FR2859233A1 - Magnetic switch for activating or deactivating lock or alarm, has magnet moved closer to one of magnetic proximity sensors, when key is applied on plate, such that sensors change state of relay to perform permutation of batteries - Google Patents

Abstract

The switch has a removable key (1) and a switch placed in a fixed case (2) having a plate (3). A magnet (6) is placed in the key, and two batteries (5a, 5b) situated inside the case are linked to two magnetic proximity sensors (4a, 4b). The magnet is moved closer to one of the sensors, when the key is applied on the plate, such that the sensors change the state of a relay (7) to perform the permutation of the batteries.

Description

The present invention relates to a device for battery actuation

  or battery of a closing means, an alarm or others.

  In the field of actuating devices for building or safe door locks and the like, the locks and access controls to combinations powered by battery or battery are well known. These devices comprise a system of combinations by electronic circuit, most frequently connected to a keyboard, and which we will name code switch, the actuation system which is connected to it, relays, electromagnets or electric motors charged with locking being realized by a battery or battery. This is sometimes located in the key but is more frequently installed on the inside so as to be inaccessible. In the latter case a backup system is provided to power the device when the battery is used with an external battery through a two-pole plug on the outer housing.

  These types of code switches have the disadvantage of being vulnerable while being expensive. Indeed, the visible part has several elements likely to be vandalized such as the connector for the application of an electronic key, the keyboard, the light or card or key insertion hole, the card for the emergency power supply. Similarly it is possible to tear off the front of the switch because of the possibility of leverage.

  On the other hand, the realization of combinations by means of an electronic circuit is expensive and makes use of fragile components.

  One of the aims of the invention is therefore to overcome these disadvantages by providing a code magnetic switch having a single piece without orifice on which is applied the key. This device is remarkable in that it has no plug for the backup power and no electronic component is used for the realization of the combinations.

  Indeed, the backup battery is, like the main battery, located in the housing, the permutation between the 2 batteries being made using a permanent magnet positioned on the key, the latter changing state on proximity sensor or microswitch being opposite in the housing.

  Combinations are realized by means of electromechanical relays or REED relays, activated by magnetic proximity sensors mounted in the combination chosen, in series or in parallel.

  Thus, the switching can only be performed if the number and position of the magnets on the key is in accordance with the connection diagram of the sensors.

  It is well understood that the permutation of the piles and the realization of the combinations being.

  made using permanent magnets, the visible part of the code switch has only one element that can be damaged, the latter can be made for example of non-magnetic stainless steel which is a guarantee of strength and sustainability. On the other hand, the mounting of the permanent magnets on the key is floating which allows to erase the code specific to each switch when the key is transported, the magnets moving freely in their homes. In addition, a single key can be used to operate different switches with different combinations.

  It will be for the user to position the magnets according to the mode of connection of the sensors in the housing.

  Other advantages and features will emerge more clearly from the following description of several variant embodiments given by way of non-limiting examples of the magnetic code switch according to the invention, with reference to the appended figures in which: FIG. 1 is a sagittal sectional view of the magnetic switch actuation device according to the invention.

  Figure 2 is a sagittal sectional view of a second embodiment of the switch and the key according to the invention. The simplified key has fixed magnets for combinations and therefore a unique code.

  Figure 3 is a front view of a key model whose magnet distribution mode allows use of the key for 2 switches of different size.

  Figure 4 is a schematic sectional view of the switch housing in a version embedded in the masonry.

  With reference to FIG. 1, the code magnetic switch comprises a removable key (1) and a fixed housing (2), the latter comprising a plate (3) made of magnetic materials on which the key (1) is applied.

  At the rear of the plate (3) are positioned magnetic proximity sensors (4) acting as switch. These sensors (4) are of normally open type when they are not under the influence of a magnetic field generated by a permanent magnet, these sensors (4) close when a suitable magnet is approached, the distance between the magnet and the sensor, depending on the strength of the magnet and the sensitivity of the sensor being most commonly between 5 and 20millimeters. The sensors (4) fulfill different functions: The sensors (4a) and (4b) serve to switch the batteries and feed the device. The sensors (4c) (4d) (4e) are connected in series and are loaded with close the circuit.

  The sensors (4f) and (4g) are responsible for opening the circuit.

  The sensors (4a) and (4b) are respectively connected to a battery or battery (5a) and a second battery or battery (5b). When the key (1) is applied to the plate (3), a magnet (6) located on the key (1) closes, depending on the chosen position, the sensor (4a) or (4b) which makes it possible to change the state the relay (7) and thus switch the power supply of the device on (5a) or (5b).

  The displacement of the magnet (6) on the key (1) to actuate the sensors (4a) and (4b) can be envisaged in several ways, by means of a slideway, a movable magnet support around an axis, a rocker, etc. The sensors (4c), (4d) and (4e) are unequally distributed at the rear of the plate (3) and are mounted in series, the increase in their number limited to the single size of the plate (3) allows to increase the number of combinations.

  the sensors (4c), (4d) and (4e) are closed when the magnets (8a), (8b) and (8c) are driven into each of their housing (9) by the user, the current then feeds the coil relay (10) which has the effect of closing the circuit and power relay (11), the mass of the latter is connected to sensors (4f) and (4g) connected in parallel. The number of these sensors is also a function of the size of the plate (3) and the desired number of combinations.

  The magnets (13a) and (13b) present on the key (1) must be set back in the housings (9), in the opposite case the inverter controlled by the relay would change state which would have the effect of cutting the supply of the element that one wishes to operate. A magnet (14) and a magnetic piece (15) facing the plate (3) or vice versa, allow to position the key plate during use.

  According to an alternative embodiment of the code magnetic switch with reference to FIG. 2, the housing (2) comprises an inverter-type proximity sensor (16), the latter being connected to a battery (5a) and to a battery ( 5b). when no magnet is screwed with this inverter, the battery (5a) feeds the circuit, the current then passes from (16) to the sensors (4c) and (4d). When the magnets (8) on the key (1) are applied to the plate (3), the sensors (4c) and (4d) are closed which allows to feed the relay (11). In the case where the sensors (4f) and (4g) are open, because of the absence of magnet on the key and facing, the relay (11) remains at rest which does not modify the inverter connected to equipment (12), electromagnet, relay, motor other. In the case where a magnet is approaching (4f) or (4g), the relay (11) would be powered which would have the effect of changing the state of the inverter driving the operation of (12). Referring to Figure 3, the location (9) of the magnets positioned on the key (1) of circular shape, is organized in two concentric planes (17) and (18). Thus, the magnets positioned near the center will be able to actuate a small diameter switch while the set of magnets will activate a larger diameter switch, the latter having a greater number of combinations.

  Referring to Figure 4, the housing (2) is embedded in a masonry. In order to reinforce the resistance of the plate (3), it is located inside the casing (19) which does not allow the use of a tool for levering between the edge of (3) and the envelope (19). A stop (20) integral with (3) limits its depression. A spring (21) makes it possible to release the contents of (19) after the electromagnet (22) has lifted the beveled bolt (23). The latter comes out of the striker (24) whose size and position prevents the bolt (23) can not be sheared or damaged in case of blows would be worn on the plate (3).

  It is obvious that the code magnetic switch can be designed from the various characteristics described above, so the fixed magnet key described in FIG. 2 can be adapted to the switch of FIG. 1 just like the moving magnet key of the Figure 2 may be adapted to the simplified switch of Figure 2.

  On the other hand, the power supply mode made from 2 batteries or battery permuted using a permanent magnet is independent of the embodiment of the combinations made from sensors connected in series and in parallel connected to a relay. Thus, the mode of permutation of the batteries can be adapted to another combination system and vice versa without departing from the scope of the invention Similarly, it goes without saying that the number of relays used to achieve the combinations described above can be increased without the principle of realization of the codes can be considered different from that described above.

  On the other hand, it goes without saying that proximity sensors may be replaced by microswitches may change state depending on a magnetic field, for example by fixing a magnetic part on their lever.

  Finally, it goes without saying that this magnetic switch code can be adapted to all equipment such as locks, locks or the like, alarms or other and that all the examples previously indicated are only particular illustrations in no way limiting to the field application of the invention.

Claims (9)

  1 - Code magnetic switch actuating device for activating or deactivating a lock, an alarm or the like consisting of a removable key (1) and a switch located in a fixed housing (2) having a face before named plate (3) characterized in that the permutation of the cells or battery (5a) and (5b) located both inside the housing (2) is carried out using a magnet (6) located on the key.   2 - Device according to the preceding claim characterized in that the magnet (6) can move on the key to operate according to the choice, one of the 2 magnetic proximity sensors (4a) or (4b) loaded with the permutation of the batteries 3 - Device according to claim 1 characterized in that the permutation between the two batteries is performed by means of an inverter (16) capable of changing state depending on the presence of a magnet.   4- Device for actuation by magnetic switch to code characterized in that the realization of the code is performed by means of sensors (4c), (4d) and (4e) connected in series, each of these sensors to be actuated by magnets (8a) (81)) (8c) facing each other for closing the circuit and sensors (4f) and (4g) connected in parallel connected to a relay (11) intended to cut the circuit in the case where the magnets (13a) and (13b) would be brought closer to them by mistake or ignorance, the number of sensors being a function of the size of the front panel and the desired number of combinations.   5- Device according to claim 4 characterized in that each magnet (8a, 8b, 8c, 13a, 13b) for actuating the charged code sensors freely slide in each of their housing (9) so that these magnets can not remain in the position in which they were placed during the last use of the key.   6- Device according to claim 1 or 4 characterized in that the temporary positioning of the key is achieved by means of a magnet (14) and a magnetic part (15) present opposite to the key (1). ) and the front face (3) or vice versa.   7- Device according to claim 4 characterized in that the magnets are positioned on the key in two concentric planes (17) and (18).   8- Device according to claim 1 or 4 characterized in that the front face (3) is located inside the casing (19) and not applied.   9- Device according to claim 1 or 4 characterized in that a spring allows to release the contents of (19).   10- Device according to claim 1 or 4 characterized in that the stop (20) prevents 35 bolt (24) to be sheared, the latter being in contact with the striker (23) when the contents of (19) ) is brought outward by (21).