JP2004318226A - Security system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a security system for surely transmitting abnormality detection from an input device to a controller by solving the problem that even when abnormality detection information wirelessly transmitted from the input device can not be received by the controller due to radio disturbance, it can not be detected by the input device, and it is inconvenient in a conventional security system. <P>SOLUTION: In the security system, an input device 1 and a controller 2 are connected through bi-directional radio communication, and when the controller 2 normally receives abnormality detection information from the input device 1, the controller 2 transmits a reception response to the input device 1 being the origin of transmission, and when the input device 1 does not receive any reception response within a fixed time after transmitting the abnormality detection information, the input device 1 retransmits the abnormality detection information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a security system that detects and reports an abnormality in an office, a house, a building, and the like, and particularly facilitates installation of devices by performing wireless communication, and can reliably transmit abnormality detection information, and And a security system capable of reducing power consumption.
[0002]
[Prior art]
In recent years, a security system that detects abnormalities such as unauthorized intrusions and alerts inside people, dispatches security personnel by contacting a security center, and reports to the police has been applied to homes, offices, stores, buildings, etc. Widespread.
[0003]
Conventional security systems generally include a plurality of input devices each having a sensor and a control device that performs a notification operation such as receiving a sensor information from the input device and generating a notification sound. was there.
Then, in the above security system, when the sensor detects an abnormality in the input device, the input device transmits abnormality detection information to the control device and notifies “abnormality”. The abnormality detection information from the input device is transmitted to the control device via the wiring, and when the control device receives the information, it analyzes the data, issues a sound or display alarm, and notifies the person in the room of the abnormality. , An external security center is notified via a communication network such as a public line.
[0004]
In such a conventional security system, the input device and the control device are usually connected by wired wiring, and there is a problem that it is difficult to install many input devices. Therefore, as another conventional security system, there has been a “home security device” in which an input device and a control device are wirelessly connected (Patent Document 1).
[0005]
In such a security system using radio, in order to reduce the price of the control device, even if multiple input devices are installed, the transmission frequency is usually the same, so if multiple input devices transmit simultaneously, In some cases, radio wave interference may occur and the control device may not be able to receive signals normally.
Similarly, when an unauthorized intruder performs radio interference, reception may not be performed normally.
[0006]
[Patent Document 1]
JP-A-6-139483
[0007]
[Problems to be solved by the invention]
However, in the above-described conventional home security device, unidirectional communication is performed in which the control device receives the abnormality detection information transmitted from the input device, and radio interference, path interruption, radio interference, and failure of the control device on the receiving side ( For example, there is a problem that even if the signal cannot be received by the control device, it cannot be detected on the input device side, which is inconvenient.
[0008]
In addition, in the conventional home security system, the setting of the monitoring mode of "alert / release" is performed on each input device, and setting on each input device for each input device is complicated. There was a point.
[0009]
Further, in another conventional security system, there is a system in which "alert / cancel" is set by a control device. However, in the case of "cancel", a notification operation in the control device is not performed. However, since the input device is always turned on, there is a problem that a large amount of wasteful power is consumed.
[0010]
The present invention has been made in view of the above circumstances, and enables an input device and a control device to wirelessly communicate in a two-way manner, reliably transmitting abnormality detection from the input device to the control device, and reducing power consumption. It is an object of the present invention to provide a security system that can be planned.
[0011]
[Means for Solving the Problems]
The present invention for solving the problems of the above conventional example includes a sensor unit, an input device that outputs abnormality detection information when an abnormality is detected by the sensor unit, and outputs an alarm by receiving abnormality detection information from the input device. A security system comprising a control device that performs a two-way wireless communication between the input device and the control device, and when the control device normally receives the abnormality detection information from the input device, the security device transmits the information. A control device that transmits a reception response indicating that it has been received to the input device of the transmission source.If the input device does not receive a reception response within a predetermined time after transmitting the abnormality detection information to the control device, The security system is an input device that retransmits the abnormality detection information. Even if the abnormality detection information from the input device is not normally transmitted to the control device due to a communication failure or the like, by resending, Always it is possible to improve the possibility of transmission.
[0012]
Further, in the above security system, when the input device does not receive a reception response from the control device even after transmitting the abnormality detection information again, the abnormality detection information is stored as a transmission error, and the control is performed. An input device that transmits abnormality detection information stored as a transmission error to the control device when an inquiry about abnormality detection information is received from the device. The security system is a control device that sends an inquiry about abnormality detection information to the input device when the recovery from the failure is detected or periodically, and when the control device detects the return from any failure, In particular, it is possible to transmit an inquiry of abnormality detection information from the control device, and to cause the input device to transmit abnormality detection information that could not be normally received, It is possible to reliably transmit the normal detection information to the control unit.
[0013]
Further, according to the present invention, in the above security system, the control device issues a mode setting instruction to set one of a plurality of monitoring modes for setting or canceling a monitoring time zone to the input device according to an input from a user. When the input device receives the mode setting instruction, the input device sets the monitoring mode internally according to the instruction, and controls the power supply to the sensor unit according to the set monitoring mode. As a security system, the sensor unit can be turned on only when monitoring is necessary, and monitoring can be performed.If monitoring is not required, the sensor unit can be turned off and controlled according to user settings. Power consumption can be significantly reduced as compared to turning on / off only the alarm output in the device.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described with reference to the drawings.
The security system according to the present invention connects an input device and a control device via a bidirectional wireless line, and when the control device receives abnormality detection information from the input device, transmits a reception response to the input device. If the input device holds the abnormality detection information to be transmitted, and transmits the abnormality detection information, and does not receive a reception response from the control device within a predetermined time, the abnormality detection information stored in the input device is retained. Is transmitted again, and even if the abnormality detection information is not normally received by the control device due to a failure such as radio interference or radio wave interference, the possibility that the abnormality detection information is transmitted normally by retransmission is improved. Is what you can do.
[0015]
Further, the security system according to the present invention, the input device stores "transmission error" as a transmission result for abnormality detection information that did not receive a reception response even at the time of retransmission, and after the failure recovery or periodically, control When there is an inquiry about the abnormality detection information from the device, the abnormality detection information in which the transmission error is stored is transmitted to the control device, and the abnormality detection can be reliably transmitted.
[0016]
Further, in the security system according to the present invention, the control device wirelessly sets the monitoring mode of each input device to, for example, any one of “going out / night / cancellation”, and further enables the monitoring mode of each input device to be displayed. In addition, the monitoring mode of many input devices can be set and managed collectively from the control device.
[0017]
Further, the security system according to the present invention, the input device, when the state of "going out" is set, the power supply to the sensor unit, when the state of "release" is set, the sensor The power supply to the sensor unit is stopped, and if set to "Night", the power supply to the sensor unit is performed only at night, and the power supply to the sensor unit is stopped when monitoring is not necessary. Thus, power consumption can be reduced.
[0018]
First, the configuration of a security system according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic configuration block diagram of a security system according to an embodiment of the present invention.
The basic configuration of the security system according to the present embodiment is almost the same as that of the related art. As shown in FIG. 1, the input device 1 detects an abnormality with a sensor and transmits abnormality detection information. And a security center 3 connected to the control device 2 via a public line or a dedicated line to perform a notification operation for notifying the abnormality. Although only one input device 1 is shown in FIG. 1, a plurality of input devices 1 are actually provided as necessary.
[0019]
The security center 3 is similar to the conventional security center 3, and receives a report from the communication unit 27 of the control device 2 and dispatches a security guard to that location or reports to the police or fire department. Is what you do.
[0020]
First, each component of the input device 1 will be specifically described.
The input device 1 includes a sensor unit 11, a control unit 12, a power supply unit 13, a wireless unit 14, and a storage unit 15. Note that the input device 1 is provided with a clock and an optical sensor (night detection sensor) for detecting that it is night as in the related art, but is not shown here.
[0021]
The sensor unit 11 outputs a signal (contact information, transmission, current, pulse signal, etc.) for detecting an abnormality such as unauthorized intrusion, as in the related art.
The wireless unit 14 performs wireless communication with the control device 2. As a feature of the present system, the wireless unit 14 includes a wireless transmitter, a wireless receiver, and a modem unit, and performs wireless bidirectional communication with the control device 2. Things.
[0022]
Further, as a feature of the present system, the power supply unit 13 switches on / off of power supply to the sensor unit 11 according to an instruction from the control unit 12.
The storage unit 15 stores its own identification information (ID), abnormality occurrence date and time, transmission date and time, and transmission result of the abnormality detection information.
[0023]
The control unit 12 controls the entire input device 1 and detects an abnormality based on the electric signal input from the sensor unit 11 as in the related art. An abnormality occurrence date and time is stored in the storage unit 15 based on the current date and time managed in the control unit 12, and abnormality detection information in which an own ID is added to the abnormality occurrence date and time is transmitted to the control device via the wireless unit 14. 2 is transmitted.
[0024]
Also, as a characteristic of the control unit 12 of the input device 1 of the present system, when the abnormality detection information is transmitted to the control device 2 and a “reception response” from the control device 2 is received, the abnormality detection information is normally received. If "success" has been stored as "transmission result" and "reception response" has not been received from the control device 2, the "transmission date" has been stored in the storage unit 15 corresponding to the abnormality detection information. Performs processing for retransmitting the abnormality detection information.
When there is no reception response even after retransmission, the control unit 12 stores “transmission date and time” corresponding to the abnormality detection information and stores “transmission error” as “transmission result”.
[0025]
Further, as a feature of the present system, when there is an inquiry about abnormality detection information from the control device 2, the control unit 12 includes “transmission error” in the transmission result among the abnormality detection information stored in the storage unit 15. Is transmitted. The inquiry from the control device 2 will be described later in detail.
[0026]
Furthermore, the control unit 12 activates the sensor to perform monitoring according to an instruction from the control device 2, “goes out”, stops the sensor and does not perform monitoring, or operates the sensor unit 11 only at night. One of the modes of “nighttime” in which the monitoring is performed is set inside the control unit 12 as the monitoring mode (not shown).
[0027]
Then, as a feature of the present system, when the monitoring mode is set to “out”, the control unit 12 turns on the power supply to the power supply unit 13 to the sensor unit 11, and sets the monitoring mode to “on”. When set to “cancel”, the power supply to the power supply unit 13 to the sensor unit 11 is turned off, and when the monitoring mode is set to “night”, the power is supplied from the night detection sensor. In response to the input, the power supply unit 13 is controlled to turn on the power supply to the sensor unit 11 only at night.
[0028]
Thereby, in this system, the setting of the monitoring mode of each input device 1 can be controlled collectively from the control device 2, and the sensor unit 11 can be controlled in accordance with the monitoring mode set in the input device 1. Since the power supply is turned on / off, power consumption can be significantly reduced as compared with turning on / off the alarm output operation of the control device while the sensor is turned on.
[0029]
Here, information stored in the storage unit 15 of the input device 1 will be described with reference to FIG. FIG. 2 is an explanatory diagram illustrating information stored in the storage unit 15 of the input device 1.
As shown in FIG. 2, the storage unit 15 stores “abnormality date and time”, which is the date and time when the control unit 12 detects the abnormality, and “transmission date and time” and “transmission result” corresponding thereto. In particular, the “transmission result” indicates whether transmission of the abnormality detection information including the abnormality occurrence date and time to the control device 2 has been completed, and corresponds to the abnormality detection information transmitted from the input device 1. Is what it is.
[0030]
More specifically, the data stored as the “transmission date and time” corresponding to each piece of abnormality detection information indicates the time at which the input device 1 has received a reception response indicating that the control device 2 has received the data normally. Either data of “date and time” or “transmission date and time” indicating a time when a reception response could not be received even after retransmission and timeout occurred. In addition, "transmission result" indicating transmission success / failure is stored corresponding to each abnormality detection information.
[0031]
In the example of FIG. 2, the abnormality detection information including the abnormality occurrence date and time of “2002.11.xx 23:45” indicates that the control device 2 has normally received the reception response and has received the reception response. The abnormality detection information of “2002.12.xx 3:20” cannot be received at the time of the first transmission and is transmitted again, but it cannot be received at the time of retransmission. 30 "indicates that a transmission error has occurred due to the time-up.
It should be noted that the abnormality detection information including the abnormality occurrence date and time corresponding to the “transmission error” corresponds to “abnormality detection information stored as a transmission error” in the claims.
[0032]
It is also possible to delete the abnormality detection information received from the control device 2 from the table shown in FIG. 2 so that the abnormality detection information normally received by the control device 2 is not stored. is there.
[0033]
Next, the control device 2 of the present system will be described with reference to FIG.
As illustrated in FIG. 1, the control device 2 includes a wireless unit 21, a control unit 22, an operation unit 23, a speaker 24, a display unit 25, a storage unit 26, and a communication unit 27. .
[0034]
Explaining each component in detail, the wireless unit 21 performs bidirectional wireless communication with the plurality of input devices 1. Note that wireless communication with the plurality of input devices 1 may be performed at the same frequency in order to reduce the device cost.
[0035]
The operation unit 23 is used by the user to input a setting of a monitoring mode of “going out / night / cancellation”, a state display of the input device, a notification instruction, and the like.
The speaker 24 outputs a warning sound or the like when an abnormality occurs. The display unit 25 includes an LED, a liquid crystal screen, and the like, and blinks the LED when an abnormality is notified, and displays a setting state of the input device 1 and an abnormality detection state.
[0036]
The storage unit 26 stores a processing program in the control unit 22 and a monitoring mode set for each input device 1 subordinate to the control device 1.
The communication unit 27 is connected to the security center 3 via a public line or a dedicated line to report an abnormality. The communication unit 27 may include a handset that can communicate with a security guard at the security center 3. .
[0037]
The control unit 22 of the control device 2 performs a notification operation such as an alarm, a sound, a light, and a vibration output when the abnormality detection information is received from the input device 1 as in the related art, and sends it to the security center 3 as necessary. The system performs a notification process, and, as a feature of the present system, transmits a “reception response” to the input device 1 of the transmission source when the abnormality detection information is normally received from the input device 1.
[0038]
Accordingly, in the present system, when an abnormality is detected in the input device 1, the input device 1 can confirm whether or not the abnormality detection information has been reliably received by the control device 2. The retransmission of the abnormality detection information is performed to improve the possibility that the abnormality detection information is transmitted to the control device 2 normally.
[0039]
Further, as a feature of the present system, the control unit 22 of the control device 2 instructs each input device 1 to set any one of the monitoring modes of “going out / night / cancellation” in accordance with the state setting instruction from the operation unit 23. Is transmitted via the wireless unit 21. For example, when the mode setting of “going out” is made from the operation unit 23 of the control device 2, a mode setting instruction of “going out” is transmitted to each of the input devices 1 after a preset fixed time, The sensor of the input device 1 is operated a fixed time after the user performs the operation of “going out”. This fixed time can be arbitrarily changed by the user, and a mode setting instruction can be transmitted immediately after the mode is set.
[0040]
Further, as a feature of the present system, the control unit 22 of the control device 2 makes an inquiry about abnormality detection information to each input device 1 after detecting recovery from a failure such as a communication failure. In this way, if there may be abnormality detection information that could not be received by the control device 2, by inquiring the input device 1, the input device 1 receives the abnormality detection information in which the "transmission error" is stored. , The security center 3 can be notified.
[0041]
Next, the operation of the present system will be described with reference to FIG. FIG. 3 is a flowchart illustrating a process in the control unit 12 of the input device 1 of the present system.
In the input device 1 of the present system, sensor information (contact information, voltage, current, pulse, etc.) for detecting an abnormality is output from the sensor unit 11 to the control unit 12. As shown in FIG. 3, the sensor unit 11 compares the input sensor information with a previously stored normal value (or a normal range) to determine whether there is an abnormality (abnormality detection) (100).
[0042]
When detecting an abnormality in the process 100, the control unit 12 reads the current date and time managed internally, and stores the current date and time in the storage unit 15 as the date and time of occurrence of the abnormality (102). Then, the control unit 12 initializes the number of retransmissions for the abnormality detection information including its own ID and the abnormality occurrence date and time (103), and transmits the abnormality detection information to the control device 2 via the wireless unit 14 (104). ).
[0043]
Then, after transmitting the abnormality detection information, the control unit 12 determines whether or not a reception response from the control device 2 has been received within a certain period of time, and if there is a reception response, a setting for holding the transmitted abnormality detection information is set. It is determined whether or not the transmission has been performed (120), and if it is to be retained, the reception time of the reception response is stored in the “transmission date and time” corresponding to the abnormality occurrence time in the storage unit 15, and the transmission “success” is transmitted. The result is stored (124).
[0044]
If the control unit 12 determines in the process 120 that the abnormality detection information that has been transmitted is not stored, the control unit 12 deletes the abnormality detection information and the corresponding information from the storage unit 15 (126).
[0045]
If the reception response is not received in the process 106, the control unit 12 waits for the reception response for a predetermined period of time (random waiting time) (109). When the time is up, the control unit 12 determines whether the number of retransmissions has reached the upper limit. It is determined whether or not the error detection information has reached the upper limit (step 110).
[0046]
When the number of retransmissions reaches the upper limit in the process 110, the control unit 12 determines that the abnormality detection information has not been normally received by the control unit 2, and determines that the transmission corresponding to the abnormality detection information in the storage unit 15 has been performed. At the date and time, the date and time when the time is up is stored, and “transmission error” is stored in the transmission result. In this way, the abnormality monitoring process in the input device 1 is performed.
[0047]
Next, the operation of the input device 1 when the control device 2 makes an inquiry about abnormality detection information will be described with reference to FIG. FIG. 4 is a flowchart illustrating a process of the control unit 12 of the input device 1 when an inquiry about abnormality detection information is made.
As shown in FIG. 4, the control unit 12 of the input device 1 monitors whether or not there is an inquiry about abnormality detection information from the control device 2 (200). When the inquiry is received, the control unit 12 refers to the storage unit 15. Then, an abnormality occurrence date and time in which "transmission error" is stored as "transmission result" is read (210).
[0048]
Then, the control unit 12 attaches an ID to the read abnormality occurrence date and time and transmits it as abnormality detection information to the control device 2 via the wireless unit 14 (220). If there is no data indicating "transmission error", the fact is transmitted. Note that, in this case as well, when the control device 2 receives the abnormality detection information for the inquiry, the reception response is transmitted, and when the input device 1 does not receive the reception response, the abnormality detection information may be retransmitted. Absent.
In this way, the operation is performed when the control device 2 inquires about the abnormality detection information.
[0049]
Next, power control of the input device 1 will be described with reference to FIG. FIG. 5 is a flowchart illustrating a process of the control unit 12 regarding control of power supply to the sensor unit 11.
As shown in FIG. 5, the control unit 12 of the input device 1 monitors whether or not an instruction for setting a state has been received from the control device 2 (300). The mode data is internally updated (302), and it is determined whether the set mode (monitoring mode) is "out of the house", "cancel", or "night" (310).
[0050]
Then, if the set state is “going out”, the control unit 12 outputs an instruction to the power supply unit 13 to turn on the power supply to the sensor unit 11 (322). If the set mode is “release”, the control unit 12 outputs an instruction to the power supply unit 13 to turn off the power supply to the sensor unit 11 (314).
[0051]
If the set state is “nighttime”, the control unit 12 determines whether it is nighttime according to an input from a clock holding the current time or a nighttime detection sensor (320). Then, the process proceeds to step 322 to supply power to the sensor unit 11, and if it is not at night, the process proceeds to step 324 to turn off the power supply to the sensor unit 11. Thus, if the set state is “night”, power is supplied to the sensor unit 11 only at night. In this way, power control for the sensor unit 11 in the input device 1 is performed.
[0052]
Next, a description will be given of the power supply control in the case where there are five types of monitoring modes, “day and night warning”, “daytime warning”, “nighttime warning”, “warning release”, and “temporary release” with reference to FIG. FIG. 6 is a flowchart illustrating the control of power supply in the input device 1 when there are five types of monitoring modes.
[0053]
First, briefly explain each monitoring mode, "day and night vigilance" is a mode to monitor day and night, such as when you are away, "daytime vigilance" is a mode to monitor only during the day, every day, "Night alert" is a mode in which monitoring is performed only at night every day, "Alert release" is a mode in which monitoring is not performed, and "Temporary release" is a mode in which monitoring is temporarily canceled during monitoring regardless of day or night. Is what you do.
[0054]
As shown in FIG. 6, the control unit 12 checks whether or not a mode setting instruction has been received (400), and upon receiving the mode setting instruction, updates the held mode (402), and determines which monitoring mode is held. It is determined whether there is (404). At this time, if “temporary release” is set in the process 402, the monitoring mode that has been set so far is retained, and after a predetermined release time has elapsed, the monitoring mode is set again. To be set.
If the mode setting instruction is not received in the process 400, the control unit 12 proceeds to the process 404 and determines the monitoring mode.
[0055]
Then, if the retained mode is “warning day and night”, the control unit 12 turns on the power supply to the sensor unit 11 (420).
If the retained mode is “daytime alert” or “nighttime alert”, the control unit 12 determines whether or not the current time matches the alert time (410). The power supply to the sensor unit 11 is turned on (420), and if the current time does not coincide with the alert time in the process 410, the power supply to the sensor unit 11 is turned off (422).
[0056]
If the retained mode is “alert release” in the process 404, the control unit 12 turns off the power supply to the sensor unit 11 (422).
When the retained mode is “temporary release”, the control unit 12 determines whether or not a preset release time has elapsed after turning off the power supply to the sensor unit 11. (412). If the release time has not elapsed, the control unit 12 proceeds to step 422 and keeps the power supply to the sensor unit 11 in the off state (422).
[0057]
When the release time has elapsed, the control unit 12 sets the immediately preceding monitoring mode held in the process 402, shifts to the process 420, and turns on the power supply to the sensor unit 11. (420).
As described above, even when there are five types of monitoring modes, the monitoring time corresponding to the set monitoring mode is compared with the current time, and the input is performed so that power is supplied to the sensor unit 11 only during the monitoring time period. The control of power supply to the sensor unit 11 in the device 1 is performed.
[0058]
According to the security system according to the embodiment of the present invention, the input device 1 and the control device 2 are connected by two-way wireless communication, and the control device 2 normally receives the abnormality detection information from the input device 1. In this case, a reception response is transmitted to the input device 1 of the transmission source. If the input device 1 does not receive a reception response within a predetermined time after transmitting the abnormality detection information, the input device 1 retransmits the abnormality detection information. Therefore, there is an effect that it is possible to improve the possibility that the abnormality detection information is normally transmitted to the control device 2 by eliminating obstacles such as radio interference and radio wave interference.
[0059]
Further, according to the present system, when the input device 1 does not receive the reception response even after retransmitting the abnormality detection information to the control device 2, the storage unit 15 stores the abnormality occurrence information included in the abnormality detection information in the storage unit 15. “Transmission error” is stored as a transmission result corresponding to the date and time, and when an inquiry about abnormality detection information is received from the control device 2, the abnormality occurrence date and time in which the transmission error is stored is read out, and the ID and the ID Since the abnormality detection information including the abnormality occurrence date and time is transmitted to the control device 2, it is possible to transmit the abnormality detection information that has not been normally transmitted to the control device 2 in response to an inquiry from the control device 2, There is an effect that the abnormality detection information can be reliably transmitted.
[0060]
Further, according to the present system, when the control device 2 detects a failure in communication with the input device 1 or a failure recovery from its own failure, the control device 2 inquires all the input devices 1 of abnormality detection information. Is transmitted, the input device 1 can transmit the abnormality detection information that could not be transmitted normally to the control device 2 as described above, and reliably transmit the abnormality detection information. There are effects that can be.
[0061]
Further, in the present system, the control device 2 transmits a state setting instruction for setting any one of the monitoring modes of “out-of-home / night / release” to all the input devices 1 in accordance with an input from the operation unit 23, The control unit 12 of the input device 1 sets any one of the monitoring modes of “going out / night / cancellation” according to an instruction from the control device 2. The monitoring mode of the input device 1 can be controlled, and there is an effect that the monitoring mode can be easily switched.
[0062]
Further, in the present system, the control unit of the input device 1 turns on the power supply to the sensor unit 11 when the set monitoring mode is “out-of-home”, and sets the sensor Since the power supply to the unit 11 is turned off, and if the monitoring mode is "night", the power supply to the sensor unit 11 is turned on only at night according to the signal from the night detection sensor, When there is no need for monitoring, the power supply to the sensor unit 11 can be stopped, so that the sensor unit is always operated and consumed compared to turning on / off only the transmission to the control device according to the setting. There is an effect that power can be significantly reduced.
[0063]
In addition, in the present system, even when the monitoring mode is not limited to three types and there are a plurality of types, the monitoring time specified for the set monitoring mode is compared with the current time, and the monitoring time period is set. If so, the power supply to the sensor unit 11 is turned on, and the power supply to the sensor unit 11 is turned off during the monitoring cancellation time period. Thus, there is an effect that power consumption can be significantly reduced as compared with the case where only transmission to the control device is turned on / off.
[0064]
Further, in the above-described example, when an abnormality is detected in the input device 1, the abnormality detection information is transmitted from the input device 1 to the control device 2. However, as another method, the abnormality is detected in the input device 1. When detected, only the time of occurrence of the abnormality is stored, and the control device 2 periodically (for example, every 15 seconds) inquires (polls) abnormality detection information from the control device 2 to the input device 1, When 1 receives the polling, it may transmit the stored abnormality occurrence time or the untransmitted abnormality occurrence time.
[0065]
As described above, if the abnormality detection information stored in the input device 1 is transmitted in response to the polling from the control device 2, it is possible to prevent the abnormality detection information from being transmitted from a plurality of input devices 1 at the same time. This has the effect of preventing communication failures due to radio signal interference.
[0066]
Further, in this case, if there is no response from the input device 1 to the polling from the control device 2 within a predetermined time (for example, 5 seconds), the control device 2 causes some abnormality or failure in the input device 1. Then, a sound, light, display, or the like for notifying the user is performed to notify the user of the abnormality, and the system can be quickly restored.
[0067]
Furthermore, the abnormality detection information may be voluntarily transmitted from the input device 1, and the control device 2 may perform polling for monitoring the operation state of the input device 1. In this case, it is desirable that the control device 2 has different notification modes so that it can distinguish between a case where the abnormality detection information is received and a case where a response to polling is not obtained. For example, it is conceivable to change the notification sound or the alarm pattern.
[0068]
As described above, by adopting different abnormality notification modes, the user can easily grasp whether an abnormality has been detected in the input device 1 or whether there is a failure in the input device 1, and respond quickly according to that. There are effects that can be.
[0069]
In addition, an alarm output unit is provided in the input device 1, and when the abnormality detection information cannot be transmitted to the control device 2 (a transmission error has occurred), the input device 1 outputs a sound, light, display, or the like to notify the user of the error. It is also possible to notify the user of the abnormality and promptly restore the system.
[0070]
【The invention's effect】
According to the present invention, the input device and the control device can be connected to each other by two-way wireless communication, and when the control device normally receives the abnormality detection information from the input device, it indicates that the information has been received. A control device that sends a response to the input device of the transmission source.If the input device does not receive a reception response within a certain time after transmitting the error detection information to the control device, it sends the error detection information again. Since the security system is an input device that performs an error, even if the abnormality detection information from the input device is not normally transmitted to the control device due to a communication failure or the like, it is possible to improve the possibility of normal transmission by resending the information. There is an effect that can be.
[0071]
Further, according to the present invention, in the above security system, if the input device does not receive a reception response from the control device even after transmitting the abnormality detection information again, the abnormality detection information is stored as a transmission error. Is an input device that, when receiving an inquiry about abnormality detection information from the control device, transmits the abnormality detection information stored as a transmission error to the control device. When a return from any failure is detected, or when a return from any failure is detected on the control device side because the security system is a control device that sends an inquiry of abnormality detection information to the input device on a regular basis Alternatively, the control device may periodically send an inquiry about abnormality detection information, and cause the input device to transmit abnormality detection information that could not be normally received. It can be an effect that can be reliably transmitted to the controller abnormality detection information.
[0072]
Further, according to the present invention, in the above security system, the control device sets one of a plurality of monitoring modes for setting or canceling a monitoring time zone on the input device according to an input from a user. When a command is transmitted and the input device receives the mode setting command, a security system that internally sets one of the monitoring modes according to the command and controls power supply to the sensor unit according to the set monitoring mode. Therefore, it is possible to perform monitoring by turning on the power of the sensor unit only when monitoring is necessary, and to turn off the power of the sensor unit when monitoring is not necessary. In this case, the power consumption can be significantly reduced as compared with the case where only the alarm output is turned on / off.
[Brief description of the drawings]
FIG. 1 is a schematic configuration block diagram of a security system according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram showing information stored in a storage unit 15 of the input device 1.
FIG. 3 is a flowchart illustrating a process in a control unit 12 of the input device 1 of the present system.
FIG. 4 is a flowchart illustrating a process of the control unit 12 of the input device 1 when an inquiry about abnormality detection information is made.
FIG. 5 is a flowchart illustrating a process of the control unit 12 regarding control of power supply to the sensor unit 11;
FIG. 6 is a flowchart illustrating control of power supply in the input device 1 when there are five types of monitoring modes.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Input device, 2 ... Control device, 3 ... Security center, 11 ... Sensor part, 12 ... Control part, 13 ... Power supply part, 14 ... Wireless part, 15 ... Storage part, 21 ... Wireless part, 22 ... Control part, 23 operation unit, 24 speaker, 25 display unit, 26 storage unit, 27 communication unit

Claims (3)

A security system comprising a sensor unit, an input device that outputs abnormality detection information when an abnormality is detected by the sensor unit, and a control device that receives the abnormality detection information from the input device and outputs an alarm,
The input device and the control device can be connected by two-way wireless communication,
When the control device receives the abnormality detection information from the input device normally, the control device transmits a reception response indicating that the information has been received to the input device of the transmission source,
The security system, wherein the input device is an input device that transmits the abnormality detection information again if the reception response is not received within a predetermined time after transmitting the abnormality detection information to the control device. . If the input device does not receive a reception response from the control device even after transmitting the abnormality detection information again, the abnormality detection information is stored as a transmission error, and an inquiry about the abnormality detection information is received from the control device. When the input device is an input device for transmitting the abnormality detection information stored as the transmission error to the control device,
The control device is a control device that sends an inquiry about the abnormality detection information to the input device when the control device detects a recovery from a communication failure, a device failure, or a power failure, or periodically. The security system according to claim 1, wherein The control device is a control device that transmits a mode setting instruction to set one of a plurality of monitoring modes for setting or canceling a monitoring time zone to the input device according to an input from a user,
When the input device receives the mode setting instruction, the input device sets a monitoring mode internally according to the instruction and controls the power supply to the sensor unit according to the set monitoring mode. The security system according to claim 1 or 2, wherein

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