RU2143136C1 - Guarding alarm device - Google Patents

Abstract

FIELD: protection against intruders destroying glass framed structures. SUBSTANCE: device has sensitive element, voltage stabilizer, digital analyzer, units for testing and generation of alarm signal. Device provides safety against electromagnetic noise and short-term drops of power supply voltage without loss of monitoring of premises to be protected for significant duration of voltage drop below tolerant range. Additional digital signal processing includes detection of additional information feature corresponding to destruction of guarded glass framed structures. EFFECT: increased functional reliability, increased validity for detection of intrusion. 4 cl, 1 dwg

Description

 The invention relates to a burglar alarm technique and can be used to protect objects from intruder intrusion by destroying glazed structures.

 A device for burglar alarms [1] is known, which contains a sensitive element with movable contacts connected via a communication line with one contact to the first input of the integrator, the other to a common power bus of the device, an actuator with an input connected to the output of the integrator, the first current-setting element, the first the output of which is connected to the first output of the indicator, the first polarity selector, through which the voltage source is connected to the supply terminal of the actuator, the storage capacitor is connected the second polarity selector, the input of which is connected to the power source, while the second integrator input is connected to the supply terminal of the actuator, the output of which is connected to the second output of the indicator, and the output of the second polarity selector is connected to the second output of the first current-setting element , a voltage limiter, the first terminal of which is connected to the second terminal of the indicator, and the second terminal is connected to the second terminal of the first current-setting element.

 The closest in technical essence and the achieved result to the proposed one is a security alarm device [2], which contains a sensitive element with movable contacts connected via a communication line with one contact to the first input of the integrator, the other to the device’s common power bus, actuator, first input which is connected to the integrator output and the first protection element, and the second to the voltage stabilizer input, the storage capacitor, and through the first polarity selector to the voltage source The combined first inputs of the first and second current-setting elements and the indicator are connected to the control input of the unidirectional current regulator, the first input of which is connected to the output of the actuating element and the second input of the second current-setting element, and the output - to the second input of the indicator and through the filter and the second polarity selector voltage source.

The disadvantage of this device is its low functional reliability. The device is unable to perform the intrusion detection function under the following conditions:
- if, during the destructive effect on the protected glass, the formation of a large number of multidirectional cracks in it occurs. In such a situation, the sensing element of the device is affected by accelerations of movement with random phases and directions of its propagation along the glass. Therefore, the resulting durations of acceleration pulses measured by the device integrator are insufficient to generate an alarm;
- if there has been a decrease in the supply voltage of the device below the acceptable level, including a deliberate decrease (sabotage). At this moment, the detection parameters of the device deteriorate (the current operating modes of its units change), the control of the protected object is lost without any indication to the user. However, in the process of protection there should be no loss of control by technical means, and if this happens, it is necessary to carry out special organizational measures provided for by the current instructions. Thus, when the supply voltage of the device decreases below the permissible level, an alarm signal must be generated that is transmitted to the central security console (CCO).

 The objective of the invention is to increase the functional reliability of the device for burglar alarm. The problem is solved as follows. Into a security alarm device containing a sensor with two movable contacts connected via a communication line with one contact to the first input of the integrator, the other to the device’s common power bus, a voltage stabilizer whose input is connected to the storage capacitor and through the polarity selector to the device’s power source and the output - to the energy storage device and the second input of the integrator, the output of which is connected to the first protection element, the second protection element, a control unit, a digital analyzer are introduced and an alarm generating unit, the first input of the digital analyzer is connected to the integrator output and through the second protection element to the output of the voltage stabilizer and the combined first inputs of the monitoring and generating alarm units, the second input of the monitoring unit is connected to the voltage stabilizer input, and the output to the second input digital analyzer, the output of which is connected to the second input of the alarm generating unit.

 The digital analyzer contains the first and second OR elements, an adder, one-shot, timer, AND element, an inverter, a simulator and a trigger, the connection point of the first inputs of the AND element and the first OR element is the first input of the digital analyzer, the second input and output of which are the first input and the output of the second OR element, the output of the first OR element is connected to the first and through a single vibrator to the second input of the adder, the output of which is connected to the second input of the AND element and through the inverter to the synchronous input of the trigger, timer Erez simulator is connected to the second input of first OR input and a trigger synchronization output element and connected to the second input of the second OR gate, the third input of which is connected to the output of the flip-flop.

 The control unit contains a divider, a protection element, a delay element and an inverter, the first output of the protection element and the input of the divider are respectively the first and second inputs of the control unit, the output of the divider is connected to the delay element, the second output of the protection element and the input of the inverter, the output of which is the output of the control unit .

 The alarm generating unit contains a one-shot, limiter, actuator, trigger, jumper, OR element and indicator, trigger reset input, is connected through the jumper to the device’s common power bus and through the limiter to the first input of the actuating element, which is the first input of the alarm generating unit, the second input of which is the input of the one-shot, the second input of the actuator is connected to the control input of the trigger, the output of the one-shot and the first input of the OR element, the second input Otori is connected to the output of the flip-flop, and the output - to the indicator.

 The drawing shows a structural diagram of a device for alarm.

 The device contains a sensing element 1 with two movable contacts made weakly sensitive to an external magnetic field and having a predetermined mass and elasticity difference, a communication line 2, an integrator 3, an energy storage 4, which are usually used as a large capacitor, the first 5 and second 6 elements protection made on diodes, a voltage stabilizer 7, a digital analyzer 8, a control unit 9, a storage capacitor 10, a polarity selector 11 made on a diode, and an alarm signal generating unit 12.

 A digital analyzer 8, which can be performed, for example, on a microprocessor, contains a first OR element 13, an adder 14, a single vibrator 15, a timer 16, an AND element 17, an inverter 18, a simulator 19, a second OR element 20, and a synchronous trigger 21.

 The control unit 9 consists of a divider 22 made on two series-connected resistors, a protection element 23 made on a diode, a delay element 24 made on a capacitor, and an inverter 25.

 The alarm signal generating unit 12 contains a one-shot 26, a limiter 27 made on a resistor, an actuator 28 made on a relay, an asynchronous trigger 29, a jumper 30, an OR element 31, and an indicator 32.

 The device operates as follows.

After applying the supply voltage (U _p ) and the end of transients at the input of the voltage stabilizer 7, the second input of the control unit 9 and the storage capacitor 10, a voltage close to U _{p is established} . At the output of the stabilizer 7, the energy storage 4, the second input of the integrator 3 and the first inputs of the control units 9 and the formation of the alarm 12, a stabilized voltage is supplied to the detector nodes (U _st ). At the delay element 24 and the input of the inverter 25 of the control unit 9, a voltage (U _d ) is formed, formed by its divider 22.

At the initial moment, in the normal state of the guarded object (there is no destructive effect on the guarded structure) and if U _p corresponds to the required value, the outputs of the digital analyzer 8 and the control unit 9 contain logical zero signals. The device goes into standby mode, in which the indicator 32 of the alarm generating unit is turned off, and the actuating element 28 is energized and transmits a “normal” notification to the central control center of its output contacts. The issuance of this notice is carried out by the alarm generation unit 12 if there is a logic zero signal coming from the output of the digital analyzer 8 at its second input. Otherwise, a high level signal of a given duration is generated at the output of the one-shot device 26, which de-energizes the actuator 28, which open output contacts forms an alarm message on the central monitoring station. The signal from the output of the one-shot 26 also goes to the first input of the OR gate 31, which includes an indicator 32. The duration of the output of the one-shot is set sufficient to receive the alarm notification of the PCO and its visual observation using the light indicator.

 The protection tactics of many objects require that when the security device is triggered, its indicator continues to glow until special enforcement measures are taken, for example, turning off the power to the device. This requirement is ensured in the proposed device by setting a jumper 30. In this case, an enable signal (logical zero) will be present at the reset input of trigger 29, therefore, the arrival of a signal from the output of one-shot 26 at its control input will result in the formation of a fixed high level, which will provide a given mode of illumination of the indicator 32.

 In the absence of destructive effects on the protected structure, the contacts of the sensitive element 1 are closed, so there is no voltage at the output of the integrator 3. At the time of destruction of this design, one (or several) contacts of the sensitive element 1 of the device are opened, which leads to the charge of the integrator 3 with the voltage present at its second input. The charge time of the integrator is selected in such a way as to exclude the influence on the operation of the device of short pulsed noise on the communication line 2.

 The signal from the output of the integrator 3 is fed to the first input of the digital analyzer 8, where it is compared with the threshold of the operation of its first element OR 13 and the element And 17. If the signal exceeds these thresholds at the output of the first element OR 13, in particular, a logical unit signal appears to the first input of the adder 14 and the input of the single-vibrator 15, at the output of which a positive control pulse is generated, which arrives at the second input of the adder 14. During the operation of the control pulse, the adder 14 determines the total (total) Call duration pulses received at its first input. If the indicated duration reaches a predetermined value, a logic unit signal is generated at the output of adder 14, which is fed to the second input of AND element 17 and (if there is a corresponding signal at its first input) is transmitted to the second input of second element OR 20 and then to the output of a digital analyzer 8, which leads to the transition of the device into alarm mode.

 In the digital analyzer 8, the possibility of periodic self-testing (to detect a malfunction of the nodes or a failure of the microprocessor program) can be provided, which is carried out, for example, as follows.

 The timer 16 periodically generates time intervals during which the simulator 19 generates positive pulses, the duration of which is selected in accordance with the signals arising from the typical destruction of the protected structure. The signal from the output of the simulator 19 is fed to the second input of the first element OR 13 and the synchronization input of the trigger 21, which is carried out on the trailing edge of a positive pulse. At this moment, the following occurs. If there are no malfunctions in the adder 14 and the single-vibrator 15 (the main nodes of the digital analyzer 8), a logic zero signal appears at the output of the inverter 18, which is fed to the synchronous input of the trigger 21 and ensures that the signal remains low at its output. The device remains in standby mode. If a failure occurred in the operation of the adder 14 or single-vibrator 15 (a malfunction has occurred), then a logical unit will be present at the synchronous input of trigger 21 and at the moment of arrival of the synchronization pulse, it will change its state, which will lead the device to enter alarm mode. Thus, in the event of a device malfunction, there will be no loss of control of the protected object.

Monitoring the supply voltage of the device is as follows. The divider 22 of the control unit 9 is designed so that if the value of U _p does not go beyond the lower limit, U _{d is} perceived by the inverter 25 as a signal of a logical unit, therefore, at its output, which is the output of the control unit 9, a logical zero signal is generated, which is fed to the second input of the digital analyzer 8 (where it is transmitted to the first input of the second element OR 20) and then to its output. At the same time, the device remains in standby mode. If U _p decreases below an acceptable level, then the value of U _d after the time determined by the delay element 24 (to ensure noise immunity) is perceived by the inverter 25 as a logic zero signal and is converted into a logical unit signal. The device then goes into alarm mode. Thus, with an unacceptable decrease in the supply voltage, there is no loss of control of the protected object.

 The first 6 and second 5 protection elements are provided to protect the digital analyzer 8 from the effects of high-voltage impulse noise of any polarity induced in the communication line 2, which can damage it. The protection element 23 of the control unit 9 is designed to protect its elements from impulse noise of positive polarity in the power line. To protect all blocks from the wrong polarity of connecting the device to the power source and exposure to them of negative pulses or ripples of the supply voltage, a polarity selector 11 is provided.

 The device constructed in such a way is highly resistant to electromagnetic interference and short-term power outages, avoiding the loss of control of the protected object (by generating an alarm) with a long-term decrease in the supply voltage below the limit value, and due to the use of additional digital signal processing with the release of new information sign of destruction of the protected structure, the device provides a high level of reliability detected I was the intruder.

 At present, prototypes of the IO303-6 "Window-6" detector have been manufactured, in which the inventive device for alarming has been used, their laboratory tests have been successfully carried out, preparations are underway for mass production of the detector.

Sources of information
1. Announcer security surface shock contact U 03 03 "Window-1", passport DVZ.308.009 PS.

 2. RF patent N 2049356, class. G 08 B 13/02, 1995.

Claims (4)

 1. A device for alarming, containing a sensing element with two movable contacts connected via a communication line with one contact to the first input of the integrator, the other to a common power bus of the device, a voltage stabilizer, the input of which is connected to a storage capacitor and through a polarity selector to a source the device’s power supply, and the output - to the energy storage device and the second input of the integrator, the output of which is connected to the first protection element, characterized in that the second protection element is inserted into it, the unit control, a digital analyzer and an alarm generation unit, the first input of a digital analyzer is connected to the integrator output and through the second protection element to the voltage stabilizer output and the combined first input of the control and alarm generation units, the second input of the control unit is connected to the voltage stabilizer input, and output - at the second input of the digital analyzer, the output of which is connected to the second input of the alarm generating unit.  2. The device according to claim 1, characterized in that the digital analyzer contains the first and second OR elements, an adder, a one-shot, timer, And element, an inverter, a simulator and a trigger, the connection point of the first inputs of the And element and the first OR element is the first digital input analyzer, the second input and output of which is the first input and output of the second OR element, respectively, the output of the first OR element is connected to the first and through the one-shot to the second inputs of the adder, the output of which is connected to the second input of the AND element and through Torr - Valid Trigger synchronized to the timer through the simulator is connected to the second input of first OR input and a synchronization trigger output of AND element is connected to the second input of the second OR gate, the third input of which is connected to the output of the flip-flop.  3. The device according to claim 1, characterized in that the control unit contains a divider, a protection element, a delay element and an inverter, the first output of the protection element and the input of the divider are respectively the first and second inputs of the control unit, the output of the divider is connected to the delay element, the second output protection element and the inverter input, the output of which is the output of the control unit.  4. The device according to claim 1, characterized in that the alarm generating unit contains a one-shot, limiter, actuator, trigger, jumper, OR element and indicator, the trigger reset input is connected via a jumper to the device’s common power bus and through the limiter to the first the input of the actuating element, which is the first input of the alarm generating unit, the second input of which is the input of the one-shot, the second input of the actuating element is connected to the control input of the trigger, the output of the one-shot the first input of the OR gate, the second input of which is connected to the output of the flip-flop, and an output - to an indicator.