EP1842990B1 - Dispositif de contrôle d'accès électronique - Google Patents
Dispositif de contrôle d'accès électronique Download PDFInfo
- Publication number
- EP1842990B1 EP1842990B1 EP07007093.3A EP07007093A EP1842990B1 EP 1842990 B1 EP1842990 B1 EP 1842990B1 EP 07007093 A EP07007093 A EP 07007093A EP 1842990 B1 EP1842990 B1 EP 1842990B1
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- EP
- European Patent Office
- Prior art keywords
- access control
- coupling
- lock
- security
- lever
- 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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Images
Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/06—Controlling mechanically-operated bolts by electro-magnetically-operated detents
- E05B47/0676—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle
- E05B47/0684—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle radially
- E05B47/0692—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle radially with a rectilinearly moveable coupling element
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B47/0002—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with electromagnets
- E05B47/0006—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with electromagnets having a non-movable core; with permanent magnet
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B63/00—Locks or fastenings with special structural characteristics
- E05B63/04—Locks or fastenings with special structural characteristics for alternative use on the right-hand or left-hand side of wings
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- G—PHYSICS
- G07—CHECKING-DEVICES
- G07C—TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
- G07C9/00—Individual registration on entry or exit
- G07C9/00174—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
- G07C9/00309—Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated with bidirectional data transmission between data carrier and locks
Definitions
- the present invention provides for an electronic access control device for a closure panel, the electronic access control device having an authentication circuit and actuator that allow access only to authenticated users.
- the present invention relates also to a device and method, in particular for actuating the electronic access control device between a coupled and decoupled state, wherein a security apparatus prevents switching between the states when an external magnetic field is applied.
- key-operated locking mechanical systems may provide adequate protection in most situations, there are some drawbacks associated with their use. Firstly, keys for the most part can be easily copied and distributed to unauthorized users. Also, if the key is ever lost or stolen, it might be necessary to replace the whole lock cylinder in order to assure that an unauthorized user does not gain access. This can be a significant disadvantage in some cases. For example, it could be costly and rather inconvenient for a business location having many employees to replace a lock cylinder each time an employee loses his key.
- U.S. Pat. No. 5,447,047 discloses a keyless entry deadbolt locking system wherein an electronic access control means, in the form of a decoding means, is located next to the knob on the outside of the door.
- a coil is energized such that a rod is moved rightward and the extensions of the rod are caused to engage with grooves of a disc whereby a shaft can be rotated and the door can be opened.
- the deadbolt offers security against prying, one of the disadvantages of this locking system is that the electronic access control means can be accessed from the outside, and thus can be tampered with.
- German Patent 198 51 308 describes a locking system for a door wherein the access control means is located within a knob on the inside of the door.
- the electronic access control means comprises a wireless data signal receiver which receives signals transmitted from a remote transmitter operated by a user. Once an authorized signals is recognized by the access control means, a solenoid is activated to control a coupling element which in turn allows the lock to be moved in a locked or unlocked position using a knob on the outside of the door. Since the remote transmitter transmits data signals using an alternating magnetic field, data signals can be transmitted with acceptable reception quality through even highly secure metal laminated doors. This allows the access control means to be placed on the inside of the door where it would be protected against tampering from the outside.
- U.S. Pat. No. 5,531,086 discloses a keyless entry deadbolt lock arrangement for a door wherein the access control means is located within the door.
- the deadbolt lock arrangement can be opened manually by inserting a key or operating a switch, or opened remotely by using a RF (radio frequency) remote controller to activate an actuator that places the lock in a locked or unlocked position. Since reception of the wireless signal by the access control means located within the door can pose a problem depending on the type of door, the top portion of the housing containing the locking cylinder is provided with openings in order to permit better reception of the signal transmitted by the remote transmitter.
- U.S. Pat. Appl. No. 2004/0255628 describes an electronic lock system with improved lock and transponder for securing a door that is easy to install and can easily be retrofitted.
- the keyless electronic door lock system has an access control means which is located within the cylinder body of the lock.
- DE-C-37 42 189 discloses a lock cylinder, the coupling of which is connected to the locking bit and can be brought into engagement on one side with a bossed shaft.
- the bossed shaft be enclosed by a locking sleeve which can be displaced axially by the coupling and secured in certain positions.
- EP-A-1 072 741 discloses a lock cylinder, in particular, an electronic lock cylinder with electromechanical rotational blocking in which the electronic key has opposing electrical terminals on the shaft and the rotatable core of the lock cylinder has an external annular track that is electrically conducting, and with its inner face, communicates with an electrical contact supported on the terminal whereas the external annular track is supported in the electrical brushes of the external and internal rotors.
- EP-A-0 743 411 discloses a lock device in which the key of the lock device comprises a code transmitter formed by a transponder.
- An actuator, a transponder reading device, and a power supply device are arranged in the cylinder housing of the lock cylinder of the lock means.
- the actuator serves for displacing a locking means which locks or releases the cylinder core and which engages at the circumference of the cylinder core.
- EP-A-1 079 050 discloses a lock means comprising a lock bit being blockable by a locking mechanism, wherein a coupling is arranged between the blocking mechanism and the lock bit.
- the coupling can be separated from only one side of the lock means.
- the lock means should thus be unlockable from this side without any access authorization for the locking mechanism.
- EP-B-0 805 905 discloses a closing mechanism for a door comprising a spindle, an actuating means turning the spindle, a locking element in functional connection with the spindle to lock the door, and a coupling element fitted in the actuating means and acting on the rotation of the spindle.
- the coupling element moreover has a pin which moves to and from axially to the spindle and which can be moved to and fro via a spindle by means of a locking element arranged independent of the actuating means via an electric motor drivable by means of an electronic control in order for either to transmit the rotation of the freely rotatable actuating means to the spindle or, in the case of an actuating means, being rigidly connected with the shaft to allow only a slight rotation of the actuating means connected with the shaft.
- a cam is formed on the pin and a spiral spring is clamped as a force storage means between the cam and the spindle of the electric motor, and on the front surface of the actuating means a contact disk is provided via which the electronic control from an electronic information carrier can be controlled via data exchange.
- U.S. Pat. Appl. No. 10/705.021 published as 2005/0050929 describes an electronic lock that requires relatively little energy for shifting the coupling or lock element.
- the coupling mechanism is shifted into the coupled and decoupled states by a bi-stable actuator that is powered by batteries.
- the actuator rotates to move a coupling locking element into a position where it causes the lock to be in a coupled state.
- the coupling locking element moves in a linear direction.
- the coupling locking element allows for the rotational force from the exterior knob to be transferred to the latch in order to open the door.
- the decoupled state the rotational force from the exterior knob is not transferred to the latch.
- U.S. Pat. Appl. Neo. 10/556.012 describes an electronic lock with a coupling locking element that is positioned between two reel elements in the coupled state so that reels can overcome the mechanical potential of a take-off, and thereby cause the latch to operate.
- the coupling locking element In the decoupled state, the coupling locking element is not positioned between the reels, and the reels cannot overcome the mechanical potential of the take-off.
- DE 100 65 155 discloses a coupling arrangement in a lock cylinder with coupling elements for a first rotating part which engage in coupling openings of a second rotating part and are held there as a result of a radial rear support by a control element displaceable from a first operating position corresponding to a coupled position into a second operating position corresponding to an uncoupled position.
- the control element is a bolt displaceable in an axial direction of the rotating parts.
- the coupling locking element In the decoupled state, the coupling locking element is not positioned between the reels. interface and/or actuator may not be configured to handle the stress of the forces exerted by the user, especially when excessive force is exerted through a lever.
- the transmission of forces to the drive or actuator can result in increased wear and reduced functional safety.
- building codes may require that locks have levers, and levers can transmit large amounts of torque to a lock.
- Low-energy electronic lock mechanisms may not be strong enough to handle the torque from a lever without breaking or wearing down.
- Electronic access control devices may be susceptible to tampering, especially when the lock circuitry and/or actuator are/is located within the exterior handle.
- Electronic locks utilizing magnetic/electromagnetic actuators should be secured against tampering by an applied external magnetic field.
- an electronic access control device for a lock including a latch, a force transfer member and a coupling apparatus, the coupling apparatus coupling the force transfer member to the latch in a coupled state, the force transfer member not coupled to the latch in the decoupled state
- the electronic access control device comprising: an authenticator circuit; and an actuator comprising an actuator lever, a armature and a coil; wherein the authenticator circuit provides an electrical current to the coil to magnetize and demagnetize the armature to place the actuator lever in the coupled state and decoupled state, respectively.
- the present invention provides an electronic access control device suitable for a lock, preferably to secure a closure panel, the lock including a latch and a force transfer member.
- the electronic access control device comprises: a coupling apparatus including a blocking member, wherein the coupling apparatus is in a coupled state when the blocking member is in a coupled positioned and the coupling apparatus is in a decoupled state when the blocking member is in a decoupled position, the blocking member biased to the coupled position by a blocking member torsion spring; an authenticator circuit; and an actuator including an actuator lever biased by a lever spring to rotate the blocking member into the decoupled position; wherein the lever spring overcomes the blocking spring in the decoupled state.
- the present invention also relates to coupling cartridge for an electronic lock with an exterior handle, an interior handle, a lock body with a latch, and an access control circuit
- the coupling cartridge comprising: a coupling member with spring ramps that is linked to the lock body so that the coupling member can actuate the latch when rotated; a plurality of camming blocks rotatably coupled to the exterior handle; and a blocking member; wherein the camming blocks can transmit rotation and force from the exterior handle to the coupling member when the blocking member is positioned between the camming blocks and wherein the camming blocks cannot transmit rotation and force from the exterior handle to the coupling member when the blocking member is not positioned between the camming blocks.
- the electronic access control device comprises a security apparatus, the security apparatus comprising: a security arm that can prohibit the lock from changing between the coupled and decoupled states when in a secured state; wherein the magnetic tampering detector actuates the security arm to be in the secured state when an external magnetic field is applied to the lock.
- Figs. 1 and 2 there is generally shown handle set hardware for a lock 10, which makes the lock an electronic door lock or electronic door locking and lever assembly, in accordance with an embodiment of the invention as operatively mounted in a closure panel 12 (shown as a door).
- the lock hardware 10 is constructed in a conventional cylindrical configuration, having interior and exterior handles 14 and 16, respectively, that are cooperatively connected through the closure panel 12 to operatively move and lock a latch member 18.
- the latch member 18 engages a strike plate (not shown) in a door frame (not shown) to secure or release the closure panel 12 for pivotal motion within the door frame in a manner well known in the art..
- the lock hardware 10 is normally in a decoupled state which means that the exterior handle 16 cannot cause the latch member 18 to move.
- the exterior handle 16 may rotate, but this rotation is not coupled to the latch member 18.
- the lock hardware 10 is configured so that the interior handle 14 can always cause the latch member 18 to move so that the closure panel 12 can always be opened from the interior.
- the lock hardware 10 can be a double lock and the interior handle 14 can operate like the exterior handle 16 in the coupled and decoupled states.
- the lock hardware 10 can include only an exterior handle 14 to be used with closure panels enclosing cabinets and drawers.
- an authorization means 20 which can be a transponder 20 as shown in Fig. 1 communicates a wireless data signal 22 to access control circuitry (not shown) of the lock hardware 10.
- the access control circuitry determines whether or not the wireless data signal 22 identifies an authorized transponder. If the transponder 20 is determined to be an authorized device, the access control circuitry causes the lock 10 to change to a coupled state so that the exterior handle 16 can cause the latch member 18 to move to open the door. After a period of time, the access control circuitry causes the lock hardware to return to the decoupled state so that the exterior handle 16 can no longer cause the latch member 18 to move.
- the access control circuitry may also be configured to change from the coupled to the uncoupled state when an appropriate signal is sent from the transponder.
- the verification of an authorization means such as the transponder or some other type of key could occur in the transponder or some other authorization device and the lock 10 can be sent a signal to couple or decouple.
- a transponder can be adapted as a portable device which can be worn and/or carried by a user (i.e. as a credential) as shown in Fig. 1 and/or can be mounted at the door or next to the door and/or within the exterior handle.
- the transponder contains data for authorization and is able to communicate wirelessly and/or passively.
- the transponder can be activated by a user.
- the lock hardware 10 may also be set on a timer to place the lock in the coupled and decoupled state for a certain time in the day.
- a control center could also cause a wireless signal to be sent to couple/decouple the lock 10.
- the access control circuitry can be programmed wirelessly, and can be controlled, programmed, and read out through a wireless network.
- the access control circuitry can be programmed from a programming device, including a central computer, through wireless data exchange, e.g., via Bluetooth, Zigbee, a mobile phone or other wireless technology in the LF or RF frequency band, wherein information stored in the access control circuitry can be retrieved and transmitted to a programming device or a central computer.
- the access control means can be programmed such that the coupling apparatus 36 couples either only temporarily (e.g. 10 seconds after a correct authorization of a user) or switches permanently to the coupled state (until switched back from the coupled to the uncoupled state through the next authorized user) or switches automatically between the coupled and the uncoupled state at predetermined time units (e.g. day / night mode).
- the access control circuitry can contain a processor or processing unit, a memory storage device or memory unit, a power supply (comprising, e.g., a battery and/or an accu and/or a solar cell and/or a fuel cell and/or a piezo-electric device) and/or a communication device (comprising, e.g., an antenna and/or a RFID unit and/or passive reader) configured to send and/or receive non-contact signals (e.g. wireless signals, RFID signals, passive electromagnetic signals).
- the processing unit and the memory unit can be located within the interior handle. Further, the processing unit can compare a received signal of a user requesting access to the data stored in the memory unit and can activate an actuator of an access control device 75 described below to change a coupling apparatus from the decoupled state to the coupled state.
- the antenna or any other communication device for the wireless data exchange can be located within the interior handle and/or within the exterior handle. In a further embodiment the antenna or any other communication device for the wireless data exchange can be located in an interior or exterior rose of the lock 10.
- the antenna can be connected to the processing unit through a wire that is conducted through a connecting element 72 of the coupling apparatus, wherein the antenna is preferably suited to receive and handle signals from common-used passive cards ,e.g., operating at a frequency of 125 kHz or 13,56 MHz.
- the access control circuitry and the communication device are housed within the interior handle 14.
- the communication device can also be housed in the exterior handle 16 and can be wirelessly and/or electrically connected to the access control circuitry by wire(s) run through the lock hardware 10.
- the exterior handle 16 can include a biometric reader or biometric fingerprint sensing unit configured to transmit information to the access control circuitry via a wire or wirelessly.
- the biometric fingerprint sensing unit can be equipped with a processing unit, a memory and a wireless data exchange unit, wherein the biometric fingerprint sensing unit can compare a user's fingerprint with a fingerprint stored in the memory and can send a wireless authorization signal to the access control circuitry in, e.g., the interior handle.
- the exterior handle 16 when the exterior handle 16 is operated a signal is transmitted to an access control circuitry in the interior handle 14, causing the access control circuitry to emit a wireless request signal e.g. to a users credential.
- the exterior handle 16 comprises a capacitive sensor which is able to sense a human's skin, wherein upon detection of a human skin a wireless request signal is emitted.
- the handles 14 and 16 can also have LEDs or other such visual indicators that can be used to indicate the status of the lock hardware 10 and/or access control circuitry.
- a handle set for a cylindrical door lock 10 in accordance with a first embodiment of the present invention can be installed in a door in a conventional manner.
- the door lock 10 has interior and exterior handles 14 and 16, respectively, and interior and exterior roses 24 and 26, respectively.
- the exterior handle 16 is rotatably attached to the exterior rose 26 so that an attack of over-torque on the rose 26 is not transmitted to the handle 16 or the internal components of the lock 10.
- the lock 10 further comprises a latch member 18, a lock body 28 having an exterior flange 30, a lock body interior flange 32, an interior rose spring assembly 34, and a coupling cartridge 36.
- the lock 10 can be installed in a closure panel 12 that has a cylindrical hole (not shown) through the closure panel 12, the openings (not shown) of a cylindrical hole in the closure panel 12 being on the interior face 38 and exterior face 40 of the closure panel 12.
- a latch hole (not shown) in the closure panel 12 extends from the edge 42 of the closure panel 12 to a portion of the door (not shown) that forms a side surface of the cylindrical hole.
- the latch member 18 is first inserted into the latch hole in the closure panel 12.
- the lock body 28 is then inserted into the cylindrical hole in the closure panel 12 so that the exterior flange 30 rests against the exterior face 40 of the closure panel 12.
- the lock body 28 and the latch member 18 mechanically interact with each other in a conventional manner.
- threaded portion 44 of the lock body interior flange 32 is inserted into the cylindrical hole of the closure panel 12 so that the flange 32 rests against the exterior face 40 of the closure panel 12 and so that threading 44 of the lock body interior flange 32 can engage threading (not shown) of the lock body 28.
- the lock body interior flange 32 is then threaded into the lock body 28 so that the lock body 18 is secured in the closure panel 12 and so that notches 46 (one not shown) of the lock body interior flange 32 line up with notches 48 of the exterior flange 30.
- Threaded bosses 50 (one not shown) of the exterior rose 26 are then fed through notches 48 of the exterior flange 30.
- a set screw 62 is then screwed into a set screw receptor 64 in the faceted outer portion 60 so that the handle 14 is secured to the interior rose spring assembly 32.
- the interior rose 24 is then twisted one-quarter turn, concealing the set screw and securing the rose through an interlock between dimples on the rose and grooves in the interior rose spring assembly 32 to complete the lock assembly 10.
- the coupling cartridge 36 can be upon manufacturer permanently left-handed or right-handed.
- the coupling cartridge 36 has an interior end 66 and an exterior end 68.
- the exterior end 68 comprises a piezoelectric speaker spring mount 70 attached to the exterior-most portion of an exterior handle shaft 72.
- the exterior handle shaft 72 comprises a square shaft portion 74 adjacent to where the spring mount 70 is attached and a round shaft portion 76 located interior of the square shaft portion 74.
- the square shaft portion 74 is sized and dimensioned to interfit with a square shaft adapter (not shown) of the exterior handle 16 so that the exterior handle 16 can be rotatably linked to the exterior handle shaft 72, and so that the exterior handle 16 can transfer torque to the exterior handle shaft 72.
- the exterior handle shaft 72 has a hollow center (not shown) configured so that wires may be run through its interior portion.
- the coupling cartridge 36 further comprises an outer coupling member 78 that is coupled to the exterior handle 16 when the lock 10 is in the coupled state and is not coupled to the exterior handle 16 when the lock 10 is in the decoupled state.
- the outer coupling member 78 comprises an octagonal link member 80 that interfits with the lock body 28 so that the octagonal link member 80 can cause the lock body 28 to operate the latch 18 when the outer coupling member 78 is rotated.
- the coupling cartridge 36 further comprises a faceted coupling barrel 82 that has two teeth 84.
- the teeth 84 of the faceted coupling barrel 82 are positioned within two slots 86 of the outer coupling member 78.
- the teeth 84 of the faceted coupling barrel 82 can be rotated to act against two teeth 88 of the outer coupling member 78 so as to cause the outer coupling member 78 to rotate thus causing the latch 18 to operate.
- the orientation of the faceted coupling barrel 82 in relation to the outer coupling member 78 depends on the handedness of the coupling cartridge 36.
- the coupling cartridge 36 comprises a coupling apparatus which comprises a drive and a take-off, wherein the drive is formed essentially by the exterior handle shaft 72 and a force transfer member 83. Further, the take-off is formed essentially by the outer coupling member 78 and the link member 80.
- the link member 80 is a latch actuating means that actuates the latch member 18 to open the closure panel 12.
- the drive 72, 83 is coupled to the take-off 78, 80 wherein a movement of the exterior handle 16 can be transmitted from the drive 72, 83 to the take-off 78, 80 to actuate the latch member 18 to open the door.
- the drive 72, 83 is decoupled from the take-off 78, 80 so that a movement of the exterior handle 16 is not suitable to operate the take-off 78, 80 to actuate the latch member 18 to open the closure panel 12.
- a coupling barrel 82 which forms the coupling element 82 is linked to the take-off 78, 80 and further linked to the interior handle 14, so that, when the interior handle 14 is moved or rotated the movement is transmitted to the coupling element 82 which moves the take-off 78, 80 so that the latch member 18 can be operated when the coupling apparatus 36 is in a coupled or decoupled state.
- the coupling cartridge 36 comprises further an access control circuit cover 90 disposed on the interior end 66 of the coupling cartridge 36 and removably attached to an access control circuit housing (not shown), and covers and/or partially covers components of the access control circuit including an electronic circuit board (not shown), a pair of batteries (not shown), a piezoelectric speaker (not shown), and an antenna (not shown).
- a piezoelectric speaker (not shown), or other such speaker, can be housed within the exterior handle 16.
- the antenna can also be positioned within the exterior handle 16. The elements contained within the coupling cartridge 36 will be discussed hereinafter.
- the coupling cartridge 36 includes an access control device 75.
- the access control device 75 houses the access control circuitry, the actuator, and a linkage system that connects the actuator to a blocking member 300.
- the access control device 75 can move the blocking member 300 to a coupled position and to a decoupled position.
- the blocking member 300 In the coupled position, the blocking member 300 is positioned in between two coupling rectangular camming blocks 77, the camming blocks 77 positioned within the outer coupling member 78.
- Torsion springs 79 are connected to the camming blocks 77 and to a force transfer member 83.
- the torsion springs 79 are positioned within the inner diameter of the force transfer member 83.
- the force transfer member 83 is positioned within the inner diameter of the outer coupling member 78 and within the inner diameter of the faceted coupling barrel 82.
- the force transfer member 83 has rectangular holes 85 that extend through the force transfer member 83 from its inner curvilinear face to its outer curvilinear face.
- the camming blocks 77 are fitted within the rectangular holes 85 of the force transfer member 83 so that the camming blocks 77 are perpendicular to the outer face of the force transfer member 83.
- the camming blocks 77 can slide towards and away from the center of the force transfer member 83.
- the torsion springs 79 force the camming blocks 77 radially outward towards the outer coupling member 78.
- the force transfer member 83 has a notched and toothed end 87 that interfits with a notched and toothed end 89 of the exterior handle shaft 72.
- a retaining ring 91 can be disposed in the notches of the end 87 and end 89 when they are interfitted together to keep the ends 87 and 89 together.
- the exterior handle 16 can cause the exterior handle shaft 72 to rotate, the exterior handle shaft 72 can cause the force transfer member 83 to rotate in the same direction as the exterior handle 16, and the force transfer member 83 can cause the camming blocks 77 to rotate in the same direction as the exterior handle 16.
- the holes 85 and the walls of the holes 85 of the force transfer member 83 are sized and dimensioned so as to transfer force to the camming blocks 77 without allowing the camming blocks 77 to rotate relative to the holes 85 and without allowing the camming blocks 77 to tilt relative to the outer surface of the force transfer member 83. Therefore, the exterior handle 16 is always coupled to the camming blocks 77 so that rotational movement of the exterior handle 16 causes rotational movement of the camming blocks 77 in the same direction.
- an outer coupling member 78 has an interior end 92 and an exterior end 96.
- the octagonal link member 80 is disposed on the exterior end 96 (as shown in Figs. 6 and 7 ).
- the teeth 88 of the outer coupling member 78 are disposed on the interior end 92.
- the outer coupling member 78 has a body 98, four spring mount portions 100, and two coupling walls 102.
- the inner and outer faces of the body 98, spring mount portions 100, and coupling walls 102 are curvilinear.
- the body 98 is generally proximate to the octagonal link member 80.
- the outer diameters of the body 98 and spring mount portions 100 are the same.
- the inner diameter of the body 98 is smaller than the inner diameter of the spring mount portions 100.
- the inner diameter of the coupling walls 102 is larger than the inner diameter of the body 98 and smaller than the inner diameter of the spring mount portions 100.
- the inner and outer faces of the coupling walls 102 are curvilinear.
- Each of the coupling walls 102 has two edges 104 that are defined by generally radial lines from the center of the outer coupling member 78.
- the spring mount portions 100 each include a groove 106, each groove having a mounting slot and a ramp slot formed therein that holds a spring ramp 99 in place (as will be discussed hereinafter).
- the coupling walls 102 include channels 101 in which ramped ends 103 of the spring ramps 99 are positioned, the channels 101 allowing the ramped ends 103 of the spring ramps 99 to be pushed radially outward.
- the teeth 88 extend above the coupling walls 102 and have curvilinear inner and outer faces.
- the outer diameter of the teeth 88 is equal to the outer diameter of the coupling walls 102 and the inner diameter of the teeth 88 is larger than the inner diameter of the coupling walls 102 and is less than the inner diameter of the spring mount portions 100.
- the teeth 88 have edges 108 that are defined by generally radial lines from the center of the outer coupling member 78.
- the spring ramps 99 have a ramp end 103, a ramp portion 112, a curvilinear portion 114, and straight end 116.
- Each spring ramp 99 is positioned within a groove 106 of a spring mount portion 100.
- Each groove 106 includes a mounting slot 110, a groove wall 118, and a ramp slot 120.
- the straight end 116 of the spring ramp 99 extends through the mounting slot 110.
- the curvilinear portion 114 of the spring ramp 99 is adjacent to the inner portion of the groove wall 118.
- the straight end 116 can be bent around the outer portion of the groove wall 118 to mount the spring ramp 99 in place.
- the ramp portion 100 of the spring ramp 99 defines a ramp that begins at the curvilinear portion 114 and extends inward, the ramp ending at the ramp end 103.
- the ramp end 103 extends outward through the channels 101 of the coupling walls 102 so that the spring ramps 99 are not blocked from moving outward by the coupling walls 102.
- the lock 10 is in the decoupled state, which means that the blocking member 300 is not positioned between the camming blocks 77.
- the lock 10 has been handed (as will be discussed hereinafter) so that each of the camming blocks 77 is positioned nearer to one coupling wall 102 than to the other coupling wall 102 when the exterior handle 14 has not been rotated from its default position.
- the torsion springs 79 outwardly push the camming blocks 77 so that they contact a pair of spring ramps 99.
- rotation is transferred to the camming blocks 77 and the camming blocks 77 cam on the spring ramps 99 in the direction of rotation of the exterior handle 14.
- the camming blocks 77 When the camming blocks 77 are rotated toward the nearest coupling wall 102, the camming blocks 77 will cam along the ramp portions 112 of the spring ramps 99. As shown in Figs. 10a and 10b , the ramp portions 112 cause the camming blocks 77 to be forced inward as the camming blocks 77 cam on the ramp portions 112 because the force of the torsion springs 79 is overcome. The camming blocks 77 are not able to overcome the force of the spring ramps 99; therefore, the camming blocks 77 do not contact the edges 104 of the coupling walls 102. The camming blocks 77 can cam over the ramp portions 112 and then can cam along the coupling walls 102.
- the lock 10 is in the coupled state, which means that the blocking member 300 is positioned between the camming blocks 77.
- the lock 10 has been handed (as will be discussed hereinafter) so that each of the camming blocks 77 is positioned nearer to one coupling wall 102 than to the other coupling wall 102 when the exterior handle 14 has not been rotated from its default position.
- the torsion springs 79 outwardly push the camming blocks 77 so that they contact a pair of spring ramps 99.
- rotation is transferred to the camming blocks 77, and the camming blocks 77 cam on the spring ramps 99 in the direction of rotation of the exterior handle 14.
- the camming blocks 77 When the camming blocks 77 are rotated toward the nearest coupling wall 102, the camming blocks 77 will cam along the spring ramps 99 until they reach the ramp portions 112 of the spring ramps 99. As shown in Fig. 12 , the camming blocks 77 are prevented from moving inward by the blocking member 300. Thus, the camming blocks 77 are able to overcome the force of the spring ramps 77 and can cause the spring ramps 99 to be pushed outward. The camming blocks 77 can then contact the edges 104 of the coupling walls 102 thereby transmitting torque to the outer coupling member 78 and causing the outer coupling member 78 to rotate. The rotation of the outer coupling member 78 causes the latch to operate and the door can be opened.
- the camming blocks 77 can transmit torque to the edges 104 of the coupling walls through the spring ramps 77 and thereby cause the outer coupling member 78 to rotate when the lock 10 is in the coupled state.
- the drive 72, 83 and the take-off 78, 80 can be coupled when the blocking element 300 is positioned between the camming blocks 77.
- a movement of the exterior handle 16 can be transmitted from the drive to the take-off to actuate the latch member 18.
- a movement of the drive 72, 83 causes a movement of the camming blocks 77, wherein said movement is not suitable for transmitting a movement from the drive 72, 83 to the take-off 78 so that a transmission of the movement is allowed in the coupled state but not in the decoupled state.
- the take-off is formed essentially by two separate parts, namely the outer coupling member 78 and the link member 80.
- the outer coupling member 78 and the link member 80 can be also formed as one part or in other words can be integrally connected.
- the ends of the camming blocks 77 that contact the spring ramps 99 are generally square.
- the ends of the spring ramps 99 that contact the spring ramps 99 can be square with filleted edges, chamfered, and/or rounded.
- the four spring ramps 99 may be replaced by a single band having four ramped surfaces extending from the band, the ramped surfaces configured to provide ramping like the ramping provided by the spring ramps 99.
- the spring force of the ramped surfaces is not overcome by the camming blocks in the decoupled state, but is overcome by the camming blocks in the coupled state.
- the access control device 75 causes the lock 10 to move between coupled and decoupled states by moving the blocking member 300 between its coupled position and its decoupled position.
- the blocking member 300 has a blocking head 302 and a counterweight head 304.
- the blocking member 300 is in the coupled position when the blocking head 302 is positioned between the camming blocks 77.
- the blocking member 300 is in the decoupled position when the blocking head 302 is not positioned between the camming blocks 77.
- the blocking head 302 is sized and dimensioned to prevent the camming blocks 77 from moving radially inward in the coupled state as discussed hereinabove.
- the blocking member 300 is pivotably connected to the access control body 306, the blocking member 300 having pivot pins 305 and the access control body 306 having pivot pin receptors (not shown). As shown in Fig. 19 , the blocking member 300 is pivotably attached to the right of the camming blocks 77 (closer to the exterior handle 16).
- the blocking member 300 has a spring chamber 310 on the same side of the pivot pins 305 as the blocking head 302.
- the spring chamber 310 is sized and dimensioned to receive and anchor a blocking member torsion spring 312.
- One end of the blocking member torsion spring 312 is anchored in the blocking member 300 and the other end of the blocking member torsion spring 312 is anchored in the access control body 306 so that the blocking member torsion spring 312 biases the blocking member 300 to rotate until the counterweight head 304 rests against a square block 314 of the access control body 306; therefore, the blocking head 302 will be positioned between the camming blocks 77 if the camming blocks 77 have not been moved radially inward so that the blocking head 302 cannot fit in between the camming blocks 77.
- the blocking member torsion spring 312 biases the blocking head 302 to be in the coupled state (to be positioned between the camming blocks 77).
- the access control device 75 includes an actuator assembly 316.
- the actuator assembly 316 comprises an actuator lever 318, a security arm 320, a switch element 322, a yoke 324, and a coil 326.
- the actuator assembly 316 can cause the actuator lever 318 to move into and out of a position where the actuator lever 318 rotates the blocking head 302 of the blocking member 300 out of a position between the camming blocks 77.
- the actuator assembly 316 is configured to transfer enough force to the actuator lever 318 so as to overcome the spring force of the blocking member torsion spring 312 thereby causing the blocking member 300 to rotate in a direction opposite to the direction that the blocking member torsion spring 312 biases the blocking member 300.
- the actuator lever 318 is sized and dimensioned so that it does not inhibit the camming blocks 77 from moving radially inward when it is positioned between the camming blocks 77 (and therefore the blocking head 302 is not positioned between the camming blocks 77).
- the actuator lever 318 is generally U-shaped.
- the actuator lever 318 has a linkage head 328 disposed on the cross portion of the actuator lever 318, the linkage head 328 extending towards the camming blocks 77.
- the ends of the actuator lever 318 are pivotably connected to the security arm 320.
- the actuator lever 318 further includes a spring catch 330 that extends near one end of the actuator lever 318.
- the security arm 320 has a generally rectangular shape and has a security hook 332 extending from the side of the security arm 320 that is nearest to the camming blocks 77.
- the security hook 332 extends in a direction perpendicular to the linkage head 328 of the actuator lever 318.
- the security arm 320 is pivotably attached to the access control body 306 so that it can pivot on a pivot axis (not shown) that is perpendicular to a longitudinal axis (not shown) of the lock 10.
- the actuator lever 318 pivots with the security arm 320.
- the switch element 322 is generally U-shaped with a middle section 334 and parallel end sections 336.
- the middle section 334 is flat and is generally wider than the end sections 336.
- the end sections 334 are flat near the middle section 334 and gradually curve towards their ends so that the switch element 322 can rock on a flat surface.
- the security arm 320 includes a set of recesses 338 sized and dimensioned to receive the ends of the end sections 336 of the switch element 322 and a set of hooks 340 that are sized and dimensioned to grip the middle section 334 of the switch element 322.
- the switch element 322, actuator lever 318, and security arm 320 are arranged to pivot together, with the switch element 322 rocking on the yoke 324.
- a lever spring 342 pushes on the spring catch 330 of the actuator lever 318 so that the actuator lever 318, the linkage hook arm 320 and the switch element 322 are biased towards the yoke 324. Therefore, the linkage head 328 of the actuator lever 318 is biased to be in the decoupled state (i.e. biased to push the blocking head 302 from in between the camming blocks 77). In this decoupled state (as shown in Fig. 18 ), the linkage head 328 pushes on a push nub 344 of the blocking member 300.
- the push nub 344 is disposed on the blocking member 300 so that the blocking head 302 is not positioned between the camming blocks 77 when the linkage head 328 pushes on the push nub 344.
- the access control device 75 can be controlled electronically by the access control circuitry to cause the linkage head 328 of the actuator lever 318 to move from the decoupled state to the coupled state.
- the linkage head 328 In the coupled state, the linkage head 328 is in a position where it does not push the blocking head 302; therefore, the blocking head 302 is positioned between the camming blocks 77 because the blocking head 302 is biased to that position and the linkage head 328 is not forcing the blocking head 302 from that biases position.
- the access control device 75 causes the actuator lever 318 to pivot away from the yoke 324.
- the actuator lever 318 is pivoted away from the yoke 324 when the yoke 324 is magnetized and middle section 334 of the switch element 322 is thereby attracted to the yoke 324.
- the yoke 324 is magnetically enabled, the magnetic attraction of the middle section 334 of the switch element 322 to the yoke 324 overcomes the force of the lever spring 342 and the switch element 322 rocks so that the middle section 334 of the switch element comes into contact with the yoke 324 and the ends of the end sections 336 move away from the yoke 324.
- the switch element 322 thereby moves the actuator lever 318 and security arm 320 thus putting the lock 10 in the coupled state.
- the access control device 75 can switch the lock 10 from the coupled state to the decoupled state by demagnetizing the yoke 324 thus removing the magnetic attraction between the yoke 324 and the switch element 322 so that the lever spring 342 returns the linkage push arm 318, the security arm 320, and the switch element 322 to the decoupled state.
- the yoke 324 is a configured to be demagnetized by AC current (or other such electric current) applied to the coil 326 and magnetized by DC current (or other such electric current) applied to the coil 326.
- the switch element 322 is configured to be attracted to the magnetized yoke 324 with sufficient force to overcome the force of the lever spring 342.
- the access control device 75 only requires power to switch between states thereby prolonging battery life.
- an energized electromagnet can be used to place and hold the lock 10 in the coupled state.
- the lock may also be configured so that a solenoid can also be used to directly move the blocking member 300 in and out of alignment with the camming blocks 77.
- the blocking member 300 can also be moved to and from a position between the camming blocks 77 by an actuator such as an electromotor and/or a shape memory alloy and/or a piezoactuator and/or an electromagnet assembly and/or an actuator configured to transform an electronic signal into a mechanical movement.
- an actuator such as an electromotor and/or a shape memory alloy and/or a piezoactuator and/or an electromagnet assembly and/or an actuator configured to transform an electronic signal into a mechanical movement.
- the access control device 75 further comprises a security assembly that prevents the lock 10 from changing between states when an external magnetic field is applied to the lock 10 in order to secure the lock 10 from tampering.
- the security assembly includes the security hook 332 of the security arm 320, a pair of security plates 346 and 347, and a security lever 348.
- the security lever 348 is pivotably connected to an access control support structure 350, which is connected to the access control body 306, at pivot points 352.
- the security lever 348 can pivot on a pivot axis (not shown) defined by the pivot points 352.
- the security lever 348 includes a camming arm 356 that extends upward from the security lever 348 and to the right of the spring catch 330 of the linkage push arm 318 (as shown in Fig. 20 ).
- the security lever 348 further includes a blocking arm 358 that extends downward from the security lever 348 and to the right of the yoke 324 (as shown in Fig. 19 ).
- the blocking arm 358 includes a blocking bar 360 perpendicularly extending from the end of the blocking arm 358 in a direction away from the yoke 324.
- a spring 362 is disposed between a spring retainer 364 extending from the camming arm 356 of the security lever 348 and a spring retainer 366 of the access control support structure 350.
- the spring 362 biases the security lever 348 so that the blocking arm 358 is to the left of the security hook 332 of the security arm 320 (as shown in Fig. 20 ).
- the blocking bar 360 does not inhibit movement of the security hook 332 in this position, and the lock 10 is said to be in the unsecured state.
- the security hook 332, and therefore, the other parts of the actuator assembly 316 are free to move so as to switch the lock 10 between the coupled and decoupled states.
- the security plates 346 and 347 are generally square and include on one end mounting tabs 368 and 369, respectively, that extend through mounting orifices 370 in the access control support structure 350 so that the security plates 346 and 347 can be sandwiched together (as shown in Fig. 20 ) or can pivot to be separated (as shown in Fig. 22 ).
- the ends of the plates 346 and 347 opposite the mounting tabs 368 and 369 are in contact with a camming surface 372 on the inner portion of the camming arm 356.
- a spring 362 biases the security lever 348 so that the camming surface 372 causes the security plates 346 and 347 to be sandwiched together.
- the lock 10 When an external magnetic force is applied to the lock 10 such as the external magnetic field 458 of a permanent magnet 460, the lock 10 becomes secured against changing states because the plates 346 and 347 become magnetically opposed to each other and are forced apart thereby causing the security lever 348 to move.
- the magnetic field of the yoke 324 and/or coil 326 do not cause the plates 346 and 347 to become magnetically opposed to each other.
- the upper plate 346 cams upward on a curved portion of the camming surface 372 until the plate 346 is blocked from further movement by cam stop of a security fork 374.
- the lower plate 347 cams downward until it is blocked from further movement by a cam stop 376 of the security lever 348.
- the plates 346 and 347 transmit force to the security lever 348 and the force of the spring 362 is overcome.
- the security lever 348 pivots so that the blocking bar 360 of the blocking arm 358 is aligned below or above the security hook 332 of linkage hook arm 320.
- the blocking bar 360 inhibits the security hook 332, either from moving up or down, which means that the lock 10 cannot change between the coupled and decoupled states.
- the lock 10 is in the decoupled state and the blocking bar 360 blocks the security hook from moving up; therefore, the lock 10 cannot change from the decoupled state to the coupled state.
- the lock 10 is in the coupled state and the blocking bar 360 blocks the security hook 332 from moving down; therefore, the lock 10 cannot change from the coupled state to the decoupled state.
- the blocking bar 360 has an angled lower edge 378 that can engage an angled upper edge 380 of the security hook 332 so that the blocking bar 360 is not forced out of alignment with the security hook 332. As shown in Fig. 22 , both the angled lower edge 378 of the blocking bar 360 and the angled upper edge 380 of the security hook 332 angle downward from left to right.
- the edges 378 and 380 come into contact and cause the security lever 348 to be pushed towards the security arm 320 instead of being pushed away.
- the blocking bar 360 has an angled upper edge 382 that can engage a lower edge 384 of the security hook 332 so that the blocking bar 360 is not forced out of alignment with the security hook 332. As shown in Fig. 23 , the angled upper edge 382 of the blocking bar 360 angles upward from left to right. If the security hook 332 is forced downward (as it would be forced to when changing from the coupled state to the decoupled state), the edges 382 and 384 come into contact and cause the security lever 348 to be pushed towards linkage hook arm 320 instead of away.
- the security fork 374 and switch element 322 are configured to provide further protection from tampering by an external magnetic field such as the magnetic field 458.
- the switch element 322 can be attracted to a lower finger 462 of the security fork 374 when an external magnetic field is applied thus preventing switching between the decoupled and coupled states.
- the security assembly can include a mechanical, electromechanical and/or electromagnetic tampering sensor that sends a signal to the access control circuitry when the lock hardware 10 is tampered with by an external magnetic and/or electromagnetic field.
- the access control circuitry can then send a signal to a control center reporting the attempt to tamper with the lock 10 and/or can cause the lock 10 to make an alarm sound.
- handle set hardware 400 in accordance with an embodiment of the invention as operatively mounted in a mortise lock body 402 that is installed in a door 404.
- the handle set hardware 400 is configured to be retrofitted into already-installed mortise locks so that the mortise lock becomes a wireless electronic lock.
- the handle set hardware 400 replaces handles, shafts, spring returns, and other parts of the installed mortise lock.
- the handle set hardware 400 has an exterior handle 406 and an interior handle 408.
- the handles 406 and 408 are individually coupled to a coupling cartridge 410.
- the handles 406 and 408 are not coupled to each other directly thereby preventing a situation where one handle can prohibit the other handle from being actuated.
- the handle set hardware 400 is configured so that interior handle 408 transmits rotational force to a faceted coupling barrel 412. As discussed above with regard to the cylindrical lock 10, when the faceted coupling barrel 412 rotates, it can cause an outer coupling member 414 to rotate.
- the outer coupling member 414 includes a square link member 416 that transmits rotational movement to the mortise lock body 402 thereby operating the latch of the mortise lock body 402 when the outer coupling member 414 is rotated.
- the handle set hardware 400 is further configured so that the exterior handle 406 transmits rotational force to an exterior handle shaft 418 of the coupling cartridge 410.
- the exterior handle shaft 418 transmits rotational movement to the outer coupling member 414 when the handle set hardware 400 is in the coupled state and does not transmit rotational movement to the outer coupling member 414 when the lock 400 is in the decoupled state.
- the mortise lock bodies of different manufacturers have different mounting hole configurations.
- the hardware 400 is configured so that it can be retrofitted with different mortise lock bodies.
- the hardware 400 includes an exterior spring block 420, an interior adapter plate 422, and an interior spring block 424.
- the exterior spring block 420 and interior adapter plate 422 are configured so that the handle set hardware 400 can be mounted to mortise lock bodies of different manufacturers.
- the exterior spring block 420 and interior adapter plate 422 have sets of holes that correspond to the mounting hole configurations of different mortise lock bodies.
- a pair of mounting tubes 426 extend through a set of mounting holes 428 of the mortise lock body 402 and through the corresponding holes in the exterior spring block 420 and interior adapter plate 422.
- the exterior spring block 420 and interior adapter plate 422 are secured to the mortise lock body 402 with a set of bolts 430 that are secured to the mounting tubes 426.
- the interior spring block 424 is then secured to the interior adapter plate 422.
- the remaining parts of the lock 400 can then be secured to the interior spring block 424 and the exterior spring block 420 so that the lock 400 functions in a similar manner to the cylindrical lock 10.
- the exterior spring block returns the exterior handle 406 to its default horizontal position after the handle 406 has been rotated.
- the interior spring block 424 returns the interior handle 408 to its default horizontal position after the interior handle 408 has been rotated.
- the interior spring block 424 is handed by rotating the cover of the interior spring block 424, the exterior spring block 420 is handed by flipping it over in a conventional manner.
- the difference between the coupling cartridge 410 for the mortise lock and the coupling cartridge 36 for the electronic cylinder lock is that the coupling cartridge 410 has a square link member 416 instead of an octagonal link member 80.
- the link members 80 and 416 transmit rotational movement to the lock bodies, which in turn cause the latches to operate.
- the square link member 416 is square because mortise locks are designed to accept square link members or shafts.
- the coupling cartridges 36 and 410 are the same and operate in the same manner as discussed hereinabove with regard to the coupling cartridge 36.
- the coupling cartridge 36 is configured to be easily handed by an assembler before being packaged and/or by an installer during installation.
- the cartridge 36 needs to be handed because the faceted coupling barrel 82 and the camming blocks 77 will cause the outer coupling member 78 to actuate the latch only when rotated in one direction.
- the coupling cartridge 36 has a handing marking 450 on the faceted coupling barrel 82, a handing mark 452 on the round shaft portion 76 of the exterior handle shaft 72, a right-handed marking 454 on one face of the octagonal link member 80 of the outer coupling member 78, and a left-handed marking 456 on one face of the octagonal link member 80 of the outer coupling member 78.
- the coupling cartridge 36 is handed by first lining up the markings 450 and 452 and then by rotating the outer coupling member 78 so that either the right-handed marking 454 is lined up between the handing markings 450 and 452 (as shown in Fig.
- the coupling cartridge 36 is then held in a right-hand or left-hand configuration until it is installed in the lock 10. When installed, the coupling cartridge 36 will remain in the default position until the handles are rotated.
- the faceted coupling barrel 82 is aligned with the outer coupling member 78 so that one tooth 84 of the faceted coupling barrel 82 is positioned adjacent to and on the right of one tooth 88 of the outer coupling member 78.
- the faceted coupling barrel 82 will cause the outer coupling member 78 to rotate (and thereby operate the latch) when the faceted coupling barrel 82 is rotated so that a tooth 84 moves in a direction towards the nearest tooth 88.
- the faceted coupling barrel 82 rotates in the opposite direction (i.e. when a tooth 84 moves away from the nearest tooth 88)
- the faceted coupling barrel 82 does not cause the outer coupling member 78 to rotate because the teeth 84 of the faceted coupling barrel do not engage the teeth 88 of the outer coupling member 78.
- the faceted coupling barrel 82 is aligned with the outer coupling member 78 so that one tooth 84 of the faceted coupling barrel 82 is positioned adjacent to and on the left of one tooth 88 of the outer coupling member 78.
- the faceted coupling barrel 82 will cause the outer coupling member 78 to rotate (and thereby operate the latch) when the faceted coupling barrel 82 is rotated so that a tooth 84 moves in a direction towards the nearest tooth 88.
- the faceted coupling barrel 82 rotates in the opposite direction (i.e. when a tooth 84 moves away from the nearest tooth 88)
- the faceted coupling barrel 82 does not cause the outer coupling member 78 to rotate because the teeth 84 of the faceted coupling barrel do not engage the teeth 88 of the outer coupling member 78.
- each camming block 77 is positioned nearer to one coupling wall 102 than the other, which coupling wall 102 is the nearest depends on the handing of the cartridge 36.
- the camming blocks 77 transmit torque to the outer coupling member 78 only when the camming blocks 77 are rotated toward the nearest coupling wall 102. Otherwise, the camming blocks 77 rotate away from the nearest coupling wall 102, but do not reach the furthest coupling wall 102 so that the outer coupling member 78 is not rotated.
- the coupling cartridge 410 for the mortise lock 400 is the same as the coupling cartridge 36 for the cylinder lock 10 except that the coupling cartridge 410 has a square link member 416 instead of an octagonal link member 80.
- the cartridge 410 is handed in the same manner that the cartridge 36 is handed.
Landscapes
- Lock And Its Accessories (AREA)
- Control Of Transmission Device (AREA)
Claims (16)
- Dispositif de commande d'accès électronique adaptable à une serrure (10), ledit dispositif de commande d'accès électronique comprenant :un dispositif d'accouplement comportant un élément de blocage (300), ledit dispositif d'accouplement (36) étant en état accouplé quand l'élément de blocage (300) est en position d'accouplement et ledit dispositif d'accouplement (36) étant en état désaccouplé quand l'élément de blocage (300) est en position de désaccouplement, l'élément de blocage (300) étant contraint vers la position d'accouplement par un ressort de torsion (312) d'élément de blocage ;un circuit d'authentification ; etun actionneur (316) comportant un levier (318) d'actionneur contraint par un ressort (342) de levier pour tourner l'élément de blocage (300) vers la position de désaccouplement ;où le ressort (342) de levier surpasse le ressort de torsion (312) d'élément de blocage en état désaccouplé.
- Dispositif de commande d'accès électronique selon la revendication 1, où le dispositif d'accouplement comprend en outre au moins un bloc de came (77) pour la transmission d'un couple d'un élément de transfert de force (83) à un pêne (18) de la serrure quand le bloc de came (77) est bloqué par l'élément de blocage (300) en état accouplé, et où l'élément de blocage (300) est dégagé hors de la course du bloc de came (77) en état désaccouplé, de sorte que le bloc de came (77) n'exerce pas de couple entre l'élément de transfert de force (83) et le pêne (18).
- Dispositif de commande d'accès électronique selon la revendication 1 ou la revendication 2, où l'actionneur (316) comporte en outre une armature (324) et une bobine (326) et où le circuit d'authentification fournit un courant électrique à la bobine (326) pour magnétiser et démagnétiser l'armature (324) afin de passer l'actionneur (316) respectivement en état accouplé et en état désaccouplé.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 3, où le levier (318) d'actionneur comprend un élément de commutation (322), ledit élément de commutation (322) étant magnétiquement attiré vers l'armature (324) par une force d'attraction d'armature quand l'armature (324) est magnétisée, la force d'attraction d'armature entraînant le désalignement du levier (318) d'actionneur par rapport à l'élément de blocage (300) pour permettre à l'élément de blocage (300) de se placer en position d'accouplement.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 4, comprenant en outre un mécanisme de sécurité, ledit mécanisme de sécurité empêchant la commutation du levier d'actionneur (318) entre l'état accouplé et état désaccouplé quand un champ magnétique externe est appliqué sur le dispositif de commande d'accès électronique.
- Dispositif de commande d'accès électronique selon la revendication 5, où le mécanisme de sécurité comprend :un bras de sécurité (320) pouvant empêcher la commutation de la serrure entre état accouplé et état désaccouplé en état de blocage ;un détecteur de piratage magnétique actionnant le bras de sécurité (320) en état de blocage quand un champ magnétique externe est appliqué sur la serrure.
- Dispositif de commande d'accès électronique selon la revendication 6, où le mécanisme de sécurité comprend un levier de sécurité (348) contraint vers une position de déblocage où ledit levier de sécurité (348) n'interfère pas avec le mouvement du levier (318) d'actionneur, le levier de sécurité (348) se déplaçant vers une position de blocage où le levier de sécurité (348) empêche le levier (318) d'actionneur de se déplacer entre l'état accouplé et l'état désaccouplé quand un champ magnétique externe est appliqué sur le dispositif de commande d'accès électronique.
- Dispositif de commande d'accès électronique selon la revendication 6 ou la revendication 7, où le mécanisme de sécurité comprend en outre une paire de plaques (346, 347) en contact avec le levier de sécurité (348, 356), et un ressort (362) fixé au levier de sécurité (348, 356) et appliquant une force de ressort pour contraindre le levier de sécurité (348, 356) vers la position de déblocage, les plaques (346, 347) étant disposées adjacentes l'une à l'autre quand le levier de sécurité (348) est en position de déblocage et séparées l'une de l'autre quand le levier de sécurité (348) est en position de blocage, les plaques (346, 347) étant magnétiquement repoussées par une force de répulsion magnétique en présence d'un champ magnétique externe appliqué, la force de répulsion magnétique exercée sur le levier de sécurité (348) étant supérieure à la force de ressort.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 8, où un courant électrique n'est appliqué sur la bobine (326) que pour commuter entre l'état désaccouplé et l'état accouplé.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 9, où le levier (318) d'actionneur est contraint vers l'état désaccouplé par le ressort (342) de levier quand l'armature est démagnétisée, et où la force de ressort est surpassée par la force d'attraction d'armature quand l'armature est magnétisée.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 10, où le circuit d'authentification fournit un courant électrique à la bobine (326) sur la base d'un signal d'authentification reçu.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 11, où le circuit d'authentification fournit un courant continu pour magnétiser l'armature et un courant alternatif décroissant pour démagnétiser l'armature.
- Dispositif de commande d'accès électronique selon l'une des revendications 1 à 12, où ledit dispositif de commande d'accès électronique est un dispositif de commande d'accès électronique pour une serrure verrouillant un panneau de fermeture.
- Cylindre d'accouplement (36) prévu pour une serrure électronique avec une poignée extérieure, une poignée intérieure, un corps de serrure avec un pêne et un circuit de commande d'accès, ledit cylindre d'accouplement comprenant :un élément d'accouplement (78) à rampes élastiques (99) relié au corps de serrure (28) de sorte que l'élément d'accouplement (78) subissant une rotation peut actionner le pêne (18) ;une pluralité de blocs de came (77) solidaires en rotation avec la poignée extérieure (16) ; etun élément de blocage (300) ;les blocs de came (77) pouvant transmettre une rotation et une force de la poignée extérieure (16) à l'élément d'accouplement (78) quand l'élément de blocage (300) est positionné entre les blocs de came (77), et les blocs de came ne pouvant pas transmettre une rotation et une force de la poignée extérieure (16) à l'élément d'accouplement (78) quand l'élément de blocage (300) n'est pas positionné entre les blocs de came (77), et comprenant en outre un actionneur (316) comportant un levier (318) d'actionneur contraint par un ressort (342) de levier pour tourner l'élément de blocage (300) de manière à ne pas être positionné entre les blocs de came (77).
- Cylindre d'accouplement selon la revendication 14, comprenant en outre :un mécanisme de sécurité prévu pour empêcher l'élément de blocage (300) de se déplacer vers une position entre les blocs de came (77) et d'une position entre les blocs de came (77).
- Cylindre d'accouplement selon la revendication 14 ou la revendication 15, comprenant en outre :une pluralité de marques de transfert (450, 452).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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EP10192239.1A EP2290179B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US74426806P | 2006-04-04 | 2006-04-04 |
Related Child Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP10192239.1A Division EP2290179B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
EP10192239.1A Division-Into EP2290179B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
Publications (3)
Publication Number | Publication Date |
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EP1842990A2 EP1842990A2 (fr) | 2007-10-10 |
EP1842990A3 EP1842990A3 (fr) | 2008-03-26 |
EP1842990B1 true EP1842990B1 (fr) | 2018-01-24 |
Family
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EP07007093.3A Active EP1842990B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
EP10192239.1A Active EP2290179B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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EP10192239.1A Active EP2290179B1 (fr) | 2006-04-04 | 2007-04-04 | Dispositif de contrôle d'accès électronique |
Country Status (2)
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EP (2) | EP1842990B1 (fr) |
WO (1) | WO2007113010A2 (fr) |
Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7845201B2 (en) | 2003-05-09 | 2010-12-07 | Simonsvoss Technologies Ag | Electronic access control device |
US8011217B2 (en) | 2003-05-09 | 2011-09-06 | Simonsvoss Technologies Ag | Electronic access control handle set for a door lock |
GB0608227D0 (en) * | 2006-04-26 | 2006-06-07 | Global Biotec Ltd | Access control means |
FI121681B (fi) * | 2009-01-05 | 2011-02-28 | Megalock Oy | Lukon lisälaite |
FI20095694A (fi) * | 2009-01-05 | 2010-07-06 | Megalock Oy | Langattomasti ohjattava sähkölukko |
CN201460433U (zh) * | 2009-02-06 | 2010-05-12 | 闵瑜 | 一种锁的离合器左右互换装置 |
IT1402006B1 (it) * | 2010-10-05 | 2013-08-28 | Leclercq | Dispositivo di comando manuale dell apertura e chiusura della serratura di un serramento |
ES2898625T3 (es) | 2013-03-22 | 2022-03-08 | Utc Fire & Security Americas | Cerradura electrónica segura |
GB2524718B (en) * | 2014-02-13 | 2021-01-13 | Loxal Security Ltd | Door lock |
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GB1452032A (en) * | 1974-01-04 | 1976-10-06 | Goal Kk | Locks |
DE3742189A1 (de) | 1987-12-12 | 1989-06-29 | Zeiss Ikon Ag | Schliesszylinder |
IT1258149B (it) * | 1992-09-15 | 1996-02-20 | Italiana Serrature Affini | Serratura ad abilitazione elettrica |
US5447047A (en) | 1992-09-23 | 1995-09-05 | Taiwan Fu Hsing Industrial Co., Ltd. | Dead bolt of a door lock |
US5322333A (en) * | 1992-10-16 | 1994-06-21 | Emhart Inc. | Cylindrical lockset |
US5531086A (en) | 1994-08-15 | 1996-07-02 | Bryant; Randy K. | Keyless entry deadbolt lock |
ES2145422T3 (es) | 1995-01-24 | 2000-07-01 | Dorma Gmbh & Co Kg | Mecanismo de cierre para una puerta. |
DE19517728C2 (de) | 1995-05-15 | 1998-12-03 | Keso Gmbh | Schließvorrichtung |
DE29703559U1 (de) * | 1996-03-27 | 1997-04-30 | Hainzlmaier, Hermann, 85290 Geisenfeld | Türschloß |
FR2761396B1 (fr) * | 1997-03-27 | 2000-04-28 | Mda Systemes Sa | Serrure a commande electronique |
DE19861400B4 (de) | 1997-11-07 | 2013-08-01 | Simonsvoss Technologies Ag | Schließzylinder |
EP0962610A3 (fr) * | 1998-06-03 | 2002-10-30 | DOM Sicherheitstechnik GmbH & Co KG | Serrure cylindrique |
DE19834691A1 (de) * | 1998-07-31 | 2000-02-03 | Wilke Heinrich Hewi Gmbh | Schließsystem |
EP0999328B1 (fr) * | 1998-11-05 | 2007-01-24 | SimonsVoss Technologies AG | Serrure cylindrique |
DE19854879C1 (de) * | 1998-11-27 | 2000-08-03 | Ulf Klenk | Verschlußeinrichtung für Türen mit integrierter Antenne zur Funkfernbedienung |
ES2205952B1 (es) | 1999-07-27 | 2005-04-16 | Talleres De Escoriaza, S.A. | Cilindro de cerradura. |
DE19940247A1 (de) | 1999-08-25 | 2001-03-08 | Winkhaus Fa August | Schließeinrichtung |
DE10065155B4 (de) * | 2000-12-23 | 2005-11-10 | C. Ed. Schulte Gmbh Zylinderschlossfabrik | Kupplungsanordnung in einem Schließzylinder |
DE10230344B3 (de) * | 2002-07-03 | 2004-01-22 | Dom-Sicherheitstechnik Gmbh & Co. Kg | Manipulationssichere Elektromagnetanordnung, elektronischer Schließzylinder und Verfahren zum Verhindern einer Manipulation einer Elektromagnetanordnung |
US6865916B2 (en) * | 2002-08-28 | 2005-03-15 | Ilan Goldman | Door cylinder lock |
US7113070B2 (en) * | 2003-03-21 | 2006-09-26 | Sheng Bill Deng | Door lock and operation mechanism |
US20040255628A1 (en) | 2003-05-09 | 2004-12-23 | Herbert Meyerle | Door lock system and method |
DE10320873B4 (de) | 2003-05-09 | 2006-02-09 | Simonsvoss Technologies Ag | Bewegungsübertragungsvorrichtung und -verfahren |
GB2412413A (en) * | 2004-03-26 | 2005-09-28 | Pbt | Piezo ceramic actuated clutch in a cylinder lock |
AT7420U3 (de) * | 2004-10-12 | 2005-08-25 | Sitech Sicherheitstechnik Gmbh | Profildoppelzylinder mit deutlich herausragenden zylinderkern |
-
2007
- 2007-04-04 EP EP07007093.3A patent/EP1842990B1/fr active Active
- 2007-04-04 EP EP10192239.1A patent/EP2290179B1/fr active Active
- 2007-04-04 WO PCT/EP2007/003069 patent/WO2007113010A2/fr active Application Filing
Non-Patent Citations (1)
Title |
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None * |
Also Published As
Publication number | Publication date |
---|---|
WO2007113010A3 (fr) | 2007-12-13 |
EP1842990A2 (fr) | 2007-10-10 |
EP1842990A3 (fr) | 2008-03-26 |
EP2290179A1 (fr) | 2011-03-02 |
WO2007113010A2 (fr) | 2007-10-11 |
EP2290179B1 (fr) | 2018-05-02 |
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