EP1739631A1 - Modular cylinder lock - Google Patents

Abstract

The cylinder has reading units (27, 29) with an input unit to enter input and a receiving unit to receive input signals. The reading units with the input and receiving units are arranged such that they are spatially separated from evaluation electronics (17) in knobs (25, 26). Each knob is connected with a knob shaft (14) in an electrically and mechanically detachable manner. The electronics is arranged in a housing and in the shaft. The reading units generate an access signal from the input or the input signal, where the access signal is evaluated by the electronics.

Description

The invention relates to a lock cylinder with a lock cylinder housing, in which on one or both sides a knob rotatable knob shaft is rotatably mounted, and with at least one electromechanically operating coupling means, which connects a closing element rotationally fixed to the knob shaft due to a permission signal and / or releases the knob shaft, to actuate a lock, which authorization signal is generated by a transmitter due to an input or an input signal. Alternatively, the closing element of the lock cylinder can be actuated on one side or on both sides by a lock core which can be rotated by means of a key. Also, the invention relates to a lock cylinder which is operable on one side with a knob and from the other side with a key.

The unilaterally actuable lock cylinder may be formed as a half cylinder. In the case of a lock cylinder which can be actuated on both sides, a lock core or a knob shaft can always be mechanically connected or connectable to the lock element. In this case, a purely mechanical knob can be combined with an electromechanical working lock core in a lock cylinder and vice versa.

Such lock cylinders are well known. Frequently, the arrangement is such that the input signal is detected by means of an antenna, which is a transponder in a key, chip or similar token carried by the person requesting entry. The received input signal contains the access code, which is evaluated by the transmitter. In the case of an access authorization, an authorization signal is generated, which activates an electromechanical coupling means. The coupling means causes a rotationally fixed connection between the closing element, for example a closing lug, and the knob or key or releases the knob shaft or the lock core. An actuation of the lock or a switch or the like is then possible with the lock cylinder.

The DE 199 30 054 A1 describes an electromechanical lock cylinder operable from one side with a key and from the other side with a knob. In detail, the arrangement is such that the key carries a transponder whose signal is received via an antenna on the lock cylinder housing and evaluated by an evaluation in the knob. The DE 198 51 308 C2 discloses a lock cylinder operable on both sides by a knob. The transmitter and the antenna for receiving a wirelessly transmitted signal are arranged in the knob on the inside of the door. From the EP 1 256 671 A2 It is known to arrange the evaluation electronics in a rosette.

All known designs of electromechanical lock cylinders have in common that, in particular, the evaluation electronics, the antenna and the coupling means form a unit with respect to the data flow and the signals to be transmitted, which units can not be separated from one another. This means that for different reading system or detection systems or different data transmission techniques between tokens and lock cylinder with different sensors and / or frequencies and / or ranges, always a complete lock cylinder with adapted to the detection system evaluation and must be kept ready. The same applies to other types of input, for example, the provision of a biometric sensor, a keyboard or a simple push-button for internal pats. Again, depending on the choice of the desired actuation release a complete lock cylinder must be kept with appropriately adapted evaluation electronics. If the technology of entering or entering the access code changes, especially the evaluation electronics must be adapted to it. It is obvious that this requires a high manufacturing, development and storage costs.

The invention has the object of providing a lock cylinder of the type described in such a way that a flexible production and assembly of a lock cylinder is possible.

The object is achieved in a actuatable by at least one knob lock cylinder according to the invention in that at least one reading unit with an input unit for detecting the input and / or a receiving unit for receiving the input signal is present that the reading unit with the input and / or Receiving unit is arranged spatially separated from the transmitter in at least one knob, that the knob is electrically and mechanically releasably connected to the knob shaft, and that the reading unit generated from the input or the input signal evaluable by the transmitter access signal.

In an actuatable by at least one key lock cylinder is provided to solve the problem that at least one reading unit with an input unit for detecting the input and / or a receiving unit for receiving the input signal is present that the reading unit with the input and / or receiving unit spatially is arranged separately from the transmitter in a component which is electrically and mechanically detachably mounted in or on the cylinder housing, and that the reading unit from the input or the input signal generates an evaluatable by the transmitter access signal.

In a lock cylinder which can be actuated by a knob from one side and by a key from the other side, the object is achieved in that a first and a second reading unit each having an input unit for detecting the input and / or a receiving unit for receiving the input signal are present, that the first reading unit with the input and / or receiving unit is arranged spatially separated from the evaluation in the knob, which is electrically and mechanically releasably connected to the knob shaft, that the second reading unit with the input or receiving unit spatially separated is arranged by the transmitter in a component which is electrically and mechanically detachably mounted in or on the cylinder housing, and that the reading units each generate from the input or the input signal evaluable by the transmitter access signal.

If the reading unit cooperates with a key which fits into the lock core, the input signal will often be transmitted from the key to the reading unit. When the reading unit is located in the knob, the input signal will often be transmitted from a token such as a key fob or smart card.

The separation of the reading unit from the evaluation unit has the advantage that always the same evaluation can be used. Preferably, a standardized access signal is generated by the reading unit. However, it can also be provided that the transmitter is programmable to evaluate various access signals. The assembly comprising the transmitter and also the lock cylinder housing with the coupling means can always remain the same regardless of the manner of generating and detecting the input signal. An exchange of technically adapted to the ambient conditions and optimized data transmission systems or a change to other types of input is readily possible.

The knob or the component that carries the reading unit is disassembled for this purpose and the required signal lines for the access signal and the lines for the power supply of the reading unit, if necessary, are disconnected. A knob or a component with another reading unit is re-inserted in reverse order. In this context, it is favorable and, in particular, also obvious that the access signal generated by the reading unit does not readily lead to the authorization signal. Rather, it must be avoided that, for example, by installing a Knobs from a first lock cylinder to another lock cylinder now also this would be open.

For this purpose, it can be provided that the reading unit transmits an identification code with the access code. It can also be provided that an identification code must be transmitted during the installation of a reading unit or must be retrieved by the evaluation electronics. By the identification code, the reading unit of a specific evaluation and thus a specific lock cylinder is assigned uniquely. Only when the identification code on the one hand and the access signal on the other hand are correct, the authorization signal is generated. This prevents a simple replacement of the reading units for unauthorized actuation of locks.

The type of reading unit and that of the optionally present sensor or the antenna can therefore be arbitrary. Thus, the reading unit may comprise an antenna for detecting a wirelessly transmitted input signal. Preferably, the antenna is part of a transponder system and serves to excite the passive transponder in the token.

It is also possible for the reading unit to have a biometric sensor for scanning at least one biometric feature. The reading unit may also have at least one electrical contact via which the input signal is transmitted. The electrical contact may be, for example, a touch sensor. Furthermore, the reading unit may comprise a keyboard via which the input is made. The access signal generated in each case always has a data record with an access code, which is provided by the Evaluation can be evaluated and is recognized or not recognized.

Finally, it is possible that the reading unit is a key switch. Again, by pressing the button an access signal and possibly an identification code can be generated with a record that leads to a release only if this record is stored as permitted in the transmitter. Abuse by simply exchanging knobs requiring coded input or receiving coded signals with a knob carrying a push-button is therefore not possible.

In any case, it is expedient if a preprocessing of the received input signal or of the input takes place in the reading unit. In particular, a preparation of the biometric features can be made into evaluable data records. It can thus be generated an access signal that can be evaluated directly in the evaluation electronics for generating the authorization signal. The transmitter can then be adapted to the access control, while in the reading unit, a processing of the read data is performed. Here, the advantage of separating these modules is particularly clear.

Preferably, the lock cylinder and its components are constructed in a modular manner. It can be provided that the lock cylinder housing for receiving a knob shaft or a lock core is formed on one or two sides. It may also be expedient if the lock cylinder housing offers space for mounting the mounting part on both sides. This is achieved that the basic body can always be made similar. Different installation lengths can be made by known spacers or spacers between the opposite shots for lock core or knob shaft.

If on one or the other side no component with the reading unit in the lock cylinder housing needs to be mounted, since there is for example a knob or a purely mechanical lock core is provided, a blind cap can be provided which closes the room. Thus, the housing and the transmitter are the same for a variety of lock cylinders. The production costs and also the storage are simplified. Above all, it is not necessary to change the entire evaluation when changing the input type. The adaptation takes place in the reading unit.

The reading unit and the evaluation electronics are powered by a grid-independent power source with energy. If data signals or energy flows are to be transmitted between mutually movable assemblies, slip ring contacts are suitable. The slip rings are preferably in the interior of the lock cylinder housing, so that the contact surfaces are not accessible from the outside or not exposed, for example, when changing the knob. The signal and data transmission can take place via a further line, which also comprises a slip ring contact between the mutually rotatable modules. Again, the advantage of the invention becomes clear. It is no longer necessary to transmit a sensitive antenna signal in the lock cylinder to the transmitter, which poses problems with regard to the shielding. Rather, the signal can be converted by the reading unit, for example, in a digital signal and / or amplified. This makes easier, better and safer data transfer possible.

It may be expedient if the reading unit in the knob is powered by a separate energy source in the same or the opposite knob. It can also be provided that the reading unit in the detachable component is supplied with energy by a separate energy source in the shooting cylinder housing and / or in the component. The power source can then be tuned to the reading unit. Also, power source for the transmitter can be designed to be correspondingly smaller. Through this distribution of components and energy sources, the cramped space in such lock cylinders can be better utilized.

Where the transmitter is housed in or on the lock cylinder is basically arbitrary. It can be provided that the evaluation electronics are arranged in the lock cylinder housing. It may also be favorable if the evaluation electronics are arranged in at least one rosette, which is arranged on one side of the lock cylinder. It can also be provided that the energy source for supplying the evaluation electronics and / or the reading unit (s) is also arranged in the rosette. A rosette provides enough space for a variety of electronic components. In particular, it is possible to protect the rosette well against external weather influences or to use high-performance energy sources of high capacity and service life, such as batteries. Then, such a equipped lock cylinder also used outdoors or for doors that are frequently frequented.

The evaluation electronics can also be arranged in the knob shaft. This is readily possible by miniaturizing the electronic components. Then it may be favorable if the energy source for supplying the evaluation electronics and / or the reading unit (s) is likewise arranged in a knob. This ensures that all electrical elements sit on a component. There is no need for data transmission between mutually movable parts, so that the reliability is increased.

The invention is explained in more detail below with reference to the schematic drawing whose single figure shows a double knob cylinder with knob shafts for different knobs.

The lock cylinder 11 shown in the drawing is designed as a so-called double knob cylinder, which can be operated from both sides 12, 13 with a knob. There is a knob shaft 14 rotatably mounted in the lock cylinder housing, on which a locking lug 15 is rotatably mounted. There is a merely schematically shown coupling means 16 present that causes a rotationally fixed connection between the locking lug and knob shaft when it is driven by an authorization signal. The power supply lines and the logic unit for driving the coupling means are not shown in the drawing. The coupling means may for example be an electric motor with eccentric gear, an electromagnetic drive or a rotary magnet.

To generate the authorization signal evaluation electronics 17 is provided, which is arranged in a rosette 18 which is mounted on one side 12 of the lock cylinder. The evaluation electronics are in electrical connection with a power source 19 and the coupling means 16.

The evaluation electronics interact with a reading unit, which is accommodated with a sensor in a knob. In detail, the arrangement is such that the transmitter has a signal transmission connection 21 which extends via slip ring contacts up to the shaft ends 22, 23. The power source 19 includes supply lines 24 which extend via slip ring contacts also to the shaft ends.

In the drawing, two different knobs 25, 26 are shown, each of which on one of the shaft ends 22, 23 fit. The knob 25 comprises a reading unit 27 with an antenna 28 of a transponder system. The knob 26 includes a reading unit 29 with a biometric sensor 30. Both reading units are designed so that from the detected input signals, namely radio signal on the one hand, biometric data on the other hand, always an access signal is generated, which contains an access code, which is evaluated by the evaluation 17 can be.

The knobs 25, 26 each have a hub 31 which fits on the shaft ends 22, 23 and over which the knobs can be rotatably connected to the knob shaft. An axial attachment against peeling during normal use is also provided. The electrical connections 32 in the knob are corresponding to the Signal transmission connection 21 and the supply lines 24 is formed. Thus, each knob 25, 26 can be placed anywhere on the double knob cylinder.

It may be provided that a communication unit is arranged in a knob additionally or alternatively, which is in communication with the evaluation electronics. For example, the lock cylinder can be programmed via the communication unit or can be connected to a network. The communication unit can for this purpose have an arbitrarily designed interface and in particular a radio or infrared interface. Also, a wired interface or a contact plug can be provided. Like the reading unit, the communication unit can also be assigned to a specific evaluation electronics via an identification code.

In a lock cylinder with a lock core, a key-operated lock core is provided instead of the knob shaft. Here, the reading unit can be arranged for example with an antenna for reading a transponder in the key in a component 33 in the front end region of the lock cylinder. This is shown in the drawing with dashed lines. The signal connection and the power supply are made via lines in the stationary housing part. In principle, a lock cylinder housing can be designed both for key operation and for knob operation. The slip rings for the knob shaft can then be arranged in the front area, in which otherwise the component for the reading unit for the transponder of the key sits. There they are easily accessible for assembly and can be covered by a suitably trained blind cap.

It is hereby provided a modular lock cylinder, which is almost arbitrarily expandable and can be equipped. It is only necessary to develop the knob with the reading unit and the sensor according to the desired input type of the access code and provided with appropriate mechanical and electronic interfaces. Then each knob can be mounted on each lock cylinder housing with the same evaluation electronics.

Claims (19)

Lock cylinder with a lock cylinder housing in which on one or both sides by means of a knob (25, 26) rotatable knob shaft (14) is rotatably mounted, and with at least one electromechanically operating coupling means (16), which rotatably connects a closing element with the knob shaft due to an authorization signal and / or releases the knob shaft to actuate a lock, which authorization signal is generated by an evaluation electronics (17) on the basis of an input or an input signal, characterized in that at least one reading unit (27, 29) with an input unit for detecting the input and / or a receiving unit for receiving the input signal is present that the reading unit is arranged with the input and / or receiving unit spatially separated from the transmitter in at least one knob that the knob is electrically and mechanically releasably connected to the knob shaft (14), and that the reading unit is from the Input or the input signal generates an evaluatable by the transmitter access signal. Lock cylinder with a lock cylinder housing in which one side or both sides rotatable by means of a key lock core is rotatably mounted, and with at least one electromechanically operating coupling means rotatably connects a closing element with the lock core due to an authorization signal and / or unlocks the lock core to a lock actuate which authorization signal is generated by an evaluation due to an input signal, characterized in that at least one reading unit with an input unit for detecting the input and / or a receiving unit for receiving the input signal is present that the reading unit with the input and / or receiving unit is arranged spatially separated from the transmitter in a component which is electrically and mechanically detachably mounted in or on the cylinder housing, and that the reading unit generates from the input or the input signal evaluable by the transmitter access signal. Lock cylinder with a lock cylinder housing, in which on one side a knob rotatable knob shaft and on the other side a rotatable by a key lock core is rotatably supported, and with at least one electromechanically operating coupling means, the rotationally fixed due to an authorization signal a closing element with the knob shaft and / or the lock core connects and / or unlocks the knob shaft and / or the lock core to actuate a lock, which authorization signal is generated by an evaluation due to an input or an input signal, characterized in that a first and a second reading unit each with an input unit for detecting the input and / or a receiving unit for receiving the input signal are present, that the first reading unit with the input and / or receiving unit is arranged spatially separated from the evaluation in the knob, electrically and is mechanically detachably connected to the knob shaft, that the second reading unit with the input or receiving unit arranged spatially separated from the transmitter in a component is that is electrically and mechanically detachably mounted in or on the cylinder housing, and that the reading units each generate from the input or the input signal can be evaluated by the transmitter access signal. Lock cylinder according to one of claims 1 to 3, characterized in that the receiving unit has an antenna (28) for detecting a wirelessly transmitted input signal. Lock cylinder according to one of claims 1 to 3, characterized in that the input unit (29) comprises a biometric sensor (30) for sensing at least one biometric feature. Lock cylinder according to one of claims 1 to 3, characterized in that the input unit is a push-button switch. Lock cylinder according to one of claims 1 to 3, characterized in that the input unit has at least one electrical contact, via which the input signal is transmitted. Lock cylinder according to one of claims 1 to 3, characterized in that the input unit has a keyboard via which the input is made. Lock cylinder according to one of claims 1 to 8, characterized in that the reading unit is assigned by an identification code of the evaluation. Lock cylinder according to claim 9, characterized in that the identification code is transmitted to the access signal to the evaluation or is queried by the evaluation electronics. Lock cylinder according to one of claims 1 to 10, characterized in that the lock cylinder housing for receiving a knob shaft or a lock core is formed on one or two sides. Lock cylinder according to one of claims 1 to 11, characterized in that the lock cylinder housing offers space on both sides for the installation of the mounting part (33). Lock cylinder according to one of claims 1 to 12, characterized in that the reading unit in the knob is powered by a separate power source in the same or the opposite knob with energy. Locking cylinder according to one of claims 2 to 13, characterized in that the reading unit is powered in the detachable component by a separate energy source in the shooting cylinder housing and / or in the component with energy. Lock cylinder according to one of claims 1 to 14, characterized in that the evaluation electronics are arranged in the lock cylinder housing. Lock cylinder according to one of claims 1 to 15, characterized in that the evaluation electronics are arranged in the knob shaft. Lock cylinder according to one of claims 1 to 16, characterized in that the energy source for supplying the evaluation electronics and / or the reading unit (s) is arranged in a knob. Lock cylinder according to one of claims 1 to 17, characterized in that the evaluation electronics is arranged in at least one rosette, which is arranged on one side of the lock cylinder. Lock cylinder according to claim 18, characterized in that the energy source for supplying the evaluation electronics and / or the reading unit (s) is arranged in the rosette.

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