KR101412624B1 - Remote checking system for fire detector and fire alarm device - Google Patents

Abstract

Disclosed are a remote checking system for a fire detector and a fire alarm receiver for the same. A remote checking system for a fire detector according to an embodiment of the present invention includes: fire detectors for measuring smoke or heat; and a fire alarm receiver which transmits a check signal to the fire detectors, and discriminates an abnormal detector on the basis of the measurement value received as a response according to the check signal, and outputs information about abnormal detectors. According to the present invention, a user can check remotely whether the fire detector works well or not.

Description

FIELD DETECTION SYSTEM AND ITS FIRE RECEIVER FIELD OF THE INVENTION [0001]

FIELD OF THE INVENTION The present invention relates to fire detector inspections, and more particularly, to a fire detector remote inspection system for remotely checking whether a smoke detector detecting smoke or heat is operating properly and a fire receiver therefor.

Generally, a fire detector is installed on the ceiling to detect the occurrence of a fire in order to prevent a great damage to a fire which may occur in an unexpected manner in various buildings such as business, residence, and the like.

Generally, a fire detector that detects a fire includes a smoke detector that detects smoke generated by a fire and a smoke detector that detects heat.

These fire detectors are usually located on the ceiling of a living room / room or office of a home. In order to check whether the subject detector works properly, the fire detector is individually inspected by a method of directly applying heat or smoke to each detector .

However, it is troublesome to carry out the inspection by bringing the inspection device to the ceiling usually, and when the ceiling is high, a dangerous situation may occur. Also, when the fire detector installed in the bedroom of the home is checked, This can lead to difficult situations due to privacy violations.

Korea Registered Utility Model No. 20-0371256 (Announcement date December 30, 2004) Portable fire detector tester

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a system for remotely checking whether a fire detector operates properly and a fire receiver therefor.

The present invention also provides a system and a fire receiver therefor that can be remotely checked even when the fire detector is determined to be abnormal.

Other objects of the present invention will become more apparent through the following preferred embodiments.

According to an aspect of the invention, there are provided fire detectors for measuring smoke or heat; And a fire detector for sending an inspection signal to the fire detectors, selecting an abnormal detector based on the measured value received in response to the check signal, and outputting information about the abnormal detectors. System is provided.

Here, the fire receiver may manage the fire detectors by dividing the fire detectors into blocks, and may generate and output failure information according to a result of comparing measurement values of the abnormal detectors with normal detectors belonging to the same block.

In addition, the fire receiver may calculate a failure index as the failure information, and the failure index may be calculated using the difference between the current season or the weather and the comparison result.

In addition, the fire receiver may transmit control information that causes the failure index to change the measurement period of smoke or heat to an abnormal detector that exceeds a certain value.

And fire detectors for generating a fire signal when the measured value for smoke or heat is above a threshold value; And an abnormality detector for detecting an abnormality of the fire detectors based on the measured value when a measured value is received in response to an inspection signal transmitted to the fire detectors, There is provided a fire detector remote check system including a fire receiver for determining a degree of failure by determining whether or not a fire signal is received after controlling to change to a check threshold value.

Here, the fire receiver may determine the change threshold value according to a measurement value received from the abnormal sensor.

In addition, the fire receiver may manage the fire detectors on a block-by-block basis, and may determine whether the fire detectors are abnormal according to a result of comparing measured values between fire detectors classified into the same block.

A storage unit for storing information on fire detectors; A communication unit for communicating with the fire detectors; A controller for transmitting an inspection signal to the fire detectors through the communication unit and selecting an abnormal sensor based on the measurement value received in response to the inspection signal; And an output unit for outputting a check result including information on the abnormal sensor.

Here, the block information belonging to the fire detectors is included, and the controller can generate the failure information according to a result of comparing the measured value with the normal detector belonging to the same block with respect to the abnormal detector .

When the fire detector generates a fire signal when the measured value of smoke or heat is equal to or higher than the threshold value, the controller controls the abnormal detector to change the threshold to the inspection threshold value, It is possible to judge the degree of failure and to output it through the provided output means.

Also, the control unit may determine the check threshold value according to the measurement value received from the abnormal sensor.

According to the present invention, it is possible to remotely check whether the fire detector is operating properly.

Further, according to the present invention, when the fire detector is determined to be abnormal, the degree of failure can be remotely checked, so that it is possible to know in advance whether the part to be replaced is part or whole, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a system for remote monitoring of a fire detector according to an embodiment of the present invention; FIG.
2 is a block diagram showing the configuration of a fire receiver according to an embodiment of the present invention;
FIG. 3 is a flow chart schematically illustrating a failure check process for fire detectors according to an embodiment of the present invention; FIG.
FIG. 4 illustrates results of an output check according to an embodiment of the present invention. FIG.
FIG. 5 illustrates a block to which a plurality of fire detectors belong according to an embodiment of the present invention. FIG.
6 is a flowchart illustrating a process for determining a failure level according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout the specification and claims. The description will be omitted.

1 is a block diagram schematically showing a system for remote monitoring of a fire detector according to an embodiment of the present invention.

1, an overall system according to the present embodiment includes a plurality of fire detectors 10-n (collectively referred to as "10") such as a smoke detector 10-1, a heat detector 10-2, And a fire receiver (30).

The system according to the present embodiment is the same as a general fire system, that is, the fire detector 10 notifies the fire receiver 30 of smoke or heat generated by a fire, 30) outputs an alarm indicating that a fire has occurred.

According to the present embodiment, the fire receiver 30 according to the fire system checks whether the fire detector 10 located at a remote location is properly measuring the smoke concentration or the temperature. The checking method will be described in detail later.

The fire receiver 30 has information on communication addresses assigned to the fire detectors 10 and is connected to the fire detector 10 via a network such as the Internet network or a local network It is possible to perform communication using an address. The communication between the fire receiver 30 and the fire detector 10 using the network will be obvious to those skilled in the art and will not be described in further detail.

According to the present embodiment, it is not necessary for the inspector to directly move to the place where the fire detector 10 is located in order to check the fire detector 10.

Hereinafter, the configuration of the fire receiver 30 will be described.

2 is a block diagram illustrating a configuration of a fire receiver according to an embodiment of the present invention.

2, the fire receiver 30 includes a communication unit 210, a storage unit 220, an output unit 230, an alarm unit 240, and a control unit 250.

The storage unit 220 stores information on the fire detectors 10, such as a communication address, information on whether the smoke detector is a heat detector, installed place information, block information (to be described later), and the like.

The communication unit 210 is a communication means for communicating with the fire detectors 10 via the network. The alarm unit 240 is for performing a fire announcement when a fire is recognized by the fire detector 10, and may be, for example, a sound source processing means and a speaker. The communication unit 210 and the alarm unit 240 will be apparent to those skilled in the art and will not be described in further detail.

The output unit 230 is for outputting an inspection result of the fire detectors 10, and may be, for example, a display such as a monitor or a printer. The manager can check the failure of the fire detector 10 based on the check result output through the output unit 230. [

The controller 250 functions to control the operation of each component, and particularly performs a failure check of the fire detectors 10. The control unit 250 transmits an inspection signal to the fire detectors 10 through the communication unit 210 and selects an abnormal sensor based on the measurement value received in response to the inspection signal.

Hereinafter, a method for performing a failure check on the fire detector 10 performed by the control unit 250 of the fire receiver 30 will be described.

FIG. 3 is a flowchart schematically illustrating a failure checking procedure for fire detectors according to an embodiment of the present invention. FIG. 4 is a view illustrating an output check result according to an embodiment of the present invention.

Referring to FIG. 3, the fire receiver 30 transmits a check signal to the fire detectors through the network (S310), and receives a smoke concentration value or a measured value of a temperature value according to the heat in response thereto (S320) .

The fire receiver 30 selects abnormal detectors by judging whether the fire detectors 10 are normal or abnormal based on the received measurement values (S330), and outputs a check result according to the abnormal detectors (S340).

For example, if there is one of the fire detectors that does not respond to the measured value, the fire detector may be selected as an abnormal detector, and the result may be that there is a problem with the communication means.

And, referring to FIG. 4 together, when the measured value is out of the normal range, the corresponding fire detector can also be selected as an abnormal (abnormal) detector. For example, if the normal range of temperature is 10 to 30 degrees Celsius, the heat detector of 001 is recognized as a normal detector by measuring the temperature of 25 degrees Celsius, which is a normal temperature, but the smoke detector of order 002 has measured 2 degrees Celsius Therefore, it is recognized as an abnormal measurement result, and the smoke detector is selected as an abnormal detector. Here, information on the weather or the season at the time point can be used together in determining whether it is normal or abnormal based on the measured values of the fire detectors. The normal range may vary depending on whether it is winter or summer, and the normal range may vary depending on the weather, temperature, and humidity of the day.

According to an example, the fire receiver 30 may simply determine whether a fault has occurred as a result of the check and output the fault, but according to another example, the fault probability may be calculated and outputted instead of the final decision on the fault. In other words, it is not a question of whether or not a fault occurs, but what is the probability that a fault has occurred, and outputs the calculated result, thereby allowing the manager to directly determine whether or not the fault has occurred.

The failure index according to the failure probability can be calculated by how much the measured value deviates from the normal range. Similarly, it is natural that information on the current season or weather can be used in the calculation of the failure index.

Then, the fire receiver 30 may make the measurement period different for the abnormal sensor. That is, since it is necessary to carry out the inspection again, it is possible to increase the number of times of inspection compared with the normal fire detector, or to make the measurement period of the temperature or smoke concentration of the abnormal detector more quickly will be. As an easy example, the period of the measurement once per minute is measured once every 30 seconds, and the fire receiver 30 receives the measured value and checks again for failure. The reason for this is that if the measurement error is performed only temporarily, the fire detector should not be regarded as faulty, and the measurement period is made faster for quick re-inspection.

In other words, the fire receiver is to transmit control information to change the measurement period of the smoke or heat to an abnormal detector (or one of them may be limited to an abnormal detector for which the above-mentioned failure index can exceed a predetermined value).

According to an example, the fire detectors can be divided into blocks, and the presence or absence of the fire detector can be determined using the blocks.

FIG. 5 is a block diagram illustrating a plurality of fire detectors according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIG. 5, a plurality of fire detectors may be classified into different blocks. In one block, one or more fire detectors may belong to one block. In FIG. 5, A case in which four fire detectors belong is illustrated.

According to one example, the block can be determined according to the installation position of the fire detector. For example, in the case of a fire system provided in an apartment, by setting each home as one block, each fire sensor provided in one home belongs to the same block.

Accordingly, when the abnormal detector is selected as a result of the check, the fire receiver 30 compares the measured value with the normal detector belonging to the block to which the abnormal detector belongs. 5, the measured value of the abnormal heat sensor 10-k is compared with the measured value of the normal heat sensor 10-m of 18 degrees Celsius and the difference value (16 degrees) I ask. For example, since the method of heating or cooling each household may be different and the temperature thereof may be different and the concentration of smoke measured may be different depending on whether food is cooked for each household, .

If the difference value is greater than or equal to a certain level, the abnormal sensor may be determined to be faulty. Or a failure index according to the difference value can be calculated. As an easy example, the larger the difference value, the higher the failure index will be calculated.

The fire receiver 30 generates malfunction information according to the comparison of the measured value of the abnormal detector and the normal detection period, and outputs the information so that the administrator can confirm it.

Generally, a fire alarm notification method between the fire detector 10 and the fire receiver 30 can be classified into two types. First, the fire detector 10 frequently measures the temperature due to smoke or heat, provides information to the fire receiver 30, and the fire receiver 30 determines whether or not the fire is based on the received measurement value Method. The second is a method of determining whether or not the fire is detected by the fire detector 10 itself. The fire detector 10 determines whether the measured smoke concentration or the temperature value exceeds a predetermined threshold value, The fire signal is transmitted to the fire receiver 30.

In the case of the second type fire system, the fire receiver 30 according to the present embodiment can check not only the sensing function of each fire detector but also the failure of the fire signal generating function.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 6 is a flowchart illustrating a failure level determination process according to an embodiment of the present invention.

Referring to FIG. 6, the fire receiver 30 transmits a check threshold value to the fire detectors selected by the abnormal sensor (S610). As described above, the fire detector according to the present embodiment measures a temperature or a smoke concentration and generates a fire signal when the measured value exceeds a preset threshold value, and transmits the generated fire signal to the fire receiver 30. In other words, in the case of a heat sensor, when a temperature of 60 degrees or more is measured, a fire signal is generated and transmitted to the fire receiver 30, and the fire receiver 30 receiving the fire signal emits a fire alarm.

Here, the reference value of the measurement value for generating a fire signal by the fire detector is referred to as a fire threshold value (such as 60 degrees Celsius for a heat sensor as in the above example), and the above- Is a threshold value that is set temporarily for the user.

5, if an unusual heat sensor sends a measured value of 2 degrees Celsius in response to a check, for example, the fire receiver 30 may measure 1 degree Celsius as a check threshold value And provides the information to the abnormal thermal sensor.

The abnormal thermal sensor receiving the check threshold will set the fire threshold to the received check threshold and will generate and send a fire signal to the fire receiver 30 if the next thermal measurement exceeds the check threshold. That is, since the probability of measuring again 2 degrees Celsius is high, the abnormal thermal sensor will generate a fire signal.

Accordingly, the fire receiver 30 determines whether a fire signal is received from the abnormal sensor after the check threshold transmission (S620). If the fire signal is received, it can be judged that the fire signal is generated by driving the fire judgment function normally. If the fire signal is not received, the fire judgment function may also be judged to be a failure.

That is, when the fire signal is received, the fire receiver 30 determines that only the measurement function has failed (S630). Otherwise, the fire receiver 30 can determine that the fire determination function is also failed.

According to the present embodiment, when the fire detector is determined to be abnormal, the degree of failure can be remotely checked, so that it is possible to know in advance whether the part to be replaced is a part or not, do.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

10-1, 10-2, ..., 10-n: a fire detector
10-m: normal detector
10-k: Abnormal detector
30: Fire receiver
500: Block

Claims (11)

Smoke detectors for measuring smoke or heat; And
And a fire receiver for transmitting an inspection signal to the fire detectors, selecting an abnormal detector based on the measurement value received in response to the inspection signal, and outputting information about the abnormal detectors,
Wherein the fire receiver manages the fire detectors in blocks and generates and outputs fault information according to a result of comparing the measured value with a normal detector belonging to the same block with respect to the abnormal detector. Remote check system.
delete The method according to claim 1,
Wherein the fire receiver calculates a fault index as the fault information, and calculates the fault index using the difference between the current season or the weather and the comparison result.
The method of claim 3,
Wherein the fire receiver transmits control information to cause the smoke or heat measurement period to change to an abnormal detector whose failure index exceeds a certain value.
Fire detectors that generate a fire signal when the measured value for smoke or heat is above a threshold; And
And an abnormality detector for detecting an abnormality of the fire detector based on the measured value when the measured value is received in response to the check signal transmitted to the fire detectors, And a fire receiver for determining a degree of failure by determining whether a fire signal is received after controlling the fire detector to change to a threshold value.
The method of claim 5,
Wherein the fire receiver determines the change threshold according to a measurement value received from an abnormal detector.
The method of claim 5,
Wherein the fire receiver manages the fire detectors on a block-by-block basis, and determines whether the fire detector is the abnormal sensor according to a result of comparing measured values between fire detectors classified into the same block.
A storage for storing information on fire detectors;
A communication unit for communicating with the fire detectors;
A controller for transmitting an inspection signal to the fire detectors through the communication unit and selecting an abnormal sensor based on the measurement value received in response to the inspection signal; And
And an output unit for outputting a check result including information on the abnormal sensor,
Wherein the controller includes block information as information on the fire detectors and the controller generates fault information according to a result of comparing the measured value with the normal detector belonging to the same block with respect to the abnormal detector Fire receiver.
delete The method of claim 8,
If the fire detector generates a fire signal if the measured value for smoke or heat is above a threshold value,
Wherein the controller controls the abnormality detector to change the threshold value to an inspection threshold value, and then determines whether a fire signal is received, thereby determining the degree of failure, and outputs the fault signal through the output means.
The method of claim 10,
Wherein the control unit determines the check threshold value according to a measurement value received from the abnormal sensor.

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