KR20140005299U - Infrared sensing system using commnunication unit for of on-line monitoring of operating status - Google Patents

Abstract

The present invention relates to a transmitter for transmitting an infrared beam for an infrared ray detection system capable of checking the current state of an infrared ray detector and saving a cable, A plurality of infrared detectors each including a reception unit for monitoring an operation state of the plurality of infrared detectors and a state detecting unit for monitoring an operation state of the plurality of infrared detectors, And a communication device coupled to the detectors.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared sensing system using a communication device capable of on-

The present invention relates to a security system, and more particularly to an infrared detection system.

In general, infrared detectors are installed in places where security is needed for unmanned crime prevention and theft, and are widely used as security devices for detecting an intruder and generating an alarm.

The infrared ray detector includes an infrared ray emitter and an infrared ray receiver installed at both ends of the linear boundary zone to block the infrared ray beam projected from the emitter and generate an alarm when the receiver is unable to receive the infrared beam.

On the other hand, an infrared detector may fail due to a malfunction, and sometimes an error occurs. In the case where such an infrared detector is misleading, an error may be caused by leaves or birds in the outdoor, and an infrared beam transmitted from a light emitter can not be properly received by a transmitter or a receiver due to the transmitter or receiver being distorted. In addition, misfire may occur due to sunlight and other infrared beams.

However, when such a conventional infrared ray detector fails, the inspector must perform a test for arbitrarily shielding the infrared ray beam between the emitter and the receiver with a physical barrier while directly moving the infrared ray detector, There has been a problem in that it is necessary to visit a site where an infrared ray detector is disposed.

The object of the present invention is to solve various problems including the above problems, and it is an object of the present invention to provide an infrared ray detection system capable of identifying the current state of an infrared ray detector by communication, saving a cable, And to provide the above objects. However, these problems are illustrative, and thus the scope of the present invention is not limited thereto.

According to an aspect of the present invention, there is provided a wireless communication system including a plurality of infrared detectors each including a transmitter for transmitting an infrared beam, a receiver for receiving the infrared beam, and a status detector for monitoring an operation status, And a communication device coupled to the plurality of infrared detectors to sequentially transmit the monitor signal of the status detector between the infrared detectors.

Further comprising a control center electrically connected to at least one of the plurality of infrared detectors to control the plurality of infrared detectors, wherein a monitor signal of the state determiner of the plurality of infrared detectors is transmitted to the communication device Through the at least one infrared sensor connected to the control center, and then transmitted to the control center through the at least one infrared sensor.

The state detector may monitor a level voltage and a sensing state of each infrared ray detector.

The control center monitors the level voltage of the plurality of infrared detectors and monitors an installed state or a failure state of the plurality of infrared detectors on-line.

Wherein the control center includes a database unit storing a reference voltage value for a level voltage of the plurality of infrared detectors and a reference voltage of the database unit by comparing a level voltage of the plurality of infrared detectors with a reference voltage of the database unit, Or a controller for determining a failure state.

The communication device may use a TCP / IP protocol as a wireless communication method, and may include at least one of RS-232C, RS-422, and RS-485 as a wired communication method.

According to one embodiment of the present invention as described above, it is possible to implement an infrared ray detection system capable of grasping the operating state of the infrared ray detectors on-line, saving resources and classifying the states and alarms of the infrared ray detectors have. Of course, the scope of the present invention is not limited by these effects.

1 is a conceptual diagram schematically showing an infrared ray detection system according to an embodiment of the present invention.
2 is a block diagram showing a schematic configuration of an infrared ray detector according to an embodiment of the present invention.
3 is a flowchart schematically showing an operation flow (operation process) of the infrared ray detection system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims and their equivalents. Is provided to fully inform the user. Also, for convenience of explanation, the components may be exaggerated or reduced in size.

FIG. 1 is a conceptual diagram schematically showing an infrared ray detection system according to an embodiment of the present invention, and FIG. 2 is a block diagram showing a schematic configuration of an infrared ray detector according to an embodiment of the present invention.

Referring to FIGS. 1 and 2, the infrared detection system may include a plurality of infrared detectors 100. For example, the infrared detectors 100 may be arranged in a ring-type connected in series so as to enable sequential communication. Each of the infrared detectors 100 may include a transmitter 10, a receiver 20, a status detector 30, and a communication device 40.

The transmitting unit 10 of the infrared ray detector 100 may transmit the infrared ray beam and the receiving unit 20 may receive the infrared ray beam. The state detection unit 30 may monitor the operation state of the infrared ray detector 100. [ For example, the state sensing unit 30 may monitor the level voltage and the sensing state of the infrared ray detector 100 to generate a monitor signal. For example, the state detector 30 may include a level voltage output unit 32 for outputting the level voltage of the infrared sensor 100 and a sensing unit 34 for outputting the sensing state of the infrared sensor 100 .

The communication device 40 may be coupled to the infrared detectors 100 so as to sequentially transmit monitor signals of the state detector 30 between each adjacent two infrared detectors 100. [ For example, the infrared detectors 100 may be provided with the communication device 40 to be electrically connected to the state identifying unit 30. [ The communication device 40 can transmit the level voltage and / or the sensing state of the state sensing unit 30 on the two adjacent infrared ray detectors 100. [ The monitor signal of one infrared ray detector 100 is transmitted to the adjacent infrared ray detector 100 and the monitor signal of the two infrared ray detectors 100 is transmitted to the adjacent infrared ray detector 100 using the sequential transmission of the communication device 40. [ May be transmitted to the sensor 100 and eventually the monitor signal of the infrared detectors 100 may be sequentially transmitted using the communication device 40. [

The communication device 40 may use a TCP / IP protocol in a wireless communication mode and may include at least one of RS-232C, RS-422, and RS-485 as a wired communication method. TCP / IP is a network transmission protocol used as a standard protocol for information transmission on the Internet, and asynchronous serial communication method can be used for RS-232C, RS-422 and RS-485.

The infrared detection system may further include a control center 200 for controlling these infrared detectors 100. The control center 200 may be electrically connected to at least one infrared sensor 100 of the plurality of infrared detectors 100 and may be connected to a cable 90 capable of communicating therewith. The monitor signals of the infrared detectors 100 may be sequentially transmitted and collected and the collected monitor signals may be transmitted from the infrared detectors 100 to the control center 200 as described above.

 This can effectively reduce the amount of cable 90 used compared to the case where all of the plurality of infrared detectors 100 are connected to the control center 200 and can save about 40% .

The monitor signal of the state sensing unit 30 is sequentially transmitted through the two adjacent infrared detectors 100 through the communication device 40 coupled to the respective infrared sensors 100 and then transmitted to the control center 200 And can be collectively transmitted to the control center 200 through one infrared ray detector 100. [ That is, a monitor signal generated in the state-of-state detector 30 of any one of the infrared detectors 100 is transmitted to the adjacent one of the infrared detectors 100 through the communication device 40, and the transmitted monitor signal is continuously When the infrared sensor 100 is connected to the control center 200 after being transmitted to another infrared sensor 100, the monitor signal is transmitted to the control center 200 in a lump. Here, the meaning of 'continuously' means that one infrared sensor 100 sequentially transmits the monitor signal to the adjacent infrared sensor 100.

The state detection unit 30 may monitor the level voltage output from the level voltage output unit 32 and the sensing state sensed by the sensing state unit 34. [ The level voltage output unit 32 may output the operating voltage of the infrared ray detector 100 and the sensing unit 34 may output the detection information of the infrared ray detector 100. [

The control center 200 can monitor the level voltage of the plurality of infrared detectors 100 and monitor on-line the installation state or the failure state of the plurality of infrared detectors 100. [ In order to monitor the installation state or the failure state of the plurality of infrared detectors 100 on-line, the control center 200 includes a database unit 210 in which a reference voltage value for the level voltage is stored can do.

For example, the infrared sensor 100 may operate in a voltage range of 2.7V to 3.9V in a normal operating state, and this voltage may be set as a reference voltage. However, the reference voltage in such a normal operation state may vary depending on the type of the infrared ray detector and the like. The database unit 210 may store this reference voltage. If the level voltage of the infrared sensor 100 deviates from this reference voltage, the infrared sensor 100 may be installed in a wrong state, or may be disconnected or broken.

The control unit 220 included in the control center 200 compares the level voltage of the infrared ray detectors 100 with the reference voltage stored in the database unit 210 to determine whether the infrared ray detectors 100 are installed or in a fault state Can be determined. The installation state may be a case where alignment between the transmitting section 10 and the receiving section 20 is distorted due to a natural environment such as a typhoon or a physical impact. In a failure state, at least one of a power failure, an alarm malfunction, .

On the other hand, when an intruder or the like is detected in the normal operation state of the infrared ray detector 100 from the information on the detection state output from the detection state unit 34 of the state detection unit 30, the control center 200 issues an alarm , The security agent can be dispatched.

Therefore, according to the infrared ray detection system according to the present embodiment, information on the detection state and information on the level voltage are separately received, so that the installation state or failure of the infrared ray detection and the occurrence of the intruder can be distinguished. Therefore, when the existing non-power contact is used, it is possible to determine the failure of the infrared ray detector 100, the installation state, and the actual alarm, while it is not discriminated whether the malfunction or the actual intruder is generated or not. In addition, since it is not necessary for the inspector to check the voltage of the infrared sensor 100 directly in the field, and there is no need to cut off the transmitter 10 and the receiver 20 as physical obstacles in case of a failure, the infrared detectors 100 ) Can be saved.

On the other hand, the control center 200 can receive weather information on-line in real time and predict an abnormality of the infrared sensor 100. For example, when rain or snow is present, the receiving unit 20 may not receive the infrared beam transmitted from the transmitting unit 10. In this case, since the voltage drops and the voltage drops, the controller 220 may not judge that the infrared sensor 100 is abnormal even if the level voltage is lower than usual.

3 is a flowchart schematically illustrating an operational flow of the infrared ray detection system according to an embodiment of the present invention.

3, the operational flow of the infrared ray detection system shown in FIG. 1 and FIG. 2 will be described. In the infrared ray detector 100, the state detector 30 included in each infrared ray detector 100 includes an infrared ray detector (S300). The monitor signal may be a voltage level of the monitor signal. The detection state may include an alarm, which may be determined to be a false alarm by the control center 200. The level voltage may be output through the level voltage output unit 52 of the state detection unit 30. [

The monitor signal thus output may be sequentially transmitted to the adjacent infrared detectors 100 (S310). The sequentially transmitted monitor signals can be collectively transmitted to the control center 200 through the infrared sensor 100 connected to the control center 200.

The control center 200 can confirm the sensing state and the level voltage on-line (S320). The control center 200 can monitor the installation state or the failure state of the infrared ray detectors 100 in real time through the information on the level voltage and determine the installation state or the failure state of the infrared ray detectors 100 (S330). Meanwhile, the control center 200 can determine whether or not an intruder is generated through information on the detection state.

At this time, if the controller 220 determines that the level voltage is abnormally abnormal and thus it is an actual failure of the infrared sensor 100, the inspector can check the device on the spot (S340). If the level voltage is normal and the alarm sounds, If so, the security agent can be dispatched to the site (S350). Even if an alarm is generated from the information on the actual sensing state, it is possible to detect the error information on the failure state or the installation state of the infrared sensor 100 from information on the level voltage, such as a false alarm caused by a leaf or a flying bird, If it is twisted, etc., it may be confirmed and it may not be dispatched.

Therefore, by using the infrared detection system, it is possible to know whether the infrared detector is malfunctioning in real time from the status information of the infrared detector, so that it is possible to distinguish whether the alarm is caused by an actual intruder or an alarm caused by a malfunction. As a result, dispatching due to malfunction can be reduced, which can reduce costs and increase the operating efficiency of the system.

Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various modifications and equivalents may be made thereto by those skilled in the art. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims.

10: transmitting unit 20: receiving unit
30: state recognition unit 40: communication device
32: level voltage output section 34:
90: Cable 100: Infrared detector
200: control center 210: database section
220:

Claims (6)

A plurality of infrared detectors each including a transmitter for transmitting an infrared beam, a receiver for receiving the infrared beam, and a status detector for monitoring an operation status; And
A communication device coupled to the plurality of infrared detectors to sequentially transmit monitor signals of the status determiner between each adjacent two infrared detectors of the plurality of infrared detectors;
And an infrared detection system. The method according to claim 1,
Further comprising a control center electrically connected to at least one of the plurality of infrared detectors to control the plurality of infrared detectors,
Wherein the monitoring signal of the state detecting unit of the plurality of infrared detectors is sequentially transmitted through each of the two adjacent infrared detectors through the communication device and then transmitted collectively to the control center through at least one infrared sensor connected to the control center,
Infrared detection system. 3. The method of claim 2,
Wherein the state monitoring unit monitors a level voltage and a sensing state of each infrared ray detector. The method of claim 3,
Wherein the control center monitors a level voltage of the plurality of infrared detectors and monitors an installed state or a failure state of the plurality of infrared detectors on-line. 5. The method of claim 4,
The control center,
A database unit storing a reference voltage value for a level voltage of the plurality of infrared detectors; And
And a controller for comparing a level voltage of the plurality of infrared detectors with a reference voltage of the database unit to determine an installation state or a failure state of the plurality of infrared detectors. The method according to claim 1,
Wherein the communication device uses a TCP / IP protocol for a wireless communication method and includes at least one of RS-232C, RS-422, and RS-485 as a wired communication method.

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