RU2076355C1 - Warning device - Google Patents

Abstract

FIELD: instrumentation engineering. SUBSTANCE: device has warning stub which includes fire alarm and guard detectors with corresponding indicators. In case of stub disengaging indicator lights permanently but when disruption or short circuit take place indicator lights in twinkling regime in any stub state so it is possible stub state condition testing visually. Device quick action is attaining by modern integral chips using. EFFECT: more simple schematic and construction. 2 dwg

Description

 The invention relates to techniques for alarm systems and can be used to protect objects equipped with alarm loops with alarm detectors included in them.

 A device for alarming [1] is known that contains a power and control unit, which is connected via a communication line to an object unit, which includes an alarm loop with various alarm sensors installed in it and a terminal monitoring resistor.

 This device is designed to receive five types of signals from a guarded object by the method of amplitude selection and provides the ability to control the communication line and the alarm loop for open and short circuit.

 Closest to the invention in technical essence and the achieved result is an alarm device [2] comprising a power supply and control unit, a security alarm cable containing a security detector, and an indicator.

However, this device has a number of significant disadvantages:
the lack of an indication of a violation of the alarm loop when it is closed and then restored;
the impossibility of indicating a violation when working with high-speed shock contact sensors of a burglar alarm, included directly in the loop (such as "WINDOW-2M", etc.), since the minimum time for fixing the violation by the measuring unit is very large;
the disappearance of the indication of violation after a certain period of time after the restoration of the alarm loop and thereby limiting the time for investigation of the object by the operational group;
the presence of a separate power source in the indicator unit, requiring periodic inspection and, if necessary, replacement.

 These disadvantages limit the functionality of the device and its reliability.

 The objective of the invention is to expand the functionality of the device and increase the reliability of its operation.

 For this purpose, in a known device for alarming, containing a power supply and control unit, a security alarm loop, containing a security detector, and an indicator, it is equipped with power supply, memory, switching, measuring units, an initial installation unit, a pulse shaper, and a terminal signaling system is introduced into the security alarm loop a resistor connected in series with the security detector, the first output of the power supply and control unit is connected to the first outputs of the power generation, switching units and the initial installation unit, to the second input of the power supply and control unit is connected to the second input of the power supply unit and the first inputs of the measurement unit and the alarm loop, to the second input of which the first output of the indicator is connected, the output of the power formation unit is connected to the second input of the initial installation unit, the output of which is connected to the first inputs of the memory unit and a pulse shaper is connected to the second input of the switching unit, the output of which is connected to the second output of the indicator and the second input of the measuring unit, the output of the measuring unit is connected to the second the input of the memory block, the output of which is connected to the second input of the pulse shaper.

 The device constructed in this way carries out additional control over the state of the alarm loop, generates additional signals to change the indicator operating mode.

 The invention is illustrated by the circuit shown in FIG. 1 and the embodiment of FIG. 2.

 The device contains a power supply and control unit 1, an alarm loop 2, a power generating unit 3, an initial installation unit 4, a memory unit 5, a switching unit 6, a pulse shaper 7, a measuring unit 8, an indicator 9, a security detector 10 and a terminal monitoring resistor 11.

 The device operates as follows.

 After the command to take the object under protection is executed, the voltage from the power supply and control unit 1 is supplied to the security alarm loop 2 and the power generation unit 3 starts working, all the main units and components of the device are powered. The power forming unit is made on a compensation type circuit on a semiconductor transistor. The presence of a diode at the input of the unit allows it to work only if there is a voltage of a certain polarity on the loop, and the inclusion of a capacitor at the input removes the dependence of the output voltage of the unit on the current value in the security alarm loop.

 From the output of the power-generating unit, the voltage is supplied to the initial installation unit 4, the purpose of which at the initial time, to block the operation of the pulse shaper 7 and to ensure the reset of the memory unit 5. The initial installation unit is made, for example, in the form of a conventional RC circuit, the value of which will determine the blocking time of the pulse shaper.

 The pulse shaper is made, for example, according to a generator circuit with two 2I-NOT elements and starts generating a pulse sequence only when a logical unit signal is present at both of its inputs. Such a signal will arrive at the first input of the shaper after the capacitor is charged in the unit of the initial installation, i.e., after a certain period of time. The signal level at the second input is determined by the output voltage of the memory unit 5, the input of the installation of which receives a signal from the output of the measurement unit 8.

 The memory block is made, for example, according to the RC-trigger scheme on two 2I-NOT elements and the formation of a logical unit signal at its output for supplying a pulse shaper to the second input will occur if a logical zero signal is input to the setup input S.

 To prevent false triggering of the RS-trigger in case of short-term impulse noise penetrating the alarm loop, the trigger installation input is connected to the output of the measurement unit via an RC circuit, the time constant of which will determine the minimum time of the loop state change at which this change will be recorded by the device.

 The measuring unit 8, designed to generate a signal in case of a change in the state of the loop, is made, for example, according to the scheme of a two-threshold comparator on two operational amplifiers. Through resistors connected directly to the output of the power generation unit, threshold voltages of each operational amplifier are set. If the loop is closed (“Normal” mode) and current flows through the terminal monitoring resistor, the voltage at the measuring input does not cross the set thresholds of the comparator and a logical unit signal is generated at its output, which does not change the state of the memory block. If the alarm loop is violated by closing the terminal monitoring resistor (“Closing” mode 2) or when the security detector is triggered (loop break, “Alarm” mode), the voltage at the measuring input of the comparator and, accordingly, sharply decreases or increases, which leads to a change in the output voltage of one of operational amplifiers and a logic zero signal is generated at the output of the comparator. When this signal arrives, the state of the memory unit changes and the pulse shaper starts generating a pulse sequence. The signal from the output of the pulse shaper enters the switching unit 6, which is connected in series to the signal loop in the absence of pulse generation closes the signal loop to the terminal monitoring resistor, security detector and display element. The switching unit is made, for example, according to the scheme of the current generator and ensures the passage of direct current through the terminal monitoring resistor and continuous illumination of the LED indicator. The use of a current generator in the switching unit allows you to record the voltage at the terminal monitoring resistor, which makes it possible to connect various types of security detectors to the end of the loop, which are powered from the loop.

 If at the output of the switching unit there is a pulse sequence coming from the pulse shaper (in case of violation of the signal loop), the operation of the current generator of the switching unit is periodically interrupted with the frequency of generating the pulse sequence. Periodically turning the indicator on and off (flickering mode) in this case indicates a loop violation. Further voltage recovery at the measuring input of the measuring unit, i.e. when restoring the alarm loop (switching to the "Normal" mode) it will not lead to disruption of the pulse sequence generator, since a change in the state of the memory block is possible only if it is reset, namely, the logic zero voltage is applied to the RC-trigger input. Since this input is connected to a charged capacitor of the initial installation circuit, this is possible only after the power supply is completely turned off and the alarm loop is controlled (which corresponds to disarming the object) and then connecting it (disarming the object).

 Thus, with a normally closed alarm loop, the indicator lights up continuously, and in the event of a control resistor shorting or a loop break, the indicator goes into "flickering" mode regardless of a further change in the status of the alarm loop.

The proposed device due to the presence of a "flickering" mode of operation of the indicator, installed for the possibility of its observation outside the guarded object, in case of alarm violation allows you to:
upon arrival at the facility of the task force, determine precisely whether the alarm loop was really violated or whether the alarm was false, caused, for example, by a hardware malfunction or damage to the communication line;
by the indicator light precisely determine that the object is under protection;
due to its high speed, it is possible to work with shock-contact security detectors.

Claims (1)

 A security alarm device comprising a power supply and control unit, a security alarm loop containing a security detector, and an indicator, characterized in that it is equipped with power generation, memory, switching, measuring units, an initial installation unit, a pulse shaper, and an alarm system a terminal resistor connected in series with the security detector is introduced, the first output of the power supply and control unit is connected to the first inputs of the power generation, switching units and the initial installation unit , the second input of the power supply unit and the first inputs of the measurement unit and the alarm loop are connected to the second output of the power supply and control unit, the first output of the indicator is connected to its second input, the output of the power formation unit is connected to the second input of the initial installation unit, the output of which is connected to the first inputs the memory unit and the pulse shaper, the output of the pulse shaper is connected to the second input of the switching unit, the output of which is connected to the second output of the indicator and the second input of the measurement unit, the output measuring Lok connected to the second input of the storage unit, the output of which is connected to the second input of the pulse shaper.

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