DE102004039531A1 - locking mechanism - Google Patents

Abstract

The mechanism has a key having a transponder, with a controller recording a code of the transponder and determining a closing authorization. An actuator (10) for the control has a check mechanism, which controls the controller. The actuator may be piezoelectric, magnetostrictive or electromagnetic. The check mechanism has a core pin (15, 29), a housing pin (14) and link for the pre-loading of the housing pin (14) against the core pin. The housing and the core (2, 28) are each other aligning as channels (16, 17) with the core pin in cross section. In closing position, the core pin is arranged partly in the channel (16) of the housing and partly in the channel (17) of the core (2, 28).

Description

The The invention relates to a locking mechanism, in particular for use in a lock cylinder a mortise lock for selectively blocking in a closed position or releasing in an open position of one disposed in a housing movable core, with a transponder having a key, with a control device for detecting a code of the transponder and for determining a locking authorization, with an activatable by the controller actuator for driving a locking device, wherein the locking device in the closed position for generating a positive connection between the housing and the Kern and in open position to cancel this positive connection formed is.

Such a locking mechanism is for example from the DE 44 04 914 A1 known. Here, the locking device has a single biased in the basic position of a spring element against an outer circumferential surface of the core pin. The core has a wedge-shaped pocket. In the case of a locking authorization of the key, the pin is held by the actuator in its position and the core can be rotated relative to the housing. In the absence of locking authorization of the key, the activation of the actuator is omitted and the pin is pressed after an initial movement of the core by an angular range of for example 30 ° by the force of the spring element in the pocket and blocks the further movement of the core. An advantage of this locking mechanism is that the actuator does not have to move the locking device, but only has to hold. This results in a low power consumption of the actuator. However, the actuator must be driven during the entire opening operation of the locking mechanism for a designated period of time, which in turn leads to an increase in energy consumption.

adversely however, in the known locking mechanism, the core is without access authorization can be rotated by the angular range of, for example 30 °, until the Pen penetrates into the pocket of the core. However, this leads to a low Security against unauthorized unlocking of the locking mechanism.

Furthermore, from the DE 100 20 038 A1 a locking mechanism has become known in which a pin of the locking device is biased in basic position in a recess of the core. Laterally next to the recess, the core has wedge-shaped pockets for receiving the pin in the absence of access authorization of the key. When inserting the key, the pin is pushed out of the recess and either held by the actuator or released its movement depending on the locking authorization. Thus, this locking mechanism has a low energy consumption. However, even with this locking mechanism without key-locking key, the core can be rotated by an angular range until the pin passes into one of the pockets.

Of the Invention is based on the problem, a locking mechanism of educate the aforementioned type so that in the absence of locking authorization of the key the core is not opposite to that casing can be moved.

This Problem is inventively characterized solved, that the locking device is a core pin, a housing pin and biasing means for biasing the housing pin against the core pin, that the case and the core aligned channels with a core pin have corresponding cross section and that in the closed position the core pin partially in the channel of the housing and partly in the channel of the core is arranged.

By this design is the core pin in closed position in channels of the housing and the core arranged. Since the channels correspond to the core pin Have cross section, prevents the core pin in the closed position any movement of the core relative to the housing. This will be missing access authorization of the key a possible Movement of the core opposite the housing prevented.

Of the Actor could for example, the locking mechanism from the closed position move to the open position. However, this would lead to high power consumption lead the locking mechanism. to Reduction of energy consumption of the locking mechanism according to the invention wear it when the actuator in the de-energized state, the core pin or the housing pin supported in a movement blocking the core blocking position and in the energized state, the movement of the housing pin and the core pin to the solution the positive connection between housing and core releases. Because the actuator is the core pin or the housing pin just hold and do not move, but only in his situation blocking or releasing the movement of the core holds, points the locking mechanism according to the invention a very low energy consumption.

An energy consumption for holding the locking mechanism in the open position can be according to an advantageous embodiment of the invention avoid when the core pin in the open position penetrates into a arranged in the core, provided for inserting the key closing channel and when a locking recess is formed in the key for holding the core pin against the force of the biasing means, so that the separation plane between the core pin and housing pin in the parting plane between Core and housing is. Another advantage of this design is that the locking recess of the key is another security feature of the locking device according to the invention, so that by exclusive activation of the actuator, the locking device can not be unlocked.

One Energy consumption during the return movement the locking mechanism in the closed position can be according to a simply avoid another advantageous development of the invention if the key between the closing recess and the key tip has a projection. This is when pulling out the key the closing channel the core pin and thus the housing pin against the force of Biasing means of the projection of the key pushed out of the closing channel and thus the parting line between the core pin and the housing pin from the parting plane between core and housing moved out.

Of the Kernstift becomes according to a another advantageous embodiment of the invention regardless of the closing recess of the key held in the open position when the locking device a stop has to limit the range of movement of the core pin.

to further reduction of energy consumption of the locking mechanism according to the invention wear it when the actuator has a movable support member and when the holding element for holding the core pin and / or the housing pin in closed position the locking device is formed. This requires the Actuator exclusively electric Energy to lock at a present key of the key Holding element of the core pin and / or housing pin holder position move. In closed position becomes the core pin or the case pin held by the holding element of the actuator. This leads to a significant reduction the energy consumption of the actuator, as opposed to the state the technique of the actuator during insertion of the key in the closing channel and when pulling out the key respectively must be addressed once. A time-dependent control of the actuator while of the entire closing process As with the locking devices of the prior art, this is not required.

The Locking device is reliable in the closed position which held the movement of the core blocking position when the core pin or the housing pin has a holding recess and when the holding element of the actuator in closed position in the retaining recess penetrates.

One Energy consumption of the actuator to support the locking device in the closed position can be according to a avoid another advantageous embodiment of the invention, when the direction of movement of the retaining element transversely to the direction of force the biasing means is arranged. Block by this design itself the core pin or the housing pin and the retaining element mutually, so that the actuator no force in order to hold the retaining element in position, in the blocking device blocks the movement of the core.

One Energy requirement for moving out of the holding element from the holding recess can be according to a other advantageous embodiment of the invention particularly low hold when the holding recess is larger than the holding element of the actor. As a result, the friction of the holding element in the Holding recess kept very low. In addition, the preload of the core pin or the housing pin released against the retaining element when the core pin is slightly in the channel of the core pushed becomes. In this case lets the retaining element frictionless pull out of the retaining recess.

The Pretension of the core pin or the housing pin against the retaining element will be on every entry and exit of the key in the closing channel solved, when in closed position the tip of the core pin into the trajectory of the projection of the key protrudes. Thus, the holding element without any friction when entering and executing the key in the retaining recess of the core pin or the housing pin be moved in or out of this.

One manually moving the core pin through the closing channel without Activation of the actuator leaves according to one simply avoid another advantageous embodiment of the invention, when the actuator in the core and the holding recess arranged in the core pin is. As a result, the inven tion proper locking mechanism is reliable Manipulation through the closing channel protected.

Often, however, a power supply of the actuator or the control device for detecting the code of the transponder is arranged in the housing for reasons of space. In this case, sliding contacts for supplying the actuator with electrical energy according to another advantageous development of the invention can be easily avoided if the actuator in the housing and the holding Ausneh mung is arranged in the housing pin.

One Press down of the core pin through the closing channel in one the movement of the nucleus releasing position according to one simply avoid another advantageous development of the invention when the the closing channel facing boundary of the holding recess has a paragraph and when the distance of the heel from the holding element is lower is the distance of the tip of the core pin from the parting plane between housing and core. this leads to for further protection against manipulation of the locking device according to the invention.

Of the designed locking mechanism according to the invention structurally particularly simple when the biasing means a Have spiral spring.

Of the Actuator has according to a other advantageous embodiment of the invention particularly low Dimensions on when the actuator is piezoelectric, magnetostrictive or is designed to act electromagnetically. This is possible the actuator in commercial lock cylinders deploy.

The Invention leaves numerous embodiments to. To further clarify their basic principle are two of them shown in the drawing and are described below. This shows in

1 a sectional view through an inventive, arranged in a lock cylinder locking mechanism during insertion of a key,

2 the locking mechanism off 1 if the key has been partially imported and the right to lock is present,

3 the locking mechanism off 1 in open position,

4 the locking mechanism off 1 with partially inserted key and missing lock authorization,

5 the locking mechanism off 1 in closed position,

6 a further embodiment of the locking mechanism according to the invention.

1 shows a portion of a lock cylinder with a in a housing 1 rotatable core 2 and with a locking mechanism 3 in a sectional view. The core 2 is with a locking bit 4 coupled and has a closing channel 5 for inserting a key 6 on. The key 6 has a transponder 7 with a code stored in it. In the case 1 is an antenna 8th for detecting the code of the transponder 7 and a controller 9 for the evaluation of signals of the antenna 8th arranged. The control device 9 determined from the signals of the antenna 8th a locking authorization for the transponder 7 of the key 6 , In the simplest case, the controller has 9 a memory for at least one code, which is authorized to drive the locking mechanism 3 assigned.

Furthermore, in the core 2 an actor 10 arranged, which with a locking device 11 interacts. The actor 10 is determined by the control device as a function of the determined locking authorization 9 driven. The actor 10 , the control device 9 and the antenna 8th be from a trained as a battery power source 12 supplied with electrical energy. The locking device 11 has one of a coil spring 13 preloaded housing pin 14 and a core pin 15 , The housing pin 14 and the core pin 15 are in mutually aligned channels 16 . 17 of the housing 1 and the core 2 arranged longitudinally displaceable. The longitudinal displaceability of the core pin 15 is from a stop 18 in the core 2 limited. The channels 16 . 17 each have a the core pin 15 and the housing pin 14 corresponding cross-section. The core pin 15 penetrates with his tip 19 in the closing channel 5 in a trajectory of a projection 20 of the key 6 one. Immediately behind the lead 20 assigns the key 6 a closing recess 21 on. The actor 10 is piezoelectric, magnetostrictive or electromagnetically acting and moves a holding element 22 , which in the illustrated closed position of the locking device 11 in a holding recess 23 of the housing pin 14 penetrates. This will cause the case pin 14 held in its position in the the core pin 15 partly in the housing 1 and partly in the core 2 is arranged. This is the core pin 15 in the illustrated closed position in the parting plane between the housing 1 and core 2 , Because the channels 16 . 17 one to the core pin 15 have corresponding cross section, generates the core pin 15 a positive connection between the core 2 and the housing 1 ,

The retaining recess 23 is slightly larger than the holding element 22 of the actor 10 and is from a paragraph 24 limited. If you have the key 6 in the closing channel 5 introduces, as in 2 is shown, becomes the core pin 15 from the lead 20 of the key 6 in the direction of the housing pin 14 pressed. In this case, the bias of the holding recess 23 against the holding element 22 relieved and the retaining element 22 can be locked if the key is locked 6 frictionless from the actuator 10 from the stop perception 23 pull out.

After the holding element 22 from the retaining recess 23 is pulled out, the movements of the core pin 15 and the housing pin 14 from the contour of the key 6 and the spiral spring 13 controlled. If the key is locked 6 reaches the top 19 of the core pin 15 in the locking recess 21 of the key 6 as it is in 3 is shown. The dividing plane passes between the core pin 15 and housing pin 14 in the dividing plane between core 2 and housing 1 , The core 2 and thus the cam 4 can then be over the key 6 rotate. In the direction of rotation generate flattening 25 of the key 6 a positive connection with a driving recess 26 of the core 2 ,

4 shows the locking mechanism 3 out 1 partially in the closing channel 5 inserted key 6 without locking authorization. How to 2 described pushes the projection 20 of the key 6 the summit 19 of the core pin 15 down and relieves the bias between the retaining recess 23 in the housing pin 14 and the holding element 22 of the actor 10 , But there is no key to lock the key 6 is present, the activation of the actuator is omitted 10 by the control device 9 and the holding element 22 remains in its position.

Upon further insertion of the key 6 in the closing channel 5 becomes the case pin 14 from the holding element 22 in its position in which the core pin 15 a positive connection of the core 2 with the housing 1 generated, held. This position is in 5 shown. This leaves the locking mechanism 3 in the closed position.

6 shows a further embodiment of the locking mechanism 3 , which is different from the 1 thereby distinguishes that an actor 27 in a nucleus 28 is arranged. Accordingly, a core pin 29 a holding recess 30 in which a holding element 31 of the actor 27 penetrates. The actor 27 is for example via sliding contacts 32 supplied with electrical energy. Otherwise, the locking mechanism 3 like the one from the 1 to 5 constructed and has the above described mode of action.

Claims (15)

Locking mechanism in particular for use in a lock cylinder of a mortise lock for selectively blocking in a closed position or releasing in an open position of a movable core arranged in a housing, with a transponder having a key, with a control device for detecting a code of the transponder and for determining a locking authorization, with an activatable by the controller actuator for controlling a locking device, wherein the locking device is formed in the closed position to produce a positive connection between the housing and the core and in the open position for canceling this positive connection, characterized in that the locking device ( 3 ) a core pin ( 15 . 29 ), a housing pin ( 14 ) and biasing means for biasing the housing pin ( 14 ) against the core pin ( 15 . 29 ), that the housing ( 1 ) and the core ( 2 . 28 ) mutually aligned channels ( 16 . 17 ) with a core pin ( 15 . 29 ) have corresponding cross section and that in the closed position of the core pin ( 15 . 29 ) partially in the channel ( 16 ) of the housing ( 1 ) and partly in the channel ( 17 ) of the core ( 2 . 28 ) is arranged. Locking mechanism according to claim 1, characterized in that the actuator ( 10 . 27 ) in the de-energized state the core pin ( 15 . 29 ) or the housing pin ( 14 ) in one the movement of the core ( 2 . 28 ) blocking position and in the energized state, the movement of the housing pin ( 14 ) and the core pin ( 15 . 29 ) to solve the positive connection between the housing ( 1 ) and core ( 2 . 28 ) releases. Locking mechanism according to claim 1 or 2, characterized in that the core pin ( 15 . 29 ) in an open position into a core ( 2 . 28 ), for inserting the key ( 6 ) provided closing channel ( 5 ) penetrates and that a closing recess ( 21 ) in the key ( 6 ) for holding the core pin ( 15 . 29 ) is formed against the force of the biasing means, so that the parting plane between Kernstift ( 15 . 29 ) and housing pin ( 14 ) in the parting plane between core ( 2 . 28 ) and housing ( 1 ) lies. Locking mechanism according to at least one of the preceding claims, characterized in that the key ( 6 ) between the locking recess ( 21 ) and the key tip have a lead ( 20 ) having. Locking mechanism according to at least one of the preceding claims, characterized in that the locking device ( 11 ) a stop ( 18 ) for limiting the range of movement of the core pin ( 15 . 29 ) having. Locking mechanism according to at least one of the preceding claims, characterized in that the actuator ( 10 . 27 ) a movable holding element ( 22 ) and that the retaining element ( 22 ) for holding the core pin ( 15 . 29 ) and / or the housing pin ( 14 ) in the closed position of the locking device ( 11 ) is trained. Locking mechanism according to at least one of the preceding claims, characterized in that the core pin ( 15 . 29 ) or the housing pin ( 14 ) a retaining recess ( 23 . 30 ) and that the retaining element ( 22 ) of the actuator ( 10 . 27 ) in the closed position in the retaining recess ( 30 ) penetrates. Locking mechanism according to at least one of the preceding claims, characterized in that the direction of movement of the retaining element ( 22 ) is arranged transversely to the direction of force of the biasing means. Locking mechanism according to at least one of the preceding claims, characterized in that the retaining recess ( 23 . 30 ) is larger than the retaining element ( 22 ) of the actuator ( 10 . 27 ). Locking mechanism according to at least one of the preceding claims, characterized in that in the closed position, the tip ( 19 ) of the core pin ( 15 . 29 ) in the trajectory of the projection ( 20 ) of the key ( 6 ) protrudes. Locking mechanism according to at least one of the preceding claims, characterized in that the actuator ( 27 ) in the core ( 28 ) and the retaining recess ( 30 ) in the core pin ( 29 ) is arranged. Locking mechanism according to at least one of the preceding claims, characterized in that the actuator ( 10 ) in the housing ( 1 ) and the retaining recess ( 23 ) in the housing pin ( 14 ) is arranged. Locking mechanism according to at least one of the preceding claims, characterized in that the locking channel ( 5 ) facing the boundary of the retaining recess ( 23 . 30 ) a paragraph ( 24 ) and that the distance of the paragraph ( 24 ) of the retaining element ( 22 ) is less than the distance of the tip ( 19 ) of the core pin ( 15 . 29 ) from the parting plane between housings ( 1 ) and core ( 2 . 28 ). Locking mechanism according to at least one of the preceding claims, characterized in that the biasing means comprises a helical spring ( 13 ) exhibit. Locking mechanism according to at least one of the preceding claims, characterized in that the actuator ( 10 . 27 ) is formed piezoelectrically, magnetostrictively or electromagnetically acting.