JPH06180790A - Security system - Google Patents

Abstract

PURPOSE:To improve the reliability of the security system by reducing the processing of a security center for a false report. CONSTITUTION:A terminal transmitter receiver 2 is provided with a decision part 4 which decides whether a report is real or false on the basis of the detection pattern of the generation order of detection signals of plural decentralized infrared sensors 1-1-1-n. The decision part 4 when deciding that the report is real sends a warning signal to the security center 3. When it is decided that the report is false, the terminal transmitter receiver 2 performs control so that the warning signal is not sent out or that the warning signal is sent out only when a 1st false report is decided and the warning signal is not sent out thereafter until the false report is decided as many times as specified. The security center 3 receives the warning signal by a transmission and reception part 5, processes it by a processor 6, and displays an abnormality generation state at a display part 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a security system which sends an alarm signal to a security center when an illegal intruder or the like is detected by an infrared sensor. A security system that detects illegal intruders and reports them to the security center at warehouses where security staff are not resident or business establishments where employees are absent at night, etc., and the security center is dispatched Is known, and an infrared sensor is used to detect illegal trespassers. This infrared sensor also detects infrared rays other than infrared rays from an illegal intruder, and in that case, it is a false alarm. Therefore, it is desired to reduce the transmission of alarm signals to the security center due to such false alarms.

[0002]

2. Description of the Related Art In a conventional security system, an infrared sensor is arranged inside or outside a building to be protected, a detection signal of the infrared sensor is collected by a terminal transceiver, and absent time such as night is used as a security time. An alarm signal is formed based on the detection signal within the security time, an automatic call function by a telephone line is used to call the security center, and an alarm signal is sent by an automatic response from the security center. At the security center, the source of the alarm signal is identified from the number of the terminal transceiver included in the alarm signal and the security staff is dispatched.

[0003]

Since the infrared sensor detects infrared rays, it also detects infrared rays emitted from animals other than humans, and even when installed so that sunlight does not enter. , It may be incident as reflected light for some reason. Therefore, infrared rays other than illegal intruders are detected, and an alarm signal is sent to the security center based on the detected infrared rays. That is, it is a false alarm.

At the security center, it is not possible to determine from the received alarm signal whether it is a false alarm or a true alarm. Therefore, the security staff will be dispatched upon receipt of the alarm signal. In this case, it is possible for the dispatched guard to determine whether the report is false or true. In addition, false alarms may be repeated, and guards are dispatched each time. That is, the security center is obliged to dispatch the guard by receiving the warning signal, and therefore, even if the alarm signal is received, the guard is always dispatched when the warning signal is received. It will be labor intensive.

The infrared sensor detects the presence or absence of an illegal intruder, and does not consider the intrusion process or the like. Also, it is necessary to confirm the normality of the infrared sensor by detecting a decrease in the detection sensitivity of the infrared sensor, but in that case, in the past, in the past, infrared rays of workers who went to the place where the infrared sensor was installed or standard infrared rays were generated. The instrument will test whether the infrared sensor is normal.
Therefore, there are drawbacks that the work of confirming the normality of the infrared sensor is complicated, and the rate of dependence on the efforts of the workers is large. An object of the present invention is to reduce the transmission of an alarm signal due to a false alarm and improve the reliability of security.

[0006]

The security system of the present invention will be described with reference to FIG. 1. The terminal transceiver 2 is based on the detection signals of the infrared sensors 1-1 to 1-n arranged in a distributed manner.
A security system for sending an alarm signal from a security center 3 to a security center 3, wherein a plurality of infrared sensors 1-1 are connected to a terminal transceiver 2.
The judgment unit 4 for judging whether the report is true or false based on the detection pattern of the detection signal generation order of 1-n is provided, and the terminal transceiver 2 sends an alarm signal to the security center 3 according to the judgment of the judgment unit 4. To do. In addition, the security center 3 includes a transmitting / receiving unit 5
The processor 6 and the display unit 7 are provided.

The terminal transceiver 2 sends an alarm signal to the security center 3 for the first false alarm determination by the determination unit 4, and stops sending the alarm signal to the security center 3 for the second and subsequent continuous false alarm determinations. Then, this false alarm determination is counted, and an alarm signal is sent to the security center 3 when the number of times is predetermined.

The infrared sensors 1-1 to 1-n are pyroelectric infrared sensors, and the detection signal of the pyroelectric infrared sensor is compared with a preset warning level and a fixed warning level to determine the warning level. When it exceeds, the advance warning signal is sent to the security center 3, and when it exceeds the definite warning level, the warning signal is sent.

Further, an infrared light emitting element is provided in each of the infrared sensors 1-1 to 1-n, the infrared light emitting element is caused to emit light under the control of the security center 3, and the infrared sensor is detected by the infrared sensor corresponding to the infrared light emitting element. To confirm the normality of.

[0010]

The determination unit 4 provided in the terminal transceiver 2 identifies what kind of pattern the detection signals of the plurality of infrared sensors 1-1 to 1-n have, and, for example, from the infrared sensors near the building. In the case of a detection pattern in which the detection signal is output, then the detection signal of the infrared sensor in the entrance is output, and then the detection signal of the infrared sensor in the aisle is output, an illegal intruder from outside may open the entrance door. Since it indicates that the user has opened and invaded, it can be determined that the information is true in the case of this detection pattern. Further, in the case of the detection pattern in which only the detection signal of the infrared sensor of the passage is output, it corresponds to the case where a small animal or the like is detected, so that it is determined as a false alarm. In this way, by determining whether the report is true or false by the determination unit 4, the terminal transceiver 2
It is for controlling whether or not to send an alarm signal from the security center 3 to the security center 3. In this case, there are a case where the control for not sending the warning signal is performed and a case where the control for sending the warning signal is performed due to the false alarm determination. In the security center 3, the alarm signal received by the transmission / reception unit 5 can be processed by the processing device 6 and displayed on the display unit 7 to notify the security watcher of the occurrence of the abnormality.

Further, when the judgment unit 4 judges that there is an erroneous report, an alarm signal is sent to the security center 3 as in the case of the true report judgment, and if repeated erroneous reports are subsequently judged, an alarm is sent to the security center 3. Stop sending signals. However, if the false alarm determination continues for a predetermined number of times, there is some abnormality, and therefore the alarm signal is sent again to the security center.

Further, the infrared sensor is a pyroelectric infrared sensor, and the detection signal thereof is compared with the advance warning level and the final warning level. The detection signal level increases as the illegal intruder approaches the infrared sensor, and the detection signal level decreases as it moves away. Therefore, the detection signal of the infrared sensor in the intrusion route of the illegal intruder exceeds the final warning level after exceeding the advance warning level. When the warning warning level is exceeded, a warning warning signal is sent to the security center 3, and when the fixed warning level is exceeded, a warning signal is sent, so that the security center 3 can grasp the movement of an illegal intruder. .

When the infrared sensors 1-1 to 1-n are provided with infrared light emitting elements, the infrared light emitting elements are caused to emit light under the control of the security center 3. As a result, the infrared sensors 1-1 to 1-n detect infrared rays similar to the case of detecting an illegal intruder, so that an alarm signal is sent to the security center 3. In this case, it is possible to determine that the infrared sensor is out of order if the alarm signal is not transmitted even if the infrared light emitting element emits light. Therefore, the normality of the infrared sensors 1-1 to 1-n can be remotely confirmed.

[0014]

FIG. 2 is a block diagram of a main part of a terminal transceiver according to an embodiment of the present invention, in which S1 to Sn are distributed infrared sensors, 11 is a sensor input section for inputting a detection signal of the infrared sensor, Reference numeral 12 is an AD conversion unit, 13 is an extended transmission / reception unit for an expansion device that can be controlled from the security center, 14 is a state change detection unit, 15 is a state management unit, 16 is a transmission / reception unit that transmits / receives information to / from the security center, 17 Is a security setting unit that sets a security time zone by a 24-hour timer or the like, or sets security start or stop by key operation or card insertion.
Is a logging unit, 19 is a control output unit, 20 is an alarm detection unit that detects an abnormality in each unit in the device, 21 is an alarm output unit, and 22 is a contact input that inputs contact information from a sensor other than the infrared sensor. It is a monitoring unit.

The detection signals of the infrared sensors S1 to Sn are applied from the sensor input section 11 to the AD conversion section 12, converted into digital signals, and input to the state change detection section 14. Further, the security setting unit 17 adds a security signal to the state management unit 15 in the set security time zone or by setting security start. Thereby, the state management unit 15 controls the state change detection unit 14 to perform a detection process of a change in the detection signals or contact information of the infrared sensors S1 to Sn, and when the state change is detected, the state management unit 15 is notified. The state change information is stored in the logging unit 18. The determination unit 4 in FIG. 1 is configured to include the state change detection unit 14 and the state management unit 15.

Further, the transmission / reception unit 16 automatically calls the security center by automatic dialing under the control of the state management unit 15,
An alarm signal is sent out in response to a response from the security center, and various types of information are received from the security center. For example, the logging unit 1 is polled by the security center.
The status management unit 1 sends out the status change information stored in FIG.
It is performed according to the control of No. 5. Also alarm detector 2
When 0 detects an abnormality in the device itself, the alarm center is notified and the alarm output unit 21 displays an alarm by a lamp or the like.

FIG. 3 is a block diagram of the essential parts of the infrared sensors S1 to Sn, in which 31 is an infrared detecting element, 32 is an amplifier,
Reference numeral 33 is a sensitivity setting unit, and 34 is a sending unit. Infrared rays emitted from humans are detected by the infrared ray detecting element 31 and added to the amplifying section 32. The infrared ray detecting element 31 is provided in a milky white cover for protection or the like. In addition, the amplification section 3
2, the sensitivity setting unit 33, the sending unit 34, etc. are stored, and the sending unit 34 and the sensor input unit 11 shown in FIG. 2 are connected by a signal line. In addition, the sensitivity setting section 33 causes the amplification section 32
Is set, and the sensitivity of the infrared detection element 31 is set accordingly.

FIG. 4 is an explanatory view of the arrangement of infrared sensors.
Infrared sensor S1 is installed outdoors, infrared sensor S2 is installed at the entrance, infrared sensor S3 is installed in the passage, and infrared sensors S4 to S8 are installed in each room.
(A) shows the case where the infrared sensors S1, S2, S3 sequentially send detection signals, and (b) shows the case where only the infrared sensor S3 sends detection signals.

Since an illegal intruder often enters the building by opening the entrance door with a key or the like, as shown in FIG. 4 (a), infrared sensors S1, S2, S are used.
When the detection signals are transmitted in the order of 3, it can be clearly determined that the person is an illegal intruder. Therefore, the state change detection unit 14 or the state management unit 15 determines that the information is true. In this case, even if the detection signals from the infrared sensors S1 and S2 are set, it can be set to determine that the information is true. Further, as shown in FIG. 4 (b), when only the infrared sensor S3 sends out the detection signal, it is determined to be a false alarm because it is due to the passage of a small animal or some other cause. When it is determined that a false alarm has occurred, the state management unit 15 can control so as not to send an alarm signal to the security center. Further, as will be described later, it is possible to control so that an alarm signal is sent to the security center for the first false alarm determination, and no alarm signal is sent for the subsequent false alarm determinations.

FIG. 5 is a flow chart of an embodiment of the present invention. As described above, it shows a case where an alarm signal is transmitted in the case of the first false alarm determination and thereafter the alarm signal is not transmitted for a predetermined number of times. . Infrared sensor S by illegal trespassers
The detection signals of 1 to Sn are added to the sensor input unit 11, and A
When the D conversion unit 12 converts the signal into a digital signal and applies it to the state change detection unit 14 to detect the sensor abnormality based on the state change (a), it is determined whether the report is true or false (b). That is,
As described with reference to FIG. 4, the infrared sensors S1 to Sn
It is determined whether the report is true or false based on the detection pattern according to the order of the detection signals of. In this case, different true information detection patterns that are determined to be true information are set in advance corresponding to the arrangement states of the infrared sensors S1 to Sn, and the infrared sensors S1 to S are set.
By comparing the detection pattern of n with the true-report detection pattern, it is possible to determine whether the report is true or false.

When it is determined in step (b) that the information is true, the abnormality occurrence notification is executed (g), that is, the transmitter / receiver 16 sends an alarm signal to the security center. In this case, the number of times of notification is counted without steps. When it is determined that the report is an erroneous report, it is determined whether or not the content of the number of reports is 0 (c). In the case of 0, the alarm signal has not been sent even once, so the process proceeds to step (g), and even if it is determined as a false alarm, the alarm signal is sent to the security center in the case of the first abnormality detection. . If it is not 0, it means that the alarm signal has already been sent to the security center, and therefore the abnormality detection number is counted without sending the alarm signal (d). And
It is determined whether or not the number of abnormality detections reaches a preset value N (e). If it is not the set value N, the process proceeds to step (a). In the case of the set value N, the abnormality detection count is set to 0 (f), the process proceeds to step (g), and an alarm signal is sent to the security center. Therefore, it is possible to reduce the number of times an alarm signal is sent due to a false alarm and reduce the processing in the security center. In this case, the count contents of the number of times of notification and the number of times of abnormality detection are cleared to 0 when security start or security stop is set by key operation or card insertion.

FIG. 6 is a flow chart of another embodiment of the present invention. Like the steps (a) and (b) of the above-described embodiment, the sensor abnormality detection (1) determines whether the report is true or false. Yes (2). When it is determined that the report is true, it is determined whether or not the report is stopped (3). That is, the security setting unit 17 determines whether or not the security is in the setting state. When the report is stopped, the sensor detection data is discarded (4). That is, the state change detection information in the state change detection unit 14 based on the detection signals of the infrared sensors S1 to Sn is discarded.

When it is determined in step (2) that the report is erroneous, it is determined whether the content of the number of notifications is 0 (5). If it is not 0, it indicates that the alarm signal has already been sent to the security center, so the abnormality detection number is counted (6), and it is judged whether or not the abnormality detection number is a preset value N (7). If it is not the set value N, the process proceeds to step (1). If it is the set value N, the abnormality detection count is set to 0 (8), and the abnormality occurrence notification is carried out (9). If the notification is not stopped in step (3) and the content of the number of times of notification is 0 in step (5), the process proceeds to step (9). That is, in the case where it is determined that the report is true without the report being stopped, the first time when it is determined as the false report, and the case where the repeated false report determination occurs N times,
Go to step (9).

In this step (9), the transmission / reception unit 16 sends an alarm signal to the security center under the control of the state management unit 15, and the number of notifications is counted every time the alarm signal is sent (10). It is determined whether or not the number of times M of notification is equal to or more than the number of times of notification stop (11). If the number of times of notification stop is not equal to or more than the number of times of notification stop, the process proceeds to step (1). Send the command (12). That is, all the determinations in step (3) are made to stop the report, and the alarm signal to the security center is stopped even if the subsequent abnormality detection is a true report or a false report. That is, when the alarm signal having the same content is repeatedly given a predetermined number of times, the subsequent transmission of the alarm signal is stopped to reduce the processing load on the security center. Also in this case, when the alarm signal transmission is forcibly stopped, when the security start or the security stop is set by the key operation or the card insertion, the original state is restored.

The infrared sensors S1 to Sn are connected to a pyroelectric infrared sensor.
Can be a sensor. Pyroelectric infrared sensors are spontaneous
It uses the fact that the value of polarization changes with temperature.
Yes, for example, (NH₂CH₂C00H) H₂SO_Four，
Sr_1-xBa_xNb₂O₆, LiTaO₃, LiNbO
₃, Ge_xH_1-xMaterials such as are known. like this
Of temperature and spontaneous polarization of pyroelectric infrared sensor using material
The relationship is, for example, as shown in FIG. Immediately
Then, the horizontal axis represents temperature [° C] and the vertical axis represents spontaneous polarization P _Sage
Curie temperature T_CSpontaneous polarization P_SIs zero
And ΔP_S/ ΔT is referred to as a pyroelectric coefficient.

By using this pyroelectric infrared sensor, the relationship between the infrared sensor and the detection signal level is as shown in FIG. 7 (B). That is, the detection signal level becomes lower as the distance between the infrared sensor and the infrared radiator such as a human becomes longer, and the detection signal level becomes higher as the distance becomes shorter. If the infrared radiation area of a human being is relatively large, the curve B1,
When the radiation area of infrared rays of a small animal such as a dog or cat is relatively small, the curve B2 is obtained. Therefore, it is possible to determine whether the illegal intruder is approaching or moving away from the infrared sensor.

FIG. 8 shows a block diagram of a main part of a terminal transceiver of still another embodiment of the present invention in the case of transmitting the advance warning signal using the above-mentioned pyroelectric infrared sensor. The same portion is shown, 23 is a sensitivity adjusting section, and 24 is an alarm level setting section. This alarm level setting unit 24 is shown in FIG.
The notice warning level and the definite warning level in (B) are set. Further, the sensitivity adjusting section 23 adjusts the amplification gain of the detection signal applied to the sensor input section 11 and inputs it to the AD converting section 12. The AD converting section 12 in the embodiment shown in FIG. The AD conversion unit 12 in this embodiment may be a digital signal having a plurality of bits, although it may be configured to convert it into a binary digital signal of 1 "and" 0 ".

The state change detection section 14 includes an alarm level setting section 24.
The advance warning level and the fixed warning level set by
The detection signal level of the infrared sensor converted by the AD conversion unit 12 is compared, and when the warning warning level and the definite warning level are exceeded, the status management unit 15 is notified and the status management unit 15 is notified.
Under the control of (1), the warning signal is sent to the security center when the warning level exceeds the warning level, and the warning signal is sent to the security center when the warning level exceeds the definite warning level as in the above-described embodiments. Therefore, since the security center receives the warning signal after the advance warning signal, it becomes easier to prepare the security system as compared with the case where the warning signal is suddenly received.

Further, when the definite alarm level is exceeded, as in the above-described embodiment, it is determined whether the report is true or false.
It is possible to determine whether it is a true report or a false report, including a detection pattern due to exceeding the preceding warning level. Thereby, a more accurate determination can be made.

FIG. 9 is an explanatory diagram of the alarm signal.
, The terminal numbers A1 and A2 and the data D1 to D6
And when sending reverse transmission,
The numbers * A1 and * A2 obtained by inverting the terminal numbers A1 and A2 are set as a set, and the data D1 to D6 are also sent as a set of the inverted data * D1 to * D6. In this case, each of the data D1 to D6 has, for example, an 8-bit structure, and these 8-bits correspond to eight infrared sensors, and "0" indicates normal and "1" indicates abnormal detection. it can. Therefore, it can be applied to the format of the alarm signal transmitted to the security center in the embodiments shown in FIGS. In the security center, the infrared sensor layout of the location where the terminal transceiver is installed is displayed on the display unit based on the 2-byte terminal numbers A1 and A2, and the infrared sensor that generated the detection signal is red or blinks. Can be displayed.

Also, the security center can send a control signal to the terminal transceiver to periodically send a detection signal of the infrared sensor from the terminal transceiver when receiving the advance warning signal or the warning signal or periodically. . In that case, for example, as shown in (a) and (b) of FIG. 9, according to a format including a function code FC, a terminal status ST, a terminal number, a function code FC, an alarm classification AL, a sensor number, and a detection signal, A detection signal is sent from the terminal transceiver to the security center. It should be noted that the terminal status ST indicates whether or not security is in progress, and the terminal number indicates the number assigned to the terminal transceiver. Further, "0" of the alarm classification AL indicates a normal state due to the abnormality recovery, and "1" indicates the occurrence of the abnormality. The sensor number is a number assigned to the infrared sensor, and the detection signal indicates its level by a plurality of bits. In addition, the alarm classification AL has a 2-bit configuration,
It is also possible to indicate that it is a preliminary warning.

Since the detection signals of the infrared sensors S1 to Sn are converted into a digital signal having a plurality of bits by the AD converter 12 as in the embodiment shown in FIG. 8, they are sent as the detection signal of (b). Will be done. In this case, in response to a command from the security center, the terminal transmitter / receiver samples the detection signals of the infrared sensors S1 to Sn at intervals of about several seconds, accumulates the sampling contents of several tens of times, and collectively collects them in the security center. Can be sent out. The security center graphically displays or prints out the change in the detection signal level, and judges whether it is a true report or a false report based on the change in the detection signal of one infrared sensor and the change in the detection signal of another infrared sensor. It is possible to identify the movement route of the illegal intruder.

FIG. 10 is an explanatory view of an infrared sensor having a test function, in which 40 is a cover, 41 is an infrared detecting element,
42 is an amplification unit, 43 is a sensitivity setting unit, 44 is a transmission / reception unit, 4
Reference numeral 5 is a drive unit, and 46 is an infrared light emitting element. Normally, infrared rays emitted from a trespasser or the like are incident on the infrared detection element 41 through the cover 40, and the detection signal is amplified by the amplification section 42 and is transmitted from the transmission / reception section 44 to that shown in FIG. It is input to the sensor input unit 11. An infrared light emitting element 46 is provided outside the cover 40.

When testing the infrared sensor from the security center, the security center sends a test command signal to the terminal transceiver. In the terminal transceiver, the transmission / reception unit 16 receives and the test output signal is sequentially transmitted from the control output unit 19 to the infrared sensors S1 to Sn. When the transmitter / receiver 44 of the infrared sensor receives and identifies this test control signal, the driver 45 is controlled to supply a drive current to the infrared light emitting element 46 to emit light. Infrared rays from the infrared ray emitting element 46 are incident on the infrared ray detecting element 41 through the cover 40, the detection signal of the infrared ray detecting element 41 is amplified by the amplifying section 42, and the transmitting / receiving section 44 transmits the sensor input section 11 of the terminal transceiver. Entered in.

The detection signal of the infrared sensor is converted into a digital signal in the AD conversion section 12 so as to represent the level in a plurality of bits as described in the embodiment of FIG. ), (C) is sent to the security center in the format shown in FIG.
It is possible to confirm the dirt of the cover 40 and the normality of the infrared sensors S1 to Sn depending on whether or not it is at a predetermined level. By accumulating the history of the detection signal level of the infrared sensor at the security center, the progress of deterioration of the infrared sensor can be recognized. That is, since the normality of a large number of infrared sensors can be confirmed at the security center periodically or at any time, the security center goes to the installation location of each terminal transceiver to test each infrared sensor location. There is no need to perform any operation.

When the detection signal level of the infrared detecting element 41 is lower than a predetermined value, the command signal from the security center is changed to
The sensitivity setting unit 43 sets the amplification gain of the amplification unit 42 by adding from the transmission / reception unit 44 to the sensitivity setting unit 43 through the path indicated by the dotted line, and the detection signal of a predetermined level is remotely transmitted to the terminal transceiver. It is also possible to control. Further, by controlling the light emission level of the infrared light emitting element 46 in two steps or the like, it is possible to test the correspondence between the warning warning level and the definite warning level when the pyroelectric infrared sensor is used.

The present invention is not limited to the above-described embodiments, but various additions and modifications can be made. For example, in the determination of the true or false of the detection signal, the detection pattern At the same time, it is possible to combine contact information patterns such as opening / closing signals of doors and windows.

[0038]

As described above, according to the present invention, the terminal transceiver 2 is provided with the judging unit 4 and the infrared sensors 1-1 to 1-
Based on the detection pattern of the n detection signal generation order, it is determined whether it is a true report or a false report. Therefore, for example, in the case of a false report determination, it is possible to control not to send an alarm signal to the security center 3. it can. Therefore, the processing load on the security center 3 can be reduced.

In the case of the first false alarm determination, as in the case of the true information determination, when an alarm signal is sent to the security center 3,
The security center 3 is notified that the detection signals of the infrared sensors 1-1 to 1-n have been obtained, and in the case of subsequent false alarm determination, control is performed so as not to send an alarm signal. There is an advantage that the processing load of the security center 3 based on the false alarm can be reduced. When the false alarm determination is repeated a predetermined number of times, an alarm signal can be sent to the security center 3 to notify that some abnormality has occurred.

Further, when the pyroelectric infrared sensor is used, the advance warning signal can be sent by judging the detection signal level. Therefore, the security center 3 compares it with the case of sudden reception of the warning signal. Therefore, it is easy to judge whether the alarm signal is received or not, and it is easy to deal with the dispatch of security guards.It is possible to judge the intrusion route of the illegal intruder based on this detection signal level. There are advantages. Further, it is possible to determine whether the report is a true report or a false report based on the detection pattern including the change in the detection signal level, and in that case, the determination accuracy can be further enhanced.

Further, by providing an infrared light emitting element in each of the infrared sensors 1-1 to 1-n, a remote test can be conducted from the security center 3. Therefore, the infrared sensor 1-1 can be used without going to the place where the terminal transceiver is installed from the security center 3.
Since the deterioration states 1 to 1-n can be grasped, there is an advantage that the labor of the security guard of the security center 3 can be reduced and the reliability of the security system can be improved.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a block diagram of a main part of a terminal transceiver according to an embodiment of the present invention.

FIG. 3 is a block diagram of a main part of an infrared sensor.

FIG. 4 is an explanatory view of the arrangement of infrared sensors.

FIG. 5 is a flowchart of an embodiment of the present invention.

FIG. 6 is a flowchart of another embodiment of the present invention.

FIG. 7 is a characteristic explanatory view of a pyroelectric infrared sensor.

FIG. 8 is a block diagram of a main part of a terminal transceiver according to still another embodiment of the present invention.

FIG. 9 is an explanatory diagram of an alarm signal.

FIG. 10 is an explanatory diagram of an infrared sensor having a test function.

[Explanation of symbols]

 1-1 to 1-n infrared sensor 2 terminal transceiver 3 security center 4 determination unit 5 transmission / reception unit 6 processing device 7 display unit

Claims (4)

[Claims] 1. A plurality of distributed infrared sensors (1)
In a security system for transmitting an alarm signal from a terminal transceiver (2) to a security center (3) based on detection signals of -1 to 1-n), the terminal transceiver (2) includes a plurality of infrared rays. A determination unit (4) that determines whether the report is true or false based on the detection pattern of the detection signal generation order of the sensors (1-1 to 1-n) is provided, and the terminal transceiver (2) includes the determination unit ( A security system which sends an alarm signal to the security center (3) according to the determination of 4). 2. The terminal transceiver (2), when the first false alarm determination by the determination unit (4), the security center (3).
To the security center (3) after the second and subsequent false alarm determinations are continued, and the false alarm determinations are counted, and the security center (3) is counted at a predetermined number of times. An alarm signal is sent to the device.
Security system described. 3. The infrared sensor (1-1 to 1-n) is a pyroelectric infrared sensor, and the detection signal of the pyroelectric infrared sensor is compared with a preset warning level and a fixed warning level, When the warning alarm level is exceeded, a warning alarm signal is sent to the security center (3), and when the confirmed warning level is exceeded, an alarm signal is sent to the security center (3). The security system according to item 1. 4. The infrared sensor (1-1 to 1-n) is provided with an infrared light emitting element, and the infrared light emitting element is caused to emit light under the control of the security center (3), and the infrared ray corresponding to the infrared light emitting element. The normality of the infrared sensor is confirmed by a detection signal of the sensor.
Security system described.