FR3037091A1 - MAGNETIC SECURITY LOCK - Google Patents

Abstract

Lock comprising a cylinder and a flat key; the cylinder comprising a stator (1), a rotor (2) rotatable in a bore of the stator and having in its median plane a key channel adapted to receive the flat key (3), the flat key (3) having a key shaft whose profile is adapted to cooperate with the rotor pins to allow rotation of the rotor, and a key ring bearing a bearing abutment on the rotor. The cylinder comprises, at the entrance of the key channel, a housing in which is disposed a blocker (6) of ferromagnetic material ensuring, in its rest position in the absence of a key, a locking of the rotor relative to the stator, and the key ring carries, in the immediate vicinity of said stop, a magnet (21) adapted when the key is inserted in the key channel to attract the blocker (6) to a release position in which it allows the rotation of the rotor in the stator.

Description

The invention relates to a lock with magnetic security, in particular a lock comprising a magnetic security means. In cylinder locks of conventional structure, with a row of pins for example, picking operations are relatively easy, especially if the pin lifts are weak, and if the key profile is easily accessible. EP 0 571 311 discloses a lock with a flat key on each side a magnet and housings adapted to receive pins of the rotor pins. This magnet is able to repel another magnet and a stator pin urged by spring, so as to release the rotor. The document EP 1 072 740 describes a lock with a flat key bearing on one side housings able to receive pins of rotor pins, and on the other side a magnet. This magnet is able to attract another magnet and a rotor pin, whose tip is placed in one of the key housing, to release the rotor. In these documents, the plane of the key is perpendicular to the direction of movement of the pins, and one of the pins is replaced or modified to form a magnet security element. The arrangement of pin-point housings on a side face of the key limits the relief. Changing a pin does not increase the number of security features in the lock. An object of the invention is to provide a magnetic safety lock that does not modify the mechanical security elements of the lock. Another object of the invention is to provide a lock with magnetic security that allows to limit the possibility of copying keys. Another object of the invention is to provide a lock with magnetic security which makes more complex picking operations. Another object of the invention is to provide a magnetic security lock which comprises a magnetic security added to a key, applicable to any type of key, paracentric key or reversible key 3037091 2 for example, in order to to increase the level of security against fraudulent attempts to open. The invention relates to a lock comprising a cylinder and a flat key; the cylinder having a stator, a rotor adapted to rotate in a bore of the stator and having in its median plane a key channel adapted to receive the flat key, and a set of housings aligned in said median plane and each containing a spring, a stator pin and a rotor pin, the pins being biased by the spring towards the key channel and ensuring, in the absence of a key, a locking of the rotor relative to the stator; the flat key comprising a key shank whose profile is adapted to cooperate with the rotor pins to allow rotation of the rotor, and a key ring bearing a bearing abutment on the rotor, characterized in that the cylinder comprises at the entrance of the key channel, a housing in which is disposed a blocker of ferromagnetic material ensuring, in its rest position in the absence of a key, a locking of the rotor relative to the stator, and in that key ring door, in the immediate vicinity of said stop, a magnet adapted when the key is inserted into the key channel to attract the blocker to a release position in which it allows rotation of the rotor in the stator.

Advantageously, in the assembly of the blocker and the magnet, one of the two has a defined shape of growth, and the other a cavity of complementary shape to that of the protrusion to ensure the delivery of the blocker until 'to its liberation position. According to a first embodiment, the blocker is biased into its rest position by at least one spring. According to a second embodiment, the blocker is biased in its rest position by a magnetic insert. Advantageously, the blocker of ferromagnetic material and / or the magnetic insert have undergone structural transformation treatments giving them hardness characteristics conducive to anti-drilling.

Advantageously, in the key ring, the magnet is placed in a housing having an open face perpendicular to the mean plane of the key. According to a first embodiment, when the key is inserted into the key channel, the open face of the magnet housing is horizontal. According to a second embodiment, when the key is inserted into the key channel, the open face of the housing of the magnet is inclined. According to a third embodiment, when the key is inserted into the key channel, the open face of the housing of the magnet is vertical.

Other features and advantages of the invention appear from the following description given with reference to the accompanying drawings in which: Figure 1 is an exploded view of a lock according to one embodiment of the invention. Figure 2 is a perspective view of a first embodiment of a blocker according to the invention. Figure 3 is a perspective view from another angle of the blocker of Figure 2. Figure 4 is a perspective view of a second embodiment of a blocker according to the invention.

Figure 5 is a perspective view of a third embodiment of a block according to the invention. Figure 6 is an exterior view, with enlarged detail, of a key according to a first embodiment. Figure 7 is a sectional view, with enlarged detail, of the key of Figure 6 inserted in a cylinder according to the invention. Figure 8 is an exterior view, with enlarged detail, of a key according to a second embodiment. Figure 9 is a sectional view, with enlarged detail, of the key of Figure 8 inserted into a cylinder according to the invention.

Fig. 10 is an exterior view, with enlarged detail, of a key according to a third embodiment. Figure 11 is a sectional view, with enlarged detail, of the key of Figure 10 inserted into a cylinder according to the invention.

In FIG. 1, the lock according to the invention is represented with a stator 1, a rotor 2 and a key 3. In the median plane of the lock, the vertical plane in FIG. 1, the pins 4 are arranged. each of which, in the usual way, contains a spring, a stator pin and a rotor pin, ensuring in the absence of a key the locking of the rotor 2 with respect to the stator 1. The key channel, in the rotor 2, is substantially in said median plane, vertical. According to the invention, at the entrance of the key channel, the rotor 2 comprises a housing 5 adapted to receive a blocker 6. The blocker 6 is generally U-shaped, with two parallel branches 7, 8 of cylindrical shape and a crossbar 9. The crosspiece 9 carries, on the opposite side to the branches 7, 8 of the U, a pin 10 adapted to cooperate with an additional housing 11 provided in the stator 1 at the entrance of the key channel. The cross member 9 also has a protrusion 12 of defined shape, carried by a base whose plane is perpendicular to the median plane of the cylinder. In the first embodiment of the blocker 6 (Figures 1 to 3) the plane 13 of the base is horizontal. In the second embodiment of the blocker 6 (Figure 4) the plane 14 of the base is inclined. In the third embodiment of the blocker 6 (Figure 5) the plane 15 of the base is vertical. In the rotor 2, the housing 5 of the blocker 6 has two blind holes for guiding the branches 7, 8 of the blocker 6 in the U shape. Advantageously, these two blind holes also house springs 16 urging the blocker 6 towards the stator 1. In a variant embodiment of the cylinder, it is the weight of the blocker 6 which ensures the biasing of the blocker 6 to the stator 1. In the absence of key, the blocker 6 is biased towards the stator 1 by its weight and possibly the springs 16; the pin 10 is then inserted into the additional housing 11 of the stator 1; and the blocker 6 is in the locked position of the rotor 2 relative to the stator 1. The blocker 6 is made of ferromagnetic material. Advantageously, in the additional housing 11 of the stator 1, a cylindrical insert is put in place. This insert has magnetic characteristics and attracts the blocker in its locked position of the rotor, instead of the springs 16.

In the embodiments described, the key 3 is a flat key, whose average plane is vertical. The key rod 17 has a profile 18 adapted to cooperate with the rotor pins to allow the rotation of the rotor 2. The key ring 19 carries a bearing abutment 20 on the rotor 2. In the immediate vicinity of the stop 5 20, the key ring 19 carries a magnet 21, inserted in a housing 22 having an open face 23 perpendicular to the mean plane of the key. According to a first embodiment (FIG. 6), the open face 23 is horizontal. According to a second embodiment (FIG. 8), the open face 23 is inclined. According to a third embodiment (FIG. 10), the open face 23 is vertical. In the exemplary embodiment shown, the surface of the magnet 21 accessible through the open face 23 of the housing 22, has a cavity 24 of complementary shape to that of the protrusion 12 carried by the blocker 6. In the drawings, the The protrusion 12 of the blocker and the cavity 24 of the magnet are in the form of a spherical cap. This protrusion may be provided on the magnet and the cavity of complementary shape recessed on the blocker. The shape of the protrusion and the complementary hollow shape of the cavity may be polygonal contour for example. The magnet 21 is fixed in its housing 22 either by press fitting, or by gluing, or by locking by means of a pin. The magnet 21 has a sufficient attractive force to attract the blocker from its locking position to its release position, surpassing the mechanical strength of the springs 16 or the magnetic attraction of the insert placed in the additional housing 11.

The operation of the magnetic safety lock is analyzed as follows. In the absence of a key, the blocker 6 is in the locked position of the rotor. It is biased and held in a locking position by its weight, the springs 16 or the magnetic attraction of the insert placed in the additional housing 11 of the stator. In this position, all the safety pins present in the cylinder play their mechanical role of blocking the rotor. The blocker 6 is added to the safety pins of the cylinder. When the key 3 is inserted into the key channel, the rotor pins 3037091 6 are set up according to the key profile to ensure the release of the rotor. At the end of insertion of the key, the magnet 21 attracts the blocker 6. When the key is fully inserted into the key channel, the stop 20 bears on the rotor 2, the protrusion 12 of the blocker 6 is in resting in the cavity 24 of corresponding shape of the magnet 21, the pin 10 is out of the additional housing 11 of the stator 1, and the blocker 6 is in the release position of the rotor 2. The operation of the key 3 then ensures the rotation of the rotor 2 for opening or closing the lock. The operation of the rotor is well subjected to a double authorization, on the one hand mechanical by the rotor pins, on the other magnetic by the blocker and the key magnet. In the first embodiment (Figures 2, 3, 6 and 7), the open face 23 of the housing of the magnet 21 is horizontal, and the plane 13 of the base carrying the protrusion 12 is horizontal. When the protrusion 12 is housed in the cavity 24 of the magnet 21, the stroke of the blocker 6 is complete and the pin 10 has left the additional housing 11 of the stator. In the presence of a key without magnet, the blocker 6 prevents rotation of the rotor. If, with an accessory, one tries to raise the blocker 6, the protrusion 12 can not be retracted into the key and the blocker plays its security role. If there is a key with a magnet that does not have the cavity 24 of complementary shape to the protrusion 12, the blocker 6 is attracted, but it can not complete its travel and the pin 10 does not come out of the additional housing 11. The rotor 2 is not released. In the second embodiment (FIGS. 4, 8 and 9) the open face 23 of the housing of the magnet 21 is inclined, substantially at 45 ° in the example shown, and the plane 14 of the em base of the protrusion 12 is arranged with the same inclination. The operation of the lock is similar to that of the first embodiment. In the third embodiment (Figures 5, 10 and 11) the open face 23 of the housing of the magnet 21 is vertical, and the plane 15 of the base 30 of the protrusion 12 is also vertical. During the introduction of the key 3 into the key channel, the magnet 21 attracts the blocker 6 to its release position, then the protuberance 12 and the cavity 24 come closer together. At the end of the insertion movement of the key, the stop 20 arrives at the contact 3037091 7 of the rotor 2, and the rotor pins take their position of release of the rotor which can then be maneuvered. In the case of a magnet key without conformity of form, the key can not reach the position in abutment on the rotor and the rotor pins can not reach the position of release of the rotor. In this embodiment, the outgrowth outside the cylinder is very small. According to the invention, the magnet 21 positioned on the key ring 19 controls the movement of the blocker 6, independently of the mechanical system of the safety pins whose position is linked to the profile of the key 3. The magnet 21 and the Blocker 6 has a complementary shape, which limits the possibility of using a common commercial magnet during fraudulent manipulation. The blocker 6 moves in a housing 5 of the rotor 2, guided by the two branches 7, 8 of the U and the springs 16. The blocker 6 and the additional housing 11 of the stator 1 receiving the pin 10 are placed on the front of the cylinder . The blocker 6 and the magnetic insert 15 placed in the additional housing 11 of the stator 1 advantageously receive a structural transformation treatment giving them hardness characteristics conducive to anti-piercing. Their hardness is such that they are difficult to pierce by the usual means used by burglars.

The magnetic safety means constituted by the combination of the ferromagnetic material blocker and the magnet carried by the key, provides a safety pin cylinder with additional safety means by the blocker 6 in its blocking position, and an additional degree of security by the shape match of the blocker 6 and the magnet 21, which allows the blocker 6 to reach its release position when it is attracted by the magnet 21.

Claims (9)

REVENDICATIONS1. Lock comprising a cylinder and a flat key; the cylinder comprising a stator (1), a rotor (2) adapted to rotate in a bore of the stator and having in its median plane a key channel adapted to receive the flat key (3), and a housing assembly (4) aligned in said median plane and each containing a spring, a stator pin and a rotor pin, the pins being biased by the spring towards the key channel and ensuring, in the absence of a key, a locking of the rotor (2) with respect to the stator (1); the flat key (3) having a key shank (17) whose profile (18) is adapted to cooperate with the rotor pins to allow rotation of the rotor, and a key ring (19) bearing a stop (20) bearing on the rotor (2), characterized in that the cylinder comprises, at the entrance of the key channel, a housing (5) in which is disposed a blocker (6) of ferromagnetic material ensuring, in its position of rest in the absence of a key, a locking of the rotor relative to the stator, and in that the key ring (19) carries, in the immediate vicinity of said stop (20), a magnet (21) adapted when the key is inserted into the key channel to draw the blocker (6) to a release position in which it allows rotation of the rotor in the stator. 2. Lock according to claim 1, characterized in that, in the assembly of the blocker (6) and the magnet (21), one of the two has a protrusion (12) of defined shape, and the other a cavity (24) of complementary shape to that of the protrusion to ensure the delivery of the blocker to its release position. 3. Lock according to claim 1 or 2, characterized in that the blocker (6) is biased in its rest position by at least one spring (16). 4. Lock according to claim 1 or 2, characterized in that the blocker (6) is biased in its rest position by a magnetic insert. 5. Lock according to one of claims 3 or 4, characterized in that the blocker of ferromagnetic material and / or the magnetic insert have undergone structural transformation treatments giving them hardness characteristics conducive to anti-corrosion. drilling. 6. Lock according to one of claims 1 to 5, characterized in that in the key ring (19), the magnet (21) is placed in a housing (22) 5 having a face (23) open perpendicular in the middle plane of the key (3). 7. Lock according to claim 6, characterized in that when the key is inserted into the key channel, the open face (23) of the housing (22) of the magnet (21) is horizontal. 8. Lock according to claim 6, characterized in that, when the key is inserted into the key channel, the open face (23) of the housing (22) of the magnet (21) is inclined. 9. Lock according to claim 6, characterized in that, when the key is inserted into the key channel, the open face (23) of the housing (22) of the magnet (21) is vertical.