JP2006177026A - Monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a monitoring system which can cope with various modes thereof depending on the circumstances. <P>SOLUTION: The monitoring system 1 is formed of a sensor device 2, a door sensor device 3, and a monitoring device 4. The sensor device 2 monitors the locking/unlocking state of a window. The door sensor device 3 detects the state of an entrance door. The monitoring device 4 performs notification of the locking/unlocking states of the monitoring objects detected by the sensor device 2 and the door sensor device 3, respectively. The monitoring device 4 is comprised of a microcomputer 43 which can change the monitoring device 4 from a security mode to an at-home mode when the state of the monitoring object is detected by the sensor device 2 or the door sensor device 3 in a predetermined mode. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a monitoring system that monitors the state of a monitoring target.

  Patent Document 1 discloses a monitor system (locking / unlocking state monitoring device) for monitoring the locking / unlocking state of a house window. The monitor system includes a sensor device (child device) and a monitor device (parent device). The sensor device detects a locked / unlocked state of the window. Then, the sensor device receives an ID code signal including an ID code individually set for each sensor device and a status code (locked status code or unlocked status code) indicating a locked / unlocked state of the window monitored by the sensor device. Send to the outside.

  On the other hand, when the monitor device receives the ID code signal transmitted from the sensor device, the monitor device identifies the sensor device from the ID code included in the ID code signal. The monitor device recognizes the locked / unlocked state of the window monitored by the identified sensor device from the status code also included in the ID code signal. The monitor device visually notifies whether the window is in a locked state or an unlocked state. As a result, a house resident with the monitor system installed can accurately grasp the locked / unlocked state of the window only by looking at the contents of the notification from the monitor device.

Here, the monitor device has a home mode and a warning mode. In the home mode, visual notification of the unlocked / unlocked state of the window is mainly performed, and the buzzer sounds for a short time when the window is unlocked. On the other hand, in the alert mode, the buzzer sounds for a long time when the window is unlocked.
JP 2002-115429 A

  By the way, if not only the window but also the locked / unlocked state of the door can be notified by the monitor device, it is convenient that centralized management using the monitor system can be realized. However, the window is not for the housekeeper to go in and out when going out and going home, but the door is for the housekeeper to go in and out when going out and go home. For this reason, the buzzer of the monitor device will be sounded for a long time when the monitor device is set in the alert mode and the door is unlocked when returning home. Therefore, even in such a case, the buzzer of the monitor device should not be sounded for a long time only when the PIN code is input within a period from when the door is unlocked until a predetermined time elapses. Can be considered. This is realized by releasing the alert mode of the monitor device and shifting the monitor device from the alert mode to the home mode when the code is input within the period.

  However, in order to input a personal identification code, it goes without saying that a personal identification code input switch is essential. As a result, the cost of the monitor system increases. Therefore, it is preferable that the monitoring mode of the monitor device can be canceled without inputting a personal identification code. Of course, it is more preferable if a high security level and excellent convenience can be obtained.

  The present invention has been made paying attention to such problems, and an object thereof is to provide a monitor system capable of flexibly dealing with the problem.

  In order to achieve the above object, according to the first aspect of the present invention, a monitor including a sensor device that detects a state of a monitoring target and a monitoring device that notifies the state of the monitoring target detected by the sensor device. In the system, the monitoring device is configured to perform the first mode from the first mode in which the state of the monitoring target is notified in the first mode when the state of the monitoring target is detected by the sensor device in a predetermined mode. Control means for shifting the monitor device to the second mode for notifying the state of the monitoring target in a second mode different from the above is provided.

  According to a second aspect of the present invention, in the monitoring system according to the first aspect, the monitoring unit includes a notifying unit that issues an alarm, and the first mode is a state in which the state of the monitoring target should issue an alarm. In some cases, the second mode is a mode in which the state of the monitoring target is issued without an alarm even when the state of the monitoring target is a state in which an alarm should be issued. It is a mode for informing, the control means, after the state of the monitoring target becomes a state to issue an alarm during the first mode, the state of the monitoring target is not detected by the sensor device in the predetermined mode, When a predetermined predetermined grace period elapses, an alarm is issued through a notification means.

  According to a third aspect of the present invention, in the monitor system according to the first or second aspect, each of the first and second states, which are two states different from each other, are the sensor devices. As the predetermined mode, the control unit detects the switching from the first state to the second state of the monitoring target by the sensor device for a predetermined number of times. The monitor device is shifted from the first mode to the second mode.

  According to a fourth aspect of the present invention, in the monitor system according to the second aspect, the sensor device selectively selects each of a first state and a second state, which are two different states, as states to be monitored. The control means is detected by the sensor device within a period until a predetermined time elapses after the state to be monitored becomes a state where an alarm should be issued during the first mode. In addition, the monitor device is shifted from the first mode to the second mode only when the number of times of switching from the first state to the second state to be monitored is a predetermined number of times. To do.

  According to a fifth aspect of the present invention, in the monitor system according to any one of the first to fourth aspects, the sensor device is configured to detect a plurality of states of a plurality of different monitoring targets. The control means includes, as the predetermined mode, when the state of the monitoring target is detected by each of the sensor devices in accordance with a predetermined sequence, the monitor device changes from the first mode to the second mode. It is characterized by shifting to.

  According to a sixth aspect of the present invention, in the monitoring system according to the fifth aspect, each time the state of the monitoring target is detected by each of the sensor devices according to the predetermined order, A new grace period that is allowed until a state to be detected is detected is set in advance, and the control means should be detected within the grace period within each grace period. When the state is detected, the monitor device is shifted from the first mode to the second mode.

The “action” of the present invention will be described below.
According to the first aspect of the present invention, when the state of the monitoring target is detected by the sensor device in a predetermined manner, the monitor device is shifted from the first mode to the second mode. That is, it is possible to cancel the first mode of the monitor device without inputting a password. Here, if the predetermined mode for canceling the first mode is complicated, a high security level can be obtained. On the other hand, if the predetermined mode is simple, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate aspect according to the security level and convenience required for the monitor system as desired.

  According to the second aspect of the present invention, the state of the monitoring target is not detected by the sensor device in a predetermined manner after the state of the monitoring target is in a state where an alarm should be issued during the first mode. When the grace period expires, an alarm is issued. Here, if the grace period is set to a short period, a high security level can be obtained. On the other hand, if the grace period is set to a long period, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate grace period according to the security level and convenience required for the monitor system as desired. Therefore, it can cope flexibly.

  According to the third aspect of the present invention, when “switching” is detected for a predetermined number of times, the monitor device is shifted from the first mode to the second mode. Here, if it is difficult to analyze the predetermined number of times for canceling the first mode, a high security level can be obtained. On the other hand, if the predetermined number of times is easy to analyze, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate number of times according to the security level and convenience required for the monitor system as desired. Therefore, it can cope flexibly.

  According to the fourth aspect of the present invention, not only when “switching” is detected less than a predetermined number of times within the period, but also when “switching” is detected exceeding the predetermined number of times within the period. In addition, the first mode of the monitor device is maintained. Accordingly, the security level can be improved.

  According to the fifth aspect of the present invention, when the state of the monitoring target is detected by each of the plurality of sensor devices according to a predetermined order, the monitoring device is shifted from the first mode to the second mode. Here, if it is difficult to analyze the predetermined order for canceling the first mode, a high security level can be obtained. On the other hand, if the predetermined order is easy to analyze, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate order according to the security level required for the monitor system and convenience. Therefore, it can cope flexibly.

  According to the invention described in claim 6, when at least one of the plurality of states to be detected according to the predetermined order is not detected within a grace period in which the state is to be detected, the first mode of the monitoring device Is maintained. Accordingly, the security level can be improved.

Since this invention is comprised as mentioned above, there exist the following effects.
According to the invention described in any one of claims 1 to 6, it is possible to cope flexibly.

Hereinafter, an embodiment in which the present invention is embodied in a residential monitor system will be described.
As shown in FIG. 1, the monitor system 1 includes a sensor device 2, a door sensor device 3, and a monitor device 4. The sensor device 2 is for detecting the locked / unlocked state of the window (monitoring target). The door sensor device 3 is for detecting the locked / unlocked state of the door (monitoring target). In short, the sensor device 2 and the door sensor device 3 can selectively detect each of two different states, ie, a first state (locked state) and a second state (unlocked state) as states to be monitored. . In particular, the sensor device (a superordinate concept including the sensor device 2 and the door sensor device 3) includes a plurality of sensor devices in order to detect the states of a plurality of different monitoring targets. The monitor device 4 is for notifying the monitored / unlocked state detected by the sensor device 2 or the door sensor device 3. The monitor system 1 can perform unidirectional communication between the sensor device 2 (transmission side), the door sensor device 3 (transmission side), and the monitor device 4 (reception side).

  In the monitor system 1 of the present embodiment, sensor devices 2 </ b> A to 2 </ b> D exist as the sensor device 2. The sensor device 2A is for detecting the locking / unlocking state of the window A on the first floor of the house. The sensor device 2B is for detecting the locking / unlocking state of the window B on the first floor of the house. The sensor device 2C is for detecting the locking / unlocking state of the window C on the second floor of the house. The sensor device 2D is for detecting the locking / unlocking state of the window D on the second floor of the house. On the other hand, the door sensor device 3 is for detecting the locking / unlocking state of the front door E on the first floor of the house. Therefore, the monitor system 1 of the present embodiment can perform unidirectional communication between each of the sensor devices 2A to 2D (transmission side), the door sensor device 3 (transmission side), and the monitor device 4 (reception side).

  In addition, each structure of sensor apparatus 2A-2D is mutually the same. Therefore, the description of the common features of the sensor devices 2A to 2D is substituted for the description of the sensor device 2 except for the description of the characteristic points of the sensor devices 2A to 2D.

  The sensor device 2 has a transmission function. The sensor device 2 includes a reed switch 21, a microcomputer 22, a transmission circuit 23, and a transmission antenna 24. The reed switch 21 is for detecting the locked / unlocked state of the window. The reed switch 21 is turned on when the window is in a locked state (locked state), and outputs a detection signal indicating that the window is in a locked state to the microcomputer 22. On the other hand, the reed switch 21 is turned OFF when the window is in the unlocked state (unlocked state), and outputs a detection signal indicating that the window is in the unlocked state to the microcomputer 22.

  Incidentally, the reed switch 21 is a magnetic sensor capable of detecting a magnet built in the operated means operated to lock and unlock the window. That is, the reed switch 21 is turned on when the operated means is operated and the magnet is brought close to the reed switch 21 when the window is locked. On the other hand, the reed switch 21 is turned off when the operated means is operated and the magnet moves away from the reed switch 21 when the window is unlocked.

  The microcomputer 22 is a CPU unit including a CPU, a ROM, a RAM, and the like (not shown). The microcomputer 22 includes a nonvolatile memory 22a. The memory 22a stores an ID code (ID code of the sensor device 2) set individually for each sensor device 2. Here, the first ID code is stored in the memory 22a of the sensor device 2A. A second ID code is stored in the memory 22a of the sensor device 2B. A third ID code is stored in the memory 22a of the sensor device 2C. The fourth ID code is stored in the memory 22a of the sensor device 2D.

  When the detection signal is input from the reed switch 21, the microcomputer 22 transmits an ID code signal including the ID code of the sensor device 2 and the status code indicating the locked / unlocked state of the window detected by the sensor device 2. To 23. That is, the microcomputer 22 includes the ID code of the sensor device 2 and the lock state code indicating that the window is locked when a detection signal indicating that the window is locked is input from the reed switch 21. The ID code signal is output to the transmission circuit 23. On the other hand, when the detection signal indicating that the window is in the unlocked state is input from the reed switch 21, the microcomputer 22 receives the ID code of the sensor device 2 and the unlocked state code indicating that the window is in the unlocked state. Are output to the transmission circuit 23.

  The transmission circuit 23 modulates the ID code signal input from the microcomputer 22 into a radio wave having a predetermined frequency (426 MHz in this embodiment). The transmission antenna 24 is a medium for transmitting the ID code signal modulated by the transmission circuit 23 to the outside. Incidentally, the ID code signal transmitted from the sensor device 2A is a first ID code signal including a first ID code. The ID code signal transmitted from the sensor device 2B is a second ID code signal including a second ID code. The ID code signal transmitted from the sensor device 2C is a third ID code signal including a third ID code. The ID code signal transmitted from the sensor device 2D is a fourth ID code signal including a fourth ID code.

  The door sensor device 3 has a transmission function. The door sensor device 3 includes a reed switch 31, a microcomputer 32, a transmission circuit 33, and a transmission antenna 34. The reed switch 31 is for detecting the locking / unlocking state of the door. The reed switch 31 is turned on when the door is in a locked state (locked state), and outputs a detection signal indicating that the door is in a locked state to the microcomputer 32. On the other hand, the reed switch 31 is turned off when the door is unlocked (unlocked), and outputs a detection signal to the microcomputer 32 indicating that the door is unlocked.

  Incidentally, the reed switch 31 is a magnetic sensor capable of detecting a magnet built in the operated means operated to lock and unlock the door. That is, the reed switch 31 is turned on when the operated means is operated and the magnet is brought close to the reed switch 31 when the door is locked. On the other hand, the reed switch 31 is turned off when the operated means is operated and the magnet is moved away from the reed switch 31 when the door is unlocked.

  The microcomputer 32 is a CPU unit including a CPU, a ROM, a RAM, and the like (not shown). The microcomputer 32 includes a nonvolatile memory 32a. In the memory 32a, an ID code (ID code of the door sensor device 3) set individually for each door sensor device 3 is stored. Here, the memory 32a stores the fifth ID code.

  When the detection signal is input from the reed switch 31, the microcomputer 32 transmits an ID code signal including an ID code of the door sensor device 3 and a state code indicating a door unlocking / unlocking state detected by the door sensor device 3. To 33. That is, the microcomputer 32 includes the ID code of the door sensor device 3 and the lock state code indicating that the door is locked when a detection signal indicating that the door is locked is input from the reed switch 31. The ID code signal is output to the transmission circuit 33. On the other hand, when the detection signal indicating that the door is unlocked is input from the reed switch 31, the microcomputer 32 and the ID code of the door sensor device 3 and the unlocking status code indicating that the door is unlocked. An ID code signal including the above is output to the transmission circuit 33.

  The transmission circuit 33 modulates the ID code signal input from the microcomputer 32 into a radio wave having a predetermined frequency (426 MHz in this embodiment). The transmission antenna 34 is a medium for transmitting the ID code signal modulated by the transmission circuit 33 to the outside. Incidentally, the ID code signal transmitted from the door sensor device 3 is a fifth ID code signal including a fifth ID code.

  The monitor device 4 has a reception function. The monitor device 4 includes a reception antenna 41, a reception circuit 42, a microcomputer 43, a display unit 44, a buzzer 45, and a mode transition switch 46. The receiving antenna 41 is a medium for receiving an ID code signal transmitted from the sensor device 2 or the door sensor device 3. When an ID code signal is received by the receiving antenna 41, the receiving circuit 42 demodulates the ID code signal to generate a received signal, and outputs the received signal to the microcomputer 43.

  The microcomputer 43 is a CPU unit including a CPU, a ROM, a RAM, a timer, etc. (not shown). The microcomputer 43 includes a nonvolatile memory 43a. In the memory 43a, the same ID code (ID code on the house side) as the ID code of the sensor device 2 or the door sensor device 3 is stored. In the present embodiment, the memory 43a includes the first ID code of the sensor device 2A, the second ID code of the sensor device 2B, the third ID code of the sensor device 2C, the fourth ID code of the sensor device 2D, and the fifth ID code of the door sensor device 3. The same ID code (first ID code to fifth ID code on the house side) is stored.

  In particular, as shown in FIG. 2, each ID code on the house side is stored in the memory 43 a in association with each of LEDs 44 a to 44 e of the display unit 44 described later. Incidentally, the first ID code is associated with the LED 44a. The second ID code is associated with the LED 44b. The third ID code is associated with the LED 44c. The fourth ID code is associated with the LED 44d. The fifth ID code is associated with the LED 44e.

  When the reception signal is input from the reception circuit 42, the microcomputer 43 determines whether the ID code included in the reception signal matches any of the ID codes on the house side. That is, in this case, the microcomputer 43 executes ID code verification. When both ID codes match, the microcomputer 43 outputs a light emission command signal to the LED (any one of the LEDs 44a to 44e) associated with the matched ID code (any one of the first ID code to the fifth ID code). . Further, the microcomputer 43 includes an ID code that is the same as any of the ID codes on the house side in the received signal input from the receiving circuit 42, and an unlocked state code is included in the received signal. The ringing command signal is output to the buzzer 45.

  The display unit 44 includes LEDs 44a to 44e. Each of the LEDs 44 a to 44 e emits light when a light emission command signal is input from the microcomputer 43. Each of the LEDs 44a to 44e is a two-color LED. That is, each of the LEDs 44a to 44e emits green light, and also emits red light. The buzzer 45 rings when a ringing command signal is input from the microcomputer 43. In other words, the buzzer 45 issues a warning by sounding for a long time when a sounding command signal is input from the microcomputer 43 for a long time.

Incidentally, the monitor device 4 has a home mode and a warning mode. Hereinafter, the alerting | reporting aspect of the locking / unlocking state of a monitoring object is demonstrated for every mode.
As shown in FIG. 3, in the display unit 44, a position corresponding to each of the LEDs 44 a to 44 e is given a notation indicating a monitoring target. Incidentally, the notation “first floor window A” is given at the position corresponding to the LED 44a. The position corresponding to the LED 44b is labeled “first floor window B”. The position corresponding to the LED 44c is labeled “second floor window C”. At the position corresponding to the LED 44d, the notation "second floor window D" is given. At the position corresponding to the LED 44e, “entrance door E” is marked.

  When the window A on the first floor is in the locked state in the home mode, the LED 44a is lit in green. Similarly, when the window B (window C, window D) and the entrance door E are locked in the home mode, the LED 44b (44c, 44d) and the LED 44e are lit in green.

  On the other hand, when the window A on the first floor is unlocked in the home mode, the LED 44a is lit red. Similarly, when the window B (window C, window D) and the entrance door E are in the unlocked state in the home mode, the LED 44b (44c, 44d) and the LED 44e are lit red. In particular, when at least one of the windows A to D and the entrance door E is switched from the locked state to the unlocked state in the home mode, the buzzer 45 is sounded for a short time. In short, the home mode is a mode in which the state of the monitoring target is notified without issuing an alarm even when the state of the monitoring target is a state where an alarm should be issued.

  On the other hand, when the first floor window A is in the locked state in the alert mode, the LED 44a is lit in green. Similarly, when the window B (window C, window D) and the entrance door E are in the locked state in the alert mode, the LED 44b (44c, 44d) and the LED 44e are lit in green.

  On the other hand, when the first floor window A is unlocked in the alert mode, the LED 44a blinks red. Similarly, when the window B (window C, window D) or the entrance door E is in the unlocked state in the alert mode, the LED 44b (44c, 44d) and the LED 44e blink red. In particular, when at least one of the windows A to D and the entrance door E is switched from the locked state to the unlocked state in the alert mode, the buzzer 45 is sounded for a long time. In short, the alert mode is a mode for notifying the state of the monitoring target by issuing an alarm when the state of the monitoring target is a state where an alarm should be issued.

  In addition, in order to alert | report the locking / unlocking state of the monitoring object in the home mode or the alert mode as described above, it is necessary to register the sensor device 2 and the door sensor device 3 in the monitor device 4 in advance. However, since the registration procedure is not the main part of the present invention, the description is omitted.

  Incidentally, the mode transition switch 46 shown in FIG. 1 is operated to shift the monitor device 4 from the home mode to the alert mode. When the mode shift switch 46 is operated during the home mode of the monitor device 4, the microcomputer 43 cancels the home mode of the monitor device 4 and shifts the monitor device 4 from the home mode to the alert mode.

Next, characteristic points of the monitor system 1 will be described.
Now, in the monitor system 1 of this embodiment, even when the entrance door E is unlocked when returning home after setting the monitor device 4 in the alert mode and going out, a predetermined time has passed since the entrance door E was unlocked. The buzzer 45 of the monitor device 4 is considered not to sound for a long time only when a predetermined operation to be described later is performed within a period until the time elapses.

  In order to realize this, the microcomputer 43 of the monitor device 4 is configured to receive the reception signal including a lock state code indicating that the front door E is locked from the reception circuit 42 in the alert mode. When the reception signal including the unlocked state code indicating that the front door E is in the unlocked state is input from 42, the ringing command signal is not immediately output to the buzzer 45. Then, after the reception signal including the unlocking state code indicating that the front door E is unlocked from the receiving circuit 42 as described above, the microcomputer 43 does not perform the predetermined operation for a predetermined time. When elapses, a ringing command signal is output to the buzzer 45. As a result, in such a case, the buzzer 45 is sounded for a long time.

  In other words, a predetermined time is given to the householder as a grace period for avoiding the buzzer 45 ringing for a long time. Therefore, the householder may perform the predetermined operation within the grace period. Here, in the present embodiment, the “predetermined operation” is to unlock the window A on the first floor of the house twice after unlocking the window B on the first floor of the house three times. Specifically, the locked window B is performed in the order of unlocking, locking, unlocking, locking, unlocking, and then the locked window A is performed in the order of unlocking, locking, unlocking.

  Incidentally, “predetermined operation” includes unlocking the window B three times, then locking the window B, and then unlocking the window A twice. In addition, “predetermined operation” includes unlocking the window B three times, then unlocking the window A twice, and then locking the window A. Of course, after unlocking the window B three times, locking the window B, then unlocking the window A twice, and then locking the window A is also “predetermined operation”. include. Conversely, unlocking window B three times after unlocking window A twice is not included in the “predetermined operation”. In short, in the present embodiment, the “predetermined operation” is performed so that the state of the monitoring target is detected by the sensor device 2 or the door sensor device 3 for a predetermined number of times according to a predetermined order. It is an operation to do.

  Therefore, when the “predetermined operation” is performed within the grace period, the microcomputer 43 cancels the alert mode of the monitor device 4 and shifts the monitor device 4 from the alert mode to the home mode. Needless to say, the microcomputer 43 determines whether or not a “predetermined operation” has been performed using the received signal input from the receiving circuit 42 as an index. In other words, the microcomputer 43 shifts the monitor device 4 from the alert mode to the home mode when the monitoring target state is detected by the sensor device 2 or the door sensor device 3 in a predetermined manner. Specifically, as the predetermined mode, the microcomputer 43 performs a predetermined number of times that the sensor device 2 or the door sensor device 3 switches from the monitored locked state to the unlocked state in accordance with a predetermined order. When it is detected over the period, the monitor device 4 is shifted from the alert mode to the home mode.

  By the way, the monitor system 1 of the present embodiment includes a plurality of (two in the present embodiment) alert modes as alert modes of the monitor device 4. That is, in the present embodiment, there are a home warning mode and a going-out warning mode as the warning mode of the monitor device 4. The at-home alert mode is an alert mode that is set on the premise that the at-home alert mode is set while the home is at home. On the other hand, the outing warning mode is a warning mode on the premise that it is set with the going out of the householder. The mode transition control by the microcomputer 43 of the monitor device 4 will be described below with reference to the state transition diagram shown in FIG.

When the mode shift switch 46 is operated during the home mode, the microcomputer 43 cancels the home mode and shifts the monitor device 4 from the home mode to the home alert mode.
When at least one of the windows A to D and the front door E is switched from the locked state to the unlocked state during the home security mode, the “predetermined operation” is not performed and a predetermined time (grace period) has elapsed. The buzzer 45 is sounded for a long time. That is, the microcomputer 43 does not detect the state of the monitoring target by the sensor device 2 or the door sensor device 3 in the predetermined mode after the state of the monitoring target becomes a state in which a warning should be issued during the home warning mode. When a predetermined grace period elapses, an alarm is issued via the buzzer 45. Incidentally, when the mode transition switch 46 is operated in such a state that the buzzer 45 is ringing in the home security mode, the ringing of the buzzer 45 is stopped.

  When the “predetermined operation” is performed during the home security mode, the microcomputer 43 cancels the home security mode and shifts the monitor device 4 from the home security mode to the home mode. For example, the microcomputer 43 sets the “predetermined period” until a predetermined time (grace period) elapses after at least one of the windows A to D and the entrance door E is switched from the locked state to the unlocked state during the home security mode. When the “operation” is performed, the home security mode is canceled and the monitor device 4 is shifted from the home security mode to the home mode.

When the mode shift switch 46 is operated during the home warning mode, the microcomputer 43 cancels the home warning mode and shifts the monitor device 4 from the home warning mode to the outing warning mode.
After at least one of the windows A to D and the entrance door E is switched from the locked state to the unlocked state during the outing warning mode, when a predetermined time (grace period) has elapsed without performing a “predetermined operation”, The buzzer 45 is sounded for a long time. That is, the microcomputer 43 does not detect the state of the monitoring target by the sensor device 2 or the door sensor device 3 in the predetermined mode after the state of the monitoring target is in a state where an alarm should be issued during the outing warning mode. When a predetermined grace period elapses, an alarm is issued via the buzzer 45. Incidentally, even when the mode transition switch 46 is operated in such a state that the buzzer 45 is sounded in the outing warning mode, the sound of the buzzer 45 is not stopped. However, when the “predetermined operation” is performed in such a state, the buzzer 45 is stopped.

  When the “predetermined operation” is performed during the outing warning mode, the microcomputer 43 cancels the outing warning mode and shifts the monitor device 4 from the outing warning mode to the home mode. For example, the microcomputer 43 sets the “predetermined period” until a predetermined time (grace period) elapses after at least one of the windows A to D and the entrance door E is switched from the locked state to the unlocked state during the outing warning mode. When the operation is performed, the outing warning mode is canceled and the monitor device 4 is shifted from the outing warning mode to the home mode.

As described above, according to the present embodiment, the following operations and effects can be obtained.
(1) When the state of the monitoring target is detected by the sensor device 2 or the door sensor device 3 in a predetermined manner determined in advance, the monitor device 4 is switched from the alert mode (the upper concept including the home alert mode and the outing alert mode) Switch to home mode. That is, it is possible to cancel the alert mode of the monitor device 4 without inputting a password. Here, if the predetermined mode for canceling the alert mode is complicated, a high security level can be obtained. On the other hand, if the predetermined mode is simple, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate mode according to the security level and convenience required for the monitor system 1 as desired. Therefore, it can cope flexibly.

  (2) After the state of the monitoring target becomes a state where an alarm should be issued during the warning mode, the predetermined grace period is not detected by the sensor device 2 or the door sensor device 3 in a predetermined manner. When it has elapsed, an alarm is issued. Here, if the grace period is set to a short period, a high security level can be obtained. On the other hand, if the grace period is set to a long period, excellent convenience can be obtained. In short, it is possible to arbitrarily set a suitable grace period according to the security level and convenience required for the monitor system 1 as desired. Therefore, it can cope flexibly.

  (3) When “switching” is detected over a predetermined number of times, the monitor device 4 is shifted from the alert mode to the home mode. Here, if it is difficult to analyze the predetermined number of times for canceling the alert mode, a high security level can be obtained. On the other hand, if the predetermined number of times is easy to analyze, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate number of times according to the security level and convenience required for the monitor system 1 as desired. Accordingly, it is possible to deal flexibly.

  (4) When the state of the monitoring target is detected by the sensor device 2 or the door sensor device 3 according to a predetermined order, the monitor device 4 is shifted from the alert mode to the home mode. Here, if it is difficult to analyze the predetermined order for canceling the warning mode, a high security level can be obtained. On the other hand, if the predetermined order is easy to analyze, excellent convenience can be obtained. In short, it is possible to arbitrarily set an appropriate order according to the security level and convenience required for the monitor system 1 as desired. Therefore, it can cope flexibly.

  (5) When the switching from the locked state to the unlocked state to be monitored is detected a predetermined number of times by the sensor device 2 or the door sensor device 3 in accordance with a predetermined order determined in advance. 4 shifts from the alert mode to the home mode. In short, by adopting a predetermined mode in which a predetermined order and a predetermined number of times are combined, a synergistic effect between the operation and effect described in (3) above and the operation and effect described in (4) above is greatly increased. Demonstrated.

  (6) It is possible to cancel the alert mode of the monitor device 4 without inputting a password. For this reason, the switch for inputting the personal identification code can be omitted. Therefore, the cost of the monitor system 1 can be reduced. Of course, the monitor device 4 can be reduced in size and weight. In addition, suitable design properties can be brought out.

(7) Needless to say, the monitoring mode of the monitor device 4 can be canceled without going to the monitor device 4, so that it is simple.
In addition, the said embodiment can also be changed and actualized as follows.

  A configuration may be adopted in which a “predetermined period” having a different purpose from a predetermined “predetermined grace period” is predetermined. In this case, the microcomputer 43 counts the time over a period until a predetermined “predetermined time” elapses after the state of the monitoring target becomes a state where a warning should be issued during the warning mode. In addition, the microcomputer 43 counts the number of times of switching from the monitored locked state to the unlocked state detected by the sensor device 2 or the door sensor device 3 within the period. Then, the microcomputer 43 shifts the monitor device 4 from the warning mode to the home mode only when the counted number is a predetermined number.

  With this configuration, not only when “switching” is detected less than a predetermined number of times within the period, but also when “switching” is detected exceeding the predetermined number of times within the period, The alert mode of the device 4 is maintained. Accordingly, the security level can be improved.

  Every time a state to be monitored is detected by the sensor device 2 or the door sensor device 3 in accordance with the predetermined order, a new one that is allowed after the state is detected and until the next state to be detected is detected A configuration in which a grace period is set in advance may be adopted. In this case, the microcomputer 43 shifts the monitor device 4 from the alert mode to the home mode when a state to be detected within the grace period is detected within each grace period. With this configuration, when at least one of the plurality of states to be detected according to the predetermined order is not detected within the grace period in which the state is to be detected, the alert mode of the monitor device 4 is maintained. The Accordingly, the security level can be improved.

  The “predetermined mode” required for shifting the monitor device 4 from the home warning mode to the home mode and the “predetermined mode” required for shifting the monitor device 4 from the out-of-home warning mode to the home mode are mutually Either the same configuration or different configurations may be adopted.

The block diagram which shows the structure of a monitor system. The conceptual diagram which shows the memory content of the memory of a monitor apparatus. Schematic which shows the display part of a monitor apparatus. The state transition diagram for demonstrating the mode transition control by the microcomputer of a monitor apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Monitor system, 2 (2A-2D) ... Sensor apparatus, 3 ... Door sensor apparatus (sensor apparatus), 4 ... Monitor apparatus, 43 ... Microcomputer (control means), 45 ... Buzzer (notification means), AD ... Window (Monitoring target), E ... entrance door (monitoring target).

Claims (6)

In a monitor system including a sensor device that detects a state of a monitoring target and a monitor device that notifies the state of the monitoring target detected by the sensor device,
The monitoring device is different from the first mode from the first mode in which the state of the monitoring target is notified in the first mode when the state of the monitoring target is detected by the sensor device in a predetermined mode. A monitor system comprising control means for shifting the monitor device to a second mode for notifying the state of the monitoring target in the second mode. The monitor system according to claim 1,
The monitor means includes a notification means for issuing an alarm,
The first mode is a mode for notifying the state of the monitoring target by issuing an alarm when the state of the monitoring target is a state to issue an alarm,
The second mode is a mode for informing the state of the monitoring target without issuing an alarm even when the state of the monitoring target is a state to issue an alarm.
The control means is configured so that the state of the monitoring target is not detected by the sensor device in the predetermined mode after the state of the monitoring target becomes a state where an alarm should be issued during the first mode. A monitor system characterized by issuing an alarm via a notification means when a grace period elapses. In the monitor system according to claim 1 or 2,
The sensor device is capable of selectively detecting each of a first state and a second state, which are two states different from each other, as a state to be monitored.
As the predetermined mode, the control means causes the monitor device to switch from the first mode when the sensor device detects a change from the first state to the second state to be monitored over a predetermined number of times. A monitor system, wherein the monitor mode is shifted to the second mode. The monitor system according to claim 2,
The sensor device is capable of selectively detecting each of a first state and a second state, which are two states different from each other, as a state to be monitored.
The control means is configured to detect the monitoring target detected by the sensor device within a period until a predetermined time elapses after the monitoring target is in a state where an alarm should be issued during the first mode. A monitor system, wherein the monitor device is shifted from the first mode to the second mode only when the number of times of switching from the first state to the second state is a predetermined number of times. In the monitor system according to any one of claims 1 to 4,
The sensor device includes a plurality of sensor devices to detect states of a plurality of different monitoring targets,
As the predetermined mode, the control means is configured to shift the monitor device from the first mode to the second mode when the state of the monitoring target is detected by each of the sensor devices according to a predetermined order. A characteristic monitor system. The monitor system according to claim 5, wherein
Each time a state of the monitoring target is detected by each of the sensor devices according to the predetermined order, a new grace period that is allowed after the state is detected until the next state to be detected is detected Is preset,
The control means shifts the monitor device from the first mode to the second mode when a state to be detected within the grace period is detected within each grace period. system.

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