EP3543439B1 - Procédé pour un ensemble serrure - Google Patents
Procédé pour un ensemble serrure Download PDFInfo
- Publication number
- EP3543439B1 EP3543439B1 EP18163485.8A EP18163485A EP3543439B1 EP 3543439 B1 EP3543439 B1 EP 3543439B1 EP 18163485 A EP18163485 A EP 18163485A EP 3543439 B1 EP3543439 B1 EP 3543439B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- lock
- counter
- locking
- actuator
- locking element
- 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.)
- Active
Links
- 238000000034 method Methods 0.000 title claims description 94
- 238000012544 monitoring process Methods 0.000 claims description 77
- 230000007246 mechanism Effects 0.000 claims description 64
- 238000004146 energy storage Methods 0.000 claims description 21
- 239000003990 capacitor Substances 0.000 claims description 2
- KJFBVJALEQWJBS-XUXIUFHCSA-N maribavir Chemical compound CC(C)NC1=NC2=CC(Cl)=C(Cl)C=C2N1[C@H]1O[C@@H](CO)[C@H](O)[C@@H]1O KJFBVJALEQWJBS-XUXIUFHCSA-N 0.000 claims 2
- 230000008569 process Effects 0.000 description 30
- 238000012546 transfer Methods 0.000 description 12
- 238000004891 communication Methods 0.000 description 10
- 230000008901 benefit Effects 0.000 description 8
- 230000000903 blocking effect Effects 0.000 description 4
- 230000004913 activation Effects 0.000 description 3
- 238000001514 detection method Methods 0.000 description 3
- 230000003213 activating effect Effects 0.000 description 2
- 230000002426 anti-panic effect Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 238000005299 abrasion Methods 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 230000009977 dual effect Effects 0.000 description 1
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- 230000001360 synchronised effect Effects 0.000 description 1
- 230000001960 triggered effect Effects 0.000 description 1
Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B17/00—Accessories in connection with locks
- E05B17/22—Means for operating or controlling lock or fastening device accessories, i.e. other than the fastening members, e.g. switches, indicators
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B15/00—Other details of locks; Parts for engagement by bolts of fastening devices
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B17/00—Accessories in connection with locks
- E05B17/20—Means independent of the locking mechanism for preventing unauthorised opening, e.g. for securing the bolt in the fastening position
- E05B17/2007—Securing, deadlocking or "dogging" the bolt in the fastening position
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B47/0012—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with rotary electromotors
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/14—Arrangement of several locks or locks with several bolts, e.g. arranged one behind the other
- E05B63/143—Arrangement of several locks, e.g. in parallel or series, on one or more wings
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/14—Arrangement of several locks or locks with several bolts, e.g. arranged one behind the other
- E05B63/146—Arrangement of several locks or locks with several bolts, e.g. arranged one behind the other locks with two or more bolts, each bolt itself being a tumbler
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/18—Locks or fastenings with special structural characteristics with arrangements independent of the locking mechanism for retaining the bolt or latch in the retracted position
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/18—Locks or fastenings with special structural characteristics with arrangements independent of the locking mechanism for retaining the bolt or latch in the retracted position
- E05B63/20—Locks or fastenings with special structural characteristics with arrangements independent of the locking mechanism for retaining the bolt or latch in the retracted position released automatically when the wing is closed
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B65/00—Locks or fastenings for special use
- E05B65/10—Locks or fastenings for special use for panic or emergency doors
- E05B65/1006—Locks or fastenings for special use for panic or emergency doors of the vertical rod type
- E05B65/1013—Trigger means for holding the bolt in the retracted position and releasing the bolt when the door is closed
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05C—BOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
- E05C7/00—Fastening devices specially adapted for two wings
- E05C7/04—Fastening devices specially adapted for two wings for wings which abut when closed
- E05C7/06—Fastening devices specially adapted for two wings for wings which abut when closed a fastening device for one wing being actuated or controlled by closing another wing
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B15/00—Other details of locks; Parts for engagement by bolts of fastening devices
- E05B15/04—Spring arrangements in locks
- E05B2015/0403—Wound springs
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B15/00—Other details of locks; Parts for engagement by bolts of fastening devices
- E05B15/04—Spring arrangements in locks
- E05B2015/0458—Leaf springs; Non-wound wire springs
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B45/00—Alarm locks
- E05B45/06—Electric alarm locks
- E05B2045/065—Switch or sensor type used in alarm locks
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0015—Output elements of actuators
- E05B2047/0016—Output elements of actuators with linearly reciprocating motion
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B2047/0014—Constructional features of actuators or power transmissions therefor
- E05B2047/0018—Details of actuator transmissions
- E05B2047/0024—Cams
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B2047/0048—Circuits, feeding, monitoring
- E05B2047/0067—Monitoring
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/02—Movement of the bolt by electromagnetic means; Adaptation of locks, latches, or parts thereof, for movement of the bolt by electromagnetic means
- E05B47/026—Movement of the bolt by electromagnetic means; Adaptation of locks, latches, or parts thereof, for movement of the bolt by electromagnetic means the bolt moving rectilinearly
Definitions
- the present invention relates to a method according to the type defined in more detail in the preamble of claim 1. Furthermore, the invention relates to a locking system according to the preamble of claim 7.
- a locking system is known in which both a lock for an active leaf door and a counter lock for an inactive leaf door are equipped with a motor drive.
- the motor drives can be activated at the same time to unlock the lock arrangement.
- the object is achieved in particular by a method for a lock arrangement, wherein the lock arrangement comprises a lock for an active leaf door and a counter lock for an inactive leaf door.
- the entire door which includes the fixed and active wing door, can form a building door, in particular an escape door, a fire protection door or the like.
- the lock comprises at least one locking element, wherein the locking element engages in an opening of the counter lock in a locking position of the locking element.
- the locking element can be disengaged from the opening, in particular in an unlocking position of the locking element.
- the lock and the counter-lock can in particular be arranged adjacently in such a way that the locking element can engage in the opening of the counter-lock in the locking position. It is advantageous if the locking element can be moved translationally between the locking position and the unlocking position.
- the counter lock comprises at least one, in particular, first locking bar connection for connection to a first locking bar.
- the counter lock comprises an electromechanical counter lock actuator, in particular an electric motor, for moving the first locking bar and/or the first locking bar connection.
- the lock comprises an electromechanical lock actuator, preferably an electric motor, for moving the locking element.
- the counter lock actuator is activated to move the first locking bar in such a way that the lock actuator at least partially causes a movement of the locking element.
- the counter lock actuator is activated to move the first locking bar in such a way that the lock actuator at least partially controls the movement of the locking element takes over or initiates.
- the activation of the counter-lock actuator to move the first locking rod in such a way that the lock actuator at least partially causes a movement of the locking element takes place in particular when the lock arrangement is transferred into an unlocking state and/or locking state.
- both the counter-lock actuator and the lock actuator are activated for a locking process and/or unlocking process of the lock arrangement, ie the lock and the counter-lock.
- the lock is in particular in a locked state when at least the locking element is in the locking position.
- the lock is in particular in an unlocked state when at least the locking element is in the unlocked position.
- the lock may include a lock housing.
- the counter lock can include a counter lock housing.
- the first locking bar is preferably movable by means of the first locking bar connection. So the counter lock actuator moves the first locking bar by the counter lock actuator moves the first locking bar connection.
- the first locking bar can be moved to an extended position and a retracted position. In the extended position, the first locking bar is in engagement with a first locking element.
- the first locking element is located in a door frame, in a floor or a wall.
- the first locking rod in the extended position serves to lock the passive door.
- the first locking bar In the retracted position, the first locking bar is disengaged from the locking element. The locking caused by the first locking bar is therefore canceled in the retracted position.
- the first locking bar connector moves together with the first locking bar.
- the first locking bar connection is correspondingly in an extended position. If the first locking bar is in the retracted position, so the first locking rod connection is in a retracted position.
- the first locking bar connection can be arranged in the counter lock housing. A disclosure regarding the movement and/or positioning of the first locking bar in the retracted and/or extended position therefore also includes a disclosure regarding the movement and/or positioning of the first locking bar connection in the retracted and/or extended position.
- the counter lock is in a locked state in particular when at least the first locking bar connection is in the extended position.
- the counter lock is in particular in an unlocking state when at least the first locking bar connection is in the retracted position.
- the counter lock is preferably in the unlocked state when the locking element is also in the unlocked position.
- the lock and the counterlock are transferred to the unlocked state.
- the lock arrangement is transferred to the locking state, the lock and the counter lock are transferred to the locking state.
- a transfer of the lock arrangement into the unlocking state is referred to as an unlocking process of the lock arrangement.
- a transfer of the lock arrangement into the locking state is referred to as a locking process of the lock arrangement.
- the lock arrangement includes an electromechanical lock actuator in addition to the electromechanical counter-lock actuator, the effect of the movement of the locking element and the effect of the movement of the first rod connection can be distributed between the counter-lock actuator and the lock actuator. Because the lock actuator at least partially causes the movement of the locking element, the lock actuator can support and/or supplement the counter-lock actuator during a locking and/or unlocking process of the lock arrangement. As a result, it is not necessary to decouple a potentially possible movement of the locking rod connection and the locking element caused electromechanically by the counter lock.
- a particularly electronic control which activates the counter-lock actuator in such a way that the lock actuator at least partially causes the movement of the locking element.
- the control can be at least partially connected electrically and/or via radio to the lock actuator and/or the counter-lock actuator.
- the counter lock preferably comprises at least one second locking bar connection for connecting a second locking bar.
- the second locking bar is preferably movable by means of the second locking bar connection. This allows the counter lock actuator to move the second locking bar, by the counter lock actuator moving the second locking bar connection.
- the second locking bar can be moved to an extended position and a retracted position. In the extended position, the second locking bar is in engagement with a second locking element.
- the second locking element is located in a door frame, in a floor or a wall.
- the second locking rod is therefore used in the extended position to lock the inactive door. In the retracted position, the second locking bar is disengaged from the locking element. The locking caused by the second locking bar is therefore canceled in the retracted position.
- the second locking bar connector moves together with the second locking bar. If the second locking bar is in the extended position, the second locking bar connection is correspondingly in an extended position. If the second locking bar is in the retracted position, the second locking bar connection is correspondingly in a retracted position.
- the counter lock can include the second locking bar connection.
- the second locking bar connection can be arranged in the counter lock housing. A disclosure regarding the movement and/or positioning of the second locking bar in the retracted and/or extended position therefore also includes a disclosure regarding the movement and/or positioning of the second locking bar connection in the retracted and/or extended position.
- the first locking bar can correspond to a lower locking bar and the second locking bar can correspond to an upper locking bar.
- the movements of the first and second locking bars into the extended and/or retracted position can be opposite to one another.
- the movement of the first locking bar connection and the second locking bar connection can be at least partially coupled. It is therefore conceivable that when the counter lock is transferred to the unlocking state, both the first locking bar and the second locking bar are moved from the respective extended position to the respective retracted position.
- the counter lock is transferred to the locking state, it moves first locking bar and the second locking bar from the respective retracted position to the respective extended position.
- the first and second locking bar connections move accordingly. If it is disclosed below that the first locking bar moves from the retracted position to the extended position or vice versa, the second locking bar can also move from the retracted position to the extended position and vice versa.
- an energy storage device is tensioned in the retracted position of the first and/or second locking rod. It is conceivable that when the inactive door is closed, the first and/or the second locking rod can be moved into the extended position by means of the energy storage device.
- the counter lock can therefore be designed to be self-locking.
- a spring element can be tensioned in the retracted position of the upper locking bar.
- the spring element can therefore correspond to the energy storage.
- the spring element can be arranged inside or outside the counter lock housing.
- the upper locking bar can be activated by a trigger element, e.g. B. a switch lock, be held in the retracted position with the spring element tensioned.
- a trigger element e.g. B. a switch lock
- the counter lock can include a counter lock mechanism element.
- the lower locking bar can move to the extended position by the force of a counter-lock spring.
- the counter-lock spring can in particular be arranged in the counter-lock housing.
- the locking system can include the first and/or second locking bar.
- the locking system can be connectable to the first and/or second locking bar.
- the counter lock actuator can be used to move the first and/or the second locking bar connection into the retracted position. If the first and/or the second locking rod connection is moved into the retracted position by the counter-lock actuator, the at least one energy storage device, in particular the spring element and/or the counter-lock spring, is tensioned.
- the counter-lock actuator can engage at least one counter-lock mechanism element in order to move the first and/or second locking bar connection into the retracted position.
- the counter-lock actuator can engage the counter-lock mechanical element via a counter-lock gear.
- the counter-lock actuator engages the counter-lock mechanism element in such a way that the first and/or second locking rod connection remains in the retracted position, in particular against the force of an energy storage device.
- the counter lock mechanism is in an unlocking position. If the counter lock mechanism is in the unlocking position, transfer of the first and/or second locking rod connection into the extended position is preferably prevented. If the counter-lock gear is in a release position, the counter-lock gear preferably enables the first and/or second locking rod connection to be transferred into the extended position. In the unlocking position, the counter-lock gear prevents the counter-lock from self-locking.
- Permanent unlocking of the counter lock is a condition in which the The counter lock gear remains in the unlocking position until the control receives a signal that the permanent unlocking of the counter lock should be canceled. The control then causes the counter-lock gear to move into the release position.
- the counter-lock actuator causes the first and/or the second locking bar connection to move into the extended position.
- the counter-lock actuator can act on the counter-lock mechanism.
- the counter-lock actuator can allow movement of the first and/or the second locking bar connection into the extended position.
- the counter-lock gear can allow the counter-lock to be transferred into the locking state, in particular by means of the at least one energy storage device.
- the counter-lock mechanism is in operative connection with the counter-lock mechanism element in the unlocking position.
- the counter-locking mechanism element can be out of operative connection with the counter-locking mechanism element, so that the first and/or second locking rod connection can be moved into the extended position by the force of at least one energy storage device.
- a cam of the counter-lock gear can come into operative connection with a projection of the counter-lock mechanical element.
- the counter lock can include an actuating element.
- the actuating element can be designed as a nut.
- the actuating element can be connectable to a handle and/or a panic bar. Additionally or alternatively, the actuating element can be designed as a locking cylinder.
- the counter lock preferably the lock arrangement, can be mechanically transferred to the unlocking state. I.e.
- the actuating element of the counter lock the locking element can be moved into the unlocking position and the first and/or second locking rod connection can be moved into the retracted position.
- the counter lock can therefore be designed as an anti-panic counter lock.
- the counter lock comprises a locking element actuator in order to move the locking element into the unlocking position.
- the locking element actuator in particular is moved.
- the locking element actuator By moving the locking element actuator, the locking element can be moved from the locking position into the unlocking position.
- the locking element actuator thus serves to mechanically cancel the locking by the locking element via the counter lock.
- the locking element actuator When the locking element actuator is in a retracted position, the locking element can be in the locking position. If the locking element actuator is in the active position, the locking element is in the unlocking position.
- the locking element actuator can be designed to move the locking element out of the counter-lock housing by moving from the retracted position into the active position. It is conceivable that a movement of the locking element actuator and the first and/or second locking bar connection are at least partially coupled, in particular via the counter-lock mechanism element.
- the movement of the second locking rod connection and the locking element actuator are coupled to one another. It may be that the movement of the first and second locking bar connections are coupled to one another when moving into the retracted position. It may be that a movement of the first locking bar connection into the extended position is not directly coupled to the movement of the second locking bar connection into the extended position and/or the movement of the locking element actuator into the active position. Rather, it may be that when the second locking bar connection moves into the extended position and/or the locking element actuator moves into the active position, the first locking bar connection moves into the extended position Position is released, but the movement of the first locking rod connection is carried out by an energy storage device, in particular the counter-lock spring.
- the locking element can be designed as a lock. It is conceivable that the lock includes a latch.
- the trap can be lockable. If the latch is locked, the latch can act as a second locking element. It may be that the latch is unlocked at the same time as the locking element moves from the locking position to the unlocking position. It is conceivable that the unlocked latch is moved into the lock housing when the door is opened.
- the trap can preferably be designed as a cross trap.
- the counter lock is designed without a latch actuator. Rather, the latch can be unlocked at the same time as the locking element moves into the unlocking position. In particular, the movement of the latch into the lock housing can be released at the same time as the locking element moves into the unlocking position.
- the lock actuator can act on a lock mechanism element in order to move the locking element into the unlocking position. It is conceivable that the lock actuator engages the lock mechanism element in such a way that the locking element remains in the unlocking position, in particular against the force of a lock spring.
- a lock gear connected to the lock actuator is in an unlocking position. When the lock is permanently unlocked, the lock gear remains in the unlocked position until the control receives a signal that the permanent unlocking of the lock is to be canceled.
- a permanent unlocking of the lock arrangement is understood to be a permanent unlocking of the lock and the counter lock.
- the lock actuator causes the locking element to move into the locking position.
- the lock actuator can act on the lock mechanism element.
- the Lock actuator allows the locking element to move into the locking position.
- the lock actuator can come out of operative connection with the lock mechanism element, so that the lock mechanism element can move the locking element into the locking position by the force of a spring.
- the lock actuator and the counter-lock actuator are activated in order to transfer the lock arrangement into the unlocking state.
- the unlocking process of the lock arrangement is therefore carried out by means of the lock actuator and the counter-lock actuator.
- the lock actuator and the counter-lock actuator can be activated such that the locking element remains spaced from the locking element actuator while the locking element is moved electromechanically into the unlocking position. This makes it possible, in particular, to carry out the movement of the locking element without electrical power from the counter-lock actuator.
- the lock actuator moves the locking element into the unlocking position without the help of the counter-lock actuator. If the lock actuator and the counter-lock actuator are activated in such a way that the locking element remains at a distance from the locking element actuator, the locking element actuator does not contribute to moving the locking element into the unlocking position.
- the movement of the locking element into the unlocking position occurs only through the lock, in particular through the lock actuator. According to the invention, this is achieved by activating the lock actuator before the counter-lock actuator.
- the counter-lock actuator is deactivated as soon as the work done by the counter-lock actuator exceeds a limit value, in particular subsequently the counter-lock actuator is reactivated at least once, preferably several times, in order to move the first locking bar further.
- a safety shutdown can be provided to increase reliability.
- the safety shutdown can help increase the life of the counter lock actuator.
- the limit value can be detected by means of an overcurrent detection, e.g. B. by an electronic current sensor, such as a shunt resistor or the like.
- the lock actuator is activated before the counter-lock actuator is activated. This ensures that the locking element actuator remains at a distance from the locking element and that the counter lock actuator does not do any work to move the locking element. This can in particular ensure that the locking element is moved into the unlocking position by the lock actuator, but not by the counter-lock actuator. If the lock actuator is activated before the counter-lock actuator, it can be ensured in particular that the locking element remains at a distance from the locking element actuator while the locking element is moved electromechanically by the lock actuator into the unlocking position.
- the counter-lock actuator is preferably activated before the lock actuator is activated. This ensures that the locking element actuator does not block the opening of the counter lock.
- the counter-lock actuator and the lock actuator are preferably activated in such a way that the locking element remains spaced from the locking element actuator during the movement into the locking position.
- the control preferably first causes the lock actuator to move the locking element into an unlocking position. Only when the locking element is in the unlocking position is the counter-lock actuator, in particular by the control, caused to move the first and/or the second locking rod connection into a retracted position.
- the counter-lock actuator can be activated while the lock actuator moves the locking element into the unlocking position.
- the counter-lock actuator in particular from the control, is preferably caused to first move the locking rod connection into an extended position. Only when the locking rod connection is in the extended position is the lock actuator, in particular by the control, caused to move the locking element into the locking position.
- the lock actuator can be activated while the counter-lock actuator causes the locking rod connection to move into the extended position.
- the lock arrangement comprises at least one monitoring means, wherein the monitoring means detects a position of the locking element, at least one locking rod connection or the locking element actuator.
- the monitoring means can be designed as a switch or sensor.
- a monitoring signal from the monitoring means can be used to activate and/or deactivate the lock actuator and/or the counter-lock actuator.
- the monitoring signal is used in particular to activate and/or deactivate the lock actuator and/or the counter-lock actuator during an unlocking process of the lock arrangement and/or a locking process of the lock arrangement.
- the monitoring means monitors a position of the locking element
- the monitoring means is preferably located in the lock housing. If the monitoring means monitors a position of the locking element actuator or the first and/or second locking bar connection, the monitoring means is preferably located in the counter-lock housing.
- the controller can preferably receive the monitoring signal from the monitoring means and control the lock actuator and/or the counter-lock actuator after evaluating the monitoring signal.
- control and the monitoring means can be electrically connected or communicate wirelessly.
- the monitoring means does not have to directly detect the position of the locking element, the locking rod connection or the locking element actuator. Rather, it is sufficient to specify a position of an element coupled to the locking element, the locking rod connection or the locking element actuator, e.g. B. the lock mechanism element or the counter-lock mechanism element. Thus, detection of the position of the locking element, the locking rod connection or the locking element actuator by the monitoring means includes indirect detection.
- At least one monitoring signal from a monitoring means is preferably used to detect the position of the locking element.
- the unlocking position is particularly preferably detected as the position of the locking element to be detected.
- At least one monitoring signal from a monitoring means is preferably used to detect the position of the locking element actuator or the first or second locking rod connection.
- the retracted position of the locking element actuator or the extended position of the first or second locking rod connection is detected as the position to be detected.
- the lock can in particular be a self-locking lock.
- the locking element can be mechanically automatically moved into the locking position when the lock is opposite the counter lock.
- the lock can in particular include a tax trap.
- the lock can in particular be designed as an anti-panic lock.
- the locking element can be activated mechanically by operating a panic bar or one Door handle can be moved into the unlocking position.
- the lock can include a nut that can be connected to the panic bar and/or the door handle. In the unlocking position, the lock gear prevents the lock from locking itself.
- the counter-lock gear connected to the counter-lock actuator remains in the unlocking position in which the locking rod connection is in a retracted position when a permanent unlocking command for permanently unlocking the lock arrangement has been issued to the lock arrangement.
- the permanent unlocking command is received in particular by the controller.
- the lock gear connected to the lock actuator remains in the unlocking position in which the locking element is in the unlocking position when a permanent unlocking command for permanently unlocking the lock arrangement has been issued to the lock arrangement.
- an electromechanical unlocking, locking process and/or a permanent unlocking of only the lap is possible. All you need is the lock actuator.
- the counter lock actuator remains uninvolved.
- the passive leaf remains locked.
- the invention also relates to a locking system with a lock arrangement, the lock arrangement comprising a lock for an active leaf door and a counter lock for an inactive leaf door.
- the lock includes at least one locking element.
- the locking element engages in an opening of the counter lock in a locking position of the locking element.
- the counter lock further comprises at least one, in particular, first locking bar connection for connection to a first locking bar.
- the counter lock includes an electromechanical counter lock actuator for moving the first locking bar. It is provided here that the lock has an electromechanical lock actuator for moving the locking element includes.
- the locking system includes an in particular electronic control, wherein the control activates the counter-lock actuator to move the locking rod in such a way that the lock actuator at least partially causes a movement of the locking element and/or at least partially takes over the movement of the locking element.
- the control is also designed to activate the lock actuator before the counter-lock actuator during an unlocking process of the lock arrangement.
- the locking system according to the invention therefore brings with it the same advantages as have been described in detail with reference to a method according to the invention.
- the locking system according to the invention can be suitable for being operated according to a method according to the invention. Effecting the movement of the locking element includes actively moving the locking element and allowing the movement by the lock actuator. Activating the counter-lock actuator to move the locking bar includes actively moving the locking bar by the counter-lock actuator and allowing movement of the locking bar by the counter-lock actuator.
- the counter-lock comprises a counter-lock housing and the counter-lock actuator is arranged in the counter-lock housing.
- the locking element actuator for moving the locking element into the unlocking position and/or the actuating element e.g. B. the nut or a locking cylinder, can be arranged for mechanically moving the first locking rod into the retracted position and / or for moving the locking element actuator.
- the counter-lock actuator By arranging the counter-lock actuator in the same counter-lock housing as the locking element actuator, the counter-lock can be constructed in a particularly simple and compact manner.
- the counter-lock actuator can be used together with the first and/or second Locking rod connection, and / or the counter-lock mechanism element can be arranged in a counter-lock housing.
- the counter-lock actuator is arranged together with the locking element actuator and at least one actuating element within a counter-lock housing.
- the counter-lock housing can comprise at least a one-piece counter-lock housing base.
- the counter-lock actuator is arranged in the counter-lock housing, with the counter-lock housing being less than 13.5 cm long and/or 17 cm high and/or the counter-lock being designed as a mortise lock.
- the width can be predetermined by and/or adapted to a fixed wing door width.
- the counter-lock actuator can advantageously be arranged in a counter-lock, which is designed according to DIN 18251-1:2002-07.
- the counter lock, in which the counter lock actuator is integrated, can be inserted into a lock pocket that is designed for mortise locks in accordance with DIN 18251-1:2002-07. This enables reliable and standard-compliant use for various inactive doors.
- the counter-lock includes the counter-lock mechanical element for moving the first locking bar.
- the locking bar can be movable from the extended position to the retracted position by means of the counter-lock mechanism element.
- the counter lock mechanism element preferably moves the first locking bar connection, particularly preferably from the extended position to the retracted position.
- the locking element actuator is moved by means of the counter-lock mechanism element, in particular from a retracted position into an active position.
- the counter-lock mechanism element therefore has several functions.
- the counter-lock mechanism element can therefore contribute to unlocking in several ways: on the one hand, the locking element is activated by means of the counter-lock mechanism element moved into the unlocking position, and on the other hand, the first locking rod is moved into the retracted position by means of the counter-lock mechanism element.
- the second locking bar is also moved into the retracted position by means of the counter-lock mechanism element.
- the counter lock mechanism element can in particular be designed in one piece.
- the counter lock mechanism element can be designed as a slide.
- the slide can be mounted on the counter-lock housing in a translationally movable manner. This makes it possible to provide a cost-effective and reliable mechanism for carrying out the unlocking.
- first and/or second locking bar connection can be moved by means of the actuating element via the counter-lock mechanism element, wherein the locking bar connection can be moved by means of the counter-lock actuator via the counter-lock mechanism element.
- both the mechanical and electromechanical unlocking of the first and/or second locking rod can be effected by the same counter-lock mechanism element.
- the actuation of the actuating element can mechanically override a movement of the counter-lock actuator.
- the counter-lock mechanism element can preferably come out of operative connection with the counter-lock actuator.
- mechanical retraction of the first and/or second locking bar has no negative influence on the counter-lock actuator.
- a movement of the counter-lock actuator can mechanically override an actuation of the actuating element.
- the counter-lock mechanical element come out of effective connection with the actuating element. This means that both mechanical and electromechanical actuation can be reliably provided. If the first and/or second locking rod is retracted electromechanically, the counter-lock actuator does not have to move the actuating element. As a result, the counter-lock actuator requires less electrical power.
- the lock actuator is designed to be identical in construction to the counter-lock actuator. This enables significant cost savings and/or ensures a uniform and synchronous movement sequence when unlocking both the lock and the counter lock.
- the lock actuator acts on the locking element via the lock gear and the counter-lock actuator acts on a locking rod connection via the counter-lock gear, the lock gear and the counter-lock gear each comprising a cam.
- the cam of the lock gear can be arranged on a wheel, in particular a gear, of the lock gear.
- the cam of the counter-lock gear can be arranged on a wheel, in particular a gear, of the counter-lock gear. It may be that the cam of the counter-lock mechanism serves to engage the counter-lock mechanical element, so that the counter-lock mechanical element is moved, in particular displaced. It can be provided that the cam of the counter-lock gear can be brought out of engagement with the counter-lock mechanical element. If the cam of the counter-lock gear is out of engagement with the counter-lock mechanism element, the counter-lock gear releases movement of the counter-lock gear. In the unlocking position of the counter-lock gear, the cam is in engagement with the counter-lock gear.
- the counter-lock mechanism element comprises a projection on which the counter-lock gear, in particular the cam, engages can.
- the counter-lock mechanism element, in particular the projection can be shaped such that the counter-lock mechanism, in particular the cam, can only engage the counter-lock mechanism element, in particular the projection, coming from one direction, in particular from a direction of rotation.
- the counter-lock mechanism element, in particular the projection can be shaped in such a way that the counter-lock mechanism element can always be moved by means of the nut.
- the counter-lock mechanism element in particular the projection, can be shaped in such a way that a movement through which the cam could reach a position in which the cam would block itself in the movement path of the counter-lock mechanism element is prevented.
- movement of the cam against a usual direction of rotation can be at least partially prevented.
- the lock gear can include a cam that can be brought into engagement with the lock mechanism element. In the unlocking position of the lock mechanism, the cam is in engagement with the lock mechanism element, in particular with a projection of the lock mechanism element.
- the counter-lock comprises an energy store, the energy store serving to bring the counter-lock actuator out of operative connection with the counter-lock mechanical element when or after the counter-lock actuator has moved the first locking bar into the retracted position.
- the energy storage can be used to move the counter-lock gear into the release position. This makes it possible to provide a state in which both mechanical and electromechanical actuation remains possible. In particular, a state is provided in which the self-locking of the counter lock is possible.
- the energy storage can include at least one capacitor or an accumulator. Additionally or alternatively, the energy storage can be arranged in the counter-lock housing. The energy storage can serve in particular as an emergency power supply.
- the energy storage thus serves to move the counter-lock gear from the unlocking position into the release position in the event of a power failure and/or to move the counter-lock actuator out of operative connection with the counter-lock mechanical element.
- control can cause the gearbox to be moved into the release position and/or the counter-lock actuator to be moved out of operative connection with the counter-lock mechanical element. If the control is aware that a fire has broken out, the control can ensure that the counter lock gear is not moved into the unlocking position.
- the control can z. B. can be at least indirectly connected to a fire detector in order to gain knowledge of the fire.
- the locking system comprises an in particular electronic control, wherein the control controls, in particular activates, the lock actuator and the counter-lock actuator, the control being in the lock arrangement, in particular in a lock housing of the lock and/or in a counter-lock housing of the counter-lock. is arranged, wherein in particular a first control unit is arranged in the lock housing and the second control unit is arranged in the counter-lock housing.
- the control including the respective control units, e.g. B. include at least one microcontroller or processor or the like to carry out the activation.
- the control units can include a first and a second communication means in order to communicate with one another.
- the control units can be electrically connected to one another, e.g. B. for data exchange.
- the locking system according to the invention can include the lock arrangement or correspond to the lock arrangement.
- the locking system comprises a control, the control controlling the lock actuator and the counter-lock actuator, in particular activated, wherein the locking system comprises a particularly motorized door drive, wherein preferably the control activates the door drive after the movement of the locking element into the unlocking position and the movement of the first locking rod into the retracted position in order to open the active leaf door and the inactive leaf door.
- the control can be arranged in the door drive.
- the door drive can be designed and/or arranged externally to the lock and counter lock, e.g. B. adjacent to the door leaves in order to control the door safely and reliably.
- FIG 1 A counter lock 100 of a locking system 400 according to the invention is shown schematically in a front view.
- the Figures 2 to 5 show the counter lock 100 in further perspectives.
- Such a counter lock 100 can preferably be used for an inactive leaf door, in which a lock 1 of an active leaf is arranged adjacent to the counter lock 100.
- An example is therefore such a lock 1 of a corresponding arrangement in Figure 1 shown with dashed lines.
- the lock 1 and the counter lock 100 together form a lock arrangement 700 (see. Fig. 8 ).
- an opening 110 for the locking element 20 can be formed in a counter-lock housing 170.
- the locking element 20 is designed as a lock.
- a second locking element 70 such as a latch 70
- a corresponding opening 220 in particular latch opening 220, can be present in the counter lock housing 170. This results in the lock 1 and the counter lock 100 interacting for locking purposes.
- the lock 1 is designed as a self-locking lock 1. Every time the active wing door is closed, the locking element 20 moves from an unlocked position into the locked position. In the unlocking position, the locking element 20 is located outside the opening 110. In the locking position, the locking element 20 is in the opening 110.
- At least one locking rod 520 i.e. z. B. a first locking bar 521 and a second locking bar 522, provided (see. Fig. 1 ). These are connected to associated locking rod connections 120 of the counter lock 100, in particular immovably and firmly.
- the locking rod connections 120 are movably accommodated in the counter lock housing 170 for the movement of the locking rods 520.
- a first locking bar connection 121 is provided for the first locking bar 521 and a second locking bar connection 122 for the second locking bar 522.
- the respective person can Locking rod connection 120 can be moved from an extended position to a retracted position by means of a slide 160 of the counter lock 100.
- the locking rod 520 connected to the corresponding locking rod connection 120 can be extended and retracted in the retracted position in the counter lock housing 170.
- a lock e.g. B. made possible by the locking rod 520 being installed in a receptacle in a door frame, a wall, a ceiling or a floor.
- the locking rod connection 120 For unlocking, i.e. the movement into the retracted position, the locking rod connection 120 must be moved into the retracted position.
- the lock arrangement 700 is particularly suitable for escape doors, fire doors or the like.
- the lock arrangement 700 can be unlocked mechanically both by means of the lock 1 and by means of the counter-lock 100 for at least one door leaf:
- the lock 1 includes a lock actuating element 32, e.g. B. a nut.
- the lock actuating element 32 e.g. B. by means of a panic bar or a door handle
- the locking element 20 can be moved from the locking position into the unlocking position.
- the lock actuating element 32 and the locking element 20 are operatively connected to one another via a lock slide 33 as a lock mechanism element.
- the lock slide 33 is moved.
- the trap 70 is designed as a cross trap.
- the latch 70 is locked when the locking element 20 is in the locking position.
- the lock actuating element 32 and thus also the lock slide 33 the latch is unlocked so that the latch 70 can retract into a lock housing 10 when the aisle door leaf is opened.
- the lock actuating element 32 e.g. B. using a panic bar or a door handle
- the lock 1 can be unlocked, so that the active wing door can be opened.
- the passive wing door remains locked due to the locking rods 520 being in the extended position.
- actuating the actuating element 141 in particular a nut, via a panic bar or a door handle, a mechanical interaction of the counter lock 100 with the lock 1 is triggered for unlocking.
- a locking element actuator 130 of the counter-lock 100 is arranged adjacent to the opening 110 to push the locking element 20 out of the counter-lock housing 170.
- the latch 70 is simultaneously unlocked by a movement of the lock slide 33, so that the locks between the lock 1 and the counter lock 100 are released by actuating the actuating element 141.
- the locking rod connections 120 are moved from the extended position to the retracted position by actuating the actuating element 141. This unlocks both the active leaf and the inactive leaf.
- By mechanically actuating the actuating element 141 it is therefore possible to open both the active leaf door and the inactive leaf door in the event of a panic.
- an electromechanical unlocking is provided.
- electromechanical unlocking both the active leaf door and the inactive leaf door are unlocked so that the active leaf door and the inactive leaf door can be opened.
- the lock arrangement 700 is transferred from a locked state to an unlocked state.
- the counter lock 100 includes a counter lock actuator 142 and the lock 1 includes a lock actuator 30 (see Fig. Fig. 9 ).
- the counter lock actuator 142 is designed as an electric motor.
- the lock actuator 30 is designed as an electric motor.
- the lock actuator 30 and the counter-lock actuator 142 work together.
- the counter-lock actuator 142 In contrast to the mechanical unlocking via the counter lock 100, where by actuating the actuating element 141 both the locking element 20 and the Locking rods 520 are moved, the counter-lock actuator 142 not only causes the movement of the locking element 20 as well as the locking rods 520. Rather, the counter-lock actuator 142 is supported by the lock actuator 30 in such a way that the lock actuator 30 at least partially moves the locking element 20 from the locking position into the unlocking position. This enables quick, easy and/or safe unlocking of the active leaf door and the inactive leaf door.
- a controller 510 is provided for this purpose (see Fig. Fig. 8 ). The controller 510 coordinates the activation of the lock actuator 30 and the counter-lock actuator 142.
- the lock actuator 30 and the counter-lock actuator 142 are activated in such a way that first the lock actuator 30 moves the locking element 20 from the locking position to the unlocked position and then the counter-lock actuator 142 moves the locking rods 520 from the extended position to the retracted position.
- a counter lock mechanism element 160 is designed as the slider 160.
- the slider 160 is operatively connected both to the locking element actuator 130 and to the first and second rod connections 120. If the first and second locking rods 520 are to be moved from the extended position to the retracted position, the locking element actuator 130 is always moved in addition to the first and second locking rod connection 120.
- the controller 510 activates the lock actuator 30 in front of the counter-lock actuator 142 in order to carry out the unlocking process of the lock arrangement 400. In this way it can be ensured that the counter-lock actuator 142 does not have to do any electrical work to move the locking element 20. Rather, the lock actuator 30 alone takes over the movement of the locking element 20 from the locking position to the unlocking position. During electromechanical unlocking, the locking element actuator 130 and the locking element 20 can therefore remain spaced apart from one another.
- the counter-lock actuator 142 is additionally protected from excessive load by measuring whether the work done by the counter-lock actuator 142 exceeds a limit value. If the limit value is exceeded, the counter lock actuator 142 is deactivated. This gives the lock actuator 30 the opportunity to briefly move the locking element 20 while the counter-lock actuator 142 does not do any work. If the locking element actuator 130 is in contact with the locking element 20, in particular if the counter-lock actuator 142 is involved in the movement of the locking element 20, the locking element actuator 130 can be spaced apart from the locking element 20 by briefly terminating the actuation of the counter-lock actuator 142. This reduces the workload for the counter-lock actuator 142 when the counter-lock actuator 142 is activated again. The counter lock actuator 142 is activated again by the controller 510.
- the counter-lock actuator 142 is arranged in the counter-lock housing 170 together with the locking element actuator 130 and the actuating element 141.
- the counter lock housing in particular has a length L of 13.5 cm and a height H of 17 cm (see Fig. Figure 4 ) and is therefore suitable for arrangement in a standardized pocket of the inactive door.
- the lock actuator 30 is arranged together with the lock actuating element 32 and the lock slide 33 in a lap housing 10.
- the lock housing is also suitable for placement in a standardized pocket of the active swing door.
- the lock actuator 30 and the counter-lock actuator 142 are designed to be identical to one another.
- a movement of the slider 160 is in Figure 1 is designed as a translationally guided displacement in the counter-lock housing 170.
- the slider 160 can be from a first position in which the at least one Locking rod connection 120 is in the extended position, and can be moved to a second position in which the at least one locking rod connection 120 is in the retracted position.
- the counter-lock 100 can have at least one counter-lock spring 180, which pushes the slide 160 into the first position.
- the counter lock spring 180 engages at least one of the locking rod connections 120.
- the movement of the locking rod connections 120 can be brought about by actuating an actuating device 140, for example by actuating the actuating element 141 and/or an electromechanical counter-lock actuator 142.
- the actuating element 141 is designed as a nut 141 and acts on the slide 160 when rotated.
- the counter-lock actuator 142 acts on the slide 160 via a counter-lock gear 200.
- the counter-lock actuator 142 can be in and out of operative connection with the slide 160.
- the counter-lock gear 200 includes a cam 201, wherein when the counter-lock actuator 142 is in operative connection with the slide 160, the counter-lock gear 200 rests with the cam 201 on the slide 160.
- the slide 160 can include a first projection 191, against which the cam 201 comes into contact. If the cam 201 lies on the first projection at 191 and holds the slide 160 in the second position, the counter-lock gear 200 is in an unlocking position.
- the counter-lock actuator 142 can be brought out of operative connection with the slide 160 if the cam 201 does not rest on the first projection 191. Then the counter lock gear 200 is in a release position.
- the slide 160 and the counter-lock actuator 142 are brought out of operative connection when the slide 160 is moved from the first position to the second position by actuation of the actuating element 141.
- the slide 160 is released from the cam 201.
- a mechanical unlocking is thus possible by means of the actuating element 141 without the counter-lock actuator 142 blocking the mechanical unlocking and/or without the counter-lock actuator 142 being damaged during the mechanical unlocking.
- the counter-lock gear 200 is in the unlocking position. In the unlocking position, movement of the slide 160 is blocked by the counter lock spring 180. The self-locking of the counter lock 100 is canceled. If the counter-lock gear remains in the unlocking position, the counter-lock 100 is permanently unlocked.
- the counter-lock 100 can have an energy storage 105 (as in Figure 8 shown schematically).
- the energy storage 105 stores enough energy to activate the counter-lock actuator 142 long enough so that the cam 201 no longer rests on the first projection 191. As a result, mechanical movement of the slide 160 is not blocked by the cam 201.
- the energy storage 105 serves as an emergency power supply in order to be able to reliably provide the mechanical self-locking of the counter lock 100 in the event of a fire.
- the actuating element 141 rests on the slide 160, in particular on a second projection 192 of the slide 160.
- the actuating element 141 can come out of operative connection with the slide 160 by actuating the counter-lock actuator 142.
- the second projection 192 of the slide is released from the actuating element 141 by the movement of the slide 160.
- the actuating element 141 therefore does not have to be moved.
- Fig. 4A shows a modified form of the slide 160.
- the first projection 191 has a bulge 196.
- the bulge 196 prevents the cam 201 from being above the first projection 191 during a counterclockwise movement and would therefore block a movement of the slide 160 from the first position to the second position.
- the bulge 196 only allows the cam 201 to move clockwise to engage the first projection 191.
- the bulge 196 therefore always ensures that the slide 160 moves from the first to the second position.
- a lock gear 31 and the counter-lock gear 200 can comprise identical parts (see Fig. Fig. 9 ).
- the counter lock actuator 142 can be activated to move at least one of the locking rods 520 in such a way that the lock actuator 30 at least partially moves the locking element 20.
- the actuators of a locking system 400 can be controlled in a coordinated manner.
- the in Figure 8 illustrated control 510 can be used, which is integrated, for example, in a motorized door drive 410 outside the lock arrangement 700 (not shown).
- the locking system 400 according to the invention can include the motorized door drive 410.
- the motorized door drive 410 is used to open the active leaf door and, if necessary, the passive leaf door using a motor after the active leaf door and, if necessary, the inactive leaf door have been unlocked.
- the controller 510 may be located within the lock assembly 700.
- the controller 510 may include a first control unit 511 in the lock 1 and/or a second control unit 512 in the counter lock 100.
- the controller 510 is electrically connected to the lock actuator 30 and/or counter-lock actuator 142 in order to activate the actuators.
- the locking system according to the invention does not include a door drive 410.
- At least one of the locking rod connections 120 is connected to the slide 160 with a play, and preferably rests on a third projection 193 of the slide 160.
- This serves e.g. B. tamper protection in the event of an active movement of the locking bar connection 120, initiated from the outside via the locking rods 520, towards the interior of the counter lock housing 170.
- the locking bar connection 120 then first comes to rest on a blocking surface 133 of the locking element actuator 130 before the movement is transmitted the slider 160 is possible.
- the connection between the locking rod connection 120 and the slide 160 can also be designed so that the slide 160 first moves the locking element actuator 130 and only then the locking rod connection 120.
- the slide 160 can be forcibly guided on the counter-lock housing 170, in particular at least twice forcibly guided.
- the slide 160 can have at least one elongated hole 194, whereby the pivot point 152 of the lever 150 can also serve as a guide element for the slide 160.
- the slider 160 may contact and/or rest directly on the locking element actuator 130 and/or at least one of the locking rod connections 120.
- the locking element actuator 130 can be moved in that the locking element actuator 130 is positively guided by the slide 160 via a link 195.
- openings 173 are shown, in which through screw connections can be made for attaching standard fittings.
- the openings 173 can be arranged in such a way that it corresponds to a specification for standard fittings.
- the through screw connections can also serve to guide the slide 160, so that the openings have (at least) dual functionality.
- the locking element actuator 130 can also have one or more functions, such as the movement of a locking element 20 of the adjacent lock 1 of the lock arrangement 700 for unlocking and/or the tamper protection of the counter lock 100 and/or a lock arrangement 700.
- the locking element 20 can engage in an opening 110 of the counter lock 100 in a locking position of the locking element 20.
- the lock 1 can include at least one control latch 50, with the control latch 50 assuming a retracted position in order to move the locking element 20 into the locking position. In the projecting position of the control latch 50, however, the movement of the locking element 20 into the locking position is mechanically prevented.
- a strike plate 210 of the counter lock 100 can be provided, so that closing the door results in the control latch 50 being retracted and held by the strike plate 210.
- the locking element actuator 130 of the counter lock 100 can be moved from a retracted position to an active position. This occurs in particular when the actuating device 140 is actuated, so that the locking element actuator 130 can increase the reliability of an opening process of the door. Because in the active position, the locking element actuator 130 is designed to hold the locking element 20 in the unlocking position until the control latch 50 has moved away from the striking plate 210 and reached the projecting position. In other words, it can be prevented that the locking element 20 is moved back into the locking position when the door is opened, i.e.
- the locking element actuator 130 can press the locking element 20 out of the counter-lock housing 170 by moving from the retracted position to the active position by means of an active element 131 of the locking actuator. Both can be effected mechanically by connecting the locking element actuator 130 to the slide 160, in that the slide 160 mechanically engages an engagement element 132 of the locking element actuator 130.
- the lock 1 is shown with further details, which is also part of the locking system 400.
- the lock 1 can have the lock housing 10, in which a lock slide 33 is movably guided.
- the lock actuator 30 is provided with the lock gear 31, in particular to move the lock slide 33.
- the movement of the lock slide can also unlock the latch 70, which has a latch head 71 for locking.
- the lock slide 33 can be used to move and/or guide the locking element 20, which can be influenced by a state of the latch 70 and the control latch 50. So the locking element 20 can z. B. can only be transferred to the locking position if both the latch 70 is first moved into an unlocking position and the control latch 50 is moved into the retracted position.
- a stop element 80 can change from a blocking position to a release position, the stop element 80 being movable by a movement of the control latch 50 regardless of the position of the latch 70.
- lock 1 according to Figure 8 a locking element sensor 650 as a first monitoring means, and an alarm is generated when an in Figure 9
- the control trap sensor 600 shown as a second monitoring means detects that the control trap 50 is in the projecting position and at the same time the locking element sensor 650 detects that the locking element 20 is in the locking position.
- the locking element actuator 130 In the Figures 2 , 3 and 7 the locking element actuator 130 is shown in further detail.
- the locking element actuator 130 lies, for example. B. resiliently on the locking element 20, and for this purpose is designed in several parts with the attack element 132 and the active element 131.
- a movement of the actuating element 141 of the counter lock 100 can move the attack element 132 so that the active element 131 rests in the active position on the locking element 20 with an end face 134 of the active element 131.
- the locking element actuator 130 may include a blocking surface 133 which, in the retracted position, blocks movement of at least one of the locking rod connections 120 into the second position. This can prevent unauthorized retraction of the corresponding locking rod 520.
- the locking element actuator 130 can include a support surface 136 for guiding the slider 160. It is advantageous if the attack element 132 and the active element 131 are resiliently connected to one another.
- a spring 135 of the locking element actuator 130 can be designed as a spiral spring.
- the engagement element 132 can be pivotable about a first axis, with the active element 131 being mounted on the engagement element 132 so as to pivot about a second axis, and the spring 135 being designed as a leaf spring (see in this regard Figure 6 ).
- the counter lock 100 can also be used Figure 6 include a counter-lock actuator, not shown.
- the counter lock actuator 100 can in the exemplary embodiment Figure 6 in its own housing, which is connected to the counter-lock housing 170.
- the counter-lock actuator 100 can also be attached to a counter-lock mechanism element of the counter-lock the Figure 6 attack.
- the movement of the nut can override the movement of the counter-lock actuator in the same way as in the exemplary embodiment Figures 1 to 5 described.
- the movement of the counter-lock actuator can also override the actuation of the nut in the same way as in the exemplary embodiment Figures 1 to 5 described.
- the active element 131 is advantageously guided in the attack element 132, the width of an end face 134 of the active element 131 preferably being greater than a width of the active element 131 inside the attack element 132.
- the active element 131 and the attack element 132 can have mutually corresponding stop surfaces, in particular one first stop surface 138 and a second stop surface 139, wherein a movement of the active element 131 from the engagement element 132 is limited by the stop surfaces 138, 139.
- the width of the end face 134 of the locking element actuator 130 and the width of an end face 21 of the locking element 20 can also be designed such that at least one edge of the end face 134 of the locking element actuator 130, which is facing the inside of the inactive leaf, and one edge of the end face 21 of the locking element 20, which is facing the outside of the active leaf, lie against each other when the control latch 50 is in the projecting position.
- the locking system 400 comprises a first motorized door drive 410, a second motorized door drive 420 and the lock arrangement 700.
- the first motorized door drive 410 serves to open the active leaf door using a motor.
- the first motor door drive 410 includes a first motor 480.
- the first motor door drive 410 includes an electronic device 430 for controlling the first motor 480.
- the second motor door drive 420 is used to open the inactive door using a motor.
- the second door drive 420 includes a second motor 481.
- the Second motor door drive 420 includes an electronic device 431 for controlling the second motor 481.
- the lock 1 includes the first control unit 511.
- the first control unit 511 is arranged in the lock housing 10 of the lock 1.
- the first control unit 511 is designed as a microcontroller.
- the first control unit 511 includes a non-volatile memory and a processor.
- the counter lock 100 includes the second control unit 512.
- the second control unit 512 is arranged in the counter lock housing 170 of the counter lock 100.
- the second control unit 512 is designed as a microcontroller.
- the second control unit 512 includes a non-volatile memory and a processor.
- the first control unit 511 includes a first communication means 513 and the second control unit 512 includes a second communication means 514.
- the first and second control units 511, 512 communicate with each other by means of the first and second communication means 513, 514.
- the first and second communication means 513, 514 are designed as an electrical connection.
- the first and second communication means 513, 514 are connected to one another via an electrical connection 560.
- the first and second control units 511, 512 can exchange data bidirectionally via the electrical connection 560.
- the electrical connection 560 can be used as a bus, e.g. B. be designed as an RS485 bus.
- the participants of the bus are preferably limited to the first and second control units 511, 512.
- the electrical connection 560 leads from the first communication means 513 to the second communication means 514.
- the lock 1 has an interface device 540, which is designed as a plug connector.
- the Counter lock 100 has an interface device 550, which is designed as a plug connector.
- the electrical connection 560 leads from the first control unit 511 via the interface devices 540, 550 to the second control unit 512.
- the lock 1 can be connected to a bus system 530.
- the first control unit 511 can receive and/or send data via the bus system 530.
- the first control unit 511 can communicate with at least one further device via the bus system 530.
- the further device can be, for. B. be at least one of the electronic devices 430, 431.
- the first control unit 511 is a participant in the bus system 530.
- the second control unit 512 cannot communicate directly with the bus system 530. Rather, data, e.g. B. Commands that would affect the second control unit 512 are first received from the first control unit 511.
- the first control unit 511 then forwards the commands or generates corresponding commands for the second control unit 512.
- the lock 1 includes several monitoring means 600, 650, 651, 652, 653.
- the monitoring means 600, 650, 651, 652, 653 can be designed as a switch or as a sensor.
- the monitoring means 600, 650, 651, 652, 653 are electrically connected to the first control unit 511.
- the first control unit can receive electrical signals from the monitoring means 600, 650, 651, 652, 653.
- a first monitoring means 653 serves to monitor the lock gear 31.
- a second monitoring means 652 serves to monitor the nut 32.
- a third monitoring means 651 serves to monitor whether the lock 1 is in the unlocking state , in particular whether the locking element 20 is in the unlocking position.
- a fourth monitoring means 650 serves to monitor whether the lock 1 is in the locking state, in particular whether the locking element 20 is in the locking position.
- the third and the fourth Monitoring means 651, 650 can determine the position of the locking element 20, as in Figure 11 shown, monitor.
- the monitoring means 650, 651 can monitor the position of the lock mechanism element 33 coupled to the locking element 20.
- a fifth monitoring means 600 serves to monitor a movement of the control latch 50.
- the first control unit 511 can use at least part of the monitoring means 600, 650, 651, 652, 653 to control the lock actuator 180.
- the counter lock 100 includes several monitoring means 654, 655, 656, 657.
- the monitoring means 654, 655, 656, 657 are arranged in the counter lock housing 170.
- the monitoring means 654, 655, 656, 657 can be designed as a switch or as a sensor.
- the monitoring means 654, 655, 656, 657 are electrically connected to the second control unit 512.
- the second control unit 512 can receive electrical signals from the monitoring means 654, 655, 656, 657.
- a first monitoring means 657 serves to monitor the counter-lock gear 200.
- a second monitoring means 656 serves to monitor the nut 141.
- a third monitoring means 655 serves to monitor whether the counter-lock 200 is in the unlocking state.
- a fourth monitoring means 654 serves to monitor whether the counter lock 200 is in the locked state.
- the third and fourth monitoring means 654, 655 can monitor the position of the first and/or second locking rod connection 120.
- the monitoring means 654, 655 monitor the position of the counter lock mechanical element 160 coupled to the locking rod connections 120.
- the monitoring means 654, 655 can monitor the position of the locking element actuator 130.
- the second control unit 512 can use at least part of the monitoring means 654, 655, 656, 657 to control the counter lock actuator 142.
- the first control unit 511 recognizes when holding the lock gear 31 and/or the counter-lock gear 200 in the unlocking position should be ended, in particular when a permanent unlocking of the lock 1 and/or the counter-lock 100 should be ended. For this purpose, a corresponding electrical signal can be sent via the bus system 530 or a control line, or a signal for permanent unlocking can be terminated.
- the first control unit 511 gives the second control unit 512 a corresponding command to end the permanent unlocking for the counter lock 100.
- the second control unit 512 then activates the counter-lock actuator 142 to move the counter-lock actuator 142 from the unlocking position to the release position.
- the Figure 12 represents a flowchart for an unlocking process 1400, in which both the lock 1 and the counter lock 100 are transferred to the unlocking state.
- the procedure of the first control unit 511 is shown in the box 1401 shown on the left, shown in dashed lines.
- the procedure of the second control unit 512 is shown in the dashed box 1402 shown on the right.
- a first method step 1411 the first control unit 511 receives the command via the bus system 530 or via a control line to transfer both the lock 1 and the counter lock 100 into the unlocking state.
- the first control unit 511 activates the lock actuator 30 to move the locking element 20 into the unlocking position via the lock mechanism element 33.
- the first control unit 511 waits for a predetermined period of time to receive a monitoring signal from the monitoring means 651 that the locking element 20 is in the unlocking position.
- the first control unit 511 receives the monitoring signal, which is in Figure 12 is represented by a "+", the first control unit 511 goes to the fourth method step 1414 and sends a command via the electrical connection 560 to the second control unit 512 to transfer the counter lock 100 to the unlocking state.
- the first control unit 511 ends the method 1400 by displaying an error message optically by a display device as the last method step 1430 and/or sending the error message by means of the bus system 530.
- the second control unit 512 receives the command to transfer the counter lock 100 to the unlocking state in a fifth method step 1421. Then, in a sixth method step 1422, the second control unit 512 activates the counter-lock actuator 142. In a seventh method step 1423, the second control unit 512 waits for a predetermined period of time to receive a monitoring signal from the monitoring means 655 that the counter-lock 100 is in the unlocking state .
- the predetermined period of time in method step 1423 can be different or identical to the predetermined period of time in method step 1413.
- the second control unit 512 receives the monitoring signal, which is in Figure 12 is represented by a "+”, the second control unit 512 goes to the eighth method step 1424 and generates data that the counter lock 100 has been transferred to the unlocking state. If, on the other hand, the second control unit 512 does not receive a monitoring signal in the predetermined period of time, which in Figure 12 is represented by a "-”, the second control unit 512 goes to the alternative method step 1425 and generates data that an error exists. In a ninth method step 1426, the second control unit 512 sends the data generated either in method step 1424 or in method step 1425 to the first control unit 511 via the electrical connection 560.
- the first control unit 511 receives the data from the second control unit 512.
- the first control unit 511 evaluates the received data. Did the first control unit 511 receive an error message as data in method step 1415, which is in Figure 2 is represented by a "-", the first control unit 511 goes to method step 1430 and sends an error message via the bus system 530 and / or causes the display device to display the error.
- step 1415 the first control unit 511 has received the message that the counter lock 100 is in the unlocking state, which is in Figure 12 is represented by a "+"
- the first control unit 511 goes to step 1416 and sends a message via the bus system 530 that the lock 1 and the counter lock 100 are in the unlocking state.
- the door drives 410, 420 then open the active leaf door and the inactive leaf door.
- FIG 13 is a flowchart for a locking process 1500, in which both the lock 1 and the counter lock 100 are transferred to the locking state.
- the procedure of the first control unit 511 is shown in the box 1501 shown on the left, shown in dashed lines.
- the procedure of the second control unit 512 is shown in the dashed box 1502 shown on the right.
- the first control unit 511 receives the command via the bus system 530 or via a control line to transfer both the lock 1 and the counter lock 100 into the locking state.
- the command can also take the form of a lack of a signal to keep the lock 1 and the counter lock 100 in the unlocked state.
- the command can end a permanent unlock state.
- the first control unit 511 sends the second control unit 512 the command to transfer the counter lock 100 to the locking state.
- the second control unit 512 receives the command from the first control unit 511 to transfer the counter lock 100 into the locking state.
- the second control unit 512 activates the counter-lock actuator 142 in order to move the counter-lock gear 200 from the unlocking position into the release position, so that the counter-lock actuator 142 allows the spring-driven transfer to the locking state of the counter-lock 100.
- the second control unit 512 waits for a predetermined period of time to receive a monitoring signal from the monitoring means 654 that the counter lock 100 is in the locked state.
- the second control unit 512 Receives the second control unit 512 the monitoring signal, which is in Figure 13 is represented by a "+”, the second control unit 512 goes to the sixth method step 1524 and generates data that the counter lock 100 has been transferred to the locking state. If, on the other hand, the second control unit 512 does not receive a monitoring signal in the predetermined period of time, which in Figure 13 is represented by a "-”, the second control unit 512 goes to the alternative method step 1525 and generates data that an error exists. In a ninth method step 1526, the second control unit 512 sends the data generated either in method step 1524 or in method step 1525 to the first control unit 511 via the electrical connection 560.
- a method step 1513 the first control unit 511 waits a predetermined period of time for the second control unit 512 to send the data. If the data from the second control unit 512 is not received over the predetermined period of time, the first control unit 511 generates an error message as the last method step 1530, which is displayed optically by the display device and/or is sent by means of the bus system 530. If the method step 1526 has taken place within the specified time period, the first control unit 511 receives the data and evaluates the received data in a method step 1514.
- the first control unit 511 receives an error message as data in method step 1514, which is in Figure 13 is represented by a "-"
- the first one goes Control unit 511 to method step 1430 and sends an error message via the bus system 530 and / or causes the display device to display the error.
- the first control unit 511 has received the message that the counter lock 100 is in the locked state, which is in Figure 13 is represented by a "+”
- the first control unit 511 goes to method step 1515 and activates the lock actuator 30 to move the lock gear 31 out of the unlocking position, so that the lock actuator 30 allows the spring-driven transfer of the lock 1 into the locking state.
- a method step 1516 the first control unit 511 waits for a predetermined period of time to receive a monitoring signal from the monitoring means 650 that the lock 1 is in the locked state.
- the first control unit 511 receives the monitoring signal, which is in Figure 13 is represented by a "+”, the first control unit 511 goes to the fourth method step 1517 and sends a message via the bus system 530 that the lock 1 and the counter lock 100 are in the locking state. If, on the other hand, the first control unit 511 does not receive the monitoring signal within the specified period of time, which is... Figure 13 is shown as a "-", the first control unit 511 ends the method 1500 by displaying an error message optically by the display device as the last method step 5130 and/or sending the error message by means of the bus system 530.
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Claims (16)
- Procédé (1400, 1500) pour transférer un ensemble serrure dans un état de déverrouillage et/ou un état de verrouillage (700),dans lequel l'ensemble serrure (700) comprend une serrure (1) pour une porte battante active et une contre-serrure (100) pour une porte battante inactive, dans lequel la serrure (1) comprend au moins un élément de verrouillage (20), dans lequel l'élément de verrouillage (20) vient en prise dans une ouverture (110) de la contre-serrure (100) dans une position de verrouillage de l'élément de verrouillage (20),dans lequel la contre-serrure (100) comprend au moins une liaison de barre de verrouillage (120) pour la liaison à une première barre de verrouillage (521),dans lequel la contre-serrure (100) comprend un actionneur de contre-serrure électromécanique (142) pour déplacer la première tige de verrouillage (521),dans lequel la serrure (1) comprend un actionneur de serrure électromécanique (30) pour déplacer l'élément de verrouillage (20),dans lequel l'actionneur de contre-serrure (142) est activé pour déplacer la première barre de verrouillage (521) de telle sorte que l'actionneur de serrure (30) provoque au moins partiellement un déplacement de l'élément de verrouillage (20),caractérisé,en ce que lors d'un processus de déverrouillage de l'ensemble serrure (700), l'actionneur de serrure (30) est activé avant que l'actionneur de contre-serrure (142) ne soit activé.
- Procédé (1400, 1500) selon la revendication 1,
caractérisé, en ce que la contre-serrure (100) comprend un organe d'actionnement d'élément de verrouillage (130) pour déplacer mécaniquement l'élément de verrouillage (20) dans une position de déverrouillage, dans lequel l'actionneur de serrure (30) et l'actionneur de contre-serrure (142) sont activés de telle sorte que l'élément de verrouillage (20) reste espacé de l'organe d'actionnement d'élément de verrouillage (130) tandis que l'élément de verrouillage (20) est déplacé de manière électromécanique dans la position de déverrouillage. - Procédé (1400, 1500) selon l'une des revendications précédentes,
caractérisé, en ce que l'actionneur de contre-serrure (142) est désactivé dès que le travail fourni par l'actionneur de contre-serrure (142) dépasse une valeur limite, dans lequel en particulier ensuite l'actionneur de contre-serrure (142) est réactivé au moins une fois, de préférence plusieurs fois, afin de déplacer la première barre de verrouillage (521). - Procédé (1400, 1500) selon l'une des revendications précédentes, caractérisé en ce que au cours d'un processus de verrouillage de l'ensemble serrure (700), l'actionneur de contre-serrure (142) est activé avant que l'actionneur de serrure (30) ne soit activé.
- Procédé (1400, 1500) selon l'une des revendications précédentes, caractérisé en ce que l'ensemble serrure (700) comprend au moins un moyen de surveillance (600, 650, 651, 652, 653, 654, 655, 656, 657), en particulier un interrupteur ou un capteur, dans lequel le moyen de surveillance (600, 650, 651, 652, 653, 654, 655, 656, 657) détecte une position de l'élément de verrouillage (20), de la liaison de barre de verrouillage (120) ou de l'organe d'actionnement d'élément de verrouillage (130), dans lequel un signal de surveillance du moyen de surveillance (600, 650, 651, 652, 653, 654, 655, 656 , 657) est utilisé pour activer et/ou désactiver l'actionneur de serrure (142) et/ou l'actionneur de contre-serrure (30).
- Procédé (1400, 1500) selon l'une des revendications précédentes, caractérisé en ce que l'entraînement de contre-serrure (200) relié à l'actionneur de contre-serrure (142) reste dans une position de déverrouillage, dans laquelle la liaison de barre de verrouillage (120) se trouve dans une position rétractée, lorsqu'un ordre de déverrouillage permanent pour déverrouiller de manière permanente l'ensemble serrure (700) a été reçu de l'ensemble serrure (700), dans lequel en particulier un entraînement de serrure (31) relié à l'actionneur de serrure (30) reste dans une position de déverrouillage, dans laquelle l'élément de verrouillage (20) se trouve dans la position de déverrouillage, lorsqu'un ordre de déverrouillage permanent pour déverrouiller de manière permanente l'ensemble serrure (700) a été reçu de l'ensemble serrure (700).
- Système de fermeture (400)comportant un ensemble serrure (700),dans lequel l'ensemble serrure (700) comprend une serrure (1) pour une porte battante active et une contre-serrure (100) pour une porte battante inactive, dans lequel la serrure (1) comprend au moins un élément de verrouillage (20), dans lequel l'élément de verrouillage (20) vient en prise dans une ouverture (110) de la contre-serrure (100) dans une position de verrouillage de l'élément de verrouillage (20),dans lequel la contre-serrure (100) comprend au moins une liaison de barre de verrouillage (120) pour la liaison à une première barre de verrouillage (521), dans lequel la serrure (1) comprend un actionneur de serrure électromécanique (30) pour déplacer l'élément de verrouillage (20),dans lequel la contre-serrure (100) comprend un actionneur de contre-serrure électromécanique (142) pour déplacer la première tige de verrouillage (521),dans lequel le système de fermeture (400) comprend une commande (510), dans lequel la commande (510) active l'actionneur de contre-serrure (142) pour déplacer la barre de verrouillage (520) de telle sorte que l'actionneur de serrure (30) provoque au moins partiellement un déplacement de l'élément de verrouillage (20), caractérisé,en ce que la commande (510) est conçue pour activer l'actionneur de serrure (30) avant l'actionneur de contre-serrure (142) lors d'un processus de déverrouillage de l'ensemble serrure (700).
- Système de fermeture (400) selon la revendication 7,
caractérisé,
en ce que la contre-serrure (100) comprend un boîtier de contre-serrure (170) et l'actionneur de contre-serrure (142) est agencé dans le boîtier de contre-serrure (170), dans lequel en particulier dans le boîtier de contre-serrure (170) est agencé un organe d'actionnement d'élément de verrouillage (130) pour déplacer l'élément de verrouillage (20) dans une position de déverrouillage et/ou un organe d'actionnement (141) pour déplacer mécaniquement la première barre de verrouillage (521) dans une position rétractée et/ou pour déplacer l'organe actionnement d'élément de verrouillage (130). - Système de fermeture (400) selon la revendication 7 ou 8,
caractérisé,
en ce que la contre-serrure (100) comprend un boîtier de contre-serrure (170) et l'actionneur de contre-serrure (142) est agencé dans le boîtier de contre-serrure (170), dans lequel le boîtier de contre-serrure (170) est inférieur à une longueur d'environ 13,5 cm et/ou à une hauteur d'environ 17 cm et/ou la contre-serrure (100) est conçue comme une serrure à mortaise. - Système de fermeture (400) selon l'une des revendications 7 à 9,
caractérisé,
en ce que la contre-serrure (100) comprend un élément de mécanisme de contre-serrure (160) pour déplacer la première barre de verrouillage (521), en particulier d'une position déployée à une position rétractée, dans lequel l'organe d'actionnement d'élément de verrouillage (130) peut être déplacé, au moyen de l'élément de mécanisme de contre-serrure (160), en particulier d'une position rétractée dans une position active, dans lequel l'élément de mécanisme de contre-serrure (160) est en particulier réalisé sous la forme d'un coulisseau (160), dans lequel le coulisseau (160) est monté de manière mobile en translation sur un boîtier de contre-serrure (170). - Système de fermeture (400) selon la revendication 10,
caractérisé,
en ce que la liaison de barre de verrouillage (120) peut être déplacée au moyen d'un élément d'actionnement (141) par l'intermédiaire de l'élément de mécanisme de contre-serrure (160), dans lequel la liaison de barre de verrouillage (120) peut être déplacée au moyen de l'actionneur de contre-serrure (142) par l'intermédiaire de l'élément de mécanisme de contre-serrure (160), dans lequel, en actionnant l'élément d'actionnement (141), l'élément de mécanisme de contre-serrure (160) peut être désengagé de la liaison active avec l'actionneur de contre-serrure (142) et/ou lorsque l'actionneur de contre-serrure (142) est actionné, l'élément de mécanisme de contre-serrure (160) peut être désengagé de la liaison active avec l'élément d'actionnement (141). - Système de fermeture (400) selon l'une des revendications 7 à 11,
caractérisé,
en ce que l'actionneur de serrure (30) est conçu de manière identique en construction à l'actionneur de contre-serrure (142). - Système de fermeture (400) selon l'une des revendications 7 à 12,
caractérisé,
en ce que l'actionneur de serrure (30) agit sur l'élément de verrouillage (20) par l'intermédiaire d'un entraînement de serrure (31) et l'actionneur de contre-serrure (142) agit sur la liaison de barre de verrouillage (120) par l'intermédiaire d'un entraînement de contre-serrure (200), dans lequel l'entraînement de serrure (31) comprend une came, par l'intermédiaire de laquelle l'actionneur de serrure (30) agit sur l'élément de verrouillage (20) et l'entraînement de contre-serrure (200) comprend une came par l'intermédiaire de laquelle l'actionneur de contre-serrure (142) agit sur la liaison de barre de verrouillage (120). - Système de fermeture (400) selon l'une des revendications 10 à 13,
caractérisé,
en ce que la contre-serrure (100) comprend un accumulateur d'énergie (105), dans lequel l'accumulateur d'énergie (105) sert à désengager l'actionneur de contre-serrure (142) de la liaison active avec l'élément de mécanisme de contre-serrure (160), lorsque ou après que l'actionneur de contre-serrure (142) a déplacé la première barre de verrouillage (521) dans une position rétractée, en particulier pour mettre fin à un déverrouillage permanent de la contre-serrure (100), dans lequel en particulier l'accumulateur d'énergie (105) comprend au moins un condensateur ou un accumulateur et/ou l'accumulateur d'énergie (105) est agencé dans un boîtier de contre-serrure (170). - Système de fermeture (400) selon l'une des revendications 7 à 14,
caractérisé,
en ce que le système de fermeture (400) comprend une commande (510), dans lequel la commande (510) commande, en particulier active et/ou désactive, l'actionneur de serrure (30) et l'actionneur de contre-serrure (142), dans lequel la commande (510) est agencée dans l'ensemble serrure (700), en particulier dans un boîtier de serrure (10) de la serrure (1) et/ou dans un boîtier de contre-serrure (170), dans lequel en particulier une première unité de commande (511) est agencée dans le boîtier de serrure (10) et une seconde unité de commande (512) est agencée dans le boîtier de contre-serrure (170). - Système de fermeture (400) selon l'une des revendications 7 à 14,
caractérisé,
en ce que le système de fermeture (400) comprend une commande (510), dans lequel la commande (510) commande, notamment active, l'actionneur de serrure (30) et l'actionneur de contre-serrure (142), dans lequel le système de fermeture (400) comprend un entraînement de porte (410) en particulier motorisé, dans lequel la commande (510) active l'entraînement de porte (410) après le déplacement de l'élément de verrouillage (20) dans une position de déverrouillage et le déplacement de la première barre de verrouillage (521) dans une position rétractée, pour ouvrir la porte battante active et la porte battante inactive, dans lequel en particulier la commande (510) est agencée dans l'entraînement de porte (410).
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EP18163485.8A EP3543439B1 (fr) | 2018-03-22 | 2018-03-22 | Procédé pour un ensemble serrure |
CN201910199462.3A CN110295801B (zh) | 2018-03-22 | 2019-03-15 | 用于锁装置的方法 |
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EP18163485.8A EP3543439B1 (fr) | 2018-03-22 | 2018-03-22 | Procédé pour un ensemble serrure |
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CN114165112B (zh) * | 2021-10-25 | 2024-06-04 | 深圳绿米联创科技有限公司 | 自弹锁体以及门锁 |
CN113914721B (zh) * | 2021-11-09 | 2022-11-08 | 惠州市昊成工控科技有限公司 | 智能锁具及智能锁具的开闭锁方法 |
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DE202005002908U1 (de) * | 2005-02-22 | 2005-06-16 | Bks Gmbh | Einsteckschloß |
CN201092781Y (zh) * | 2007-07-26 | 2008-07-30 | 田晋五金制品股份有限公司 | 防火门锁的解锁传动机构 |
DE202009003976U1 (de) * | 2009-03-24 | 2010-08-19 | Kfv Karl Fliether Gmbh & Co. Kg | Ver- und Entriegelung für eine einen Standflügel und einen Gangflügel aufweisende Tür |
DE102012104510A1 (de) * | 2012-05-24 | 2013-11-28 | Dorma Gmbh + Co. Kg | Schloss für eine Tür |
EP2703583A3 (fr) * | 2012-09-04 | 2015-03-11 | ASSA ABLOY Sicherheitstechnik GmbH | Dispositif de serrure pour vantail passif avec un dispositif de retrait de pêne comportant un poussoir à ressort d'actionnement du pêne |
CN202970184U (zh) * | 2012-11-07 | 2013-06-05 | 能诚集团有限公司 | 一种自动锁 |
EP2749721B1 (fr) | 2012-12-28 | 2016-08-24 | BKS GmbH | Crémone espagnolette |
JP6277509B2 (ja) * | 2013-07-05 | 2018-02-14 | 株式会社WEST inx | 電子錠 |
CN107724805A (zh) * | 2017-10-27 | 2018-02-23 | 大新县科学技术情报研究所 | 一种双孔式防盗门锁 |
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CN110295801A (zh) | 2019-10-01 |
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