KR101214299B1 - R type fire alarm control panel system capable of verifying false alarm and method thereof - Google Patents

Abstract

PURPOSE: An R-type fire alarm control panel system and a false alarm determining method are provided to deal with a false alarm due to the fault of a sensor. CONSTITUTION: A line interface(131) applies DC voltage of 24V supplied from a power supply unit(135) to a signal wire(113a) and generates a signal(S1) by sensing the change of the voltage level of the signal wire. A wrong alarm determining part(133) determines whether an activated signal occurs due to other causes except fire or the malfunction of sensors(111a,111b). [Reference numerals] (132a) Sensing circuit; (132b) Communication module; (133) Wrong alarm determining part; (135) Power supply unit; (136) First port; (137) Second port; (AA) Direct voltage; (BB, GG, HH) Control signals; (CC, DD, II) Warning signals; (EE) Warning; (FF) Control

Description

R type fire alarm receiver system and false alarm judging method to check for false alarms {R TYPE FIRE ALARM CONTROL PANEL SYSTEM CAPABLE OF VERIFYING FALSE ALARM AND METHOD THEREOF}

The present invention relates to an R type fire alarm receiver, and more particularly, to an R type fire alarm receiver capable of determining a false alarm.

Conventionally, the R-type fire alarm receiver system is a short signal type detector which outputs only 0 and 1 depending on whether a fire has occurred, and a multilevel type which outputs a signal of several levels according to the occurrence of temperature, flame, smoke, etc. A variety of detectors can be connected to the signal line, such as detectors, analog detectors that continuously output temperature, flame, smoke, etc., and addressable detectors that can be assigned unique addresses to each detector.

Since the types, specifications, quantities, distances, etc. of the detectors to be installed by location or by use are specified, it is common to connect several types of detectors to one type R fire alarm receiver.

However, if the wiring of the signal is different for different types of detectors, the construction is complicated and there is a high possibility of malfunction. Therefore, it is generally desirable to design the power supply and the signal transmission together through one cable.

In the case of a short signal type detector, a voltage of 24 V DC is applied, and the voltage drop of the signal line generated when the internal sensing circuit is short-circuited by fire heat, spark or smoke, or short-circuit by human switch pressing operation. By sensing, it is configured to know the fire occurrence in the area where the signal line is arranged.

Non-single-type detectors, such as multi-signal detectors, analog detectors and addressable detectors, can be supplied with direct current 24V power through signal lines or separate power sources, like single-signal detectors. For example, it modulates with power line communication (PLC) and transmits to a repeater or R type fire alarm receiver.

P-type fire alarm receiver systems also typically have multiple short-signal detectors or transmitters connected in parallel via a single signal line cable.

Under normal circumstances, the signal line should maintain a constant voltage. However, after a long period of several years to several decades, unless there is a fire after installation, deterioration of insulation characteristics due to corrosion, degeneration or moisture, surge or lightning may occur. Due to voltage induction by commercially installed AC power lines or telephone lines using direct current 48V, instantaneous voltage drop may occur on the signal line itself, which usually leads to false alarms, malfunction of the detector and failure.

In addition, the detector itself may age and generate false signals.

Indeed, in many buildings, false alarms are observed due to aging lines, voltage induction, and aging of detectors, and many landlords make the wrong choice to turn off the fire alarm system instead of replacing signal lines and eliminating the cause.

In order to prevent such a false alarm, instead of issuing an alarm immediately when a signal is detected through the signal line, a 'non-fire protection device' that issues an alarm only when a signal is continuously detected for a predetermined accumulation time has been proposed. Non-fire alarms can be installed in front of the receiving interface of the fire alarm receiver to prevent false alarms.

The problem to be solved by the present invention is to provide a fire alarm receiver system and a false alarm determination method that can determine whether or not the false alarm of the signal line.

Repeater for an R-type fire alarm receiver system according to an aspect of the present invention,

The single signal detectors or transmitters generate a detection signal which is deactivated to a normal state or activated as an alarm state according to the degree of change of the voltage level of the connected signal line, or a digital signal or measurement information generated by the non-single signal detectors is used as a communication line or A line interface receiving through a power line; And

When the activated sensing signal is identified or an alarm signal, or possibly measurement information, may be received, the line may be temporarily cut off and then supplied again to the signal line, the communication line, or the power line. The operation of receiving the detection signal, the alarm signal or the measurement information from the interface is repeated a predetermined number of times, and if the detection signal is activated, the alarm signal is received, or the measurement information that may be fired is received for the predetermined number of times. The false alarm determination unit may determine the activated detection signal, the received alarm signal, or the measurement information of a possible fire as an actual fire alarm, and otherwise determine as a false alarm.

According to one embodiment, the repeater for the R-type fire alarm receiver system,

When the reset signal is applied to the signal line, the communication line or the power line further includes a power supply for temporarily re-supplying the supply of a DC voltage,

The false alarm determination unit,

When the identification of the activated detection signal, the reception of the alarm signal, or the reception of the measurement information that may be fired, the value of the repetition detection flag is increased by 1, the reset signal is applied to the power supply unit, and the repetition detection flag reaches N. The detection signal, the received alarm signal or the possible measurement information may be operable to be determined as an actual fire alarm.

According to one embodiment, the false alarm determination unit,

After temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line, or the power line, the received detection signal is inactivated, an alarm signal is not received, or there is no possibility of fire. If received, it may be operable to determine a false alarm.

According to another aspect of the present invention, an R-type fire alarm receiver system receives a detection signal from a plurality of short-signal detectors or transmitters in which at least one repeater is connected to a signal line, or from non-single-type detectors connected by a communication line or a power line. An R-type fire alarm receiver system that receives alarm signals or measurement information and passes them to R-type fire alarm receivers.

When an activated detection signal is identified or an alarm signal or a potentially dangerous measurement information is received, the detection signal, alarm after temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line or the power line The operation of receiving the signal or the measurement information is repeated a predetermined number of times, and if the detection signal is activated or an alarm signal is received or a measurement information that may be fired is received during the predetermined number of times, the activated detection signal is received. A repeater for determining the received alarm signal or the likely measurement information as a fire alarm, and otherwise as a false alarm; And

An R-type fire alarm receiver for receiving a fire alarm determined to be real through the repeater,

The detection signal is a signal that is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the single signal type detectors or transmitters are connected, and the alarm signal or measurement information is a communication line or a power line from non-single type type detectors. It may be a digital signal received through.

According to another aspect of the present invention, an R-type fire alarm receiver system receives a detection signal from a plurality of short-signal detectors or transmitters in which at least one repeater is connected to a signal line, or from non-single-type detectors connected by a communication line or a power line. An R-type fire alarm receiver system that receives alarm signals or measurement information and passes them to R-type fire alarm receivers.

A repeater for outputting an activated detection signal, an alarm signal, or measurement information to the R-type fire alarm receiver, and temporarily interrupting and resupplying a DC voltage applied to the signal line, the communication line, or the power line according to a reset signal; And

Outputting the reset signal to a repeater when the identification of the activated detection signal, the alarm signal or the likelihood of fire is received, and receiving the activated detection signal, the alarm signal or the likelihood of measurement information Is repeated a predetermined number of times, and if the sensing signal is activated or an alarm signal is received during the predetermined number of times, or measurement information capable of fire is received, the activated sensing signal, the received alarm signal or the A type R fire alarm receiver for determining a fire possibility of measurement information as an actual fire alarm, otherwise determining as a false alarm;

The detection signal is a signal that is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the short signal type detectors or transmitters are connected, and the alarm signal or measurement information is received through the signal line from non-single type detectors. It may be a digital format signal.

False alarm determination method of the R-type fire alarm receiver system according to another aspect of the present invention,

At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. As the false alarm determination method of the R-type fire alarm receiver system,

In the repeater, generating a detection signal which is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the short signal type detectors or transmitters are connected, Receiving measurement information through the communication line or a power line;

In the repeater, when the activated sensing signal is identified or an alarm signal, or possibly measurement information, may be received, the supply of DC voltage applied to the signal line, the communication line or the power line is temporarily cut off and then supplied again. Repeating an operation of receiving a detection signal, an alarm signal or measurement information after a predetermined number of times; And

In the repeater, if the detection signal is activated during the predetermined number of times, or if an alarm signal is received or a measurement information that may be fired is received, the activated detection signal, the received alarm signal or the fire possibility Determining that the measurement information is present as an actual fire alarm, and otherwise determining as a false alarm.

According to an embodiment, when the activated sensing signal is identified or an alarm signal, or possibly measurement information, may be received, the supply of a DC voltage applied to the signal line, the communication line or the power line is temporarily cut off. After the re-supply, the step of receiving the detection signal, the alarm signal or the measurement information is repeated a predetermined number of times,

Increasing the value of the repetition detection flag by one when an activated detection signal is identified or an alarm signal or possibly fired measurement information is received;

Temporarily re-supplying the DC voltage supplied to the signal line, the communication line, or the power line and then resupplying it; And

When the repetition detection flag reaches N, the method may further include determining the activated detection signal, the received alarm signal, or the possible measurement information as a fire alarm.

According to one embodiment, the false alarm determination method of the R-type fire alarm receiver,

Before the repetition detection flag reaches N, the detection signal received after temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line, or the power line is deactivated, or an alarm signal is not received. Or, if the measurement information that is not likely to be fired is received, determining the false alarm.

False alarm determination method of the R-type fire alarm receiver according to another aspect of the present invention,

At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. In the false alarm determination method of the R-type fire alarm receiver system,

(a) in the repeater, generating a detection signal which is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the single signal detectors or transmitters are connected, Receiving alarm signals or measurement information through the communication line or a power line and outputting the same to the R-type fire alarm receiver;

(b) outputting, at the R-type fire alarm receiver, a reset signal to the repeater when the activated detection signal is identified or when an alarm signal, or possibly measurement information, is received;

(c) at the repeater, temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line, or the power line based on the reset signal;

(d) repeating steps (a) to (c) a predetermined number of times; And

(e) In the R-type fire alarm receiver, if the detection signal is activated for the predetermined number of times or if an alarm signal is received or a measurement information capable of fire is received, the activated detection signal, the received signal is received. Determining that the alarm signal or the probable measurement information is an actual fire alarm, otherwise determining as a false alarm.

According to the R-type fire alarm receiver system and false alarm determination method of the present invention, instead of simply issuing a fire alarm when a signal is continuously detected during the accumulation time, the signal line is defective by actively resetting the power supply of the detector in the repeater. In addition, it can cope with false alarms caused by defective detectors.

In addition, according to the R-type fire alarm receiver system and false alarm determination method of the present invention, even if additional repeater non-fire protection to the repeater, without changing the hardware design, or even if there are installed incompatible or incompatible detectors, false alarms It can be made into an R-type fire alarm receiver system to prevent the

1 and 2 are conceptual diagrams illustrating an R-type fire alarm receiver system and a repeater according to an embodiment of the present invention.
3 is a flowchart illustrating a false alarm determination method in an R-type fire alarm receiver system according to an embodiment of the present invention.

For the embodiments of the invention disclosed herein, specific structural and functional descriptions are set forth for the purpose of describing an embodiment of the invention only, and it is to be understood that the embodiments of the invention may be practiced in various forms, The present invention should not be construed as limited to the embodiments described in Figs.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

In the detailed description of the present invention, a "single signal detector" means a conventional detector connected to a common signal line and only knows whether a fire is detected and which detector is not detected. "Detector" refers to a detector capable of communicating to a repeater or a fire alarm receiver a signal containing whether a fire has been detected and identification information of the detector, or a signal containing continuous or discontinuous levels of measurement information.

1 and 2 is a conceptual diagram illustrating an R-type fire alarm receiver system and a repeater according to an embodiment of the present invention.

1 and 2 together, the R-type fire alarm receiver system 10 has a plurality of detectors 111a or transmitters 112 connected in parallel to the signal line 113a or a plurality of detectors 111b are communication lines. A plurality of monitoring zones 11 connected to the 113b, an R-type fire alarm receiver 12, a plurality of signal lines 113a or communication lines 113b that receive alarm signals and diagnostic signals and output control signals. Relays 13 may be included to identify the carried information and to transmit alarm signals and control signals between the surveillance zone 11 and the R-type fire alarm receiver 12.

Briefly explaining the connection of the signal line 113a for the reception of a fire alarm, the detector 111a and the transmitter 112 are connected in parallel to the signal line 113a terminated by the terminating resistor 114, 113a) is designed such that a predetermined direct current voltage, for example a direct current 24 V voltage according to the relevant regulations, is maintained from the repeater 13. This DC 24V voltage can also be used as a power source for the detectors 111a.

The detector 111a is a single signal type detector. In general, when heat or smoke caused by a fire is applied to a predetermined level or more, the internal resistance is rapidly lowered or short-circuited. The transmitter 112 is applied to an external force pressed by a person who finds a fire. By closing the switch, the internal resistance is lowered, and accordingly a change in voltage level is designed to generate an alarm signal at the repeater 13.

In this case, normally, the repeater 13 connected to the short signal type detector 111a monitors the level of the DC voltage applied to the signal line 113a, and the internal resistance of the short signal type detector 111a or the transmitter 112 suddenly becomes sudden. When falling, the sensing unit 132a detects a voltage change in which the DC voltage level falls from within 24V to 5V according to the equivalent resistance of the signal line 113a, thereby generating an alarm.

Repeater 13, after determining the false alarm, generates an alarm signal in the form of a digital packet based on the detection of the voltage change and the address assigned to it, and finally through the first port 136, the R-type fire alarm receiver 12 Can be sent to

If the detector 111b is a non-short signal type, such as a multi-signal, analog or address type detector, for example, the alarm signal or heat, flame, temperature or smoke amount indicating a fire alarm by itself through the communication line 113b. Measurement information can be transmitted to the repeater (13). According to the scheme, the communication line 113b may be used only for communication, or may serve as a power supply and a communication purpose. In the former case, a power line 113c for supplying power from the repeater 13 to the detectors 111b may be separately installed, and in the latter case, the signal may be modulated in a power line communication (PLC) manner to communicate with the communication line 113b. Can be delivered via.

The repeater 13 may output the digital alarm signal received from the communication unit 132b through the communication line 113b after outputting the digital alarm signal from the first port 136 to the R type fire alarm receiver 12 as it is. have.

In addition, the repeaters 13 are connected by a multidrop, multipoint or daisy chain optically through an optical cable or RS-485 / 422 standard or CAN communication standard, so that the second port ( The relay may be performed by outputting an alarm signal of a digital form transmitted through 137 to the first port 136.

In general, the repeater 13 may accept several selected from a variety of sensors, such as short signal, multi signal, analog or address type. For example, short signal type detectors 111a are connected to one signal line 113a and non-short signal type detectors 111b are connected to the communication line 113b. In practice, it may be difficult for a single signal type detector and other types of sensors to share a signal line 113a or a communication line 113b connected to one receiving channel, and each of them may be connected to a different signal line 113a or a communication line 113b. can do.

On the other hand, the repeater 13 according to the embodiments of the present invention is the line interface 131, the detector 132a, the communication unit 132b, the false alarm determination unit 133, the control unit 134, the power supply unit 135, The first and second ports 136 and 137 may be illustratively included.

According to an exemplary embodiment, the repeater 13 may include only one or both of the sensing unit 132a corresponding to the short signal type detector 111a or the communication unit 132b corresponding to the non-short type signal detector 111b. .

The line interface 131 applies a 24V DC voltage supplied from the power supply unit 135 to the signal line 113a. The sensing unit 132a detects a change in the voltage level of the signal line 113a to generate the detection signal S1.

In this case, when the detector 111a is a short signal type detector, the detection signal S1 is activated to have a value of 0 or 1 meaning normal or alarm depending on a result of comparing the signal line voltage level with a predetermined alarm threshold voltage level. It may be a digital signal.

In this case, after the false alarm determination unit 133 determines the false alarm, the control unit 134 generates a digital alarm signal combining the detection signal S1 and the identification information of the repeater 13 to generate an R-type fire alarm receiver ( 12).

In addition, the line interface 131 may apply a DC voltage of an appropriate level supplied from the power supply unit 135 to the communication line 113b or the power supply line 113c.

The line interface 131 may include a communication unit 132b that receives digital alarm signals or analog measurement information generated by the non-stage signal type detector 111b through the communication line 113b.

In this case, the control unit 134 may transfer the alarm signal received from the communication unit 132b to the R-type fire alarm receiver 12 as it is after the false alarm determination unit 133 determines the false alarm. However, when the measurement information is received from the analog detector 111b, the control unit 134 may transfer the measurement information to the R-type fire alarm receiver 12 as it is, but may determine the possibility of fire based on the measurement information by itself. You may. If the control unit 134 determines that there is a possibility of a fire, after the false alarm determining unit 133 determines whether or not there is a false alarm, an alarm signal including the identification information of the detector 111b is generated to generate an R-type fire alarm receiver. You can also forward it to (12).

The false alarm determination unit 133 determines whether the activated detection signal S1 is caused by voltage fluctuations caused by a transient and non-fire factor occurring in the signal line 113a or the communication line 113b or by malfunctions of the detectors 111a and 111b. In order to determine whether or not it is in compliance, the supply of the DC voltage applied to the signal line 113a, the communication line 113b, or the power supply line 113c serving as the power source of the detectors 111a and 111b is temporarily cut off and then resupplied. In addition, the operation of identifying whether the detection signal S1 is activated according to the voltage level of the signal line 113a or receiving the alarm signal or the measurement information estimated as the fire from the detector 111b is repeated a predetermined number of times, thereby causing a false alarm. It can be determined.

In detail, the false alarm determining unit 133 activates the detection signal S1 of the detection unit 132a, receives an alarm signal from the non-stage signal type detector 111b, or communicates with the communication unit 132b, or the analog type detector 111b. When the control unit 135 determines that there is a possibility of a fire based on the measurement information, the reset signal RS which increases the value of the repetition detection flag by 1 and instructs the power supply unit 135 to cut off and resupply the DC voltage. ) And wait for a time for the detectors 111a and 111b to be initialized.

Subsequently, the false alarm determining unit 133 detects the state of the detection signal S1 on the signal line 113a by the detection unit 132a or the measurement estimated by the communication unit 132b as an alarm signal or a fire from the corresponding detector 111b. Receives the information again, and the detection information S1 is also activated on the corresponding signal line 113 in the detection unit 132a, or the measurement information estimated as an alarm signal or a fire from the corresponding detector 111b in the communication unit 132b again. When received, the value of the repetition detection flag is increased by 1 until the value of N is reached, and the reset signal RS is applied to the power supply unit 135 to instruct the blocking and resupply of the DC voltage and the detectors 111a and 111b. ) Wait for the time to be initialized.

When the DC power is cut off, the short signal type detector 111a typically returns to a state before detecting a fire. For example, in the case of a constant temperature detector using a thermistor and a relay having negative thermal resistance characteristics, the relay operates as the current flowing through the thermistor increases due to the heat of a fire, and the voltage level of the signal line 113a is increased. If the current no longer flows after the DC power is cut off, the relay falls and returns to its original state. If a fire actually occurs, the relay will operate immediately when the supply of DC power is resumed and the voltage level of the signal line 113a will also appear immediately low.

In addition, the non-stage signal type detector 111b also returns to its initial state when the power is cut off.

Therefore, if the repetition detection flag is n (where n <N) and the detection signal S1 according to the voltage level of the signal line 113a is still activated in the detection unit 132a after the blocking and resupply of the DC voltage. If it is detected or if the communication unit 132b receives the alarm signal or the measurement information which is estimated to be a fire from the detector 111b again, the alarm is likely an actual alarm. However, in the present invention, such monitoring is repeated N times in order to reliably determine the false alarm.

If the detection signal S1 of the signal line 113a is identified as inactive before the value of the repetition detection flag reaches N, or the alarm signal is not received from the detector 111b or is not estimated as a fire If is received, the false alarm determination unit 133 may determine the alarm as a false alarm.

For example, in the above example, when the detection signal S1 is temporarily activated due to a momentary voltage excitation in the signal line 113a in which the constant temperature detector is installed, the activation state of the detection signal S1 is kept long. Since the relay of the detector cannot be separated, the voltage of the signal line 113a will rise to a normal level in a short time.

The repeat detection flag is then initialized and the alert can be discarded as a false alarm.

According to an embodiment, the function of the false alarm determining unit 133 may be included in the R-type fire alarm receiver 12 instead of the repeater 13. In this case, the repeater 13 transmits the detection signal S1 to the alarm signal and possibly analog measurement information to the R-type fire alarm receiver 12, and the reset signal received from the R-type fire alarm receiver 12. The DC voltage of the signal line 113a, the communication line 113b, and the power supply line 113c may be temporarily cut off and resupplyed based on the above.

The controller 134 may control operations of the detector 132a, the communicator 132b, the false alarm determiner 133, and other components.

In addition, the control unit 134 may ignore the false alarm according to the determination result of the false alarm determining unit 133, and may notify the remote manager of the failure of the receiver system 10 according to the number of false alarms.

In addition, when the false alarm determining unit 133 determines that the alarm is an actual alarm, the control unit 134 may warn the occurrence of a fire in the building through an alarm siren or a broadcast. Notice or report to the authorities.

The power supply unit 135 supplies an appropriate direct current voltage to the signal line 113a, the communication line 113b, and the power supply line 113c at normal times, and when the reset signal is applied, temporarily cuts off the supply of the direct current voltage and then supplies it again. .

Figure 3 is a flow chart illustrating a false alarm determination method in the repeater of the R-type fire alarm receiver system according to an embodiment of the present invention.

Referring to FIG. 3, the false alarm determination method of the R-type fire alarm receiver system 10 includes a repetition number of flags for the signal lines 113a or the communication lines 113b installed in the various monitoring zones 11 in the repeater 13. In the state where the value of F) is initialized, it starts in step S31 for monitoring the change of the voltage level or the reception of the alarm signal or the measurement information, respectively.

In step S32, the detection signal S1 is activated in response to a change in the voltage level with respect to the specific signal line 113a, an alarm signal is received through the communication line 113b, or there is a possibility of a fire based on the measurement information. If it is determined, that is, if a fire alarm is received, the flow advances to step S33.

If it is determined in step S32 that the detection signal S1 is inactive, there is no reception of an alarm signal, or it is determined that there is no possibility of a fire based on the measurement information, the flow proceeds to step S36.

In step S36, it is checked whether the repetition number flag F is in an initialized state, and if the repetition number flag F is not an initial value, this is when the fire alarm disappears during the false alarm determination loop of steps S32 to S34. As a result, the flow advances to step S37 to determine a false alarm.

If the repetition number flag F is the initial value in step S36, the process returns to step S31 to continue monitoring the signal lines 113a and the communication lines 113b.

In step S33, the repeater 13 increments the value of the repetition number flag F by 1 (F ++), and if the value of the repetition number flag F does not reach N, the signal line 113a in step S34. The DC voltage applied to the communication line 113b or the power supply line 113c is temporarily interrupted for a predetermined interruption time period, and then the flow returns to step S32.

Specifically, for example, the false alarm determining unit 133 of the repeater 13 instructs the power supply unit 135 to cut off and resupply the DC voltage to the signal line 113a, the communication line 113b, or the power supply line 113c. Applies a reset signal RS, waits for a time for the detectors 111a and 111b to be initialized, and then identifies whether the detection signal S1 of the corresponding signal line 113a is activated through the detection unit 132a; The alarm signal is received from the communication line 113b through the communication unit 132b, or the fire probability determined by the control unit 135 is received based on the measurement information received through the communication unit 132b.

If the value of the repetition number flag F, in which 1 is increased, reaches N, step S33 proceeds to step S35, where the repeater 13 of the voltage level of the corresponding signal line 113a is reached. The fire alarm determined based on the detection signal S1 according to the change, the alarm signal received through the communication line 113b, or the measurement information received through the communication line 113b is determined as an actual alarm.

In other words, the repeater 13 determines that it is an actual alarm when steps S32 to S34 are repeated N times in succession.

Otherwise, if during this repetition the detection signal S1 of the corresponding signal line 113a is identified as inactive at step S32 or there is no reception of an alarm signal via the communication line 113b or there is no possibility of fire based on the measurement information. If it is determined, it is determined as a false alarm.

On the other hand, in step S32, the voltage level is changed after the DC voltage is temporarily cut off and resupplied in step S34 with respect to the signal line 113a, the communication line 113b, and the power supply line 113c that are determining the false alarm. In order to detect the error, the false alarm determining unit 133 considers the time taken for the detectors 111a and 111b to be initialized after the resupply of power and the time required for the fire detection, and the nth determination and n + are performed. A sufficient time interval can be provided between the first determinations to determine whether the detection signal S1 is activated, the reception of the alarm signal, or the possibility of a fire based on the measurement information.

For example, when the relays of the detectors 111a and 111b are dropped and then operated again due to the interruption of the power supply, the transient noise disappears and the voltage waveform takes time to settle. A time interval of about several hundred ms may be provided in consideration of the time to react to flame, heat, or smoke in the detectors 111a and 111b, and the initialization of control and communication circuits in the detector 111b.

False alarm determination can be made within 5 to 10 seconds even if the power-off and standby steps are repeated N times.

According to an embodiment, the identification of the alarm signal or the possibility of fire of the analog measurement information in step S32 may be made in the R type fire alarm receiver 12 instead of the repeater 13.

In addition, in step S33, the increase in the number of repetition flags F to N, the actual fire alarm determination in step S35, or the false alarm determination in steps S36 and S37 are also R type fire alarms instead of the repeater 13. It may also be done at the receiver 12.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Accordingly, the spirit of the invention should be understood only by the claims set forth below, and all equivalent or equivalent modifications will fall within the scope of the invention.

10 R type fire alarm receiver system
11 watched areas
111a, 111b detector 112 transmitter
113a signal line 113b communication line
113c power line 114 terminating resistor
12 R type fire alarm receiver
13 Repeater 131 Line Interface
132a detector 132b communication unit
133 False alarm judgment unit 134 control unit
135 Power Supply

Claims (9)

The single signal detectors or transmitters generate a detection signal which is deactivated to a normal state or activated as an alarm state according to the degree of change of the voltage level of the connected signal line, or a digital signal or measurement information generated by the non-single signal detectors is used as a communication line or A line interface receiving through a power line; And
When the activated sensing signal is identified or an alarm signal, or possibly measurement information, may be received, the line may be temporarily cut off and then supplied again to the signal line, the communication line, or the power line. The operation of receiving the detection signal, the alarm signal or the measurement information from the interface is repeated a predetermined number of times, and if the detection signal is activated, the alarm signal is received, or the measurement information that may be fired is received for the predetermined number of times. And a false alarm judging unit for determining the activated detection signal, the received alarm signal, or the measurement information of the possibility of fire as a real fire alarm, and otherwise determining a false alarm. The power supply unit of claim 1, further comprising: a power supply unit configured to temporarily block supply of DC voltage to the signal line, the communication line, or the power supply line when the reset signal is applied, and then supply the reset signal.
The false alarm determination unit,
When the identification of the activated detection signal, the reception of the alarm signal, or the reception of the measurement information that may be fired, the value of the repetition detection flag is increased by 1, the reset signal is applied to the power supply unit, and the repetition detection flag reaches N. Repeating the detection signal, the received alarm signal or the possible measurement information as a fire alarm. The method according to claim 1, wherein after the temporary supply of the DC voltage applied to the signal line, the communication line or the power line is temporarily cut off and resupplied, the received detection signal is in an inactive state, an alarm signal is not received, or a fire may be caused. A repeater for an R-type fire alarm receiver, characterized in that it is operable to determine a false alarm if no measurement information is received. At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. In the R-type fire alarm receiver system,
When an activated detection signal is identified or an alarm signal or a potentially dangerous measurement information is received, the detection signal, alarm after temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line or the power line The operation of receiving the signal or the measurement information is repeated a predetermined number of times, and if the detection signal is activated or an alarm signal is received or a measurement information that may be fired is received during the predetermined number of times, the activated detection signal is received. A repeater for determining the received alarm signal or the likely measurement information as a fire alarm, and otherwise as a false alarm; And
An R-type fire alarm receiver for receiving a fire alarm determined to be real through the repeater,
The detection signal is a signal that is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the single signal type detectors or transmitters are connected, and the alarm signal or measurement information is a communication line or a power line from non-single type type detectors. R-type fire alarm receiver system, characterized in that the digital signal received through. At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. In the R-type fire alarm receiver system,
A repeater for outputting an activated detection signal, an alarm signal, or measurement information to the R-type fire alarm receiver, and temporarily interrupting and resupplying a DC voltage applied to the signal line, the communication line, or the power line according to a reset signal; And
Outputting the reset signal to a repeater when the identification of the activated detection signal, the alarm signal or the likelihood of fire is received, and receiving the activated detection signal, the alarm signal or the likelihood of measurement information Is repeated a predetermined number of times, and if the sensing signal is activated or an alarm signal is received during the predetermined number of times, or measurement information capable of fire is received, the activated sensing signal, the received alarm signal or the A type R fire alarm receiver for determining a fire possibility of measurement information as an actual fire alarm, otherwise determining as a false alarm;
The detection signal is a signal that is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the short signal type detectors or transmitters are connected, and the alarm signal or measurement information is received through the signal line from non-single type detectors. R-type fire alarm receiver system characterized in that the digital signal. At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. In the false alarm determination method of the R-type fire alarm receiver system,
In the repeater, generating a detection signal which is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the short signal type detectors or transmitters are connected, Receiving measurement information through the communication line or a power line;
In the repeater, when the activated sensing signal is identified or an alarm signal, or possibly measurement information, may be received, the supply of DC voltage applied to the signal line, the communication line or the power line is temporarily cut off and then supplied again. Repeating an operation of receiving a detection signal, an alarm signal or measurement information after a predetermined number of times; And
In the repeater, if the detection signal is activated during the predetermined number of times, or if an alarm signal is received or a measurement information that may be fired is received, the activated detection signal, the received alarm signal or the fire possibility And determining the measurement information as the actual fire alarm, and otherwise, determining the false alarm as a false alarm. The method according to claim 6, wherein when the activated detection signal is identified or an alarm signal, or possibly measurement information is received, the supply of a DC voltage applied to the signal line, the communication line or the power line is temporarily cut off and then restarted. The step of receiving the detection signal, the alarm signal or the measurement information after the supply is repeated a predetermined number of times,
Increasing the value of the repetition detection flag by one when an activated detection signal is identified or an alarm signal or possibly fired measurement information is received;
Temporarily re-supplying the DC voltage supplied to the signal line, the communication line, or the power line and then resupplying it; And
Determining that the activated detection signal, the received alarm signal, or the measurement information that is likely to fire is an actual fire alarm when the repetition detection flag reaches N, wherein the false alarm of the R-type fire alarm receiver is further included. Judgment method. The method according to claim 7, wherein before the repetition detection flag reaches N, the detection signal received after the temporary supply of the DC voltage applied to the signal line, the communication line or the power line is temporarily cut off and resupplied, or the alarm If the signal is not received, or if the measurement information that is not likely to fire is received, determining the false alarm further comprises the step of determining the false alarm. At least one repeater receives sensing signals from multiple short-signal detectors or transmitters connected to the signal line, or receives alarm signals or measurement information from non-single-type detectors connected to the communication line or power line and passes them to the R-type fire alarm receiver. In the false alarm determination method of the R-type fire alarm receiver system,
(a) in the repeater, generating a detection signal which is deactivated to a normal state or activated to an alarm state according to the degree of change of the voltage level of the signal line to which the single signal detectors or transmitters are connected, Receiving alarm signals or measurement information through the communication line or a power line and outputting the same to the R-type fire alarm receiver;
(b) outputting, at the R-type fire alarm receiver, a reset signal to the repeater when the activated detection signal is identified or when an alarm signal, or possibly measurement information, is received;
(c) at the repeater, temporarily shutting off and resupplying the DC voltage applied to the signal line, the communication line, or the power line based on the reset signal;
(d) repeating steps (a) to (c) a predetermined number of times; And
(e) In the R-type fire alarm receiver, if the detection signal is activated for the predetermined number of times or if an alarm signal is received or a measurement information capable of fire is received, the activated detection signal, the received signal is received. And determining an alarm signal or the possible measurement information of the fire as an actual fire alarm, and otherwise, determining it as a false alarm.

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