DE1616021C - - Google Patents

Description

The invention relates to a circuit arrangement for preventing false alarms in monitoring systems. the fields used as detection means (e.g. ultrasound or high-frequency electromagnetic Waves) and for which the output voltage is differentiated.

The most important requirement when using surveillance systems is the greatest possible security against triggering false alarms. False positives are costly and reduce care and vigilance of the surveillance personnel called in the event of an alarm (e.g. police). Besides, this is Surveillance personnel during the time of control in the event of false alarms to control in other places where a real alarm is triggered, not ready for use.

In systems of the type mentioned that stand as a detection means fields, z. B. Ultrasound or high frequency electromagnetic waves, use, is caused by someone moving in this field Object or person creates a changing tension. By differentiating this tension there is a series of alternating positive and negative impulses, since the caused thereby Field shift at the location where the receiving means is located, alternating nodes and Wave bellies arrive.

When using such monitoring systems, e.g. B. in department stores, depending on the used Detection means by electrical or acoustic interferers from the outside false alarms arise. Objects that have been set up can also fall over due to drafts or vibrations, or decorative parts move slowly. So has z. B. the Christmas decorations that are strung from the ceiling hanging disks of tinplate paper, caused by slow rotations due to the convection of heat False alarms triggered.

These potential interferers differ in their effect from a real alarm generator, ζ. Β. a burglar, in that the disturbance is either slow or only a few times, occurs in a certain period of time. This problem also occurs with fire detectors, which a photosensitive component responds to intensity fluctuations; a flash of light or a slow changes in light (day-night) are not allowed lead to the alarm.

Due to the circuit according to the invention, the risk of an alarm being triggered by this is mentioned Possibilities of interference largely reduced.

It is already known that, in order to prevent false alarms, the alarm is only triggered after several Make impulses. The trigger pulses are rectified and stored in a memory, e.g. B. a capacitor, which only reaches a voltage after a certain charge is sufficient to trigger the alarm. Limiters ensure that the charging pulses are equally high and a high discharge resistor ensures through slow discharge of the capacitor that at If the pulse spacing is too great, the voltage required to trigger the alarm is not reached. So done through this storage a count of all impulses regardless of their polarity.

Furthermore, through the German utility model 1700173, an alarm receiver with a step switch mechanism known that only triggers the alarm after a certain number of pulses.

The object on which the invention is based exists in creating circuitry that does not respond to glitches. This task is achieved in a circuit arrangement of the type mentioned in that by means of a Counting circuit that responds to the impulses supplied via the pulse generator, an alarm only when it occurs a certain number of alternating positive and negative pulses within a certain Period of time is triggered and that the counting circuit when a certain The number of pulses is automatically switched back to its initial state within a certain time will.

The counting circuit can consist of a relay circuit or an electronic circuit that Number of pulses necessary to trigger the alarm and / or the time after which the reset to the Initial state takes place, can be adjustable.

The figure shows an exemplary embodiment for the circuit according to the invention.

The circuit arrangement consists of the Schmitt triggers Tl and Γ2, the counting chain Z and the discharge circuit W. The pulses at the input switch depending on the polarity by means of the Schmitt trigger Tl or TI, the relay A or B relay to passage of current. For example, a first positive impulse switches relay A to continuity by means of the Schmitt trigger Γ1. Then its contact α in the counting chain part Z connects the negative pole via the diode D 5, relay C, collector-emitter path of the transistor T 7 and the diode D 3 with the positive pole. The base of the transistor Γ7 is biased via the resistor R 14 so that the collector-emitter path is conductive. This closes contact c and relay C initially holds itself. Now there are two possibilities:

a) It is soon no negative pulse: On Relay C is a voltage of about 12 volts when the negatively biased via the base resistor R14 transistor Tl is conductive. The same voltage is applied to the double base diode T 5. The capacitor C 8 with a large capacity then charges slowly and after a certain time, after the ignition value has been reached, the double base diode T 5 turns on. The transistor T6 , which is blocked in the idle state, becomes conductive due to the potential difference between the base and emitter. This eliminates the potential difference between the base and emitter of the transistor Tl and this blocks. The relay C is then de-energized and the contact c opens. The shedding circuit W is thereby disconnected from the negative pole and returns to its idle state. There is again a potential difference between the base and collector of the transistor Tl via the resistor R14 . It is thus prepared for switching on again.

In this case, no alarm is triggered.

b) The first positive pulse is soon followed by a negative pulse:

The relay B draws current via the Schmitt trigger Tl. The relay D responds via the positive pole, diode D3, transistor T7, contacts, diode D4, relay D, contacts, negative pole. Relay D maintains itself via contact d.

If there is no further pulse, the release circuit W returns to the idle state, as described in section a).

If, however, a positive pulse soon follows, relay A receives power again, as described at the beginning, and contact α sends negative voltage via diode D 6 to relay E, which via contact d, transistor Γ7 and diode D3 is connected to the positive pole 5. The relay E maintains itself via contact e. At the same time, the alarm bell We is activated.

The duration of the charging time of the capacitor C 8 can be adjusted using the adjustable resistor R 12.

The counting chain, which is designed for three pulses here, can be expanded as required, e.g. B. by means of the relay F, shown in dashed lines on the right, of course, the last relay actuates the alarm bell We.

Claims (5)

Patent claims: 1. Circuit arrangement for preventing false alarms in monitoring systems that use standing fields as detection means (e.g. ultrasound or high-frequency electromagnetic waves) and in which the output voltage is differentiated, characterized in that by means of a counting circuit (Z) which is based on the Pulse shaper (Tl, TT) responds, an alarm is only triggered when a certain number of alternating positive and negative pulses occur within a certain period of time and that the counting circuit (Z) automatically returns to its initial state if a certain number of pulses is not reached within a certain time is switched back. 2. Circuit arrangement according to claim 1, characterized in that the counting circuit (Z) consists of a relay circuit. 3. Circuit arrangement according to claim 1, characterized in that the counting circuit (Z) consists of an electronic circuit. 4. Circuit arrangement according to claim 1 to 3, characterized in that the number of pulses after which the alarm is triggered and / or the time after which the counting circuit switches back to their initial state, are adjustable. 5. Circuit arrangement according to claim 1 and 2, characterized in that a counting chain is used as the pulse shaper (Γ1, Tl) and as a counting circuit (Z), in which relays (C, D, E) are switched on one after the other hold themselves if they are not switched off again by a release circuit (W) which contains a timer if the pulses fail to occur within a certain time interval. 1 sheet of drawings