RU2081454C1 - Security alarm device - Google Patents

Abstract

FIELD: security devices, in particular, autonomous systems which prevents unauthorized access to monitored areas. SUBSTANCE: device has synchronization oscillator, communication line, N detectors, two commutators, pulse generator, AND gate, flip-flop, indicator. Two filters, mode switch, reset button, five pulse generators, decoder, generator, AND gate and N second flip-flops are introduced to accomplish the goal of invention. Two filters, two commutators, detector, reset button, sixth pulse generators, two AND gates, counter, decoder, first and N second flip-flops and indicator are located in user board which is comprised in device N. This results in possibility to design closed self-tested structure which user boards are located on monitored check points and generate alarm signal when unauthorized access is detected and when similar alarm signals are receive from other user boards. EFFECT: increased level of autonomous operations, increased reliability. 2 dwg

Description

 The invention relates to burglar alarms, and more specifically to automated devices for protecting objects, and can most effectively be used in autonomous systems for controlling unauthorized access to protected objects.

 A device for alarming, which contains a generator and sensors connected through the control unit of the signal circuits with the inputs of two integrators and two break monitoring units, the outputs of which are connected to the input of the signal comparison unit, the outputs of which are connected to the inputs of the blocking unit and the alarm enable unit, the output of which connected to a central monitoring console. The disadvantage of this device is its low autonomy.

 It is also known a device for alarming, containing a signal circuit through which the output of the alarm generating unit is connected to the input of the summing block, the output of the first controlled key, the output of the summing block through the integrator is connected to the other input of which, through the inverter and the leakage current compensation block connected to the input of the switch, with the second input of which the output of the timing unit is connected, the output of the switch through the time relay is connected to the input of the unit, including Ia signaling, the second alarm output of the signal conditioning unit via a second controllable switch is connected to the central monitoring. The disadvantage of this device is its low autonomy.

 Of the known technical solutions for alarm devices, the closest in technical essence is a device for alarm. This device contains a clock generator, the first and second outputs of which are connected to the inputs of N sensors and the first counter, the output of which is connected through a trigger and pulse shaper to the first input of the element And, the output of which through the third counter is connected to the information input of the memory unit, the output of which is connected with the first input of the first comparison unit, the second output of the clock generator is connected to the inputs of the zero, first, second and third counters, with the synchronization inputs of the memory unit the first comparison unit, as well as through the fourth counter with the inputs of the trigger and the fifth counter, the output of which is connected to the address inputs of the memory block, as well as the first and second switches, the outputs of which are connected through the first and second comparators to the inputs of the second comparison unit, the output of which is connected with the second input of the And element, the first output of the first comparison unit is connected to the input of the display unit and connected via the communication line to the central monitoring console.

 The disadvantage of this device is that information about the situation at the security facility equipped with this device is transmitted to the central monitoring console, where a round-the-clock duty of a group of operators is required. This is evidence of the low autonomy of this device.

 Another disadvantage of the known device is that the control over the system of objects equipped with this device is carried out from one point, from a central monitoring console. Moreover, this alarm system does not have a means of monitoring the integrity of the communication line. In addition, when using the known device, each specific guarded object must be connected to the centralized monitoring console of a separate communication line and only thanks to this can an unauthorized intrusion object be identified.

 The aim of the invention is to increase the functional reliability and autonomy of the device.

 This goal is achieved by the fact that in the security alarm device containing a clock, a communication line, N sensors, first and second switches, a first pulse shaper, the output of which is connected to the counter input of the counter, the first element And, the first trigger and the display unit are entered the first and second filters, mode switch, “Reset” button, second, third, fourth, fifth and sixth pulse shapers, decoder, generator, second element And and N second triggers, the first and second filters, the first and second switching ory, mode switch, sensor, Reset button, first, second, third, fourth, fifth and sixth pulse shaper, first and second elements And, counter, decoder, first and N second triggers, generator and indication unit form a subscriber unit, of which the device has N, the output of the clock is connected to the first input of the communication line, the output of which is connected to the information input of the first filter of each of N subscriber units, the output of the first filter through the second pulse shaper is connected to the input of the unit zero counter and the input of the third pulse shaper, the output of which is connected to the first input of the display unit, the first output of the mode switch is connected to the control input of the first switch, the output of which is connected through a second filter and a fourth pulse shaper connected to the information inputs of each of the N second triggers, output each of which is connected respectively to the (i + 1) input of the display unit, where i is the serial number of the second trigger, the second output of the mode switch is connected to the first the input of the first element And, the output of which is connected to the control input of the second switch, the output of the sensor is connected to the first input of the second element And, the output of which is connected to the input of the fifth pulse shaper and the information input of the first trigger, the output of which is connected to the second input of the first element And, the output of the button "Reset" is connected to the input of the sixth pulse shaper, the output of which is connected to the second input of the second element And, the inputs of the zeroing of the first and each of the N second triggers, the output of the fifth shaper and pulse is connected to the third input of the first element And, the output of the counter is connected to the input of the decoder, the i-th output of which is connected to the synchronization input of the corresponding second trigger, (N + 1) the output of the decoder is connected to the input of the first pulse shaper, the m-th output of the decoder, where m serial number of the subscriber console connected to the input of the generator, the output of which is connected to the information input of the second switch, the output of the second switch of each of the N subscriber consoles is connected respectively to the (m + 1) input of the communication line.

 In FIG. 1 shows a functional block diagram of a device; in FIG. 2 - timing diagrams of signals explaining the operation of the device.

 The security alarm device contains a clock 1, a communication line 2, N subscriber consoles 3, each of which contains the first 4 and second 5 filters, the first 6 and second 7 switches, mode switch 8, sensor 9, button 10 "Reset", the first 11, second 12, third 13, fourth 14, fifth 15 and sixth 16 pulse shapers, first 17 and second 18 elements And, counter 19, first 20 and N of the second 21 triggers, decoder 22, generator 23 and display unit 24, and the output of the clock 1 connected to the first input of communication line 2, the output of which is connected to information the input of the first switch 6 and the input of the first filter 4 of each of N subscriber units 3, the output of the first filter 4 through the second pulse shaper 12 is connected to the input of the counter zero 19 and the input of the third pulse shaper 13, the output of which is connected to the first input of the display unit 24, the first output of the mode switch 8 is connected to the control input of the first switch 6, the output of which is connected through a second filter 5 and a fourth pulse shaper 14 connected in series with the information inputs of each of N second triggers 21, the outputs of each of which are connected respectively to (i + 1) the input of the display unit 24, where i is the serial number of the second trigger 21, the second output of the mode switch 8 is connected to the first input of the first element 17 AND, the output of which is connected to the control input of the second switch 7, the output of the sensor 9 is connected to the first input of the second element 18 AND, the output of which is connected to the input of the fifth driver 15 pulses and the information input of the first trigger 20, the output of which is connected to the second input of the first element 17 AND, the output of the button "Sat grew "10 is connected to the input of the sixth pulse shaper 16, the output of which is connected to the second input of the second element 18 AND, the zero inputs of the first trigger 20 and each of the N second triggers 21, the output of the fifth pulse shaper 15 is connected to the third input of the first element 17 AND , the output of the counter 19 is connected to the input of the decoder 22, the i-th output of which is connected to the synchronization input of the corresponding second trigger 21, (N + 1) the output of the decoder 22 is connected to the input of the first pulse shaper 11, the m-th output of the decoder 22 is connected to the input ne of the first pulse shaper 11, the mth output of the decoder 22, where m is the serial number of the subscriber console 3, is connected to the input of the generator 23, the output of which is connected to the information input of the second switch 7, the output of the second switch 7 of each of the N subscriber consoles 3 is connected respectively to ( m + 1) the input of the communication line 2.

 The device operates as follows.

 A group of N subscriber consoles 3, connected by a communication line 2 and synchronized by a sync generator 1, forms a closed self-monitoring structure, and the subscriber console 3 is functionally capable of both generating an alarm signal upon intrusion into an object protected by it, and receiving and identifying similar alarms from other subscriber desks 3 devices.

 The subscriber console 3 is designed to operate in three modes: standby mode, security mode 1, security mode 2.

 It is necessary to consider the operation of the device first in the part common to all modes of operation of the subscriber console 3, and then for each of the modes of the subscriber console 3.

The synchronizer 1 generates signals of frequency f _{1 of} duration t with a period T ₁ (Fig. 2, a), which through the communication line 2 enter the input of each of N subscriber consoles 3 installed on objects controlled by the device. The output of each subscriber console 3 through a communication line 2 is connected to the inputs of all subscriber consoles 3 of the device.

The clock signals of the clock generator 1, allocated by the first filter 4, which is a bandpass tuned to the frequency f ₁ , are fed to the input of the second pulse shaper 12, which converts them into digital pulses (Fig. 2, b).

 On the leading edge of the pulses of the pulse shaper 12, arriving at the input of the installation to zero of the counter 19, a zero code appears at the output of the counter 19.

 The code combination of the counter 19 is fed to the input of the decoder 22. Depending on the value of the code at one of the outputs of the decoder 22, which corresponds uniquely to the code, a single level appears at the zero level at the other outputs of the decoder 22. So with the zero code of the counter 19, the unit level will be at the first output decoder 22 (Fig. 2, c). Each i-th output of the decoder 22, where i is the serial number of the second trigger 21, is connected to the synchronization input of the corresponding second trigger 21.

The last (N + 1) output of the decoder 22 is connected to the input of the first pulse shaper 11. The pulse shaper 11 generates pulses with a period of T ₂ (Fig. 2, e) in the absence of a unit level at its input, i.e., for all counter codes 19 except for the (N + 1) th. The output of the first pulse shaper 11 is connected to the counting input of the counter 19.

 Thus, with the arrival of the clock signal, the counters 19 of all subscriber units 3 are reset to zero, at the (N + 1) output of the decoder 22, a zero level is set, allowing the pulse shapers 11 to generate pulses. The first pulse shapers 11 of all subscriber consoles 3 begin to synchronously generate pulses that change the codes of the counters 19, which, by scanning the outputs of the decoders 22, provides synchronous access to the corresponding second triggers 21 of all subscriber consoles 3 of the device. For example, with the i-th output of the decoders 22 there will be a unit level that provides simultaneous sampling of the i-th second trigger 21 of all subscriber consoles 3 of the device. When the (N + 1) code is reached, the unit level is set at the corresponding output of the decoders 22 (Fig. 2, e), which prevents the shapers 11 from generating pulses. The cycle of alternately sampling the second triggers 21 is completed. Upon the arrival of the next clock signal of the clock 1, the cycle is repeated.

The output of the mth decoder 22, where m is the serial number of the subscriber console 3, is connected to the input of the generator 23, which generates a signal of frequency f ₂ (Fig. 2g) in the presence of a unit level at the m output of the decoder 22 (Fig. 2d) . Due to this, for the cycle of synchronous scanning of decoders 22 subscriber consoles 3 of the device, the generators 23 of the subscriber pulses 3 alternately generate signals of frequency f _{2 of} duration T ₂ , used in the device as an alarm sign.

The pulses of the clock signals from the output of the second shaper 12 pulses also go to the input of the third shaper 13 pulses. The pulse of the clock triggers the driver 13, which generates a pulse with a duration greater than T ₁ . The subsequent pulse of the clock signal restarts the driver 13 pulses. Thus, at the output of the third pulse shaper 13, connected to the first input of the display unit 24, a certain signal level will be constantly maintained if there is a clock signal 1 at the input of the subscriber console 3. If there are no clock signals, the shaper 13 does not start, the signal level at its output changes, what is the normal situation "line break". The display unit 24 in the absence of a signal from the output of the third pulse shaper 13 indicates this situation with an audible and identified light indication. Based on which specific subscriber consoles 3 of the device will display the standard situation of “Line Break”, you can uniquely determine the place of the break.

 Standby mode. Subscriber consoles 3, which are in standby mode, monitor the situation at the objects protected by the device, identically receiving alarms from subscriber consoles 3 of the device that are in guard modes. Standby mode of the subscriber console 3 is used when personnel are present at the facility equipped with it and there is no need for protection against unauthorized intrusion.

 The subscriber console 3 mode is set by the switch of 8 modes. In the case of standby mode, the output of the mode switch 8 connected to the control input of the first switch 6 is set to permitting, a single level, and at the input connected to the first input of the first element 17 AND, a zero level is set.

 The zero level of the mode switch 8 sets the output of the first element 17 And, connected to the control input of the second switch 7, a zero level that prohibits the switch 7 to pass the alarm signal of the generator 23 into the communication line 2.

A single level of the mode switch 8 allows the first switch 6 to pass signals arriving at its information input from the communication line 2 to the input of the second filter 5. The filter 5, which is a band tuned to the frequency f ₂ , emits alarms of the frequency f ₂ , which are the fourth driver 14 converts pulses into digital pulses.

 Scanning of the decoders 22 of all subscriber panels 3 of the device is carried out synchronously, therefore, the alarm signal of the m-th subscriber console 3, coming from the output of the fourth driver 14 pulses to the information inputs of each of the N second triggers 21 of the subscriber console 3, will only transfer the m-th second trigger 21, which is selected by the decoder 22 of the subscriber console 3, which is in standby mode at the time when the generator 23 of the m-th subscriber console 3 generates an alarm.

 The output of each of the N second flip-flops 21 is connected to the (i + 1) input of the display unit 24. When the second trigger unit 21 is installed at the output i, the indicating unit 24 generates an audible and identified light indicating the object number indicating that an intrusion on a specific object protected by the device has occurred.

 Similarly, all currently in standby mode, the subscriber consoles 3 of the device identically identify objects that have undergone an unauthorized intrusion.

 Security mode 1. Used when there is no personnel at the guarded object, when there is a need to protect the object from unauthorized intrusion. The subscriber console 3, which is in this mode, generates an alarm signal upon invasion of a protected object, but does not receive alarms of other subscriber consoles 3 of the device.

 In the case of security mode 1, the output of mode switch 8 connected to the control input of the first switch 6 is set to zero, and the output connected to the first input of the first element 17 AND has a single level.

 The subscriber console 3 is transferred to security mode 1 immediately at the time the personnel leave the facility. Before transferring the switch 8 modes from standby mode to security mode 1 by pressing the "Reset" button 10, the sixth pulse shaper 16 is launched, which produces a zero pulse, zeroing the first 20 and second 21 triggers, and also, entering the second input of the second element 18 AND, blocks sensor 9. Then the switch 8 modes is transferred to security mode 1, and the staff leaves the facility. The pulse duration of the pulse shaper 16 pulses is selected based on the time sufficient for the personnel to leave the object after the transfer switch 8 modes.

 Upon completion of the pulse shaper 16 pulses at the second input of the second element 18 And will establish a single level. At the first input of the element 18 And connected to the output of the sensor 9, a zero level is set.

 When invading a protected object, the sensor 9 gives a single level. At the inputs of the second element 18 And unit levels will be established, which will lead to the appearance of a unit level at its output. On the leading edge of the transition from zero to unity at the output of element 18 And the first trigger 20 is set to a single state, and the fifth pulse shaper 15 generates a zero pulse. At the two inputs of the first element 17 And the unit levels from the outputs of the switch 8 modes and the first trigger 20, at the third input of the element 17 And the zero pulse from the output of the fifth driver 15 pulses.

 If there was an authorized entrance of personnel to the object, then during the pulse of the shaper of 15 pulses, the personnel have the opportunity to put the switch 8 modes in the position "Standby mode".

 If the intrusion is unauthorized, then at the end of the pulse of the shaper 15 pulses at the inputs of the first element 17 And unit levels will be established, as a result, a unit level will also be established at its output, which, entering the control input of the second switch 7, will allow it to transmit signals arriving at its information input.

In each scan cycle, the decoder 22 with m code, where m is the serial number of the subscriber desk 3, which is in security mode 1, the generator 23 generates a frequency signal f ₁ , which in the case of unauthorized intrusion through the second switch 7 enters the communication line 2.

Subscriber units 3 of the device, in standby mode, receive an alarm f ₂ and sound, as well as the identified light signaling, indicate an intrusion on m object.

 The zero level installed on the control input of the first switch 6 prevents it from passing signals from the communication line 2 to the input of the second filter 5, therefore, the subscriber console 3, which is in security mode 1, does not indicate unauthorized intrusions on objects protected by the device.

 Security mode 2. The subscriber console 3, which is in this mode, generates an alarm signal during an unauthorized intrusion into the object protected by it and receives alarms of both other subscriber consoles 3 of the device and its own. It is used when personnel are present at the guarded facility, when there is a need for notification of an unauthorized intrusion into the facility, so that staff are not taken by surprise.

 In the case of security mode 2 at the outputs of the switch 8 modes unit levels.

The operation of the subscriber console 3 in security mode 2 is identical to its operation in security mode 1 with the difference that a single level at the control input of the first switch 6 allows alarms of frequency f _{2 to} pass from communication line 2 through switch 6 to the input of the second filter 5, so subscriber console 3 records the intrusion of objects protected by other subscriber consoles 3 of the device.

In addition, when invading an object guarded by a subscriber console 3 in security mode 2, the frequency signal f _{2 of} its own generator 23 through the second switch 7, communication line 2, the first switch 6 also enters the input of the second filter 5 and transfers m to a single state the second trigger 21, which is selected by the decoder 22 simultaneously with the generator 23.

 In the proposed device, the clock signals and alarms are spaced in frequency, and the identifying sign of the alarm of a particular subscriber console 3 is its temporary position relative to the clock pulse, therefore, wiring, radio network line can be used as communication line 2.

 The proposed device, in comparison with the prototype, which is the basic object for it, has a greater degree of probability of intrusion detection, since the object of protection is monitored not by one centralized console, but by all subscriber control panels of the device in standby mode.

 There is no need for a special group of round-the-clock surveillance operators; their function is performed by the facility personnel notified by the device.

 No special wiring needed. Using an electric or radio network as a communication line allows you to quickly and covertly deploy the device to security facilities.

 In addition, the proposed device has the ability to diagnose the condition of the communication line, which allows you to uniquely determine the location of the cliff.

 The proposed device can be used in autonomous apartment security systems.

Claims (1)

A device for burglar alarm, containing one subscriber console, consisting of a sensor, two switches, two AND elements and an indication unit, characterized in that additional (N 1) subscriber consoles, a clock generator, a communication line are introduced into the device, each subscriber console is entered two filters, a generator, six pulse shapers, a counter, a decoder, a trigger, a group of N triggers, a mode switch, a reset element, in each subscriber console the first output of the mode switch is connected to the control input switch, the output of which is connected to the input of the first filter, the output of which is connected to the input of the first pulse shaper, the output of which is connected to the information inputs of N triggers of the group, the output of each of which is connected to the i-input of the display unit, where i
serial number of the trigger in the group, the second output of the mode switching unit is connected to the first input of the first element And, the output of which is connected to the control input of the second switch, the sensor output is connected to the first input of the second element And, the output of which is connected to the information input of the trigger and to the input of the second driver pulses, the output of which is connected to the second input of the first element And, the output of the reset element is connected to the input of the third pulse former, the output of which is connected to the second input of the second element that And, to the inputs of the installation to the zero state of the trigger and N triggers of the group, the output of the trigger is connected to the third input of the first element And, the output of the second filter is connected to the input of the fourth pulse shaper, the output of which is connected to the input of the installation to the zero state of the counter and to the input of the fifth shaper pulses, the output of which is connected to the (i + 1) -input of the display unit, the counter output is connected to the decoder input, the i-th output of which is connected to the synchronization input of the corresponding group trigger, (N + 1) the decoder input is connected n with the input of the sixth pulse shaper, the m-output of the decoder, where m is the serial number of the subscriber desk, is connected to the input of the generator, the output of which is connected to the information input of the second switch, the output of the clock is connected to the first input of the communication line, the output of which is connected to the information input of the first switch and to the input of the second filter of each of the N subscriber units, the output of the second switch of each of the N subscriber units is connected to the (m + 1) -th input of the communication line.

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