This application claims priority to, and the benefit of, Italian application no. 102021000005276, filed Mar. 5, 2021, which is are hereby incorporated by reference in its entirety.
The present invention concerns a programmable cylinder lock, namely a lock comprising devices intended to allow, through a change operation, to modify the former lock codification in order to adapt the lock for being operated by a key different from the key to which the lock was formerly adapted More particularly, the invention concerns improvements in a kind of programmable cylinder lock which is known from the European Patents No 0.226.252 and 0.900.310 and no 2.529.068. The kind of locks to which applies the present invention is a lock with a programming device, which comprises a stator, a cavity provided in said stator, a rotor rotatably mounted in said stator cavity and a keyhole hollowed in said rotor, and wherein the programming device comprises in the stator a longitudinal groove made in said stator cavity and a series of stator seats, which in case can contain counter-pins and the respective springs, and comprises in the rotor:
To this aim, according to document EP 0.900.310 there is provided, near the outer end of rotor, a fork ring engaging a recess of the key and preventing its extraction when the key is not in the position for insertion and extraction. In this case, the change of programming is possible only by using a special change key whose shape is such that it is not retained by the fork ring.
All this complicates the lock structure and involves complicated actions, difficulties and obstacles for the user who is intended to modify the lock programming. Moreover, because a special key is needed for effecting the change, it is not possible to arrange the lock for using normal keys available in commerce, a possibility which would be of great technical and commercial interest.
A general drawback of programmable locks consists in that, if the key intended to program the lock is inserted in an incomplete way, the lock receives a faulty programming which is then not easy to correct.
Document EP 2,529,068 describes a reprogrammable lock with an initial key, a change bar and a new key i.e. without the aforementioned special change key. In particular, the change bar is normally kept in a misaligned position with respect to the rotor axis by means of a spring arranged asymmetrically with respect to the midpoint of the bar itself. In this position, the change bar maintains the engagement between the key followers and the pins in the closest region to the opening for the introduction of the key. These key followers are therefore locked for movement in their respective first rotor seats and this is sufficient to prevent the retraction of the initial key. Only via the use of the change rod when the rotor is in the angular change position, the change bar retracts completely in the groove of the stator disengaging from the pins all the key followers which, having therefore become mobile in the first place, allow the extraction of the initial key and the subsequent insertion of the new key which will provide the new mapping of the lock. This mapping is mechanically stored when the user, by turning the new key angularly, rotates the change bar outside the stator groove. This causes the radial movement of the change bar towards the axis of rotor and the engagement of all the key followers, arranged according to the mapping of the new key, with their respective locking pins.
The present invention has the scope of improving the user experience of a lock as previously described since for some users the use of the change rod, which requires a certain precision and can therefore be complicated, for example in conditions of poor lighting.
The present invention has the general purpose of improving known locks of the type referred to, so as to remedy the drawbacks indicated.
In particular, the invention has the main purpose of achieving the desired programming operation with greater simplicity even in poor lighting conditions and, at the same time, allowing the use of keys normally available on the market without resorting to special keys e.g. the change key.
These objects are achieved by the fact that, in a mechanical reprogrammable lock provided with a reprogramming tool, the latter comprises a stop movable between an advanced position in which the programming insert is locked so that the key followers and locking pins are engaged and in a retracted position in which the programming insert is elastically pushed into the reprogramming position and wherein the stop comprises a magnetic material and also the tool is magnetic and of such polarity as to bring the stop into the retracted position when approached to the rotor.
In this way, it is possible to reprogram the lock in a particularly simple and intuitive way e.g. the magnetic tool must only be approached with no particular need to be inserted in a small seat. This makes the lock particularly suitable for uses in contexts that do not require specialized personnel such as, for example, domestic locks. It is also possible to apply a series of variants e.g. depending on the configuration, the force applied by the tool on the insert can be attractive or repulsive.
According to a preferred embodiment, the programming insert is movable in the radial direction in the rotor to couple/uncouple the toothed locking pins and key followers; and the stop is movable in the axial direction between the extracted and retracted position. In this way, the force applied to disengage the stop from the programming insert is independent of the force required to move the programming insert towards the programming position.
These and other features, objects and advantages of the present invention will more clearly appear from the following description of some embodiments, being not limiting examples, with reference to the accompanying drawings, wherein:
With reference to
Rotor 9 is cylindrical and it has a keyhole 10 for inserting an initial key C. Rotor 9 is installed inside bore 2 of stator 1. Rotor 9 includes a series of first seats 12 intersecting keyhole 10 for the key C, and it includes a series of second seats 13, parallel to first seats 12, a first slot 14 and a second slot 15, orthogonal with respect to said seats and parallel to the rotor axis. For each unit of the programming mechanism, a key follower 16 is inserted with longitudinal and transversal mobility in one of said first rotor seats 12 for cooperating with the conformations of key C inserted in said keyhole 10. The key follower 16 is provided on one side with projections 17 and on the opposite side with an element 18 for sliding engagement, and it is associated with a spring 19 which stresses the key follower towards the keyhole 10. A locking pin 20 is slidingly inserted in one of said second rotor seats 13, and it is provided with a series of first recesses 21 facing said projections 17 of key follower 16, and with a series of second recesses 22 facing the side opposite said key follower 16. A stop bar 23 is inserted in said first rotor slot 14, and it has projections 24 facing said second recesses 22 of the locking pins 20, and a projection 25 facing the side opposite said locking pins and suitable for cooperating with said stator groove 3. Stop bar 23 is associated with first springs 26 which stress the stop bar outwards. A change bar or programming insert is inserted in said second orthogonal rotor slot 15, and it is provided with slidable engagement elements 28 engaged with said sliding engagement elements 18 of key followers 16, and with a projection facing the side opposite key followers 16 and suitable for cooperating with said stator groove 3. It is to be remarked that change bar 27, in the known embodiments, is associated with one or more springs biasing the change bar outwards. Such springs, or at least a part of them, may be omitted in certain embodiments of the present invention. A counter-pin 31 is inserted in the stator channel 8 for cooperating with the locking pin 20. The counter-pin 31 is pushed by a spring 32 which, by means of a little block 33, rests against a retainment bar 34 inserted in a corresponding stator hole. Such counter-pins 31 may be foreseen in order to give more strength to the lock, however they are not necessary and may be omitted.
The operation of the described mechanism is as follows: In the absence of a key (
When, on the contrary, rotor 9 is rotated by 180° into a change angular position (
By then inserting a new key, the key followers take a programming position corresponding to this new key. By rotating again rotor 2 by 180°, the lock takes again its initial position according to
Similarly, if desired, in the lock according to the invention may be included the mechanisms characteristic of the locks with master keys, wherein the locking pins 45 are divided in two or more sections in their regions near the surface separating them from the counter-pins 46.
Figures from 6 to 9 show a particular embodiment of the change means intended to push outwards change bar 27 when the user, after having brought the key C in the change position, intends to provide a new programming of the lock.
Subsequently (
Preferably, when change bar 27 following the rotation of the rotor 9 is completely out of groove 3, end portion 50 and insert 49 are again aligned and it is possible to restore the coupling e.g. shape coupling, between insert 49 and change bar 27.
According to the embodiment illustrated in the figures, insert 49 is kept in the extracted position by means of a spring 53. According to this embodiment, when end portion 50 reaches the radial position such as to engage at least the pair of key follower and pin proximal to keyhole 10, spring 53 automatically pushes insert 49 inside a suitable cavity 54 of change bar 27. As shown in the figures, the direction of movement of insert 49 is transverse to that of the change bar 27, in particular the first is substantially axial, the second substantially radial.
According to a not shown embodiment, change bar 27 carries a permanent magnet which attracts insert 49 in the extracted position when change bar 27 is completely out of groove 3 of the stator. In this case, the magnetic field of magnet 51 must be more intense than that of change bar 27 in order to retract insert 49 when necessary.
It should be understood that this invention is not limited to the embodiment described and shown. as an example. Several possible modifications have been pointed out in the course of the description, and others are within the ability of those skilled in the art. These modification and others, and any replacement by technically equivalent means, can be made to what has been described and shown, without departing from the spirit of the invention and the scope of this Patent as defined by the appended Claims.
Number | Date | Country | Kind |
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102021000005276 | Mar 2021 | IT | national |
Number | Name | Date | Kind |
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4747281 | Monahan | May 1988 | A |
20060101880 | Ward-Dolkas | May 2006 | A1 |
20100050717 | Chiang | Mar 2010 | A1 |
20160265249 | Zhang | Sep 2016 | A1 |
Number | Date | Country |
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2529068 | Dec 2012 | EP |
2529068 | Aug 2013 | EP |
Entry |
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EP Search Report, IT Application 202100005276, dated Nov. 19, 2021 (7 pages). |
Number | Date | Country | |
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20220282526 A1 | Sep 2022 | US |