ES2662861T3 - Bowler with anti-breakage function - Google Patents

Abstract

Cylinder comprising - an internal drum part (1), with an internal rotating core (3) mounted thereon, - an external drum part (2), with an external rotating core (4) mounted thereon, - a connection element (5), which joins the drum parts (1) and (2), the connection element (5) being mounted in longitudinal holes (1b) and (2b), formed respectively in the parts (1) and (2) drum, - a composite cam (7), mounted between both cores (3) and (4), which covers the inner end of the inner core (3) through an annular channel (14) formed in the same, - a switch (10) that includes first and second switching elements (10a) and (10b) to provide a selective connection of the inner core (3) or the outer core (4) with the cam (7), - the cam (7) consists of two identical parts (7a) mutually locked, in the area of the cam ring (7), around a first transmission plate (9) with a profiled hole (9a), p To be coupled to the first switching element (10a), and with at least two locking teeth (9b), coupled in radial holes (8) of the cam parts (7a) which, in the area of the cam tooth (7) , are connected to each other by a pin (11), - a compression spring (12), mounted on the inner core (3), behind the first switching element (10a), in which the cam (7) is mounted on a channel (13) formed in the internal drum part (1), on whose external side (1a) a stepped bushing (16) is mounted, the inner end of which is covered through an annular channel (15) formed in the same for the cam (7), which also includes a second transmission plate (17) with a profiled hole (17a), to engage the second switching element (10b), and with at least two locking teeth (17b) coupled together with the locking tooth (9b) of the first transmission plate (9) in the radial holes (8) of the cam parts (7a), in addition, between mbas plates (9) and (17) of cam transmission (7), there is a connecting plate (18) with a central hole (18a), through which a central pin (19) is mounted, which passes to through its holes (9a) and (17a) further profiled, additionally, in a radial profiled hole (20) of the core, formed in the inner core (3), a retaining element (21) is mounted under pressure spring (25) and pin (26), provided to adopt a safety position in an extension element (22), arranged axially in the inner core (3) behind the compression spring (12), so that , after removal of the outer core (4), the first switching element (10a) together with the central pin (19) can be ejected by the compression spring (12) in a forward position in the profiled hole (9a) of the first transmission plate (9), allowing the retaining element (21) to enter the safety position in the element extension (22), behind the first switching element (10a), thereby blocking all degrees of free movement of the first switching element (10a) and, respectively, of the cam (7) towards the core (3) internal, while, at the same time, the second switching element (10b) is permanently connected to the external core (4) by means of the spring ring (23) that covers it through a channel (24) formed therein.

Description

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DESCRIPTION

Cylinder with anti-breakage function Technical field

The invention relates to a cylinder that can be implemented in the light industry, especially in the area of blocking devices with greater security for homes and public buildings among others, as well as for cabinets, safes, or other places where required a high degree of resistance against theft.

Prior art

The typical double cylinder cylinder comprises a drum with internal and external rotating cores mounted thereon by means of spring rings, arranged in annular channels formed at the inner ends of the cores, where the drum is suitable to be mounted transversely through of the lock box. Between the two cores, in a channel formed in the drum, there is a rotating cam mounted so that it is free to actuate the locking elements. Said cam represents a solid ring with a tooth. The cam ring rotates with the rotation of the internal or external core by means of a switch, which consists of two switching elements for the selective connection of the cam with the external or internal core by means of an appropriate key inserted in the respective core, whereby The cam tooth rotates, leaving the cylinder radially, and activates the lock elements. It is known that, when using such bowlers, they may suffer attacks in an attempt to manipulate the lock mechanism. Such attacks can cause a forced extraction of the outer core of the drum, thereby providing access to the rotation of the cam. Alternatively, an attempt may be made to break the drum in the central part that connects its two halves. This part of the drum is usually the finest and, therefore, the weakest, because it is adapted to allow rotation of the cam in the respective channel, and in addition, there is also a side hole in it to be fixed to the lock. If this part of the drum can break, then the entire outer half of the cylinder can be removed, unless specific measures have been taken in the construction of the cylinder that combat this danger.

A cylinder is known (BG 1587U1) in which the special construction of the cam makes it difficult both to break the central section of the drum, in which the cam is arranged, and to remove the outer core after applying an axial force. Said cam with its outer periphery covers the inner ends of both cores through respective annular channels. The cam consists of two identical parts that, in assembled state, are arranged symmetrically with respect to the cam axis. In the cam ring area, both parts of the cam are mutually locked around a transmission plate with a profiled hole, to engage a switch, and with at least two locking teeth engaged in respective radial holes in the parts of cam. In the cam tooth area, both cam parts are connected to each other by a pin. Said switch consists of two switching elements that can be moved axially by an appropriate key, inserted in the inner or outer core to provide a selective connection of the respective core with the cam.

A cylinder with an anti-breakage function (EP 2494129) is known, comprising internal and external drum parts with internal and external rotating cores mounted therein. Said drum parts are joined by a connecting element, mounted in respective longitudinal holes formed therein. The connecting element represents a solid body that includes a central cylindrical part with opposite flat sides. This central part has a side hole formed to be fixed to the lock, it also includes a locking element that extends in the direction of the cam and is arranged to prevent access to the cam tooth in case of attempted theft. The cylindrical end bodies extend axially from the central part, in opposite directions. Said cylindrical end bodies are fixed to both drum parts by lateral pins that pass through lateral holes formed therein and through lateral holes formed in both parts of the drum. Between the inner and outer drum parts, on the central part of the connecting element, there is a rotating cam mounted so that it is free, implemented as a solid ring with a tooth, and in addition, there is a switch mounted on the cam. Said switch consists of first and second switching elements that can move axially for the selective connection of the first and second cores with the cam, when the appropriate key is inserted into the respective core. In addition, a safety position is provided for the first switching element, in which, after a forced removal of the external core, the first switching element is moved in a forward position by the action of a compression spring mounted behind of this. In said position of the first switching element, a locking pin, arranged in a radial hole in the body of the first switching element, is moved by the spring action through a hole formed in the inner core, so as to engage in the respective hole of the annular body of the cam. In this way, the first switching element, the inner core and the cam remain interconnected. In said position of the first switching element, the cam movement towards the inner core is blocked, thus making it more difficult to manipulate the cam from the outside after a forced removal of the outer core.

The disadvantage of this cylinder consists in the fact that the elements that block the cam movement towards the inner core are arranged in the annular body of the cam, whose manual manipulation and perforation is possible

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after a forced extraction of the outer core. In addition, the second switching element is not connected to the external core and, therefore, it is unknown if it is detached from it when the external core is removed by force and if, when it remains on the cam, it prevents the blocking elements pass in the safety position, which is another precondition for a possible satisfactory manipulation with the appropriate tool, producing the rotation of the cam and the lock opening. On the other hand, with an additional perforation, it is possible to access the cam hole in which the mobile locking pin is locked and, consequently, manipulate it with a suitable tool until it is unlocked, rotate the cam and open the lock.

Summary of the invention

The present invention aims to provide an improved construction of a cylinder with greater anti-breakage protection, which resists the aforementioned attacks with a safety position of its elements, in which any movement of the cam towards the inner core is limited after forced extraction of the outer core, since the elements provided to block cam movement are disposed as far as possible from the area susceptible to manipulation of the cam, and for this purpose, the construction of the cam must also be improved.

Thus, a cylinder according to claim 1 is provided. The cylinder comprises an internal drum part with an internal rotating core mounted therein and an external drum part with an external rotating core mounted thereon. The parts of the drum are joined by a connection element mounted in longitudinal holes formed respectively therein. Between the two cores, there is a composite cam that covers the inner end of the inner core through an annular channel formed therein. The cam consists of two identical mutually locked parts, in the cam ring area, around a first transmission plate with a profiled hole, so as to engage the first switching element of a switch, and with at least two locking teeth coupled in radial holes of the cam parts which, in the area of the cam tooth, are connected to each other by a pin. The switch also includes a second switching element. Both switching elements provide a selective connection of the internal or external core with the cam. In addition, a compression spring is mounted behind the first switching element, in the inner core.

In accordance with the invention, the cam is mounted in a channel formed in the internal drum part, on whose outer side a stepped bushing is mounted, whose inner end is covered, through an annular channel formed therein, by the cam. The cam also includes a second transmission plate with a profiled hole, so as to be coupled to the second switching element, and with at least two locking teeth coupled together with the locking teeth of the first transmission plate in the radial holes of the cam parts Between the two transmission plates of the cam is a connecting plate with a central hole, through which a central pin is mounted that passes through its profiled holes. Furthermore, additionally, in a radial profiled hole of the core, formed in the inner core, there is a retaining element mounted under spring and pin pressure. The retaining element is provided to adopt a safety position in an axially arranged expansion element in the inner core, behind the compression spring, so that, after removal of the outer core, the first switching element together with the central pin can be ejected by the compression spring in a forward position in the profiled hole of the first transmission plate, allowing the retention element to enter the safety position of the extension element, behind the first element of commutation.

Thus, in such a position of the retention element, all degrees of free movement towards the inner core of the first switching element and, respectively, of the cam are locked, while at the same time the second switching element is permanently connected. to the outer core by a spring ring that covers it through a channel formed therein.

Furthermore, in accordance with a preferred embodiment of the invention, the connecting plate can rotate freely around the central pin and is made of tempered steel, as well as the central pin, the first and second transmission plates, and the stepped bushing.

In accordance with a preferred embodiment of the invention, the retention element should pass into a secure position in the extension element after removal of the outer core while, during normal operation of the cylinder, the retention element is arranged in the radial profiled hole of the core, in the first switching element in one position, without limiting its axial movement.

On the other hand, in accordance with a preferred embodiment of the invention, the connecting element is fixed to the internal and external drum parts by means of respective cross pins, which pass through holes formed transversely therein and through the channels and transverse holes formed in the connecting element. On the other hand, in the connection element, in the place where the drum parts are joined, a section weakened by a second formed channel is provided.

Furthermore, in accordance with a preferred embodiment of the invention, the cross pins that fix the connecting element to the internal drum part are made of tempered steel.

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The advantage of the proposed cylinder, according to the invention, is the improved anti-breakage function due to the fact that the elements that block the cam movement towards the inner core are arranged as far as possible inside the inner core, beyond the area susceptible to possible cam manipulation after internal core extraction. In addition, the permanent connection provided between the external core and the second switching element ensures that this element will be detached after the forced removal of the external core, thereby avoiding the risk of inactivation of the blocking elements. In addition, any additional drilling of the remaining internal drum part is avoided by means of the tempered elements mounted therein (the stepped bushing and transverse connecting pins, also by means of the tempered elements of the composite cam) the connection and transmission plates, put that, for this purpose, the connection plate is mounted so that it can rotate freely and also by means of the central tempered pin that passes through said plates. On the other hand, the axial connection between the inner core and the stepped bushing, guaranteed by the composite cam, gives additional resistance to the inner drum part and makes it more difficult to reach the cam area after the attempted robbery.

Description of the figures in the drawings

The present invention is explained in detail using the following attached drawings: Fig. 1 represents an exploded view of the cylinder Fig. 2 represents a side view of the assembled cylinder Detailed description of the embodiments

In accordance with the invention, in Figs. 1 and 2 a preferred embodiment of the cylinder is shown. The cylinder consists of an internal drum part 1, with a rotating inner core 3 mounted therein and an external drum part 2, with a rotating outer core 4 mounted thereon. The drum parts 1 and 2 are joined by a connection element 5 mounted in longitudinal holes 1b and 2b respectively formed therein. Between both cores 3 and 4, there is a composite cam 7 that covers the inner end of the inner core 3 through the annular channel 14 formed therein. The cam 7 consists of two identical parts 7a mutually locked, in the area of the cam ring 7, around a first transmission plate 9 with a profiled hole 9a, provided to engage the first switching element 10a of a switch 10 and with two locking teeth 9b coupled in radial holes 8 of the cam parts 7a. In the area of the cam tooth 7, the cam parts 7a are connected to each other by a pin 11. The switch 10 also includes a second switching element 10b. Both switching elements 10a and 10b provide a selective connection of the inner core 3 or the outer core 4 with the cam 7 by an appropriate key inserted in the respective core. Furthermore, behind the first switching element 10a, in the inner core 3, a compression spring 12 is mounted.

In accordance with the invention, the composite cam 7 is mounted on a channel 13 formed in the inner drum part 1, on whose outer side 1a a stepped bushing 16 is mounted, the inner end of which is covered through an annular channel 15 formed therein on cam 7. Cam 7 also includes a second transmission plate 17 with a profiled hole 17a, to engage the second switching element 10b, and with two locking teeth 17b coupled together with the locking tooth 9b of the first transmission plate 9 in the radial holes 8 of the cam parts 7a. Furthermore, between the two transmission plates 9 and 17 of the cam 7 there is a connecting plate 18 with a central hole 18a, through which a central pin 19 is mounted that passes through its profiled holes 9a and 17a. Furthermore, additionally, in a radial profiled hole 20 of the core, formed in the inner core 3, a retaining element 21 is mounted under spring pressure 25 and pin 26. The retaining element 21 is provided to adopt a position of safety in an extension element 22, arranged axially in the inner core 3 behind the compression spring 12, so that the first switching element 10a together with the central pin 19 can be ejected by the compression spring 12 and engaged in a forward position in the profiled hole 9a of the first transmission plate 9. Therefore, in this position of the retaining element 21, all degrees of free movement of the cam 7 towards the inner core 3 are blocked. At the same time, the second switching element 10b is permanently connected to the outer core 4 by the spring ring 23 that covers it, through a channel 24 formed therein.

In accordance with a preferred embodiment of the invention, the connecting plate 18 can rotate freely around the central pin 19 and is made of tempered steel, as well as the central pin 19, the first and second transmission plates 9 and 17, and the stepped bushing 16, which makes the construction of the inner drum part 1 resistant to burglary.

In accordance with a preferred embodiment of the invention, the retaining element 21 should pass into a secure position in the extension element 22 after removal of the outer core 4 while, during normal operation of the cylinder, the retaining element 21 it is arranged in the radial profiled hole 20 of the core, in the first switching element 10a, in a position that does not limit its axial movement.

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In accordance with a preferred embodiment of the invention, the connecting element 5 is fixed to the internal drum part 1 and the external drum part 2 by respective transverse pins 6a and 6b that pass through holes 1c and 2c transversely formed in the same and through the channel 5a, and transverse holes 5c formed respectively in the connecting element 5. On the other hand, in the connection element 5, in the place where the outer drum parts 1 and 2 are joined, a weakened section is provided by a second channel 5b formed, thereby predetermining the theft point in case of any attempted robbery.

In addition, the transverse pins 6a that fix the connecting element 5 to the inner drum part 1 are made of tempered steel, thus providing additional protection against possible perforation of the remaining internal drum part 1 after the attempted robbery.

In said assembled cylinder, in the drum parts 1 and 2 and in their respective cores 3 and 4, pin reversing mechanism parts are also arranged which decode the code combination of an appropriate key inserted in the respective core channel, which are not subject to the invention and are not described herein.

The invention can be used for protection against attempted robberies in both double-cylinder and special-purpose cylinders (their implementations are also included within the scope of the invention without size limitations and with any type of reversal mechanisms. key decoder pin mounted on the cylinder).

Implementation of the invention

In accordance with the invention, the cylinder operates as follows.

When the correct key is inserted from outside the cylinder, into the outer core 4, the key pushes the second switching element 10b, which engages in the profiled hole 17a of the second transmission plate 17. At the same time by the central pin 19, the key pushes and disengages the first switching element 10a of the profiled hole 9a of the first transmission plate 9, thereby providing a connection of the cam 7 with the external core 4, which rotates together with the key, thus causing the rotation of the second switching element 10b together with the cam 7, which in turn unlocks the locking elements.

When the key is removed from the external core 4, the first switching element 10a is moved by the action of the compression spring 12 and engages in the profiled hole 9a of the first transmission plate 9, while at the same time pushing and decouples the second switching element 10b of the profiled hole 17a of the second transmission plate 17.

When the appropriate key is inserted into the cylinder, in the inner core 3, the key does not have to push the first switching element 10a, because it had already been moved by the action of the compression spring 12 and had been engaged in the hole 9a profiling of the first transmission plate 9, thus providing a connection of the cam 7 with the inner core 3 that rotates together with the key, thereby causing the rotation of the first switching element 10a together with the cam 7 which , consequently, unlocks the blocking elements. In addition, the described axial moving elements have a determined size so that, during normal operation of the cylinder, the retaining element 21 remains in the radial profiled hole 20 of the core, in position on the first switching element 10a, without limiting its movement axial.

In case of an attempted robbery, after the extraction of the external core 4, with or without the external drum part 2, the dimensions established between the axial moving elements change, so that the first switching element 10a moves in a position towards forward by the action of the compression spring 12, allowing the retaining element 21 to move by the action of the spring 25 and pin 26, and to exit the radial profiled hole 20 of the core and enter a secure position in the element 22 extension, behind the first switching element 10a, thereby limiting all degrees of free movement of the first switching element 10a and, respectively, of the cam 7 towards the inner core 3. In addition, at the same time, the second switching element 10b remains permanently connected to the outer core 4 thanks to the core ring 23 provided for this purpose, which connects the second switching element 10b with the outer core 4 through a channel 24 formed therein, thereby avoiding the possibility of inactivation of the retention element 21 after a forced extraction of the external core 4.

Claims (5)

5 10 fifteen twenty 25 30 35 40 Four. Five fifty 55 1. Bowler comprising - an internal drum part (1), with a rotating internal core (3) mounted thereon, - an external drum part (2), with a rotating outer core (4) mounted thereon, - a connection element (5), which joins the drum parts (1) and (2), the connection element (5) being mounted in longitudinal holes (1b) and (2b), formed respectively in the parts (1) ) and (2) drum, - a composite cam (7), mounted between both cores (3) and (4), which covers the inner end of the inner core (3) through an annular channel (14) formed therein, - a switch (10) that includes first and second switching elements (10a) and (10b) to provide a selective connection of the inner core (3) or the outer core (4) with the cam (7), - the cam (7) consists of two identical parts (7a) mutually locked, in the area of the cam ring (7), around a first transmission plate (9) with a profiled hole (9a), to engage the first switching element (10a), and with at least two locking teeth (9b), coupled in radial holes (8) of the cam parts (7a) which, in the area of the cam tooth (7), are connected between yes for a pin (11), - a compression spring (12), mounted on the inner core (3), behind the first switching element (10a), in which the cam (7) is mounted on a channel (13) formed in the internal drum part (1), on whose external side (1a) a stepped bushing (16) is mounted, the inner end of which is covered through of an annular channel (15) formed therein by cam (7), which also includes a second transmission plate (17) with a profiled hole (17a), to be coupled to the second switching element (10b), and with at least two locking teeth (17b) coupled together with the locking tooth (9b) of the first transmission plate (9) in the radial holes (8) of the cam parts (7a), in addition, between both plates ( 9) and (17) of cam transmission (7), there is a connecting plate (18) with a central hole (18a), through which a central pin (19) is mounted, which passes through its holes (9a) and (17a) further profiled, additionally, in a radial profiled hole (20) of the core, formed in the inner core (3), an element (21) of r retention under spring pressure (25) and pin (26), provided to adopt a safety position in an extension element (22), arranged axially in the inner core (3) behind the compression spring (12) , so that, after removal of the outer core (4), the first switching element (10a) together with the central pin (19) can be ejected by the compression spring (12) in a forward position in the hole ( 9a) profiling of the first transmission plate (9), allowing the retaining element (21) to enter the safety position in the extension element (22), behind the first switching element (10a), thereby blocking all degrees of free movement of the first switching element (10a) and, respectively, of the cam (7) towards the inner core (3), while, at the same time, the second switching element (10b) is permanently connected to the outer core (4) by e The spring ring (23) that covers it through a channel (24) formed therein. 2. Cylinder according to claim 1, characterized in that the connecting plate (18) can freely rotate around the central pin (19) and is made of tempered steel just like the central pin (19), the plates ( 9 and 17) first and second transmission, and the stepped bushing (16). 3. Cylinder, according to claim 1 and 2, characterized in that the retaining element (21) should pass in a safety position on the extension element (22) after removal of the outer core (4), while , during normal operation of the cylinder, the retaining element (21) is arranged in the radial profiled hole (20) of the core of the first switching element (10a) in one position, without limiting its axial movement. 4. Cylinder, according to claim 1, 2 and 3, characterized in that the connecting element (5) is fixed to the drum parts (1) and (2) by means of pins (6a) and (6b) respective transverse , which pass through holes (1c) and (2c) transversely formed therein and through the channel (5a), and transverse holes (5c) formed respectively in the connecting element (5), and likewise, in the connecting element (5), in the place where the drum parts (1) and (2) are joined, a weakened section is provided by the second channel (5b) formed. 5. Bolt according to claim 4, characterized in that the transverse pins (6a) are made of tempered steel.