Patent Application
20100050535
The invention relates to a detector for detecting an attempt at breaking in by breaking a lock, and to a lock provided with such a detector, to a door provided with such a lock, and to an alarm system comprising such a detector and an alarm unit.
An alarm system for a dwelling generally comprises an alarm unit and a plurality of sensors, e.g. movement sensors, volume sensors, presence sensors, sensors for sensing the opening of a door or a window, etc. When one of the sensors detects an event that might be indicative of a break-in, it transmits a signal to the alarm unit. On receiving this signal, the alarm unit decides whether or not to trigger an alarm signal, such as a siren, a telephone call, etc.
A drawback of conventional alarm systems is that in general they are activated only once the break-in has actually been committed, e.g. once a wrongdoer has managed to open a door and penetrate into a dwelling. The intruder thus has the time, before taking flight, to steal articles, or to cause damage, whether intentionally or unintentionally. At very least, a lock, a door, or a window will have been forced, and therefore damaged, thus making expensive repairs or replacements necessary.
Document EP 0 052 891 discloses an attempted lock break-in detector that comprises a plate that can pivot between a first position in which it overlies a keyhole of a lock, and a second position in which it allows access to said lock. When the plate is taken from the first position to the second position in order to access the lock, a timer is put into operation to trigger an alarm if the plate remains in its second position for longer than a predetermined time, e.g. because a thief is trying to force the lock.
The device described in document EP 0 052 891 is unsatisfactory since it is possible to obtain free access to the lock without triggering the time alarm, merely by folding or cutting the plate instead of moving it to its second position.
An object of the invention is to remedy that drawback.
This object is achieved by an attempted lock break-in detector comprising: a cover provided with mounting means for mounting on a door provided with a lock, said cover being capable of passing from a first position in which it covers means for opening or closing said lock (typically a keyhole) so as to make said means inaccessible, to a second position in which it allows access to said opening or closing means, and vice versa; and means for opening and closing an electric circuit to generate and interrupt an electrical signal indicative of said cover passing from the first position to the second position, and vice versa; the detector being characterized in that said means for opening and closing an electric circuit comprise at least one contact element for making contact with an element of said lock, which lock element constitutes a section of said electric circuit.
In particular, said contact element may be arranged in such a manner as to be in contact with said element of the lock to close said electric circuit when the cover is in its first position, and to be spaced apart from said element of the lock to open said electric circuit when the cover is in its second position.
Under normal conditions, the cover is in the first position and it prevents access to the lock. When a person provided with the right key seeks to open the door, the cover is moved into the second position, thereby generating a first signal, the person opens the door and then removes the key, thus allowing the cover to return to the first position and causing a second signal to be generated. This operation requires only a few seconds and is therefore recognized as being legitimate. In contrast, a potential intruder seeking to force the lock needs to have access thereto for a much greater length of time. The fact that generation of the first signal is not followed by generation of the second signal before a predetermined duration has elapsed is indicative of a situation that is abnormal and therefore causes an alarm signal to be triggered.
An advantage of the detector of the invention, compared with that of document EP 0 052 891, is that its structure makes it intrinsically impossible to access the lock without generating the first signal, thereby triggering the alarm timer. The fact that a contact element secured to the cover co-operates with an element of the lock itself in order to close the electric circuit makes it impossible to access the lock without opening (i.e. interrupting) said circuit.
In particular embodiments of the attempted lock break-in detector of the invention:
said means for generating a signal indicative of said cover passing from the first position to the second position or vice versa may comprise means for opening and closing an electric circuit; in particular, said means may comprise at least one contact element for making contact with an element of said lock (typically a cylinder), said element constituting a section of said electric circuit;
in particular, said means for opening and closing an electric circuit may comprise at least a first contact element that, when said cover is in said first position, is in contact with a side surface of said cylinder projecting from said door, and that, when said cover is in said second position, is no longer in contact with said cylinder. Advantageously, said means for opening and closing an electric circuit may also comprise a second contact element that, when said cover is in said first position, is in contact with a front surface of said cylinder, and that, when said contact is in said second position, is no longer in contact with said cylinder. Advantageously, said at least one contact element is magnetized;
the detector may also include return means for returning said cover from said second position towards said first position;
the mounting means of said cover may be adapted to enable said cover to pivot about an axis perpendicular to the surface of said door; in particular said mounting means of said cover may comprise: a tubular element for passing through said door; a pin fastened to said cover at one of its ends and extending perpendicularly thereto, said pin being adapted to pass through said tubular element and to pivot in the tubular element; and retention means for retaining said pin inside said tubular element. Advantageously, said pin may include an axial opening through which there passes at least one, and, preferably, two electric wires connected to said means for generating a signal indicative of said cover passing from the first position to the second position, and vice versa;
the detector may also include at least one display means suitable for indicating whether said cover is in the first position or in the second position;
the detector may also include an auxiliary lock for locking said cover in said first position; and
the detector may also include timer means for generating a signal indicative of an attempted break-in if said cover, after being taken from the first position to the second position, does not return to said first position before a predetermined duration has elapsed.
The invention also provides an alarm system incorporating such an attempted lock break-in detector and an alarm unit. The invention also provides a lock provided with such an attempted lock break-in detector and a door provided with such a lock.
Other characteristics, details, and advantages of the invention appear on reading the following description made with reference to the accompanying drawings given by way of example and in which:
The detector of
As can be seen in dotted lines in
As shown diagrammatically in the left-hand portion of
Optionally, display means may be provided to indicate that the detector is operational, and/or whether the cover 1 is in its first position or its second position. For example, as shown in
In order to avoid untimely triggering of an alarm signal following the opening of a door by an authorized person and the removal of the key from the lock 4, it is advantageous for the cover 1 to return automatically to its first position. In the embodiment shown in the figures, the cover 1 is returned to the first position by gravity. The presence of a magnet or of a magnetized material also makes it possible to confer a stable nature on the first position. In a variant or in combination, it is possible to provide return means, such as a spring.
The cover 1 is mounted on the outside 31 of the door 3 by mounting means 2 of structure that can clearly be seen in
Advantageously, the pin 22 presents an axial opening 222 through which two electric wires 60 and 61 pass that are connected respectively to the first and to the second contact elements 51 and 52. In this way, in addition to providing a fastener and hinge function, the pin 22 also performs an electrical connection function between the elements that are on the outside 31 of the door 3 (cover 1 with the contact elements 51 and 52, LED 7) and the elements that are on the inside 32 thereof (in particular the alarm unit).
In a first embodiment of an alarm system of the invention, the attempted lock break-in detector is connected directly by the wires 60 and 61 to an alarm unit CA that may be of conventional type, as shown in
In a second embodiment, also shown in
The signal ST transmitted to the alarm unit CA need not necessarily include its own timer means. The timer means T may be situated inside the cover 1 or in a housing situated on the inside 32 of the door 3, with this second position guaranteeing better security. Under such circumstances, the maximum duration that may elapse between the two signals S1 and S2 without the signal ST being generated should preferably be programmable, e.g. by acting on microswitches of the timer means T.
Naturally, whatever the embodiment selected, the alarm unit CA may be connected to a plurality of detectors of the invention, the detectors being installed on different locks, and also to detectors of other types, such as movement detectors. In known manner, the detectors may be connected to the unit CA via wired or wireless connections. The attempted lock break-in detector of the invention can easily be integrated in an existing alarm system.
The attempted lock break-in detector is described above with reference to a particular embodiment, however numerous variants are possible without going beyond the ambit of the invention.
A particularly advantageous variant of the invention is shown in
In this variant, the rim 11 extends around only two sides of the cover 1; the region 12 where the rim 11 is absent is thus of large size. Nevertheless, this region 12 is closed by a second rim 13 that is fastened to the door 3, and therefore does not follow the cover 1 while it is pivoting. An auxiliary lock 70 enables the pivoting cover 1 to be locked to said second rim 13, e.g. by means of a hook 71 engaging in a notch 72 formed in the surface thereof. Thus, in order to be able to pivot the cover 1 so as to gain access to the main lock 4, it is necessary to begin by opening the auxiliary lock 70.
This variant of the invention enables the main lock 4, generally a very expensive security lock, to be protected from acts of vandalism consisting in damaging the lock by introducing glue or chewing gum into its keyhole 40. In accordance with the invention, only the auxiliary lock 70 that can be replaced at low cost remains exposed to malicious acts. The auxiliary lock 70 may also be hidden by a pivoting flap 80 made of metal or of plastics material, that is fastened to the outside surface of the cover 1 by a hinge 81, e.g. including a spring or more generally a resilient hinge, and may optionally be capable of being held in place by a magnet 81.
The use of a second rim 13 fastened to the door for completely “closing” the perimeter of the cover 1 and thus preventing any access to the inside surface thereof can be useful even in the absence of an auxiliary lock 70.
The invention is described in its application to the door lock of a dwelling, however it will be understood that it can equally well be applied to the lock of a car door, a drawer, a safe, etc.
The cover 1 need not necessarily pivot about an axis perpendicular to the plane of the door. It could also pivot about an axis that is horizontal or vertical and that lies in said plane, or it could move in translation, vertically or horizontally.
Furthermore, there is no need for the cover 1 to have two elements for making contact with the cylinder 41 of the lock: one of the two contact elements needed for closing the electric circuit 6 may be stationary and situated on the inside 32 of the door 3. In this embodiment, the cylinder 41 itself forms a conductive path between the two opposite sides of said door. Under such circumstances, only one electric wire needs to pass through the axial opening 222 in the pin 22.
Furthermore, the invention is not limited to conventional mechanical locks, but may be applied to any kind of lock, for example to locks using magnetic or punched cards, or indeed to electronic locks with a keypad. Under such circumstances, the cover 1 should naturally be adapted to prevent access not to a keyhole, but to the means that are provided for opening or closing the lock in question, such as a slot for inserting a card or at least one key of a digital keypad.
| Number | Date | Country | Kind |
|---|---|---|---|
| PCT/FR2006/001973 | Aug 2006 | FR | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/FR2007/001394 | 8/23/2007 | WO | 00 | 6/25/2009 |
