EP2372052A2 - Access control device with electromechanical converter - Google Patents

Abstract

The device has a receiving unit for receiving identification data of an electronic key, and an evaluation circuit controlling access authorization based on the data. A converter e.g. electric generator such as rotary generator and linear generator, cooperates with movement of a catch (2) and a knob (3). The catch and knob are movable in a direction relative to a closing device, where the direction corresponds to an opening- and/or closing direction of the closing device. The catch and knob cooperate with the converter such that mechanical energy is partially converted into electrical energy.

Description

The invention relates to a device for access control for a movable between an open and a closed position closing device, in particular door, window od. Like., With a lock member having a lock, a handle for opening and closing the closing device and possibly operating the A locking member, a receiving unit for receiving identification data of an electronic key, an evaluation circuit for determining the access authorization on the basis of the received identification data, wherein the lock is released when the authorization is established or blocked, and a cooperating with the movement of the handle transducer for converting mechanical energy in electrical power.

Electric or electronic locks, in particular cylinder locks usually contain in addition to mechanical locks, which are mechanically lockable with conventional keys, or instead of such a mechanical lock at least one electromagnetically or motor-actuated locking mechanism, which is released only after an electronic identification test. The electronic circuit for identification verification acts here mostly with suitable identification media wireless or wired together, wherein in the electronic evaluation circuit a check is made whether the respective identification medium has the authorization to lock the lock. After successful verification of the identity then the release of the lock takes place.

For power supply of such electrical or electronic interlocks is usually a constant power supply the lock and often also the key required and it is therefore in addition to the cost of such a permanent power supply to ensure that an uninterruptible power supply is available to maintain the function of the castle in any situation.

Electric or electronic locks can now be powered in any way with energy. In addition to the possibility of a mains connection or a backup battery proposals have already become known in which the lock or the key has a converter for converting mechanical into electrical energy. Such transducers are designed, for example, as electric generators and have a magnetic circuit and an induction coil penetrated by its magnetic flux, wherein the magnetic circuit or the induction coil is designed as a movable component and the respective other part as a stationary component. In this case, an induction voltage is induced by the movement of the movably arranged component in the induction system. The movable member may be formed, for example, as a flywheel, as for example from the EP 1039074 A1 has become known. Such a design ensures a self-sufficient energy supply, since the electrical energy generated by the flywheel generator can be temporarily stored in an energy store and, if necessary, provided to the electrical circuit for the identification test or for the electrical actuation of the lock.

Furthermore, it has become known to use separate fittings for energy. Such training is for example the EP 462 316 A1 refer to. In the in this lock cylinder provided electrical locking device, a double lock cylinder is used, which carries on one side a knob. By rotating the knob, the electrical energy is generated, which is in the sequence to deliver the energy required for unlocking an electromagnetically actuated locking pin in a position. In this connection, it has already been proposed to arrange the locking pin in a manner that a predetermined rotational path of the key is made possible without blockage by the electromagnetically actuated locking pin, and it is used in this way a partial path of the rotational movement of a key for power generation.

Further embodiments, in which electrical energy from a rotational movement of the actuating element, such as the door knob or the pusher, is obtained from the DE 102004052802 A1 . FR 2728613 A1 and the US 3733861 A known. A disadvantage of these embodiments, however, is that the user feels an additional resistance when operating the door knob or the pusher due to the coupled with the rotary motion electromechanical transducer, which limits the ease of use.

Furthermore, energy recovery systems are known in the door, for example from the DE 102007032855 A1 in which arise due to the required wiring of the door an additional installation effort and thus an additional source of error.

The invention now aims to improve an access control device of the type mentioned in that the converter system when opening or closing the Locking device, in particular door or window, causes no appreciable additional operating resistance, so that the ease of use is improved. Furthermore, the converter system should be integrable, so that the installation effort is minimized.

To solve this problem, the access control device of the type mentioned is inventively substantially further developed such that the handle or a part thereof in a direction corresponding to the opening and / or closing direction of the closing device is movable relative to the closing device and cooperates with the converter, that acting in the opening and / or closing mechanical energy is converted into electrical energy. According to the invention, the movement of the handle or a part thereof in the opening and / or closing direction of the closing device, in particular the door or the window, ie, due to a movement when opening or closing a door or a window is required anyway. The mechanical energy occurring during the opening and / or closing operation is thus automatically and imperceptibly converted into a corresponding electrical energy, so that the transducer system requires no separate processes or activations. Thus, the inertia or moment of inertia occurring during the opening or closing of a door or window and also a resistance (eg due to the friction of the door suspension) is utilized for the mechanical actuation of the transducer, the user not having any additional resistance when opening or closing felt the door or the window. The fact that the required mechanical energy directly from the door handle or a part thereof removed is successful, a structural integration of the transducer system in the handle, a fitting or the lock, so that no additional cabling is required.

The direction of movement of the handle or the part thereof extends at a pivotable closing device, such as e.g. at a stop door substantially normal to the door leaf. In a displaceable closing device, such as e.g. in a sliding door, however, the direction of movement of the handle or the part thereof is substantially parallel to the door leaf.

The handle of the locking device does not necessarily require a structural adaptation in the context of the invention, but only care must be taken that a mobility in the opening and / or closing direction is present. Thus, conventional handles can be used. Preferably, it is provided in this context that the handle is designed as a knob or pusher.

The converter is designed in particular as an electromechanical converter. An advantageous development provides, for example, that the converter is formed by an electric generator. It can be a rotary generator or a linear generator.

According to a preferred development, it is provided that the converter comprises a coil and a bar magnet which at least partially dips into the clear cross section of the coil, wherein the bar magnet and the coil are displaceable relative to each other. When the bar magnet is made relatively long with respect to the diameter of the coil, it increases During a relative movement between magnet and coil, the flux change, so that in the coil, a higher voltage is induced.

Of course, other converter configurations are conceivable. In order to subject as few restrictions as possible to the selection and the arrangement of a suitable type of transducer, it is advantageously provided that a transmission for converting the movement of the handle or a movable part thereof in the opening and / or closing sense into a transverse direction or into a rotation is provided. With the help of the transmission can be made at the same time, if necessary, a translation, more rarely a reduction of the same from the handle and a part of the movement in the opening and / or closing direction. For example, in a transmission designed as a path converter, a rather shorter displacement path of the handle can be converted into a longer displacement path so that the electrical converter can supply sufficient electrical energy. In general, it is desirable to keep the displacement of the handle relative to the closing device for driving the transducer as low as possible, so that the user is not aware of any significant difference in handling compared to a conventional locking device. In this context, an embodiment is preferred in which the transmission comprises a force or torque conversion. Due to the inertia of a corresponding mass of the door or the window or due to a friction (eg in the door hanger) for opening or closing the door or the window, a relatively high force is required, the invention benefits for the operation of the converter will, so easily a force or torque conversion can be done in favor of a longer actuation path of the converter.

Advantageously, the transmission cooperates with a flywheel generator.

According to an alternative development, it is provided that the converter is formed by a piezoelectric element. Piezo elements are particularly preferred in the context of the present invention, with regard to the relatively high required by the inertia and the frictional resistance of the closing device opening or closing force and the desired low displacement of the handle.

In order to achieve an automatic retrieval after a displacement of the handle or the movable part of the same, it is advantageously provided that the handle or the movable part of the same from its initial position against the force of a spring or against a magnetic force is displaceable.

One associated with a particular ease of use preferred development provides that the movement of the handle or the movable part of the same is damped by a damping element. Particularly a damped return movement of the handle feels the user as pleasant.

The electrical energy emitted by the transducer can be made available directly to a circuit of the access control device, for example, to query the electronic identification code of an electronic key at the moment of actuation of the handle and evaluate. The converter can preferably provide various electronic components of the lock with electrical energy, such as the receiving unit, the evaluation circuit and / or an electric actuator for releasing or blocking the lock. Additionally or alternatively, the converter can feed an energy store, in particular an accumulator or capacitor, so that the electrical energy is available independently of the time of actuation of the handle.

Basically, it should be noted that the inventive construction of the transducer system in which the movement in the opening and / or closing direction of the handle handle or a movable part thereof is used for energy conversion, with the conventional operation of transducer systems, in which the pivoting of the handle for the Energy conversion can be combined. It can therefore both the introduced due to the pivoting or rotating the handle mechanical energy and the introduced due to the pressing or pulling of the handle in the sense of an opening or closing movement mechanical energy using at least one suitable transducer into electrical energy become.

The invention will be explained with reference to embodiments schematically illustrated in the drawing. In this show Fig. 1 a fitting in side view, Fig.2 a lock cylinder with pommels attached on both sides and Figure 3 a lock cylinder with knob attached to one side.

In Fig.1 is denoted by 1 a fitting which is attached to both sides of a door, not shown.

On one side of the door, the actuator for opening the door of a pawl 2 and on the opposite side of a knob 3 is formed. Depending on whether it is an outwardly or inwardly opening door, this opens in one or the other of the direction indicated by the double arrow 4 directions. To open the door, the knob 3 must be turned or the pawl 2 is depressed and subsequently pressed the door in the appropriate direction or pulled. The actuator is displaced in an initial gripping by the user in the opening direction relative to the fitting or to the door leaf and takes usually only after completion of limited by the stop relative movement the door leaf in the opening direction. Characterized in that the actuating element is arranged to be movable in the direction of the double arrow 4, the mechanical energy which acts on the actuating element can be forwarded in a simple manner, in order subsequently to be converted into electrical energy. This electrical energy can either be stored in an accumulator 6 or be made available directly to an electric lock cylinder 5.

The pawl 2 and the knob 3 are each rotatably connected to a bolt 14, the rotation causes actuation of the case, wherein in each case an electrically actuated clutch 15 is provided, so that the case can only be operated in the case of electronically detected access authorization.

In Fig.2 is again denoted by 5 a lock cylinder which is provided with a knob 3 ', 3 "to each side of the lock cylinder 5. The knobs are in this case in the direction of Double arrow 4 arranged to be movable relative to the lock cylinder. When moving the knob 3 ', a coil 7 rotates in the magnetic field of a magnet 8, wherein a current is induced. To translate the movement, a gear 9 is provided. With a suitable choice of the translation in the transmission 9, the electromechanical transducer can be very well adapted to the energy requirements of each lock. If, for example, a piezo element is used instead of the induction loop to obtain the electrical energy, the displacement or force conversion is selectable such that large forces act on the piezocrystal over a short path, which can be achieved by a correspondingly reducing transmission. The energy thus obtained can in turn be stored in an accumulator 6 or equal to the evaluation circuit for determining the access authorization. The knob 3 "may also be associated with a transducer (not shown) The knob 3" is additionally held with a tension spring 10, so that the knob 3 "is automatically returned to its original position after moving in one of the directions of the double arrow 4. In principle, a swinging mounting of the knob 3 "is conceivable, so that after releasing the knob due to the oscillating motion additional electrical energy is generated, which in turn can be stored in the accumulator 6.

In Figure 3 a lock cylinder 5 is shown with a knob 3 "'fixed on one side thereof, which is again movable in the direction of the double arrow 4. The electromechanical transducer is here formed by a bar magnet 11 and a coil 12, the coil 12 with the knob 3 '' connected and thus in the direction of the double arrow 4 relative to the lock cylinder 5 is movable and the bar magnet 11 with the lock cylinder 5 is rigidly connected and thus immovable in this direction. At the end of the bore of the knob 3 "', in which the coil 12 is received, another magnet 13 in the knob 3"' is arranged, which is poled so that the bar magnet 11 and the further magnet 13 repel and the knob third By selecting the thickness of the bar magnet 11 and the number of turns of the coil 12, the recovered electric energy can be easily adjusted to the lock consumption.

Claims (12)

Access control device for a closing device movable between an open and a closed position, in particular a door, window or the like, with a lock having a locking member, a handle (2, 3) for opening and closing the locking device and possibly actuating the blocking element a receiving unit for receiving identification data of an electronic key, an evaluation circuit for determining the access authorization on the basis of the received identification data, wherein the lock is released or locked when the authorization is established, and a with the movement of the handle (2, 3) cooperating converter (7 , 8, 11, 12) for converting mechanical energy into electrical energy, characterized in that the handle (2, 3) or a part thereof in a direction corresponding to the opening and / or closing direction (4) of the closing device relative to the Closing device is movable and with the transducer (7, 8; 11, 12) cooperates in such a way that a mechanical energy acting in the opening and / or closing direction (4) is at least partially converted into electrical energy. Apparatus according to claim 1, characterized in that the handle as a knob (3) or pusher (2) is formed. Apparatus according to claim 1 or 2, characterized in that the transducer (7, 8, 11, 12) is formed by an electric generator. Device according to claim 1, 2 or 3, characterized in that the transducer comprises a coil (12) and a bar magnet (11) immersed at least partially in the clear cross-section of the coil (12), the bar magnet (11) and the coil ( 12) are displaceable relative to each other. Device according to one of claims 1 to 4, characterized in that a transmission (9) for converting in the opening and / or closing direction (4) movement of the handle (2, 3) or a part thereof in a transverse direction or in a Rotation is provided. Apparatus according to claim 5, characterized in that the transmission (9) cooperates with a flywheel generator. Apparatus according to claim 5 or 6, characterized in that the transmission (9) comprises a force or torque conversion. Device according to one of claims 1 to 7, characterized in that the transducer is formed by a piezoelectric element. Device according to one of claims 1 to 8, characterized in that the handle (2, 3) or the movable part of the same from its initial position against the force of a spring (10) or against a magnetic force is displaceable. Device according to one of claims 1 to 9, characterized in that the movement of the handle (2, 3) or the movable part thereof is damped by a damping member. Device according to one of claims 1 to 10, characterized in that the converter (7, 8; 11, 12) supplies electronic components of the lock with electrical energy, such as the receiving unit, the evaluation circuit and / or an electrical actuator for releasing or Lock the lock. Device according to one of claims 1 to 11, characterized in that the converter (7, 8; 11, 12) feeds an accumulator (6) or capacitor.

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