RU2088973C1 - Alarm system - Google Patents

Abstract

FIELD: burglar alarm systems. SUBSTANCE: device functions in response to electric interference in its power circuit and shapes alarm signal upon supply voltage drop below setting value. For the purpose, it is provided with voltage divider, threshold voltage shaper, one-shot multivibrator, and protective unit. EFFECT: improved reliability of alarm system. 3 cl, 1 dwg

Description

 The invention relates to techniques for burglar alarms and is intended to protect various objects from intruder intrusion.

 A device for alarming, comprising a detection unit consisting of a series-connected microphone and an amplifier with a filter, an input of the detection unit through an integrator and a threshold unit is connected to an alarm generating unit containing a series of threshold and actuator units, a pulse shaper, a stabilized voltage source.

 The disadvantage of this device is its low reliability.

 The device operates in a passive mode, in which in the absence of an intruder there is no signal at the output of the detection unit, the indicator light does not light.

 When the supply voltage drops below the permissible value, the detection parameters deteriorate (the current operating modes of the device units change), the monitoring 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 of protection, and if this happens, special organizational measures are provided for by the current instructions. Thus, when the supply voltage drops below the set level, the alarm device should generate alarm information transmitted to the central security console.

 The technical result of the invention is to increase the reliability of the device for alarm.

 The technical result is achieved by the fact that the first and second voltage dividers, a comparison unit, a threshold voltage generator, a single-shot are introduced into the device, which contains a detection unit, a stabilized voltage source, a pulse shaper, an integrator and an alarm driver, containing serially connected threshold and actuator blocks and a protection unit, the output of the detection unit through a serially connected pulse shaper and an integrator connected to the first input of the single-shot, the output of which is connected to the threshold block of the alarm driver, the first and second outputs of the protection unit are connected to the first and second inputs of the second voltage divider, as well as the first and second inputs of the stabilized voltage source, the first input of which is connected to the first inputs of the first voltage divider, the comparison unit and the threshold voltage shaper and the third input of the detection unit, the second output of the stabilized voltage source is connected to the second inputs of the detection unit and the first voltage divider eniya, whose output is connected to an input of the pulse output of the second voltage divider is connected to the second input of the comparator unit, the latter output is connected to the second input of the threshold voltage, the output of which is connected to the second input of the monostable multivibrator.

 The device detection unit may include a microphone and an amplifier with a filter, the first input of the microphone connected to the first input of the amplifier with a filter and the first input of the detection unit, the second input of which is the second input of the amplifier with a filter, the third input of which is connected to the microphone output, the output of the amplifier with the filter is the output of the detection unit.

 The threshold voltage shaper can be made in the form of a storage element connected in parallel with the output of the adjustable voltage divider, while the midpoint of the adjustable voltage divider is the output of the threshold voltage shaper, and the connection point of the constant resistor and the storage element is the first input of the threshold voltage shaper, the output of the variable resistor is the second input of the threshold voltage driver.

 The drawing shows a diagram of a device for alarm.

 The device comprises a protection unit 1, a detection unit 2, a stabilized voltage source 3, a first voltage divider 4, a pulse shaper 5, a second voltage divider 6, an integrator 7, a comparison unit 8, a threshold voltage driver 9, a single vibrator 10, an alarm driver 11, a diode 12, storage element 13, microphone 14, filter with amplifier 15, adjustable voltage divider 16, storage element 17, threshold block 18, relays 19 and 20, LED 21, variable resistor 22, constant resistor 23.

 The protection unit 1 contains a diode 12 and a storage element 13 made on the capacitor.

 The threshold voltage generator 9 contains a storage element 17 connected in parallel with a constant resistor 23 of an adjustable voltage divider 16, a variable resistor 22, an actuator block 19, comprising a relay 20 and an LED 21.

 The detection unit 2 contains a microphone 14 and an amplifier with a filter 15. The first input of the amplifier with a filter 15 is the first input of the detection unit 2, and its second input is the second input of the unit 2. The third input of the amplifier 15 is connected to the output of the microphone 14, the input of which is the first input of the unit 2.

 The device operates as follows.

After applying the voltage of the nominal value and the end of the transient processes in the blocks in the absence of acoustic noise, the device goes into standby mode, in which the indicator light 20 of the alarm generation unit 11 does not light, the relay 19 is energized and forms its central contacts to the central monitoring console ( PNC) on the communication line notice "norm". This is achieved by the fact that in standby mode at the output of the integrator 7 there is always a voltage equal to half the supply voltage U _st / 2 supplied to the first input of the one-shot 10. At the second input of the one-shot 10, a constant voltage is supplied from the output of the threshold voltage generator 9, according to greater than half the supply voltage. Therefore, the output of the one-shot 10 is constantly present the potential of the logical unit, supplied to the input of the threshold unit 18 and causing the alarm standby mode of operation of the device.

 When an acoustic signal characteristic of glass breaking occurs, an alternating signal appears at the output of detection unit 2, which increases the amplitude of the voltage present at the output of the first voltage divider 4. Therefore, rectangular voltage pulses appear in the integrator 7 at the output of the pulse shaper 5. the output of the integrator 7 increases in proportion to the number of pulses received in it and for a specified delay time reaches a constant voltage value. In this case, the one-shot 10 is triggered and a logical zero signal appears at its output. This signal is fed to the output of the threshold unit 18, the light indicator 20 is turned on and the relay 19 is switched off, by the open contacts forming the alarm message on the monitoring station. The duration of the one-shot signal is set sufficient to receive an alarm notification of the PNC and its visual observation using a light indicator.

 After the termination of the acoustic signal and the formation of an alarm, the device returns to standby mode.

 If the supply voltage drops below the set value at which the source 3 starts to exit the stabilization mode, there is a risk of deterioration of the device detection parameters.

 When an acoustic signal characteristic of glass breaking occurs, an alternating signal appears in the output of the detection unit 2, the amplitude of which exceeds the voltage present at the output of the first voltage divider 4. Therefore, rectangular voltage pulses appear in the integrator 7 at the output of the pulse shaper 5. the output of the integrator 7 increases in proportion to the number of pulses received in it and in a specified delay time reaches a constant voltage in magnitude, input to the second input of the single-shot 10 from the output of the threshold voltage generator 9. In this case, the one-shot 10 is triggered and a logical zero signal appears at its output. This signal is fed to the input of the threshold unit 18, the light indicator 20 is turned on and the relay 19 is de-energized, by the open contacts forming the “alarm” notification on the monitoring station. The duration of the one-shot signal is set sufficient to receive an alarm from the monitoring station and to visually observe it using a light indicator.

 After the termination of the acoustic signal and the formation of an alarm, the device returns to standby mode.

 If the supply voltage drops below the set value at which the source 3 starts to exit the stabilization mode, there is a risk of deterioration of the device detection parameters.

This decrease is monitored by the second voltage divider 6. The input voltage of the divider 6 is compared in the comparison unit 8 with the reference voltage U _st / 2 coming from the output of the stabilized voltage source 3. When the voltage at the output of the second divider 6 changes to a value lower than U _st / 2 at the output block comparison 8 constantly present previously high potential of a logical unit is replaced by the potential of logical zero.

 The voltage at the output of the threshold voltage generator 9 in this case becomes less than half the supply voltage. The one-shot 10 is triggered, a logic zero signal at its output provides the formation of an alarm block 11. The alarm signal is maintained during the entire time the supply voltage is reduced, but no less than the set duration, which guarantees reliable transmission of the alarm notification to the monitoring station.

 The presence of the drive 17 in the shaper 9 stabilizes the threshold voltage when pulsed electrical noise occurs along the device’s power supply circuit and protects the input circuits of the single-shot from interference.

 The protection unit 1 provides protection of the stabilized voltage source 3 from accidental overturning of the external power source, short-term voltage dips, from high-voltage voltage pulses in the power circuit.

 The device constructed in this way ensures its stable operation when electrical noise appears in the power circuit and the formation of an alarm signal when the voltage drops below the set value, which increases the reliability of its operation.

Claims (3)

 1. A device for alarming, comprising a detection unit, a stabilized voltage source, a pulse shaper, an integrator and an alarm shaper, comprising threshold and actuator blocks connected in series, characterized in that the first and second voltage dividers, a comparison unit, a threshold shaper are introduced voltage, one-shot and protection unit, the output of the detection unit through a series-connected pulse shaper and integrator connected to the first input of the single-shot a radiator, the output of which is connected to the threshold block of the alarm driver, the first and second outputs of the protection unit are connected to the first and second inputs of the stabilized voltage source and the first and second inputs of the second voltage divider, the first output of the stabilized voltage source is connected to the first inputs of the first voltage divider, unit comparison, the threshold voltage driver and the detection unit, the second output of the stabilized voltage source is connected to the second inputs of the detection unit and the first second voltage divider, whose output is connected to the input of the pulse shaper, the output of the second voltage divider is connected to the second input of the comparator, whose output is connected to the second input of the threshold voltage, the output of which is connected to the second input of the monostable multivibrator.  2. The device according to p. 1, characterized in that the detection unit contains a microphone and an amplifier with a filter, the microphone input is connected to the first input of the amplifier with a filter and is the first input of the detection unit, the second input of which is the second input of the amplifier with a filter, the microphone output is connected with the third input of the amplifier with a filter, the output of which is the output of the detection unit.  3. The device according to claim 1, characterized in that the threshold voltage shaper comprises a storage element connected in parallel with a constant resistor of an adjustable voltage divider, the midpoint of an adjustable voltage divider is the output of a threshold voltage shaper, the connection point of a constant resistor and a storage element is the first input of the threshold shaper voltage, the output of the variable resistor is the second input of the threshold voltage shaper.