EP2708682A2 - Locking cylinder for an electronic key - Google Patents

Abstract

The lock cylinder (1) has a core (3) having a close channel (5) for introduction of key (6). An antenna (8) for detecting electronic signals of key is arranged in the housing (2). An electronic locking device (7) is arranged in core for optionally blocking or releasing the movement of core in dependence on signals of key. The electrical springy contacts (13) for contacting fixed contacts (18) are arranged on the key. The electrical contacts of core are connected with transmitting antenna (11) for transmitting signals of key to antenna, by electrical conductors (12) arranged in core.

Description

The invention relates to a lock cylinder for an electronic key, with a core movable in a housing, with a core arranged in the lock channel for insertion of the key and an antenna disposed in the housing for detecting electronic signals of the key and with an electronic locking device for optional blocking or Releasing the movement of the core as a function of the signals of the key.

Such a lock cylinder is for example from the DE 199 06 578 A1 known. The antenna of the lock cylinder encloses the core, in the closing channel of which a code transmitter arranged in a shaft of the key can be inserted. The code transmitter forms an oscillating circuit with the antenna, via which electronic signals can be read without contact. The activation energy for generating the resonant circuit is induced by the antenna in the encoder. The code transmitter is encased by a plastic of the shaft of the key.

A disadvantage of the known lock cylinder, however, that between the antenna and the code transmitter, a portion of the core and the sheath of the code transmitter of the key are arranged. This leads to a large distance of the antenna from the encoder. However, a large distance between antenna and encoder also leads to high energy consumption. As the function of the lock cylinder, however, with its own power supply as possible is to be ensured independently, the high energy consumption leads to short maintenance intervals.

One might think of arranging the antenna in the core directly on the closing channel. Since the electronic locking device is arranged in the housing for reasons of space, the signals would have to be transmitted from the antenna moving with the core, for example by means of sliding contacts, to the stationary locking device. However, such sliding contacts are very susceptible to interference. Furthermore, such sliding contacts must be performed over the entire circumference of the core, resulting in a high construction cost.

The invention is based on the problem to further develop a lock cylinder of the type mentioned so that it has a very low energy consumption.

This problem is inventively achieved in that electrical contacts are arranged in the core for contacting corresponding contacts on the key and that the electrical contacts of the core are connected via electrical conductors with a transmission antenna arranged in the core for transmitting the signals of the key to the antenna in the housing.

As a result of this design, the transmission antenna in the core and the antenna in the housing directly opposite one another in the lock cylinder. The wireless part of the transmission path of the signals of the key to the locking device is therefore kept particularly short. The lock cylinder according to the invention therefore has a particularly low energy consumption. Fault-prone sliding contacts for transmitting the signals of the key are thanks to the invention Not required, as the keys of the key and the core move together.

The lock cylinder has according to an advantageous embodiment of the invention, a particularly low energy consumption, when the transmission antenna in the core and the antenna in the housing for contactless transmission of the signals of the key face each other directly.

A transmission of activation energy to the receiving antenna in the core is particularly simple according to another advantageous embodiment of the invention, when the transmission antenna in the core and the antenna in the housing have coils. This design allows the activation energy to be transmitted inductively.

Losses in the transmission of the activation energy or signals of the key can be kept particularly low according to another advantageous embodiment of the invention, when the coils of the transmission antenna in the core and the antenna in the housing are arranged concentrically to each other.

A particularly reliable connection of the code transmitter in the key with the electrical conductors in the core can be produced according to another advantageous embodiment of the invention, when the contacts of the core are biased against the contacts of the key.

The lock cylinder can be secured according to another advantageous embodiment of the invention with protective fittings against a destruction attempt, when the antenna is spaced from the front side of the housing. Protective fittings are often on the front side of the lock cylinder and thus on the front side of the housing arranged to protect the lock cylinder, for example, against drilling or other mechanical destruction. However, such protective fittings dampen and disturb electrical fields and thus the transmission of the signals to the antenna in the housing. By remote from the front of the antenna arrangement a disturbance of the transmission of the signals through the protective fittings is avoided.

Fig. 1

einen Längsschnitt durch einen erfindungsgemäßen Schließzylinder,

Fig. 2

eine Schnittdarstellung durch den Schließzylinder aus Figur 1 entlang der Linie II - II.

The invention allows numerous embodiments. To further clarify its basic principle, one of them is shown in the drawing and will be described below. This shows in

Fig. 1

a longitudinal section through a lock cylinder according to the invention,

Fig. 2

a sectional view through the lock cylinder FIG. 1 along the line II - II.

FIG. 1 shows a lock cylinder 1 with a rotatably mounted in a housing 2 core 3. The core 3 is rotatably connected to a cam 4. At its end faces, the core 3 each have a closing channel 5 for insertion of a key 6. The lock cylinder 1 has an electromagnetic locking device 7 for selectively blocking or releasing the movement of the core 3 relative to the housing 2. In an area of the housing 2 remote from the end face of the lock cylinder 1, an antenna 8 is arranged. The antenna 8 is connected to a control device 9, which controls the electromagnetic locking device 7. In the housing 2 also designed as a coin cell energy storage 10 is arranged. The energy storage device 10 supplies the control device 9 and the blocking device 7 with electrical energy. A transmission antenna 11 of the core 3 is opposite the antenna 8 in the housing 2 with a small distance and is connected via electrical conductors 12 with resilient contacts 13.

The key 6 has a lock channel 5 corresponding to the designed shaft 14 and a Reide 15 as a handle. In the shaft 14 of the key 6, a code transmitter 16, for example, arranged in a plastic potting compound. The code generator 16 is connected via electrical conductors 17 with arranged on the lateral surface of the shaft 14, fixed contacts 18. The resilient contacts 13 of the core 3 are biased against the fixed contacts 18 of the key 6.

FIG. 2 shows the lock cylinder FIG. 1 In a sectional view along the line II - II. It can be seen that the antenna 8 in the housing 2 and the transmission antenna 11 in the core 3 each have coils 19, 20. About these coils 19, 20 can be an activation energy for reading the encoder 16 is transmitted inductively.

Claims (6)

Locking cylinder (1) for an electronic key (6), having a core (3) which is movable in a housing (2), having a closing channel (5) arranged in the core (3) for insertion of the key (6) and a housing (8). 2) arranged antenna (8) for detecting electronic signals of the key (6) and with an electronic locking device (7) for selectively blocking or releasing the movement of the core (3) in response to the signals of the key (6), characterized in that electrical contacts (13) for contacting corresponding contacts (18) on the key (6) are arranged in the core (3) and that the electrical contacts (13) of the core (3) are connected via electrical conductors (12) to one in the core (3). 3) arranged transmission antenna (11) for transmitting the signals of the key (6) to the antenna (8) in the housing (2) are connected. Lock cylinder according to claim 1, characterized in that the transmission antenna (11) in the core (3) and the antenna (8) in the housing (2) for non-contact transmission of the signals of the key (6) directly opposite each other. Lock cylinder according to claim 1 or 2, characterized in that the transmission antenna (11) in the core (3) and the antenna (8) in the housing (2) coils (19, 20). Lock cylinder according to claim 3, characterized in that the coils (19, 20) of the transmission antenna (11) in the core (3) and the antenna (8) in the housing (2) are arranged concentrically to one another. Lock cylinder according to one of claims 1 to 4, characterized in that the contacts (13) of the core (3) against the contacts (18) of the key (6) are biased. Lock cylinder according to one of claims 1 to 5, characterized in that the antenna (8) from the end face of the housing (2) is spaced.

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