CA1243383A - Alarm device for code driven electromechanical control device - Google Patents

Abstract

1. An electromechanical driving unit for controlling a device monitoring an access, comprising on the one hand a control unit arranged in the vicinity of the device which is to be controlled and which comprises an electronic device (1-4) which checks the code supplied by the users and if this code is correct supplies a control signal to the electrical unit (5) for actuating the device, and on the other hand a monitoring unit arranged at a distance which allows for the control and/or monitoring of the opening of the door, characterised in that the control unit comprises a voltage detection element (6, 13) which is connected to the terminals of the electrical actuation unit (5) and whose output signal is transmitted to an AND logic circuit (7, 21), which also receives a signal representing the absence of an acutation command, the output signal of the said logic circuit (7, 21) forming an alarm signal which is transmitted to the monitoring unit.

Description

~ 2 ~ 3383 The present invention relates to devices control electronics whose actuation is obtained by means of a code and which are intended to order a device controlling access, such as a door lock electric or a door opening motor so to allow access only to authorized persons being born said code. Generally, these electrical devices maneuvering discs have on the one hand a unit switch located near the control device der and which includes an electronic device which checks the code provided by the users and provides in case correct code a control signal from the electrical device device actuation plate and, on the other hand, a remote monitoring unit which allows puts to command and / or control said access.
One of the possible ways to force access for unauthorized people is to feed directly from the outside from a voltage source electric actuation device. This can be done relatively discreetly since it suffices to tick an opening in the device to access said audit actuating device. It is therefore desirable to pre-see an alarm device that alerts the monitoring station for such an unauthorized access attempt authorized. This alarm should obviously not be set triggered during authorized access ~
The subject of the present invention is therefore a dis-positive electromechanical maneuver of the type cited more top in which unauthorized energization of the electric actuation device triggers emission an alarm to the monitoring unit.
The present invention relates to an electrical device maneuvering mechanism for controlling an apparatus controlling access by a door, comprising on the one hand a control unit located near the device ',,., ~

- 2 - ~ Z ~ 83 to order and which includes an electronic device which checks the code provided by users and provides if the code is correct, a device control signal electrical actuation of the device and, on the other hand, a remote monitoring unit which allows controls the opening of the door, the control unit control having a voltage sensing element which is connected to the terminals of the electrical actuation device and whose output signal is sent on a circuit logic carrying out the AND function which also receives a signal representative of the absence of an action order ment, the output signal of said logic circuit constitutes killing an alarm signal which is transmitted to the unit surveillance.
Advantageously, said alarm signal is memorized laughed in a memory contained in the control unit and reset by the monitoring unit. Of this any attempt to power the acceleration device operation results in an alarm which can also be given at the level of controlled access so that discourage attempted unauthorized access.
Due to the storage of this alarm, it is not not deleted during the subsequent issue of an order authorized actuation which can for example be provided by an outgoing person using direct order uncoded actuation.
Advantageously, the voltage detector element provides a constant level signal regardless of the tension applied to it; thanks to this provision-tion, voltages that are clearly different from the normal supply voltage of the acceleration device can be detected.
operation. This is important because people trying forcing the door does not necessarily know the normal operating device operating voltage ment.

~ 433 ~ 33 - 2a -Preferably, said detector element may for example be constituted by a photocoupler whose the light emitting element is connected to the supply wires mentation of the actuating device, the receiving element light source powered at constant voltage and constituting the output of the detector. In this way, we obtain a perfect decoupling between the applied voltage quée on the actuating device and the signal detector output.
It is advantageous to couple this alarm with a shock detection or tear-off alarm control unit and in this case the alarm signal specified tee and the shock alarm signal are sent on a logic circuit OR providing a general alarm sabotage by unit of - f .

~ 33 ~ 33 3 ~ monitoring.
Other features and advantages of the vention will emerge from the following description of an example of application of the invention as well as of the attached drawings:
- the ~ ig. 1 is a diagram ~ my block diagram of the unit ~
for controlling an electric strike lock conforming to the present in ~ ention, and - the ~ ig. 2 represents a practical example of realization of the voltage detector element.
The inventi ~ n is described ~ hereinafter after applying to the co ~ nde unlocking a ~ lure ~ g ~ che ~ electric nais it can be ap ~ li-quée à twus devices ~ lec ~ romécaniques de manoe ~ vre such as a m ~ tor c ~ m ~ e d'ouv ~ rhre of a door, p ~ r example.
We v ~ it ~ Figure 1 a lock g ~ el che ~ riqae mistletoe for example has an input interface 1 ~ ui co ~ takes for example ~ le, a keypad, badge reader or a pogue while entering the ar oode -door ture; the output of this inte ~ faoe of entry ~ e is env ~ yée on a o ~
parateur 2 which also receives from a mk ~ oire 3 an opening code enre-registered in electronic form. In case of oo ~ nciden oe of the two codes, the co ~ parateur provided ~ a ~ re signal which is ~ mDrized in memDire 4 and sent to the electric strike 5.
Conform ~ ment ~ inventiDn ~ a voltage tecteNr is predicted S which is ~ ranch ~ in parallel ~ the on the feed wires ~ nd ~ é- device lec * opening width of the strike 5; the output signal from detector 6 is oombined ~ a significant signal; f; the ab ~ oe of a crdr ~ o ~ r ~ f ~ by m ~ mDire 4 and the inverter circuit 10 in an iogic circuit AND 7 d ~ nt the output provides a direct electrical strike signal electrigue 5.
& lon another characteristic ~ e 1'1nventiDn, the unit ~ ~ e commanae oomporte ~ also a detector 8 detecting shocks or arra-che ~ ents suffered by lDuni ~ of ccmmande çt which dbnc dbnc a siqnal ~ 'alarm of ~ c ~ arra ~ ts suffered by the unit ~ oen ~ e. The if ~ alarm ~ 'a-limenta ~ ion f ~ w ~ by pM ~ ~ ogique ~ T 7 and s ~ gE ~ a ~ n ~ de shocks or tears ~ urni by detector B are combined in an OV 9 logic circuit which provides a signal at its output 33 ~ 3 4.

general alarm for sabotage attempt.
Advantageously, the power supply alarm signal ti ~ n or ch ~ cs ~ u of tears is m ~ moris ~ in a m ~ -moire 11 then sent ~ ~ the monitoring unit ~ not shown ~ -sent ~ e). This last ax ~ r ~ e oomEnde db delivery ~ z ~ ro of memory ~ 11, for example by the intexm ~ diary of a line 12 ~
FIG. 2 represents an embodiment advantageous of the element of voltage detector 6. Indeed, lo the authors of the unauthorized opening attempt do not do not necessarily know the normal supply voltage tativn of the electrical strike and they can apply ten ~ very clear ions ~ ement diff ~ rentes from this ~ normal ension power supply. We must therefore be able to free ourselves from the ~ aria-tion ~ of voltage across the detector, i.e. it % must choose a detector whose output signal is inde-during voltage detected ~ e. This can for example ~ be r ~ made using a photocoupler 13, that is to say ~
component comprising on the one hand a light emitter ~ 14 and a 15-way light receiver. The part ~ light emitter of the photocoupler 13 is connected to the terminals supply conductors of the electrical strike S by through a resistor 16 and a divide 17 of pro-tection. The part ~ o ~ of light is re 3 it mentee by a constant tension through a resistance ~ resistance 1 ~, its other terminal ~ as ~ eliee ~ la ~ asse. Of this ~ ani ~ re we obtain in 19 on the terminal of the receiver light connected to the pQsiti power source a signal logic which is at ni ~ high water in the absence of de-voltage tectee by the reureur of lumlère 15 and at niYeaU low l ~ rsque this ~ l ~ ment 14 is food ~. We get dDnc in 19 a signal which is representative of the voltage across the strike electric 5 but inVer e of ~ has an absence of voltage results in a high level.
In this embodiment, the AND circuit 7 .

33 ~ 33 is made up of a circuit NON 0 ~ 21 which receives additional signals from eyes supplied to the AND circuit 7, that is to say that the second port of the circuit N ~ N OV 21 re ~ oit a signal representative of the presence of an order but inYers S i.e. this ~ ignal is at the high level in the absence of a if normal or normal opening of the door. We see that the invention tion provides an instant alarm from the first attempt to connect a supply voltage to the g ~ che ~ electric and this ind ~ pendammen ~ of the ~ aleur of this voltage.
The power supply of the operating device ment is generally supplied by the distribution network with a buffer battery; in the case of ordering a ha ~
bitation for example, the use of a t ~ mpon battery allows to obtain the opening of the door in the event of a 17 power cut network. However, in the case of a long absence from the owner, there may be a prolonged outage of the mistletoe network is greater ~ the battery life mounted in ~ ampon and in this case it would not be possible ~ ' opening the door after this long break in the network.
- Conform ~ ing ~ in ~ ention, o ~ provides ~ ni ~ water of the control unit a battery connection device exterior, this connection device is not valid, ~ say connected with the gue actuation device if the network is cut and the tnmpon battery is hGrs service.
This ~ isposition allows ~ the user to enter ~ ~ ~ his years ~
even after a long break in the network having entered ~ n ~
the deactivation of the buffer battery ~ n. ~ v ~ ntagely, this buffer battery is automatically deactivated before that it does not reach a state of a charge which renders it unusable.
The de ~ ~ ion ci ~ ~ essus ne ~ t ~ f ~ e gu '~ titre ~' ~
ples illustratifet ~ ullementl ~ tatifsetilest ~ t ~ uel'cnpeut y ~ des 3 ~ difi ~ a'ci ~ s au varia; ltes sans ~ orti ~ ~ ca ~ 3rd of the present invention, As we have in particular, we can replace oertai ~ oa ~ ants with oa ~ ts ~ l ~ t ia ~ oe ~ cti ~
as it is ~ e case for example for the circuit jitter ~ ON OR 21 which replaces the circuit l ~ jig E: T of figure 1.

Claims (9)

The claims of the invention, about of which an exclusive property or private right light is claimed, are defined as follows: 1. Electromechanical operating device intended to control an apparatus controlling access by a door, comprising on the one hand a control unit arranged in the vicinity of the device to be controlled and which includes electronic device that checks code provided by users and provided in case of code correct an electrical device control signal actuation of the device and, on the other hand, a unit remote-controlled monitoring control the opening of the door, the control unit carrying a voltage sensing element which is connected across the electrical actuation device and whose output signal is sent on a logic circuit performing the AND function which also receives a signal representative of the absence of an actuation order, the output signal of said logic circuit constituting a alarm signal which is transmitted to the monitoring unit launch. 2. Electromechanical operating device according to claim 1, wherein said alarm signal is stored in a memory in the unit control and reset by the monitoring unit. 3. Electromechanical operating device according to claim 1, wherein the sensor element voltage supply provides an independent constant level signal of the tension applied to it. 4. Electromechanical operating device according to claim 2, wherein the sensor element voltage supply provides an independent constant level signal of the tension applied to it. 5. Electromechanical operating device according to claim 3, wherein the sensor element voltage consists of a photocoupler whose light emitting part is connected to the power terminals mention of the electrical actuation device and of which the light receiving part is powered by a voltage constant sion. 6. Electromechanical operating device according to claim 1, wherein the control unit includes an OR logic circuit receiving on the one hand the aforementioned alarm signal and a signal supplied by a detector shock sensor, said logic circuit OR providing a general sabotage alarm signal to the monitoring unit launch. 7. Electromechanical operating device according to claim 2, 3 or 5, wherein the unit control circuit includes an OR logic circuit receiving share the aforementioned alarm signal and a signal supplied by a shock detector, said logic circuit OR provided a general sabotage alarm signal to the unit monitoring. 8. Electromechanical operating device according to claim 1, 2 or 3, supplied by a network power supply and a buffer battery, in which the control unit includes a connection device connection of a battery external to the action device-electrical connection, said connection device not being validated only when the power supply is cut and that the buffer battery is put out of service. 9. Electromechanical operating device according to claim 5 or 6, supplied by a network power supply and a buffer battery, in which the control unit includes a connection device connection of a battery external to the action device-electrical connection, said connection device not being validated only when the power supply is cut and that the buffer battery is put out of service.