EP2703586B1 - Passive wing locking device with a sensor device - Google Patents
Passive wing locking device with a sensor device Download PDFInfo
- Publication number
- EP2703586B1 EP2703586B1 EP13183052.3A EP13183052A EP2703586B1 EP 2703586 B1 EP2703586 B1 EP 2703586B1 EP 13183052 A EP13183052 A EP 13183052A EP 2703586 B1 EP2703586 B1 EP 2703586B1
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- EP
- European Patent Office
- Prior art keywords
- latch
- locking device
- passive
- sensor
- passive leaf
- 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.)
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- 238000012544 monitoring process Methods 0.000 claims description 6
- 230000000903 blocking effect Effects 0.000 description 36
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Images
Classifications
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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
- E05C9/00—Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing
- E05C9/04—Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with two sliding bars moved in opposite directions when fastening or unfastening
- E05C9/041—Arrangements of simultaneously actuated bolts or other securing devices at well-separated positions on the same wing with two sliding bars moved in opposite directions when fastening or unfastening with rack and pinion mechanism
-
- 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
- E05B17/203—Securing, deadlocking or "dogging" the bolt in the fastening position not following the movement of the bolt
- E05B17/2038—Securing, deadlocking or "dogging" the bolt in the fastening position not following the movement of the bolt moving rectilinearly
-
- 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
- E05B17/203—Securing, deadlocking or "dogging" the bolt in the fastening position not following the movement of the bolt
- E05B17/2042—Securing, deadlocking or "dogging" the bolt in the fastening position not following the movement of the bolt moving otherwise than only rectilinearly and only pivotally or rotatively
-
- 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
- E05B63/24—Arrangements in which the fastening members which engage one another are mounted respectively on the wing and the frame and are both movable, e.g. for release by moving either of them
- E05B63/248—Arrangements in which the fastening members which engage one another are mounted respectively on the wing and the frame and are both movable, e.g. for release by moving either of them the striker being movable for latching, and pushed back by a member on the wing for unlatching, or vice versa
-
- 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
- E05B65/1086—Locks with panic function, e.g. allowing opening from the inside without a ley even when locked from the outside
-
- 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
-
- 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
- E05B2047/0048—Circuits, feeding, monitoring
- E05B2047/0067—Monitoring
- E05B2047/0069—Monitoring bolt position
-
- 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
Definitions
- the invention relates to a passive wing lock device for a door, a window or the like.
- the door has a fixed mountable frame with at least one active wing and at least one passive wing mounted in the frame. It is therefore a double-leaf door.
- the active wing is referred to below as active wing.
- the passive wing is referred to below as the passive wing.
- the passive wing lock device can be mounted in or on the passive wing. It has a lock mechanism and an actuating device for actuating the lock mechanism.
- the mechanical actuator is designed as a door handle or Panikdruckstange.
- the lock mechanism of the passive wing lock device has a latch lifting device and / or a latch lifting device. These are lifting devices for a trap or a latch of an active wing side mountable active-wing lock device. Sense and purpose this lifting means is to lift the latch and the latch of the associated active-wing lock device, which protrude in its locking position in the passive wing lock device to open the door, ie push back from the passive wing lock device in the active wing lock device and unlock before, if they are locked in their locking position.
- Such lock devices for double-leaf doors with an active lock device with latch and bolt and a passive lock device with lifting device for latch and bolt are known in practice and described for example in EP 0 849 425 B1 ,
- the invention is based on the object to provide a passive wing lock device, which ensures higher reliability of the locking and / or unlocking process.
- the invention solves this problem with the subject matter of patent claim 1.
- the latch lifting device of the passive-wing lock device has a sensor device to detect whether a trap, namely latch or latch bolt of an active-wing lock device mounted in or on the active-wing engages in a predetermined space of the passive-wing lock device or does not engage, wherein the sensor device is designed such that it emits electrical signals to an electrical signal processing device depending on the result of this detection.
- the latch release device of the passive wing lock device comprises a sensor device to detect whether in a predetermined space of the passive lock device engages or does not engage a bolt of an active lock device mounted in or on the active wing the sensor device is designed so that it outputs electrical signals to an electrical signal processing device as a function of the result of this detection.
- the passive-wing lock device has a sensor device in order to detect whether or not a transmission slide of the transmission of the lock mechanism has reached a predetermined position, wherein the sensor device is designed such that it depends on the result of this detection emits electrical signals to an electrical signal processing device.
- the passive-wing lock device has a sensor device to detect whether or not a lock nut of the lock mechanism has reached a predetermined position, wherein the sensor device is designed such that it depends on the result of this detection electrical signals to a electrical signal processing device outputs.
- the passive-wing lock device has a sensor device in order to detect whether or not an output of a motor drive device has reached a predetermined position, wherein the motor drive device drives the lock operating device and / or drives at least one of the locking rods and / or a latch lifting device drives means adapted to unlock and / or retract a latch engaging in a predetermined space of the passive wing latch means an active wing latch mounted in or on the active wing, and / or driving latch unlocking means for unlocking and / or retracting a bolt engaging in a predetermined space of the passive wing lock device of an active wing lock device mounted in or on the active leaf, wherein the sensor device is designed such that it depends on the result this detection emits electrical signals to an electrical signal processing device.
- the sensor device an electrical signal emitting sensor and with the sensor directly or indirectly cooperating button, which is movably mounted in the lock case of the passive wing lock device and interacts grooving with the component to be detected.
- a transmission element is arranged between the sensor and the pushbutton, which interacts with the pushbutton via an inclined plane or another transmission.
- the button has a section which actuates the sensor during the movement of the button. The button can be acted upon by a spring which urges the button in the scanning direction.
- the lock mechanism of the passive wing lock device is arranged in a lock case, wherein the button in the lock case of the passive wing lock device in the scanning direction is limited movable, maximum extent movable so that he or only slightly on an end opening of the active wing facing end face protrudes from the lock box.
- the probe is designed as a feeler slide, which is guided in a linear guide device which is fixedly arranged in the lock case of the passive wing lock device.
- the latch lifting device comprises a latch actuating slide, which is guided in a fixed to the passive wing linear guide means which is directed horizontally in the mounted position of the lock device, wherein the linear guide means of the latch actuating slide with the linear Guiding device of the feeler slide connected and / or formed as a portion thereof.
- the latch-lifting device has a latch actuating slide, which is guided in a fixed to the passive wing linear guide means which is directed horizontally in the mounted position of the lock device, wherein the linear guide means of the latch actuating slide is connected to the linear guide means of the feeler and / or formed as a portion thereof.
- the lock mechanism of the passive wing lock device is arranged in a lock case, wherein the push button is designed as a sensing lever which is pivotally mounted about an axis which is fixedly arranged in the lock case of the passive wing lock device.
- the electrical signal processing device is connected to an electrically switchable control device of the motor drive device of the lock operating device and / or with an electrically switchable off / on switching of the latch lifting device and / or with an electrically switchable off / on switching the Latch lifting device and / or with the motor drive device that drives at least one of the locking bars and / or at least one of the lifting devices and / or is connected to a monitoring center.
- the sensor device has an electrical signal-emitting sensor which interacts directly with the component to be detected.
- the lock nut has a section which actuates the sensor of the sensor device when the lock nut is displaced.
- the transmission slide on a portion which actuates a sensor of the sensor device during displacement of the transmission slide.
- the present invention is further directed to a lock device for a door, a window or the like, with a fixed mountable frame mounted on or in the frame at least one active wing - hereinafter referred to as active wing - and at least one passive wing - hereinafter referred to as Passive wing called.
- the lock device comprises a passive-wing lock device which can be mounted in or on the passive wing and an active-wing lock device which can be mounted in or on the active wing.
- the active-wing lock device has a lock mechanism with a latch and / or a bolt, and that the passive-wing lock device is designed according to one of claims 1-14.
- the passive-wing lock device is designed as a mortise lock and preferably also the active-wing lock device is designed as a mortise lock.
- the present invention is further directed to a door or window with a fixed mountable frame mounted on or in the frame, at least one active wing - hereinafter referred to as active wing and at least one passive wing - hereinafter referred to as passive wing, with a lock device comprising an active wing lock and a passive wing lock, wherein the active wing lock is mounted in or on the active wing and the passive wing lock is mounted in or on the passive wing.
- the active wing lock device a Has lock mechanism with a latch and / or a bolt and that the passive-wing lock device is designed according to one of claims 1 to 14.
- the latch lifting device has a sensor device in order to detect whether the trap of the active-leaf lock device engages or does not engage in a predetermined space of the passive-wing lock device, the sensor device depending on the result of this detection electrical signals emits to an electrical signal processing device. Additionally or alternatively, an essential measure is that the latch lifting device has a sensor device to detect whether engages in a predetermined space of the passive lock device, the bolt of Aktivsch worn or not, wherein the sensor device depending on the result of this detection electrical signals emits an electrical signal processing device. With this sensor device in the region of the latch lifting device and / or in the region of the latch lifting device, an advantageous control and monitoring of the lifting device of latch or latch is possible.
- Preferred embodiments provide that the electrical signal processing system is connected to an electrically switchable control device and / or electrically switchable off / on switching device of the trap Ausheber planted and / or the latch Ausheber worn. Alternatively or additionally, they can also provide that the electrical signal processing system is connected to a monitoring center.
- the sensor device can be designed for the detection of the trap of the active-leaf lock device.
- the predetermined space of detection of the sensor device is designed as a trap receiving space in the lock case of the passive wing lock device engages in the closed position of the door, the extended case of the active wing lock device.
- the predetermined space of the detection of the sensor device is designed as a bolt receiving space in the lock case of the passive-wing lock device, in the extended position in the closed position of the door Lock the active leaf lock device engages.
- the sensor device has a reaching with the engaging trap stop sensor slide, which is guided in a linear guide means which is fixedly arranged in the lock case of the passive wing lock device and that the sensor slide is acted upon by a spring in the extension direction.
- the sensor device for detecting the bolt can have a sensor slide which comes into abutment with the engaging bolt and which is guided in a linear guide device which is fixedly arranged in the lock case of the passive-wing lock device.
- This sensor slide of the bolt can also be acted upon by a spring in the extension direction.
- the sensor slide does not block the opening process when opening the door, it is preferably provided that the sensor slide in the lock case of the passive wing lock device is limited in the extension direction, preferably maximally movable so far that it does not or only slightly above the Active wing facing end face of the lock case protrudes.
- the sensor slide can cooperate for detecting the respective position of latch and latch in a simple manner with a sensor of the sensor device, for example, characterized in that the sensor slide has an edge or an extension, which passes the sensor during the process of the sensor slide.
- the sensor of the sensor device can be designed as an optical sensor or as a magnetic sensor or electromagnetic sensor or electrical sensor.
- the latch lifting device comprises a latch actuating slide, which is guided in a with the passive wing, preferably with the lock housing firmly mountable linear guide means which is directed horizontally in the mounted position of the passive wing lock device.
- the latch lifting device may comprise a latch actuating slide which is guided in a linear guide device fixedly mounted with the passive wing, preferably the lock case, which is horizontally directed in the mounted position of the passive wing lock device.
- the linear guide device of the trap actuating slide is connected to the linear guide device of the sensor slide of the sensor device.
- the linear guide device of the bolt-actuating slide is connected to the linear guide device of the sensor slide of the sensor device. In these embodiments, a particularly high functionality of the Aushebevorgangs be guaranteed.
- the actuation of the passive lock device can be effected by a manual actuation device and, in the case of particularly preferred devices, by a motor actuation device, preferably an electromotive actuation device.
- the lifting devices with the electrical sensor device come in particular for executions electromotive actuator in question to realize a high level of monitoring and automation.
- the embodiments shown in the figures are different embodiments of passive wing lock devices 30, which are each mounted in a passive wing 110 of a two-leaf door. These passive-wing lock devices 30 are each intended to cooperate with an active-wing lock device, which are to be mounted appropriately in an active wing of the two-leaf door.
- An embodiment of an active wing lock device 1 mounted in an active wing 10 of a two-leaf door is in the FIGS. 1a to 1c shown in their interaction with an associated passive wing lock device which is mounted in the passive wing 110.
- the non-inventive passive wing lock device 30 of FIGS. 1a , 1b and 1c has a lock mechanism which is mounted in a lock case 30a.
- the lock case 30a is mounted in a receiving pocket inserted into the passive wing 110.
- the lock mechanism comprises a lock gear with a gear slide 36 which is coupled in terms of gear with a lock nut 37 rotatably mounted in the lock case 30a.
- the gear slide 36 is vertically guided in the lock case up and down.
- Passive wing latch 30 includes upper and lower latch bars 380o, 380u and lift-out devices 31 and 32 for lifting latch 11 and latch 12 of an associated active-wing latch that engage the passive-wing latch in the latching position.
- the lock transmission with the gear slide 36 serves to drive the upper locking bar 380o and the lower locking bar 380u and to drive the lifting devices 31 and 32.
- the structure and function of the lifting devices 31 and 32 will be explained in more detail below in conjunction with the figures.
- the upper latch bar 380o is coupled to an upper latch bar fitting 38o mounted in the upper portion of the latch box 30a.
- This upper connection device 38o is connected to the transmission slide 36 via a reverse gear 36g.
- the reverse gear 36g is a gear transmission.
- the upper end of the gear slider 36 is formed as a rack and the upper locking bars connecting piece 380 also has a rack.
- a gear mechanism is rotatably mounted in a lock housing fixed pivot bearing. The gear device meshes with the linearly guided in the lock housing linear racks of gear slide 36 and locking bar connecting device 38o.
- the two racks are facing each other in parallel aligned with intermediate gear mechanism, so that the two racks move in opposite directions in the vertical direction. This implies that upon a displacement of the gear slide 36 up the upper locking bar connection device 38o is driven down and over a Displacement of the gear slide 36 down the locking bar connecting device 38o is moved upwards.
- the lower latch bar 380u is coupled to a lower latch bar terminal 38u mounted in the lower portion of the latch box 30a.
- This lower locking bar connection device 38u is coupled in the same way to the transmission slide 36, so that when the transmission slide 36 is displaced upwards, the lower locking bar connection device moves upwards and the sliding bar connection device 38u moves downwards when the transmission slide 36 is displaced downward.
- the locking bars 380o and 380u driven in this way are mounted vertically directed on the passive wing 110, namely displaceably displaceable linearly in each case in a corresponding vertical linear guide, preferably concealed in the context of the passive wing.
- the locking bars 380o and 380u are each movable in opposite directions vertically up and down by their motion-resistant coupling to their associated connection device 38o or 38u via the actuation of the gear slide 36.
- the upper end of the upper latch bar 380o cooperates with a latch receiving recess formed in the upper rail of the stationary frame of the door.
- the lower end of the lower latch bar 380u cooperates with a latch receiving recess formed in the bottom.
- the free upper end of the locking bar engages in the upper latch receiving recess.
- the extended position of the lower Latch bar 380u engages the free lower end of the latch bar into the lower latch receiving recess.
- the latch lifting device 31 is used for interacting with the latch 11 of the active-wing lock device 1.
- the interaction consists in that the latch lifting device 31 returns the latch 11 to the lock case 1a of the active-leaf lock device 1, in which the traps Lifting device 31, the latch 11 is pressurized and thereby pushes back until the latch 11 is completely inserted into the lock case 1 a of the active-wing lock device 1.
- the trap lifting device 31 has a latch actuating slide 31a, which is driven by the gear slide 36 via a lever device 31h.
- the gear slider 36 is pushed up, the lever device 31h is swung out, so that the latch actuating slide 31a extends.
- the lever device 31h is pivoted so that the trap operating slide 31a is retracted again.
- the latch lifting device 32 is used for unlocking and retracting the bolt 22 of the active lock device 1.
- the latch lifting device 32 has a latch actuating slide 32a in a corresponding manner, which is drive-connected to the gear slide 36 via a lever gear 32h.
- a linear guide means 32b of the bolt-actuating slide 32a is provided in the lock box 30a.
- the linear guide device 32b is directed horizontally in the lock case 30, so that the lock operating slide 32a can be moved in and out horizontally.
- a correspondingly linear guide device can also be designed for the latch actuating slide 31a of the lever mechanism 31 in the lock case 30a, as described, for example, in US Pat. Tie Figures 6a and 6b is shown for the embodiment shown there.
- the latch lifting device 32 is also referred to as a latch unlocking and or retracting device. It can be designed both for unlocking and for retracting the bolt, as in the in the FIGS. 1a . 1b and 1c illustrated case. However, in other embodiments, the latch lifting device 32 can also only be used as a latch retracting device be educated. For unlocking a separate device or at least a separate unlocking mechanism can be provided, which can be optionally also driven as a time delay by the gear slide 36 via the same lever means 32h or another separate lever means or via another gear. This is especially true if the latch 22 is not provided with a release pin mounted in the latch, ie if another trigger element, for. B. separately from the latch 22, z. B.
- the latch-lifting device 32 may be formed in modified embodiments, only as unlocking, ie the latch-actuating slide 32a can then turn off by appropriate pressurization of the trigger mechanism, the lock.
- the retraction of the bolt can optionally be replaced by another mechanism z. B. done with a corresponding spring action of the bolt.
- the spring device in question can be supported on the lock case 1a of the active-wing lock device but also on the passive wing lap box 1a.
- the latch lifting device 31 is also referred to as a latch unlocking and / or retracting device. She can, as we in the FIGS. 1a . 1b and 1c illustrated case, be designed only as a fall-back device for a case 11, which is designed as a spring-loaded in the extension direction conventional latch, which is not self-locking.
- the spring-loaded latch 11 has a prism-shaped end portion having an inlet slope, so that when pulling the active wing 10, ie when the active wing 10 is pulled or pressed into the closed position, the latch 11 with the inlet slope on the frame of the passive wing 110th abuts and retracted against the spring loading of the lock latch 11.
- the facing away from the inlet slope of the latch bolt 11 is not designed as a slope, but as a parallel to the wing plane blocking surface, so for opening the door active actuation of the latch 11 is required or in a modified embodiment in which the latch 11 with a Door opener trap cooperates, the door latch is actuated.
- an electric door opener may be arranged in the passive wing lock device.
- the latch 11 can then interact with the door latch case and the door can be released from the closed position by electrical actuation of the latch opener.
- the latch 11 may also be designed as a self-locking latch - as a so-called latch bolt.
- the latch bolt can take three positions, namely a first retracted into the lock case 1a position, a second extended from the lock case position comparable to the extended position in conventional lock traps and a third position in which the latch bolt is far extended and locked at the same time and / or at least locked acts. In this third position, the latch bolt is extended approximately twice as far as a conventional latch in its extended position. In addition, in this widely extended third position of the latch bolt, as already mentioned, locked. It should be noted on the FIGS. 7a and 7b showing an inventive embodiment in which the case 11 is formed as such a latch bolt.
- the latch lifting device 31 is designed as a latch unlocking and retracting device, ie the latch actuating slide 31a serves for the latch bolt 11 in a first phase of the lifting operation unlock and retract the latch bolt later in the excavation process.
- Unlocking takes place in that the release pin 11a, which is displaceably mounted in the latch bolt, is first retracted by the latch actuating slide 31a, ie initially the free end of the release pin 11a protruding from the latch bolt 11 in the locking position by the latch actuating slide Retracted 31a.
- By retracting the unlocking of the bolt 11 takes place, so that the latch bolt is moved back under further pressurization by the latch actuating slide 31a.
- latch-lifting device 31 is formed only as unlocking or only as a retractor.
- the return or unlocking can be done via a separate device. The same applies as described above for the bolt lifting device 32 in connection with the unlocking or retraction of the bolt.
- FIGS. 2a and 2 B is one opposite the FIGS. 1a . 1b and 1c modified embodiment not according to the invention shown, in which the trap lever 39 is modified.
- the trap actuating slide 31a has an actuating plate, which is articulated on a driven-side actuating lever of the lever mechanism 31b.
- the actuating lever has a fixed in the lock case 30 a pivot bearing and is comparable to the FIGS. 1a . 1b and 1c actuated by the transmission slide 36, but structurally modified by a mounted on the operating lever pressure pin is guided in a slot in the transmission slide 36.
- a control edge of the gear slide 36 cooperates with the pressure pin of the actuating lever, wherein the control edge is formed in the edge contour of the spool 36.
- FIGS. 3a and 3b is one opposite the FIGS. 1a . 1b and 1c modified non-inventive embodiment shown in which the latch-lifting device 32 is modified.
- the bolt-actuating slide 32a has a plate-shaped base body, which is guided horizontally in the edge in the fixed in the lock case 30a linear guide means 32b.
- the operating lever of the operating gear 32h is similar to that in Figs FIGS. 2a and 2 B guided in a slot in the gear slider 36 with the pressure pin mounted on the gear lever.
- the latch-lifting device 32 is structurally similar as in the embodiment of FIGS. 3a and 3b ,
- the sensor devices are configured to generate the sensor signals.
- the trap-lifting device 31 is in the embodiment of Figures 6a and 6b as well as the embodiment of FIGS. 7a to 7d compared to the embodiments of the FIGS. 1a . 1b and 1c and the FIGS. 2a and 2 B modified in such a way that the trap-lifting device 31 has a sensor device 32t, with which it is detected whether the case 22 in the lock box 30a of the passive wing lock device is retracted or extended or is just retracted or extended.
- the trap-lifting device 31 has as in the Figures 6a and 6b and even better in the FIGS. 7a to 7d can be seen a trap-actuating slide 31a, which is guided horizontally with its plate-shaped base body in the solid in the lock box guide 31b.
- a sensor plate 31tp is displaceably guided in the linear guide device 31b.
- the sensor plate 31tp has at its front end edge two contact plates which come into contact with the case 11.
- the sensor plate 31tp is acted upon by a spring, in the illustrated case a leg spring, to the outside.
- the spring is dimensioned so that it is suppressed when retracting the case 11 and the case takes the sensor plate 31tp in abutment with the contact plates.
- the sensor plate 31tp has at its in the Figures 6a and 6b lower edge region on a lateral actuating edge, which cooperates with the oblique-angle actuating edge of a plate-shaped detection element 31te, which is movably mounted in a fixed housing in the lock case.
- the detection element 31te has an extension which engages in a light sensor 31s arranged in the lock housing 1a when the sensor plate 31tp enters the lock housing 30a. Thus, the retraction and extension of the case 11 can be detected by the sensor device 31t.
- the object and purpose of the sensor device 31t is as follows:
- the sensor device 31t has two functions for the Aushebevorgang. One function is to ensure that the latch 11 is fully extended out of the latch housing 30a of the passive latch mechanism upon retraction, and thus the latch 11 can not interfere with the door opening.
- the other possible function is to ensure that the trap operating slide 31a is not extended too far out of the lock housing 30a during retraction of the latch and ensures that the latch actuating slide 31a thus does not obstruct the opening and closing of the door
- the sensor slide on its front face has a retraction and / or outlet slope.
- the sensor device 31t controls a control device (not shown) of the lifting device 31.
- the control device is controlled by means of electrical signals, which are the Sensor device 31t emits during the detection of the case and are fed to the control device.
- Another possible function of the sensor device 31t is that, for example, can be monitored via a control panel, whether the two-leaf door is closed and locked.
- the locking monitoring this applies to embodiments in which the case is designed as a latch bolt, and for embodiments in which a corresponding sensor device is additionally or alternatively provided in the region of the latch lifting device 32.
- the sensor device 31t is provided in the embodiments shown in the figures only in the case-lifting device 31.
- the latch lifting device 32 in the embodiments of the figures provides for the proper functioning of the spring loading of the latch actuating pressure piece 32c and the prismatic configuration of the latch actuating pressure piece 32c before.
- the spring action ensures that the bolt is completely moved back into the lock case 1 a of the active-wing lock device, in which position he then locked in the lock housing 1 a, that is held self-determined.
- the spring loading in conjunction with the prism shape of the pressure piece then allows opening and closing the two-leaf door without mutual interference of the wings when opening and closing in the closed position and even with a large tolerance range with a gap between the two wings in the closed position of the door.
- FIG. 12 shows an inventive embodiment of the passive wing lock device with a sensor device 31s, which compared to the sensor device 31t of Embodiment of FIGS. 7a to 7f is modified.
- the sensor device 31s serves the FIG. 12 for detecting whether the latch 22 is retracted or extended in the lock box 30a of the passive wing lock mechanism, or is being retracted or retracted.
- the sensor device 31s is composed of a light sensor 31se and a sensor button 31st.
- the light sensor 31se is an optical sensor. It has a U-shaped receptacle into which the free end of the sensor button 31st engages.
- FIGS. 12 shows an inventive embodiment of the passive wing lock device with a sensor device 31s, which compared to the sensor device 31t of Embodiment of FIGS. 7a to 7f is modified.
- the sensor device 31s serves the FIG. 12 for detecting whether the latch 22 is retracted or extended in the lock box 30a of the passive wing lock mechanism,
- FIG. 12 the sensor button not as a slide, but designed as a two-armed lever.
- the sensor button 31st in FIG. 12 acts directly with the light sensor 31se.
- FIGS. 7a to 7f is provided between the light sensor 31s and the button 31tp and a wedge-shaped transmission member 31te.
- the sensor button 31st of the sensor device in FIG. 12 is designed as a sensing lever, which is mounted pivotably about a lock box fixed axis 31sta in the lock case.
- the sensing lever 31st is designed as a two-armed lever.
- the first lever arm 31stt serves to key the latch 11 of the active-wing lock device.
- the second lever arm 31sts has a hook-like extension which projects into the U-shaped receptacle of the light sensor 31s.
- the first lever arm 31stt of the sensing lever 31st protrudes into the predetermined space of the passive wing lock, which is provided for receiving the latch 11 of the active wing lock.
- FIG. 12 spring not shown, which acts on the sensing lever 31st in the direction outward.
- the sensor device operates as follows: In the closed position of the door, the latch 11 of the active lock device moves spring-loaded into the space provided for receiving the latch 11 of the passive wing lock device. In this case, the latch 11 comes into contact with the first lever arm 31stt of the feeler lever 31st, so that the feeler lever 31st is pivoted about its rotation axis 31sta by the latch 11 entering the passive wing lock mechanism.
- the hook-like extension of the feeler lever 31st which projects into the light sensor 31s when the door leaf is open, has left the U-shaped receptacle of the light sensor 31se when the latch 11 has reached its closed position.
- the light sensor 31se outputs depending on its operation or non-operation corresponding electrical signals, which are processed by an electrical signal processing system.
- the interaction of the sensing lever 31st and the light sensor 32se may also be provided so that the sensing lever engages 31st in the light sensor 31se when the case 11 is retracted into the receiving space of the passive wing lock case. When the wing is open, the hook-like extension of the feeler lever 31st is then outside the recording of the light sensor 31.
- the light sensor 31se depending on its operation or non-actuation from corresponding electrical signals, which are processed by an electrical signal processing system.
- FIG. 13 shows an inventive embodiment of the passive wing lock device with two other sensor devices 32s and 37s, one of which is associated with the latch 22 and the other of the lock nut 37.
- the sensor device 32t is used to detect whether the latch 22 is retracted or extended in the lock case 30a of the passive-wing lock device or is being retracted or extended.
- This sensor device 32t has an analog construction to the sensor device 31t FIG. 12 which detects the position of the trap.
- the sensor device consists of a light sensor 31se and a sensor button 31st.
- the sensor button 31st is also designed as a two-armed lever which is pivotally mounted in the lock case about an axis 31sta.
- the sensor button 31st has a first lever arm 31stt, which serves to touch the bolt 22, and a second lever arm 31sts, which cooperates with the light sensor 31 se.
- the sensor device 37s serves to detect an actuation of the lock nut 37.
- a light sensor 37se is provided.
- the lock nut 37 has a radially projecting arm 37fs which is provided with an extension formed as an angled edge.
- the extension 37fs projects into the U-shaped receiving area of the light sensor 37se.
- the actuation handle is actuated by a user on the passive wing lock
- the lock nut 37 is rotated.
- the edge-like extension 37fs of the lock nut 37 then leaves the receiving area of the electric light sensor 37se.
- the light sensor 37se then outputs a corresponding electrical signal that can be processed by an electrical signal processing system.
- the sensor device 37s it can be detected whether the passive wing lock has been opened by the manual actuation of a handle or push rod arranged on the passive wing.
- FIG. 14 a sensor device 36s not according to the invention is shown, which serves to detect a movement of the gear slide 36.
- This is a light sensor 36se provided.
- the gear slider 36 has a projecting projection 37fs.
- the extension 37f is outside the U-shaped receiving area of the light sensor 37se. If the passive wing lock is actuated by the actuating handle by a user or by the motorized actuating device, the gear slide 36 is thereby pushed upwards.
- the extension 36fs of the gear slider 36 enters the receiving area of the electric light sensor 36se.
- the light sensor 36se then outputs a corresponding electrical signal that can be processed by an electrical signal processing system.
- the sensor device 37t it can be detected whether the passive wing lock has been opened by the manual actuation of a handle or push rod arranged on the passive wing.
- the sensors 31se, 32se, 36se and 37se are mounted on a common circuit board mounted in the lock box.
- an electronic device for evaluating and / or processing the data of the sensors is provided. This electronic device can be arranged in a separate housing. This separate housing may preferably be arranged adjacent to the lock case coupled.
- the board on which the sensors are arranged is electrically connected to the electronic device. It can be provided for this purpose, for example, electrical cable connections, via which the board is connected to the arranged in the separate housing electronic device.
- Using the information from the sensors 31s and 32s, for example, in a public building can be monitored by a central office, whether a two-leaf door is open or in the closed position or is locked. Furthermore, it can be tracked by a monitoring center, whether a door has been unlocked by operating the nut or by activating the motorized actuator.
- the position of the lock nut remains unchanged and the signal of the sensor 37s remains unchanged, while an unlocking by operating the handle rotation of the lock nut 37 results and is detected by the nut associated sensor 37s.
- the sensors can also be used to control the motorized actuator when unlocking the lock device.
- the sensors 31se and 32se it can be detected during unlocking whether the latch 11 or the latch 22 no longer protrude into the associated receptacles of the passive wing lock, whereupon the motorized actuating device can be deactivated.
- the actuation of the passive-wing lock device 30 can take place via a manual actuating device, not shown in the figures.
- the manual actuating device can be designed as a rotary handle which can be inserted into the lock nut 37, wherein the lock nut 37 forms a part of the lock transmission.
- the rotary handle can be designed as a conventional pusher or as a push rod, a so-called panic push rod. Both the pusher and the push rod may have a corresponding rotary connection, which is rotatably inserted for coupling with the lock gear in the lock nut 37.
- the lock nut 37 By operating the actuator, the lock nut 37 is rotated and thereby actuates the lock gear. With the operation of the lock transmission of the transmission slide is moved. With the operation of the lock transmission, the locking bar connecting devices 38o, 38u are displaced vertically in opposite directions depending on the direction of rotation of the actuation. In addition, at the same time or with a delay, the latch lifting device 31 and the latch lifting device 32 are actuated upon actuation of the lock transmission.
- the lock gear is designed such that actuation of the lock nut 37 in one direction shifts the upper locking bar connection device 38o upwards and the lower locking bar connection device 38u downward, and consequently the respective locking bars 380o and 380u are each extended, ie moved into their locking position become.
- the lifting means 31, 32 for lifting the latch 11 and the bolt 12 are thereby actuated via the lock gear so that the latch-actuating slide 31a and the bolt-actuating slide 32a are retracted into the lock housing 30a of the passive lock device 30.
- a corresponding motorized actuating device with a rotary drive can also be coupled to the lock nut 37.
- the lock nut 37 is rotated by this motor actuator in a corresponding manner and actuates the lock gear, so in the same way the two locking bar connection devices 38o, 38u and the lifting devices 31, 32 are actuated.
- a motor actuator which in contrast has a linear output.
- the linear drive can be coupled directly to the transmission slide 36.
- the operation of the lock gear by the linear drive of the motorized actuator then acts in the same manner as when the lock gear is operated via rotation of the lock nut 37, as described above.
- FIGS. 5a and 5b show the passive wing lock device 30 with a arranged at the lower end of the lock case 30a such motor actuator 37m.
- FIGS. 5c and 5d show the coupled to the transmission slide coupling slide 37k, without the motor actuator 37m is coupled.
- the embodiment with the motorized actuator may be optional.
- anti-tampering devices are intended to prevent that the locking bars are not retractable by acting on the outside of the locking bar 380o and / or 380u pressurization.
- FIGS. 4a, 4b and 4c The non-inventive embodiment of such a manipulation protection device is in the FIGS. 4a, 4b and 4c shown.
- a locking member 39b movably mounted in the lock housing 30a is provided, which blocks displacement of the locking bar in the retraction direction during external pressurization, in that the blocking member 39b engages in its blocking position into a recess 36a in the transmission slide 36.
- FIG. 4a shows the position before a manipulation attempt by external pressurization of the locking bars 380o, 380u takes place.
- FIG. 4b shows the blocking member 39b in the blocking position in a tampering attempt.
- the gear slide 36 is done by manipulation pressurization of the locking bars relative to the position in FIG.
- FIGS. 4a to 4c thus acts on the transmission slide 36 and thus on both locking bars; However, it requires an actuator on the lock nut 37.
- FIGS. 9a and 9b A second embodiment of a tamper protection device is in the FIGS. 9a and 9b shown.
- This manipulation protection device does not require actuation of the lock transmission via the lock nut 37, but the operation of the lock transmission can also be achieved via a linear output of the transmission slide, z. B. via the motorized actuator 37m of FIGS. 5a and 5b respectively.
- This non-inventive embodiment of the anti-tamper means sees in the embodiment of FIGS. 9a and 9b a link device 39k, which is formed between the upper locking bar connecting device 38o and the gear slider 36.
- the link mechanism 39k has a cam slot 39ok formed with the plate-shaped main body of the upper latch rod connecting device 38o.
- the link device 39k further comprises a lever 39h, which is mounted in a lock box fixed pivot bearing and at one end has a guide pin which engages in the link slot 39ok and at its other end has a guide pin which engages in a slot in the transmission slide 36 is formed.
- the slotted slot 39ok is formed as an angular slit having an upper vertical branch and a lower horizontal branch.
- the guide pin 39s moves into the upper vertical branch of the slotted slot 39ok and blocks a vertical movement of the upper Locking rod connection device 38o (see Fig. 9a ). As a result, no manipulation movement is transmitted to the transmission slide 36.
- a non-inventive anti-tamper is provided as in the Figures 10a and 10b is shown.
- This manipulation protection device has a blocking lever 39p, which is mounted in a lock box-fixed pivot bearing. He is spring-loaded and / or gravitational in the in FIG. 10a with its free end to the left-facing position.
- a blocking pin 39s which is resistant to movement with the gear slide 36, engages in the hook-shaped recess of the blocking lever 39p in this position.
- FIG. 10a shows the situation in case of a manipulation attempt.
- the plate-shaped base body of the lower locking bar connection device 38u is guided by the upwardly acting pressurization of the locking bar 380u guided in the oblong holes upwards and comes into abutment against the lower bottom of the blocking lever 39p. In this way, a displacement of the lower locking bar 380u is counteracted in a manipulation attempt and the lower locking bar 380u is blocked in the extended position. The vertical movement of the lower bar connecting device 38a is thus not transmitted to the transmission slide 36.
- FIG. 11 shows a non-inventive embodiment of the passive wing lock device with a tamper protection device for the lower locking bar 380u, wherein the anti-tamper according to FIG. 11 opposite the anti-tamper device according to FIGS. 10a to 10 c is modified.
- the manipulation protection device has a blocking lever 39p, which is mounted in a lock box-fixed pivot bearing.
- the blocking lever has a blocking stop 39b which, in the blocking position, cooperates with the lower locking bar connection device 38u, as in FIG FIG. 11 is shown.
- the blocking stopper 39b is formed as an abutment step of the side edge of the blocking lever 39p.
- the manipulation attempt is in FIG. 11 shown.
- FIG. 11 shows the tamper protection in a tampering attempt.
- the tamper protection is that when pressure is applied to the lower latch bar connection device 38u, the lower latch bar connection device 38u comes into abutment against the blocking stop 39b of the blocking lever 39p and is thus blocked from further displacement in a vertical upward direction. As a result, no vertical movement is transmitted to the gear slider 36 through the lower latch rod connector 38u.
- the blocking lever 39p is provided with a cam slot into which a cam pin 36k of the gear slider 36 engages. If, in the event of a proper unlocking by operation of the nut 37 or the motor actuator 37m of the transmission slide 36 is displaced upwards for unlocking, the gear shifter fixed pin 36k moves vertically upwards and runs in the sliding slot 39k of the blocking lever, whereby the blocking lever 39p is pivoted in the illustrated case counterclockwise. The blocking lever 39p in the pivoted then no longer projects into the movement range of the lower locking bar connection device 38u in a blocking manner. Simultaneously with the pivoting of the blocking lever 39p, a lever 38h is pivoted.
- the lever 38h is pivotally mounted in the lock case 38a about a lock case fixed axis 38a and cooperates with a foot side arranged on the transmission slide 36 actuation stop. When pushing up the gear slide 36, the lever 38 is pivoted clockwise in the illustrated case.
- the lever 38h is formed as an operating lever of the lower locking bar connecting device 38u. It cooperates with its free end with a corresponding stop on the lower locking bar connection device 38u.
- the lower locking bar connection device 38u is thus moved in the same direction with the gear slide 36 and retracted the lower locking bar in the lock case.
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Description
Die Erfindung betrifft eine PassivflĂĽgel-Schlosseinrichtung fĂĽr eine TĂĽr, ein Fenster oder dergleichen. Die TĂĽr weist einen ortsfest montierbaren Rahmen mit in dem Rahmen gelagerten mindestens einem aktiven FlĂĽgel und mindestens einem passiven FlĂĽgel. Es handelt sich also um eine zweiflĂĽgelige TĂĽr. Der aktive FlĂĽgel wird im Folgenden als AktivflĂĽgel bezeichnet. Der PassivflĂĽgel wird im Folgenden als PassivflĂĽgel bezeichnet.The invention relates to a passive wing lock device for a door, a window or the like. The door has a fixed mountable frame with at least one active wing and at least one passive wing mounted in the frame. It is therefore a double-leaf door. The active wing is referred to below as active wing. The passive wing is referred to below as the passive wing.
Die Passivflügel-Schlosseinrichtung ist in oder auf dem Passivflügel montierbar. Sie weist eine Schlossmechanik und eine Betätigungseinrichtung zu Betätigung der Schlossmechanik auf. Es sind Passivflügel-Schlosseinrichtungen mit einer mechanischen Betätigungseinrichtung bekannt, wobei die mechanische Betätigungseinrichtung als Türdrücker oder Panikdruckstange ausgebildet ist.The passive wing lock device can be mounted in or on the passive wing. It has a lock mechanism and an actuating device for actuating the lock mechanism. There are passive wing lock devices with a mechanical actuator known, the mechanical actuator is designed as a door handle or Panikdruckstange.
Die Schlossmechanik der PassivflĂĽgel-Schlosseinrichtung weist eine Fallen-Aushebeeinrichtung und/oder eine Riegel-Aushebeeinrichtung auf. Es handelt sich dabei Aushebeeinrichtungen fĂĽr eine Falle bzw. einen Riegel einer aktivflĂĽgelseitig montierbaren AktivflĂĽgel-Schlosseinrichtung. Sinn und Zweck dieser Aushebeeinrichtungen ist es, die Falle und den Riegel der zugeordneten AktivflĂĽgel-Schlosseinrichtung, die in ihrer Verriegelungsposition in die PassivflĂĽgel-Schlosseinrichtung hineinragen, zum Ă–ffnen der TĂĽr auszuheben, d. h. aus der PassivflĂĽgel-Schlosseinrichtung zurĂĽckzuschieben in die AktivflĂĽgel-Schlosseinrichtung und zuvor zu entriegeln, falls sie in ihrer Verriegelungsposition verriegelt sind. Derartige Schlosseinrichtungen fĂĽr zweiflĂĽgelige TĂĽren mit einer Aktivschlosseinrichtung mit Falle und Riegel und einer Passivschlosseinrichtung mit Aushebeeinrichtung fĂĽr Falle und Riegel sind aus der Praxis bekannt und zum Beispiel beschrieben in
Bei bekannten derartigen Schlossvorrichtungen kann es vorkommen, dass der Aushebevorgang von Falle und Riegel nicht optimal abläuft und demzufolge ein Blockieren der Türflügel beim Öffnen der Tür auftritt. Ferner kann es auch vorkommen, dass das Einfahren von Falle und Riegel nicht ordnungsgemäß verläuft und in der Schließlage der Tür demzufolge Falle und Riegel nicht korrekt in die Passivflügel-Schlosseinrichtung eingreifen.In known such lock devices, it may happen that the Aushebevorgang of latch and bolt does not run optimally and consequently blocking the door when opening the door occurs. Furthermore, it may also happen that the retraction of the latch and bolt does not run properly and consequently in the closed position of the door latch and bolt do not engage correctly in the passive wing lock device.
Aus der
Der Erfindung liegt die Aufgabe zu Grunde, eine Passivflügel-Schlosseinrichtung zu schaffen, die höhere Zuverlässigkeit des Ver- und/oder Entriegelungsvorgangs gewährleistet.
Die Erfindung löst diese Aufgabe mit dem Gegenstand des Patentanspruchs 1.The invention is based on the object to provide a passive wing lock device, which ensures higher reliability of the locking and / or unlocking process.
The invention solves this problem with the subject matter of patent claim 1.
Eine wesentliche Maßnahme ist hierbei, dass die Fallen-Aushebeeinrichtung der Passivflügel-Schlosseinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob in einem vorbestimmten Raum der Passivflügel-Schlosseinrichtung eine Falle, nämlich Schlossfalle oder Fallenriegel einer in oder auf dem Aktivflügel montierten Aktivflügel-Schlosseinrichtung eingreift oder nicht eingreift, wobei die Sensoreinrichtung so ausgebildet ist, dass sie abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.An essential measure in this case is that the latch lifting device of the passive-wing lock device has a sensor device to detect whether a trap, namely latch or latch bolt of an active-wing lock device mounted in or on the active-wing engages in a predetermined space of the passive-wing lock device or does not engage, wherein the sensor device is designed such that it emits electrical signals to an electrical signal processing device depending on the result of this detection.
Zusätzlich oder alternativ ist es eine wesentliche Maßnahme, dass die die Riegel-Aushebeeinrichtung der Passivflügel-Schlosseinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob in einem vorbestimmten Raum der Passivschlosseinrichtung ein Riegel einer in oder auf dem Aktivflügel montierten Aktivschlosseinrichtung eingreift oder nicht eingreift, wobei die Sensoreinrichtung so ausgebildet ist, dass sie abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.
Es kann vorgesehen sein, dass die Passivflügel-Schlosseinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob ein Getriebeschieber des Getriebes der Schlossmechanik eine vorbestimmte Position erreicht hat oder nicht, wobei die Sensoreinrichtung so ausgebildet ist, dass sie abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.Additionally or alternatively, it is an essential measure that the latch release device of the passive wing lock device comprises a sensor device to detect whether in a predetermined space of the passive lock device engages or does not engage a bolt of an active lock device mounted in or on the active wing the sensor device is designed so that it outputs electrical signals to an electrical signal processing device as a function of the result of this detection.
It can be provided that the passive-wing lock device has a sensor device in order to detect whether or not a transmission slide of the transmission of the lock mechanism has reached a predetermined position, wherein the sensor device is designed such that it depends on the result of this detection emits electrical signals to an electrical signal processing device.
Es kann vorgesehen sein, dass die Passivflügel-Schlosseinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob eine Schlossnuss der Schlossmechanik eine vorbestimmte Position erreicht hat oder nicht, wobei die Sensoreinrichtung so ausgebildet ist, dass sie abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.It can be provided that the passive-wing lock device has a sensor device to detect whether or not a lock nut of the lock mechanism has reached a predetermined position, wherein the sensor device is designed such that it depends on the result of this detection electrical signals to a electrical signal processing device outputs.
Es kann vorgesehen sein, dass die Passivflügel-Schlosseinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob ein Abtrieb einer motorischen Antriebseinrichtung eine vorbestimmte Position erreicht hat oder nicht, wobei die motorische Antriebseinrichtung die Schlossbetätigungseinrichtung antreibt und/oder mindestens eine der Riegelstangen antreibt und/oder eine Fallen-Aushebe Einrichtung antreibt, die zum Entriegeln und/oder Zurückfahren einer in einem vorbestimmten Raum der Passivflügel-Schlosseinrichtung eingreifenden Falle einer in oder auf dem Aktivflügel montierten Aktivflügel-Schlosseinrichtung ausgebildet ist, und/oder eine Riegel-Aushebeeinrichtung antreibt, die zum Entriegeln und/oder Zurückfahren eines in einem vorbestimmten Raum der Passivflügel-Schlosseinrichtung eingreifenden Riegels einer in oder auf dem Aktivflügel montierten Aktivflügel-Schlosseinrichtung ausgebildet ist, wobei die Sensoreinrichtung so ausgebildet ist, dass sie abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.It can be provided that the passive-wing lock device has a sensor device in order to detect whether or not an output of a motor drive device has reached a predetermined position, wherein the motor drive device drives the lock operating device and / or drives at least one of the locking rods and / or a latch lifting device drives means adapted to unlock and / or retract a latch engaging in a predetermined space of the passive wing latch means an active wing latch mounted in or on the active wing, and / or driving latch unlocking means for unlocking and / or retracting a bolt engaging in a predetermined space of the passive wing lock device of an active wing lock device mounted in or on the active leaf, wherein the sensor device is designed such that it depends on the result this detection emits electrical signals to an electrical signal processing device.
In bevorzugten Ausführungen ist vorgesehen, dass sie Sensoreinrichtung einen elektrische Signale abgebenden Sensor und einen mit dem Sensor unmittelbar oder mittelbar zusammenwirkenden Taster aufweist, der im Schlosskasten der Passivflügel-Schlosseinrichtung beweglich gelagert ist und mit dem zu erfassenden Bauteil tastend zusammenwirkt. Weiter kann vorgesehen sein, dass zwischen dem Sensor und dem Taster ein Übertragungsglied angeordnet ist, welches über eine schiefe Ebene oder ein anderes Getriebe mit dem Taster zusammenwirkt. Vorteilhafterweise weist der Taster einen Abschnitt auf, der bei der Bewegung des Tasters den Sensor betätigt. Der Taster kann durch eine Feder beaufschlagt ist, die den Taster in Tastrichtung drängt.In preferred embodiments, it is provided that it sensor device, an electrical signal emitting sensor and with the sensor directly or indirectly cooperating button, which is movably mounted in the lock case of the passive wing lock device and interacts grooving with the component to be detected. It can further be provided that a transmission element is arranged between the sensor and the pushbutton, which interacts with the pushbutton via an inclined plane or another transmission. Advantageously, the button has a section which actuates the sensor during the movement of the button. The button can be acted upon by a spring which urges the button in the scanning direction.
Vorteilhafterweise ist die Schlossmechanik der PassivflĂĽgel-Schlosseinrichtung in einem Schlosskasten angeordnet, wobei der Taster in dem Schlosskasten der PassivflĂĽgel-Schlosseinrichtung in Tastrichtung begrenzt verfahrbar ist, und zwar maximal soweit verfahrbar, dass er nicht oder nur geringfĂĽgig ĂĽber eine stirnseitige Ă–ffnung der dem AktivflĂĽgel zugewandete Stirnseite des Schlosskastens hinausragt. In bevorzugten AusfĂĽhrungen ist der Taster als Tastschieber ausgebildet, der in einer LinearfĂĽhrungseinrichtung gefĂĽhrt ist, die in dem Schlosskasten der PassivflĂĽgel-Schlosseinrichtung fest angeordnet ist.Advantageously, the lock mechanism of the passive wing lock device is arranged in a lock case, wherein the button in the lock case of the passive wing lock device in the scanning direction is limited movable, maximum extent movable so that he or only slightly on an end opening of the active wing facing end face protrudes from the lock box. In preferred embodiments, the probe is designed as a feeler slide, which is guided in a linear guide device which is fixedly arranged in the lock case of the passive wing lock device.
Vorteilhafterweise ist vorgesehen, dass die Fallen-Aushebeeinrichtung einen Fallen-Betätigungsschieber aufweist, der in einer mit dem Passivflügel fest montierbaren linearen Führungseinrichtung geführt ist, die in der montierten Position der Schlosseinrichtung horizontal gerichtet ist, wobei die lineare Führungseinrichtung des Fallen-Betätigungsschiebers mit der linearen Führungseinrichtung des Tastschiebers verbunden und/oder als Abschnitt derselben ausgebildet ist. Es kann auch vorgesehen sein, dass die Riegel-Aushebeeinrichtung einen Riegel-Betätigungsschieber aufweist, der in einer mit dem Passivflügel fest montierten linearen Führungseinrichtung geführt ist, die in der montierten Position der Schlosseinrichtung horizontal gerichtet ist, wobei die lineare Führungseinrichtung des Riegel-Betätigungsschiebers mit der linearen Führungseinrichtung des Tastschiebers verbunden und/oder als Abschnitt derselben ausgebildet ist.Advantageously, it is provided that the latch lifting device comprises a latch actuating slide, which is guided in a fixed to the passive wing linear guide means which is directed horizontally in the mounted position of the lock device, wherein the linear guide means of the latch actuating slide with the linear Guiding device of the feeler slide connected and / or formed as a portion thereof. It can also be provided that the latch-lifting device has a latch actuating slide, which is guided in a fixed to the passive wing linear guide means which is directed horizontally in the mounted position of the lock device, wherein the linear guide means of the latch actuating slide is connected to the linear guide means of the feeler and / or formed as a portion thereof.
Vorteilhafterweise ist die Schlossmechanik der PassivflĂĽgel-Schlosseinrichtung in einem Schlosskasten angeordnet, wobei der Taster als Tasthebel ausgebildet ist, der schwenkbar um eine Achse gelagert ist, die in dem Schlosskasten der PassivflĂĽgel-Schlosseinrichtung fest angeordnet ist.Advantageously, the lock mechanism of the passive wing lock device is arranged in a lock case, wherein the push button is designed as a sensing lever which is pivotally mounted about an axis which is fixedly arranged in the lock case of the passive wing lock device.
Bei bevorzugten Ausführungen kann vorgesehen sein, dass die elektrische Signalverarbeitungseinrichtung verbunden ist mit einer elektrisch schaltbaren Steuerungseinrichtung der motorischen Antriebseinrichtung der Schlossbetätigungseinrichtung und/oder mit einer elektrisch schaltbaren Aus-/Einschalteinrichtung der Fallen-Aushebeeinrichtung und/oder mit einer elektrisch schaltbaren Aus-/Einschalteinrichtung der Riegel-Aushebeeinrichtung und/oder mit der motorischen Antriebseinrichtung, die mindestens eine der Riegelstangen und/oder mindestens eine der Aushebeeinrichtungen antreibt und/oder mit einer Überwachungszentrale verbunden ist.In preferred embodiments, it can be provided that the electrical signal processing device is connected to an electrically switchable control device of the motor drive device of the lock operating device and / or with an electrically switchable off / on switching of the latch lifting device and / or with an electrically switchable off / on switching the Latch lifting device and / or with the motor drive device that drives at least one of the locking bars and / or at least one of the lifting devices and / or is connected to a monitoring center.
Weiter kann vorgesehen sein, dass die Sensoreinrichtung einen elektrische Signale abgebenden Sensor aufweist, der mit dem zu erfassenden Bauteil unmittelbar zusammenwirkt.It can further be provided that the sensor device has an electrical signal-emitting sensor which interacts directly with the component to be detected.
In bevorzugten Ausführungen weist die Schlossnuss einen Abschnitt auf, der beim Verlagern der Schlossnuss den Sensor der Sensoreinrichtung betätigt.In preferred embodiments, the lock nut has a section which actuates the sensor of the sensor device when the lock nut is displaced.
In bevorzugten Ausführungen weist der Getriebeschieber einen Abschnitt auf, der beim Verlagern des Getriebeschiebers einen Sensor der Sensoreinrichtung betätigt.
Die vorliegende Erfindung ist weiter gerichtet auf eine Schlosseinrichtung fĂĽr eine TĂĽr, ein Fenster oder dergleichen, mit einem ortsfest montierbaren Rahmen mit an oder in dem Rahmen gelagerten mindestens einem aktiven FlĂĽgel - im Folgenden als AktivflĂĽgel bezeichnet - und mindestens einem passiven FlĂĽgel - im Folgenden als PassivflĂĽgel bezeichnet. Dabei umfasst die Schlosseinrichtung eine PassivflĂĽgel-Schlosseinrichtung, die in oder auf dem PassivflĂĽgel montierbar ist und eine AktivflĂĽgel-Schlosseinrichtung, die in oder auf dem AktivflĂĽgel montierbar ist. Hierbei ist vorgesehen, dass die AktivflĂĽgel-Schlosseinrichtung eine Schlossmechanik mit einer Falle und/oder einem Riegel aufweist, und dass die PassivflĂĽgel-Schlosseinrichtung nach einem der AnsprĂĽche 1-14 ausgebildet ist. Bei besonders bevorzugten AusfĂĽhrungen ist die PassivflĂĽgel-Schlosseinrichtung als Einsteckschloss ausgebildet und vorzugsweise auch die AktivflĂĽgel-Schlosseinrichtung als Einsteckschloss ausgebildet.
Die vorliegende Erfindung ist weiter gerichtet auf eine TĂĽr oder Fenster mit einem ortsfest montierbaren Rahmen mit an oder in dem Rahmen gelagerten, mindestens einem aktiven FlĂĽgel - im Folgenden als AktivflĂĽgel bezeichnet- und mindestens einem passiven FlĂĽgel - im Folgenden als PassivflĂĽgel bezeichnet, mit einer Schlosseinrichtung, die eine AktivflĂĽgel-Schlosseinrichtung und eine PassivflĂĽgel-Schlosseinrichtung umfasst, wobei die AktivflĂĽgel-Schlosseinrichtung in oder auf dem AktivflĂĽgel montiert ist und die PassivflĂĽgel-Schlosseinrichtung in oder auf dem PassivflĂĽgel montiert ist. Hierbei ist vorgesehen, dass die AktivflĂĽgel-Schlosseinrichtung eine Schlossmechanik mit einer Falle und/oder einem Riegel aufweist und dass die PassivflĂĽgel-Schlosseinrichtung nach einem der AnsprĂĽche 1 bis 14 ausgebildet ist.
Eine wesentliche Maßnahme ist hierbei, dass die Fallen-Aushebeeinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob in einem vorbestimmten Raum der Passivflügel-Schlosseinrichtung die Falle der Aktivflügel-Schlosseinrichtung eingreift oder nicht eingreift, wobei die Sensoreinrichtung abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.
Zusätzlich oder alternativ ist eine wesentliche Maßnahme die, dass die Riegel-Aushebeeinrichtung eine Sensoreinrichtung aufweist, um zu erfassen, ob in einem vorbestimmten Raum der Passivschlosseinrichtung der Riegel der Aktivschlosseinrichtung eingreift oder nicht eingreift, wobei die Sensoreinrichtung abhängig von dem Ergebnis dieser Erfassung elektrische Signale an eine elektrische Signalverarbeitungseinrichtung abgibt.
Mit dieser Sensoreinrichtung im Bereich der Fallen-Aushebeeinrichtung und/oder im Bereich der Riegel-Aushebeeinrichtung ist eine vorteilhafte Steuerung und Überwachung der Aushebeeinrichtung von Riegel bzw. Falle möglich. Es ist auch möglich, abhängig von dem Ergebnis der Erfassung den Aushebevorgang aus der Schließstellung heraus zu starten, wenn es beabsichtigt ist, die Tür zu öffnen und in der Schließstellung ein Eingriff von Falle bzw. Riegel in die Aktivflügel-Schlosseinrichtung vorliegt. Durch die Erfassung über diese Sensoreinrichtung ist es außerdem möglich den Aushebevorgang zum optimalen Zeitpunkt zu stoppen, d. h. zu beenden, wenn die Falle bzw. der Riegel vollständig aus der Passivflügel-Schlosseinrichtung ausgefahren und in die Aktivflügel-Schlosseinrichtung vollständig zurückgefahren sind. Es ist auch möglich, über die Sensoreinrichtung eine Überwachung der Schließ- und Verriegelungsstellung der Tür unabhängig vom Aushebevorgang durchzuführen, um sicherzustellen, dass in der Schließstellung der Tür jeweils eine ordnungsgemäße Verriegelung vorliegt.In preferred embodiments, the transmission slide on a portion which actuates a sensor of the sensor device during displacement of the transmission slide.
The present invention is further directed to a lock device for a door, a window or the like, with a fixed mountable frame mounted on or in the frame at least one active wing - hereinafter referred to as active wing - and at least one passive wing - hereinafter referred to as Passive wing called. In this case, the lock device comprises a passive-wing lock device which can be mounted in or on the passive wing and an active-wing lock device which can be mounted in or on the active wing. It is provided that the active-wing lock device has a lock mechanism with a latch and / or a bolt, and that the passive-wing lock device is designed according to one of claims 1-14. In particularly preferred embodiments, the passive-wing lock device is designed as a mortise lock and preferably also the active-wing lock device is designed as a mortise lock.
The present invention is further directed to a door or window with a fixed mountable frame mounted on or in the frame, at least one active wing - hereinafter referred to as active wing and at least one passive wing - hereinafter referred to as passive wing, with a lock device comprising an active wing lock and a passive wing lock, wherein the active wing lock is mounted in or on the active wing and the passive wing lock is mounted in or on the passive wing. It is provided that the active wing lock device a Has lock mechanism with a latch and / or a bolt and that the passive-wing lock device is designed according to one of claims 1 to 14.
An essential measure in this case is that the latch lifting device has a sensor device in order to detect whether the trap of the active-leaf lock device engages or does not engage in a predetermined space of the passive-wing lock device, the sensor device depending on the result of this detection electrical signals emits to an electrical signal processing device.
Additionally or alternatively, an essential measure is that the latch lifting device has a sensor device to detect whether engages in a predetermined space of the passive lock device, the bolt of Aktivschlosseinrichtung or not, wherein the sensor device depending on the result of this detection electrical signals emits an electrical signal processing device.
With this sensor device in the region of the latch lifting device and / or in the region of the latch lifting device, an advantageous control and monitoring of the lifting device of latch or latch is possible. It is also possible, depending on the result of the detection to start the Aushebevorgang out of the closed position when it is intended to open the door and in the closed position is an engagement of latch or latch in the active-wing lock device. By detecting this sensor device, it is also possible to stop the Aushebevorgang at the optimum time, ie to stop when the case or the bolt completely out of the passive wing lock device extended and returned to the active wing lock device completely. It is also possible, via the sensor device, to monitor the closing and locking position of the door independently of the lifting operation in order to ensure that there is a proper locking in the closed position of the door.
Bevorzugte Ausführungen sehen vor, dass die elektrische Signalverarbeitungsanlage mit einer elektrisch schaltbaren Steuerungseinrichtung und/oder elektrisch schaltbaren Aus-/Einschalteinrichtung der Fallen Aushebereinrichtung und/oder der Riegel Aushebereinrichtung verbunden ist. Alternativ oder zusätzlich können sie auch vorsehen, dass die elektrische Signalverarbeitungsanlage mit einer Überwachungszentrale verbunden ist.Preferred embodiments provide that the electrical signal processing system is connected to an electrically switchable control device and / or electrically switchable off / on switching device of the trap Aushebereinrichtung and / or the latch Aushebereinrichtung. Alternatively or additionally, they can also provide that the electrical signal processing system is connected to a monitoring center.
Die Sensoreinrichtung kann für die Erfassung der Falle der Aktivflügel-Schlosseinrichtung ausgebildet sein. Entsprechende Ausführungen können dann vorsehen, dass der vorbestimmte Raum der Erfassung der Sensoreinrichtung als Fallenaufnahmenraum im Schlosskasten der Passivflügel-Schlosseinrichtung ausgebildet ist, in den in der Schließstellung der Tür die ausgefahrene Falle der Aktivflügel-Schlosseinrichtung eingreift. In entsprechender Weise kann bei Ausführungen, bei denen die Sensoreinrichtung den Riegel der Aktivflügel-Schlosseinrichtung erfasst, vorgesehen sein, dass der vorbestimmte Raum der Erfassung der Sensoreinrichtung als Riegelaufnahmeraum im Schlosskasten der Passivflügel-Schlosseinrichtung ausgebildet ist, in den in der Schließstellung der Tür der ausgefahrene Riegel der Aktivflügel-Schlosseinrichtung eingreift.The sensor device can be designed for the detection of the trap of the active-leaf lock device. Corresponding embodiments can then provide that the predetermined space of detection of the sensor device is designed as a trap receiving space in the lock case of the passive wing lock device engages in the closed position of the door, the extended case of the active wing lock device. In a corresponding manner, in embodiments in which the sensor device detects the latch of the active-leaf lock device, it may be provided that the predetermined space of the detection of the sensor device is designed as a bolt receiving space in the lock case of the passive-wing lock device, in the extended position in the closed position of the door Lock the active leaf lock device engages.
Ein hohe Funktionssicherheit der Sensoreinrichtung ergibt sich mit AusfĂĽhrungen, bei denen vorgesehen ist, dass die Sensoreinrichtung einen mit der eingreifenden Falle in Anschlag gelangenden Sensorschieber aufweist, der in einer LinearfĂĽhrungseinrichtung gefĂĽhrt ist, die im Schlosskasten der PassivflĂĽgel-Schlosseinrichtung fest angeordnet ist und dass der Sensorschieber durch eine Feder in Ausfahrrichtung beaufschlagt ist. In entsprechender Weise kann die Sensoreinrichtung zur Erfassung des Riegels einen mit dem eingreifenden Riegel in Anschlag gelangenden Sensorschieber aufweisen, der in einer LinearfĂĽhrungseinrichtung gefĂĽhrt ist, die im Schlosskasten der PassivflĂĽgel-Schlosseinrichtung fest angeordnet ist. Dieser Sensorschieber des Riegels kann ebenfalls durch eine Feder in Ausfahrrichtung beaufschlagt sein. Durch den federbeaufschlagten Sensorschieber fĂĽr Falle bzw. Riegel wird im Falle, dass die Falle bzw. der Riegel in die AktivflĂĽgel-Schlosseinrichtung eingreift, erreicht, dass eine Anschlaglage des Sensorschiebers an der Falle bzw. dem Riegel sich automatisch einstellt.A high reliability of the sensor device results in embodiments in which it is provided that the sensor device has a reaching with the engaging trap stop sensor slide, which is guided in a linear guide means which is fixedly arranged in the lock case of the passive wing lock device and that the sensor slide is acted upon by a spring in the extension direction. In a corresponding manner, the sensor device for detecting the bolt can have a sensor slide which comes into abutment with the engaging bolt and which is guided in a linear guide device which is fixedly arranged in the lock case of the passive-wing lock device. This sensor slide of the bolt can also be acted upon by a spring in the extension direction. By the spring-loaded sensor slide for case or latch is in the event that the case or the latch engages in the active-wing lock device, achieved that a stop position of the sensor slide on the case or the latch automatically adjusts.
Um zu erreichen, dass der Sensorschieber beim Ă–ffnen der TĂĽr nicht den Ă–ffnungsvorgang blockiert, ist vorzugsweise vorgesehen, dass der Sensorschieber in dem Schlosskasten der PassivflĂĽgel-Schlosseinrichtung in Ausfahrrichtung begrenzt ist, vorzugsweise maximal soweit verfahrbar ist, dass er nicht oder nur geringfĂĽgig ĂĽber die dem AktivflĂĽgel zugewandete Stirnseite des Schlosskastens hinausragt.To achieve that the sensor slide does not block the opening process when opening the door, it is preferably provided that the sensor slide in the lock case of the passive wing lock device is limited in the extension direction, preferably maximally movable so far that it does not or only slightly above the Active wing facing end face of the lock case protrudes.
Der Sensorschieber kann zur Erfassung der jeweiligen Position von Falle und Riegel auf einfache Weise mit einem Sensor der Sensoreinrichtung zusammenwirken, beispielsweise dadurch, dass der Sensorschieber eine Kante oder eine Fortsatz aufweist, der beim Verfahren des Sensorschiebers den Sensor passiert.The sensor slide can cooperate for detecting the respective position of latch and latch in a simple manner with a sensor of the sensor device, for example, characterized in that the sensor slide has an edge or an extension, which passes the sensor during the process of the sensor slide.
Der Sensor der Sensoreinrichtung kann als optischer Sensor oder aber auch als magnetischer Sensor oder elektromagnetischer Sensor oder elektrischer Sensor ausgebildet sein.The sensor of the sensor device can be designed as an optical sensor or as a magnetic sensor or electromagnetic sensor or electrical sensor.
Bei bevorzugten Ausführungen ist vorgesehen, dass die Fallen-Aushebeeinrichtung einen Fallen-Betätigungsschieber aufweist, der in einer mit dem Passivflügel vorzugsweise mit dem Schlossgehäuse fest montierbaren linearen Führungseinrichtung geführt ist, die in der montierten Position der Passivflügel-Schlosseinrichtung horizontal gerichtet ist. In entsprechenden Weise kann die Riegel-Aushebeeinrichtung einen Riegel-Betätigungsschieber aufweisen, der in einer mit dem Passivflügel, vorzugsweise dem Schlosskasten fest montierten linearen Führungseinrichtung, geführt ist, die in der montierten Position der Passivflügel-Schlosseinrichtung horizontal gerichtet ist. Besonders bevorzugte Weiterbildungen dieser Ausführungen sehen vor, dass die lineare Führungseinrichtung des Fallen-Betätigungsschiebers mit der linearen Führungseinrichtung des Sensorschiebers der Sensoreinrichtung verbunden ist. In entsprechender Weise kann vorgesehen sein, dass die lineare Führungseinrichtung des Riegel-Betätigungsschiebers mit der linearen Führungseinrichtung des Sensorschiebers der Sensoreinrichtung verbunden ist. Bei diesen Ausführungen kann eine besonders hohe Funktionalität des Aushebevorgangs gewährleistet werden.In preferred embodiments it is provided that the latch lifting device comprises a latch actuating slide, which is guided in a with the passive wing, preferably with the lock housing firmly mountable linear guide means which is directed horizontally in the mounted position of the passive wing lock device. In a corresponding manner, the latch lifting device may comprise a latch actuating slide which is guided in a linear guide device fixedly mounted with the passive wing, preferably the lock case, which is horizontally directed in the mounted position of the passive wing lock device. Particularly preferred developments of these embodiments provide that the linear guide device of the trap actuating slide is connected to the linear guide device of the sensor slide of the sensor device. In a corresponding manner it can be provided that the linear guide device of the bolt-actuating slide is connected to the linear guide device of the sensor slide of the sensor device. In these embodiments, a particularly high functionality of the Aushebevorgangs be guaranteed.
Die Betätigung der Passivschlosseinrichtung kann durch eine manuelle Betätigungseinrichtung und bei besonders bevorzugten Einrichtungen durch eine motorische Betätigungseinrichtung, vorzugsweise eine elektromotorische Betätigungseinrichtung erfolgen. Die Aushebeeinrichtungen mit der elektrischen Sensoreinrichtung kommen insbesondere für Ausführungen mit elektromotorischer Betätigungseinrichtung in Frage, um ein hohes Maß der Überwachung und Automatisierung zu Realisieren.The actuation of the passive lock device can be effected by a manual actuation device and, in the case of particularly preferred devices, by a motor actuation device, preferably an electromotive actuation device. The lifting devices with the electrical sensor device come in particular for executions electromotive actuator in question to realize a high level of monitoring and automation.
In den Figuren sind konkrete AusfĂĽhrungsbeispiele exemplarisch dargestellt. Dabei zeigen:
- Figuren 1a bis 1c
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 2a und 2b
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 3a bis 3c
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 4a bis 4c
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 5a bis 5d
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 6a und 6b
- ein zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 7a bis 7f
- ein zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 8a und 8b
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 9a und 9b
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
- Figuren 10a bis 10c
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel;
Figur 11- ein nicht zur Erfindung gehörendes Ausführungsbeispiel,
- Figur 12
- ein zur Erfindung gehörendes Ausführungsbeispiel,
- Figur 13
- ein zur Erfindung gehörendes Ausführungsbeispiel,
- Figur 14
- ein nicht zur Erfindung gehörendes Ausführungsbeispiel,.
- FIGS. 1a to 1c
- an embodiment not belonging to the invention;
- FIGS. 2a and 2b
- an embodiment not belonging to the invention;
- FIGS. 3a to 3c
- an embodiment not belonging to the invention;
- FIGS. 4a to 4c
- an embodiment not belonging to the invention;
- FIGS. 5a to 5d
- an embodiment not belonging to the invention;
- Figures 6a and 6b
- an embodiment belonging to the invention;
- FIGS. 7a to 7f
- an embodiment belonging to the invention;
- FIGS. 8a and 8b
- an embodiment not belonging to the invention;
- FIGS. 9a and 9b
- an embodiment not belonging to the invention;
- FIGS. 10a to 10c
- an embodiment not belonging to the invention;
- FIG. 11
- an embodiment not belonging to the invention,
- FIG. 12
- an embodiment belonging to the invention,
- FIG. 13
- an embodiment belonging to the invention,
- FIG. 14
- an embodiment not belonging to the invention.
Bei den in den Figuren dargestellten AusfĂĽhrungsbeispielen handelt es sich um unterschiedliche AusfĂĽhrungsbeispiele von PassivflĂĽgel-Schlosseinrichtungen 30, die jeweils in einem PassivflĂĽgel 110 einer zweiflĂĽgeligen TĂĽr montiert sind. Diese PassivflĂĽgel-Schlosseinrichtungen 30 sind jeweils zum Zusammenwirken mit einer AktivflĂĽgel-Schlosseinrichtung bestimmt, die entsprechend zugeordnet in einem AktivflĂĽgel der zweiflĂĽgeligen TĂĽr zu montieren sind.
Ein AusfĂĽhrungsbeispiel einer AktivflĂĽgel-Schlosseinrichtung 1 montiert in einem AktivflĂĽgel 10 einer zweiflĂĽgeligen TĂĽr ist in den
An embodiment of an active wing lock device 1 mounted in an
Die nicht erfindungsgemäße Passivflügel-Schlosseinrichtung 30 der
Die Passivflügel-Schlosseinrichtung 30 umfasst eine obere und eine untere Riegelstange 380o, 380u und Aushebeeinrichtungen 31 und 32, um die Falle 11 und den Riegel 12 einer zugeordneten Aktivflügel-Schlosseinrichtung, die in der Verriegelungsstellung in die Passivflügel-Schlosseinrichtung eingreifen, auszuheben. Das Schlossgetriebe mit dem Getriebeschieber 36 dient zum Antrieb der oberen Riegelstange 380o und der unteren Riegelstange 380u sowie zum Antrieb der Aushebeeinrichtungen 31 und 32. Der Aufbau und die Funktion der Aushebeeinrichtungen 31 und 32 werden im Nachfolgenden noch im Detail in Verbindung mit den Figuren erläutert.
Wie in den
Die untere Riegelstange 380u ist an eine im unteren Abschnitt des Schlosskastens 30a gelagerten unteren Riegelstangen-Anschlusseinrichtung 38u gekuppelt. Diese untere Riegelstangen-Anschlusseinrichtung 38u ist mit dem Getriebeschieber 36 gleichläufig gekoppelt, sodass bei einer Verschiebung des Getriebeschiebers 36 nach oben die untere Riegelstangen-Anschlusseinrichtung nach oben mitverfahren und bei einer Verschiebung des Getriebeschiebers 36 nach unten die Riegelstangen-Anschlusseinrichtung 38u nach unten mitverfahren wird.The
Die so angetriebenen Riegelstangen 380o und 380 u sind am Passivflügel 110 vertikal gerichtet montiert und zwar linear verschiebbar jeweils in einer entsprechenden vertikalen Linearführung vorzugsweise verdeckt im Rahmen des Passivflügels verschiebbar. Die Riegelstangen 380o und 380u sind durch ihre bewegungsfeste Ankupplung an ihrer zugeordneten Anschlusseinrichtung 38o bzw. 38u über die Betätigung des Getriebeschiebers 36 jeweils gegensinnig vertikal auf und ab verschiebbar.The locking bars 380o and 380u driven in this way are mounted vertically directed on the
Das obere Ende der oberen Riegelstange 380o wirkt mit einer Riegelaufnahmeausnehmung zusammen, die im oberen Holm des ortsfesten Rahmens der TĂĽr ausgebildet ist. Das untere Ende der unteren Riegelstange 380u wirkt mit einer im Boden ausgebildeten Riegelaufnahmeausnehmung zusammen. In der ausgefahrenen Stellung der oberen Riegelstange 380o greift das freie obere Ende der Riegelstange in die obere Riegelaufnahmeausnehmung ein. In der ausgefahrenen Stellung der unteren Riegelstange 380u greift das freie untere Ende der Riegelstange in die untere Riegelaufnahmeausnehmung ein.The upper end of the upper latch bar 380o cooperates with a latch receiving recess formed in the upper rail of the stationary frame of the door. The lower end of the
Über die Betätigung des Schlossgetriebes, bei der der Getriebeschieber 36 wie beschrieben vertikal verschoben wird, werden nicht nur die obere Riegelstange 380o und die untere Riegelstange 380u ein- und ausgefahren, sondern auch die mit der Falle 11 und dem Riegel 22 der Aktivflügel-Schlosseinrichtung zusammenwirkenden Einrichtungen 31 und 32 betätigt.About the operation of the lock gear in which the
Die Fallen-Aushebeeinrichtung 31 dient wie bereits erwähnt zum Zusammenwirken mit der Schlossfalle 11 der Aktivflügel-Schlosseinrichtung 1. Das Zusammenwirken besteht darin, dass die Fallen-Aushebeeinrichtung 31 die Schlossfalle 11 in den Schlosskasten 1a der Aktivflügel-Schlosseinrichtung 1 zurückführt, bei dem die Fallen-Aushebeeinrichtung 31 die Schlossfalle 11 druckbeaufschlagt und dabei zurückschiebt, bis die Schlossfalle 11 vollständig in dem Schlosskasten 1a der Aktivflügel-Schlosseinrichtung 1 eingeschoben ist. Die Fallen-Aushebeeinrichtung 31 weist hierfür einen Fallen-Betätigungsschieber 31a auf, der über eine Hebeleinrichtung 31h von dem Getriebeschieber 36 angetrieben ist. Wenn der Getriebeschieber 36 nach oben geschoben wird, wird die Hebeleinrichtung 31h ausgeschwenkt, sodass der Fallen-Betätigungsschieber 31a ausfährt. Wenn der Getriebeschieber 36 nach unten geschoben wird, wird die Hebeleinrichtung 31h eingeschwenkt, sodass der Fallen-Betätigungsschieber 31a wieder eingefahren wird.As already mentioned, the
Die Riegel-Aushebeeinrichtung 32 dient zum Entriegeln und Zurückfahren des Riegels 22 der Aktivschloss Einrichtung 1. Die Riegel-Aushebeeinrichtung 32 weist in entsprechender Weise einen Riegel-Betätigungsschieber 32a auf, der über ein Hebelgetriebe 32h mit dem Getriebeschieber 36 antriebsverbunden ist.The
Beim Ausschwenken der Hebeleinrichtung 32h durch Betätigen des Getriebeschiebers 36 wird der Riegel-Betätigungsschieber 32a ausgefahren. Sodann wird unter Wirkung des Riegel-Betätigungsschiebers 32a der in seiner ausgefahrenen Verriegelungsposition in den Schlosskasten 30a eingreifende Riegel 22 entriegelt und daraufhin in den Schlosskasten 1a der Aktivschloss Einrichtung zurückgefahren. Das Entriegeln erfolgt durch Druckbeaufschlagung des über die Stirnseite des Riegels 32 überstehenden Auslösestifts 22a. Nachdem der Riegel 22 entriegelt ist, wird er durch weitere Druckbeaufschlagung, die stirnseitig auf den Riegel 22 einwirkt, in den Schlosskasten 1a der Aktivflügel-Schlosseinrichtung zurückgefahren. Beim Zurückschwenken des Hebelgetriebes 32h wird der Riegel-Betätigungsschieber 32a sodann eingefahren. Dies geschieht dadurch, dass der Getriebeschieber 36 in vertikaler Richtung nach unten gefahren wird.When swinging the
Wie in den
Die Riegel-Aushebeeinrichtung 32 wird auch als Riegel Entriegelungs- und oder ZurĂĽckfahreinrichtung bezeichnet. Sie kann sowohl zum Entriegeln als auch zum ZurĂĽckfahren des Riegels ausgelegt sein, wie in dem in den
Die Riegel-Aushebeeinrichtung 32 kann in abgewandelten Ausführungsbeispielen auch lediglich als Entriegelungseinrichtung ausgebildet sein, d. h. der Riegel-Betätigungsschieber 32a kann dann durch entsprechende Druckbeaufschlagung des Auslösemechanismus die Verriegelung ausschalten. Das Zurückfahren des Riegels kann gegebenenfalls durch einen anderen Mechanismus z. B. mit einer entsprechenden Federbeaufschlagung des Riegels erfolgen. Die betreffende Federeinrichtung kann am Schlosskasten 1a der Aktivflügel-Schlosseinrichtung aber auch am Passivflügel Schosskasten 1a abgestützt sein.The
The latch-lifting
Die Fallen-Aushebeeinrichtung 31 wird auch als Fallen Entriegelungs- und/oder ZurĂĽckfahreinrichtung bezeichnet. Sie kann, wie wir in den
Bei gegenĂĽber den
At opposite the
Bei zweiflĂĽgeligen TĂĽren ist in der SchlieĂźstellung der zweiflĂĽgeligen TĂĽr ein gewisses Spiel mit einem Spalt zwischen dem PassivflĂĽgel und dem AktivflĂĽgel nicht auszuschlieĂźen. HierfĂĽr weist bei dem AusfĂĽhrungsbeispiel der
In die
In the
In den
Das in den
Die Riegel-Aushebeeinrichtung 32 ist konstruktiv ähnlich wie in dem Ausführungsbeispiel der
Die Fallen-Aushebeeinrichtung 31 ist bei dem AusfĂĽhrungsbeispiel der
Die Aufgabe und Zielsetzung der Sensoreinrichtung 31t ist folgende:
Die Sensoreinrichtung 31t hat zwei Funktionen für den Aushebevorgang. Die eine Funktion ist die, sicherzustellen, dass die Falle 11 komplett aus dem Schlossgehäuse 30a der Passiv Schlosseinrichtung beim Zurückfahren ausgefahren wird und damit die Schlossfalle 11 das Öffnen der Tür nicht behindern kann. Die andere mögliche Funktion ist die, sicherzustellen, dass der Fallen-Betätigungsschieber 31a beim Zurückfahren der Falle nicht zu weit aus dem Schlossgehäuse 30a ausgefahren wird und sichergestellt wird, dass der Fallen-Betätigungsschieber 31a somit das Öffnen und Schließen der Tür nicht behindert, um eine solche Behinderung der Tür zu verhindern, kann auch vorgesehen sein, dass der Sensorschieber an seiner vorderen Stirnseite eine Einfahr- und/oder Auslaufschräge aufweist. Die Sensoreinrichtung 31t steuert eine nicht dargestellte Steuerungseinrichtung der Aushebeeinrichtung 31. Die Steuerung der Steuereinrichtung erfolgt über elektrische Signale, die die Sensoreinrichtung 31t bei der Erfassung der Falle abgibt und die der Steuerungseinrichtung zugeleitet werden.
Eine weitere mögliche Funktion der Sensoreinrichtung 31t ist die, dass z.B. über eine Zentrale überwacht werden kann, ob die zweiflügelige Tür geschlossen und verriegelt ist. Was die Verriegelungsüberwachung betrifft, gilt dies für Ausführungsbeispiele, bei denen die Falle als ein Fallenriegel ausgebildet ist, und für Ausführungsbeispiele, bei denen eine entsprechende Sensoreinrichtung zusätzlich oder alternativ im Bereich der Riegel-Aushebeeinrichtung 32 vorgesehen ist.
Die Sensoreinrichtung 31t ist bei den in den Figuren dargestellten Ausführungsbeispielen nur in der Fallen-Aushebeeinrichtung 31 vorgesehen. Die Riegel-Aushebeeinrichtung 32 in den Ausführungsbeispielen der Figuren sieht zum einwandfreien Funktionieren die Federbeaufschlagung des Riegel Betätigungsdruckstücks 32c und die prismenförmige Gestaltung des Riegel Betätigungsdruckstücks 32c vor. Durch die Federbeaufschlagung wird sichergestellt, dass der Riegel vollständig in den Schlosskasten 1a der Aktivflügel-Schlosseinrichtung zurückgefahren wird, in welcher Stellung er sodann in dem Schlossgehäuse 1a verriegelt d. h. selbst festgestellt gehalten wird. Die Federbeaufschlagung in Verbindung mit der Prismenform des Druckstücks erlaubt sodann ein Öffnen und Schließen der zweiflügligen Tür ohne gegenseitige Behinderung der Flügel beim Öffnen und Schließen im Bereich der Schließstellung und zwar selbst bei großem Toleranzbereich mit einem Spalt zwischen den beiden Flügeln in der Schließstellung der Tür.The object and purpose of the
The
Another possible function of the
The
Der Sensortaster 31st der Sensoreinrichtung in
Die Sensoreinrichtung gemäß
Bei abgewandelten Ausführungen kann das Zusammenwirken des Tasthebels 31st und des Lichtsensors 32se auch so vorgesehen sein, dass der Tasthebel 31st in den Lichtsensor 31se eingreift, wenn die Falle 11 in den Aufnahmeraum des Passivflügel Schlosskastens eingefahren ist. Bei geöffnetem Flügel befindet sich der hakenartige Fortsatz des Tasthebels 31st sich dann außerhalb der Aufnahme des Lichtsensors 31. Auch bei dieser abgewandelten Ausführung gibt der Lichtsensor 31se abhängig von seiner Betätigung oder Nichtbetätigung entsprechende elektrische Signale ab, die durch eine elektrische Signalverarbeitungsanlage verarbeitet werden.The sensor device according to
In modified embodiments, the interaction of the sensing lever 31st and the light sensor 32se may also be provided so that the sensing lever engages 31st in the light sensor 31se when the
Die Sensoreinrichtung 32t dient zum Erfassen, ob der Riegel 22 in dem Schlosskasten 30a der PassivflĂĽgel-Schlosseinrichtung ein- oder ausgefahren ist oder gerade ein- oder ausgefahren wird. Diese Sensoreinrichtung 32t ist analog aufgebaut zu der Sensoreinrichtung 31t aus
Die Sensoreinrichtung 37s dient dazu, eine Betätigung der Schlossnuss 37 zu erfassen. Hierzu ist ein Lichtsensor 37se vorgesehen. Die Schlossnuss 37 weist einen radial abragenden Arm 37fs auf, der mit einem als abgewinkelter Rand ausgebildeten Fortsatz versehen ist. In der Ruheposition der Passivflügelschlosseinrichtung ragt der Fortsatz 37fs in den U-förmige Aufnahmebereich des Lichtsensors 37se hinein. Wird am Passivflügelschloss die Betätigungshandhabe durch einen Nutzer betätigt, so wird die Schlossnuss 37 gedreht. Hierbei verlässt dann der kantenartige Fortsatz 37fs der Schlossnuss 37 den Aufnahmebereich des elektrischen Lichtsensors 37se. Der Lichtsensor 37se gibt dann ein entsprechendes elektrisches Signal ab, das durch eine elektrische Signalverarbeitungsanlage verarbeitet werden kann. Mittels der Sensoreinrichtung 37s kann detektiert werden, ob das Passivflügelschloss durch die manuelle Betätigung einer am Passivflügel angeordneten Handhabe oder Druckstange geöffnet wurde.The sensor device 32t is used to detect whether the
The sensor device 37s serves to detect an actuation of the
In
Die Sensoren 31se, 32se, 36se und 37se sind auf einer gemeinsamen im Schlosskasten gelagerten Platine montiert. Zusätzlich ist eine elektronische Einrichtung zum Auswerten und/oder Weiterverarbeiten der Daten der Sensoren vorgesehen. Diese elektronische Einrichtung kann in einem separaten Gehäuse angeordnet sein. Dieses separate Gehäuse kann angrenzend an dem Schlosskasten vorzugsweise angekuppelt angeordnet sein.The sensors 31se, 32se, 36se and 37se are mounted on a common circuit board mounted in the lock box. In addition, an electronic device for evaluating and / or processing the data of the sensors is provided. This electronic device can be arranged in a separate housing. This separate housing may preferably be arranged adjacent to the lock case coupled.
Die Platine, auf der die Sensoren angeordnet sind, ist mit der elektronischen Einrichtung elektrisch verbunden. Es können hierfür zum Beispiel elektrische Kabelverbindungen vorgesehen sein, über die die Platine mit der in dem separaten Gehäuse angeordneten elektronischen Einrichtung verbunden ist.The board on which the sensors are arranged is electrically connected to the electronic device. It can be provided for this purpose, for example, electrical cable connections, via which the board is connected to the arranged in the separate housing electronic device.
Mithilfe der Informationen der Sensoren 31s und 32s kann beispielsweise in einem öffentlichen Gebäude durch eine Zentrale überwacht werden, ob eine zweiflügelige Tür offensteht oder sich in Schließstellung befindet oder verriegelt ist. Weiterhin kann durch eine Überwachungszentrale nachvollzogen werden, ob eine Tür durch Betätigen der Nuss oder durch Aktivierung der motorischen Betätigungseinrichtung entriegelt wurde. Bei Entriegelung der Schlosseinrichtung mithilfe der motorischen Betätigungseinrichtung bleibt die Position der Schlossnuss unverändert und auch das Signal des Sensors 37s bleibt unverändert, während eine Entriegelung durch Betätigen der Handhabe eine Drehung der Schlossnuss 37 zur Folge hat und durch den der Nuss zugeordneten Sensor 37s detektiert wird.Using the information from the
Die Sensoren können auch dazu eingesetzt werden, die motorische Betätigungseinrichtung beim Entriegeln der Schlosseinrichtung zu steuern. Mithilfe der Sensoren 31se und 32se kann während des Entriegelns detektiert werden, ob die Falle 11 bzw. der Riegel 22 nicht mehr in die zugehörigen Aufnahmen des Passivflügelschlosses hineinragen, worauf die motorische Betätigungseinrichtung deaktiviert werden kann.The sensors can also be used to control the motorized actuator when unlocking the lock device. By means of the sensors 31se and 32se it can be detected during unlocking whether the
Die Betätigung der Passivflügel-Schlosseinrichtung 30 kann über eine in den Figuren nicht dargestellte manuelle Betätigungseinrichtung erfolgen. Die manuelle Betätigungseinrichtung kann als Drehhandhabe ausgebildet sein, die in die Schlossnuss 37 einsteckbar ist, wobei die Schlossnuss 37 ein Teil des Schlossgetriebes darstellt. Die Drehhandhabe kann als herkömmlicher Drücker oder aber auch als Druckstange, eine sogenannte Panikdruckstange, ausgebildet sein. Sowohl der Drücker als auch die Druckstange kann einen entsprechenden Drehanschluss aufweisen, der zur Kupplung mit dem Schlossgetriebe in die Schlossnuss 37 drehfest einsteckbar ist.The actuation of the passive-
Durch die Betätigung der Betätigungseinrichtung wird die Schlossnuss 37 gedreht und dadurch das Schlossgetriebe betätigt. Mit der Betätigung des Schlossgetriebes wird der Getriebeschieber verschoben. Mit der Betätigung des Schlossgetriebes werden die Riegelstangen-Anschlusseinrichtungen 38o, 38u abhängig von der Drehrichtung der Betätigung gegensinnig vertikal verschoben. Außerdem werden bei der Betätigung des Schlossgetriebes gleichzeitig oder zeitversetzt auch die Fallen-Aushebeeinrichtung 31 und die Riegel-Aushebeeinrichtung 32 betätigt.By operating the actuator, the
Das Schlossgetriebe ist so ausgebildet, dass eine Betätigung der Schlossnuss 37 in der einen Richtung die obere Riegelstangen-Anschlusseinrichtung 38o nach oben und die untere Riegelstangen-Anschlusseinrichtung 38u nach unten verschiebt, und demzufolge die betreffenden Riegelstangen 380o und 380u jeweils ausgefahren also in ihre Verriegelungsstellung verfahren werden. Die Aushebeeinrichtungen 31, 32 zum Ausheben der Falle 11 und des Riegels 12 werden dabei über das Schlossgetriebe so betätigt, dass der Fallen-Betätigungsschieber 31a und der Riegel-Betätigungsschieber 32a in das Schlossgehäuse 30a der Passiv-Schlosseinrichtung 30 eingefahren werden. Wenn die Schlossnuss 37 durch Betätigung in die Gegenrichtung gedreht wird, erfolgt die umgekehrte gegensinnige Bewegung der Riegelstangen-Anschlusseinrichtungen 38o, 38u, demzufolge die Riegelstangen 380o, 380u eingefahren werden, d. h. die Entriegelung der Riegelstangen erfolgt, und die Aushebeeinrichtung 31 und 32 ausgefahren werden, um den Riegel 22 und die Falle 11 der Aktivschlosseinrichtung in den Schlosskasten der Aktivschlosseinrichtung zurückzufahren.The lock gear is designed such that actuation of the
Anstelle der manuellen Betätigungseinrichtung kann an der Schlossnuss 37 auch eine entsprechende motorische Betätigungseinrichtung mit Drehabtrieb angekoppelt werden. Die Schlossnuss 37 wird durch diese motorische Betätigungseinrichtung in entsprechender Weise gedreht und das Schlossgetriebe betätigt, sodass in gleicher Weise die beiden Riegelstangen-Anschlusseinrichtungen 38o, 38u und die Aushebeeinrichtungen 31, 32 betätigt werden.Instead of the manual actuating device, a corresponding motorized actuating device with a rotary drive can also be coupled to the
Es kann auch eine motorische Betätigungseinrichtung eingesetzt werden, die im Unterschied hierzu einen Linearabtrieb aufweist. Der Linearabtrieb kann unmittelbar an den Getriebeschieber 36 angekoppelt werden. Die Betätigung des Schlossgetriebes durch den Linearabtrieb der motorischen Betätigungseinrichtung wirkt sodann in gleicher Weise, wie wenn das Schlossgetriebe über Drehung der Schlossnuss 37 betätigt wird, wie vorangehend beschrieben.It can also be used a motor actuator, which in contrast has a linear output. The linear drive can be coupled directly to the
Die
In den in den Figuren dargestellten AusfĂĽhrungsbeispielen sind unterschiedliche Manipulationsschutzeinrichtungen vorgesehen. Die Manipulationsschutzeinrichtungen sollen verhindern, dass durch von auĂźen auf die Riegelstange 380o und/oder 380u einwirkende Druckbeaufschlagung die Riegelstangen nicht einfahrbar sind.In the embodiments shown in the figures, different anti-tamper means are provided. The anti-tampering devices are intended to prevent that the locking bars are not retractable by acting on the outside of the locking bar 380o and / or 380u pressurization.
Die nicht erfindungsgemäße Ausführung einer solchen Manipulationsschutzeinrichtung ist in den
Diese erste AusfĂĽhrungsform der Manipulationsschutzeinrichtung in den
Der Kulissenschlitz 39ok ist als ein winkeliger Schlitz ausgebildet mit einem oberen vertikalen Ast und einem unteren horizontalen Ast. Im Falle eines Manipulationsversuchs fährt der Kulissenstift 39s in den oberen vertikalen Ast des Kulissenschlitzes 39ok ein und blockiert eine Vertikalbewegung der oberen Riegelstangen-Anschlusseinrichtung 38o (siehe
Im Falle, dass kein Manipulationsversuch vorliegt, d.h. keine Druckbeaufschlagung auf die obere Riegelstange 380o von außen ausgeübt wird, ist die Anordnung des Hebels 39h, der entsprechend federbelastet sein kann, so dass der Kulissenstift 39s in den horizontalen Ast des Kulissenschlitzes 39ok einfährt. Durch Betätigung des Schlossgetriebes, d. h. durch Betätigung des Getriebeschiebers 36 lässt sich nun die obere Riegelstangen-Anschlusseinrichtung 38o und damit die obere Riegelstange 380o betätigen, d. h. aus- und einfahren.
Die vorangehend beschriebene Kulisseneinrichtung 39k bildet somit bei dem oben beschriebenen nicht erfindungsgemäßen Ausführungsbeispiel der
Für die untere Riegelstange 380u, welche bei dem betreffenden Ausführungsbeispiel gleichsinnig mit dem Getriebeschieber 36 des Schlossgetriebes bewegt wird, ist eine nicht erfindungsgemäße Manipulationsschutzeinrichtung vorgesehen, wie sie in den
This first embodiment of the anti-tamper device in the
The slotted slot 39ok is formed as an angular slit having an upper vertical branch and a lower horizontal branch. In the case of a manipulation attempt, the
In the event that there is no manipulation attempt, ie no pressure is exerted on the upper locking bar 380o from the outside, the arrangement of the
The
For the
Der Blockierhebel 39p ist mit einem Kulissenschlitz versehen, in den ein Kulissenstift 36k des Getriebeschiebers 36 eingreift. Wenn im Falle einer ordnungsgemäßen Entriegelung durch Betätigung der Nuss 37 oder der motorischen Betätigungseinrichtung 37m der Getriebeschieber 36 nach oben zur Entriegelung verschoben wird, fährt der mit dem Getriebeschieber feste Stift 36k vertikal nach oben und läuft dabei in dem Kulissenschlitz 39k des Blockierhebels, wodurch der Blockierhebel 39p im dargestellten Fall gegen den Uhrzeigersinn verschwenkt wird. Der Blockierhebel 39p ragt in der verschwenkten dann nicht mehr in blockierender Weise in den Bewegungsbereich der unteren Riegelstangen-Anschlusseinrichtung 38u hinein. Gleichzeitig mit dem Verschwenken des Blockierhebels 39p wird ein Hebel 38h verschwenkt. Der Hebel 38h ist um eine schlosskastenfeste Achse 38a schwenkbar im Schlosskasten 38a gelagert und wirkt zusammen mit einem fußseitig am Getriebeschieber 36 angeordneten Betätigungsanschlag zusammen. Beim Hochschieben des Getriebeschiebers 36 wird in dem dargestellten Fall der Hebel 38 im Uhrzeigersinn verschwenkt. Der Hebel 38h ist als Betätigungshebel der unteren Riegelstangen Anschlusseinrichtung 38u ausgebildet. Er wirkt mit seinem freien Ende mit einem entsprechenden Anschlag an der unteren Riegelstangen-Anschlusseinrichtung 38u zusammen.The blocking
Die untere Riegelstangen-Anschlusseinrichtung 38u wird somit gleichsinnig mit dem Getriebeschieber 36 bewegt und die untere Riegelstange in den Schlosskasten eingefahren.The lower locking
- 1010
- AktivflĂĽgelactive wing
- 110110
- PassivflĂĽgelpassive wings
- 11
- AktivflĂĽgel-SchlossActive Wing Castle
- 1a1a
- Schlosskasten von 1Lock case of 1
- 1111
- FalleCases
- 11a11a
- Auslösestiftrelease pin
- 1717
- Schlossnusslock follower
- 2222
- Riegelbars
- 22a22a
- Auslösestiftrelease pin
- 3030
- PassivflĂĽgel SchlossPassive wing lock
- 30a30a
- Schlosskasten von 30Lock case of 30
- 3131
- Fallen-AushebeeinrichtungFall-lifting device
- 31a31a
- Fallen-BetätigungsschieberLatch actuating slide
- 31b31b
- FĂĽhrungseinrichtungguide means
- 31c31c
- Fallen BetätigungsdruckstückFalling actuating pressure piece
- 31h31h
- Hebeleinrichtunglever means
- 31t31t
- Sensoreinrichtungsensor device
- 31tp31tp
- Sensorschieber mit stirnseitigem KontaktflächenSensor slide with frontal contact surfaces
- 31te31te
- Detektionselementdetection element
- 31s31s
- Lichtsensorlight sensor
- 3232
- Riegel-AushebeeinrichtungRiegel-lifting device
- 32a32a
- Riegel-BetätigungsschieberDeadbolt operating slide
- 32b32b
- FĂĽhrungseinrichtungguide means
- 32c32c
- Federnd gelagertes DruckstĂĽckSpring-mounted pressure piece
- 32h32h
- Hebeleinrichtunglever means
- 3636
- Getriebeschiebergear shifter
- 36g36g
- Umkehrgetriebereverse gear
- 3737
- Schlossnusslock follower
- 37a37a
- Mitnehmertakeaway
- 37m37m
- Motorische BetätigungseinrichtungMotorized actuator
- 37k37k
- Kupplungsschiebercoupling slider
- 39k39k
- Kulisseneinrichtungblock mechanism
- 39ok39ok
- Kulissenschlitzlink slot
- 39h39h
- Kulissenhebelrocker arm
- 39b39b
- Blockiergliedblocking member
- 39p39p
- Unterer BlockierhebelLower blocking lever
- 39s39s
- Blockierstiftblocking pin
- 38o38o
- Obere Riegelstangen-AnschlusseinrichtungUpper locking bar connection device
- 38op38op
- Plattenförmiger Körper von 38oPlate-shaped body of 38o
- 380o380o
- Obere RiegelstangeUpper tie rod
- 38u38u
- Untere Riegelstangen-AnschlusseinrichtungLower latch bar connection device
- 38ub38ub
- Blockierhebelblocking lever
- 380u380U
- Untere RiegelstangeLower latch bar
- 1010
- AktivflĂĽgelactive wing
- 100100
- ortsfester Rahmenfixed frame
- 110110
- PassivflĂĽgelpassive wings
Claims (16)
- Passive leaf locking device for a door, a window or similar, having a frame that can be mounted in a stationary manner having at least one active leaf attached in the frame - referred to below as the active leaf - and at least one passive leaf - referred to below as the passive leaf,
wherein the passive leaf locking device (30) can be mounted in or on the passive leaf (110) and has a locking mechanism and a lock actuation device, and
wherein the passive leaf locking device has a latch lifting device and/or a bolt lifting device,
wherein it is provided that
the locking mechanism of the passive leaf locking device has an upper locking rod connection device (38o) of an upper locking rod (380o) guided in and/or on the passive leaf (110), said locking rod (380o) being able to be extended upwards for locking and being able to be retracted downwards for unlocking, and/or
the locking mechanism of the passive leaf locking device has a lower locking rod connection device (38u) of a lower locking rod (380u) guided in and/or on the passive leaf (110), said locking rod (380u) being able to be extended downwards for locking and being able to be retracted upwards for unlocking,
characterised in thata) the passive leaf locking device has a sensor device (31t) in order to detect whether or not a latch (11), namely a locking latch or latch bolt of an active leaf locking device (1) mounted in or on the active leaf, engages in a predetermined space of the passive leaf locking device (30),
wherein the latch lifting device has the sensor device in order to detect whether or not the latch of the active leaf locking device engages in a predetermined space of the passive leaf locking device,
wherein the sensor device enables control and monitoring of the lifting device of the latch in the region of the latch lifting device, and
wherein the sensor device (31t) is formed in such a way that it outputs electrical signals to an electrical signal processing device depending on the result of this detection; and/orb) the passive leaf locking device has a sensor device (31t) in order to detect whether or not a bolt (22) of an active leaf locking device (1) mounted in or on the active leaf engages in a predetermined space of the passive leaf locking device (30),wherein the bolt lifting device has the sensor device in order to detect whether or not the bolt of the active leaf locking device engages in a predetermined space of the passive leaf locking device,
wherein the sensor device enables control and monitoring of the lifting device of the bolt in the region of the bolt lifting device, and
wherein the sensor device (31t) is formed in such a way that it outputs electrical signals to an electrical signal processing device depending on the result of this detection. - Passive leaf locking device according to claim 1,
characterised in that
the passive leaf locking device has a sensor device (36s) in order to detect whether or not a gear slide (36) of the gear of the locking mechanism has reached a predetermined position, wherein the sensor device (36s) is formed in such a way that it outputs electrical signals to an electrical signal processing device depending on the result of this detection, and/or
the passive leaf locking mechanism has a sensor device (37s) in order to detect whether or not a lock follower (37) of the locking mechanism has reached a predetermined position, wherein the sensor device (36s) is formed in such a way that it outputs electrical signals to an electrical signal processing device depending on the result of this detection, and/or
the passive leaf locking device has a sensor device in order to detect whether or not a driven element of a motor drive device (37m) has reached a predetermined position, wherein the motor drive device drives the lock actuation device and/or drives at least one of the locking rods and/or drives a latch lifting device that is formed for unlocking and/or returning a latch of an active leaf locking device mounted in or on the active leaf, said latch engaging in a predetermined space of the passive leaf locking mechanism, and/or drives a bolt lifting device that is formed for unlocking and/or returning a bolt of an active leaf locking device mounted in or on the active leaf, said bolt engaging in a predetermined space of the passive leaf locking device,
wherein the sensor device is formed in such a way that it outputs electrical signals to an electrical signal processing device depending on the result of this detection. - Passive leaf locking device according to one of the preceding claims,
characterised in that
the sensor device has a sensor outputting electrical signals and a probe interacting directly or indirectly with the sensor, said probe being moveably supported in the lock housing and probingly interacting with the component to be detected. - Passive leaf locking device according to claim 3,
characterised in that
a transmission member is arranged between the sensor and the probe, said transfer member interacting with the probe via an oblique plane or a different gear. - Passive leaf locking device according to claim 3 or 4,
characterised in that
the probe has a portion that actuates the sensor upon movement of the probe. - Passive leaf locking device according to one of claims 3 to 5,
characterised in that
the probe is supplied by a spring which pushes the probe in the probing direction. - Passive leaf locking device according to one of claims 3 to 6,
wherein the locking mechanism of the passive leaf locking device is arranged in a lock housing,
characterised in that
the probe (31tp) in the lock housing (30a) of the passive leaf locking device can be displaced in a restricted manner in the probing direction, and that it can be maximally displaced to the extent that it does not protrude or only marginally protrudes beyond an end side opening of the end side of the lock housing (30a), said end side facing towards the active leaf. - Passive leaf locking device according to one of claims 3 to 7,
wherein the locking mechanism of the passive leaf locking device is arranged in a lock housing,
characterised in that
the probe (31tp) is formed as a probing slide (31tp) that is guided in a linear guiding device (31) that is fixedly arranged in the lock housing (30a) of the passive leaf locking device (30). - Passive leaf locking device according to claim 2 and claim 8,
characterised in that
the latch lifting device (31) has a latch actuation slide (31a) that is guided in a linear guiding device (31b) that can be fixedly mounted to the passive leaf (110) and that is horizontally aligned in the mounted position of the locking device (30);
wherein the linear guiding device (31b) of the latch actuation slide (31a) is connected to the linear guiding device of the probing slide (31tp) and/or formed as a portion of the same; and/or
the bolt lifting device (32) has a bolt actuation slide (32a) that is guided in a linear guiding device (32b) that can be fixedly mounted to the passive leaf (110) and that is horizontally aligned in the mounted position of the locking device (30);
wherein the linear guiding device (31b) of the bolt actuation slide (31a) is connected to the linear guiding device of the probing slide (31tp) and/or formed as a portion of the same. - Passive leaf locking device according to one of claims 3 to 8,
wherein the locking mechanism of the passive leaf locking device is arranged in a lock housing,
characterised in that
the probe (31tp) is formed as a probing lever (31tp) that is pivotably supported around an axis that is fixedly arranged in the lock housing (30a) of the passive leaf locking device (30). - Passive leaf locking device according to one of the preceding claims,
characterised in that
the electrical signal processing device is connected to an electrically switchable control device of the motor drive device of the lock actuation device and/or to an electrically switchable off/on-switching device of the latch lifting device (31) and/or to an electrically switchable off/on-switching device of the bolt lifting device (32) and/or to the motor drive device that drives at least one of the bolt rods and/or at least one of the lifting devices and/or is connected to a monitoring centre. - Passive leaf locking device according to one of the preceding claims,
characterised in that
the sensor device has a sensor outputting electrical signals, said sensor directly interacting with the component to be detected. - Passive leaf locking device according to claim 2 and claim 12,
characterised in that
the lock follower (37) has a portion (37fs) that actuates the sensor (37se) of the sensor device (37s) when displacing the lock follower (37). - Passive leaf locking device according to one of the preceding claims,
characterised in that
the gear slide (36) has a portion (36fs) that actuates a sensor (36se) of the sensor device (36s) when displacing the gear slide (36). - Locking device for a door, a window or the like, having a frame that can be mounted in a stationary manner, having at least one active leaf - referred to below as the active leaf -supported on or in the frame, and at least one passive leaf - referred to below as the passive leaf,
here the locking device comprises a passive leaf locking device that can be mounted in or on the passive leaf, and an active leaf locking device that can be mounted in or on the active leaf,
wherein it is provided that
the active leaf locking device has a locking mechanism having a latch and/or a bolt, and the passive leaf locking device is formed according to one of the preceding claims. - Door or window, having a frame that can be mounted in a stationary manner having at least one active leaf - referred to below as the active leaf -supported on or in the frame and at least one passive leaf - referred to below as the passive leaf,
having a locking device that comprises an active leaf locking device and a passive leaf locking device, wherein the active leaf locking device is mounted in or on the active leaf, and the passive leaf locking device is mounted in or on the passive leaf, wherein it is provided that- the active leaf locking device has a locking mechanism having a latch and/or a bolt, and- the passive leaf locking device is formed according to one of claims 1 to 14.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PL13183052T PL2703586T3 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with a sensor device |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102012017819 | 2012-09-04 | ||
DE102012017818 | 2012-09-04 | ||
DE102012017810 | 2012-09-04 | ||
DE102012017811 | 2012-09-04 | ||
DE102012017812 | 2012-09-04 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2703586A2 EP2703586A2 (en) | 2014-03-05 |
EP2703586A3 EP2703586A3 (en) | 2015-03-11 |
EP2703586B1 true EP2703586B1 (en) | 2018-10-24 |
Family
ID=49084913
Family Applications (4)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13183048.1A Active EP2703584B1 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with a motorised actuation device |
EP13183043.2A Withdrawn EP2703583A3 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device having a bolt push-back device with a spring-loaded bolt actuation pressure piece |
EP13183050.7A Active EP2703585B2 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with an actuation rod arrangement having a manipulation protection device |
EP13183052.3A Active EP2703586B1 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with a sensor device |
Family Applications Before (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13183048.1A Active EP2703584B1 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with a motorised actuation device |
EP13183043.2A Withdrawn EP2703583A3 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device having a bolt push-back device with a spring-loaded bolt actuation pressure piece |
EP13183050.7A Active EP2703585B2 (en) | 2012-09-04 | 2013-09-04 | Passive wing locking device with an actuation rod arrangement having a manipulation protection device |
Country Status (3)
Country | Link |
---|---|
EP (4) | EP2703584B1 (en) |
ES (1) | ES2700546T3 (en) |
PL (2) | PL2703584T3 (en) |
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EP2703584B1 (en) | 2012-09-04 | 2020-02-12 | ASSA ABLOY Sicherheitstechnik GmbH | Passive wing locking device with a motorised actuation device |
DE102014225813A1 (en) | 2014-12-15 | 2016-06-16 | Aug. Winkhaus Gmbh & Co. Kg | Counter lock of a espagnolette lock |
DE102015000605A1 (en) * | 2015-01-16 | 2016-07-21 | Assa Abloy Sicherheitstechnik Gmbh | Locking device for a door or a window |
DE102015206417B4 (en) | 2015-04-10 | 2020-01-16 | Geze Gmbh | switch lock |
DE102015111334A1 (en) * | 2015-07-13 | 2017-01-19 | Pax Ag | Frame for a window or a door |
DE202015103708U1 (en) * | 2015-07-15 | 2015-08-25 | Heinrich Strenger GmbH & Co. KG | Canister with electric motor |
DE102016225010A1 (en) * | 2016-12-14 | 2018-06-14 | Geze Gmbh | Locking arrangement for a two-leaf door |
DE102017208721A1 (en) | 2017-05-23 | 2018-11-29 | Geze Gmbh | Counter box for a panic door lock |
AT16183U1 (en) * | 2017-08-03 | 2019-03-15 | Roto Frank Ag | lock |
EP3543437B1 (en) * | 2018-03-22 | 2020-10-07 | dormakaba Deutschland GmbH | Lock assembly with a lock for a corridor winged door |
EP3543439B1 (en) * | 2018-03-22 | 2024-01-24 | dormakaba Deutschland GmbH | Method for a lock assembly |
EP3543965B1 (en) | 2018-03-22 | 2022-07-06 | dormakaba Deutschland GmbH | Lock assembly and method for the examination of a lock assembly |
EP3543438A1 (en) * | 2018-03-22 | 2019-09-25 | dormakaba Deutschland GmbH | Closing system with at least one lock bar |
EP3702557B1 (en) * | 2019-02-28 | 2022-01-12 | Talleres de Escoriaza, S.A.U. | Counter lock for an inactive leaf of a double door |
IT201900010287A1 (en) * | 2019-06-27 | 2020-12-27 | Prefer Srl | GROUP-LOCK FOR WINDOWS |
DE102022100121A1 (en) | 2022-01-04 | 2023-07-06 | Assa Abloy Sicherheitstechnik Gmbh | Self-locking lock with motorized unlocking |
DE102022106474A1 (en) | 2022-03-21 | 2023-09-21 | Gu Automatic Gmbh | Device for locking a door leaf |
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Also Published As
Publication number | Publication date |
---|---|
ES2700546T3 (en) | 2019-02-18 |
EP2703583A2 (en) | 2014-03-05 |
EP2703585B1 (en) | 2019-09-04 |
EP2703585A3 (en) | 2015-03-11 |
EP2703584B1 (en) | 2020-02-12 |
PL2703586T3 (en) | 2019-03-29 |
EP2703586A3 (en) | 2015-03-11 |
EP2703584A2 (en) | 2014-03-05 |
EP2703585B2 (en) | 2022-11-16 |
EP2703583A3 (en) | 2015-03-11 |
EP2703586A2 (en) | 2014-03-05 |
EP2703584A3 (en) | 2015-03-11 |
EP2703585A2 (en) | 2014-03-05 |
PL2703584T3 (en) | 2020-08-24 |
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