RU2818537C1 - Method of preventing false actuation of a security detector and an alarm system - Google Patents

Abstract

FIELD: technical means of security alarm.

SUBSTANCE: group of inventions relates to a method for preventing the generation of a false alarm signal by a security detector and an alarm system. Alarm system includes control panel (101) configured to generate an alarm signal, and security detector (102) connected to said receiving-control device (101) by an alarm loop. Alarm loop connects receiving-control device (101) simultaneously with power contacts and relay contacts (106) of security annunciator (102). At that, receiving-control device (101) is made with possibility to measure values of supply voltage on alarm loop, power contacts and contacts of relay (106) of security annunciator (102), determining the current consumed by security detector (102), and blocking the generation of the alarm signal in case the obtained value of the current strength goes beyond the threshold values when the contacts of relay (106) of security detector (102) are opened. In standby mode, the contacts of relay (106) of security detector (102) are normally closed, and in alarm mode, they are open.

EFFECT: high reliability of generating an alarm signal in an alarm system.

5 cl, 2 dwg

Description

Technical field

A group of inventions relates to technical means of security alarms, namely to a method for preventing false alarms of a security detector and an alarm system. The group of inventions is intended to ensure the protection of people, property, premises and is used in protected objects for various purposes.

State of the art

A reception and control device is known, disclosed in the publication of the magazine “Radiohobby” No. 5, 2008, p. 25. The known device contains a microcontroller, an information input/output node, an output switch node, a power supply, terminals for connecting protected zones, terminals for connecting sirens and current limiting nodes for each zone. The information input/output node is connected to the microcontroller using the first group of inputs and outputs, the second group of microcontroller outputs is connected to the inputs of the output switch node, the outputs of which are connected to the terminals for connecting sirens, the power supply pins of the microcontroller are connected to the first output of the power supply, to the second output of which The power supply pin of the output switch assembly is connected. The current limiting units for each zone are made using two resistors with significant current limitation in the loop circuit of each zone. The second output of the power supply is connected to terminals for connecting the cable from which the detectors are powered.

The disadvantage of the known analogue is its functional incompleteness, due to the fact that the known device does not have the ability to diagnose the performance of a security detector.

A device for a security alarm is known, disclosed in the Russian Federation patent for invention No. 2076355 (published on March 27, 1997, IPC G08B 13/22, G08B 17/06). The known device includes a power and control unit, a security alarm loop, a security detector, an indicator, measurement units, power generation, memory, switching units, an initial installation unit, and a pulse shaper. An end-of-line resistor is inserted into the security alarm loop, connected in series with the security detector. Security detectors are powered from an external power source.

The disadvantage of the known analogue is its functional incompleteness, due to the fact that the known device is capable of diagnosing the integrity of the loop, but does not have the ability to diagnose the functionality of the security detector, which can lead to the formation of a false alarm in the security alarm system.

An alarm system for the protection of real estate is known, disclosed in the Russian Federation patent for invention No. 2267814 (published on January 10, 2006, IPC G08B 17/00, G08B 25/00). The known system includes a control panel and security detectors, which are connected to the control panel via alarm loops. The receiving and control device contains a control device connected to the security alarm loops and the control panel, a reader connected via radio to a tag located by the user, a notification transmission unit configured to transmit notifications via wired and/or wireless communication channels to the centralized control panel. observations. Security alarm loops are designed to transmit notifications from security detectors to the control panel and to supply power voltage from the control panel to security detectors.

The disadvantage of the prototype is its low reliability of generating an alarm signal, due to the lack of ability to block the generation of a false alarm signal in the event of a security detector failure. In addition, the prototype is characterized by functional incompleteness due to the lack of ability to diagnose the performance of security detectors. As a consequence, this leads to an increase in the number of false alarms in the alarm system.

Disclosure of the invention

The technical problem underlying the present invention is to expand the arsenal of technical alarm systems.

The technical result achieved through the use of the present invention is to increase the reliability of generating an alarm signal in an alarm system.

Additional technical results include expanding the functionality of the control panel, expanding the diagnostic capabilities built into the system and blocking false alarms, providing a self-diagnosis function and reducing the number of false alarms in the alarm system.

Technical results are achieved by the proposed group of inventions, which disclose a method for preventing false alarms of a security detector and an alarm system.

The invention proposes a method for preventing false alarms of a security detector, in which supply voltage is supplied from a control panel configured to generate an alarm signal to a security detector connected to it by an alarm loop. Unlike the prototype in the proposed method:

- using the control panel, the supply voltage (U _supply ) is measured on the alarm loop, and the specified alarm loop connects the control panel simultaneously with the power contacts and the relay contacts of the security detector;

- measure the voltage values at the power contacts (U ₁ ) and relay contacts (U ₂ ) of the security detector, and in standby mode the relay contacts are normally closed;

- determine the amount of current consumed by the security detector (I _ur ), and if the obtained value goes beyond the threshold values (I _iz < I _por1 or I _iz > I _por2 , with I _por1 < I _por2 ), and the relay contacts of the security detector are open, then the alarm signal is blocked on the control panel.

In particular, with normally closed and open contacts of the security detector relay, the resistance on the alarm loop takes on different values.

In particular, the resistance value in the alarm loop is determined using a control panel.

In particular, the amount of current consumed by a security detector is determined as the difference between the amount of total current in the circuit and the amount of current on the alarm loop.

The invention proposes an alarm system, which includes a receiving and control device configured to generate an alarm signal, and a security detector connected to the said receiving and control device by an alarm loop. Unlike the prototype, in the proposed system the alarm loop connects the control panel simultaneously with the power contacts and the relay contacts of the security detector. Moreover, the control panel is designed to measure the supply voltage values (U _supply ) on the alarm loop, power contacts (U ₁ ) and relay contacts (U ₂ ) of the security detector, determine the amount of current consumed by the security detector (I _out ), and blocking the formation of an alarm signal if the received current value goes beyond the threshold values (I _volt < I _por1 or I _vent > I _por2 , with I _por1 < I _por2 ) when the security detector relay contacts open. Moreover, in standby mode, the contacts of the security detector relay are normally closed, and in alarm mode they are open.

Brief description of drawings

FIG. 1 illustrates an alarm system, including a receiving and control device connected by an alarm loop to a security detector.

FIG. 2 illustrates a block diagram of a method for preventing false alarms of a security detector.

Description of Embodiments of the Invention

In accordance with FIG. 1, an example of an alarm system includes a control panel 101 and a security detector 102. The control panel 101 includes an electrically connected power supply unit 103, a measurement unit 104 and a control unit 105. The control unit 105 can be made based on a microcontroller . The security detector 102 is made on a circuit consisting of an executive unit capable of registering unauthorized entry into the protected premises, and a relay 106. In standby mode, the contacts of the relay 106 are normally closed. In alarm mode, indicating the activation of the security detector 102, the contacts of the relay 106 are open.

The control panel 101 and the security detector 102 are connected using an alarm loop. The alarm loop connects the output of the power supply 103 and the positive power contact of the security detector 102 via communication line 107, the first and second input of the measuring unit 104 and the first and second contacts of the relay 106 via communication lines 108 and 109, the negative power contact of the security detector 102 and grounding along the line communication 110. In particular, the signaling loop is a four-wire wire, each core of which corresponds to one of the communication lines 107, 108, 109 and 110.

Communication line 109 includes a resistor 111 rated R1 electrically connected in series with relay 106. Communication line 107 includes a resistor 112 rated R2 electrically connected in series with power supply 103. Communication line 109 includes a resistor 113 with a rating of R3, connected in the electrical circuit in series with relay 106. Also connected in parallel with relay 106 is a resistor 114 with a rating of R4.

In accordance with FIG. 2, an example implementation of a method for preventing false alarms of a security detector contains the following steps.

At step 201, supply voltage U power _{is supplied} to the security detector. The security detector 102 is powered from the power supply 103 of the control panel 101 via the alarm loop. At the same time, the alarm loop connects the relay contacts 106 of the security detector 102 and the measuring unit 104 of the control panel 101.

At step 202, the supply voltage U _power is measured using the measuring unit 104 of the control panel 101.

At step 203, the voltage U ₁ on the power contacts and the voltage U ₂ on the relay contacts 106 of the security detector 102 are measured using the measuring unit 104 of the control panel 101.

At step 204, the value of the total current I _E in the circuit is determined using the measuring unit 104 of the control panel 101. The value of the total current in the circuit is determined according to Ohm’s law as follows:

At step 205, the magnitude of the current I _shs in the alarm loop is determined using the measuring unit 104 of the control panel 101. The magnitude of the current I _shs in the alarm loop is determined according to Ohm's law as the ratio of the voltage at the relay contacts U ₂ of the security detector to the resistance R ₁ :

At step 206, the magnitude of the current _Iv consumed by the security detector is determined. The value of the current _Iv is defined as the difference between the total current in the circuit and the current in the alarm loop:

At step 207, the state of the relay 106 of the security detector 102 is checked. The state of the relay 106 is checked in parallel with the method steps mentioned above. The state of the relay 106 of the security detector 102 determines its operating mode - standby mode or alarm mode.

In standby mode, the relay contacts 106 of the security detector 102 are normally closed. In this case, the resistance in the alarm loop is determined by the following formula:

In alarm mode, the relay contacts 106 of the security detector 102 are open. In this case, the resistance in the alarm loop is identical to the resistance of resistor 114 with a rating of R4:

The resistance value R _ws is determined by the measuring unit 104 of the control panel 101. Based on the result of calculating the resistance value, it is concluded that the security detector 102 has been triggered, which leads to the formation of an alarm signal on the control unit 105 of the control panel 101.

At step 208, the current strength _Ipm consumed by the security detector 102 is checked. The current strength _Ipm is a monitored parameter, the verification of which is necessary in order to determine whether the security detector 102 is operational. If the value of _Iv goes beyond the predetermined threshold values I _por1 and I _por2 , then it is concluded that the detector 102 is faulty. Accordingly, if the value of _Iv is within the threshold values, then the detector 102 is considered operational.

The serviceability condition of the security detector 102 can be expressed as follows:

Accordingly, the security detector 102 is faulty if:

At step 209, the formation of an alarm signal is blocked on the control unit 105 of the control panel 101, if the amount of current consumed by the detector goes beyond the threshold values I _por1 and I _por2 , and the relay contacts 106 are open, as indicated by the resistance value on the alarm loop .

Blocking the formation of an alarm signal on the control unit 105 of the receiving and measuring device 101 is carried out only if both of the conditions described above are simultaneously met: the amount of current consumed by the detector exceeds the threshold values I _por1 and I _por2 , and the resistance in the alarm loop is identical to the resistance of resistor 114, connected in parallel to the security detector ( _Rsha = _R4 ).

At step 210, an alarm signal is generated on the control unit 105 of the control panel 101. The alarm signal is not blocked if the amount of current consumed by the detector 102 does not exceed the threshold values I _por1 and I _por2 . In this case, opening the contacts of the relay 106 of the security detector 102, and therefore setting the value R _shs = R ₄ , clearly indicates the correct operation of the security detector 102.

The present invention is illustrated by the following example of its use.

Using the command console of the alarm system or the control unit of the control panel, a command is issued to arm the object. The power supply 103 of the control panel 101 generates the supply voltage, which is supplied via the alarm loop to the security detector 102, due to which the said security detector 102 goes into standby mode. In standby mode, the measurement unit 104 constantly monitors the resistance values of the alarm loop, the current consumed by the detector 102, and the current in the alarm loop. The resistance of the alarm loop in the standby mode of operation of the security detector 102 is a constant value. Triggering of the security detector 102 leads to a change in the resistance of the alarm loop due to the opening of the contacts of its relay 106. At the same time, the measurement unit 104 registers the output of the current value beyond the set threshold values. When these conditions are met, the generation of an alarm signal on the control panel 101 is blocked to prevent false positives. A visual inspection of the security detector 102 confirms its failure.

Thus, it is shown that the use of the present invention allows one to achieve the following technical results:

- increasing the reliability of generating an alarm signal in the alarm system;

- the following results associated with the specified technical result: expanding the functionality of the control panel, expanding the diagnostic capabilities built into the system and blocking false alarms, providing a self-diagnosis function and reducing the number of false alarms in the alarm system.

Claims (5)

1. A method for preventing the formation of a false alarm signal, in which supply voltage is supplied from a control panel configured to generate an alarm signal to a security detector connected to it by an alarm loop, characterized in that the supply voltage is measured using the control panel on the alarm loop, wherein said alarm loop connects the control panel simultaneously with the power contacts and the relay contacts of the security detector, the voltage values on the power contacts and the relay contacts of the security detector are measured, and in standby mode the relay contacts are normally closed, the current value is determined consumed by the security detector, and if the received value goes beyond the threshold values, and the relay contacts of the security detector are open, then the alarm signal is blocked at the control panel. 2. The method according to claim 1, characterized in that on the normally closed and open contacts of the security detector relay, the resistance on the alarm loop takes on different values. 3. The method according to claim 1, characterized in that the resistance value in the alarm loop is determined using a control panel. 4. The method according to claim 1, characterized in that the amount of current consumed by the security detector is determined as the difference between the amount of total current in the circuit and the amount of current on the alarm loop. 5. An alarm system, including a control panel configured to generate an alarm signal, and a security detector connected to said control device by an alarm loop, characterized in that the alarm loop connects the control panel simultaneously with the power contacts and the relay contacts of the security detector, wherein the control panel is configured to measure the supply voltage values on the alarm loop, power contacts and relay contacts of the security detector, determine the amount of current consumed by the security detector, and block the formation of an alarm signal if the received value the current strength exceeds the threshold values when the security detector relay contacts open; in standby mode, the security detector relay contacts are normally closed, and in alarm mode they are open.