SU938293A1 - Fire alarm device - Google Patents

Description

(S) FIRE ALARM SYSTEM

I

This invention relates to a burglar and fire alarm technique.

It is known a fire alarm device comprising a generator, an ultrasonic emitter, receiving transducers, a first amplifier connected in series, a detector and a second amplifier, a frequency-processing unit connected in series and a selector, a rectifier and a control key connected in series, the output of which is connected to the input of the frequency block processing, as well as the executive unit and the power supply unit C. P.

However, the known device has a low noise immunity from normal convection movements of air, through, natural ventilation, which reduces the reliability of its operation.

In a long interconnecting liaison, which connects the receiving transducers with the first amplifier, a weak alternating current flows, which creates the possibility of pickups in this line of network and industrial noise, leading to false positives of the device.

There is no control of the supply voltage, which can lead to an unacceptable reduction of the controlled area in the event of a decrease in the supply voltage while maintaining you.

To give the block an executive signal about the normal state of the object.

The purpose of the invention is to increase reliability.

For this, a device comprising a generator, an ultrasonic emitter, receiving transducers connected in series, a first amplifier, a detector and a second amplifier connected in series

Claims (3)

20 a frequency-processing unit and a selector serially connected to the sender and a control key, the output of the KoDoro is connected to the input of the frequency-processing unit 3 9, as well as the executive unit and the power supply unit, are inserted between the outputs of the receiving transducers and the first input of the first amplifier-filter unit, between the second the input of the first amplifier and the inputs of the ultrasonic radiator - the control unit; between the output of the second amplifier and the other input of the frequency control block - the amplitude processing unit, as well as the power and control unit The display unit and the driver are connected to the input of the execution unit, the second input of which is connected to the output of the power control unit, the input of which is connected to the output of the power supply unit. The generator output is connected to the input of the steering unit and to the rectifier input. and the output of the selector is connected to the input of the display unit. Moreover, the executive unit consists of series-connected time relays and the terminal unit, and the inputs of the time relay and the output of the terminal unit are respectively the inputs and outputs of the executive unit. The shaper contains two signal keys, the outputs of which through the OR element are connected to the shaping stage, and the inputs of the signal keys, the other input of the OR element, and the output of the shaping cascade are respectively the inputs and output of the former. The drawing shows a structural electrical circuit of the device. The fire alarm device contains receiving transducers 1, an ultrasonic emitter 2, a block of 3 filters, amplifiers. and 5 adjustment unit 6, detector 7, rectifier 8, amplitude processing unit 9, control key 10, frequency processing unit tl, selector 12, optical display unit 13, driver 1, executive unit 15 power control unit 16, generator 17, unit 18 food. Moreover, the executive unit 15 contains a time relay 19, the terminal unit 20, and a driver k contains a shaping stage 21, signal switches 22 and 23, an OR element 2. The optical indication unit 13 contains series-connected control unit 25 and an indicator 26. 3 fire alarm works as follows. The generator 17 produces a sinusoidal voltage in the ultrasonic frequency range, which is fed to the input of the adjustment unit 6. The adjustment unit 6 distributes the generator voltage to the second input of the first amplifier and to the ultrasonic emitter 2, and also adjusts the magnitude of this voltage during the setup and installation of the device on the security object. Such adjustment is necessary for the protection of premises of various sizes, under various operating conditions, and expands the tactical capabilities of the device. Under the action of the applied voltage, the ultrasonic emitter 2 emits ultrasonic energy into the air, thus forming a controlled zone. When moving in a controlled area, the intruder reflected from it the ultrasound energy has a frequency different from the frequency of the radiated energy to the Doppler frequency. Ultrasonic energy reflected from a moving intruder is received by receiving transducers 1, which convert the received energy into electrical signals and feed them to the inputs of the input stages of the filter bank 3. The input stages of the block 3 provide filtering of the incoming signals in order to reduce the input noise characteristics of the device, as well as uncoupling the receiving transducers 1. From the output of block 3, the signals arrive at. The first input of the first amplifier k is amplified, mixed with the alternating voltage coming from the adjustment unit 6, detected in the detector 7, amplified by the second amplifier 5 and fed to the input of the amplitude processing unit 9. It has been established experimentally that the amplitude-frequency characteristics of Doppler signals received from a moving disturber and interference factors (normal convection movement of air near central heating batteries, doorways, natural ventilation, etc.) differ from each other. Moreover, the Doppler signal from interference factors in the Rc range has an amplitude much greater than that of other frequencies, which can cause spurious alarms. Amplitude processing unit 9 equalizes the amplitude-frequency characteristics of the signals, thereby increasing the noise immunity of the device. 9 the amplitude processing signal is fed to the input of the frequency processing unit 11, where the selection of useful frequencies of the signals, their alignment and transmission to the input of the selector 12 is performed. The selector 12 delays the signal by preset time If the duration of the signal supply to the input of the selector 1 exceeds the set time, the delay takes its signal from the output to the input of the display unit 13. Unit 13 performs optical indication of the occurrence of an alarm signal at the output of the time selector. It consists of control units 25 and indicator 26. The display unit 13 can be used when setting up the detector, checking its operation before handing over the object to the central monitoring console (CMS) during operation of the device, as well as when searching for reasons for its malfunction. From the output of the generator 17, the alternating voltage is also fed to the input of the rectifier 8, where it is converted to a constant voltage and fed to the input of the control key 10, keeping it open. Rectifier 8 and control key 10 perform the known functions of controlling the operation of the generator. When the generator frequency disappears, the voltage at the output of the rectifier disappears, which leads to locking the control key 10 and transmitting a control signal to the second input of the frequency processing unit 11, which leads to the formation of a constant alarm at the output. The display unit 13 in this case performs an optical indication of the alarm and sends it to the input of the driver 1. The alarm unit 13 is also generated in the event of a break in any of the power supply lines, and the optical indication of the alarm is not carried out. This makes it possible to distinguish between these types of faults, which simplifies the repair of the detector. Receiving transducers 1 and ultrasonic transducer 2, filter unit 3, first C and second 5 amplifiers, detector 7, amplitude 9 and frequency 11 processing blocks, selector 12, indication block 13, adjustment block 6., Rectifier 8, control key 10 are portable device. The remaining detector blocks constitute the processing unit. The composition of the detector may include several remote devices. The processing unit and the remote unit carry out control functions together and cannot function without each other. One of the remote devices and the processing device can be structurally made in the same package. The remote device and the device are interconnected by four connecting lines, two of which are power lines, one signal line and one connecting line nv of the generator. Through all connecting lines, significant currents flow, which ensures high noise immunity of the device from network and industrial interference. The alarm signal from the output of the display unit 1J passes through the signal line and is fed to the first input of the driver I. The main function of the driver is the formation of a shaping cascade 21 of the control signal, which goes to the first input of the execution unit 15 and turns on the relay 19 of this unit time. Time relay 19 triggers the windowed unit 20, which generates an alarm signal transmitted from its output to the monitoring station. The duration of the transmission of the alarm set by time relay 19. In the absence of a moving intruder in the controlled area, the detector again goes into standby mode. Power supply 18 produces the voltage required to power all detector blocks. From the output of the power supply unit 18, a voltage proportional to the supply voltage is applied to the input of the power control unit 16. In the event of an unacceptable reduction in the supply voltage of the detector, unit 16 generates a control signal, which is fed from its output to the second input of the execution unit 15, which outputs an alarm signal during the whole time of power supply voltage reduction. After restoring the nominal value of the supply voltage, the control signal at the second input of the execution unit 15 is removed and the detector goes into standby mode. The trigger threshold of the power control unit 16 is selected from the condition of ensuring the preservation of a given controlled zone and is set when the detector is set up. In order to enable the connection of additional remote devices, the driver can be equipped with signal keys 22 and 23 to the input of which the signal lines of the corresponding remote devices are connected. In this case, the outputs of the signal switches 22 and 23, structurally connected with the processing device, are connected to the corresponding inputs of the OR 2 logic element, the output of which is fed to the shaping cascade 21. The OR 2 element performs the summing of the logic signals supplied to its inputs from remote devices, and generates a control signal in case an alarm signal is received from any remote device. The signal switches 22 and 23 transmit the control signal from the output of the display unit, as well as monitor the status of the corresponding signal line and ensure the transmission of an alarm to the input of the OR element 2 if it is violated. The detector monitors all connecting lines and generates an alarm signal in case of any violation (if an interruption or short circuit of any connecting lines occurs and the generator stops working), it fully preserves the advantages of the known device. The fire alarm device has increased resistance to the effects of network and industrial interference by ensuring the flow of current and voltage across the connecting lines, increases the operating efficiency of the receiving ultrasonic transducers by introducing the SU unit, and filters that eliminate transducer bypassing Lei has increased noise immunity from turbulent air flow. This quality is achieved using an amplitude processing unit. The security and fire alarm device as a whole allows to obtain a higher reliability of its operation and an improved reliability of the security of the object. 1. Fire alarm device comprising a generator, an ultrasonic emitter, receiving transducers, a first amplifier connected in series, a detector and a second amplifier, a frequency-processing unit and a selector connected in series, a rectifier connected in series and a control switch, the output of which is connected to the input a frequency processing unit, as well as an executive unit and a power supply unit, characterized in that, in order to increase the reliability of the device, receivers are inserted between the outputs x transducers and the first input of the first amplifier filter unit, between the second input of the first amplifier and the ultrasonic emitter inputs - the adjustment unit, between the output of the second amplifier and the other input of the frequency processing unit - the amplitude processing unit, as well as the power control unit and the series-connected display unit and driver The output of which is connected to the input of the execution unit, the second input of which is connected to the output of the power control unit, the input of which is connected to the output of the power supply unit, the output The generator is connected to the input of the adjustment unit and to the input of the rectifier, to the output of the selector it is connected to the input of the display unit. 2. A device according to claim 1, characterized in that the executive unit consists of series-connected time relays and a terminal unit, wherein the inputs of the time relay and the output of the terminal unit are the inputs and output of the executive unit. 3. The device according to claim 1, characterized in that the driver contains two signal keys, the outputs of which are through the element OR 9938293 ° connected to the forming cascade Information sources, and the inputs of the signal keys, dru. taken into account in the examination of the entrance of the element OR and the output of the form; 1. USSR author's copyright certificate cascade are corresponding to 1G. G 08 V 13/18, 1976 by the entrance and exit of the former $ (prototype).  Jlll V " K-i-1 and