EP1659238A1 - Lock cylinder - Google Patents

Abstract

Closing cylinder comprises a cylinder core (1, 2) which can twist in a cylinder housing (3) and protrudes from the housing on the side on the outer side of the door. The core has elements, especially a reading electronic unit (9) for identifying a key code. Preferred Features: The cylinder core protrudes at a distance of at least 5 mm, preferably at least 10 mm from the cylinder housing. The cylinder has a through-hole. The reading electronic unit comprises an antenna and a sensor and/or a status display unit.

Description

The invention relates to a lock cylinder with cylinder housing and at least one cylinder core rotatable in the cylinder housing, which cooperates with a locking nose, wherein for the identification of an electronic key electronics is provided which actuates at least one coupling element.

To secure a door, among other things, a cylinder is used in conjunction with a multi-bolt lock. The unsecured, or publicly accessible side of a door is referred to as the outside and the secured side of the door as the inside.

From AT 409 021 B a closure device is known which comprises a multi-bolt lock with electric motor. The electric motor can be coupled via a plug-in double lock cylinder and its locking lug to the multi-bolt lock for transmitting the torque. The double lock cylinder has a knob on both sides. At least the outer knob can be coupled via a code comparison in an electronic circuit controllable coupling with the locking lug.

Furthermore, from DE 198 51 308 A1 discloses a lock cylinder is known, which is provided on both sides with rotary knobs. The door-side rotary knob has an access control electronics for processing an access control protocol with the identifier of a requesting from the outside of the door ago access person to determine their access authorization. When the access authorization is established, the access control electronics actuates a coupling via an electromagnet, so that a locking bit can be moved from the outside door-side rotary knob.

The disadvantage of this knob-knob cylinder is mainly that an on-site installation, for example in a multi-bolt lock, is extremely expensive. Since the Knob can not be inserted into the intended opening for the cylinder, disassembly work is necessary.

Furthermore, a rosette for an associated lock cylinder from EP 1 256 671 A2 is also known, which contains an activatable by electric current blocking element. The built-in lock cylinder protrudes on the inside with a protruding length over the door leaf. The electronic components for the entry of the access authorization are provided in the cylinder housing or in the rosette.

The object of the invention is to provide a lock cylinder of the type cited above, on the one hand avoids the above-mentioned disadvantages and on the other hand has a simple structure, provides a high level of security and without disassembly is universally applicable to many types of locks or fittings.

The lock cylinder according to the invention is characterized in that the cylinder core projects from the cylinder housing at least on the outside of the door and contains at least the elements necessary for identifying a key code, in particular a reading sensor. With this lock cylinder according to the invention, it is now possible to realize a fully digitized locking system. The co-rotating sensor is practically not susceptible to interference, so that the functionality of the locking system is guaranteed. Another main advantage is the fact that, above all, no dismantling work on site during installation is necessary and the cylinder can be combined with any fitting. The production of such a cylinder according to the invention is extremely economical.

According to a particular feature of the invention, the cylinder core protrudes at least 5 mm, preferably at least 10 mm, out of the cylinder housing. As a result, no disturbing influences of other metal parts are given and any shielding problems do not occur.

According to one embodiment of the invention, an actuating handle, for example a rotary handle or a pusher, is fastened to the end of the cylinder core protruding from the cylinder housing. As a result, a simple assembly of the cylinder and of course the operating handle on site, in particular without special tools, guaranteed.

According to another particular feature, the cylinder core on a through hole. Due to this through hole simple, secure cable connections between the two door sides are possible. From the prior art ago known sliding contacts that are extremely susceptible to interference are avoided.

According to a further embodiment of the invention, the reading sensor system comprises at least one antenna and optionally a wake-up sensor and / or a status indicator. Thus, the corresponding electronics can be made compact.

According to another particular embodiment, the antenna is designed as an integrated antenna in the cylinder core or the cylinder core itself as an antenna. In particular with regard to a miniaturization of the electronic components, this embodiment is of particular advantage.

According to one embodiment of the invention, a reading electronics is provided in the cylinder core. As a result, the cylinder core is possible for the first time as a fully electronic component in the lock cylinder.

According to a particular embodiment of the invention, the reading sensors are connected to the reading electronics via a provided in the through hole connecting cable. As already mentioned, simple, safe cable connections between the two door sides are possible due to this through hole. Sliding contacts that are extremely susceptible to interference are avoided.

According to a further feature of the invention, the coupling element is provided in the cylinder core for the mechanical connection of cylinder core with the locking lug. As a result, the mechatronic cylinder core of the further mechatronic cylinder core with the closing lug with a coupling element is coupled simultaneously, preferably in miniature design, with the mechatronic cylinder core.

According to a particular embodiment of the invention, the lock cylinder is designed as a profile double cylinder. This embodiment is a simple design of a common type of cylinder that can be easily mounted by anyone, without special tools. Furthermore, corresponding operating handles can be arranged according to your choice.

According to an alternative embodiment of the invention, the lock cylinder is designed as a knob double cylinder. The advantage of this embodiment is that with inwardly rising doors an optimal handle is given. The door leaf itself is not touched when opening, thereby avoiding unnecessary cleaning work.

According to a further alternative embodiment of the invention, the lock cylinder is designed as a knob-knob double cylinder. As mentioned above, a knob offers certain advantages. In addition, in this embodiment, design and comfort requirements, especially with regard to the handle of the door, can be easily met.

• Fig. 1 zeigt einen elektronischen Doppelzylinder mit einem Hahnprofil im entkuppelten Zustand;
• Fig. 2 den elektronischen Doppelzylinder gemäß Fig. 1 im eingekuppelten Zustand;
• Fig. 3 einen Knauf-Doppelzylinder im Leerlauf und
• Fig. 4 einen den Knauf-Doppelzylinder gemäß Fig. 3 im eingekuppelten Zustand.

The invention will be explained in more detail with reference to exemplary embodiments, which are illustrated in the drawing. Show it:

• Fig. 1 shows an electronic double cylinder with a valve profile in the decoupled state;
• FIG. 2 shows the electronic double cylinder according to FIG. 1 in the engaged state; FIG.
• Fig. 3 is a knob double cylinder in idle and
• Fig. 4 shows a knob double cylinder of FIG. 3 in the engaged state.

According to FIG. 1, the lock cylinder is designed as a double cylinder and has a cylinder housing 3, preferably in the cock profile. In this cylinder housing 3 rotatable cylinder cores 1, 2 are provided. About Seegerringe 8, the cylinder cores 1, 2 are secured in the cylinder housing 3. The two cylinder cores 1, 2 are arranged coaxially in the region of a closing lug 13, wherein between the coaxially arranged cylinder cores 1, 2 from a door side, in particular from the inside of the door, a coupling slide 5, which acts on a coupling pin 4, is arranged. About the coupling pin 4 and the coupling slide 5, the cylinder cores 1, 2 can be coupled with the locking lug 13 via a non-positive and positive connection.

For identification of an electronic key, read and evaluation electronics 9, 10 are provided in the cylinder core 1, 2, preferably in the end region located outside the door. Furthermore, batteries 6, 7 are preferably arranged in this end region in the interior of the cylinder cores 1, 2. For the coupling and disengaging process, ie for the displacement of the coupling slide 5, a motor 12 is provided in the interior of the cylinder core 2.

In order to supply the electric signals to the motor upon identification of the key code, the cylinder core 1 is provided with a through hole in which a connection cable 11 is provided for this purpose.

For simple lock cylinder designs, only one read sensor will be provided in the cylinder outside end of the cylinder core. This reading sensor consists of an antenna and optionally a wake-up sensor and / or a status indicator. In this simple lock cylinder design, the evaluation of the key code is then carried out in an electronics system inside the inside of the cylinder core end.

The cylinder core 1 projects out of the cylinder housing 3 on at least the outside of the door and contains the electronic and electrical elements necessary for identifying a key code. Of course, the lock cylinder can also be formed symmetrically, with the cylinder core 2 protruding from the cylinder housing 3. The length of the protruding from the cylinder housing 3 cylinder core 1, 2 is between 0.1 to 100 mm, it seems reasonable that the outstanding length is at least 5 mm, preferably at least 10 mm.

The clearly outstanding cylinder cores 1, 2 can thus be rotated without further use of a mechanical key or a knob, such as a knob or a handle by hand to actuate the locking lug 13. Of course, for actuation, an operating handle, such as a rotary handle or a pusher, be attached to the cylinder core end.

In the idling state shown in Fig. 1, the cylinder cores 1, 2 rotate against each other without causing the locking lug 13 is rotated.

2, the engaged state, ie the positive and non-positive connection of locking lug 13 and cylinder cores 1, 2 is shown. In the engaged state, the locking lug 13 is rotated with the rotation of one or both cylinder cores 1, 2. The engaged state only comes into force when an authorized key code is recognized by one of the reading and evaluating electronics 9, 10, whereby the readout of a key code by the read 9 and evaluation electronics 10 takes place. The read-9 and evaluation 10 each consists of an antenna, a wake-up sensor, a status display unit and evaluation electronics. The connecting cable 11 connects both reading 9 and evaluation electronics 10 with the motor 12. As already shown in FIG. 1, the reading electronics 9 could also be spatially arranged by the evaluation electronics 10, namely one part each at one end of the cylinder core 1, 2 ,

However, it is quite within the scope of the invention to combine the read 9 and evaluation 10 in an electronic circuit.

In an electronic compact version, the antenna could be designed as an integrated antenna in the cylinder core 1, 2 or the cylinder core 1, 2 itself as an antenna.

The cylinder core 1 includes at least the following parts: the reading and evaluation electronics 10 and the battery 7, which is connected to the motor 12. The cylinder core 1 is rotatably mounted in the cylinder core 2. About a Schneckenradantrieb the motor 12 of the coupling slide 5 is moved to a or disengage the coupling pin 4 either to the left or to the right.

The cylinder core 2 contains the following parts: The reading and evaluation electronics 10, the battery 6 and the cylinder core 1. The cylinder core 2 is rotatably mounted in the cylinder housing 3.

The cylinder core 1 is tubular and immersed from the outside to the inside in the cylinder core 2 a. The cylinder core 1, the cylinder core 2 and the locking lug 13 are connected to each other by means of the coupling slide 5 and the coupling pin 4 and secured against rotation. Thus, both cylinder cores 1, 2 are engaged with the locking lug 13.

Referring to Fig. 3, a knob double cylinder is shown with the electronic lock cylinder in the disengaged position. The cylinder core 1 can be rotated at any time to the left or right without turning the locking lug 13.

In this electronic lock cylinder, the cylinder core 1 protrudes again out of the cylinder housing 3 on the outside of a door clearly. The protruding length should be at least 5 mm. In this cylinder core 1 is the reading electronics 9 for reading a key code. The clearly outstanding cylinder core 1 can thus idle without another Use of a mechanical key or a knob by hand to operate the locking lug 13 are rotated.

In the engaged state with the rotation of the cylinder core 1 of the cylinder knob 14 is rotated with the locking lug 13. The engaged state only comes into force when an authorized key code is recognized by the transmitter 10. The reading of a key code is performed by the reading electronics 9. The reading electronics 9 consists of an antenna, a wake-up sensor and a status display unit and is connected to the transmitter 10 via the connection cable 11.

The cylinder knob 14 is located on the inside of a door, is firmly connected to the locking lug 13 and actuates it at each rotation.
The cylinder knob 14 includes the following parts: the transmitter 10, the battery 6, the bracket 15, mounting nut 16 and the coupling element 17th

The cylinder core 1 is tubular and dives from the outside to the inside in the cylinder knob 14. The cylinder core 1 and the cylinder knob 14 are connected by means of a coupling element 17 when immersing the coupling element 17 in the groove 18 and secured against rotation. Thus, the cylinder core 1 is engaged via the cylinder knob 14 with the locking lug 13 (FIG. 4).

Fig. 4 shows the electronic lock cylinder in the engaged position. The coupling element 17 dips into the groove 18 and thus connects the Zylinderknauf 14 with the cylinder core. 1

By the rotation of the cylinder core 1, the entire cylinder knob 14 and the locking lug 13 is rotated.

Of course, a knob-knob double cylinder could be formed according to the above.

Claims (12)

Lock cylinder with cylinder housing and at least one cylindrical core rotatable in the cylinder housing, which cooperates with a locking nose, wherein for the identification of an electronic key electronics is provided which actuates at least one coupling element, characterized in that the cylinder core (1, 2) at least on the outside of the door Side protrudes from the cylinder housing (3) and at least the necessary for the identification of a key code elements, in particular a reading electronics (9) contains. Lock cylinder according to claim 1, characterized in that the cylinder core (1, 2) protrudes at least 5 mm, preferably at least 10 mm, from the cylinder housing (3). Lock cylinder according to claim 1 or 2, characterized in that on the cylinder housing (3) outstanding end of the cylinder core (1, 2), an actuating handle, such as a rotary handle or a pusher is attached. Lock cylinder according to one or more of claims 1 to 3, characterized in that the cylinder core (1, 2) has a through hole. Lock cylinder according to one or more of claims 1 to 4, characterized in that the reading electronics (9) comprises at least one antenna and optionally a wake-up sensor and / or a status indicator. Lock cylinder according to claim 5, characterized in that the antenna is designed as an integrated antenna in the cylinder core (1, 2) or the cylinder core (1, 2) itself as an antenna. Lock cylinder according to one or more of claims 1 to 6, characterized in that an evaluation electronics (10) is provided in the cylinder core (1, 2). Lock cylinder according to one or more of claims 1 to 7, characterized in that the reading electronics (9) are connected to the evaluation electronics (6) via a connecting cable (11) provided in the through-hole. Lock cylinder according to one or more of claims 1 to 8, characterized in that in the cylinder core (1, 2) the coupling element (4, 5) for the mechanical connection of cylinder core (1, 2) with the locking lug (13) is provided. Lock cylinder according to one or more of claims 1 to 9, characterized in that it is designed as a profile double cylinder. Lock cylinder according to one or more of claims 1 to 10, characterized in that it is designed as a knob double cylinder. Lock cylinder according to one or more of claims 1 to 11, characterized in that it is designed as a knob-knob double cylinder.

Images