JP2004171266A - House security system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a house security system which can accurately grasp the condition of a user in a building structure even in a place remote from the building structure. <P>SOLUTION: Figure 4(b) shows a display screen 60 indicating information on the inside of a living place in 2002/September 28/17:45 which has been transmitted from a master unit 40 in response to a request for data transmission from a cell phone 100. Figure 4(b) shows that a detection time instant when a human body has been detected finally in the entrance is "09/28 17:30", and a human body has been detected at "09/28 17:32" in the kitchen, at "09/28 17:34" on the first floor, at "09/28 17:35" on the second floor, and at "09/28 17:45" in the children's room on the second floor, respectively. Therefore, it is indicated that a child who has come home at 17:30 has stopped over the kitchen, has passed through the first floor and the second floor, and is now in the children's room on the second floor. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a house security system, and more particularly to a house security system capable of accurately grasping the state of a user of a building even in a place remote from the building.
[0002]
2. Description of the Related Art A house security system is a system provided for the purpose of crime prevention and disaster prevention for buildings such as private homes and offices. This security system is provided in a building or at various locations around the periphery thereof, and a sensor for detecting data related to security, and a home transmission device (parent device) provided in the building and managing the detection data detected by the sensor. And a building (residential transmission device), and an information processing device that is installed remotely and receives a notification of occurrence of an abnormal situation from the residential transmission device.
[0003]
Specifically, a fire detector that detects the occurrence of a fire, a gas leak alarm that detects a gas leak, a security sensor, or the like is used as the sensor. The detection data detected by each sensor is transmitted to the in-home transmission device, and is received from the in-home transmission device via the telecommunication line to the information processing devices of the management center and the security center. Thus, the management center and the security center recognize the occurrence of an abnormal situation such as a fire, a gas leak, or an intruder (see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-7-231363
[0005]
However, due to the nuclear family, the aging of the family, and the increase of double-income families, not only at the time of occurrence of an abnormal situation but also at normal times, the home and indoor conditions can be checked. There is a demand for a house security system that allows families in the country to check.
[0006]
Here, in the conventional house security system, when an intruder is detected, the fact is reported. When the intruder is detected, when the building is a private house, the resident (user) is mainly used. When the building is an office, the process is executed when the employee (user) is absent. That is, since the system is not configured so that the state of the resident (user) can be checked, there is a problem that the conventional system cannot be used as it is for checking the state of the resident.
[0007]
Further, in the conventional system, the information to be reported is information indicating a current state. For this reason, there is a problem that only information indicating that a person has been detected or that no person has been detected at present can be obtained, and the state of the resident cannot be sufficiently grasped.
[0008]
For this reason, for example, when there is a family member of an answering machine or a family member who needs a caregiver, the problem that the family member on the road cannot carry out errands or work with peace of mind has not been solved.
[0009]
The present invention has been made in order to solve the above-described problems, and to provide a house security system capable of accurately grasping the state of a user of a building even in a place remote from the building. It is an object.
[0010]
In order to achieve this object, a house security system according to a first aspect of the present invention comprises a plurality of user detection sensors for detecting user information on a user of a building, and the user detection. And a management device that manages user information detected by a sensor, wherein each of the user detection sensors is connected to the management device, respectively, and serves as an activity place of a user of the building. The management device is provided at each of a plurality of locations, and the management device detects at least some of the plurality of user detection sensors, the user detection sensors detecting the user information. Output means for outputting information of the detection time and arrangement location information indicating an arrangement location of the user detection sensor which has detected the user information, and output by the output means. The detection time of the information, the user detection sensor is an information of the detection time of detecting the user last before output by the output means.
[0011]
According to the house security system of the first aspect, each of the user detection sensors is disposed at each of a plurality of locations of the building that are active places of the users of the building. When the user information is detected by the user detection sensor, the detected user information is input to the connected management device. From the management device, for at least some of the plurality of user detection sensors, information on the detection time at which the user detection sensor detected the user information and the usage at which the user information was detected are used. Location information indicating the location of the person detection sensor is output by the output means. The detection time information output by the output means is the detection time information at which the user detection sensor finally detected the user before the output by the output means.
[0012]
The house security system according to claim 2 includes a plurality of user detection sensors for detecting user information on users of the building, and a management device for managing user information detected by the user detection sensors. , Each of the user detection sensors is connected to the management device, respectively, and at each of a plurality of locations of the building determined based on the flow lines that the user of the building can take in the building The management device, for at least some of the plurality of user detection sensors, information on the detection time when the user detection sensor has detected user information, Output means for outputting the location information indicating the location of the user detection sensor that has detected the user information, and the detection output by the output means. Information of time, the user detection sensor is an information of the detection time of detecting the user last before output by the output means.
[0013]
According to the house security system of the second aspect, each user detection sensor is provided at each of a plurality of locations of the building that are determined based on the flow lines that can be taken by the user of the building within the building. It is arranged. When the user information is detected by the user detection sensor, the detected user information is input to the connected management device. From the management device, for at least some of the plurality of user detection sensors, information on the detection time at which the user detection sensor detected the user information and the usage at which the user information was detected are used. Location information indicating the location of the person detection sensor is output by the output means. The detection time information output by the output means is the detection time information at which the user detection sensor finally detected the user before the output by the output means.
[0014]
In the house security system according to claim 3, in the house security system according to claim 1 or 2, the management device sets an absence mode indicating that a predetermined user is absent from the building. Abnormality information output means for outputting abnormality information indicating an abnormality when the user detection sensor detects a user when the absence mode is set by the absence mode setting means. It has.
[0015]
According to the house security system of the third aspect, it operates in the same manner as the house security system of the first or second aspect, and additionally, when the absence mode is set by the absence mode setting means in the management device. When the user detection sensor detects a user, abnormality information indicating an abnormality is output by the abnormality information output unit.
[0016]
According to a fourth aspect of the present invention, in the house security system according to any one of the first to third aspects, the management device is configured such that the user information detected by the user detection sensor detects the user. User determination means for determining whether or not the user information is indicated, and when the user determination means determines that the user information indicates the detection of a user, the detection time of the user information is set. The detection time storage means stored in association with the user detection sensor of the detection source and the user information newly detected by the user detection sensor indicate the detection of the user by the user determination means. Is determined, the information of the detection time of the corresponding user detection sensor previously stored in the detection time storage means is updated according to the detection time of the user information, and Updating means for non-execution of updating the information of the detection time previously stored in the detection time storage means when the user information is judged not to indicate the detection of the user by the user judgment means. ing.
[0017]
According to the fourth aspect of the house security system, the house security system operates in the same manner as any one of the first to third aspects, and furthermore, the management apparatus uses the user information detected by the user detection sensor. It is judged by the user judging means whether or not it indicates the detection of the user. When the user information is determined by the user determination means to indicate the detection of the user, the detection time of the user information is associated with the user detection sensor of the detection source, and the detection time storage means Is stored. If the user information newly detected by the user detection sensor is determined to indicate the detection of the user by the user determination means, the detection time of the user information is stored in the detection time storage means in advance. The information on the detection time of the corresponding user detection sensor stored in the storage unit is updated by the updating unit. Further, when the user information newly detected by the user detection sensor is judged not to indicate the detection of the user by the user judgment means, the detection time information stored first in the detection time storage means. The update is not executed by the update means.
[0018]
The house security system according to claim 5, wherein the house security system according to any one of claims 1 to 4, wherein the house security system is connected to the management device and is disposed at a predetermined location of the building. An environment detection sensor for detecting current environment information on the indoor environment of the vehicle, wherein the output means includes: current environment information detected by the environment detection sensor; and an environment detection sensor that detects the environment information. It outputs the location information.
[0019]
According to the house security system according to the fifth aspect, it operates in the same manner as the house security system according to any one of the first to fourth aspects, and furthermore, manages the environment detection sensor disposed at a predetermined location of the building. It is connected to the device. The current environment information detected by the environment detection sensor is input to the management device. The input current environment information and information on the location of the environment detection sensor that has detected the environment information are output by the output unit.
[0020]
The house security system according to claim 6 is the house security system according to claim 5, wherein, of the user detection sensor and the environment detection sensor, an analog sensor that detects detection information using analog data is used to detect analog data. And a relay device that converts the digital data into digital data and is disposed near the analog sensor, and includes a sensor unit that has at least one of the user detection sensor and the environment detection sensor and is connected to the management device. The sensor unit converts analog data detected by the user detection sensor or the environment detection sensor into digital data by the relay device, and transmits the digital data to the management device.
[0021]
According to the house security system of the sixth aspect, the sensor operates in the same manner as the house security system of the fifth aspect, and further includes at least one of the user detection sensor or the environment detection sensor and a relay device. The unit is connected to the management device. Of the user detection sensor and the environment detection sensor provided in this sensor unit, for the analog sensor that detects the detection information as analog data, the detected analog data is output by a relay device arranged near the analog sensor. Converted to digital data. The converted digital data is transmitted from the sensor unit to the management device.
[0022]
According to a seventh aspect of the present invention, in the house security system according to the sixth aspect, the sensor unit and the management device are interconnected via a wired line.
[0023]
The house security system according to claim 8 is the house security system according to any one of claims 1 to 7, wherein the management device is installed remotely from the management device and output by an output unit of the management device. Are connected to each other via a wireless line to an information receiving apparatus that receives the information to be transmitted, and instructs the output means to output information in response to an information transmission request from the information receiving apparatus, and the output means Based on the information output instruction, the information is transmitted to the information receiving device, which is the information transmission request source, via the wireless line.
[0024]
According to the house security system of the eighth aspect, the operation is the same as that of the house security system of any one of the first to seventh aspects, and the management device receives information installed remotely from the management device. The devices are interconnected via a wireless line. When an information transmission request is made from the information receiving device, the management device instructs the output unit to output information in response to the information transmission request. Then, the information is transmitted to the information receiving device, which is the information transmission request source, via the wireless line by the output unit.
[0025]
According to a ninth aspect of the present invention, in the house security system according to the eighth aspect, the management device includes: an identification information storage unit configured to store identification information of the information receiving device registered in advance; When an information transmission request is made, identification information determining means for determining whether or not the identification information of the information receiving apparatus of the information transmission request source is stored in the identification information storage means; and the identification information determining means. When it is determined that the identification information of the information receiving device of the information transmission request source is not stored in the identification information storage unit, a transmission inhibiting unit that inhibits the output unit from transmitting information to the information receiving device. Have.
[0026]
According to the house security system of the ninth aspect, it operates in the same manner as the house security system of the eighth aspect, and when an information transmission request is made from the information receiving apparatus, the information transmission request source is determined by the identification information determination means. It is determined whether or not the identification information of the information receiving device is stored in the identification information storage means. Here, when it is determined that the identification information of the information receiving apparatus that has requested the information transmission is not stored in the identification information storage means, the information transmission to the information receiving apparatus by the output means is prohibited by the transmission prohibiting means. .
[0027]
A house security system according to a tenth aspect is the house security system according to any one of the first to ninth aspects, wherein the house security system is installed remotely with the management device and is mutually connected to the management device via a wireless line. An information receiving device is provided, the information receiving device includes a receiving unit that receives information output by an output unit of the management device, and a display device that displays data received by the receiving unit. .
[0028]
According to the tenth aspect of the house security system, it operates in the same manner as the one of the first to ninth aspects, and furthermore, the information receiving apparatus installed remotely from the management apparatus uses a wireless line. It is mutually connected with the management device through the. Information output from the output unit of the management device is received by the receiving unit of the information receiving device. Then, the data received by the receiving means is displayed by the display device.
[0029]
The house security system according to claim 11 is the house security system according to claim 10, wherein the arrangement location information received by the receiving unit and the information of the detection time are displayed on the display device in association with each other. It is.
[0030]
According to the house security system of the first aspect, each user detection sensor is provided at each of a plurality of places of the building which are active places of users of the building. When the user information is detected by the user detection sensor, the detected user information is input to the connected management device. From the management device, for at least some of the plurality of user detection sensors, information on the detection time at which the user detection sensor detected the user information and the usage at which the user information was detected are used. Location information indicating the location of the person detection sensor is output by the output means. The detection time information output by the output means is the detection time information at which the user detection sensor finally detected the user before the output by the output means.
[0031]
Therefore, there is an effect that the activity state (history) of the user in the building can be indicated by the information output by the output means. The information output regarding security is generally data at the time of detection. In such a case, the detection of the user simply indicates that the user is at the detection location or not at the time of the detection. For this reason, it is not possible to know the temporal progress of the state of the user. However, since the provided user detection sensor can output information on the detection time at which the user was last detected, it is possible to know the lapse of time of the state of the user. In other words, it is possible to go back in time and indicate where the user was in the building, and to describe the behavior of the building user in detail compared to simply showing the current location. It can be shown.
[0032]
For example, if the building is a private home, the user is the resident. In addition, the activity places of the user include living rooms such as a living room, a kitchen, a dining room, a bedroom, and a children's room, as well as corridors, stairs, and entrances used by residents in their daily lives. Therefore, if the user detection sensor provided in each of the living room, kitchen, dining room, bedroom, children's room, etc. outputs the time at which the resident was last detected from the management device, the behavior of the resident in the private home can be obtained. (Trajectory) can be grasped. For this reason, the guardian who is away can obtain the output information to accurately grasp the state of the child who is answering.
[0033]
It should be noted that the user detection sensor does not need to be provided only in the above-mentioned activity places, and does not necessarily need to be provided in all the above-mentioned activity places. Further, the building is not limited to a person's house, but includes, for example, a company, a hospital, and a public facility.
[0034]
According to the house security system of the second aspect, each of the user detection sensors is arranged at each of a plurality of locations of the building determined based on the traffic lines that can be taken by the user of the building within the building. Is established. When the user information is detected by the user detection sensor, the detected user information is input to the connected management device. From the management device, for at least some of the plurality of user detection sensors, information on the detection time at which the user detection sensor detected the user information and the usage at which the user information was detected are used. Location information indicating the location of the person detection sensor is output by the output means. The detection time information output by the output means is the detection time information at which the user detection sensor finally detected the user before the output by the output means.
[0035]
Therefore, there is an effect that the activity state (history) of the user in the building can be indicated by the information output by the output means. The information output regarding security is generally data at the time of detection. In such a case, the detection of the user simply indicates that the user is at the detection location or not at the time of the detection. For this reason, it is not possible to know the temporal progress of the state of the user. However, since the provided user detection sensor can output information on the detection time at which the user was last detected, it is possible to know the lapse of time of the state of the user. In other words, it is possible to go back in time and indicate where the user was in the building, and to describe the behavior of the building user in detail compared to simply showing the current location. It can be shown.
[0036]
For example, if the building is a private home, the user is the resident. In addition, a plurality of locations of the building determined based on the flow lines that the user can take in the building include living rooms such as a living room, a kitchen, a dining room, a bedroom, and a children's room, as well as corridors, stairs, and entrances. It is a place that residents use in their daily life. Therefore, if the user detection sensor provided in each of the living room, kitchen, dining room, bedroom, children's room, etc. outputs the time at which the resident was last detected from the management device, the behavior of the resident in the private home can be obtained. (Trajectory) can be grasped. For this reason, the guardian who is away can obtain the output information to accurately grasp the state of the child who is answering.
[0037]
It should be noted that the user detection sensor does not need to be provided only in the above-described locations, and does not necessarily need to be provided in all of the above-described locations. Further, the building is not limited to a person's house, but includes, for example, a company, a hospital, and a public facility.
[0038]
According to the house security system according to the third aspect, in addition to the effect of the house security system according to the first or second aspect, when the absence mode is set by the absence mode setting means in the management device, the system is used. When the person detection sensor detects the user, abnormality information indicating an abnormality is output by the abnormality information output means.
[0039]
Therefore, when a predetermined user is absent, when the user detection sensor detects a person, the output of the abnormality information can notify the occurrence of an abnormal situation.
[0040]
Here, as the predetermined user, for example, when the building is a private house, a family who is a resident is exemplified, and when the building is an office, an employee of the office is used. A member is exemplified. The present system that outputs information on the detection time at which a user of a building is detected can check the state of a child (user) who is answering at a private home, for example. However, even when the family is away, if the processing is performed in the same manner, not only will the output information be random, but also the security will be reduced. This is because the user detection sensor simply detects the user (human body) and operates similarly regardless of whether the user is a legitimate user.
[0041]
However, when the absence mode indicating that a predetermined user (family) is absent is set, the user information detected by the user detection sensor indicates the detection of the user (detects the human body). Then, it recognizes that an abnormal situation has occurred, and executes processing different from that when the absence mode is not set (output of abnormality information). Therefore, high security can be ensured.
[0042]
According to the house security system of the fourth aspect, in addition to the effect of the house security system of the first aspect, the user information detected by the user detection sensor in the management device is used. It is judged by the user judging means whether or not it indicates the detection of a user. When the user information is determined by the user determination means to indicate the detection of the user, the detection time of the user information is associated with the user detection sensor of the detection source, and the detection time storage means Is stored. If the user information newly detected by the user detection sensor is determined to indicate the detection of the user by the user determination means, the detection time of the user information is stored in the detection time storage means in advance. The information on the detection time of the corresponding user detection sensor stored in the storage unit is updated by the updating unit. Further, when the user information newly detected by the user detection sensor is judged not to indicate the detection of the user by the user judgment means, the detection time information stored first in the detection time storage means. The update is not executed by the update means.
[0043]
Here, the information on the detection time that needs to be output is the information on the time when the user detection sensor last detected the user at the location where the user detection sensor is provided. Therefore, when user information indicating that a user has been detected is detected, information of the detection time is stored, and user information indicating that a new user has been detected is detected. By updating the detection time information triggered by this, the time at which the user detection sensor last detected the user can be stored in the detection time storage means.
[0044]
Therefore, only the information of one detection time that needs to be output (information of the detection time at which each user detection sensor last detected a user) is stored in the detection time storage means for each user detection sensor. The detection time storage means can be designed with a memory having a small storage capacity. Further, there is an effect that reading of output information can be executed efficiently, and processing efficiency can be improved.
[0045]
According to the house security system of the fifth aspect, in addition to the effect of the house security system of any one of the first to fourth aspects, an environment detection sensor and a management device provided at a predetermined location of the building are provided. Is connected. The current environment information detected by the environment detection sensor is input to the management device. The input current environment information and information on the location of the environment detection sensor that has detected the environment information are output by the output unit.
[0046]
Therefore, in addition to the information of the detection time (the activity state (history) of the user in the building), the environment information detected by the environment detection sensor can be output, and the state of the building user can be grasped. There is an effect that more detailed and advanced information can be provided to those who want to.
[0047]
Here, as for the indoor environment of the building, it is important to provide information indicating the current state of the indoor environment. That is, if there is a large time difference between the output time of the environment information and the detection time, the current indoor environment cannot be accurately transmitted. In this system, the information of the detection time is the information of the time at which each of the user detection sensors last detected the user (before outputting the information). Since the information shown can be output, accurate information can be provided.
[0048]
According to this, it is possible to notify the person who wants to grasp the state of the building user (indoor environment) to the environmental change caused by the action of the user, and to analyze the situation of the building user in a complex manner. This has the effect that the state can be grasped more accurately.
[0049]
The environment information includes, for example, temperature, illuminance, humidity, indoor gas composition, and the like, and the environment detection sensor includes, for example, sensors that detect such environment information.
[0050]
According to the house security system of the sixth aspect, in addition to the effects achieved by the house security system of the fifth aspect, a sensor unit including at least one of the user detection sensor or the environment detection sensor and a relay device is provided. , Connected to the management device. Of the user detection sensor and the environment detection sensor provided in this sensor unit, for the analog sensor that detects the detection information as analog data, the detected analog data is output by a relay device arranged near the analog sensor. Converted to digital data. The converted digital data is transmitted from the sensor unit to the management device.
[0051]
Therefore, analog detection data which is easily affected by noise and in which signal attenuation is apt to occur can be converted into digital data in the vicinity of the detection location (position where the sensor is disposed), so that high quality with little signal deterioration can be obtained. There is an effect that user information formed by an electric signal can be input to the management device.
[0052]
According to the house security system of the seventh aspect, in addition to the effect of the house security system of the sixth aspect, the sensor unit and the management device are connected to each other via a wired line, so that they are inexpensive and reliable. There is an effect that a highly reliable system can be provided.
[0053]
According to the house security system of the eighth aspect, in addition to the effect of the house security system of any one of the first to seventh aspects, the management device is provided in an information receiving device installed remotely from the management device. , Are interconnected via a wireless line. When an information transmission request is made from the information receiving device, the management device instructs the output unit to output information in response to the information transmission request. Then, the information is transmitted to the information receiving device, which is the information transmission request source, via the wireless line by the output unit.
[0054]
Therefore, information indicating the state of the user of the building (information on the detection time at which the user was detected and the location information indicating the position) is provided to the person located remotely from the building by the information receiving device. There is an effect that can be. In addition, information output via a wireless line has a low risk of disconnection like a wired line, so that there is an effect that information can be reliably transmitted from the management device to the information receiving device.
[0055]
According to the house security system of the ninth aspect, in addition to the effect of the house security system of the eighth aspect, when an information transmission request is made from the information receiving device, the information of the information transmission request source is determined by the identification information determination means. It is determined whether the identification information of the receiving device is stored in the identification information storage means. Here, when it is determined that the identification information of the information receiving apparatus that has requested the information transmission is not stored in the identification information storage means, the information transmission to the information receiving apparatus by the output means is prohibited by the transmission prohibiting means. .
[0056]
Therefore, since information is not provided from the management device unless the information receiving device is a registered information receiving device, high security can be ensured. The information provided (transmitted) from the management device to the information communication device indicates the state of the user of the building. Therefore, if such information is provided to an unspecified information receiving device carelessly, the security of the building is reduced. However, since the information is not provided from the management device to the unregistered information receiving device, the security is not reduced.
[0057]
According to the house security system of the tenth aspect, in addition to the effect of the house security system of any one of the first to ninth aspects, the information receiving device installed remotely with the management device can be connected via a wireless line. Interconnected with the management device. Information output from the output unit of the management device is received by the receiving unit of the information receiving device. Then, the data received by the receiving means is displayed by the display device.
[0058]
Therefore, information indicating the state of the user of the building (information on the detection time at which the user was detected and the location information indicating the position) is provided to the person located remotely from the building by the information receiving device. There is an effect that can be. In addition, information output via a wireless line has a low risk of disconnection like a wired line, so that there is an effect that information can be reliably transmitted from the management device to the information receiving device.
[0059]
Further, since the information output from the management device is displayed on the display device of the information communication device, such information can be visually confirmed. Therefore, even when information on the detection time at which the user detection sensor detects the user is provided for a plurality of user detection sensors, it is easier to recognize than when such information is provided by voice or the like.
[0060]
A house security system according to an eleventh aspect provides, in addition to the effect achieved by the house security system according to the tenth aspect, the arrangement location information received by the receiving means and the information on the detection time are associated with each other and displayed on a display device. Therefore, there is an effect that it is possible to accurately grasp at which position and when the user is detected.
[0061]
Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is an external view schematically showing a house security system 1 installed in a general private house for the purpose of crime prevention and disaster prevention, which is an embodiment of the house security system of the present invention.
[0062]
The house security system 1 has a built-in human body sensor 28 (see FIG. 2), and also connects a handset 20 connected to various sensors (external device 10) to a house (house and veranda attached to the house). Prepared in various places. In the present embodiment, each child device 20 is provided for each monitoring area, that is, for each entrance, living room, kitchen, first floor corridor, first floor bedroom, toilet, second floor corridor, second floor child room. Is provided.
[0063]
Here, the external device 10 connected to the slave unit 20 includes a plurality of individual devices, that is, a temperature sensor 2, an illuminance sensor 3, a humidity sensor 4, a gas leak sensor 5, a smoke sensor 6, and a buzzer 7 (see FIG. 2). ). Temperature data, illuminance data, humidity data, gas data, and smoke data detected by the external device 10 are input to the slave 20. Further, of the data input to the slave unit 20, the analog data detected by the analog sensor is converted into digital data. For this reason, the slave unit 20 is provided near the analog sensor, and converts the detected analog data into digital data near the analog sensor.
[0064]
The detection data of each of the sensors 2 to 6 and 28 input to the slave unit 20 is transmitted as digital data to a master unit 40 to be described later via a wired line 35. An identification number is assigned to each slave unit 20, and the identification data of the slave unit 20 is added to the detection data of the external device 10 and the human body sensor 28 connected to the slave unit 20, and the master unit 40. Sent to.
[0065]
The child device 20 also has two connectors (a first connector 26 and a second connector 27, see FIG. 2), and through the first connector 26 and the second connector 27, the parent device 40 or another connector. The slave unit 20 is connected. That is, the child device 20 is configured to be directly connected to the parent device 40 and indirectly connected to the parent device 40 via another child device 20.
[0066]
Specifically, one child device 20 or parent device 40 located on the parent device side is connected to the first connector 26, and one child device 20 located on the opposite side to the parent device side is connected to the second connector 27. The child device 20 is connected. Here, the slave 20 is connected to only one device on each side (the master and the opposite side). Therefore, the plurality of slave units 20 are connected to the master unit 40 so as to be continuous on one line. In other words, the plurality of slave units 20 are connected to the same data transmission path, and in such a case, data communication between the master unit 40 and the slave unit 20 is performed via (passing) another slave unit 20. You. In FIG. 1, seven slaves 20 are connected to the same data transmission path, and one slave 20 is connected to another data transmission path.
[0067]
As described above, since the identification number of the child device 20 is added to the detection data transmitted from the child device 20 to the parent device 40, even if a plurality of child devices 20 are connected to the parent device 40 (1). Even if a plurality of slaves 20 are connected to the data transmission path), the data is reliably transmitted to the master 40 of the transmission destination.
[0068]
The house security system 1 includes one parent device 40 in a house, which is directly or indirectly connected to the above-mentioned child device 20 via a wired line 35. The parent device 40 is a device for managing detection data of each of the sensors 2 to 6, 28 transmitted from the child device 20 to the parent device 40. In the master unit 40, it is determined whether the detection data transmitted from the slave unit 20 is a value indicating an abnormality. When the resident is at home, the activity history of the resident is stored by storing the detection time at which the human body sensor 28 detects the human body.
[0069]
The master unit 40 includes a liquid crystal display device (hereinafter simply referred to as “LCD”) 48, an input device 49 for inputting various setting values, and an LED 51 on a front surface of the device main body.
[0070]
The LCD 48 is provided at an upper part on the front surface of the main body of the master unit 40. The LCD 48 is a display device for monitoring processing executed by the base unit 40 and received detection data. When the setting of the parent device 40 or the child device 20 is performed by the input device 49 described later, the input data, the operation procedure, and the like are displayed on the LCD 48.
[0071]
An input device 49 is provided below the LCD 48. The input device 49 is for inputting various setting values to the master device 40, and includes a designation button and an input button. The designation button is a button for designating one device, and is provided for the number of one parent device 40 and the child devices 20 that can be connected to the parent device 40. Numbers 0 to 20 are assigned to the designation buttons. The designation button of “0” corresponds to the parent device 40, and the designation buttons of “1” to “20” correspond to the identification numbers “1” to “20” for designating the child device 20, respectively. When the designated button is pressed, an identification number corresponding to the number of the pressed designated button is designated. Then, data input by continuously operating the input button is stored in master device 40 as data corresponding to the previously specified identification number.
[0072]
The input button is configured to allow character input. By operating this input button, information (“living room”, “kitchen”) and the like of the location where the child device 20 is arranged can be input to the parent device 40. As a result, in the parent device 40, the identification number of the child device 20 is associated with the information of the arrangement location. In other words, the information on the arrangement location is identification information for specifying one slave 20.
[0073]
An LED 51 (not shown in FIG. 1, see FIG. 2) is provided alongside each of the designation buttons. The LED 51 is turned on when a corresponding (combined) designation button is pressed, and visually recognizes which device has been selected. When an abnormality occurs, the LED 51 is turned on to notify the child device 20 that has detected the abnormality together with the buzzer 52 (see FIG. 2).
[0074]
A connector (first connector 53, see FIG. 2) for connecting the child device 20 is provided on the back of the parent device 40, and a plurality of child devices 20 are connected via a wired line 35. It has become so. As described above, the child device 20 is configured to be indirectly connectable to the parent device 40 via another child device 20. Many slave units 20 can be connected (managed) without being restricted.
[0075]
Further, master device 40 is provided with an outing mode setting switch 57 (see FIG. 2). The outside mode setting switch 57 is provided inside the housing of the base unit 40, and is operated by opening an opening / closing unit provided in a part of the housing of the base unit 40. The outing mode setting switch 57 is a switch for switching between setting and non-setting of the outing mode, and is configured by a slide switch. When the switch is at one end, the outing mode is set. When the out-of-home mode is set, the person detected by the human body sensor 28 is determined to be an intruder, and a buzzer sound is output and an emergency notification process for reporting the intruder (S25, see FIG. 6) is executed. On the other hand, when the switch is at the other end opposite to the one end, the going-out mode is canceled. When the out-of-home mode is canceled, the person detected by the human body sensor 28 is determined as a resident, and information of the detection time is stored in the base unit 40.
[0076]
The outside mode switch 57 is provided inside the housing of the base unit 40 so that it is difficult for an intruder to cancel the outside mode. It may be configured to be released by inputting a keyword (out-of-home mode is not set). Immediately after the setting of the outside mode by the outside mode switch 57, the intruder detected by the human body sensor 28 is likely to be a resident. In addition, the resident who has returned home is detected as an intruder until the user goes out of the outing mode. Therefore, the house security system is configured to skip the process for making an emergency call between the time after the outing mode is set and the time after the human body is detected by the human body sensor 28 even during the setting of the outing mode. 1 may be configured.
[0077]
Master device 40 includes mobile phone 56. The mobile phone 56 transmits detection data and reports an alarm to a telephone number (data receiving device) registered in the base unit 40 based on an instruction from the base unit 40. Here, the data receiving device is a mobile phone 100 owned by a resident or a personal computer (hereinafter simply referred to as “PC”) 110 of a security company. The transmission of the detection data from the mobile phone 56 to the mobile phone 100 and the PC 110 is performed at a time set by the operator of the base unit 40 or based on a transmission request from a registered telephone number (the mobile phone 100 and the PC 110). Be executed. In addition, the notification of the alarm is executed to the mobile phone 100 and the PC 110 when an abnormality is determined as a result of the abnormality determination of the detection data.
[0078]
The data transmitted from the mobile phone 56 is composed of character information in a mail format, that is, mail data generally called short mail or the like. Such mail data is created by the base unit 40 and is input to the mobile phone 56 from the base unit 40 together with the telephone number of the transmission destination. Note that the mobile phone 56 is connected to the mobile phone 100 and the PC 110 via a wireless line 60 (data transmission from the base unit 40 is performed via the wireless line 60). Therefore, unlike the case where the connection is established via a wired line, the line is not easily disconnected by an intruder, and the occurrence of the abnormality is reliably reported to the mobile phone 100 or the PC 110.
[0079]
Master device 40 configured as described above transmits a command to connected slave device 20 and causes slave device 20 to execute a process based on the command. For example, master device 40 transmits a detection data request command requesting detection data to slave device 20 and causes slave device 20 to transmit the detection data. In addition, when the transmission source sub-unit 20 performs an operation based on the detection data transmitted from the sub-unit 20 (for example, a switch operation such as turning on / off a light or opening / closing a window), it corresponds. A command is transmitted to the slave 20 and the slave 20 is caused to execute a process corresponding to the command.
[0080]
A telephone line (wireless line 60) for connecting the base unit 40 (mobile phone 56) to the mobile phone 100 and the PC 110 is not shown, but is not shown in the drawings. Exists. Further, a mail server of a telephone company is connected. Therefore, when the mobile phone 100 is disconnected, the mail data transmitted from the base unit 40 is stored in the mail server until the communication state is restored (up to 72 hours), and is stored when the communication state is restored. The mail data is transmitted to the destination mobile phone 100. Further, PC 110 is connected to the Internet using a telephone line, and is configured to be able to receive mail data transmitted from master device 40 via the telephone line (wireless line 60).
[0081]
FIG. 2 is a block diagram showing an electrical configuration of the house security system 1 configured as described above. As shown in FIG. 2, in the house security system 1, sensors 2 to 6 for detecting various data are connected to the slave 20 as an external device 10.
[0082]
The analog sensors 2 to 4 connected to the child device 20 as the external device 10 are sensors that detect the surrounding situation where the devices are installed by analog data. Generally, the detection target of a sensor is determined by its specifications (type of sensor). The temperature sensor 2 detects a temperature (temperature data), and can detect a fire based on the detected temperature. The illuminance sensor 3 detects brightness (illuminance data), and the humidity sensor 4 detects humidity (humidity data). The indoor situation (environment) can be detected by the sensors 2 to 4.
[0083]
Further, in the house security system 1 of the present embodiment, a gas leak sensor 5 which is a digital sensor and a smoke sensor 6 are provided as the external devices 10. The gas leak sensor 5 is a sensor that detects gas (gas data) used in ordinary households such as city gas and natural gas. The smoke sensor 6 detects smoke (smoke data) to detect the occurrence of a fire. The sensors 5 and 6 are connected to the slave 20 via a photocoupler 30 of the slave 20 described later. Further, a buzzer 7 is provided as the external device 10, and the buzzer 7 is connected to the slave 20 via a photo MOS relay 31 of the slave 20 described later.
[0084]
In addition, as for the sensors 2 to 6, sensors of a type suitable for the monitoring area are appropriately selected for each monitoring area (each room in a house) and connected to the slave unit 20 installed in the monitoring area. You. The sensors used are not limited to the above-described sensors 2 to 6, but include, for example, a vibration sensor attached to a window for detecting an intruder from the window, a CO2 sensor for detecting a standard of indoor ventilation, When there is a care recipient, a care sensor or the like that detects the state of the care recipient is used as needed.
[0085]
The slave 20 is a device for relaying the detection data detected by the sensors 2 to 6, 28 to the master 40, and includes an MPU 21 as a one-chip microcomputer as shown in FIG.
[0086]
The MPU 21 is an arithmetic processing unit having an arithmetic function and a control function, and includes a ROM 22 for storing a control program and a RAM 23 for rewritably storing various data when executing the control program in one chip. It is.
[0087]
The ROM 22 stores a control program for controlling the child device 20, various fixed values, and the like. Programs for data conversion processing (see FIG. 9) and detection data transmission processing (see FIG. 10), which will be described later, are stored in the ROM 22 as a part of the control program.
[0088]
The RAM 23, which is a rewritable memory, includes a transmission memory 23a. The transmission memory 23a is a memory for temporarily storing detection data to be transmitted to the parent device 40. In the slave unit 20, the sampling of the detection data is constantly performed based on a predetermined sampling time, and the sampled detection data is stored in a predetermined area of the RAM. Then, the detection data stored in a predetermined area of the RAM 23 is written to the transmission memory 23a at a timing when the detection data request command transmitted from the master unit 40 is received. The data stored in the transmission memory 23a is transmitted to the parent device 40 after the identification number of the child device 20 is added. After the transmission of the data, the data stored in the transmission memory 23a is cleared.
[0089]
The MPU 21 is connected to an input / output port 25. The input / output port 25 includes an A / D converter 34, a human body sensor 28, a setting switch 29, a photocoupler 30, a photo moss relay 31, The AC switch 32 is connected to the first and second connectors 26 and 27.
[0090]
The A / D converter 34 converts analog data detected by analog sensors such as the temperature sensor 2, the illuminance sensor 3, and the humidity sensor 4 into digital data. The conversion of analog data performed by the A / D converter 34 is performed by a general method, and a description thereof will be omitted.
[0091]
The temperature sensor 2, the illuminance sensor 3, and the humidity sensor 4 are connected to the input of the A / D converter 34. The A / D converter 34 is provided with a port for connecting each of the sensors 2 to 4 corresponding to each of the sensors 2 to 4, and each of the sensors 2 to 4 is connected to a corresponding port. The A / D converter 34 outputs data of each sensor through a signal line predetermined for each sensor, and the output data is input to an input port of the input / output port 25 corresponding to each sensor. Is done. Thereby, the slave 20 recognizes the affiliation of the input detection data (the detection source sensor of the detection data).
[0092]
The analog data detected by the temperature sensor 2, the illuminance sensor 3, and the humidity sensor 4 by the A / D converter 34 is converted into digital data in the vicinity of the analog sensor and transmitted to the master unit 40 in the form of digital data. You. For this reason, the child device 20 can transmit a high-quality signal with little signal deterioration to the parent device 40.
[0093]
The human body sensor 28 is a thermal infrared sensor using a pyroelectric element, and detects infrared light from within the monitoring area. Thus, a human body that emits infrared rays can be detected, and a person in the monitoring area can be detected. The human body sensor 28 is built in the child device 20, and the detected human body detection data is transmitted to the parent device 40.
[0094]
The setting switch 29 is for setting an identification number of the slave 20. In the present embodiment, the master unit 40 is configured so that up to 20 slave units 20 can be connected. The setting switch 29 is composed of 20 switches for inputting numbers 1 to 20 so that an identification number can be added to each of the 20 slave units 20. In the slave unit 20, the numbers 1 to 20 are (electrically) recognized according to the position of the switch where the setting switch 29 is pressed. In each slave unit 20, another switch is pressed so that a different number is assigned. Then, the number given by the setting switch 29 becomes the identification number of the slave 20. In the base unit 40, as will be described later, the identification number set in the slave unit 20 by the setting switch 20 matches the identification number managed in the base unit 40, and various settings (data Input).
[0095]
The photocoupler 30 is a device that converts an electric signal transmitted from a connected device into an optical signal and inputs the optical signal. The gas leak sensor 5 and the smoke sensor 6 are connected to the photocoupler 30 as described above. The photocoupler 30 converts the digital signal transmitted from the gas leak sensor 5 and the smoke sensor 6 into an optical signal and emits light (at the light emitting unit). The emitted light is received by a light receiving unit disposed at a predetermined distance from the light emitting unit, converted into an electric signal again, and input to the input / output port 25. Here, since the light emitting unit and the light receiving unit are not in contact with each other, a signal transmission path is partially formed in a non-contact manner. According to this, even if a large noise is present in the input digital signal (a large voltage load due to a lightning strike or the like), this can be cut off.
[0096]
The photo MOS relay 31 is a power saving relay, and the buzzer 7 is connected. The buzzer 7 operates according to a command from the base unit 40 and outputs a buzzer sound when the detection data detected by the sensors 2 to 6, 28 connected to the slave unit 20 is abnormal. Here, since the buzzer 7 outputs a buzzer sound until the abnormality (alarm) is eliminated, the power consumption is large. For this reason, power consumption is suppressed by using a photo MOS relay.
[0097]
The AC switch 32 performs a switching operation of various connected devices based on detection data of the sensors 2 to 6 and 28 connected to the slave unit 20. This switching operation is performed based on a command transmitted from master device 40. Thus, for example, if a lighting device is connected to the AC switch 32, the lighting device can be turned on based on the detection data of the human body sensor 28. If a window opening / closing device is connected to the AC switch 32, the window can be opened / closed based on data detected by the humidity sensor 4.
[0098]
The first connector 26 is a connector for connecting the child device 20 to the parent device 40 or the child device 20 located on the parent device side. The second connector 27 is a connector for connecting the slave 20 located on the side opposite to the master. The slave unit 20 is connected to the two connectors 26 and 27 by a wired line 35, and is connected to another slave unit 20 or the master unit 40 via the wired line 35. Thus, as described above, a plurality of slave units 20 can be connected so as to be continuous with one data transmission path.
[0099]
Base unit 40 determines the presence / absence of an abnormality based on the detection data transmitted from handset 20 and notifies the resident (mobile phone 100) of the out-of-home location of the resident at home (history of behavior). It is a device that provides information and information about the indoor environment. The master unit 40 includes an MPU 41 as a one-chip microcomputer, a flash memory 45, an EEPROM 46, an input / output port 47, an LCD 48, an input device 49, an outside mode setting switch 57, an LED 51, a buzzer 52, A first connector 53, a second connector 54, an interface 55, and a mobile phone 56 are provided.
[0100]
The MPU 41 is an arithmetic processing unit having an arithmetic function and a control function. The MPU 41 has a ROM 42 for storing a control program, a RAM 43 for rewritably storing various data when executing the control program, and a real-time clock (hereinafter simply referred to as “ RTC ") 44 in one chip. The MPU 41 transmits a detection data request command requesting transmission of the detection data to each of the slave units 20 in order at predetermined timings (for example, so that the detection data from all the slave units 20 can be acquired within about one second). . In response to the transmitted detection data request command, the MPU 41 waits for a command transmission to another child device 20 for a predetermined time until the detection data is transmitted from the child device 20 of the transmission destination. As a result, even when one data transmission path (one wired line 35) is shared by a plurality of slaves 20, signals do not collide.
[0101]
The ROM 42 stores a control program for controlling the master unit 40, various fixed values, and the like. Programs for management processing (see FIG. 5) and data reception processing (see FIG. 6), which will be described later, are stored in the ROM 42 as a part of the control program. Also, determination data for determining whether the detection data detected by each of the sensors 2 to 6, 28 is an abnormal value is stored for each sensor.
[0102]
The RAM 43, which is a rewritable memory, includes a reception buffer 43a and a transmission buffer 43b. The reception buffer 43a is a buffer memory for temporarily storing the detection data transmitted from each slave unit 20. Signals and data are frequently transmitted from the slave units 20 to the master unit 40, but the data reception speed is lower than the processing speed of the MPU 41. For this reason, if the MPU 41 executes the data processing while performing the data reception, the data reception processing is affected and the processing efficiency of the MPU 41 is reduced. However, by temporarily storing the received data in the reception buffer 43a, it is possible to cause the MPU 41 to efficiently execute the processing of the received data.
[0103]
The transmission buffer 43b is a memory for temporarily storing mail data (detection data and alarm) to be transmitted to the mobile phone 100 or the PC 110. From the base unit 40, the detection data detected by the sensors 2 to 6 and 28 (when an abnormality occurs, the detection data to which the information reporting the abnormality is added) is periodically or when an abnormality occurs, and the mobile phone 100 or Sent to PC 110. Here, the transmitted detection data must be visually recognizable character information in the received mobile phone 100 or PC 110. In addition, it must be described according to a predetermined protocol that can be transmitted and received via a telephone line. For this reason, when transmitting the detection data, the detection data (alarm) is converted into a mail data format and then written into the transmission buffer 43b. The data written in the transmission buffer 43b is input to the mobile phone 56 via the second connector 54.
[0104]
The RTC 44 is an IC that measures time in years, months, days, days of the week, hours, minutes, and seconds. The MPU 41 recognizes the current time based on the measurement value of the RTC 44. Thereby, it is possible to determine whether or not the current time is the time at which the detection data is transmitted (scheduled transmission).
[0105]
Further, if the detection data of the human body sensor 28 transmitted from the slave 20 is a value detected by the human body, the reception time is recognized from the measurement value of the RTC 44, and the slave corresponding to the slave 20 of the transmission source of the detection data. The data is written to the memory 46f (any of the child device memories 46f1 to 46f20). Since the time difference between the time at which the data is detected by the human body sensor 28 and the time at which the detection data is received at the master unit 40 is small, in the present embodiment, the data reception time at the master unit 40 is determined by the human body sensor 28 of the data. Is the detection time. It should be noted that an RTC may be provided in the slave unit 20 and the data detection time of the human body sensor 28 may be determined by the RTC of the slave unit.
[0106]
To the RTC 44, a battery circuit 44a for supplying a backup voltage to the RTC 44 after the power of the parent device 40 is turned off is connected. The RTC 44 can continue measuring time even after the power of the base unit 40 is turned off by the battery circuit 44a.
[0107]
The flash memory 45 is a rewritable nonvolatile memory. The flash memory 45 is a program storage memory provided for inputting (installing) a program that has not been input (installed) in the master device 40 in the initial state to the master device 40. When a program is stored in the flash memory 45, the program is used in preference to the program stored in the ROM 42. As a result, it is possible to upgrade the program for controlling the master device 40, for example. The writing to the flash memory 45 is executed from a PC or the like connected via the interface 55.
[0108]
The EEPROM 46 is a rewritable nonvolatile memory, and various setting values set in the master unit 40 (input by operating the input device 49) are stored in the EEPROM 46 in a nonvolatile manner, and are retained even after the power is turned off. You. The EEPROM 46 stores an out-of-office setting flag 46g for storing the set value of the base unit 40, a mail transmission flag 46a, a scheduled transmission flag 46b, a security mode flag 46c, a telephone number memory 46d, a transmission time memory 46e, and a set value of the handset 20. And first to twentieth child device memories 46f1 to 46f20 for storing detection data transmitted from the child device 20.
[0109]
Flags such as an outing setting flag 46g, a mail transmission flag 46a, a regular transmission flag 46b, and a security mode flag 46c are provided for determining a predetermined state. The MPU 41 recognizes different states depending on whether the flag is on or off. Specifically, the outing setting flag 46g is a flag that is set on and off by the above outing mode setting switch 57. When the outside mode setting switch 57 is located at one end, a signal indicating that the outside mode is set is input, and the outside setting flag is turned on based on the signal input. When the outside mode setting switch 57 is located at the other end, a signal indicating that the outside mode is in the released state is input, and the outside setting flag is turned off based on the signal input.
[0110]
The mail transmission flag 46a indicates whether or not mail transmission to the data receiving device (PC 110) having the mail address is set. When the mail transmission flag 46a is on, transmission of detection data (periodic transmission and emergency notification) via the Internet to the PC 110 whose mail address is registered in the parent device 40 is executed. On the other hand, when the mail transmission flag 46a is on, the transmission of the detection data to the PC 110 is not executed. The turning on and off of the mail transmission flag 46a is executed by operating the input device 49. This mail address is stored in a telephone number memory 46d described later.
[0111]
The regular transmission flag 46b is a flag for designating execution and non-execution of the regular transmission of the detection data. When the regular transmission flag 46b is ON, the regular transmission of the detection data is executed for the registered telephone number (mail address). The turning on and off of the regular transmission flag 46b is executed by operating the input device 49, similarly to the mail transmission flag 46a.
[0112]
The security mode flag 46c is a flag for notifying the MPU 41 of the operation mode of the house security system 1. Only when this flag 46c is ON, master device 40 executes a later-described management process (see FIG. 5) and a data reception process (see FIG. 6) to ensure security. The security mode flag 46c is turned on when a predetermined operation (for example, pressing of a start button) is performed on the input device 49. The security mode flag 46c is turned off when a release operation is performed on the input device 49 (for example, by inputting a release button or inputting a password), and the security mode is released.
[0113]
The security of buildings such as dwellings is mainly for implementing crime prevention and disaster prevention during absence. Further, the house security system 1 of the present embodiment is configured so that a resident who is out of the home can check the state of the resident by grasping the behavior history of the resident at home. Therefore, the guardian at work can check the status of the answering child who has returned home earlier.
[0114]
However, when all residents return home, such security is often unnecessary. For this reason, in the house security system 1 of the present embodiment, the resident can release the security mode.
[0115]
The telephone number memory 46d is a memory for storing telephone numbers and mail addresses registered in the base unit 40. The telephone number memory 46d stores a plurality of telephone numbers (mail addresses). In this embodiment, the telephone number of the mobile phone 100 and the mail address of the PC 110 are stored. The scheduled transmission and the emergency call are executed to a telephone number or a mail address stored in the telephone number memory 46d. Further, the telephone number stored in the telephone number memory 46d is an inquiry number that can inquire of the base unit 40 about the detection data. When the telephone number of the mobile phone 56 provided in the base unit 40 is called from the telephone number, the MPU 41 executes a process for transmitting the detection data to the telephone number (response data transmission process, S23). Is done. The input of the telephone number and the mail address stored in the telephone number memory 46d is executed by operating the input device 49.
[0116]
The transmission time memory 46e is a memory for storing a time at which the scheduled transmission is performed. The scheduled transmission is executed based on the time stored in the transmission time memory 46e. The time input by a predetermined operation of the input device 49 of the master unit 40 is written in the transmission time memory 46e.
[0117]
The first to twentieth sub-unit memories 46f1 to 46f20 are provided corresponding to the respective sub-units 20, and store data (set values) of the respective sub-units 20 and detection data transmitted from the corresponding sub-units 20. Is stored in the memory. For this reason, the child device memories 46f1 to 46f20 are provided by the number of child devices 20 that can be connected to the parent device 40. Data (set values) are written into the first to twentieth child device memories 46f1 to 46f20 by operating the input device 49.
[0118]
The memory configuration of the first to twentieth slave unit memories 46f1 to 46f20 will be described with reference to FIG. FIG. 3 is a diagram showing a memory configuration of the first child device memory 46f1 of the child device memory 46f. The first slave unit memory 46f1 is a memory that stores information of the slave unit 20 corresponding to the identification number “1”. The other child unit memories 46f2 to 46f20 store information of the child units 20 corresponding to the identification numbers “2” to “20”, respectively, and are configured in the same manner as the first child unit memory 46f1. Therefore, the description is omitted.
[0119]
As shown in FIG. 3, the first slave unit memory 46f1 includes an arrangement location memory 46f1a, a time memory 46f1b, a human body sensor memory 46f1c, a temperature sensor memory 46f1d, an illuminance sensor memory 46f1e, a humidity sensor memory 46f1f, A gas sensor memory 46f1g and a smoke sensor memory 46f1h are provided.
[0120]
In each of the first to twentieth child device memories 46f1 to 46f20, an identification number corresponding to one identification number given to the child device 20 is stored in advance. The first slave unit memory 46f1 is a memory for storing information of the slave unit 20 with the identification number "1". Each of the memories 46f1a to 46f1h stores information of the slave unit 20 with the identification number "1". It is remembered.
[0121]
The placement location memory 46f1a is a memory that stores information on the placement location of the child device 20. As described above, the information on the location is input by operating the input device 49, and the location memory 46f1a stores the information “location” of the location of the slave 20 to which the identification number “1” is assigned. Is stored.
[0122]
The time memory 46f1b stores information on the detection time when the detection data (human body detection data) of the human body sensor 28 provided in the slave unit 20 having the identification number “1” is a value at which a human (human body) is detected. It is a memory for storing. Every time the human body sensor 28 newly detects a human body, the time memory 46f1b updates the information of the detection time previously stored according to the detection time. That is, the detection time at which the human body sensor 28 of the child device 20 with the identification number “1” last detected the human body is stored in the time memory 46f1b.
[0123]
The human body sensor memory 46f1c, the temperature sensor memory 46f1d, the illuminance sensor memory 46f1e, the humidity sensor memory 46f1f, the gas sensor memory 46f1g, and the smoke sensor memory 46f1h are human body detection data, temperature data, illuminance data, humidity data, gas detected by each sensor. This is a memory for storing data and smoke data, respectively. Each time the parent device 40 receives new detection data, the values of the memories 46f1c to 46f1h are updated with the received detection data. The master unit 40 sets the interval of the data reading time (transmission of the detection data request command to each slave unit 20) to a short time (for example, 0.1 second or the like), thereby approximating the real-time detection data. Is stored in each child device memory 46f.
[0124]
Note that which sensor data is stored in each of the first to twentieth child device memories 46f1 to 46f20 is designated by an input operation of the input device 49. That is, the type of sensor provided in each slave unit 20 is input from the input device 49 in association with the identification number of the slave unit 20. Specifically, an identification number is specified by a numerical value of “1” to “20” specified by the specification button, and the type of the sensor input thereafter is set to the slave unit 20 having the previously input identification number. The information is stored in the corresponding first to twentieth child device memories 46f1 to 46f20 as provided sensors. That is, in each of the first to twentieth child device memories 46f1 to 46f20, a memory corresponding to the type of the input sensor is allocated.
[0125]
The data transmitted from each child device 20 to the parent device 40 is provided with the identification number of the transmission child device 20, and the detection of each of the sensors 2 to 6, 28 transmitted from one child device 20 is performed. A code (sensor code) indicating which sensor data is given to the data. Thereby, master device 40 can write the received detection data to an appropriate memory.
[0126]
Returning to FIG. The MPU 41, the flash memory 45, and the EEPROM 46 are connected to each other via a bus line 50, and the bus line 50 is also connected to an input / output port 47. The input / output port 47 is connected to an LCD 48, an input device 49, an outside mode setting switch 57, an LED 51, a buzzer 52, a first connector 53, a second connector 54, and an interface 55 in addition to the bus line 50.
[0127]
The first connector 53 is a connector for connecting the parent device 40 and the child device 20. The first connector 53 is configured to be able to connect to a plurality of wired lines 35 each having one end connected to the slave unit 20. The second connector 54 is a connector for connecting the main unit 40 and a mobile phone 56 provided in the main unit 40. The mobile phone 56 is connected to the main body of the parent device 40 via the second connector 54.
[0128]
The mobile phone 56 is a device for transmitting data to the mobile phone 100 or the PC 110, and includes an automatic dial circuit. The MPU 41 reads out the telephone number (mail address) stored in the above-mentioned telephone number memory 46d at the time of the scheduled transmission or the emergency call, and transmits the telephone number and the mail data to be transmitted to the mobile phone 100 or the PC 110. Send to phone 56. When receiving the telephone number and the mail data transmitted from base unit 40, mobile phone 56 calls the received telephone number by an automatic dial circuit, and transmits the mail data when the line is closed. As a result, the detection data is transmitted from the base unit 40 to the destination mobile phone 100 or PC 110 via the wireless line 60.
[0129]
When a call signal is received (data transmission request), the mobile phone 56 transmits the call signal and the telephone number of the caller to the MPU 41 as a response request command. Based on this, base device 40 determines whether or not the call is from a registered telephone number. Then, if the call is from a registered telephone number (reception of a valid response request command), a response data transmission process (S23) is executed.
[0130]
FIG. 4 is a diagram schematically illustrating a state in which transmission data transmitted from the mobile phone 56 to the mobile phone 100 in the response data transmission process (S23) is displayed on the display device of the mobile phone 100. FIG. 4A shows data transmitted at the time of setting the out-of-home mode indicating that no resident is present, and FIG. 4B shows the data of the out-of-home mode (indicating that there is a home resident). Data transmitted when not set is shown. If the transmission data cannot be displayed on one display screen of the mobile phone 100, a part of the screen is displayed on one screen, and all the transmission data are sequentially displayed by scrolling the screen.
[0131]
FIG. 4A is a display screen 60 showing information on the house at 17:00 on September 28, 2002, transmitted from the base unit 40 in response to the data transmission request from the mobile phone 100. On the display screen 60, the transmission date and time of data is "2002/09/28 17:00" is displayed at the top. Below the transmission date and time of this data, there is provided a display column 61 for displaying information of the outing setting flag 46g, and "out of office" indicating that the outing setting flag 46g is turned on is displayed. .
[0132]
Below the display column 61, there is provided a display area 62 indicating the location (monitoring area) of each slave unit. The display area 62 is provided with display columns 62a to 62h in which the locations of the slave units 20 having the smaller identification numbers are displayed in order from the top of the display screen.
[0133]
"01) Entrance" is displayed in the display column 62a, "02) Living room" is displayed in the display column 62b, "03) Kitchen" is displayed in the display column 62c,. 08) Children's room on the second floor "is displayed.
[0134]
Below each of the display columns 62a to 62h, a time display column 63 in which information on the detection time at which the human body sensor 28 has detected a human body is provided, and provided in each child device 20 (provided in the monitoring area). And an environment data display field 64 in which detection data of each of the sensors 2 to 6 other than the human body sensor 28 is displayed. In FIG. 4A, the information of the detected time displayed in each time display column 63 indicates a time of the 8:00 am. Thereby, the owner of the mobile phone 100 can obtain information that no one has returned home at 17:00 on September 28, 2002. Further, from each data displayed in the environment data display column 64, it can be confirmed that there is no abnormality in the environment in the house.
[0135]
FIG. 4B is a display screen 60 showing information on the house at 17:45 on September 28, 2002 transmitted from the base unit 40 in response to the data transmission request from the mobile phone 100. On the display screen 60, the data transmission date and time "2002/09/28 17:45" is displayed at the top. In the display column 61 below the date and time of transmission of this data, "Away" indicating that the out-of-home setting flag 46g is turned off is displayed.
[0136]
In a display area 62 below the display column 61, display columns 62a to 62h are provided as in FIG. Below each of the display columns 62a to 62h, a time display column 63 in which information on the detection time at which the human body sensor 28 has detected a human body is provided, and provided in each child device 20 (provided in the monitoring area). And an environment data display field 64 in which detection data of each of the sensors 2 to 6 other than the human body sensor 28 is displayed.
[0137]
In FIG. 4B, information “09/28 17:30” of the detected time is displayed in the time display column 63 corresponding to “01” entrance in the display column 62a, and one of the residents has returned home. It has been shown.
[0138]
In the time display column 63 corresponding to “03) kitchen” in the display column 62c, information “09/28 17:32” of the detected time is displayed, and “04) 1st floor corridor” in the display column 62d. Is displayed in the time display column 63 corresponding to ".09 / 28 17:34", and the time display column 63 corresponding to "07) 2nd floor corridor" in the display column 62g is displayed. The time information “09/28 17:35” is displayed, and the detected time information “09/28 17:45” is displayed in the time display column 63 corresponding to “08) 2nd floor child room” in the display column 62h. Is displayed.
[0139]
As a result, it is possible to obtain information that the child who has returned home at 17:30 is currently in the children's room on the second floor via the first floor corridor and the second floor corridor after going to the kitchen. In other words, a family member on the go can check the status (action history) of the resident who is answering.
[0140]
Next, with reference to the flowcharts of FIGS. 5 to 10, each process executed in the above-described house security system 1 will be described. FIG. 5 is a flowchart of the management process executed by master device 40. The management process is mainly a process of requesting the slave device 20 to transmit detection data.
[0141]
In this management process, first, it is confirmed whether or not the security mode flag 46c is turned on (S1). In the house security system 1 of the present embodiment, the security mode can be arbitrarily released by an operation of a resident (owner). If the security mode flag 46c is off (S1: No) as a result of the confirmation in the processing of S1, the management processing ends. On the other hand, if the security mode flag 46c is on (S1: Yes), it is checked whether a valid response request command has been received (S2). As a result, if a valid response request command is received (S2: Yes), the process of S3 is skipped, and the process proceeds to S4.
[0142]
The incoming call of the call signal from the mobile phone 100 is a request for transmission of data relating to the environment in the house and the state of the resident. When a call signal arrives at the mobile phone 56, a response request command is transmitted from the mobile phone 56 to the base unit 40. The response request command (the incoming call signal and the telephone number of the caller) is transmitted from the mobile phone 56 to the base unit 40 each time a call signal is received, but is stored in the telephone number memory 46d in the base unit 40 ( It is set to send detection data only to registered phone numbers. Therefore, upon receiving a response request command from mobile phone 56, base unit 40 determines whether the telephone number calling mobile phone 56 is a telephone number registered in telephone number memory 46d, and determines whether the telephone number is registered. Only when the telephone number is the changed telephone number, the management processing is continued with the response request command as a valid response request command.
[0143]
If it is determined in S2 that the response request command has not been received (S2: No), it is checked whether it is the data reading time (S3). As a result of the confirmation, if it is not the data reading time (S3: No), this management processing is ended. On the other hand, if the result of the check in S3 indicates that the data reading time is reached (S3: Yes), the identification number of the slave 20 is added to the detection data request command, and the command is transmitted to each slave 20 in order (S4). This management processing ends. By this management process, a data request from the parent device 40 to the child device 20 is periodically performed at a predetermined time interval, while responding to a data transmission request from the cellular phone 100 connected via the cellular phone 56. Executed.
[0144]
FIG. 6 is a flowchart of the data receiving process executed by master device 40. The data reception process receives the detection data transmitted from the child device 20 based on a data transmission request (detection data request command) made by the parent device 40 to the child device 20, and determines whether the detected data is abnormal. This is a process of determining whether or not it is indicated.
[0145]
In the data receiving process, first, it is confirmed whether or not the detection data transmitted from the child device 20 has been received (S11). As a result, if the detection data transmitted from the child device 20 has been received (S11: Yes), the received detection data is written to the reception buffer 43a (S12). Then, it is determined whether or not the value of the detection data (human body detection data) of the human body sensor among the received detection data is a value obtained by detecting a human body (S13). As a result of the confirmation, if the detection data of the human body sensor is not the value that detected the human body (S13: No), the process of S14 is skipped, and the process proceeds to the process of S15.
[0146]
On the other hand, as a result of the confirmation in the processing of S13, if the detection data of the human body sensor is the value of detecting the human body (S13: Yes), the value of the RTC 44 is specified by the identification number of the child device 20 as the source of the detection data The data is written in the time memory of the device memory 46f (S14). As a result, the information of the detection time previously stored in the time memory of the child device memory 46f is updated. After that, the detection data of each sensor stored in the reception buffer 43d is written into the corresponding memory of the child device memory 46f specified by the identification number (S15). Note that which sensor corresponds to each detection data is determined based on a code (sensor code) indicating the type of sensor added to the detection data. Only when the human body detection data is a value at which a human body is detected, information on the detection time is written into the time memory and the preceding data is updated. However, the human body memory stores the human body detection data. Is a value of whether a human body is detected or not, the detection data is written into the human body sensor memory.
[0147]
Then, an abnormality determination process (S16) for determining whether the detected data indicates an abnormality is performed. After the execution of the abnormality determination processing (S16), it is confirmed whether or not the detection data of the temperature sensor 2, the illuminance sensor 3, the humidity sensor 4, the gas leak sensor 5, the smoke sensor 6, and the human body sensor 28 indicate an abnormality. (S17). Here, if an abnormality is confirmed (S17: Yes), an emergency notification process for notifying a pre-registered contact such as the mobile phone 100 of an alarm is executed (S25), and thereafter, each process (S22) is executed. Then, the data reception process ends. On the other hand, if no abnormality is confirmed (S17: No), it is confirmed whether or not the data reception from all the slaves 20 has been completed (S18). If the data reception has been completed (S18: Yes), the processing of S11 to S18 is completed. It is determined whether or not a series of processing has been executed based on a valid response request command, that is, whether or not a valid response request command has been received (S19). If the process has been executed (S19: Yes), a response data transmission process of outputting the detected data to the mobile phone 56 to transmit the detected data to the mobile phone 100 of the data transmission request source is executed (S23), and the data reception is performed. The process ends.
[0148]
If the process is not executed based on the response request command (S19: No), it is further confirmed whether or not the scheduled transmission time stored in the transmission time memory 46e has arrived (S20). Here, if the scheduled transmission time has not arrived (S20: No), each process (S22) is executed, and this data reception process ends. On the other hand, if the scheduled transmission time has arrived (S20: Yes), the scheduled transmission process is executed (S21). The regular transmission process (S21) is performed when the regular transmission is designated by the resident (the regular transmission flag 46b is turned on), and the read detection data and the presence or absence of an abnormality are registered in the mobile phone 100 or the like. This is the process of transmitting to. After the execution of the regular transmission process (S21), each process (S22) is executed, and the data reception process ends.
[0149]
Each process (S22) is a process of transmitting, based on the detection data transmitted from the child device 20, a command for causing the transmission source child device 20 of the detection data to perform a predetermined operation. For example, in each of the processes (S22), a process of transmitting a command for activating the buzzer 7 and a process of transmitting a command for operating the AC switch 32 to the child device 20 connected to the sensor in which the abnormality is detected. And the like.
[0150]
In addition, as a result of checking in S18, if data reception from all the slaves 20 has not been completed (S18: No), the process proceeds to S11. Further, as a result of the confirmation in the processing of S11, if the detection data from the child device 20 to be received is not received (S11: No), an error determination processing is executed (S24).
[0151]
The error determination process (S24) is a process for detecting an abnormality of the slave 20. Based on the detection data request command transmitted from master unit 40, the detection data is transmitted from slave unit 20. If detection data from slave unit 20 cannot be received within a predetermined time, master unit 40 Then, it is determined that the detection data from the child device 20 has not been received, and the error determination process (S24) is executed. In the error determination processing (S24), after transmitting a command for confirming the connection state and transmitting the detection data request command again to the slave 20 to which the detection data has not been received, the data reception processing is performed. finish.
[0152]
It should be noted that if the detection data has not been received even after the execution of this processing, an error is determined for the slave unit 20. If an error is determined in the error determination process (S24), the process from S11 is executed on the assumption that the detection data of 0 has been transmitted from the child device 20 in which the error has been determined. In this error determination processing, the standby time for data reception is set to a time that does not significantly affect other processing, for example, about 0.2 seconds to 0.3 seconds.
[0153]
When an error is determined in the slave unit 20 by the error determination process (S24), the presence of an abnormality is determined in the abnormality determination process (S16), and the emergency notification process is performed even if the actual situation is not abnormal. (S25) is executed. Thus, the data receiver (eg, the owner of the mobile phone 100) can know that an error has occurred.
[0154]
FIG. 7 is a flowchart of the abnormality determination process (S16) executed in the data reception process of FIG. As described above, the abnormality determination process (S16) is a process of determining whether or not the detected data indicates an abnormality. The detected data transmitted from the child device 20 is compared with a standard value stored in the ROM 42 in advance. This is a process for comparing the detection data to determine whether there is an abnormality.
[0155]
In this abnormality determination process (S16), first, each detection data stored in the first to twentieth slave unit memories 46f1 to 46f20 in which the detection data has been written in the process of S15 is read (S31). Then, among the sensors corresponding to the read detection data, standard values corresponding to the temperature sensor 2, the gas leak sensor 5, and the smoke sensor 6, that is, determination data are read from the ROM 42 (S33).
[0156]
Next, it is confirmed whether or not the outing setting flag 46g is turned on (S34). If the outing setting flag 46g is turned on (S34: Yes), the judgment data of the human body sensor 28 corresponding to the outing is stored in the ROM 42. (S35). Thereafter, the read determination data is compared with the corresponding detection data, respectively, and the abnormality determination processing (S16) ends. On the other hand, as a result of the confirmation in the processing of S34, if the out-of-home setting flag 46g is off (S34: No), the determination data of the human body sensor 28 corresponding to the presence of the person at home is read from the ROM 42 (S38), and then the processing is performed in S36 Move to the processing of.
[0157]
In the house security system 1 according to the present embodiment, if the security mode is not released, the detection of the human body is executed regardless of whether the resident is at home or out. Here, if the resident is at home (going out of mode), even if a human body is detected by the human body sensor 28, it is not an intruder, so it is necessary to not execute the emergency call process (S25). . Therefore, when the out-of-home setting flag 46g is off, it is necessary to determine that there is no abnormality in the abnormality determination process (S16) even if the detection data of the human body sensor 28 is a value that has detected a human body. . In addition, when the outing setting flag 46g is on, if the detection data of the human body sensor 28 is a value that has detected a human body, it is necessary to determine that there is an abnormality in the abnormality determination process (S16).
[0158]
Therefore, two types of determination data corresponding to the detection data of the human body sensor 28 are prepared, and the corresponding determination data is used according to the state of the outing setting flag 46g. According to this, when the resident is at home, information on the behavior of the resident at home can be provided, and when the resident is absent, an emergency call can be accurately executed by detecting the intruder. Can be.
[0159]
FIG. 8 is a flowchart of the response data transmission process (S23) executed in the data reception process of FIG. As described above, the response data transmission processing is performed by transmitting the data stored in each child device memory 46f to the cell phone 56 so as to output the detection data detected by each child device 20 to the cell phone 100 that requested the data transmission. This is the process of outputting to
[0160]
In this response data transmission process (S23), first, the detection data (human body detection data, temperature data, illuminance data, humidity data, gas data, smoke data, and the detection time stored in each child device memory 46f) Is read (S41), and a sensor code indicating the type of the corresponding sensor is added to each read detection data (S42). Then, the identification number of the slave unit 20 and the information of the location stored in the location memory are further added to the detection data (information of each detection data and detection time) to which the sensor code is added, The data is written into the transmission buffer 43b in the form of mail data (S43). As a result, information on the detection time at which the human body sensor 28 last detected a person in each monitoring area and information (temperature data, etc.) indicating the current environment are written into the transmission buffer 43b.
[0161]
Thereafter, it is confirmed whether or not the outing setting flag 46g is turned on (S44). As a result, if the outing setting flag 46g is turned on (S44: Yes), the outgoing code is included in the data stored in the transmission buffer 43b. On the other hand, if the out-of-home setting flag 46g is off (S44: No), the in-home code is added to the data stored in the transmission buffer 43b (S47). After the processing in S45 or S47, the telephone number of the data transmission request source is added to the data stored in the transmission buffer 43b, and the data is transmitted to the connected mobile phone 56 (S46), and the response data transmission processing (S23) ) To end.
[0162]
When such data is transmitted to the cellular phone 56, the received telephone number is called by an automatic dial circuit, and mail data is transmitted when the line is closed. Thereby, the detection data is transmitted from base unit 40 to mobile phone 100 or PC 110 of the transmission destination via wireless line 60. Then, the information shown in FIG. 4 is displayed on the display screen of the mobile phone 100 that has received the information.
[0163]
FIG. 9 is a flowchart of the data conversion process executed in the slave unit 20. The data conversion process is a process of converting analog detection data detected by analog sensors (sensors 2 to 4) connected to the slave 20 into digital detection data. This data conversion process is executed for each child device 20. Since each slave unit 20 is installed for each monitoring area as described above, it is possible to convert analog data detected by analog sensors 2 to 4 installed in the monitoring area into digital data in the vicinity thereof. it can.
[0164]
In this data conversion process, first, the detected analog data is sampled at predetermined time intervals (S61), and the sampled analog data is converted into digital data (S62). After that, information (sensor code indicating the type of the sensor) of the detection source sensor is added to the converted digital data (S63). The sensors 2 to 6 and 28 connected to the slave 20 are recognized by the MPU 21 based on the positions of the ports to which the signal lines of the sensors 2 to 6 and 28 are connected. In the slave unit 20, sensor information (sensor type) is stored in the ROM 22 in advance corresponding to each port. Therefore, information of each sensor (a sensor code indicating the type of sensor) can be added to the sensors 2 to 6, 28 connected to the slave unit 20.
[0165]
After the process of S63, the detection data to which the information of the sensor is added is written in a predetermined area of the RAM 23, the data stored earlier is updated (S64), and the data conversion process ends.
[0166]
FIG. 10 is a flowchart of the detection data transmission process executed in the slave unit 20. The detection data transmission process is a process of transmitting the detection data stored in the predetermined area of the RAM 23 in the above-described data conversion process to the parent device 40 based on a detection data request command transmitted from the parent device 40.
[0167]
In this detection data transmission processing, first, it is confirmed whether or not a detection data request command with its own identification number added is received (S71). As a result of the confirmation, the detection data request command with its own identification number added If the received data is not received (S71: No), the detection data transmission process is terminated. On the other hand, as a result of the confirmation in the processing of S71, if the detection data request command to which the own identification number is added is received (S71: Yes), the detection data stored in the RAM 23 is written into the transmission memory 23a (S72). Thereafter, the identification number of the slave unit (any of numbers 1 to 20) and the identification number of the master unit 40 of the transmission destination are added as header data to the detection data stored in the transmission memory 23a (S73). Then, the detection data with the header data added is transmitted to master device 40 (S74), and this detection data transmission process ends.
[0168]
The slave 20 receives the data (command) transmitted from the master 40 via the first connector 26. If the identification number of the slave 20 is not added to the received data (command), The data (command) is output from the second connector 27 and the received data is passed (the detection data transmission processing is not executed). Further, data transmitted from another child device 20 connected to the child device 20 (on the opposite side of the parent device 40) to the parent device 40 is received by the second connector 27 and then transmitted from the first connector 26. Is output. In other words, data transmitted from another child device 20 to the parent device 40 is also passed.
[0169]
As described above, according to the house security system 1 of the above-described embodiment, the human body sensors 28 are provided in the respective monitoring areas, and the detection data (the human body detection data) detected by the human body sensors 28 in the respective monitoring areas. ) Indicates the detection of a human body, the information of the detection time is stored in the base unit 40. The information on the detection time stored in the master unit 40 is held until the human body sensor 28 of the detection source newly detects a human body. That is, in the monitoring area where each human body sensor 28 is disposed, the detection time at which the human body was last detected is stored in the parent device 40 for each monitoring area.
[0170]
The information indicating the detection time and the detection location of the human body is transmitted to the mobile phone 100 and the like together with the information indicating the current indoor environment (temperature and illuminance). Therefore, the resident who is out can browse the information displayed on the mobile phone 100 or the like, and thereby can accurately grasp the behavior of the resident who is at home and the indoor environment.
[0171]
In each of the above embodiments, the processing of S41 to S47 in the flowchart of FIG. The output means described in claim 2 corresponds to the processing of S41 to S47 in the flowchart of FIG. The processing of S25 in the flowchart of FIG. 6 corresponds to the abnormality information output means according to the third aspect. The processing of S13 in the flowchart of FIG. 6 corresponds to the user determination means described in claim 4. The processing of S13 and S14 in the flowchart of FIG. The processing of S2 in the flowchart of FIG. 5 corresponds to the identification information determination means described in claim 9. The transmission prohibiting means according to the ninth aspect corresponds to a branch to “No” in the process of S2 in the flowchart of FIG. The receiving means described in claim 10 corresponds to a process in which the detection data output by the mobile phone 56 of the base unit 40 is received by the mobile phone 100. The display device of the tenth aspect corresponds to the display device of the mobile phone 100.
[0172]
As described above, the present invention has been described based on the first embodiment. However, the present invention is not limited to the first embodiment, and various improvements and modifications can be made without departing from the gist of the present invention. Some things can easily be inferred.
[0173]
For example, in the house security system 1 of the first embodiment, all the detection data detected by the child device 20 is configured to be transmitted to the same destination, but instead, the content of the detection data may be changed. May be configured to transmit to different destinations. For example, if the detection data of the temperature sensor 2, the gas leak sensor 5, the smoke sensor 6, the human body sensor 28, and the like, which require an emergency response in the event of an abnormality, is configured to be transmitted to the security company (PC110), When an emergency response is required due to the occurrence, a specialist (security company) can execute a quick response. Further, the detection data transmitted at regular intervals is transmitted to the mobile phone 100 of the resident of the residence, and when there is an abnormality, the data is transmitted to the security company (PC110). Is also good.
[0174]
Furthermore, although the house security system 1 of the first embodiment does not mention the operation when all residents are at home, the security mode is set at bedtime even when all residents are at home. However, when an abnormality is detected by the temperature sensor 2, the gas leak sensor 5, the smoke sensor 6, the window sensor, the vibration sensor, or the like, an emergency notification process may be performed to the security company. .
[0175]
In addition, in the house security system 1 of the first embodiment, the operation at the time of a power failure is not particularly described, but the secondary battery or the solar battery is used so that each device operates for a predetermined time or more even at the time of the power failure. The power supply at the time of power failure may be secured. Further, a power failure monitoring circuit for monitoring the occurrence of a power failure may be provided. When a power failure is detected by the power failure monitoring circuit, the power failure monitoring circuit may be configured to notify the mobile phone 100 or the PC 110 of the fact (the occurrence of an abnormality).
[0176]
In the house security system 1 of the first embodiment, when an emergency call (including an error notification) is made from the base unit 40 (mobile phone 56), the mobile phone held by the resident cancels the report. It may be performed by inputting a code from 100 or the like. This can prevent the same alarm from being transmitted many times.
[0177]
Further, the setting switch 29 is constituted by the same number of switches as the number corresponding to the number of the slaves 20, and an identification number is given to the slave 20 by pressing a switch at a predetermined position. Instead, a dial-type switch may be used to assign an identification number according to the dial position. Alternatively, a plurality of slide switches may be provided, and an identification number may be given according to a combination of switch positions. Alternatively, a rewritable non-volatile memory may be provided in the child device 20 and the identification number may be assigned to each child device 20 by writing the identification number from the parent device 40 to the memory.
[0178]
In addition, when an error is detected in the slave device 20 in the management process, the fact may be notified to the mobile phone 100 or the like by mail data.
[0179]
Further, in the house security system 1 of the first embodiment, the detection data of each sensor is configured to be stored in the EEPROM 46 of the master unit 40. Alternatively, the detection data may be configured to be stored in the RAM 43. good.
[0180]
Further, in the house security system 1 of the first embodiment, even if the human body is detected by the human body sensor 28 or not, the detection data is transmitted to the base unit 40 and the base unit 40 Then, it is determined whether or not the information is that the human body is detected, and only when the detected data is that the human body is detected, the data is written into the child device memory 46f. Instead of this, a configuration may be adopted in which only the detection data in which the human body is detected is output from the child device 20.
[0181]
Further, in the house security system 1 of the first embodiment, at the timing when the data request command from the master unit 40 is received, the slave unit 20 reads the detection data detected by each sensor, and reads the data read at the timing. Is transmitted to the parent device 40. Alternatively, when a human body is detected by the human body sensor 28, the detection time is stored in the child device 20 and the information of the stored detection time is stored at the timing when the data request command from the parent device 40 is received. It may be configured to transmit. When the data request from the base unit 40 is performed intermittently at predetermined time intervals, information indicating that the human body is detected by the human body sensor 28 may not be transmitted to the base unit 40 depending on the interval between the data requests. is there. This is because the human body may move during the data request interval. For this reason, in the house security system 1 of the present embodiment, the interval between the data requests from the master unit 40 is, for example, such that the transmission time of the data request command to the 20 slave units 20 is approximately 1 second. Set for a short time. However, when the human body is detected by the human body sensor 28, the detection time is stored in the child device 20, so that the degree of freedom for designing the interval of the data request from the parent device 40 is increased. be able to. Further, by increasing the transmission interval of the data request command from the parent device 40, the control load on the child device 20 and the parent device 40 can be reduced.
[Brief description of the drawings]
FIG. 1 is an external view schematically showing a house security system.
FIG. 2 is a block diagram showing an electrical configuration of a house security system.
FIG. 3 is a diagram illustrating a configuration of a child device memory provided in an EEPROM of a parent device.
FIG. 4 is a diagram schematically showing a display screen on which data output by a parent device is displayed on a mobile phone.
FIG. 5 is a flowchart of a management process executed by the parent device.
FIG. 6 is a flowchart of a data reception process executed by the parent device.
FIG. 7 is a flowchart of an abnormality determination process executed in the data reception process of the master unit.
FIG. 8 is a flowchart of a response data transmission process executed in the data reception process of the master unit.
FIG. 9 is a flowchart of a data conversion process executed by the slave unit.
FIG. 10 is a flowchart of a detection data transmission process executed by the slave unit.
[Explanation of symbols]
1 house security system
2 Temperature sensor (environment detection sensor, analog sensor)
3 Illuminance sensor (environment detection sensor, analog sensor)
4 Humidity sensor (environment detection sensor, analog sensor)
5 Gas leak sensor (environment detection sensor)
6 smoke sensor (environment detection sensor)
10 External device (part of sensor unit)
20 slave unit (part of relay device and sensor unit)
28 Human body sensor (user detection sensor)
35 Wired line (wired line)
40 parent machine (management device)
46d telephone number memory (identification information storage means)
46f1b time memory (detection time storage means)
57 Outing mode setting switch (absence mode setting means)
60 wireless line (wireless line)
100 Mobile phone (information receiving device)
110 Personal computer (PC) (information receiving device)

Claims (11)

In a house security system including a plurality of user detection sensors that detect user information about users of a building and a management device that manages user information detected by the user detection sensors,
Each of the user detection sensors is connected to the management device, and is disposed at each of a plurality of locations of the building that are active places of users of the building,
The management device detects, at least for some of the plurality of user detection sensors, information on a detection time at which the user detection sensor detected the user information and the user information. Output means for outputting arrangement location information indicating the arrangement location of the user detection sensor,
The house security system wherein the information of the detection time outputted by the output means is information of a detection time at which the user detection sensor finally detected the user before the output by the output means. . In a house security system including a plurality of user detection sensors that detect user information about users of a building and a management device that manages user information detected by the user detection sensors,
The respective user detection sensors are respectively connected to the management device, and are respectively disposed at a plurality of locations of the building that are determined based on traffic lines that can be taken by the user of the building in the building. Is established,
The management device detects, at least for some of the plurality of user detection sensors, information on a detection time at which the user detection sensor detected the user information and the user information. Output means for outputting arrangement location information indicating the arrangement location of the user detection sensor,
The house security system wherein the information of the detection time outputted by the output means is information of a detection time at which the user detection sensor finally detected the user before the output by the output means. . The management device includes an absence mode setting unit that sets an absence mode indicating that a predetermined user is absent for the building.
When the absence mode is set by the absence mode setting means, when the user detection sensor detects a user, abnormality information output means for outputting abnormality information indicating an abnormality is provided. Item 3. The house security system according to item 1 or 2. The management device, a user determination unit that determines whether the user information detected by the user detection sensor indicates detection of a user,
When the user determination means determines that the user information indicates the detection of a user, a detection time storage for storing the detection time of the user information in association with the user detection sensor of the detection source Means,
When the user information newly detected by the user detection sensor is determined to indicate the detection of the user by the user determination means, the detection time is stored based on the detection time of the user information. Updating the information of the detection time of the corresponding user detection sensor previously stored in the means, while determining that the user information does not indicate the detection of the user by the user determination means, 4. The house security system according to claim 1, further comprising: an updating unit that does not update the information on the detection time previously stored in the detection time storage unit. 5. Connected to the management device, disposed at a predetermined location of the building, comprising an environment detection sensor for detecting current environmental information on the indoor environment of the building,
2. The apparatus according to claim 1, wherein the output unit outputs current environment information detected by the environment detection sensor and information on a location of the environment detection sensor that has detected the environment information. 3. 4. The house security system according to any one of 4. Of the user detection sensor and the environment detection sensor, for an analog sensor that detects detection information as analog data, a relay device that converts the detected analog data into digital data and is disposed near the analog sensor, At least one of the user detection sensor or the environment detection sensor, comprising a sensor unit connected to the management device,
6. The sensor unit according to claim 5, wherein the relay device converts analog data detected by the user detection sensor or the environment detection sensor into digital data and transmits the digital data to the management device. The described house security system. The house security system according to claim 6, wherein the sensor unit and the management device are connected to each other via a wired line. The management device is remotely installed from the management device and is mutually connected to an information receiving device that receives information output by an output unit of the management device via a wireless line. In response to an information transmission request from the information output device, the output device instructs the output device to output information, based on the information output instruction, via the wireless line, to the information receiving device of the information transmission request source addressed to the information receiving device The house security system according to claim 1, wherein the house security system transmits information. The management device includes identification information storage means for storing identification information of the information receiving device registered in advance, and, when an information transmission request is issued from the information receiving device, identification of the information receiving device as an information transmission request source. Identification information determining means for determining whether or not information is stored in the identification information storage means; and the identification information determining means stores the identification information of the information receiving apparatus as the information transmission request source in the identification information storage means. 9. The house security system according to claim 8, further comprising a transmission prohibiting unit that prohibits the output unit from transmitting information to the information receiving device when it is determined that the information is not stored. An information receiving device that is installed remotely with the management device and interconnected with the management device via a wireless line,
2. The information receiving apparatus according to claim 1, further comprising: a receiving unit that receives information output by an output unit of the management device; and a display device that displays data received by the receiving unit. 10. The house security system according to any one of items 1 to 9. 11. The house security according to claim 10, wherein the information receiving device displays the arrangement location information received by the receiving unit and the detection time information in association with each other on the display device. system.

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