B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B79/00Mounting or connecting vehicle locks or parts thereof
    • E05B79/02Mounting of vehicle locks or parts thereof
    • E05B79/08Mounting of individual lock elements in the lock, e.g. levers
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B63/00Locks or fastenings with special structural characteristics
    • E05B63/14Arrangement of several locks or locks with several bolts, e.g. arranged one behind the other
    • E05B63/143Arrangement of several locks, e.g. in parallel or series, on one or more wings
    • 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
    • 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
    • E05B2047/005Opening, closing of the circuit
    • E05B2047/0054Opening, closing of the circuit using microprocessor, printed circuits, or the like
    • 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
    • E05B2047/0071Connecting lockparts by electronic communication means only, e.g. bus systems, time multiplexing
    • 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
    • E05B47/0046Electric or magnetic means in the striker or on the frame; Operating or controlling the striker plate

Definitions

  • the invention relates to a control device for electric locking devices of a door according to the features of the preamble of claim 1.
  • door openers or locks should be provided with sensors, or the locking elements of locks or door openers should be electronically controllable from different sources or by means of digital bus systems.
  • the electrical control device for operating an electric door opener, which has an electromagnet, is known.
  • the electrical control device comprises a plurality of electronic components in order to have a door opener to supply pulsed voltage, and thus to improve a loose shaking of the door opener with high preload or with magnetic remanence.
  • the DE 10 2006 001 078 A1 shows a door opener system for authorization-dependent access control systems on a door. This system also includes several electronic components to control a door opener accordingly.
  • the invention is based on the object of providing a control device for electric locking devices of a door, which can be used in a variety of ways, has a compact design and is designed in particular for controlling different electric locking devices.
  • this object is achieved by a control device for electric locking devices of a door with the features of claim 1 .
  • the electronic components are all integrated into a single integrated module and the at least one analog power output and/or the at least one digital power output directly controls and/or switches and/or drives an actuator or motor or electromagnet.
  • a door is understood to mean a single-leaf door or a multi-leaf door, which can be designed, for example, as a revolving door or as a sliding door or as a swinging door.
  • locking devices of a door are understood to mean electrically controllable components arranged on a door or in cooperation with a door, which can lock or release the door in the closed position and/or an open position.
  • door openers are understood to mean electrically controllable door openers that release or lock a door opener latch by means of an electrically switchable actuator by applying an electrical voltage.
  • Locks or door locks are preferably understood to mean all types of locks in or on a door. For example, built-on locks or mortise locks or multiple locks or panic locks and the like.
  • tumblers are understood to mean devices for locking a door for escape routes and/or fire protection doors, which can be switched electrically. For example holding magnets or escape door openers or locking devices or the like.
  • the control device can preferably be designed to control a single locking device.
  • the control device can be designed to control two or more locking devices, for example a door lock and a door opener.
  • a power supply unit can be provided, which can be connected to a power supply line or control line of an electrical locking device of a door and supplies electrical energy to the electronic components, preferably all electronic components of the integrated module.
  • the circuit complexity can be further reduced since all consumers and the controller can be supplied with electrical energy via one and the same power supply unit.
  • the power supply unit also supplies power to at least one connected actuator or motor or electromagnet of an electrical locking device of a door via the integrated module.
  • a plurality of connected actuators and/or motors and/or electromagnets of an electrical locking device of a door can preferably also be supplied with power by the power supply unit via the integrated module. This means that there is no need for a separate power supply for the connected components, since they are supplied with power via the integrated module.
  • the power supply unit is provided as a discrete unit.
  • the power supply unit can be embodied as a module or consist of several discrete components and be embodied next to the integrated component.
  • the power supply unit is designed to be integrated in the single integrated module. This further reduces the circuit complexity.
  • protection devices for example with diodes, Z diodes or Transil diodes and/or correspondingly connected transistors or FETs (field effect transistors), to protect against overvoltages or to protect against reverse polarity.
  • FETs field effect transistors
  • the integrated component can be protected against damage caused by overvoltages.
  • protection devices can be embodied as discrete protection devices or as protection devices integrated into the integrated chip.
  • the integrated module is arranged on a printed circuit board, that the control device has only a single printed circuit board and the integrated module is arranged on this printed circuit board.
  • no further active components preferably transistors or FETs, are arranged on the printed circuit board in addition to the integrated component and components for safeguarding the power supply. This makes it possible to achieve a particularly compact design.
  • the current requirement can also be optimized since no further active components are required which would also consume electronic current.
  • components such as pull-up or pull-down resistors at the inputs and/or at the outputs are designed to be integrated in the single integrated module.
  • the printed circuit board can be designed as a single layer or multi-layer printed circuit board.
  • the power supply unit supplies the electronic components, preferably all electronic components of the integrated module, with electrical energy.
  • the electronic components preferably all electronic components of the integrated module.
  • the power supply unit Even with different current and/or voltage requirements, provision is made for the power supply unit to be able to take over the supply of electrical energy.
  • the integrated module and/or the power supply unit has a single power supply connection.
  • the power supply unit has a rectifier and supplies the integrated module or the electronic components of the integrated module with power, regardless of whether the control device and/or the power supply unit is connected to a DC voltage line or to an AC voltage line.
  • the operation is Control device regardless of whether DC voltage or AC voltage is provided to supply an electrical locking device.
  • the power supply unit has a step-up and/or step-down regulator (step-up and/or step-down converter) and obtains the power supply for the electronic components of the integrated module from a DC voltage line or from an AC voltage line, whose voltage can be below or above the required supply voltage of the integrated module or the electronic components of the integrated module.
  • the control device can be connected to a line via the outward regulator or step-up converter or the downward regulator or step-down converter, regardless of its voltage level. It is thus possible to use different voltage lines to supply the control device.
  • control device or the input of the power supply unit can be connected to a DC voltage line with a voltage between 3.3 volts and 48 volts, or to an AC voltage line with a voltage between 3.3 volts and 48 volts.
  • the power supply unit can have a voltage converter and provide at least two different voltages for supplying the processor or the programmable computing core and for supplying the at least one analog output or digital output or the at least one analog power output and/or digital power output.
  • consumers connected via the load outputs such as motors or electromagnets, can be subjected to a higher voltage in order to achieve higher outputs.
  • one embodiment can provide for the single integrated module to have an analog/digital converter as a further integrated electronic component, to which the at least one analog input is connected, preferably the at least one analog input can be connected directly to an input voltage in the range from 1 volt to 48 volts. It can of course also be provided that a plurality of analog/digital converters are provided for a plurality of analog inputs or that an analog/digital converter is provided which scans a plurality of inputs in rapid succession.
  • the integrated module has a number of analog and/or digital inputs, for example up to 8 or 12 or 16 analog and/or digital inputs.
  • the inputs of the integrated module, or some of the inputs of the integrated module can be reprogrammed or defined as analog or digital inputs by software and/or by parameters.
  • the single integrated module has a wired and/or serial bus interface, in particular a CAN bus interface, as a further integrated electronic component.
  • a wired and/or serial bus interface in particular a CAN bus interface
  • the single integrated module has a transceiver as a further integrated electronic component, in particular a transceiver designed as a Bluetooth interface or a transceiver designed as a ZigBee interface or a transceiver designed as a wireless LAN interface.
  • a transceiver designed as a Bluetooth interface or a transceiver designed as a ZigBee interface or a transceiver designed as a wireless LAN interface This makes it possible for the control device to be controlled and/or programmed and/or parameterized wirelessly. It is just as conceivable that the control device communicates wirelessly with other components of the door control and/or mobile devices and/or transponders, for example in order to implement access control.
  • the electronically writable memory has an electronically writable working memory, in particular RAM memory, and/or a protected electronically writable program memory and/or an application memory, in particular flash memory. It can preferably be provided that several executable programs and/or parameter sets for the programmable computing core are stored in the electronically writable memory, in particular in the application memory, with one of these programs and/or one of these parameter sets for controlling a type or a type family of electrical Locking devices a door is formed, and one of these programs and / or one of these sets of parameters can be selected by means of switches or by means of configuration of the programmable processor core to a to control a certain type or a certain type family of electric locking devices of a door.
  • the electronically writable memory can include a non-volatile memory.
  • Data such as error messages or permanently valid parameters can be stored in the non-volatile memory.
  • the non-volatile memory can also be used for documentation for service purposes, for example by storing a switch-on time and/or operating time and/or maintenance work carried out in the non-volatile memory.
  • executable programs and/or parameter sets for the programmable computing core are stored in the electronically writable memory, in particular in the application memory, one of these programs and/or these parameter sets for controlling a type or a type family of electrical locking devices of a door, and wherein the programmable processor core is designed to recognize a connected type or a connected type family of electrical locking devices of a door in order to program and/or the appropriate program for the connected type or for the connected type family of electrical locking devices of a door Select parameter set automatically.
  • a specific type of electrical locking device is understood to mean, for example, a special door lock or a special door opener.
  • the program and/or parameter set for controlling this type is used to determine which outputs or which Inputs of the control device are connected to control this type, as well as what power requirements, in particular what voltage level the respective type requires and what type of actuators and / or sensors are usually available.
  • the parameter sets for the special type of locking device for example, voltage ranges and/or current ranges and/or temperature ranges can be defined within which the type of electrical locking device for a door is usually to be operated.
  • a family of types of electrical locking devices for a door can include, for example, several individual types of door opener or door lock, which differ mechanically in terms of detailed configurations but can be controlled electrically together.
  • the programmable computing core or processor determines a connected type or connected type family by measuring a resistance of the connecting line and/or by reading out an identifier. For example, when a voltage is applied, the processor or the programmable computing core can automatically read an identifier from the connected electrical locking device and can use this identifier to selectively select a specific program or a specific set of parameters.
  • At least one of the analog and/or digital outputs is designed as a load output in such a way that it can drive inductive loads and/or ohmic loads and/or capacitive loads.
  • the power supply unit supplies the load output(s) with power. This further simplifies the construction, since no additional power supply is required even when power-hungry consumers such as motors or stepping motors or electromagnets are connected.
  • the load outputs are designed as PWM outputs in order to drive a coil or a motor or a stepping motor or a display directly, preferably with a selectable voltage, in particular with a selectable voltage in the range between 6 V and 48 V head for.
  • the load outputs are designed as pulse width modulation outputs, the required output voltage can be set at the respective load output by means of the processor or computer core. It is thus possible, independently of the input voltage of the control device or the line to which the control device is connected, to operate loads with a voltage level that differs therefrom.
  • the power supply unit has an integrated step-up or step-down controller has in order to provide the required voltage level and by controlling the PWM output that the required voltage level is set for a specific current requirement of the consumer.
  • the circuit board has a cooling surface or several cooling surfaces for the integrated module and/or the power outputs and the integrated module and/or the power outputs are connected to the cooling surface or the cooling surfaces, to dissipate waste heat via these cooling surfaces.
  • a copper surface of correspondingly large dimensions can serve as the cooling surface.
  • a cooling surface can be designed as a broadened strip conductor that is electrically and thermally conductively connected to a power output.
  • the printed circuit board can preferably have a thermally conductive core, in particular an aluminum core, or be mounted on an aluminum plate.
  • a thermally conductive core in particular an aluminum core
  • provision can be made for waste heat to be routed from the integrated module to the thermally conductive core and/or the aluminum plate via thermal vias.
  • An application of the control device according to the invention according to one of the examples described above provides that it be used in conjunction with an electric door opener for locking a door (electric door opener for locking or releasing a door with a door opener housing in which a door opener latch that can be released or locked via an electric actuator is movable is stored) is used in which it is provided that a control device according to one of the preceding claims is accommodated in the door opener housing.
  • an electric door opener with an integrated control device is provided, which is suitable for different applications. Due to the high level of integration of the control device, it is possible to integrate it completely into the existing housing of an electric door opener without having to increase the size of the door opener. This makes it easy to upgrade or retrofit existing systems.
  • the integrated module is thermally conductively connected to the door opener housing.
  • the housing of the integrated module can rest directly on the door opener housing or be connected to the door opener housing via a good heat conductor, for example an aluminum block, a copper block or a thermally conductive mat.
  • a further preferred application of the control device according to the invention can provide that a door lock, in particular a motor lock, for locking or releasing a door has a lock case in which a sensor and/or a locking element that can be moved via an electric actuator is movably mounted. It is essential that a control device according to one of the preceding claims is accommodated in the lock case.
  • the integrated module is thermally conductively connected to the lock case.
  • a further possibility of the control device according to the invention provides a method for retrofitting an electric locking device (method for upgrading an electric locking device, in particular a door opener or a door lock arranged on a door).
  • a control device according to one of the preceding claims is connected to a power supply line of the electrical locking device and to a sensor and/or an actuator of the electrical locking device, or that a power supply line of the electrical locking device is separated and a control device according to one of the preceding claims in the power supply line is looped in.
  • existing systems can easily be retrofitted with a control device according to the invention.
  • An application of the control device according to the invention also includes a method for expanding a locking device of a door with a digital BUS interface, in particular a door opener or a door lock arranged on a door.
  • a control device according to one of the preceding claims is looped into a power supply line or a control line of the electrical locking device or is connected to it.
  • existing systems can easily be expanded to include a digital bus interface and/or a wireless interface, without the existing systems having to be extensively modified.
  • control device 1 for controlling different electrical locking devices of a door is shown.
  • the control device 1 has its own housing 3, for example a flush-mounted housing (flush) or a surface-mounted housing (surface) and is arranged separately from the locking devices interacting with the door.
  • the door 9 has a movably mounted door leaf 9 which is pivotably mounted on a door frame 91 via door hinges 92 and 93 .
  • the door leaf 9 can be locked in its closed position via the electrical locking devices, i.e. via the door lock 81 or the door opener 82 or the holding magnet 83 .
  • the control device 1 is connected to a control line 7 or power supply line 7 via which the control device 1 is supplied with electrical energy.
  • the output of the control device 1 is connected to electrical locking components of a door by means of output lines 4 .
  • the electrical locking components of the door include a door lock 81 as well as a door opener 82 and a holding magnet 83.
  • the output line 4 includes several wires corresponding to the connecting wires that are required to control the door lock 81 or the door opener 82 or the holding magnet 83.
  • the output line 4, which leads to the door lock 81 has a flexible cable transition 41 in order to lead it over the door frame 91 to the movably mounted door leaf 9.
  • the control device 1 can be designed to control a single locking device, for example a door opener 82, or a door lock 81 or a tumbler 83.
  • the door lock 81 has a door handle 811 via which it is possible to unlock the door lock 81 manually in order to open the door leaf 9 .
  • the door opener 82 is arranged sunk on the door frame 91 and interacts with a latch bolt 821 or a catch 821 to lock the door leaf 9 in a closed position.
  • the retaining magnet 83 is arranged in an engaging manner between the door frame and the movable door leaf and is intended to form an additional locking point which locks the door leaf 9 in its closed position and where there is authorization or in the event of an alarm, for example a fire alarm or any other event for anyone to give freely. Otherwise, the holding magnet 83 enables the door leaf to be opened if authorization is present, for example in the form of a key or a transponder that is read in via the control device 1 .
  • the electrical control device controls several electrical locking devices at the same time.
  • each electric locking device is controlled by means of its own control device 1, or that the control device 1 controls two locking devices.
  • the figure 2 shows an embodiment of the control device 1 according to the invention for controlling a door opener 82.
  • the door opener 82 has a door opener housing in which a door opener latch 822 is movably mounted.
  • An electrical actuator is arranged inside the door opener housing and interacts with the door opener latch 822 in such a way that the door opener latch 822 can be switched, released and/or locked via the electrical actuator.
  • the control device 1 is arranged inside the door opener housing.
  • the control device 1 has a printed circuit board 5 which is completely surrounded by the housing of the door opener 82 .
  • the only integrated component 2 of the control device 1 is arranged on the printed circuit board 5 .
  • the control device 1 is connected with its output to the actuator of the door opener.
  • connection block of the door opener 82 is not shown. It can be a connection block with screwable connection terminals or with clampable wire connections.
  • the control device 1 is housed within a door lock 81 .
  • the control device 1 is arranged with its printed circuit board 5 completely within the lock case of the door lock 81 and is surrounded on all sides by the lock case.
  • the door lock 81 can be actuated manually via a door handle 811 .
  • a lock bolt 812 and a lock latch 813 are movably mounted as locking elements.
  • the lock bolt and/or the lock latch can be moved via a digital actuator.
  • a motor is provided that the lock bolt 812 in the closed position, ie in a protruding from the lock housing or pulls the lock bolt 812 back into the lock housing.
  • the output of the control device 1 is connected to the actuator of the lock 81, not shown in the figure, in order to control it.
  • Sensors can also be arranged in the lock case of the door lock 81, for example a closed position sensor for detecting the closed position of the door and a bolt sensor for detecting the locked or open state of the door lock and/or a handle sensor for detecting a position of the follower.
  • the control device can be connected to the sensors and queries them via their analog or digital inputs.
  • the control device 1 has a circuit board 5 on which the single integrated module 2 is arranged with all the electronic components of the control device 1 in the integrated power supply unit 12a.
  • a power supply connection 7 connects the integrated module 2 and the power supply unit 12a arranged in the integrated module 2 to a power supply line and/or control line 7 .
  • the figure 5 is a schematic overview of a further embodiment of the control device according to the invention.
  • the power supply unit 12b is designed as a discrete power supply unit 12b, ie not integrated in the integrated module 2.
  • the power supply unit 12b is connected to a power supply line via the power supply connector 7 .
  • the power supply unit 12b has a voltage converter and provides two different voltages at its output.
  • the first voltage 121 is provided to supply the outputs 14, 18 of the integrated module 2 via a separate connection.
  • the voltage level of the voltage 121 is above the voltage level of the second voltage 122, which is provided via a dedicated connection 122 to supply the electrical components, such as the processor 11, memory 19, 111, 112, 113.
  • the first voltage can be 12V or 18V or 24V.
  • the second voltage 122 can be 3.3V or 5V.
  • the integrated power supply unit 12a supplies the outputs 14, 18 and the electrical components such as processor 11 and memory 19 via internal lines. Otherwise, the embodiments agree figures 4 and 5 match.
  • a writable memory 19 is arranged in the integrated module 2 in addition to a programmable computing core 11 or processor 11 .
  • the writable memory has an application memory 111 , a main memory 112 and a flash memory 113 .
  • the application memory 111 one or more control programs and/or sets of parameters can be stored for a specific application or for the type or type family of electric locking devices of a door that is controlled in each case.
  • the working memory 112 is designed for the temporary storage of working values that the processor 11 needs when executing an application program. Further program modules and/or drivers and/or an operating system for operating the processor 11 can be stored in the flash memory 113 .
  • the integrated module 2 includes a programming interface 15, via which the programs and/or application modules and/or parameter sets stored in the electronic memory 19 can be changed and/or stored.
  • a computer or laptop for example, can be connected to the programming interface 15 .
  • the programming interface 15 In particular in order to test and/or program and/or initialize the electronic control device 1 .
  • a serial interface 16 is arranged in the integrated module 2 in order to connect the control device 1 to a CAN bus, for example.
  • a transceiver 17 is also integrated in the integrated module 2 in order to connect the module to other devices and/or a wireless network via a wireless bidirectional interface, preferably a low-energy Bluetooth interface.
  • the integrated module 2 has a number of inputs which are connected to the processor 11 via an input unit 13 .
  • sensors such as door contacts, bolt contacts, closed position sensors and/or analog sensors such as position sensors or temperature sensors can be connected to the inputs.
  • the inputs of the analog sensors are routed via an analog-to-digital converter in order to translate their analog values into digital values that the processor 11 can read.
  • control device 1 or the integrated module 2 has digital outputs 14 in order to control further components or, for example, to control LEDs.
  • 2 load outputs 18 are integrated in the integrated module.
  • the load outputs 18 are designed such that this Coils or double coils or motors or stepping motors or holding magnets can be controlled directly.
  • the load outputs are in the form of PWM (pulse width modulation outputs) and, in addition to a high load of up to 1 A or preferably up to 2 A, can also supply a voltage that can be set via a corresponding pulse width modulation.
  • the power supply unit 12a, 12b is designed to supply all electrical components integrated in the module 2 with power. Furthermore, the power supply unit 12a, 12b is designed to also supply the load outputs 18 and the loads connected to the load outputs with power. For this purpose, the power supply unit 12a, 12b has a combined step-up and step-down converter in order to provide a wide-range input with regard to the voltage supply.
  • the power supply unit 12a, 12b is designed to cover a voltage range of 3.3 V to 50 V, preferably 6 V to 48 V, and to supply the components of the integrated module 2 and the loads connected to the load outputs 18 with the corresponding voltage.
  • the power supply unit 12a, 12b is designed in such a way that when the supply voltage of 6 V is connected to the power supply unit, the loads connected to the load outputs can be supplied with an operating voltage of 12 V or 24 V. In this case, the power supply unit 12a, 12b converts the input voltage from 6 V to the corresponding output voltage via the step-up regulator.
  • the power supply unit 12a, 12b is just as well designed in such a way that, with a high input voltage, for example 48 V, consumers with 12 V, which are connected to the load outputs.
  • the power supply unit 12a, 12b converts the high connected supply voltage to the lower operating voltage of 12 V or to 24 V by means of a step-down regulator.
  • control device 1 In order to adapt the control device 1 to a specific electrical locking device, for example to a specific door opener or a specific door lock, it is provided that corresponding switches and/or jumpers are arranged on the printed circuit board 5, via which a specific type of locking device, i.e. a specific Door opener or a specific door lock is adjustable. Based on this jumper setting, the processor 11 retrieves the corresponding application program and/or the corresponding parameter set for controlling the specific door opener type or lock type from the application memory in order to control it correctly. This makes it possible to use the control device 1 according to the invention to control a wide variety of types of locking devices of a door without having to change the hardware of the control device.
  • a specific type of locking device i.e. a specific Door opener or a specific door lock
  • the electrical locking devices can be connected to the load outputs 18 for driving motors or coils via an output line 4, or via the digital outputs 14, to control simple LEDs or a status display.
  • Corresponding sensors of the electrical locking devices can be connected to the control device via the inputs 13 so that the sensors can be used, for example, to read out an operating state of the connected door opener or the connected door lock from the control device 1 .
  • the control device 1 is able, for example, via the CAN interface 16 to report an operating state of the connected door opener or an operating state of the connected door lock to a higher-level control system.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Lock And Its Accessories (AREA)
EP22167767.7A 2021-04-13 2022-04-12 Dispositif de commande pour dispositifs électriques de verrouillage d'une porte Active EP4080000B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE102021109154.3A DE102021109154A1 (de) 2021-04-13 2021-04-13 Steuervorrichtung für elektrische Verriegelungsvorrichtungen einer Türe

Publications (3)

Publication Number Publication Date
EP4080000A1 true EP4080000A1 (fr) 2022-10-26
EP4080000C0 EP4080000C0 (fr) 2024-05-01
EP4080000B1 EP4080000B1 (fr) 2024-05-01

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Application Number Title Priority Date Filing Date
EP22167767.7A Active EP4080000B1 (fr) 2021-04-13 2022-04-12 Dispositif de commande pour dispositifs électriques de verrouillage d'une porte

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EP (1) EP4080000B1 (fr)
DE (1) DE102021109154A1 (fr)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4443391A1 (de) * 1994-12-06 1996-06-13 Aeg Sensorsysteme Gmbh System mit einer Mehrzahl von Schlössern
US6043753A (en) * 1996-08-23 2000-03-28 Sony Corporation Remote-control-operated locking/unlocking system
EP1284473A2 (fr) * 1999-08-05 2003-02-19 GEZE GmbH Dispositif de blocage avec système de bus
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