JP6751372B2 - Building security system - Google Patents

Description

The present invention relates to a building security system.

2. Description of the Related Art Conventionally, there is known a warning system that executes a predetermined warning control, such as issuing an alarm when detecting the intrusion of a person into a building. As a warning system of this type, Patent Document 1 includes a pressure change detection device that detects a change in the atmospheric pressure in the room. When the change in the atmospheric pressure in the room is detected by the detection device, intrusion of a person into the room is prevented. What is made to detect is disclosed. When a person opens the door and enters the room, the air pressure in the room changes due to the opening of the door, and in this case, the intrusion of the person can be suitably detected based on the change in the air pressure.

JP, A, 5-151470

By the way, when the indoor air pressure is the same as the outdoor air pressure before the door is opened, it is assumed that the indoor air pressure remains the same as the outdoor air pressure when the door is opened. In that case, in the system of Patent Document 1, even if an intruder enters the room, the intrusion is not detected, and the alert control may not be executed for the intrusion.

The present invention has been made in view of the above circumstances, and provides a building alert system capable of reliably performing alert control against the entry of a person by reliably detecting the entry of a person into the building. The main purpose is to provide.

In order to solve the above problems, the building security system according to the first aspect of the invention is applied to a building including an opening that communicates indoors and outdoors and is opened and closed by an opening/closing body, and the opening is formed by the opening/closing body. An atmospheric pressure adjusting means capable of adjusting the indoor atmospheric pressure to a predetermined atmospheric pressure lower or higher than the outdoor atmospheric pressure in a closed state, an indoor atmospheric pressure detecting means for detecting the indoor atmospheric pressure, and the indoor atmospheric pressure detection Control means for executing warning control when the indoor atmospheric pressure detected by the means changes from the predetermined atmospheric pressure to a side closer to the outdoor atmospheric pressure.

According to the present invention, in a state where the opening is closed by the opening/closing body, the atmospheric pressure adjusting means can adjust the indoor atmospheric pressure to a predetermined atmospheric pressure lower or higher than the outdoor atmospheric pressure. Here, in a state where the indoor air pressure is adjusted to a predetermined atmospheric pressure in this way, when a person enters the building through the opening, the opening is opened, so that the indoor atmospheric pressure is reduced from the predetermined atmospheric pressure. It is thought that the pressure will change toward the outdoor atmospheric pressure. Therefore, in the present invention, an indoor air pressure detection unit for detecting the indoor air pressure is provided, and when the indoor air pressure detected by the detection unit changes from a predetermined atmospheric pressure to a side closer to the outdoor air pressure, the warning control is executed. I am trying. In this case, since it is possible to reliably detect the intrusion of a person into the building, it is possible to reliably execute the warning control against the intrusion of the person.

A building alert system according to a second aspect of the present invention is the building alert system according to the first aspect, wherein the control means performs the alert control when the indoor air pressure detected by the indoor air pressure detection means becomes the same as the outdoor air pressure. It is characterized by executing.

According to the present invention, the alert control is executed when the indoor air pressure becomes the same as the outdoor air pressure. As a result, it is possible to prevent the warning control from being erroneously executed when the indoor air pressure slightly changes to a side closer to the outdoor air pressure, even though no person has entered.

A building alert system according to a third aspect of the present invention is, in the first or second aspect, provided with an outdoor air pressure detection unit that is provided near the building and that detects an outdoor air pressure, and the control unit includes the indoor air pressure detection unit. The warning control is executed when the indoor atmospheric pressure detected by the means changes to a side closer to the outdoor atmospheric pressure detected by the outdoor atmospheric pressure detecting means.

According to the present invention, the outdoor air pressure detecting means for detecting the outdoor air pressure is provided near the building, and the warning control is executed when the indoor air pressure changes to the side approaching the outdoor air pressure detected by the detecting means. It Since it is considered that the atmospheric pressure of the outdoors changes depending on the season, the weather, etc., by executing the alert control based on the atmospheric pressure of the outdoor detected in this way, highly accurate alert control can be realized.

In the building security system according to a fourth aspect of the present invention, in any one of the first to third aspects of the invention, the security mode can be set and released, and the control unit is set to the security mode. In this case, the alert control is executed.

According to the present invention, the alert control is executed only when the alert mode is set. As a result, it is possible to prevent the warning control from being executed when the warning mode is canceled.For example, by canceling the warning mode when a resident is about to return home, It is possible to prevent unintentional execution of warning control when entering or exiting.

A building alert system according to a fifth aspect of the present invention is the building alarm system according to the fourth aspect, further comprising setting means for setting the alert mode when the indoor atmospheric pressure detected by the indoor atmospheric pressure detecting means reaches the predetermined atmospheric pressure. It is characterized by

By the way, if the alert mode is set with one of the openings left open, the indoor air pressure will be the same as the outdoor air pressure even if no one has entered the building. There is a risk of false alarm that control will be executed. In that respect, in the present invention, when the indoor air pressure reaches a predetermined air pressure, that is, when the indoor air pressure is adjusted to a predetermined air pressure in a state where the opening is closed, the warning control is executed. It is possible to avoid the occurrence of false alarm such as.

A building alert system according to a sixth aspect of the present invention is the building monitoring system according to the fourth or fifth aspect of the present invention, wherein an absentee determining unit determines that the resident is absent in the building, and the resident is absent by the absentee determining unit. And a setting means for setting the warning mode when it is determined that the warning mode is set.

According to the present invention, since the warning mode is set when the resident has gone out and the inside of the building is absent, the resident does not need to manually set the warning mode when going out, which is convenient. Can be improved. Further, since the warning mode is not set when the resident is at home in the building, it is possible to prevent the warning control from being executed unintentionally when the resident opens and closes the window. ..

In the building alert system according to a seventh aspect of the present invention, in the sixth aspect of the present invention, the indoor pressure detected by the indoor pressure detecting means is the predetermined atmospheric pressure even if a predetermined time has elapsed after the absence determination by the absence determining means. If not, the opening notification means is provided to notify the resident who is out that the opening is open.

When one of the openings is open when a resident goes out and the building is absent, the indoor air pressure becomes the same as the outdoor air pressure. It is assumed that it is not adjusted. Therefore, in view of this point, in the present invention, if the indoor atmospheric pressure is not the predetermined atmospheric pressure even after the lapse of a predetermined time from the determination that the resident is absent, the opening is opened to the resident who is out. It will be notified that there is. In this case, since the resident who has received the notification can return to the building and take action such as closing the opening/closing body, the crime prevention can be improved.

The building alert system according to an eighth invention is the building alert system according to any one of the first to seventh inventions, wherein the control means notifies a predetermined notification target person that someone has entered the building. Is performed as the warning control, and after the indoor air pressure detected by the indoor air pressure detection means changes from the predetermined air pressure to a side closer to the outdoor air pressure, the indoor air pressure detected by the indoor air pressure detection means is An atmospheric pressure return determining means for determining whether or not the atmospheric pressure has returned to the predetermined atmospheric pressure; and an intrusion mode determining means for determining an intrusion mode of an intruder into the building based on the determination result of the atmospheric pressure recovery determining means, The control means also notifies the determination result of the intrusion mode determination means at the time of the intrusion notification processing.

In the present invention, as alert control, an intrusion notification process is performed to notify a predetermined notification target person that an intruder has entered the building. As a result, the notification subject who has received the notification can take appropriate measures against the intrusion of the intruder. It should be noted that the notification target person may be a resident living in the building or an external organization such as a police.

By the way, as a method for intruding a person into a building, for example, a method of illegally unlocking a locking portion for locking an opening/closing body (a door, a window, etc.) can be considered. In addition, a method of breaking (breaking) the opening/closing body (for example, a glass door) and entering it is also conceivable. Here, when the intruder intrudes into the building by the former method, it is considered that the opening/closing body is opened to enter the building, and after entering, the opening/closing body is closed. Therefore, in this case, after the intruder enters the building, it is considered that the atmospheric pressure in the room returns to the predetermined atmospheric pressure again. On the other hand, when an intruder invades the building by the latter method, the opening/closing body is destroyed and enters the building, so that the indoor air pressure does not return to the predetermined atmospheric pressure even after the intruder enters For example, it is conceivable that the atmospheric pressure becomes the same as the outdoor atmospheric pressure.

Therefore, in the present invention, paying attention to these points, whether an indoor air pressure returns to a predetermined atmospheric pressure after an intruder enters the building and the indoor atmospheric pressure changes from a predetermined atmospheric pressure to a side closer to the outdoor atmospheric pressure. In addition to determining whether or not, the intrusion mode of the intruder is determined based on the determination result. For example, of the two intrusion methods (intrusion mode) described above, that is, the method of opening and closing the opening/closing body (after the unauthorized unlocking) and the method of invading the opening/closing body by the intruder, The method of invading is determined. Then, the decision result regarding the intrusion mode is notified to the occupant at the time of the intrusion notification process. As a result, the resident can also know the intrusion mode of the intruder, and can take appropriate measures according to the intrusion mode.

A building alert system according to a ninth aspect of the present invention is the building alert system according to any one of the first to eighth aspects, wherein the building is provided with a plurality of the openings and the indoor air pressure detection means is arranged at a plurality of locations indoors. The control means executes the warning control when the indoor air pressure detected by the indoor air pressure detection means changes to a side closer to the outdoor air pressure, and is detected by the indoor air pressure detection means. Regarding the atmospheric pressure inside, determine the order in which it changed when approaching the atmospheric pressure outside, and determine from which of the openings a person entered the building based on the determined order It is characterized by comprising a position determination means.

By the way, since the inside of the building (indoor) is divided into a plurality of indoor spaces (rooms) by partition walls, etc., when an intruder enters into the building from any of the openings, the opening is provided. It is considered that the atmospheric pressure in the indoor space first changes to the side closer to the outdoor atmospheric pressure, and then the atmospheric pressure in the adjacent indoor spaces changes to the side closer to the outdoor atmospheric pressure. Therefore, in the present invention, paying attention to such a point, when the indoor air pressure detection means is provided at a plurality of locations indoors, and the indoor air pressure detected by the plurality of indoor air pressure detection means changes to a side closer to the outdoor air pressure. The order in which the intruder has changed is determined, and based on the determined order, the opening from which the intruder has entered, that is, the intrusion position of the intruder is determined. In this case, for example, warning control can be executed according to the intruder's intrusion position, such as issuing a warning near the intruder's intrusion position.

The figure which shows the outline of the building in which the alert system was provided. The flowchart which shows a control process. The flowchart which shows a warning control process. The figure which shows the outline|summary of the building in which the alert system in other embodiment was provided.

An embodiment of the present invention will be described below with reference to the drawings. Note that FIG. 1 is a diagram showing an outline of a building provided with a warning system. Further, FIG. 1 also shows the electrical configuration of the alert system.

As shown in FIG. 1, a building 10 such as a house is provided with an outer wall portion 11 on the outer peripheral portion thereof. The outer wall 11 is provided with an entrance 12 as an opening. The entrance 12 communicates with the inside and outside of the building, and the entrance and exit to and from the building 10 are performed through the entrance 12. At the entrance 12, an entrance door 13 as an opening/closing body is provided. The entrance door 13 is, for example, a hinged door. The front door 12 is opened and closed by the front door 13.

The front door 13 is provided with a locking device 14. The locking device 14 is an electric lock that electrically locks and unlocks the entrance door 13, and has a knob (thumb turn) on the indoor side. The locking device 14 is locked and unlocked from the indoor side by manual operation with a knob, and from the outdoor side by an electronic key carried by a resident of the building 10.

The outer wall 11 is provided with a window 16 as an opening. The window 16 communicates indoors and outdoors, and the window 16 is provided with a glass door 17 as an opening/closing body. The window 16 is opened and closed by the glass door 17. Although not shown, the glass door 17 is provided with a locking portion (crescent). Although only one window 16 (and glass door 17) is shown in FIG. 1, a plurality of windows 16 are actually provided on the outer wall 11.

The building 10 is provided with a ventilation device 18 that ventilates the inside of the building. The ventilation device 18 has an exhaust fan, and ventilates indoors by discharging indoor air outdoors. Therefore, in the main building 10, a so-called third type ventilation system is adopted. The ventilation device 18 is installed in, for example, a toilet, a bathroom, a kitchen or the like in the building 10. Further, the ventilation device 18 is constantly operated, and thereby, ventilation is performed for 24 hours.

By the way, the main building 10 is a highly airtight house having excellent airtightness. Therefore, during indoor ventilation by the ventilation device 18, the indoor air is discharged to the outside so that the indoor air pressure is maintained (adjusted) at a predetermined atmospheric pressure Po (negative pressure) lower than the outdoor air pressure. There is. Specifically, with each glass door 17 closed and the entrance door 13 closed (in other words, in a closed space where the inside is closed from the outside), the ventilation device 18 ventilates the inside of the room. In the case of the above, the atmospheric pressure in the room is maintained at the predetermined atmospheric pressure Po. In this case, the ventilation device 18 corresponds to the atmospheric pressure adjusting means.

Here, when someone enters the building 10 through the entrance 12 or the window 16 while the indoor air pressure is maintained at a predetermined air pressure Po, the entrance (the entrance 12 or the like) is opened. Therefore, it is considered that the indoor air pressure changes to the same atmospheric pressure as the outdoor air pressure. Therefore, in the present embodiment, attention is paid to this point, and the building 10 is provided with an indoor air pressure detection unit that detects the indoor air pressure, and the indoor air pressure detected by the detection unit is the same as the outdoor air pressure from a predetermined atmospheric pressure Po. The building 10 is provided with a warning system that performs a predetermined warning control when the pressure becomes (changes). The alert system will be described below.

The alert system includes a controller 20 as a control means. The controller 20 includes a well-known microcomputer having a CPU and the like, and is attached to, for example, a wall surface in the building 10.

The building 10 is provided with an indoor air pressure sensor 21 that detects an indoor air pressure and an outdoor air pressure sensor 22 that detects an outdoor air pressure. The indoor air pressure sensor 21 is provided in the center of the building 10 (in plan view), and is attached to, for example, a wall surface or a ceiling surface. The outdoor air pressure sensor 22 is provided outdoors, and is attached to the outdoor surface of the outer wall portion 11, for example. In the present embodiment, each of the atmospheric pressure sensors 21 and 22 is provided one by one.

Both atmospheric pressure sensors 21 and 22 are connected to the controller 20. The atmospheric pressure sensors 21 and 22 sequentially input detection results to the controller 20. The indoor air pressure sensor 21 corresponds to indoor air pressure detection means, and the outdoor air pressure sensor 22 corresponds to outdoor air pressure detection means.

The building 10 is provided with a warning device 23 that warns an intruder of the building 10. The warning device 23 includes a voice output device such as a speaker and outputs a warning sound (for example, a buzzer sound) to warn an intruder. The warning device 23 is attached to, for example, a wall surface in the building 10. The warning device 23 is connected to the controller 20. The controller 20 outputs a warning signal to the warning device 23 based on the detection results from the atmospheric pressure sensors 21 and 22, and causes the device 23 to perform the warning process.

The controller 20 has a communication unit 20a capable of wireless communication with a mobile terminal 28 carried by a resident. The mobile terminal 28 is, for example, a smartphone or a mobile phone. Based on the detection results from the atmospheric pressure sensors 21 and 22, the controller 20 transmits intrusion information regarding the intrusion of a person into the building 10 to the portable terminal 28 of the resident by mail (text information) from the communication unit 20a. The intrusion information does not necessarily have to be sent by e-mail, but may be sent as voice information, for example.

The locking device 14 is connected to the controller 20. When the occupant performs a locking operation or an unlocking operation on the locking device 14 with an electronic key, a locking operation signal or an unlocking operation signal is input from the locking device 14 to the controller 20 according to the operation. Specifically, when the resident goes out, the resident performs a locking operation, so that the locking device 14 inputs a locking operation signal to the controller 20. Further, when the resident returns home, the resident performs an unlocking operation, so that an unlocking operation signal is input from the locking device 14 to the controller 20. The controller 20 determines, based on the locking operation signal and the unlocking operation signal input from the locking device 14, whether the resident is going out of the building 10 or returning to the building 10 each time. Then, the controller 20 determines whether or not the resident is absent in the building 10 based on the result of the determination (determination of leaving home).

Next, the control processing executed by the controller 20 will be described based on the flowchart shown in FIG. It should be noted that this process is repeatedly executed at a predetermined cycle.

As shown in FIG. 2, first, in step S11, it is determined whether or not the warning mode is set. The alert mode is a mode set when the alert control of the building 10 is performed, and in the alert system, this alert mode is automatically set and released as described later. If the warning mode is set, the process proceeds to step S17 to perform the warning control process. On the other hand, if the warning mode is not set, the process proceeds to step S12.

In step S12, it is determined whether or not the resident is absent in the building 10 (corresponding to an absence determination means). This determination is performed based on the unlocking operation signal and the locking operation signal input from the locking device 14, as described above. If the resident is at home in the building 10, this processing ends. On the other hand, when the resident is absent in the building 10, the process proceeds to step S13. In addition, when the resident is absent, the resident opens the entrance door 13 from the entrance 12 and goes out, so that the indoor is temporarily opened to the outside, and the atmospheric pressure of the indoor becomes the same as the outdoor atmospheric pressure. Become.

In step S13, a timer is set and the time counting by the timer is started. In the following step S14, it is determined based on the detection result from the indoor pressure sensor 21 whether the indoor pressure has reached (returned to) a predetermined pressure Po. When the indoor air pressure reaches the predetermined air pressure Po, the process proceeds to step S16, and the warning mode is set. Then, after setting the warning mode, the process proceeds to step S17 to execute the warning control process. The alert control process will be described later.

If the indoor air pressure has not reached the predetermined air pressure Po (has not returned), the process proceeds to step S15, and it is determined whether or not a predetermined time has elapsed from the start of timing by the timer. That is, here, it is determined whether or not a predetermined time has elapsed since the resident was absent. The predetermined time period is set to a time period necessary and sufficient for the indoor air pressure, which has become the same as the outdoor air pressure due to the resident going out, to return to the predetermined air pressure Po by ventilation (exhaust) by the ventilation device 18. ing.

If the predetermined time has not elapsed since the resident was absent, the process returns to step S14 and the determination in step S14 is performed again. That is, in this case, the processes of steps S14 and S15 are repeated until a predetermined time has elapsed since the resident was absent. When a predetermined time has elapsed since the resident was absent, in other words, when the indoor air pressure has not reached the predetermined atmospheric pressure Po (does not return) even after the predetermined time has elapsed since the resident was absent. Proceeds to step S21. In this case, it can be considered that the resident went out with the glass door 17 (or the entrance door 13) open.

In step S21, opening notification processing is performed to notify the resident that the glass door 17 is still open (corresponding to opening notification means). In this process, a message such as "The glass door is open" is transmitted to the mobile terminal 28 carried by the resident by email. Thus, when the resident goes out with the glass door 17 open, the resident can know the fact. After that, this processing ends.

Next, the warning control process of step S17 will be described based on the flowchart shown in FIG.

As shown in FIG. 3, in the alert control process, first, in step S31, it is determined whether or not the indoor air pressure is the same as the outdoor air pressure, based on the detection results from the atmospheric pressure sensors 21 and 22. If the indoor air pressure is not the same as the outdoor air pressure, this processing ends. On the other hand, if the indoor air pressure becomes the same as the outdoor air pressure, the process proceeds to step S32. In this case, since it can be considered that the indoor space is open to the outside through the entrance 12 or the window 16, it can be considered that someone has entered the building 10 through the entrance 12 or the window 16.

In step S32, warning processing (corresponding to warning control) for warning an intruder in the building 10 is executed. In this process, by outputting a warning signal to the warning device 23, the device 23 outputs a warning sound. In this case, as the warning sound, for example, a buzzer sound may be output, or an announcement such as "please leave the building" may be output. This can intimidate the intruder, and thus can prompt the intruder to exit the building 10.

In a succeeding step S33, a standby process of waiting for a predetermined time to elapse is performed. Here, the predetermined time is set to the same time as the predetermined time of step S15, that is, the indoor air pressure is returned to the predetermined air pressure Po from the same air pressure as the outdoor air pressure by ventilation (exhaust) by the ventilation device 18. The time is set to be necessary and sufficient.

In step S34 after the standby process, based on the detection result from the indoor pressure sensor 21, an atmospheric pressure recovery determination process is performed to determine whether the indoor atmospheric pressure has returned to a predetermined atmospheric pressure Po (corresponding to atmospheric pressure recovery determination means). .. In this determination process, that is, it is determined whether or not the atmospheric pressure in the room has returned to the predetermined atmospheric pressure Po by the ventilation of the ventilation device 18 after the intruder has entered the building 10.

Here, as a result of the atmospheric pressure return determination processing, when the indoor atmospheric pressure returns to the predetermined atmospheric pressure Po, it is considered that the entrance door 13 and the glass door 17 were closed after the intruder entered the building 10. That is, in this case, it is considered that the intruder illegally unlocked the locking device 14 of the entrance door 13 and the locking portion of the glass door 17, and then opened and closed the entrance door 13 or the glass door 17 to enter the building 10. ..

On the other hand, as a result of the atmospheric pressure return determination process, when the indoor atmospheric pressure has not returned to the predetermined atmospheric pressure Po, it is considered that the indoor is open to the outside even after the intruder enters the building 10. Therefore, in this case, it is considered that an intruder breaks (breaks) the entrance door 13 or the glass door 17 and enters, so that the inside of the room is opened to the outside through the entrance 12 or the window 16. It is thought that it has become.

As described above, the following methods (a) and (b) can be considered as intrusion methods when an intruder intrudes into the building 10.

(A) A method by which an intruder illegally unlocks the locking device 14 of the entrance door 13 or the locking part of the glass door 17 and then opens and closes the entrance door 13 or the glass door 17 to enter (b) the intruder enters the entrance Method of Destroying Door 13 or Glass Door 17 and Entering Therefore Therefore, in the subsequent step S35, in consideration of the above point, an intruder enters the building 10 based on the determination result of the atmospheric pressure return determination process (intrusion method). Intrusion mode determination processing for determining is performed (corresponding to intrusion mode determination means). Specifically, in this processing, it is determined by which of the methods (a) and (b) the intruder has entered the building 10.

In a succeeding step S36, an intrusion notification process (corresponding to the alert control) of informing the resident that somebody has invaded the building 10 is performed. In this processing, a message such as "There is an intruder" or "Someone has invaded the building" is transmitted to the portable terminal 28 of the resident by e-mail. As a result, the resident can know that there is an intruder in the building 10 even when he is out.

In addition, in the intrusion notification process, the determination result of the intrusion mode determination process, that is, which of the intrusion methods (a) and (b) has entered the building 10 is also informed. This notification is performed, for example, by sending a message to the resident's mobile terminal 28 by e-mail, such as "destroy the door or the like to invade" or "unlock the door or the like to enter." Thereby, the resident can also know the intruder's invasion mode (intrusion method) into the building 10. After that, this processing ends.

Returning to the explanation of FIG. 2, in step S18 after the above-mentioned warning control process (step S17), it is determined whether or not the resident is going to return to the building 10 (is trying to enter). This determination is performed based on whether or not an unlocking operation signal is input from the locking device 14, that is, based on whether or not the occupant performs an unlocking operation on the locking device 14. If there is no resident who is going home, this process ends. On the other hand, if the resident is about to return to the building 10, the process proceeds to step S19 and the warning mode is released. After that, this processing ends.

According to the configuration of the present embodiment described in detail above, the following excellent effects can be obtained.

When the entrance 12 is closed by the entrance door 13 and each window 16 is closed by the glass door 17 (that is, both the openings 12 and 16 are closed), the ventilation device 18 is used to By discharging the air outdoors, it is possible to adjust the indoor air pressure to a predetermined atmospheric pressure Po that is lower than the outdoor air pressure. Here, since the openings 12 and 16 are opened when a person enters the building 10 through the openings 12 and 16 in a state where the indoor air pressure is adjusted to the predetermined air pressure Po in this way, It is considered that the indoor air pressure changes toward the outdoor air pressure. Therefore, in view of this point, in the above-described embodiment, the indoor air pressure sensor 21 that detects the indoor air pressure is provided, and the indoor air pressure detected by the sensor 21 changes from a predetermined atmospheric pressure Po to the same atmospheric pressure as the outdoor air pressure. In this case, the warning control (specifically, the warning process (step S32) and the intrusion notification process (step S36)) is executed. In this case, since it is possible to reliably detect the intrusion of a person into the building 10, it is possible to reliably execute the warning control against the intrusion of the person.

The warning control was executed when the indoor air pressure became the same as the outdoor air pressure. As a result, it is possible to prevent the warning control from being erroneously executed when the indoor air pressure slightly changes to the side closer to the outdoor air pressure, even though no person is invading.

It is thought that the atmospheric pressure outside will change depending on the season and weather. In this regard, since the warning control is executed when the indoor atmospheric pressure becomes the same as the outdoor atmospheric pressure detected by the outdoor atmospheric pressure sensor 22, it is possible to realize highly accurate warning control.

Changed to perform the alert control only when the alert mode is set. As a result, it is possible to prevent the warning control from being executed when the warning mode is released, and thus, for example, when the resident is going to return to the building 10 (when trying to enter the building 10) By canceling the mode, it is possible to prevent the warning control from being unintentionally executed when a resident enters or leaves the building 10.

By the way, when the warning mode is set with one of the openings 12 and 16 left open, the indoor air pressure becomes the same as the outdoor air pressure, even though no one has entered the building 10. There is a possibility that false alarm may occur in which the alarm control is executed. In that respect, in the above-described embodiment, when the indoor air pressure detected by the indoor air pressure sensor 21 reaches a predetermined air pressure Po, in other words, the indoor air pressure with both the openings 12 and 16 closed. Since the warning control is executed when is adjusted to the predetermined atmospheric pressure Po, it is possible to avoid the occurrence of the false warning as described above.

Since the warning mode is set when the resident goes out and the inside of the building 10 is absent, the resident does not need to manually set the warning mode when going out, and the convenience is improved. be able to. In addition, since the warning mode is not set when the resident is at home in the building 10, it is possible to prevent the warning control from being unintentionally executed when the resident opens and closes the glass door 17. can do.

When one of the windows 16 is opened when the resident goes out and the building 10 is absent, the atmospheric pressure inside becomes the same as the atmospheric pressure outside, and the atmospheric pressure inside becomes a predetermined atmospheric pressure. It is assumed that it is not adjusted to Po. Therefore, in view of that point, in the above-described embodiment, if the indoor air pressure is not the predetermined air pressure Po even after the predetermined time has elapsed since it was determined that the resident is absent, the resident living out It is decided to perform the opening notification process for notifying the person that the window 16 is open. In this case, since the resident who has received the notification can return to the building 10 and take action such as closing the glass door 17, it is possible to improve crime prevention.

As the alert control, since the intrusion notification process (step S36) is performed to notify the resident that the intruder has invaded the building 10, the resident receiving the notification must take an appropriate response to the intrusion of the intruder. Is possible.

In addition, it is determined whether or not the indoor air pressure has returned to the predetermined air pressure Po after the intruder has entered the building 10 and the indoor air pressure has changed from the predetermined air pressure Po to the outdoor air pressure. In step S34), the intrusion mode of the intruder is determined based on the determination result (step S35). Specifically, as an intrusion mode, the intruder opens and closes the opening/closing body (the entrance door 13 or the glass door 17) (after illegally unlocking the locking portion) or enters the opening/closing body 13, 17 It was decided whether to destroy and intrude. Then, in the intrusion notification process (step S36), the resident is also notified of the determined intrusion mode. As a result, the resident can also know the intrusion mode of the intruder, and can take appropriate measures according to the intrusion mode.

As a building warning system, a person detection sensor (infrared sensor or the like) that detects the presence of a person is provided at a plurality of locations in the building 10, and warning control is generally performed based on the person detection by these person detection sensors. .. On the other hand, in the present alert system, when one indoor pressure sensor 21 for detecting the indoor pressure is provided and the indoor pressure detected by the one indoor pressure sensor 21 becomes the same as the outdoor pressure. Since the warning control is executed, the number of sensors can be small and the cost can be reduced accordingly. Further, when the warning system is subsequently installed in the building 10 by remodeling or the like, the installation becomes easy.

The present invention is not limited to the above embodiment and may be implemented as follows, for example.

(1) For example, the indoor pressure sensors 21 are provided at a plurality of locations inside the building 10, and it is determined from which opening an intruder has entered the building 10 based on the detection results of the indoor pressure sensors 21. You may do so. Hereinafter, a specific example in that case will be described with reference to FIG.

As shown in FIG. 4, the building 40 includes an entrance 41, a living room 42, and a bedroom 43 as an indoor space. These indoor spaces 41 to 43 are partitioned by a partition wall 45. The entrance 41 is provided with an entrance 46 as an opening, and the entrance 46 is provided with an entrance door 47 as an opening/closing body. The bedroom 43 is provided with a window 48 as an opening, and the window 48 is provided with a glass door 49 as an opening/closing body.

The indoor pressure sensor 21 is provided in each of the entrance 41, the living room 42, and the bedroom 43. Each of the indoor air pressure sensors 21 detects the air pressure of the indoor spaces 41 to 43 in which the sensor 21 is provided. In the following, among the respective indoor pressure sensors 21, the sensor 21 provided in the entrance 41 is provided with a, the sensor 21 provided in the living room 42 is provided with b, and the sensor is provided in the bedroom 43. The symbol c of the sensor 21 is added. A warning device 23 is provided in each of the entrance 41, the living room 42, and the bedroom 43. In the following, among these warning devices 23, the reference sign of the warning device 23 provided in the entrance 41 is a, the reference sign of the warning device 23 provided in the living room 42 is b, and the warning device 23 is provided in the bedroom 43. C is added to the reference numeral of the warning device 23.

The indoor pressure sensors 21a to 21c and the warning devices 23a to 23c are connected to the controller 20, respectively. The controller 20 is sequentially input with detection results from the indoor pressure sensors 21a to 21c, and the controller 20 is based on the input detection results from the indoor pressure sensors 21a to 21c, and the entrance 41, the living room 42, and the bedroom. It is determined whether or not the atmospheric pressures of 43 have become the same as the outdoor atmospheric pressure from the predetermined atmospheric pressure Po. Then, as a result of the determination, when the atmospheric pressures of the entrance 41, the living room 42, and the bedroom 43 all become the same as the outdoor atmospheric pressure, the warning devices 23a to 23c are caused to perform the warning process. In this way, when someone invades the building 40, the intruder can be threatened, and the exit of the intruder can be promoted.

Further, the controller 20 determines the order in which the atmospheric pressures of the indoor spaces 41 to 43 detected by the indoor pressure sensors 21a to 21c become the same as the outdoor atmospheric pressure, and the result of the determination (determined: It is determined from which of the entrance 46 and the window 48 the intruder has entered the building 10 based on the order (corresponding to the intrusion position determining means). Regarding this determination, specifically, for example, when an intruder enters the building 10 through the entrance 46, that is, the entrance 41, the atmospheric pressure of the entrance 41 first becomes the same as the atmospheric pressure of the outside, and then the living room 42 It is considered that the atmospheric pressure becomes the same as the outdoor atmospheric pressure, and finally the atmospheric pressure in the bedroom 43 becomes the same atmospheric pressure as the outdoor atmospheric pressure. Therefore, when the controller 20 determines that the order in which the atmospheric pressure becomes the same as the outdoor atmospheric pressure is the order of the atmospheric pressure of the entrance 41 →the atmospheric pressure of the living room 42 →the atmospheric pressure of the bedroom 43, the intruder uses the entrance 46 to build the building. It is determined that the intrusion has occurred within 10. On the other hand, when the controller 20 determines that the order in which the atmospheric pressure is the same as the outdoor atmospheric pressure is the order of the atmospheric pressure in the bedroom 43 →the atmospheric pressure in the living room 42 →the atmospheric pressure in the entrance 41, the intruder uses the window 48 to build the building. It is determined that 10 has been invaded (that is, the bedroom 43).

Further, the controller 20 executes the warning process by each of the warning devices 23a to 23c based on the determination result of the intrusion position. Specifically, the controller 20 causes the warning device 23 arranged at the position closest to the openings 46 and 48 (in other words, the entrance) into which the intruder has entered to perform the warning process. More specifically, when an intruder enters through the entrance 46, the warning device 23a of the entrance 41 is caused to perform warning processing, and when an intruder enters through the window 48, the warning device 23c of the bedroom 43 is provided with warning processing. Let it run. This allows the warning process to be performed near the intruder position depending on the intruder's intruder position, so that the intruder can be effectively threatened.

Further, the controller 20 causes the other warning devices 23 to also perform the warning process after a predetermined time has elapsed since the above-described warning process was performed. For example, when an intruder intrudes through the entrance 46, the warning device 23a of the entrance 41 is caused to execute the warning process as described above. The warning devices 23b and 23c are also caused to execute the warning process. In this case, since the warning range of the warning devices 23a to 23c can be gradually expanded from the intruder's intrusion position, the intimidating effect on the intruder can be enhanced. At this time, the warning processing by the warning devices 23b and 23c may be executed at the same time, or may be executed in the order of the warning device 23b and the warning device 23c. For example, in the latter case, since the warning process is performed in order from the warning device 23 that is closer to the intrusion position, the intruder can have an interval in which someone is being tracked, and the intimidating effect on the intruder can be further enhanced. It can be further enhanced.

(2) In the above embodiment, the warning mode is automatically set when the inside of the building 10 is absent. However, an operation unit capable of setting and canceling the warning mode is provided and based on the operation of the operation unit. Alternatively, the alert mode may be manually set. By doing so, the warning mode can be set not only when the resident is absent (when out) but also when the resident is at home. Therefore, for example, by setting the alert mode when the resident sleeps, the building 10 can be put in the alert state at bedtime. Further, in this case, an informing unit composed of a speaker or the like may be provided in the building 10 (for example, the bedroom), and the informing unit may perform the intrusion informing process. When HEMS is installed in the building 10, a monitor of HEMS may be used as the operation unit.

By the way, it is not always necessary to set the alert mode. In that case, it can be considered that the inside of the building 10 is always in a warning state.

(3) In the above embodiment, the outdoor atmospheric pressure sensor 22 provided in the building 10 is used to detect and acquire the outdoor atmospheric pressure. However, by changing this, the outdoor atmospheric pressure can be transmitted from a weather center (such as the Meteorological Agency) to the Internet. You may make it acquire via. Alternatively, information about the outdoor atmospheric pressure (outdoor atmospheric pressure information) may be stored in advance in the storage unit of the controller 20, and the outdoor atmospheric pressure information may be read and acquired from the storage unit. In these cases, since the outdoor air pressure sensor 22 can be omitted, the cost can be reduced.

(4) In the above-described embodiment, when the indoor air pressure becomes the same as the outdoor air pressure from the predetermined air pressure Po, the warning control (warning process (step S32) or intrusion notification process (step S36)) is executed. However, this may be changed so that the warning control may be executed when the indoor atmospheric pressure changes to an intermediate atmospheric pressure between the predetermined atmospheric pressure Po and the outdoor atmospheric pressure. In that case, an intruder's intrusion into the building 10 can be detected more quickly, and as a result, alert control for the intrusion can be executed more quickly.

(5) In the above embodiment, it is determined whether or not the resident is absent in the building 10 based on the unlocking operation signal and the locking operation signal from the locking device 14. It does not necessarily have to be done in this way. For example, a GPS function is provided in the mobile terminal 28 carried by the resident, and the current position of the resident is acquired using the GPS function. Then, based on the acquired current position of the resident, it may be determined whether the resident is absent in the building 10.

(6) In the above-described embodiment, the indoor air pressure is discharged to the outside by the ventilation device 18 (corresponding to the air pressure adjusting means) including the exhaust fan, so that the indoor air pressure is lower than the outdoor air pressure by a predetermined pressure Po (negative pressure). Although it is adjusted to the pressure), this may be changed. For example, even if a ventilator provided with an air supply fan is provided and outdoor air is taken into the room by the ventilator, the indoor air pressure may be adjusted to a predetermined atmospheric pressure (positive pressure) higher than the outdoor air pressure. Good. That is, the atmospheric pressure inside the room may be adjusted to the predetermined atmospheric pressure (positive pressure) by adopting the second type ventilation method as the indoor ventilation method. Even in that case, when an intruder enters the building 10 through the entrance 12 or the window 16 while the indoor air pressure is adjusted to a predetermined air pressure (positive pressure), the entrance 12 and the like are opened. Therefore, it is conceivable that the atmospheric pressure in the room will change from a predetermined atmospheric pressure (positive pressure) to the atmospheric pressure outside. Therefore, even in such a case, it is possible to detect the intrusion of the intruder into the building 10 when the indoor air pressure has changed from the predetermined air pressure (positive pressure) to the outdoor air pressure.

(7) In the above-described embodiment, when the intrusion notification process (step S36) is performed, the resident is informed that someone has invaded the building 10. However, the notification target person in this case is not necessarily the resident. There is no need to limit the number, and an external organization such as a security company may be notified. By doing so, it becomes possible for an external institution to call the building 10 and expel an intruder.

10... Building, 12... Entrance as opening, 13... Entrance door as opening/closing body, 16... Window as opening, 17... Glass door as opening/closing body, 18... Ventilation device as air pressure adjusting means, 20... Controller as control means, 21... Indoor pressure sensor as indoor pressure detection means, 22... Outdoor pressure sensor as outdoor pressure detection means.

Claims (8)

It is applied to a building that has an opening that can be opened and closed by an opening/closing body while communicating indoors and outdoors.
In a state where the opening is closed by the opening/closing body, an atmospheric pressure adjusting means capable of adjusting the indoor atmospheric pressure to a predetermined atmospheric pressure lower or higher than the outdoor atmospheric pressure,
Indoor atmospheric pressure detection means for detecting the indoor atmospheric pressure,
A control unit that executes warning control when the indoor air pressure detected by the indoor air pressure detection unit changes from the predetermined air pressure to a side closer to the outdoor air pressure ;
The control means executes an intrusion notification process for informing a predetermined notification target person that someone has entered the building as the alert control,
Whether the indoor air pressure detected by the indoor air pressure detection means has changed from the predetermined air pressure to a side closer to the outdoor air pressure, and then the indoor air pressure detected by the indoor air pressure detection means has returned to the predetermined air pressure. Atmospheric pressure return determination means for determining whether
Based on the determination result of the atmospheric pressure recovery determination means, an intrusion mode determination means for determining an intrusion mode of an intruder into the building,
The warning system for a building, wherein the control unit also notifies the determination result of the intrusion mode determination unit when performing the intrusion notification process . The building alert system according to claim 1, wherein the control unit executes the alert control when the indoor air pressure detected by the indoor air pressure detection unit becomes the same as the outdoor air pressure. .. Provided in the vicinity of the building, which is equipped with an outdoor air pressure detecting means for detecting the outdoor air pressure,
The control means executes the warning control when the indoor air pressure detected by the indoor air pressure detection means changes to a side closer to the outdoor air pressure detected by the outdoor air pressure detection means. The building security system according to claim 1. It is possible to set and cancel the alert mode,
4. The building alert system according to claim 1, wherein the control unit executes the alert control when the alert mode is set. The building alert system according to claim 4, further comprising a setting unit that sets the alert mode when the indoor air pressure detected by the indoor air pressure detection unit reaches the predetermined air pressure. Absence determination means for determining that the resident is absent in the building,
6. The building alert system according to claim 4, further comprising: a setting unit that sets the alert mode when the resident determination unit determines that the resident is absent. If the indoor air pressure detected by the indoor air pressure detection means does not reach the predetermined air pressure even after a predetermined time has passed since the absence judgment by the absence judgment means, the opening is provided to the resident who is out. 7. The building alert system according to claim 6, further comprising opening notification means for notifying that the building is open. The building is provided with a plurality of the openings,
The indoor pressure detecting means is arranged at a plurality of locations indoors,
The control means performs the warning control when the indoor air pressure detected by each of the indoor air pressure detection means changes to a side closer to the outdoor air pressure,
Regarding the indoor air pressure detected by each indoor air pressure detecting means, the order in which the indoor air pressure changes toward the side closer to the outdoor air pressure is determined, and a person is able to use the opening from any of the openings based on the determined order. The building alert system according to any one of claims 1 to 7 , further comprising intrusion position determination means for determining whether or not the building has entered.

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