DE2611145A1 - Vibration operated burglar alarm - protects many separated objects by monitoring current through line connecting vibration prone contacts - Google Patents

Abstract

A burglar alarm network protects a string of separated objects or locations, which depends on vibration prone contacts mounted at each location changing the current in the common connecting line when a disturbance occurs. The network uses photodiode series elements and optical coupling, instead of resistance alone, which result in tolerance problems over an extended string of objects. A number vibration prone contacts (9, 10) are connected in series with an equal number of photodiodes (12, 13, 14) which activate light sensitive transistors (15, 16,17) either in a separate line (18, 19) or alternatively in the same line (20). Four such networks are connected in a bridge array (24, 37) with photodiode (25, 26) monitoring of the imbalance current. If imbalance occurs due to a disturbance, a photosensitive amplifier pair (27, 28), logic network, and photodiode (35) alarm signals are activated.

Description

Alarm system designed as a balanced bridge

deter control device The invention relates to an alarm system to secure a number of objects with sensors assigned to the objects, which are arranged with resistors in at least one current loop that runs through a control device, preferably designed as a balanced bridge, for changes the transfer behavior is monitored, and signals are triggered in the event of changes will. Such alarm systems are used to secure buildings or parts of buildings used against burglary by its doors, windows or the like through sensors be monitored, and they can, if necessary additionally, for the protection of special Objects such as safes, art treasures and, in museums, exhibits are used will.

In the case of normal closed-circuit loops, those are designed as normally-closed contacts Sensors interconnected with resistors to form a current loop, their quiescent current is monitored by the control device for changes, or its resistance is checked for changes.

Quiescent circuits trigger an alarm when interrupted, and when The provision of resistors in the current loop also speaks of short-circuiting the current loop or its parts. Such a current loop is used by unauthorized persons can only be rendered ineffective with difficulty, since the impressed current is within close tolerances is to be reproduced. Such a reproduction can also be made more difficult, by having a flow branch Loop is created.

The invention is based on the task of creating an alarm system, in which also bridges a current loop, in which the originally connected Bypass current flowing is simulated to trigger the alarm lead, and the invention further aims to provide a sensitive control device to create in the form of a bridge arrangement, which is fed by the downstream, parts of the control device responding to disturbances of the bridge equilibrium is completely separate.

This task is solved by adding resistors to at least one current loop by luminescent diodes of optoelectronic coupling elements, in the following briefly called 'soptocoupler ", whose receiver is on the control device act. This ensures that if parts of a current loop fail the recipients report the failure of the control device. The recipients can be in a second current loop can be provided, which the operational readiness of the first monitored. But it is also possible to have receivers in a sensor, resistors and / or to provide current loop having luminescent diodes.

It has been shown to be essential that the designed as a control device Bridge as a diagonal two anti-parallel connected luminescent diodes of optocouplers has, whose receiver outputs respond when a threshold value is exceeded Indicators are switched. A simple design of the control device results when the recipients work together on an indicator. The Storage devices assigned to receivers and / or indicators. It has proven itself to equip the storage devices with a display device.

In detail, the features of the invention are based on the following Description of an embodiment in connection with this explanatory drawings described.

They show: FIG. 1 a conventional current loop of an alarm system, Figure 2 according to the invention with optocouplers equipped current loops a Alarm system, and FIG. 3 the control device for the current loops of FIG. 2.

In Fig. 1 is a conventional one formed between two clamps 1 and 2 Current loop shown, the sensors in series forming a closed-circuit current loop 3 and 4 contains. Part of the loop can be designed as a working contact Sensor 5 must be bridged. The sensors are expedient as mechanically operated Contacts, magnetic or shock contacts formed. Sensors 3 and 4 Partial resistors 6 and 7 are assigned, and the loop has a terminal resistance 8, so that not only when interrupting, but also when bridging a part the loop, the downstream control device changes in resistance or current able to grasp. Basically, however, there is the option of attaching the loop at a point previously bridged by an I-link and at the point of separation to maintain the current or resistance that has been effective up to now.

According to the invention, such are difficult and with anyway large amounts of time made impossible to carry out operations; those in Fig. 2 illustrated loop formed according to the invention is practically perfect secured against unauthorized access by third parties.

Referring to Fig. 2, the sensors are connected in series in the current loop 9 and 10 as partial resistances each assigned duminescent diodes 12 and 13, and the terminal resistor also provided here is connected by a resistor 11 formed with a luminescent diode 14. The luminescent diodes! 2, 13 and 14 are the transmitters of optocouplers. Those provided as receivers in the optocouplers Phototransistors 15 to 17 are in a separate one, connected to terminals 18 and 19 connected loop connected to each other. So now two are galvanic loops that were completely separate from one another resulted in the switching off of Luminescent diodes of the connected to terminals 1 - 2 and of the control device monitored current loop also changes in the circuit connected to terminals 18 and 19 Loop causes. Basically it is possible to use transistors as amplifiers to use; The receiver of the optocoupler can also be used as photo resistors or Photo elements take effect. Is a galvanic separation into two separate ones Current loops are not required, the message loop can be replaced by a third be shown in Fig. 2 dashed line: The dashed line, for Terminal 21 leading line contains n receivers 20 of Pnotokouplern. Furthermore is it is also not necessary, basically sensors and luminescent diodes or resistors on the one hand and to accommodate the receiver of the optocoupler in separate circuits; so the current loop formed between the terminals 18 and 19 with resistors, Sensors and possibly luminescent diodes be equipped, and likewise is it is not necessary that the wire leading to terminal 21 is the only receiver of Has optocouplers. With the appropriate arrangement, networks can be created, which in practice cannot be rendered ineffective by unauthorized third parties.

It has proven to be useful to have a suitably constructed and changes in current, voltage and resistance, respectively sensing control device to be provided. Corresponding galvanically separated current loops is also expedient in the control device the bridge arrangement checking the current loops for changes galvanically separated from the associated indicators. So is according to the invention in Fig. 3 the current loop 24 shown as a resistor through three further bridge members added to a bridge circuit, the measuring diagonal of which is connected by two antiparallel Luminous diodes 25 and 26 of two optocouplers is formed. The galvanic from these separate receivers 27 and 28 of the optocoupler are connected to the two inputs a NAND stage 29 connected via an inverter 30 and a protective resistor controls the base of transistor 31 so that at the terminals connected to it 32 a possibly triggered alarm signal is pending.

The outputs of the receivers 27 designed as phototransistors and 28 are in each case an also a NAND operation causing memory stages 33 out, the outputs of which to a downstream control stage 34 and a display diode 35 work. A two-pole erase switch 36 is provided to erase the memory.

With the current loop 24 connected, the bridge arrangement is first established adjusted by changing one of the other bridge members so that the bridge diagonal and so that the luminescent diodes 25 and 26 remain de-energized.

If now, for example by actuating one of the sensors 9, 10 of FIG. 2, the resistance of the current loop 24 between terminals 1 and 2 changed, the bridge is unbalanced, and depending on the increase or lowering the loop resistance and thus positive or negative voltage one of the two luminescent diodes 25 and 26 lights up on the diagonal and acts on it the assigned recipient. When the luminescent diode 26 lights up, the Receiver 28 acted upon, its Output drops from H to L, so that the output signals of the NAND stage 29 and the memory stage 33 jump to H. At the output of inverter 30, the voltage now drops to L, and so does the transistor 31 is blocked and triggers the alarm. The storage stage acts on the display diode 35, which now lights up to indicate the excitation of the receiver 28, and switches the control stage 34 to which now the second input of the storage stage 33 L-potential supplies and maintains their switching state.

This memory function can be deleted and switched back can the memory stage 33 by actuating the switch 36, the L potential to the second input of the control stage 34 sets.

According to the invention there is an effective alarm system for Securing objects that cannot be rendered ineffective in practice. Interventions, For example, disconnecting and bridging with a given resistance in one of the current loops causes repercussions on the other, so that manipulation of the current loops necessarily trigger an alarm. It proves to be advantageous that the Dependency causing elements such as the receiver 20 of the optocoupler as active Bipoles can be effective, so that in one or, with a mixed arrangement of Receivers and transmitters, voltages are also induced in both current loops will. The use of the optocoupler allows complete freedom of movement in the arrangement; so the two current loops can be completely galvanically separated, they can but also, for example with terminals 1, 2 and 21, have a common line which deviating from the husführungbeispiel of Fig. 2 also with luminescent diodes, Resistors and / or receivers can be provided. The perfect galvanic Decoupling of the transmitter and receiver of the optocoupler allows extensive freedom of movement in the supply and control of the current loops. So it is possible for the individual Current loops also have separate control devices assign. But it has also proven itself, not just one of the four bridge branches through one To form a current loop, but also another branch of the bridge, for example the resistor 37, to be replaced by the second current loop, so with a bridge arrangement and a common supply current source, two current loops through the same Bridge arrangement can be monitored. The possibility of total galvanic Separation of the current loops allowed, if necessary through all four bridge branches equipped with sensors and / or receivers and thus performing monitoring functions To replace current loops. But it also proves to be just as advantageous that the Bridge arrangement downstream logic circuits galvanically completely from the bridge separate. The anti-parallel connected luminescent diodes 25 and 26 remain dark and the associated receivers deenergized as long as the bridge is in equilibrium. This equilibrium is the bridge that is usually supplied with direct voltage disturbed to one side or the other, it is in each case in the direction of tension switched of the anti-parallel provided luminescent diodes 25 and 26 effective and applied to the receiver assigned to it, so that the corresponding signal from the current loops and their power supply are completely separate, with their own power supply is effected. It is therefore advisable to use those with optocouplers as indicators in the diagonal branch Equipped bridge to be used even if such a galvanic decoupling appears to be desirable without current loops having optocouplers being monitored will. For example, the control device of FIG. 3 can also be used in conjunction with find simple current loops according to FIG. 1 application and allows a favorable or desirable distribution of the power supply and the decoupling of the measuring arrangement from the subordinate indicators.

L e r s e i t e

Claims (2)

Claims 0 Alarm system for securing a number of objects with the objects assigned sensors, which with resistors in at least one Current loops are arranged by a preferably balanced bridge trained control device monitored for changes in the transmission behavior which triggers signals in the event of changes, as characterized in that resistors (6, 7, 8) are represented by luminescent diodes (12, 13, 14) of optocouplers, whose receivers (15, 16, 17, 20) act on the control device (Fig. 3). 2. Device according to claim 1, characterized in that the receiver (15 to 17) are provided in a second current loop. 5. Device according to claim 1 or, characterized in that Receiver (20) in a sensor (9, 10), resistors (11) and / or luminescent diodes (12 to <4) having current loops (1 - 21) are provided. 4. Device according to one of claims 1 to 3, d a d u r c h g e it is not indicated that the bridge designed as a control device as Diagonal two anti-parallel connected luminescent diodes (25, 26) of optocouplers whose receiver outputs (27, 28) open when a threshold value is exceeded responsive indicators (29, 33) are switched. 5. Device according to claim 4, characterized in that the receiver (27, 28) act together on an indicator (29). 6. Device according to claim 4 or 5, characterized in that Storage devices are assigned to receivers (27, 23) and / or indicators (29). 7. Device according to one of claims 4 to 6, characterized in that that the storage device (33) with a display device (display diode 35) Is provided. 8. Device according to one of claims 4 to 7, characterized in that that the arranged in the bridge diagonal luminescent diodes (25, 26) of downstream Indicators (29) are arranged galvanically separated.