JP2006018679A - Security system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a security system capable of improving a security level while suppressing a construction cost. <P>SOLUTION: The security system comprises sensor devices 20 and 30 transmitting ID signals showing lock/unlock state of windows and monitor devices 40, 50 and 60 having a monitoring mode of communicating with these devices to monitor the lock/unlock state of windows and a warning mode of giving an alarm in case that a window is unlocked in addition to monitoring. Each of the monitor devices 40, 50 and 60 includes a mode change-over switch and a monitor-side microcomputer. The monitor-side microcomputer relays and outputs, on receipt of ID signal, this ID signal in addition to the monitoring of lock/unlock state according to this ID signal. When the mode change-over switch is operated, the monitor-side microcomputer performs switching to either the monitoring mode or the warning mode, and transmits a mode change-over signal showing this effect. When the mode switching signal is received, the monitor-side microcomputer sets the monitoring mode or the warning mode based on the mode change-over signal. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a building security system.

Conventionally, as this type of security system, for example, a “locking / unlocking state monitoring device for building locking device” disclosed in Patent Document 1 has been proposed. The locked / unlocked state monitoring device is composed of a sensor device disposed in a building window and a monitor device capable of communicating with the sensor device. The sensor device detects a locked / unlocked state of the crescent lock of the window and transmits a state signal indicating the locked / unlocked state. The monitor device that has received the status signal monitors the locked / unlocked state of the window based on the status signal. The sensor device has a warning mode that issues an alarm when the crescent lock is unlocked, in addition to the monitoring mode that only monitors the unlocked state of the crescent lock. Therefore, the user (household) can suppress illegal intrusion into the building by switching the locking / unlocking state monitoring device to the warning mode at night or when going out.
JP 2002-115429 A

  By the way, when the inside of the building is large or the building has a structure that easily absorbs radio waves, depending on the location where the sensor device and the monitor device are arranged, the status signal from the sensor device can be satisfactorily received by the monitor device. You may not be able to receive. In such a case, it becomes difficult for the monitor device to accurately grasp all the locked and unlocked states of each of the plurality of crescent locks to be monitored. Therefore, in the conventional security system, the above-mentioned problem is addressed by disposing a special monitor device with improved reception performance at a location where the status signal may not be received satisfactorily. In this way, the status signal from the sensor device can be reliably received by the monitor device, but on the other hand, there is a new problem that the construction cost of the security system increases. In recent years, there is a further demand for a security system with a high security level.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a security system capable of improving the security level while suppressing the construction cost.

  In order to solve the above-described problem, in the invention according to claim 1, a sensor device that detects an open / close state or a locked / unlocked state of an opening / closing body of a building and transmits a state signal indicating the open / closed state or the locked / unlocked state. And a monitoring mode for monitoring the open / closed state or unlocked state of the opening / closing body by communicating with the sensor device, and when the opening / closing body is opened together with the monitoring or when the opening / closing body is unlocked A monitoring device having a warning mode that issues a warning to the monitoring device, wherein the monitoring device is operated to switch to the monitoring mode or the warning mode, and when receiving the status signal Monitors the open / closed state or the unlocked state according to the state signal and relays and outputs the state signal. When the operating means is operated, the monitoring mode is Control to switch between the monitoring mode and the warning mode based on the mode switching signal when the mode switching signal is received and the mode switching signal is transmitted. And a means.

  According to a second aspect of the present invention, in the security system according to the first aspect, when the monitor device receives a plurality of the status signals transmitted from the sensor device at the same time through different paths, the monitor device first receives the status signal. The gist is to monitor the open / closed state or the unlocked / unlocked state of the opening / closing body based only on the state signal.

The operation of the present invention will be described below.
According to the first aspect of the present invention, the monitor device relays and transmits the status signal transmitted from the sensor device. Therefore, even when the monitor device cannot directly receive the status signal transmitted from the sensor device, the monitor device can indirectly receive the status signal from the sensor device via another monitor device. Therefore, each monitor device is arranged in an area where the status signal transmitted from the other monitor device can be received, so that the opening / closing body can be used regardless of whether or not the status signal can be directly received from each sensor device. It is possible to monitor the open / close state or the unlocked / unlocked state. Therefore, according to the security system of the present invention, a special monitor device is not required, and the construction cost of the security system can be suppressed.

  Furthermore, when the monitor device receives a mode switching signal indicating the mode of the monitor device from another monitor device, the monitor device switches between the monitoring mode and the alert mode based on the mode switching signal. That is, when even one of the plurality of monitor devices is switched to the alert mode, the other monitor devices are also switched to the alert mode in conjunction with it. For this reason, when the sensor device detects when the opening / closing body is opened or unlocked in the alert mode, all of the plurality of monitor devices issue an alarm. Therefore, according to the security system of the present invention, the security level of the building can be improved without requiring a complicated operation of operating the operation means and switching all monitor devices to the warning mode.

  According to the second aspect of the present invention, when the monitor device directly receives the status signal transmitted from the sensor device at the same time and indirectly receives it through another monitor device, Based on only the state signal received first, the open / close state or the unlocked state of the open / close body is monitored. Therefore, according to the security system of the present invention, a change in the open / closed state or the unlocked / unlocked state of the opening / closing body can be recognized early.

  ADVANTAGE OF THE INVENTION According to this invention, the security system which can improve a security level can be provided, suppressing construction cost.

Hereinafter, an embodiment in which the present invention is embodied as a residential security system will be described in detail with reference to FIGS.
As shown in FIG. 1, the house 1 is composed of a plurality of rooms. In the present embodiment, the house 1 includes an entrance hall 2, a first bedroom 3, a children's room 4, and a second bedroom 5. The first bedroom 3 includes a window 10 as an opening / closing body, and a first sensor device 20 as a sensor device is disposed in the window 10. Similarly, the second bedroom 5 includes a window 11 as an opening / closing body, and a second sensor device 30 as a sensor device is disposed in the window 11. The window 10 and the window 11 are both sliding-type windows in this embodiment. The entrance hall 2 is provided with a first monitor device 40 as a monitor device, and the child room 4 is also provided with a second monitor device 50 as a monitor device. Furthermore, a third monitor device 60 as a monitor device is disposed in the second bedroom 5. The first monitor device 40 is disposed at a position sufficiently away from the second sensor device 30, that is, at a location where a radio signal from the second sensor device 30 cannot be directly received. Similarly, the third monitor device 60 is disposed at a position sufficiently away from the first sensor device 20, that is, at a location where a radio signal from the first sensor device 20 cannot be directly received. In the present embodiment, the security system 100 is configured by the sensor devices 20 and 30 and the monitor devices 40, 50 and 60. In the security system 100, the first monitor device 40 and the second monitor device 50 can directly communicate with each other. On the other hand, in the security system 100, the second monitor device 50 and the third monitor device 60 can directly communicate with each other. On the other hand, in the security system 100, the first monitor device 40 and the third monitor device 60 cannot communicate directly.

  In the security system 100 configured as described above, the first sensor device 20 transmits a first ID signal indicating a locked / unlocked state of a crescent lock (not shown) of the window 10, and the second sensor device 30 is not shown of the window 11. A second ID signal indicating the locked / unlocked state of the crescent lock is transmitted. The monitor devices 40, 50, 60 monitor the intrusion of the third party into the house 1 by monitoring the first ID signal and the second ID signal from the sensor devices 20, 30. Hereinafter, such a security system 100 will be described. The first sensor device 20 and the second sensor device 30 have the same configuration, and the first monitor device 40, the second monitor device 50, and the third monitor device 60 have the same configuration. Therefore, hereinafter, the first sensor device 20 and the first monitor device 40 will be described in detail, and detailed descriptions of the second sensor device 30 and the monitor devices 50 and 60 will be omitted.

  As shown in FIG. 2, the first sensor device 20 includes a battery 21, a sensor side microcomputer (sensor side microcomputer) 22, a sensor side transmission circuit 23, and a reed switch 24. The battery 21 supplies power to the sensor side microcomputer 22 and the sensor side transmission circuit 23. The sensor side transmission circuit 23 modulates and transmits the first ID signal input from the sensor side microcomputer 22.

  The reed switch 24 detects the locked / unlocked state of the crescent lock by a magnetic field of a magnet built in an operation knob of the crescent lock (not shown) of the window 10. The reed switch 24 is turned on when the crescent lock is locked, and is turned off when the crescent lock is unlocked.

  The sensor-side microcomputer 22 includes a CPU and a ROM (not shown). A first ID code unique to the first sensor device 20 is recorded in the ROM. The sensor-side microcomputer 22 monitors the on / off state of the reed switch 24. When the reed switch 24 changes from the on state to the off state, the first ID signal including the first ID code and the open code changes from the off state to the on state. In this case, the first ID signal including the first ID code and the closed code is output to the sensor side transmission circuit 23. The sensor-side microcomputer 22 detects the on / off state of the reed switch 24 every time a predetermined time elapses, and outputs a first ID signal including a closed code or an open code to the sensor-side transmission circuit 23.

  As shown in FIG. 1, the first monitor device 40 is installed in the vicinity of the entrance door 6 on the indoor side wall. As shown in FIG. 3, the first monitor device 40 includes a power supply circuit 41, a backup battery 42, a reception circuit 43a, a monitor-side transmission circuit 43b, a monitor-side microcomputer (monitor-side microcomputer) 44 as a control means, and an interface unit. 45.

  The power supply circuit 41 is connected to an AC 100V power source and a backup battery 42 which are household power sources. The power supply circuit 41 includes a step-down circuit (not shown), and steps down the input voltage of AC 100 V to supply power to the reception circuit 43 a, the monitor-side transmission circuit 43 b, and the monitor-side microcomputer 44. The power supply circuit 41 supplies power from the backup battery 42 to the reception circuit 43a, the monitor-side transmission circuit 43b, and the monitor-side microcomputer 44 when a power failure is detected from a voltage drop of the AC100V power supply.

  When receiving a signal transmitted from the first sensor device 20 or the second monitor device 50, the receiving circuit 43 a demodulates each received signal and outputs it to the monitor-side microcomputer 44. The monitor-side transmission circuit 43b modulates and transmits the signal input from the monitor-side microcomputer 44.

  As shown in FIG. 4, the interface unit 45 includes a mode changeover switch (mode changeover SW) 46 as an operation means, a lock / unlock state display unit 47, an alarm buzzer 48, and a mode display unit 49. These mode switching SW 46, locking / unlocking state display unit 47, alarm buzzer 48, and mode display unit 49 are all provided on the design surface of the first monitor device 40. When pressed, the mode switching SW 46 outputs an operation signal to the monitor side microcomputer 44. The locking / unlocking state display unit 47 includes a first warning LED 47a and a second warning LED 47b, and a notation indicating the window 10 (for example, “second floor east side window”) is displayed below the first warning LED 47a. A notation indicating the window 11 (for example, “2nd floor west side window”) is given below. The LEDs 47a and 47b emit light in red or green based on an instruction from the monitor side microcomputer 44. The alarm buzzer 48 sounds when an alarm signal is input from the monitor side microcomputer 44. The mode display unit 49 includes a warning mode LED and a monitoring mode LED, and each LED is lit based on an instruction from the monitor-side microcomputer 44.

  The monitor-side microcomputer 44 includes a CPU (not shown). The monitor-side microcomputer 44 performs mode switching control for selectively switching between the warning mode and the monitoring mode at predetermined time intervals. In both modes, the monitor side microcomputer 44 performs relay control for relaying and transmitting the received signal. Further, in the alert mode, the monitor-side microcomputer 44 performs security control to issue an alarm when it detects that the crescent lock has been unlocked by monitoring the unlocked state of the crescent lock of the windows 10 and 11. Hereinafter, the mode switching control, relay control, and security control performed by the monitor-side microcomputer 44 will be described in detail.

<Mode switching control>
Mode switching control performed by the monitor-side microcomputer 44 will be described with reference to the flowchart shown in FIG.

  As shown in FIG. 5, the monitor-side microcomputer 44 determines in step 200 whether or not the mode switching SW 46 has been operated. When determining that the mode switching SW 46 has been operated, the monitor-side microcomputer 44 has a mode flag “1” indicating the mode of the first monitoring device 40 (the mode before the mode switching SW 46 is operated) in step 201. Determine whether or not. When the mode flag is “1”, the monitor-side microcomputer 44 switches from the monitoring mode to the warning mode at step 202, and sets the mode flag to “0” at the next step 203. In step 204, the monitor-side microcomputer 44 transmits a mode switching signal including a mode code ("0" in this embodiment) indicating that the monitoring mode has been switched to the warning mode, and the process is temporarily terminated. Note that the value of the mode flag is “0” when the monitor device 40 is in the alert mode, and “1” when the monitor device 40 is in the monitor mode.

  If the monitor side microcomputer 44 determines that the mode flag is “0” in step 201, the monitor side microcomputer 44 switches from the alert mode to the monitor mode in step 205, and sets the mode flag to “1” in subsequent step 206. In step 207, the monitor side microcomputer 44 transmits a mode switching signal including a mode code (“1” in the present embodiment) indicating that the mode is switched from the warning mode to the monitoring mode, and the process is temporarily terminated.

  On the other hand, when the mode switching SW 46 is not operated in step 200, the monitor side microcomputer 44 determines whether or not a mode switching signal is received in step 208. If the monitor-side microcomputer 44 determines that the mode switching signal has not been received, the monitor-side microcomputer 44 temporarily terminates the process. If the monitor-side microcomputer 44 determines that the mode switching signal has been received, the mode code included in the mode switching signal is determined in step 209. Is determined to be “0”.

  If it is determined in step 209 that the mode code is “0”, the monitor-side microcomputer 44 sets the first monitor device 40 to the alert mode in step 210 and temporarily ends the process. That is, the monitor-side microcomputer 44 maintains the alert mode when the mode of the first monitor device 40 before receiving the mode switching signal is the alert mode, and changes from the monitor mode to the alert mode when it is the monitor mode. Switch. On the other hand, if it is determined in step 209 that the mode code is “1”, the monitor-side microcomputer 44 sets the first monitor device 40 to the monitoring mode in step 211 and temporarily ends the process. That is, the monitor-side microcomputer 44 switches from the alert mode to the monitor mode when the mode of the first monitor device 40 before receiving the mode switching signal is the alert mode, and maintains the monitor mode when it is the monitor mode. To do. As described above, when the monitor side microcomputer 44 receives the mode switching signal, the monitor side microcomputer 44 sets the monitoring mode or the alert mode based on the mode switching signal.

  Next, the flow of the mode switching signal among the first monitor device 40, the second monitor device 50, and the third monitor device 60 will be described. FIG. 6 schematically shows the flow of the mode switching signal between the three monitoring devices 40, 50 and 60. Each member number in the second monitor device 50 and the third monitor device 60 is expressed below by changing the tens place of each member number in the first monitor device 40 to “5” and “6”, respectively.

  As described above, each of the monitor devices 40, 50, 60 switches the mode based on the pressing operation of the mode switching SWs 46, 56, 66, and transmits a mode switching signal indicating the mode. For example, when the mode switch SW 66 is pressed, the third monitor device 60 switches from the monitoring mode to the warning mode, and transmits a mode switching signal indicating that the monitoring mode has been switched to the warning mode (solid line in FIG. 6). Show). Receiving this mode switching signal, the second monitor device 50 sets the warning mode and transmits a mode switching signal indicating the warning mode. Similarly, the first monitoring device 40 that has received the mode switching signal transmitted from the second monitoring device 50 sets the warning mode and transmits a mode switching signal indicating the warning mode. Thus, even if the first monitor device 40 cannot receive the mode switching signal transmitted from the third monitor device 60 as in the present embodiment (shown by a broken line in FIG. 6), the second monitor device By receiving the mode switching signal via 50, the warning mode is set. That is, when any one of the monitor devices 40, 50, 60 is switched from the monitoring mode to the alert mode, the other monitor devices 40, 50, 60 are also switched from the monitor mode to the alert mode.

<Relay control>
Next, relay control performed by the monitor side microcomputer 54 will be described.
The monitor-side microcomputer 54 transmits the first ID signal via the monitor-side transmission circuit 53b when the first ID signal is received and the second ID signal when the second ID signal is received. That is, the second monitor device 50 functions to relay the received first ID signal or second ID signal. FIG. 7 schematically shows the flow of the first ID signal and the second ID signal between the three monitoring devices 40, 50 and 60. Thus, since the first ID signal and the second ID signal are transmitted and received between the three monitoring devices 40, 50, 60, each monitoring device 40, 60 receives the first ID signal or the second ID from the sensor devices 20, 30. Even when signals cannot be received directly (indicated by a broken line in FIG. 7), these ID signals can be received indirectly via the monitor device 50. For example, as indicated by a broken line in FIG. 7, in a situation where the first monitor device 40 cannot receive the second ID signal transmitted from the second sensor device 30, the first monitor device 40 receives the second ID signal. 2 The second ID signal is received via the monitor device 50.

  Further, the monitor-side microcomputer 54 receives the first ID signal transmitted from the first sensor device 20 at the same time point through a different path, that is, directly receives the first ID signal, and, for example, the first monitor device 40 When receiving it indirectly via the relay, only one of the received first ID signals is relayed. In the present embodiment, when the monitor-side microcomputer 54 receives two first ID signals within a predetermined time, only the first ID signal received first is relayed. Similarly, when the monitor-side microcomputer 54 receives the second ID signal transmitted from the second sensor device 30 at the same time point through a different route, only one of the second ID signals is relayed.

<Security control>
When the monitor-side microcomputer 44 receives the first ID signal transmitted from the first sensor device 20 and the second ID signal transmitted from the second sensor device 30 directly or indirectly in the monitoring mode or the alert mode, each ID The locking / unlocking state display unit 47 is operated based on the open code or the closed code included in the signal. When the received first ID signal includes a closed code, the monitor-side microcomputer 44 lights the first warning LED 47a in green, and when the received first ID signal includes an open code, the first warning signal is displayed. The LED 47a is lit red. The monitor-side microcomputer 44 turns on the second warning LED 47b in green when the received second ID signal contains a closed code, and if the received second ID signal contains an open code, 2 The warning LED 47b is lit in red. That is, the monitor-side microcomputer 44 unlocks and unlocks the crescent lock in the window 10 corresponding to the first sensor device 20 and unlocks the crescent lock in the window 11 corresponding to the second sensor device 30 in the warning mode and the monitoring mode. The lock state is monitored, and the state is notified by the lighting color of the first warning LED 47a and the second warning LED 47b of the locking / unlocking state display unit 47.

Further, the monitor side microcomputer 44 further performs the following processing in the alert mode.
In the warning mode, when the open code is included in the first ID signal, the monitor side microcomputer 44 lights the first warning LED 47a of the locking / unlocking state display unit 47 in red and outputs an alarm signal to the alarm buzzer 48. . In addition, when the open code is included in the second ID signal, the monitor-side microcomputer 44 lights the second warning LED 47b of the locking / unlocking state display unit 47 in red and outputs an alarm signal to the alarm buzzer 48. That is, when the crescent lock of the window 10 changes from the locked state to the unlocked state, the first warning LED 47a of the locked / unlocked state display unit 47 changes from green lighting to red lighting and the alarm buzzer 48 sounds. On the other hand, when the crescent lock of the window 11 changes from the locked state to the unlocked state, the second warning LED 47b of the locked / unlocked state display section 47 changes from green lighting to red lighting and the alarm buzzer 48 sounds.

Therefore, according to the present embodiment, the following effects can be obtained.
(1) The monitor devices 40, 50, 60 relay the first ID signal or the second ID signal transmitted from the sensor devices 20, 30. Therefore, the monitor devices 40, 50, 60 are separated from the sensor devices 20, 30 by the arrangement location of the monitor devices 40, 50, 60 and the sensor devices 20, 30 and the structure of the house. Even when the ID signal cannot be received, the first ID signal or the second ID signal from the sensor devices 20 and 30 can be reliably received. The monitor devices 40, 50, 60 monitor the locked / unlocked state of the crescent locks of the windows 10, 11 based on the first ID signal and the second ID signal. Therefore, the monitor devices 40, 50, 60 have the first ID in the monitor devices 40, 50, 60 even when the sensor devices 20, 30 and the monitor devices 40, 50, 60 are disposed at locations where wireless communication is not possible. If the signal and the second ID signal can be transmitted and received, the locked and unlocked state of the crescent locks of the windows 10 and 11 can be reliably monitored. Therefore, according to the security system 100 of the present invention, it is not necessary to configure the security system 100 using a special monitor device, so that the construction cost of the security system 100 can be suppressed.

  (2) When even one of the monitor devices 40, 50, 60 is switched from the monitoring mode to the alert mode, the remaining monitor devices 40, 50, 60 are also switched from the monitor mode to the alert mode. The monitor devices 40, 50, 60 sound the alarm buzzer 48 when receiving the first ID signal or the second ID signal including the open code in the alert mode. That is, when the crescent lock of the window 10 or the window 11 is unlocked, all of the monitor devices 40, 50, 60 issue an alarm. Therefore, according to the security system 100 of the present invention, a third party who has illegally unlocked the crescent lock can be effectively threatened, and the security level of the house 1 can be further improved.

  (3) When at least one of the monitor devices 40, 50, 60, for example, the mode switching SW 46 of the monitor device 40 is pressed to switch from the monitor mode to the alert mode, the remaining monitor devices 50, 60 are also interlocked. Switch from monitoring mode to vigilance mode. For example, when the mode switching SW 46 of the monitor device 40 is pressed to switch from the warning mode to the monitoring mode, the remaining monitoring devices 50 and 60 are also switched from the warning mode to the monitoring mode. That is, the user switches all of the monitor devices 40, 50, 60 from the monitoring mode to the alert mode, or from the alert mode to the monitor mode by operating one of the monitor devices 40, 50, 60 that is familiar to the user. Can do. Therefore, the trouble of switching the modes of the monitor devices 40, 50, 60 is eliminated, and the convenience of the security system 100 can be improved.

  (4) When the monitor-side microcomputer 44 receives the first ID signal or the second ID signal transmitted from the sensor devices 20 and 30 at the same time through different paths, the monitor-side microcomputer 44 receives the first ID signal or the second ID received first. Relay only the signal. If the monitor devices 40, 50, 60 try to relay all the received first ID signals and second ID signals, the number of first ID signals and second ID signals transmitted / received between these three parties increases. The processing load is applied to the side microcomputers 44, 54, and 64. Therefore, according to the security system 100, the processing burden on the monitor-side microcomputers 44, 54, and 64 can be suppressed. In addition, since the first received ID signal is relayed, the monitor devices 40, 50, 60 can recognize the change in the locked / unlocked state of the crescent lock in the windows 10, 11 at an early stage.

  (5) Since the first ID signal and the second ID signal are relayed by the monitor devices 40, 50, 60, the locations where the monitor devices 40, 50, 60 are disposed receive the first ID signal and the second ID signal directly. It does not have to be in the area where For this reason, according to the security system 100, it is possible to improve the degree of freedom for the locations where the monitor devices 40, 50, 60 are disposed, and to manufacture the monitor devices 40, 50, 60 as general-purpose products. Is possible. Therefore, the convenience of the security system 100 can be improved, and the security system 100 can be constructed without newly installing a repeater or using a custom monitor device. Cost can be reduced.

In addition, you may change embodiment of this invention as follows.
In the embodiment, the mode switching signal transmitted by the monitor-side microcomputer 44 is not limited to the two types of mode switching signal indicating the warning mode and mode switching signal indicating the monitoring mode. For example, even if the warning mode is divided into a plurality of stages according to the level of warning (for example, the first warning mode for sounding the monitoring mode and the alarm buzzer and the second warning mode for reporting to the security center in addition to these) Good. In this case, according to the pressing operation of the mode switching SW 46, the monitor-side microcomputer 44 has three types: a mode switching signal indicating the first warning mode, a mode switching signal indicating the second warning mode, and a mode switching signal indicating the monitoring mode. The mode switching signal may be changed to a configuration that can be transmitted.

  In the embodiment, when the monitor side microcomputer 44 receives the first ID signal or the second ID signal transmitted from the sensor devices 20 and 30 at the same time through different paths, the first ID signal received first or Only the second ID signal is relayed. However, in this case, the monitor-side microcomputer 44 does not relay only the first ID signal or the second ID signal received first, but, for example, receives two first ID signals within a predetermined time. You may make it relay.

  In the embodiment, the opening / closing body is not limited to the windows 10 and 11. For example, the entrance door 6 may be applied as an opening / closing body. In this case, a third sensor device is disposed on the front door 6, and the third sensor device is configured to transmit a third ID signal including an open code when the front door 6 is opened. The monitor devices 40, 50, 60 may relay the third ID signal when receiving the third ID signal. In addition, the monitoring devices 40, 50, and 60 may issue an alarm when receiving a third ID signal including an open code in the alert mode. In this way, since the intrusion from the front door 6 can be monitored, the security level of the security system 100 can be further improved.

Next, the technical idea that can be grasped from the embodiment will be described below.
(1) The sensor device that detects the open / closed state or the unlocked state of the opening / closing body of the building and transmits a state signal indicating the open / closed state or the unlocked state, and the open / closed state by communicating with the sensor device And a monitor device that monitors the open / closed state or unlocked state of the body. When the monitor device receives the state signal, the monitor device monitors the open / closed state or unlocked state according to the state signal. And a control means for relaying and outputting the status signal.

  (2) In the invention described in the technical idea (1), an operation unit operated to switch to the monitoring mode or the alert mode is provided, and the control unit monitors the open / closed state or the unlocked / unlocked state of the opening / closing body. A monitoring mode and a warning mode for issuing an alarm when the opening / closing body is opened together with the monitoring or when the opening / closing body is unlocked, and the monitoring mode or the warning mode when the operating means is operated And a mode switching signal indicating that is transmitted, and when the mode switching signal is received, the monitoring mode and the warning mode are switched based on the mode switching signal.

  (3) In the inventions described in the technical ideas (1) and (2), the opening / closing body is a window provided in the building.

The cross-sectional view of the house in which the security system in this embodiment was provided. Similarly, the block diagram of a 1st sensor apparatus. Similarly, the block diagram of a 1st monitor apparatus. Similarly, schematic external view of the lock / unlock state display section Similarly, the flowchart of the mode switching control which a monitor side microcomputer performs. Similarly, the schematic diagram which shows the flow of the mode switching signal between each monitor apparatus. Similarly, the schematic diagram which shows the flow of the 1st ID signal and 2nd ID signal in a security system.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 20 ... 1st sensor apparatus as a sensor apparatus, 30 ... 2nd sensor apparatus as a sensor apparatus, 40 ... 1st monitor apparatus as a monitor apparatus, 44,54,64 ... Monitor side microcomputer as a control means, 46, 56, 66... Mode switching SW as operation means, 50... Second monitor device as monitor device, 60... Third monitor device as monitor device, 100.

Claims (2)

A sensor device that detects an open / closed state or a locked / unlocked state of an opening / closing body of a building and transmits a state signal indicating the opened / closed state or the locked / unlocked state, and communication between the sensor device and the opening / closing of the open / closed body In a security system comprising: a monitoring mode for monitoring a state or a locked / unlocked state; and a monitor device having a warning mode for issuing an alarm when the opening / closing body is opened together with the monitoring or when the opening / closing body is unlocked ,
The monitor device is operated to switch to the monitoring mode or the warning mode; and
When the state signal is received, the open / close state or the unlocked state according to the state signal is monitored and the state signal is relayed and output, and when the operation means is operated, the monitoring mode or the warning A control means for switching between the monitoring mode and the warning mode based on the mode switching signal when the mode switching signal is transmitted, and when the mode switching signal is received. Security system characterized by that. When the monitor device receives a plurality of the state signals transmitted from the sensor device at the same time through different paths, the monitor device monitors the open / closed state or the unlocked state of the opening / closing body based only on the first received state signal. The security system according to claim 1, wherein:

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