DE3103028A1 - Locking device for a lock, especially a vehicle-door lock having two different keys - Google Patents

Abstract

The invention relates to a locking device for a lock, especially a vehicle lock having two different keys, namely a normal key (N-key) and a special key (S-key) which, in addition to normal securing, also brings about a special securing of the lock. So that a space-saving construction is achieved and there is nevertheless a high degree of safety against probing in break-in attempts, the cylinder core of the lock is provided with perforations for electromagnetic radiation and the S-key is provided with potential conduction points for the electromagnetic radiation which, when the S-key is inserted, are aligned with the passages in the cylinder core. The cylinder guide surrounding the cylinder core is respectively provided, in the path of rotation of the cylinder-core passages, with mutually aligned transmitters and receivers for the electromagnetic radiation which define electromagnetic operating planes offset in terms of rotation relative to the zero position of the cylinder core which allows the N-key and S-key to be inserted and withdrawn. The receivers are each connected to an electronic evaluator which is programmed to the conduction-point code of the S-key and the output of which is connected to the lock members of the special securing device. <IMAGE>

Description

Password: "Rotation Activation"

Locking device for a lock, in particular a vehicle door lock with two different keys The invention is directed to a locking device for a lock, especially a vehicle door lock, with two different keys, namely a normal key (N key) that controls the normal security of the lock as well as a superordinate one, the normal and special security of the lock controlling special key (S-key) and with a lock cylinder consisting of a Cylinder core having tumblers and a locking grooves for the tumblers Cylinder guide consists, with the cylinder core for plugging in and unplugging the N and S-key each has a matching initial rotational position (zero position) and depending on the N or S key used on the lock links of the normal lock or acts on lock members of the special fuse when rotating the cylinder core in one direction of rotation each in a locking position and when turning in the The opposite direction can be reversed into an unlocked position, and the tumblers height-different sampling points for accordingly height-different incisions in the N and S keys, the mechanical one in the zero position of the cylinder core Determine the functional level between the N and S keys and the cylinder guide.

In the known locking device of this type (DE-OS 28 02 408) two coaxial cylinders are used in a cylinder guide Cylinder cores, which interact with different sections of the N and S keys. There flat keys are used for the simple construction of the lock cylinder, which are can be easily manufactured, a large overall length of the key is required to the number of sampling points required for a high permutation for the N- and S-function. Because of the constant zero position for plugging in and on of the N and S keys as well as by the corresponding rotation of the cylinder core in its two securing and unlocking positions is a simple structure and a convenient operation of the lock is achieved, but it is not sufficient Security of the lock achieved. There is a risk with appropriate Burglary tools the required height of the tumblers on the various To scan sampling points not only for the N but also for the S control and accordingly to produce an effective duplicate key. To reduce this danger, additional complex fixtures are required.

There are other locking devices known that instead of mechanical Interaction between key and lock a scan of the key use electromagnetic radiation, (DE-AS 15 53 363). The key is provided with breakthroughs, the electromagnetic Only allow radiation to pass through between a transmitter and a receiver at certain points and shield at all other points. About the risk of such locks being broken into to exclude with duplicate keys, complex electronic evaluators are required, which are expensive to manufacture and install, a considerable amount of space require in the lock and are prone to failure.

The invention is based on the object of a simple locking device of the type mentioned at the beginning to develop the one space-saving Has structure and is nevertheless highly secure against attempted break-ins excels.

This is achieved according to the invention in that the cylinder core has passages for electromagnetic radiation, the key with potential control centers for the electromagnetic radiation that occurs when the S-key is inserted are aligned with the passages in the cylinder core, and the cylinder guide with arranged in the rotary path of the cylinder core passages, each aligned with one another Transmitters and receivers for the electromagnetic radiation is provided opposite The zero position of the cylinder core rotated, electromagnetic functional levels determine between the S-key and the cylinder guide, and the recipients respectively on an electronic one programmed to the control center code (S-code) of the S-key Evaluators are connected, its output with the lock elements of the special fuse connected is.

The electromagnetic radio is in the zero position of the cylinder core tion levels offset in rotation and therefore via the passages of the cylinder core at all inaccessible. In addition, it is from the very existence of the passages in the cylinder core no recognizable S-code in the arrangement of the control centers on the key is required to make the lock members of the special fuse effective via the evaluator to be able to set. To get to the electromagnetic functional levels at all To be able to, the entire N-Code must first be determined, after which the tumblers first release the cylinder core for rotation. First of all, this requires the whole N-code comprehensive key. Then the rotary position can be found in which the Passages of the cylinder core with the transmitters and receivers of the electromagnetic radiation are aligned and thereby determine the electromagnetic functional level. In This aligned position is ultimately the S-Code in the staffing of the control centers on the key to determine what just by trying out the different Permutation possibilities can be achieved and therefore hardly any prospect of one has short-term success. The invention makes it possible to have a very large number of sampling points for the N-Code and the S-Code without the key and thus the lock to train unnecessarily long. The key does not need to be longer than it is for Accommodation of the mechanical sampling points for one due to the variety of permutations a sufficient number of tumblers is required. The one for the electromagnetic Scanning required control centers of the S-fuse are due to the aforementioned Rotational misalignment in a correspondingly extensive variety on the same length piece of the key without interfering with the other Only J S codes come. You can even use a simple flat key for that the mechanical scanning points are then turned towards the narrow sides while the radiation-sensitive control centers on the broad side of the key are sufficient Find space for their arrangement. With regard to the incision profile and its length sir.d formed identically in the invention of the N and S keys. you will be in this respect in accordance with a production machine in a certain setting manufactured. The only difference between the S key and the N key is that that it also has control centers for electromagnetic radiation and can thus be distinguished from the N-key at a glance.

The device for scanning the S-code is simple and reliable Simple YES-NO statements are sufficient for the coding. The control centers can then be arranged in a row along the broad side of the key, being their coding easy in the occupation of this web with the control centers for the radiation is generated. As a control center, one could use reflective surfaces for the Radiation or optical conversion elements for the radiation, such as prismatic elements, use, but it is sufficient to use openings in the key, for example consist of holes in a certain arrangement pattern. In the case of breakthroughs One could understand the S-Code not only through the arrangement but also through the dimensioning of the breakthroughs can be determined, creating an even greater variety of possible permutations. Such an encryption exists for unauthorized persons no prospect of being able to determine the S-code. Such breakthroughs could also be made form by incisions at the foot of the mechanical incision paths for the N fuse, the YES-NO statement provides a simple bit pattern. The electronic evaluator only needs the signals coming from the receivers with the signals stored in it Compare program which is directed to a particular S-Code. Of the For his part, the evaluator only needs to check whether the agreement is present or not not. In the event of a match, the evaluator output delivers a pulse, which acts on the lock members of the special fuse and this between their S-locked position and S-unlocked position reversed.

In the subclaims are further advantageous options in Structure of the locking device according to the invention explains what is related will be dealt with in more detail with the drawing, in which an exemplary embodiment of the Invention is shown. Show it: Fig. 1 partly in schematic Representation and partly in longitudinal section the essential part of the invention Lock with associated electrical connection elements, Fig. 2 is a cross-sectional view through the lock cylinder, the cylinder core of which is in an initial rotational position (zero position) is arranged and Fig. 3 and 4 the side views of associated keys, namely of a key in fig. 3 and an S-key in Fig. 4, from a vehicle door lock is shown in Fig. 1 of the lock cylinder 10, which consists of a permanently installed cylinder guide 11 and a cylinder core 12, each only schematically for clarification their mode of action are shown. The cylinder core 12 is radial with a S: har extending chambers 13 provided, which for receiving spring-loaded tumblers, in the present case of platelet tumblers, serve. The cylinder core 12 is also traversed by an axial key channel 14, which passes through the flock of chambers 13 passes through.

When the key is withdrawn, the cylinder core 12 does not get any closer Return springs shown in an initial rotational position, hereinafter referred to as zero position for short, held, in which the tumblers mentioned due to their spring action in locking grooves 15 of the cylinder guide 11 can intervene and therefore the cylinder core 12 cannot rotate hold firmly in the cylinder guide 11 In this zero position, only the normal fuse can be used The normal key 16 controlling the lock, hereinafter referred to as the N-key for short will be introduced into the key channel 14, which is at his a Key shank with a flat profile, towards its narrow sides, incision paths 17, which characterize its special mechanical coding. This for The code belonging to the normal backup, hereinafter referred to as the N code for short, is coordinated formed with the sampling points of the associated tumblers that are fully inserted Key interact with the height-different incisions. The profile the incision path 17 is dimensioned so that when the N-key is fully inserted 16 the tumblers are fully sorted into the cylinder core 12, which is shown in FIG is. Then the cylinder core 12 of the N-key 16 can optionally be in relation to one another rotate in the opposite direction, which is indicated in Fig. 2 by the two rotary arrows t and t ' is shown.

With such a rotation, a becomes non-rotatably with the cylinder core 12 connected, from Fig. 1 recognizable lever 18 taken along, the downstream on it, acts not shown in detail lock members, which are formed in the usual way, around the vehicle door lock in two different closed positions of the normal lock transferred, namely into a normal secured position and a normal unlocked position, which are hereinafter referred to as N-locking or N-unlocking for short. This depends on the direction of rotation g or t 'shown in FIG. 2.

In the normal position of the cylinder core 12, the aforementioned incision paths act 17 of the key, the tumblers with the locking grooves 15 of the cylinder guide 11 together, what determines the mechanical functional level indicated by dashed lines in FIG. 2. This zero position of the cylinder core 12 is indicated in FIG. 2 by the dash-dotted line Axial plane N marked, for which a transversely drilled passage 19 determining in the cylinder core 12 is whose special function later still needs to be explained in detail. If the cylinder core 12 is removed from the N key 16 in Direction of rotation t 'is moved, the aforementioned lock members are moved via the lever 18 reversed and are after a rotation path indicated by the angle α come into the N-locking position, which is indicated in Fig. 2 by the dash-dotted line Rotational position Zn is marked. If, however, the cylinder core 12 moves from its zero position N from in the opposite direction according to the rotary arrow 7 ', moved further, so leads the lever 18 the lock members in the N-unlocked position, which in the rotary position C (is completed when the cylinder core is in the plane En marked rotational position of Fig. 2 has passed. After releasing the key 16 reaches the cylinder core 12 due to its resilient spring load back to the zero position N.

The locking device comprises the already mentioned S-key 20, which is shown in Fig. 4 in side view. As a comparison with Fig. 3 shows, this S-key is exactly the same as the li-key 16 with regard to the N-code educated; the key shaft of both keys has the same flat profile as well as the same profiling of the incision paths 17. Both keys 16, 20 have a matching shaft length 21 and can due to their profile equality are produced jointly on one and the same manufacturing machine.

The S-key 20 is in the same zero position N as the key 16 is introduced into the cylinder core 12 and performs the same sorting there the whole crowd of tumblers and thereby makes the cylinder core 12 in the two Directions of rotation #, # in the cylinder guide 11 rotatable. This rotation results in first apply the same N control that was used above in connection with the angles of rotation CK and 0k 'was explained, but beyond that the S key 20 in a position to carry out a special special control, which, however, is not can be executed in the zero position N.

As FIG. 2 shows, the cylinder guide 11 is in rotational positions Zs and Es, which are rotationally offset by an angle of rotation p 'or ß with respect to the zero position N, with each equipped with a pair of transmitters 22, 22 'and receivers 23, 23', each in pairs at the given rotational position Zs and Es with the mentioned passage 19 des Cylinder core 12 are aligned and electromagnetic radiation, in particular Infrared light, send and receive. From the longitudinal section of Fig. 1 it can be seen that the cylinder core 12 with a whole host of such passages 19 for infrared light which are arranged in an axially aligned row. Through a any rotational misalignment of the passages 19 would result in an additional duplication from permutations of a special security code, which is described in more detail below and is to be referred to as the S code for short. The aligned arrangement has the advantage that the infrared transmitter 22 or

22 'can use a uniform strip-shaped light source that is installed in an axial groove 25 or 25 'of the cylinder guide 11. To the cylinder core 12, the transmitters 22, 22 'or

Receiver 23, 23 'with optical guide members, such as with small lenses 26, which serve to focus the infrared light.

The S-coding mentioned now consists in the fact that the S-key 20 is provided with potential control centers 27, 28, which in the case of FIG the broad side of the key made of perforations 27 or not perforated There are massive bodies 28 which are in accordance with dex location and arrangement the cylinder core passages 19 are located in the key shaft 21. When the S- key 20, these openings 27 or solid points 28 are in alignment with the cylinder core passages 19, which is of no importance in the zero position N, as already mentioned.

If the cylinder core 12 rotates in the direction of one Angle «1 has been moved, the passage 19 comes into alignment with the transmitter-receiver pair 22 ', 23', which is characterized by the aforementioned plane Zs electromagnetic Functional level determines where the S-code of the S-key 20 is scanned. The infrared light then only passes through those parts of the key shaft with are provided with a breakthrough 27 and acted upon the associated receivers 231. The uninterrupted massive points 28, where in the present case such There is no breakthrough, but shield the infrared light from the associated cylinder core passages 19 from, which is why the local recipients 23 'do not respond. This is done in this way the reading of the 8Code.

When turning the cylinder core 12 from the zero position N in the opposite Direction of rotation # reaches the group of passages 19 after a rotation through the angle β in alignment with the other transmitter-receiver pair 22, 23, which is a further, by the already mentioned dash-dotted line rs in Fig. 2 identified electromagnetic Functional level determined. Here the openings 27 are made in a corresponding manner or Masbrstellen 28 read in the shaft of the S-key 20, whereby accordingly the recipients there 23 are set effective and ineffective.

As Fig. 1 illustrates in more detail, each individual receiver 23 is over an electrical signal line 29 with an electronic one only indicated schematically Connected evaluator 30, which is connected via leads 31 from a voltage source 32 of the Vehicle is supplied.

The same voltage source 32 supplies it via further supply lines 33 jointly the individual transmitter 22 for the infrared light, which is analogous for the other transmitter 22 'mentioned applies. The evaluator 30 is in accordance with the S code of the key 20 programmed to a simple YES-NO statement. The signal lines 29 are connected to the inputs labeled a to h in FIG. 1.

According to the selected S-code of the key 20 appears on these Inputs a to h a YES-NO signal sequence, which the evaluator 30 only with the stored program needs to be compared. With the present key if he were in the rotational position of the electromagnetic functional plane Es is located, due to the selected S-code of Fig. 4 only at the inputs a, c, d, f and h a YES signal appears, while the other inputs b, e and g in the present case have a NO signal. Because it is the proper one S key 20, the program in the evaluator 30 is matched to this signal sequence, which is why an electrical control signal is then emitted at output 34 of evaluator 30, which can be converted into a mechanical movement, which is not shown in detail Lock links in the vehicle door in this case in their S-unlocked position be convicted. Such lock members can, for example, consist of an internal fuse the vehicle door exist, which by the control signal at output 34 in their release position is brought.

For the receiver 23 'shown in FIG. 2 in the other electromagnetic Functional level Zs, corresponding signal lines 29 'are provided, as well as the local transmitter 22 'have their respective mentioned supply lines 33'. the Signal lines 29 'are each connected to corresponding inputs a' to h 'of another electronic evaluator 30 'connected to the same program as the evaluator 30 has because he's on the same S-code of the key 20 should address. As already mentioned above, this happens when the cylinder core 12 with its passages 19 in the rotational position of the electromagnetic functional plane Zs arrives, whereby a control signal arrives at its output 34 'and possibly. In a mechanical movement impulse is converted, which the lock links in a S-lock position brings, e.g.

an internal security device of the vehicle door is placed in a locked position.

As can be seen from Fig. 4, the S code is on the broad side 35 of the flat-profiled key shank, where the mentioned on the shank narrow sides Incision paths 17 lie, which determine the N code. As can be seen, extends the N and S codes over the same shaft length 21 without these two Codes hinder each other. The entire shaft length 21 can be used both for the N-Code 17 as well as for the S-Code 27, 28 can be used. So you can for both Codes accommodate a large number of reading points that have a high variety of permutations result.

Despite the use of two independent codes with a high number of permutations the keys 16, 20 have a surprisingly short shaft length 21. Accordingly The lock cylinder 10 can be made short. Because of the rotational misalignment of the electromagnetic Functional levels Zs and Es in relation to the normal position N can be those areas of the cylinder guidance 11 are used to accommodate the said transmitters and receivers 22 to 23 ', which previously had no particular significance, because no locking grooves 15 are provided there needed to become. The invention therefore uses those that are already available Circumferential areas of the lock cylinder to accommodate the control means for the Infrared light off.

As can be seen, the S key 20 is used to operate the S fuse or 6-unlocking in the same direction of rotation p 'resp.

to turn, in which the rotation o ('or O (for the N fuse respectively. N-release was necessary. A special way of handling does not need to be observed to become. As can be seen, there is level Zn for the implementation of the N security the functional level Zs for the S fuse. When using an S-key 20, which is moved in the direction of rotation t ', are therefore initially the lock members after a Angle of rotation c <'' be brought into its N-locking position in position Zn, while only with a further rotation through the angle p @ in the rotary position Zs die Securing the lock is triggered. If an N-key 16 is used, the only has an N-code but no S-code, then only takes place in the rotational position Zn the N fuse, while even with further rotation in the angle d 'or none 5 functions are carried out in the lock; the lock behaves according to the invention then as if its lock links were in a free-wheeling position in this case are located. The same thing would happen if a key were used which does not have the correct S-code for which the evaluator 30 / is set up.

When the S-key 20 is turned in the direction of rotation #, the same thing happens, but in a different order, which is the result of the reversal of the two rotational positions Es and En can be seen in relation to the aforementioned rotational positions Zs and Zn. After a Rotation of the cylinder core 12 from the zero position N by an angular amount β that is smaller is formed as the aforementioned angle n ', the S code of the key becomes 20 It is sensed in the function level and the lock links are in their S-unlocked position brought first. Is there a wrong key 20 or just an N-key? 16 before, there are no S functions in the rotational position Es.

In both cases, i.e. when using an N-key 16 and one S-key 20, the lock links are finally in the Turning position En brought into its N-unlocked position, where the vehicle door is in the open position is to bring. This ensures that the N and S functions are neither can interfere with each other when securing or unlocking and it can lead to malfunctions comes in the castle.

In order to save energy, the transmitters and receivers are 22-bis 23 'and the evaluators 30, 30' in the invention only effective if a key 16 or 20 is inserted in the lock cylinder 10. This is done automatically by one Switch 36 is controlled, which is arranged behind the lock cylinder 10 in the present case is.

From the mentioned voltage source 32 outgoing 'supply lines 37 for the aforementioned supply lines 31, 33 and 33 'are routed via the switch 36. The switch 30 has a contact bridge 39 movable by a control pin 38, which strives under the action of a schematically indicated return spring 41 to go into the open position and thereby interrupt the circuit. this is regularly present when no key 16, 20 is in the lock cylinder 10. However, if such a key, as shown in FIG. 1, has been inserted, the tip of the key presses on an axially displaceable bolt 40 which acts on the control pin 38 and thereby the contact bridge 39 closes. When the key is inserted, the Transmitter and receiver 22 to 23 'also energized as the evaluators 30, 30 '. The S-code can be scanned.

From Fig. 4 it can finally be seen that the two alternatives Marks 27, 28 of the S-code in an aligned row 42 on the broad side of the key 35 are arranged. This corresponds to the orientation of the cylinder core passages mentioned above 19 in a common axial plane. If these passages 19 because of the mentioned additional variety also rotatably offset to each other arranged could be, the arrangement of these S-code marks 27, 28 would also be accordingly lie differently. To further increase the variety of variations, the feature Different sized opening widths of the breakthroughs 27 included be, whereby the further feature of a different at the receivers 23 and 23 ' Illuminance was revealed.

Password: "Rotation activation" List of reference numbers: 10 Lock cylinder 11 Cylinder guide 12 Cylinder core 13 Chamber 14 Key channel 15 Locking groove 16 N key 17 Incision path, N code 18 Lever (N fuse) 19 Passage 20 S key 21 Shaft length of 16, 20 22, 22 'transmitter 23, 23' receiver 24 25, 25 'axial groove 26 optical lens 27 control center, breakthrough 28 continuous solid shaft 29, 29' signal line 30, 30 'evaluator 31 supply line 32 voltage source 33, 33' supply line 34, 34 'output (S-fuse) 35 broadside of 21 36 switch 37 supply line 38 control pin 39 contact bridge 40 bolt 41 return spring 42 row arrangement of 27, 28 o (angle N-unlocking position 0 (1 @ angle N-locking position angle S-unlocking position ß 'angle S- Safety position Rotating arrow in unlocking direction Rotating arrow in safety direction N zero position Zs electromagnetic functional level of the S-locking position Zn execution of the N-locking position Es electromagnetic function ene of the S-unlocking position En execution of the N-unlocking position a, a ' b, b ' c, c ' d, d 'entrance from 30 or 30' e, e ' f, f ' g, g ' h, h '

Claims (5)

Password: "Turn activation" Claims: Locking device for a Lock, especially a vehicle door lock, with two different keys, namely a normal key (N key) that controls the normal security of the lock as well as a superordinate one, the normal and special security of the lock controlling special key (S-key) and with a locking cylinder that is made from a cylinder core with tumblers and a locking groove for the tumbler having cylinder guide, the cylinder core for plugging in and on of the N and S keys each have a corresponding initial rotational position (zero position) and depending on the N or S key used on lock links the normal fuse or lock members of the special fuse acts that when Rotation of the cylinder core in one direction of rotation in each case in a 8cherungssteliung and can be reversed into an unlocked position when turning in the opposite direction are, and the tumblers height-different sampling points for accordingly height-different Have incisions in the N and S keys, those in the zero position of the cylinder core is a mechanical function level between the N and S keys and the cylinder guide determine that the cylinder core (12) has openings (19) for electromagnetic radiation, the S key (20) with potential control centers (27, 28) for the electromagnetic Radiation is provided with the inserted S-key (20) with the passages (19) are aligned in the cylinder core (12), and the cylinder guide (11) with im DDrehweg (#, #) of the cylinder core passages (19) arranged, each with one another aligned transmitters (22, 22 ') and receivers (23, 23') for the electromagnetic Radiation is provided which is offset in rotation with respect to the zero position (N) of the cylinder core (12), electromagnetic functional levels (Zs, Es) between the S-key (20) and the Determine cylinder guide (11), and the receiver (23, 23 ') each on one the control center code (S code) (27, 28) of the S key (20) programmed electronic Evaluators (30, 30 ') are connected, the output (34, 34') of which with the lock members the special fuse is connected. 2.) Locking device according to claim 1, characterized in that the control centers in the S-key (20) consist of openings (27), their arrangement and / or dimensioning forms the S code. 3.) Locking device according to claim 1 or 2, characterized by two independent pairs of transmitters (22, 22 ') and receivers (23, 23') for the electromagnetic Radiation, which has two different electromagnetic functional levels (Zs, It) between the S-key (20) and the cylinder guide (11) determine of which one pair in the rotary path (t in the locking position and the other pair in the rotary path (#) are in the unlocked position. 4.) Locking device according to claim 3, characterized in that in the rotational path (t ') of the cylinder core (12) in the locking position the electromagnetic Function level (Zs) for the S-fuse (9 '> behind the angular position (CX') for the completion of the N fuse (Zn) is arranged and in the rotation path (#) of the cylinder core In the unlocked position, the electromagnetic function level (Es) for the S-fuse (f) in front of the angular position (y) for the execution of the N-release (En) lies. 5.) Locking device according to claim 4, characterized in that - in relation to the zero position (N) - the angle (r) for the electromagnetic functional level (Es) to the S-unlocking position smaller than the angle (ß ')') for the electromagnetic Functional levels (Zs) is designed for S-securing position.