(19)
(11) EP 1 752 601 B1

(12) EUROPEAN PATENT SPECIFICATION

(45) Mention of the grant of the patent:
07.09.2011 Bulletin 2011/36

(21) Application number: 06014728.7

(22) Date of filing: 14.07.2006
(51) International Patent Classification (IPC): 
E05B 29/00(2006.01)

(54)

Reprogrammable lock

REPROGRAMMIERBARES SCHLOSS

Verrou reprogrammable


(84) Designated Contracting States:
AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IS IT LI LT LU LV MC NL PL PT RO SE SI SK TR

(30) Priority: 08.08.2005 IT MI20051507

(43) Date of publication of application:
14.02.2007 Bulletin 2007/07

(73) Proprietor: Giussani Techniques S.P.A.
20033 Desio MI (IT)

(72) Inventor:
  • Pagnoncelli, Marco
    20033 Desio (MI) (IT)

(74) Representative: Petruzziello, Aldo et al
Racheli S.R.L. Viale San Michele del Carso, 4
20144 Milano
20144 Milano (IT)


(56) References cited: : 
WO-A-98/40589
US-A- 1 917 302
GB-A- 1 554 877
US-A- 4 069 694
   
       
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description


    [0001] The present invention refers to a reprogrammable lock which makes it possible, through rotation of the rotor by means of special reprogrammable keys, to modify the key reading mechanism, thus allowing the lock to operate with keys which have different codes from those used previously and thus preventing the latter from operating the lock.

    [0002] Reprogrammable locks are known to the art which in any case present some drawbacks, such as for example structural complexity, difficult industrial production, complicated reprogramming operations, and poor safety and reliability.

    [0003] Reprogrammable locks are disclosed, for example, by WO 98/40589, US 1 917 302, GB 1 554 877 and US 4 069 694; in particular:
    • WO 98/40589 discloses a cylinder lock according to the preamble of claim 1 programmable through master keys;
    • US 1 917 302 discloses a multiple key lock, preferably arranged for operation with a master key;
    • GB 1 554 877 disclose a resettable lock assembly; and
    • US 4 069 694 discloses a double-barrel double-plug cylindrical lock, wherein a first plug is operated by a user key and the other plug is operated by a program key for setting the first plug to be operated by a different user key.


    [0004] The object of this invention is to produce a reprogrammable lock which can be produced industrially, which has particular features of mechanical strength and resistance to attempts at picking, whichcan be reprogrammed with rapid, safe operations by the user, and which can be programmed only by those holding special programming keys.

    [0005] This object is achieved in accordance with the invention with the characteristics listed in appended independent claim 1.

    [0006] Advantageous embodiments of the invention are apparent from the dependent claims.

    [0007] The reprogrammable lock according to the invention comprises:
    • a stator in the form of a hollow cylinder,
    • a rotor in the form of a cylindrical block mounted rotatably inside the stator, and
    • a locking and programming mechanism disposed inside the rotor.


    [0008] The locking and programming mechanism comprises:
    • a plurality of key reading plates disposed transversally inside the rotor and provided with slots disposed in register with each other to allow the passage of a user or programming key whose coding profile defines the movement of said key-reading plates,
    • a plurality of locking plates mounted transversally in said rotor and provided with an end that protrudes outward from the rotor to engage in a cavity defined inside said stator so as to block rotation of the rotor with respect to the stator, said locking plates being able to couple with said key-reading plates so as to be able to be moved into an unlocking position to allow rotation of the rotor with respect to the stator,
    • at least two lateral inserts destined to be disposed transversally in said rotor, integral with the locking plates and provided with an arched surface adapted to slide on the inner surface of the stator acting as a cam, said lateral inserts being radially movable for effecting coupling between said locking plates and said key reading plates, and
    • a rotation stopping plate disposed transversally inside said rotor and provided with a slot disposed in register with the slots of said key reading plates to allow the passage of the user key or the programming key, and having one end that, in the state in which the lock is supplied to the client, protrudes outward from the rotor to engage in a cavity defined inside said stator so as to block rotation of the rotor with respect to the stator, and being adapted to be operated only by the programming key to unlock rotation of the rotor with respect to the stator.


    [0009] Further characteristics of the invention will be made clearer by the detailed description that follows, referring to a purely exemplifying and therefore non limiting embodiment thereof, illustrated in the appended drawings, in which:

    Figure 1 is a perspective view, illustrating all the members of the reprogrammable lock according to an embodiment of the invention exploded;

    Figures 2 and 2A are two cross sectional views of the assembled lock according to an embodiment of the invention, taken respectively along the plane of a rotation stopping plate and of a key reading plate, in which the lock is in the initial state as supplied;

    Figures 3 and 3A are two views like Figures 2 and 2A, in which the programming key has been inserted into the lock;

    Figures 4 and 4A are two views like Figures 2 and 2A, in which the rotor has been turned 45° to carry out programming of the lock;

    Figures 5 and 5A are two views like Figures 2 and 2A, in which the programming key has been removed once programming has been carried out;

    Figures 6 and 6A are two views like Figures 2 and 2A, in which the user key has been inserted into the lock;

    Figures 7 and 7A are two views like Figures 2 and 2A, in which the rotor has been rotated 180° with respect to the situation illustrated in Figures 6 and 6A.



    [0010] A reprogrammable lock according to an embodiment of the invention is described with the aid of the figures. Figure 1 shows the reprogrammable lock according to an embodiment of the invention, with all its details exploded.

    [0011] The lock comprises a stator 1, with a substantially hollow cylindrical shape, provided with an axial hole 1a to contain a rotor 2 in the form of a small cylinder that can rotate inside the stator 1.

    [0012] In the inside surface of the stator 1, inside the hole 1a, cavities 1c (four like opposed cavities) and 1b are defined, adapted to be used to house the members of the lock mounted in the rotor 2 as will be described hereunder.

    [0013] The rotor 2 is composed of a cylindrical body wherein are formed cavities which contain the various members of the reprogramming mechanism of the lock. For this purpose transverse cavities 2b are formed on the side surface of the rotor 2, adapted to receive respective key reading plates 3 and respective springs 12 which bias the key reading plates 3 radially outward. To be precise, a first group of four key reading plates 3 is inserted in a first row of transverse slots 2b and a second group of five key reading plates 3 is inserted in a second row of transverse slots 2a disposed in an opposite position to the first row.

    [0014] Again in the lateral surface of the rotor 2, near the ends thereof, two transverse seats 2f are formed, adapted to house lateral inserts 6 with respective springs 13 which bias the lateral inserts 6 radially outward.

    [0015] Again in the lateral surface of the rotor 2, between the two rows of seats 2b, there is a row of transverse seats 2a adapted to receive respective locking plates 4. To be precise, nine locking plates 4 are provided, that is to say a number equal to the number of key reading plates 3. Each locking plate 4 receives a respective programming plate 5 adapted to couple with a respective key reading plate 3, as will be described hereunder.

    [0016] In the lateral surface of the rotor 2, near the front end thereof, a last transverse cavity 2c is provided, which serves to contain a rotation stopping plate 10 and the spring thereof 12 which biases it radially outward.

    [0017] In the front part of the rotor 2 there is a first longitudinal cavity 2d which serves to receive a user key 8 or a programming key 9, as will be described hereunder.

    [0018] Again in the front part of the rotor 2 there is a second longitudinal cavity 2e which serves for insertion of a pin 7 which is used to join the locking plates 4, the programming plates 5, the lateral inserts 6 and the respective springs 13 in a single body.

    [0019] The key reading plates 3 have a shaped cavity 3a with a protruding tooth 3c which serves for the passage and reading of the coding profile 8b, 9b present on the keys 8, 9.

    [0020] The outer part of each key reading plate 3 has teeth 3b which couple with matching teeth 5a provided on the outer part of each programming plate 5. In this manner, the key reading plates 3 and the programming plates 5 form a single group, thus determining coding. The key reading plates 3 never protrude beyond the edge of the outer diameter of the rotor 2, and their function is solely that of adapting to the coding profile 8b, 9b produced on the key 8, 9, without interfering with rotation of the rotor 2 with respect to the stator 1.

    [0021] The bottom part of each key reading plate 3 has an undercut seat 3d where the respective spring 12 is housed.

    [0022] The locking plates 4 have a seat 4a which serves to contain the programming plates 5. In the locking plates 4 there is furthermore a slot or hole 4b which serves for passage of the pin 7. The locking plates 4 have one end which protrudes outward from the rotor 2 entering into the cavity 1c of the stator 1 to block rotation of the rotor 2 if an unauthorized person attempts to open the lock with a key with different coding from that of programming or use.

    [0023] The programming plates 5 have teeth 5a which engage with the teeth 3b of the key reading plates 3 which determine coding of the user key during programming. The programming plates 5 have a slot or hole 5b to receive the pin 7 so as to form a single body integral with the locking plates 4 and the lateral inserts 6.

    [0024] The lateral inserts 6 have an arched surface 6b adapted to slide on the inside surface of the stator 1. The inside surface of the stator acts as a cam, whereas the arched surface 6b of the lateral inserts 6 acts as a cam follower.

    [0025] The lateral inserts 6 further comprise a hole 6a for insertion of the pin 7 and another blind hole (not shown) which contains the respective springs 13. The lateral inserts 6 thus serve to move the programming plates 5 integrally with the locking plates 4.

    [0026] The front rotation stopping plates 10 have a seat 10a adapted to allow the user key 8 or the programming key 9 to pass therein. The end of the rotation stopping plate 10 protrudes from the rotor 2 to engage partially in the cavity 1b of the stator 1 and block rotation of the rotor. The rotation stopping plate 10 is also used as an anti-picking plate, in that it is made of a material that withstands attempts at drilling or forcing with blunt instruments. In the outer part of the rotation stopping plate 10 there is a relief cut 10b which provides a housing for the spring 12.

    [0027] A rotation limiter 11 consisting of a circular plate which has a square hole 11a and a tooth 11b is disposed in the rear part of the rotor 2. The rotation limiter 11 is applied in the rear part of the rotor 2 to limit rotation of the rotor during 90° opening of the lock.

    [0028] In the front part of the rotor 2 is disposed a hood 14 which has in its front part a cavity 14a destined to be disposed in register with the cavity 2d for passage of the user key 8 or of the programming key 9.

    [0029] The lock according to the invention is supplied with two keys 8 and 9, with coding profiles 8b and 9b identical to each other. These are reversible keys with a two-track inner profile. One is the programming key 9 and the other is the user key 8.

    [0030] The programming key 9 differs from the user key 8 in that it has two teeth 9a and relative relief cuts formed at the end of the shank of the coding plane 9b, at the shoulder of the key. The teeth 9a of the programming key serve to operate the rotation stopping plate 10, which is the first plate in the rotor 2, in the direction of insertion of the key.

    [0031] Operation of the lock according to the invention, which takes place by means of a sequence of operations, is described hereunder with reference to Figures 2-7A.

    [0032] The assembled lock, in the state in which it is supplied to the client, is as illustrated in Figures 2 and 2A. As shown in Figure 2, the rotation stopping plate 10 is locked in the cavity 1b of the stator 1, preventing rotation of the rotor 2 with respect to the stator 1 in both a clockwise and a counterclockwise direction. The lateral insert 6 is disposed in the cavity 1c of the stator 1 and prevents rotation of the rotor only in a counterclockwise direction. As shown in Figure 2A, the teeth 3b of the key reading plates 3 are opposed to the teeth 5a of the programming plates 5, that is to say they are misaligned with respect to the grooves defined by the teeth 5a of the programming plates 5.

    [0033] This condition is called the programming condition because in this position the lock must be programmed, giving the lock a missing characteristic, namely the ability to read only a key coding, so that it is used univocally by the owner of the programming key. From this position, the special programming key 9 must be inserted into the slot 2d of the rotor 2 in order to be able to programme the lock.

    [0034] As shown in Fig. 3, once the programming key 9 has been inserted into the lock, the teeth 9a of the programming key 9 move the rotation stopping plate 10 from the cavity 1b of the stator 1, so that the whole rotor assembly 2 can subsequently rotate to the position in which programming has been accomplished, that is, 45° clockwise with reference to the figures. Before proceeding with rotation of the rotor 2, it should be noted that the rotor 2 is unable to rotate counterclockwise because of the lateral insert 6 which abuts against a plane of the cavity 1c of the stator 1, as shown in Figures 2 and 3.

    [0035] Furthermore, with insertion of the programming key 9, Figure 3A the key reading plates 3, thanks to the bias of the relative springs 12, come to rest on the coding profile 9b of the programming key 9, correct alignment between the teeth 3b of key reading plates 3 and the grooves defined between the teeth 5a of the programming plates 5 thus taking place.

    [0036] As shown in Figure 4, during programming (45° rotation of the rotor 2) the curved surfaces 6b of the lateral inserts 6 slide along a curve 1d defined in the inner surface of the stator 1 which is eccentric to the axis of the lock. Consequently the lateral inserts 6 move towards the centre of the rotor 2.

    [0037] During this operation, the lateral inserts 6, by means of the pin 7, pull the programming plates 5 (Figure 4A) inserted in the seat 4a formed in the locking plates 4, until they couple with the key reading plates 3. In this manner, through meshing of the teeth 3b and 5a of the key reading plates 3 and the programming plates 5, an integral assembly is created between the key reading plates 3, the locking plates 4 and the programming plates 5.

    [0038] Once programming of the lock is completed, the rotor 2 is unable to continue its rotation beyond 45°, in that, as shown in Figure 4, the rotation stopping plate 10 abuts against a plane of the cavity 1c present in the stator 1.

    [0039] The next stage will be that of withdrawing the programming key 9 and inserting the user key 8 with coding 8b identical to the previous one 9b.

    [0040] As shown in Figures 5 and 5A, in the situation of the lock being closed without the key inserted, it is impossible for the rotor 2 to make any type of rotation. In fact, the rotation stopping plate 10 and the locking plate 4, being part of the integral assembly of plates 3, 4, and 5 previously described, through the bias of their springs 12, position themselves in the cavity 1c of the stator 1.

    [0041] Figures 6 and 6A show the situation in which the user key 8 is inserted in the slot 2d of the rotor. With reference to Figure 6A, during this operation the key reading plates 3 rest on the coding profile 8b of the key 8. As a result the assembly of plates 3, 4 and 5 moves integrally, aligning itself externally to the outside diameter of the rotor 2, so as to allow 180° rotation thereof, as shown in Figure 7A.

    [0042] With reference to Fig. 6, in the same situation, the rotation stopping plate 10, through the spring 12 which biases it, comes to rest on the user key 8, which is lower in its working section than the programming key 9. Because of this the rotation stopping plate 10 is caused to be moved towards the centre of the rotor 2.

    [0043] This causes alignment of the rotation stopping plate 10 with the rotor 2 in the upper part, whereas in the lower part the rotation stopping plate 10 will abut against an outer wall 1e of one of the cavities 1c present in the stator 1.

    [0044] In this condition the rotor can freely rotate 180°clockwise, as shown in Figure 7.

    [0045] The rotation stop at 180° is formed at the shoulder of the rotor 2 which abuts against a wall If of the cavity 1c.

    [0046] In this position, called the "lock open" position, the key 8 can be withdrawn.

    [0047] It should be specified that withdrawal and insertion of the keys 8, 9 is determined by the condition which gives the locking plates 4 the possibility of being able to protrude from the line of the outside diameter of the rotor 2. In fact the codes 8b and 9b produced on the keys are of different heights, and are read by the key reading plates 3, integral with the locking plates 4 and the programming plates 5. Thus during linear movement of the key 8, 9, a movement of the integral group of plates 3, 4 and 5 is caused which is possible only in the 0° and 180° positions, coinciding with the cavities 1c formed in the stator 1.

    [0048] Moreover, when the user key 8 inserted does not have the same coding as the programming key 9 (typical in attempts at breaking in with the use of forged keys) the no key situation described with reference to Figures 5 and 5A is recreated. The differences in coding between the two keys 8 and 9 mean that a part of the locking plates 4 are positioned inside the cavity 1c of the stator 1, thus preventing normal operation of the lock.

    [0049] Numerous variations and modifications of detail within the reach of a person skilled in the art can be made to the present embodiment of the invention without thereby departing from the scope of the invention as set forth in the appended claims.


    Claims

    1. A reprogrammable lock comprising:

    - a stator (1) in the form of a hollow cylinder,

    - a rotor (2) in the form of a cylindrical block mounted rotatably inside the stator (1),

    - a plurality of key reading plates (3) disposed transversally inside the rotor (2),

    - a plurality of locking plates (4) mounted transversally in said rotor (2) and provided with one end which protrudes outward from the rotor (2) to engage in a cavity (1c) defined inside said stator (1) so as to block rotation of the rotor (2) with respect to the stator (1), said locking plates (4) being able to couple with said key reading plates (3) so as to be able to be moved into an unlocking position to allow rotation of the rotor (2) with respect to the stator (1);
    characterised in that said key reading plates (3) are provided with slots (3a) disposed in register with one another to allow the passage of a user key or a programming key (8, 9) whose coding profile (8b, 9b) defines the movement of said key reading plates (3),
    and in that it further comprises:

    - at least two lateral inserts (6) destined to be disposed transversally in said rotor (2) integral with the locking plates (4), said lateral inserts (6) being provided with an arched surface (6b) adapted to slide on the inner surface of the stator (1) acting as a cam, said lateral inserts (6) being radially movable for effecting coupling between said locking plates (4) and said key reading plates (3), and

    - a rotation stopping plate (10) disposed transversally inside said rotor (2) and provided with a slot (10a) disposed in register with the slots (3a) of said key reading plates to allow the passage of the user key or the programming key (8, 9), said rotation stopping plate (10) being provided with an end which, in the state in which the lock is supplied to the client, protrudes outward from the rotor (2) to engage in a cavity (1b) defined inside said stator (1) so as to block the rotation of the rotor (2) with respect to the stator (1) and being adapted to be operated only by the programming key (9) to unlock rotation of the rotor with respect to the stator.


     
    2. A reprogrammable lock according to claim 1, characterised in that each locking plate (4) has a seat (4a) adapted to receive a programming plate (5) that can couple with a respective key reading plate (3).
     
    3. A reprogrammable plate according to claim 2, characterised in that said locking plates (4), said programming plates (5) and said lateral inserts (6) have respective holes or slots (4b, 5b, 6a) aligned to receive a pin (7) so as to form an integral assembly.
     
    4. A reprogrammable lock according to claim 2 or 3, characterized in that said key reading plates (3) have outer teeth (3b) adapted to couple in a clamping relationship with matching outer teeth (5a) formed in said programming plates (5).
     
    5. A reprogrammable lock according to any one of the preceding claims, characterised in that each key reading plate (3) has an undercut seat (3d) adapted to receive a spring (12) which is interposed between the key reading plate (3) and the rotor (2).
     
    6. A reprogrammable lock according to any one of the preceding claims, characterised in that said rotation stopping plate (10) has a relief cut (10b) adapted to receive a spring (12) which is interposed between the rotation stopping plate (10) and the rotor (2).
     
    7. A reprogrammable lock according to any one of the preceding claims, characterised in that each lateral insert (6) has a hole in the wall opposite its curved wall (6b) to receive a spring (13) which is interposed between the lateral insert (6) and the rotor (2).
     
    8. A reprogrammable lock according to any one of the preceding claims, characterised in that said rotor (2) comprises:

    - two opposed rows of transverse seats (2b) to receive said key reading plates (3),

    - a row of transverse seats (2a) to receive said locking plates (4),

    - two transverse seats (2f) disposed near the side ends to receive said lateral inserts (6),

    - a transverse seat (2c) to receive said rotation stopping plate (10), and

    - a longitudinal slot (2d) to allow insertion of the user key or the programming key (8, 9).


     
    9. A reprogrammable lock according to claim 8, when it is dependent on claim 3, characterised in that said rotor (2) comprises a longitudinal hole or slot (2e) adapted to allow the passage of said pin (7) which constrains the locking plates (4), the programming plates (5) and the lateral inserts (6).
     
    10. A reprogrammable lock according to any one of the preceding claims, characterised in that said stator (1) has in its inner surface four diametrically opposed seats (1c) to receive the end of said locking plates (4) and of said rotation stopping plate (10) and a seat (1b) to receive said arched surface (6b) of said lateral inserts (6).
     


    Ansprüche

    1. Reprogrammierbares Schloss, umfassend:

    - einen Stator (1) in der Form eines hohlen Zylinders,

    - einen Rotor (2) in der Form eines zylindrischen Blocks, drehbar befestigt im Inneren des Stators (1),

    - mehrere Schlüsselabtast-Plättchen (3), in Querrichtung angeordnet im Inneren des Rotors (2),

    - mehrere Sperrplättchen (4), in Querrichtung befestigt in dem Rotor (2), und mit einem Ende versehen, welches von dem Rotor (2) nach außen vorsteht, zum Eingreifen in eine Vertiefung (1c), die im Inneren des Stators (1) definiert ist, derart dass eine Drehung des Rotors (2) blockiert wird, bezogen auf den Stator (1), wobei die Sperrplättchen (4) mit den Schlüsselabtast-Plättchen (3) gekoppelt sein können, derart, dass sie in eine entsperrte Position bewegt werden können, zum Ermöglichen einer Drehung des Rotors (2), bezogen auf den Stator (1),
    dadurch gekennzeichnet, dass die Schlüsselabtast-Plättchen (3) mit länglichen Löchern (3a) versehen sind, welche in einem Register miteinander angeordnet sind, zum Ermöglichen des Durchlassens eines Benutzerschlüssels oder eines Programmierschlüssels (8, 9), dessen Codierprofil (8b, 9b) die Bewegung der Schlüsselabtast-Plättchen (3) definiert,
    und dadurch, dass es ferner umfasst:

    - wenigstens zwei seitliche Einsätze (6), dazu bestimmt, in Querrichtung in dem Rotor (2) angeordnet zu sein, als Einheit mit den Sperrplättchen (4), wobei die seitlichen Einsätze (6) mit einer bogenförmigen Fläche (6b) versehen sind, die angepasst ist zum Gleiten an der inneren Fläche des Stators (1), welche als eine Innenkurve wirkt, wobei die seitlichen Einsätze (6) in radialer Richtung beweglich sind, zum Bewirken eines Koppelns zwischen den Sperrplättchen (4) und den Schlüsselabtast-Plättchen (3), und

    - ein Plättchen (10) zum Stoppen der Drehung, in Querrichtung angeordnet im Inneren des Rotors (2) und versehen mit einem länglichen Loch (10a), welches in einem Register mit den länglichen Löchern (3a) der Schlüsselabtast-Plättchen angeordnet ist, zum Ermöglichen des Durchlassens des Benutzerschlüssels oder des Programmierschlüssels (8, 9), wobei das Plättchen (10) zum Stoppen der Drehung mit einem Ende versehen ist, welches, in dem Zustand, in dem das Schloss an den Kunden geliefert wird, von dem Rotor (2) nach außen vorsteht, zum Eingreifen in eine Vertiefung (1b), die im Inneren des Stators (1) definiert ist, derart dass die Drehung des Rotors (2), bezogen auf den Stator (1), blockiert wird, und wobei es angepasst ist, nur durch den Programmierschlüssel (9) betätigt zu werden, zum Entsperren einer Drehung des Rotors, bezogen auf den Stator.


     
    2. Reprogrammierbares Schloss nach Anspruch 1, dadurch gekennzeichnet, dass jedes Sperrplättchen (4) eine Aufnahme (4a) aufweist, welche angepasst ist zum Aufnehmen eines Programmierplättchens (5), das mit einem jeweiligen Schlüsselabtast-Plättchen (3) gekoppelt sein kann.
     
    3. Reprogrammierbares Schloss nach Anspruch 2, dadurch gekennzeichnet, dass die Sperrplättchen (4), die Programmierplättchen (5) und die seitlichen Einsätze (6) jeweilige Öffnungen oder längliche Löcher (4b, 5b, 6a) aufweisen, die ausgerichtet sind zum Aufnehmen eines Dorns (7), derart, dass ein Aufbau als Einheit gebildet ist.
     
    4. Reprogrammierbares Schloss nach Anspruch 2 oder 3, dadurch gekennzeichnet, dass die Schlüsselabtast-Plättchen (3) äußere Zähne (3b) aufweisen, welche angepasst sind, in einer festhaltenden Beziehung mit passenden äußeren Zähnen (5a) gekoppelt zu sein, die in den Programmierplättchen (5) gebildet sind.
     
    5. Reprogrammierbares Schloss nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass jedes Schlüsselabtast-Plättchen (3) eine eingeschnittene Aufnahme (3d) aufweist, welche angepasst ist zum Aufnehmen einer Feder (12), die zwischen dem Schlüsselabtast-Plättchen (3) und dem Rotor (2) angebracht ist.
     
    6. Reprogrammierbares Schloss nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das Plättchen (10) zum Stoppen der Drehung einen Relief-Einschnitt (10b) aufweist, welcher angepasst ist zum Aufnehmen einer Feder (12), die zwischen dem Plättchen (10) zum Stoppen der Drehung und dem Rotor (2) angebracht ist.
     
    7. Reprogrammierbares Schloss nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass jeder seitliche Einsatz (6) eine Öffnung in der Wand gegenüber seiner bogenförmigen Wand (6b) aufweist, zum Aufnehmen einer Feder (13), welche zwischen dem seitlichen Einsatz (6) und dem Rotor (2) angebracht ist.
     
    8. Reprogrammierbares Schloss nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der Rotor (2) umfasst:

    - zwei gegenüberliege Reihen von Aufnahmen (2b) in Querrichtung zum Aufnehmen der Schlüsselabtast-Plättchen (3),

    - eine Reihe von Aufnahmen (2a) in Querrichtung zum Aufnehmen der Sperrplättchen (4),

    - zwei Aufnahmen (2f) in Querrichtung, angeordnet nahe den Seitenrändern, zum Aufnehmen der seitlichen Einsätze (6),

    - eine Aufnahme (2c) in Querrichtung zum Aufnehmen des Plättchens (10) zum Stoppen der Drehung, und

    - ein längliches Loch (2d) in Längsrichtung zum Ermöglichen eines Einführens des Benutzerschlüssels oder des Programmierschlüssels (8, 9).


     
    9. Reprogrammierbares Schloss nach Anspruch 8, wenn abhängig von Anspruch 3, dadurch gekennzeichnet, dass der Rotor (2) eine Öffnung oder ein längliches Loch (2e) in Längsrichtung umfasst, angepasst zum Ermöglichen des Durchlassens des Dorns (7), welcher die Sperrplättchen (4), die Programmierplättchen (5) und die seitlichen Einsätze (6) zusammenhält.
     
    10. Reprogrammierbares Schloss nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass der Stator (1) in seiner inneren Fläche vier diametral gegenüberliegende Aufnahmen (1c) aufweist, zum Aufnehmen des Endes der Sperrplättchen (4) und des Plättchens (10) zum Stoppen der Drehung, und eine Aufnahme (1b) zum Aufnehmen der bogenförmigen Fläche (6b) der seitlichen Einsätze (6).
     


    Revendications

    1. Verrou reprogrammable comprenant :

    - un stator (1) sous la forme d'un cylindre creux,

    - un rotor (2) sous la forme d'un bloc cylindrique monté de manière à pouvoir tourner à l'intérieur du stator (1),

    - une pluralité de plaques de lecture de clé (3) disposées transversalement à l'intérieur du rotor (2),

    - une pluralité de plaques de verrouillage (4) montées transversalement dans ledit rotor (2) et pourvues d'une extrémité faisant saillie vers l'extérieur depuis le rotor (2) pour s'engager dans une cavité (1c) définie à l'intérieur dudit stator (1), lesdites plaques de verrouillage (4) étant aptes à se coupler avec lesdites plaques de lecture de clé (3) de manière à pouvoir être déplacées à une position de déverrouillage pour permettre la rotation du rotor (2) par rapport au stator (1),
    caractérisé en ce que lesdites plaques de lecture de clé (3) sont pourvues de fentes (3a) superposées l'une sur l'autre pour permettre le passage d'une clé d'utilisateur ou d'une clé de programmation (8, 9) dont le profil de codage (8b, 9b) définit le mouvement desdites plaques de lecture de clé (3),
    et en ce qu'il comprend en outre :

    - au moins deux inserts latéraux (6) destinés à être disposés transversalement dans ledit rotor (2) de manière intégrale avec les plaques de verrouillage (4), lesdits inserts latéraux (6) étant pourvus d'une surface arquée (6b) apte à coulisser sur la surface intérieure du stator (1) en agissant comme une came, lesdits inserts latéraux (6) pouvant être déplacés radialement pour effectuer un couplage entre lesdites plaques de verrouillage (4) et lesdites plaques de lecture de clé (3), et

    - une plaque d'arrêt de rotation (10) disposée transversalement à l'intérieur dudit rotor (2) et pourvue d'une fente (10a) superposée sur les fentes (3a) desdites plaques de lecture de clé pour permettre le passage de la clé d'utilisateur ou de la clé de programmation (8, 9), ladite plaque d'arrêt de rotation (10) étant pourvue d'une extrémité, dans l'état dans lequel le verrou est fourni au client, qui fait saillie vers l'extérieur depuis le rotor (2) pour s'engager dans une cavité (1b) définie à l'intérieur dudit stator (1) de manière à bloquer la rotation du rotor (2) par rapport au stator (1) et étant apte à n'être utilisée que par la clé de programmation (9) pour déverrouille la rotation du rotor par rapport au stator.


     
    2. Verrou reprogrammable selon la revendication 1, caractérisé en ce que chaque plaque de verrouillage (4) a un siège (4a) apte à recevoir une plaque de programmation (5) qui peut se coupler avec une plaque de lecture de clé respective (3).
     
    3. Verrou reprogrammable selon la revendication 2, caractérisé en ce que lesdites plaques de verrouillage (4), lesdites plaques de programmation (5) et lesdits inserts latéraux (6) comportent des trous respectifs ou des fentes respectives (4b, 5b, 6a) alignés pour recevoir une broche (7) de manière à constituer un ensemble intégral.
     
    4. Verrou reprogrammable selon la revendication 2 ou 3, caractérisé en ce que lesdites plaques de lecture de clé (3) ont des dents extérieures (3b) aptes à se mettre en prise avec des dents extérieures correspondantes (5a) formées dans lesdites plaques de programmation (5).
     
    5. Verrou reprogrammable selon l'une quelconque des revendications précédentes, caractérisé en ce que chaque plaque de lecture de clé (3) comporte un siège à contre-dépouille (3d) apte à recevoir un ressort (12) qui est interposé entre la plaque de lecture de clé (3) et le rotor (2).
     
    6. Verrou reprogrammable selon l'une quelconque des revendications précédentes, caractérisé en ce que ladite plaque d'arrêt de rotation (10) comporte une coupure en relief (10b) apte à recevoir un ressort (12) qui est interposé entre la plaque d'arrêt de rotation (10) et le rotor (2).
     
    7. Verrou reprogrammable selon l'une quelconque des revendications précédentes, caractérisé en ce que chaque insert latéral (6) comporte un trou dans la paroi opposée à sa paroi incurvée (6b) pour recevoir un ressort (13) qui est interposé entre l'insert latéral (6) et le rotor (2).
     
    8. Verrou reprogrammable selon l'une quelconque des revendications précédentes, caractérisé en ce que ledit rotor (2) comprend :

    - deux rangées opposées de sièges transversaux (2b) pour recevoir lesdites plaques de lecture de clé (3),

    - une rangée de sièges transversaux (2a) pour recevoir lesdites plaques de verrouillage (4),

    - deux sièges transversaux (2f) disposés à proximité des extrémités latérales pour recevoir lesdits inserts latéraux (6),

    - un siège transversal (2c) pour recevoir ladite plaque d'arrêt de rotation (10), et

    - une fente longitudinale (2d) pour permettre l'insertion de la clé d'utilisateur ou de la clé de programmation (8, 9).


     
    9. Verrou reprogrammable selon la revendication 8, lorsqu'elle est dépendante de la revendication 3, caractérisé en ce que ledit rotor (2) comporte un trou longitudinal ou une fente longitudinale (2e) apte à permettre le passage de ladite broche (7) qui contraint les plaques de verrouillage (4), les plaques de programmation (5) et les inserts latéraux (6).
     
    10. Verrou reprogrammable selon l'une quelconque des revendications précédentes, caractérisé en ce que ledit stator (1) comporte dans sa surface intérieure quatre sièges diamétralement opposés (1c) pour recevoir l'extrémité desdites plaques de verrouillage (4) et de ladite plaque d'arrêt de rotation (10) et un siège (1b) pour recevoir ladite surface arquée (6b) desdits inserts latéraux (6).
     




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    Cited references

    REFERENCES CITED IN THE DESCRIPTION



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    Patent documents cited in the description