HU211211B - Energy saving property protection device operating by shocking electric impulses - Google Patents

Abstract

The system has a detector indicating an intruder or attempted removal of a protected object and activating an acoustic and/or optical alarm device (9). A pulse source (21) is connected in parallel with the acoustic alarm (10) for delivering electric pulses to the protected object, or a protective metal structure. The pulse source (21) uses a capacitor (14) charged via a diode (12) and coupled via a thyristor circuit (17) to a HV transformer (18), providing the electrical pulses at its output terminals (22, 23). ADVANTAGE - Provides shock pulses in addition to alarm signal for providing additional deterrent.

Description

BACKGROUND OF THE INVENTION The present invention relates to energy-saving, shock-pulsing property protection equipment for valuables, safes, art treasures, jewelry, and the like. to prevent your attempt to steal. The device shall be equipped with an audible and / or light signaling device and a mains independent power supply in the event of an unauthorized intrusion attempt.

Alarm systems that are currently known and used to replace guardians generally call their environment to alert them to unauthorized entry or proximity to a protected object with local acoustic and / or optical alarms. A further function of the alarms used is to alert an unauthorized intruder or a person attempting to steal a protected object to discover his activity and to shock him by increasing his sense of danger. However, practice shows that this signal is not followed by action and the burglar has time to end the crime and leave the scene. The constant dynamic increase in the number of burglaries indicates a reduction in the shocking effect of alarms, and criminals are less and less prevented from completing a crime for a few seconds, thanks to preliminary terrain information.

The current level of security systems in Hungary can be found in József KÁRMÁN's "Burglary Protection" book published in 1991, and the general international level in K.M. Burghard's book "Alarmanlagen für Wohnung, Eigenheim und Betrieb" published in 1991. The latter mentions the protection of money bags, which is based on electric shock, but the shock effect mainly takes the form of intense corona discharge sparking and can only be actuated remotely.

The physiological effects of electrical impulses, which until now have only been applied to animals, are known. Such applications include electrical stunning of animals to facilitate slaughter, e.g. according to patent application HU 167 705 "Methods and apparatus for stunning poultry and / or rabbits" by means of electric pulses. Another application of electrical impulses is the guarding of animals in electric pens. This is used by the German-made S-1T / TD device. The use of electrical impulses for security purposes is described in patent application HU 190 947 entitled "Equipment for protection against electrical impulse impulses". According to this, the pulse generator, after a certain delay, emits a series of pulses to the object to be protected which is alarming, so that the biological effect of the pulse series is not shocking, but its energy demand is high due to continuous continuous operation.

It is an object of the present invention to provide an active security device that prevents an attempt to prevent unauthorized intrusion and theft not only by sound and / or light signaling, but also by an intervention. which intervention not only has a deterrent effect, but also produces a shocking effect by releasing high-voltage single pulses to the object to be protected from the siren generator, which is fed periodically, thus saving energy.

Therefore, the pulses are applied to the object to be protected at intervals of 0.1 to 1 sec, not continuously, thus providing a shocking voltage not exceeding the physiologically uncharged charge of 2.5 mC per pulse, but with a higher intermittent operation. it can reach voltage peaks, the biological effect of which peaks completely excludes the possibility of being stolen by an intolerable electric shock.

The present invention has been discovered by keeping the charge value of a constant pulse series below 2.5 mC to produce only repulsive and unpleasant shocks at very high consumption, whereas each pulse produces an intolerable electric shock at a charge not yet harmful to health at 2.5 mC also, however, the power consumption is not significant because it is powered by a loss - self - inductive voltage otherwise provided by the siren generator loudspeaker.

The Hungarian standard MSZ 20860 regulates the energy delivered to the object to be protected by life protection regulations, which can be easily observed within a single impulse, because a given voltage, in our case Zener diode breakdown voltage or incandescent lamp ignition voltage, is discharged through a high voltage transformer.

The object of the present invention can thus be achieved by a conventional burglar alarm device, the speaker of which is connected to a pulse generator which provides a warning against high-voltage burglary, can be deactivated in order to allow the owner to enter dangerously and after illumination and / or they get to the object to be protected, whose electric shocks are intolerable.

Accordingly, the present invention relates to an energy-saving security device operating with shock pulses to prevent unauthorized intrusion or attempted theft, which comprises a power supply unit for supplying power to a sound and - preferably light signaling - central unit connected to the output of the sensor unit and It has a connector, an alarm delay delay unit following a warning signal, a disarming unit connected to the central unit, an owner access approach, an alarm generator and a loudspeaker connected to the delay unit, and a high-voltage pulse generator. The invention is characterized in that the input of the high voltage pulse generator is connected in parallel with the output of the siren generator, and in the pulse generator is connected a series of diode, resistor and capacitor connected in series to the terminals of the pulse generator.

A circuit consisting of a thyristor connected in series and a primary winding of a high-voltage transformer is connected to the ignition input and anode of the thyristor, consisting of a Zener diode or incandescent lamp, one of the high-voltage transformers of the high-voltage, is bound.

The invention will now be further described with reference to an exemplary embodiment of the accompanying drawings, in which:

Figure 1 is a schematic diagram of a possible embodiment of a security device, a

Figures 2 and 3 show two embodiments of the pulse generator.

In the drawing, the output of the sensor unit 1 is connected to the input of the central unit 2. The power supply to the central unit 2 is provided by the power supply unit 4, which consists of a battery automatically charged from the mains. The central unit is activated through the disarming unit 3 by means of the key 3.2. Upon detection of the detector unit 1, the warning light 5 is triggered and after a time defined by the delay unit 6 connected to the central unit 2, the siren generator 7 connected to it activates, causing the loudspeaker 8 connected to the siren generator 7 to sound. The device according to the invention bypasses the return diode 9 conventionally connected in parallel with the speaker 8 and replaces it by a series circuit consisting of diode 12, capacitor 11 and resistor 10, where the thyristor 13 is connected in series with the primary winding 14.1 and the thyristor 13 15 ignition units are connected, while the high voltage secondary coil 14.2 is connected to the object to be protected. The ignition unit 15 consists of either the Zener diode 15 shown in Figure 2 or the incandescent lamp 15B shown in Figure 3. When the sensor unit 1 senses an intrusion, it sends a signal to the central unit 2 which activates the warning light 5 and activates the delay unit 6. All this requires that the central unit 2 receive power from the power supply unit 4 and that the disarming unit, by means of the key 3.2, be in "live" mode.

The delay unit 6, after a set delay of a few seconds, which is necessary to allow its competent approach without alarm, starts to operate the siren generator 7, which supplies the speaker 8 with voltage and, consequently, the siren starts. However, at the place of the bypassed diode 9 through the diode 12 and the resistor 10, the self-induction voltage of the speaker 8 charges the capacitor 11, and when its armaments reach the ignition voltage defined by the ignition unit 15, the thyristor 13 is discharged through the primary winding of transformer 14.1. During the closing period of the diode 12, the holding current of the thyristor 13 is interrupted and the charging of the capacitor 11 begins again until the ignition voltage is reached. The time between each pulse is determined by the time constant defined by the resistor 10 and the capacitor 11. During discharge, the secondary coil 14.2 of the high-voltage transformer 14 exhibits a high-voltage shock whose charge content is determined by the capacitor 11 in conjunction with the voltage of the ignition unit 15.

The advantages of the ENERGY SAVING, SHOCKING PULSES of the present invention can be summarized as follows:

In addition to traditional burglar alarms, it provides impulse packs that are not harmful to health - after proper alerting - to the object to be protected with voltage peaks that, due to their intolerance, prevent theft without virtually any extra consumption.

Claims (1)

Patent Claim Point Energy-saving security device operating with shock pulses to prevent unauthorized intrusion or theft by means of an unauthorized intrusion or theft detection unit (1) and a central unit (2) for acoustic and - preferably light - signaling to the output of the sensor unit (1). a power supply unit (4), a delayed alarm unit (6) connected to the central unit (2), a disarming unit (3) connected to the central unit (2), providing an alarm, having a siren generator (7) connected to the delay unit (6) and a loudspeaker (8) connected thereto, and a high-voltage pulse generator, characterized in that the input of the high-voltage pulse generator is parallel to the loudspeaker (8) connected to the output of the siren generator (7) and connected in series in the pulse generator with a diode (12), a resistor (10) and a capacitor (11) connected in series, and a thyristor (13) connected in series to the armature of the capacitor (11) a circuit consisting of a primary winding (14.1) of the transformer (14) connected to the ignition input and anode of the thyristor (13), consisting of a Zener diode (15A) or incandescent lamp (15B), the high voltage transformer (15). 14) one terminal of the high voltage secondary winding (14.2) is connected to the body and the other terminal is connected to the object to be protected.