JP4340839B2 - Communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication device suitable for use in a door lock control system that controls locking and unlocking of a door using electronic key information.
[0002]
[Prior art]
Recently, in residential units, etc. that employ a door lock control system that locks and unlocks by inserting a conventional physical key into the key cylinder, the one familiar with the key cylinder mechanism is the key. Incidents such as theft caused by unlocking without using a key.
[0003]
Therefore, a door lock control system using an electronic key device that does not use such a key cylinder mechanism has attracted attention. For example, as an example of a door lock system by this electronic key device, the master unit compares and collates an ID code as electronic key information registered in advance with an ID code received from a slave unit as electronic key information, A device that controls the door lock based on the comparison result is known (for example, see Patent Document 1 (Japanese Patent Laid-Open No. 9-4293)).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-4293.
[0005]
[Problems to be solved by the invention]
For example, even if the child who has gone out is promised to return home by a predetermined time, the child often forgets the time. In this case, if there is a parent at home, if the child has not come home at the promised time, the parent can be prompted to return home by calling the mobile phone terminal of the child.
[0006]
However, when both parents are away from work and are away, it is not possible to confirm whether or not the child has returned home at a predetermined time. Therefore, it is not possible to prompt the child to return home.
[0007]
It may be possible to let the child know when to return home, such as by calling his / her parent on the way home. However, even if he / she is contacted by telephone, he / she cannot confirm whether he / she has really returned home.
[0008]
In view of the above points, the present invention can prompt the child to return when he / she has gone out, for example, the child is scheduled to return home, and notifies the parent of the child's return time, for example. It is an object of the present invention to provide a communication device that can perform the above-mentioned.
[0009]
[Means for Solving the Problems]
  In order to solve the above problems, a communication device according to the invention of claim 1
  First communication means for communicating with at least an electronic key device that stores electronic key information;
  A second communication means for transmitting information through a communication network;
  A storage unit for storing electronic key information;
  The electronic key information received from the electronic key device through the first communication means is compared with the electronic key information stored in the storage unit, and the locking or unlocking of the door is controlled based on the comparison result. Door lock control means;
  User recognition means for recognizing a user of the electronic key device based on information received from the electronic key device through the first communication means;
  Based on the door locking or unlocking control by the door lock control means, the entry / exit judgment means for judging the entry / exit of the user recognized by the user recognition means,
  A setting input receiving means for receiving a setting input of a notification contact address for contacting the user other than the user and the scheduled entry and exit time of the user;
  The entry / exit scheduled time and the notification contact information received by the setting input reception means are stored in association with the user, and the user contact information for contacting the user is stored. Setting storage means to
  When the entry / exit determination means determines the entry / exit of the user, the user who entered / exited the notification of the scheduled entry / exit time and contact to other than the user by the setting input reception means A user determination means for determining whether the user has received a contact setting input,
  When the user determining means determines that the user has received the setting input, the notification contact address stored corresponding to the user whose entry / exit is determined in the setting storage means Notification means for notifying the user's entry / exit together with the entry / exit time via the second communication means;
  If the user recognition unit does not recognize the user corresponding to the scheduled entry / exit time even after the scheduled entry / exit time stored in the setting storage unit has elapsed, the user entry / exit Information on the fact that the user has not exited is transmitted to the notification contact stored in correspondence with the user in the setting storage means via the second communication means, and the scheduled input time has elapsed. Transmission control means for controlling the user contact for contact with the user to perform notification to prompt entry / exit to the user;
It is characterized by providing.
[0011]
In the communication device according to the present invention, the user recognition means recognizes who has opened and closed the door by communicating with the electronic key device. The transmission control means transmits information related to entry / exit of the user of the electronic key device to a preset notification destination.
[0012]
Therefore, for example, by setting a notification destination as a parent who has gone out, for example, information regarding a child's return home or going out can be notified to the parent.
[0014]
  Claim 1In this invention, for example, by setting the scheduled return time and setting the report destination as the expected returnee, when the expected returnee does not return home even after the set time has passed, This can be notified to the person. Further, if the report destination is set to a person other than the person who is scheduled to return, such as a parent, the parent can be notified that the person who is scheduled to return is not home.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a communication system including an embodiment of a communication apparatus according to the present invention will be described with reference to the drawings.
[0016]
In the communication system described below, a door lock control system is provided at the entrance door of a house to control locking and unlocking by communicating electronic key information with the electronic key device. In this example, a security monitoring system is installed in the house to detect the intrusion of bandits from windows and front doors, fires, and gas leaks, and take measures to deal with each abnormal situation. The security monitoring system and the door lock control system are connected to each other so that they can communicate with each other.
[0017]
Further, in this example, the security monitoring system is connected to the management server device through the communication network, and constitutes a communication system as a whole.
[0018]
In this example, a communication device according to this embodiment is configured by a door lock device described later constituting the door lock control system and a monitor control device described later constituting the security monitoring system.
[0019]
In this embodiment, the electronic key device includes a biometric information acquisition unit, a control IC (Integrated Circuit), and communication means, and various forms can be used. In this example, as a specific example of the electronic key device, a mobile phone terminal, a PDA (Personal Digital Assistants) terminal, etc. can be used in addition to the IC card.
[0020]
The control IC mounted on the electronic key device includes an electronic key information memory, and electronic key information is stored in the electronic key information memory. As this electronic key information, in this example, identification information that is centrally managed so that the same information does not exist is stored. In this example, an IC chip manufacturing number is used as this identification information.
[0021]
For example, as shown in FIG. 1, in one or a plurality of IC chip manufacturing companies 1001, a centralized IC chip manufacturing number is assigned to the manufactured control IC chip 1002. To do. When there are a plurality of IC chip manufacturing companies 1001, for example, the IC chip manufacturing company 1001 is assigned a manufacturing number to be assigned to the control IC chip 1002 in advance. The Accordingly, different IC chip manufacturing numbers are stored as identification information in the memory of the manufactured control IC chip 1002.
[0022]
The control IC chip 1002 is supplied to an IC card manufacturing factory (or manufacturing company) 1003, a mobile phone terminal manufacturing factory (or manufacturing company) 1004, a PDA terminal manufacturing factory (or manufacturing company) 1005, and the like, and controls them. An IC card, a mobile phone terminal, a PDA terminal or the like on which an IC chip for communication and a communication means are mounted are manufactured.
[0023]
FIG. 2 is a diagram for explaining an example of an IC chip serial number used in this embodiment.
[0024]
The IC chip manufacturing number in this example is composed of a total of 10 digits (including symbols) consisting of a 3-digit manufacturer number, a 3-digit category code, and a 4-digit serial number.
[0025]
The identification information is not limited to the IC chip manufacturing number, and any information can be used as long as the information is centrally managed so that the same information does not exist. The identification information may be stored separately in the IC memory together with the IC chip manufacturing number.
[0026]
In this example, non-contact communication means using electromagnetic induction or radio waves is used as the communication means of the electronic key device. In this embodiment, the communication means may be any communication means that can communicate within a range of, for example, several millimeters to several tens of centimeters.
[0027]
Next, in the door lock control system in this embodiment, a door lock device is attached to the entrance door so that the door can be locked and unlocked by an electronic key device. In this example, electronic key information is communicated between the electronic key device and the door lock device, and the door lock device controls locking and unlocking of the door based on the communication.
[0028]
In the example described below, communication between the electronic key device and the door lock device is non-contact communication using electromagnetic induction, and as described later, an electronic device constituting a part of the door lock device. Communication is performed via the read / write unit of the key device.
[0029]
In this embodiment, as the electronic key information for controlling the locking and unlocking of the door, the identification information composed of the IC chip manufacturing number described above is used. In this embodiment, as the electronic key information in the house, the identification information of the electronic key device in which the identification information centrally managed as described above is written in the built-in memory is registered in the management server device as the electronic key information. Thus, each family member owns and uses his own electronic key device.
[0030]
In this embodiment, the management server device transfers the electronic key information for each registered family member to the electronic key information storage unit of the door lock device, and registers the electronic key information in the door lock device. Like that. The door lock device compares and authenticates the registered electronic key information and the electronic key information received from the electronic key device as a communication device, and controls the locking and unlocking of the door according to the result.
[0031]
As will be described later, in this embodiment, each family member can register the main key information and the backup key information in the management server device as their own electronic key information. As described above, since the electronic key information differs for each electronic key device, the registration of the main key information and the backup key information is equivalent to the registration of the main key device and the backup key device.
[0032]
In the example described below, the key device given to each person is an IC card provided by a company that provides a door lock control system. Then, the identification information of the IC card which is the main key device is registered in advance as electronic key information of the owner of the IC card in the management server device before the door lock control system is attached to the house.
[0033]
In this case, in this embodiment, the IC card is provided from the provider company for the number of family members, and all the identification information of the plurality of IC cards is electronic for the door lock control system to be installed. It is registered in the management server device as key information.
[0034]
Furthermore, in this embodiment, the management server device collects personal information about each family member of the house where the door lock control system is installed, and each family member corresponds to the personal information. The identification information of the IC card possessed is registered. Therefore, the door lock control system can determine who the electronic key information is by searching the electronic key information. That is, in the communication system of this example, the electronic key information can be used as personal identification information of family members.
[0035]
The key information of each family member registered in the management server device is initially registered in the management server device by the system installer or user after the door lock control system is installed in the house. By making a request, it is registered in the storage unit of the door lock device and used for authentication of electronic key information.
[0036]
In this embodiment, the backup key information can be registered in consideration of the case where the key device is lost. As will be described later, in this embodiment, the backup key information is registered in the management server device with identification information (in this example, the IC serial number) of the electronic key device that each family member wants to use as the backup key device. By doing so, registration is possible.
[0037]
As described above, in this embodiment, using the fact that the identification information used as the electronic key information can also be used as the personal identification information, the entry / exit from the entrance door of each family member is managed. To be able to.
[0038]
By using the electronic key information as personal identification information in this way, it is possible to manage entry / exit from the front door of each family member living in the house, and the return time to the planned returnee is exceeded. Notification and notification to the parent of the child's return-to-home situation can be performed, and the entry / exit information can be reflected in the security system, so that a more sophisticated security system can be constructed.
[0039]
[Outline of security system including door lock system of embodiment]
FIG. 3 is a diagram for explaining the outline of the communication system of this embodiment including a door lock control system and a security system.
[0040]
A door lock device 2 that communicates with the electronic key device is attached to the entrance door 1 of the house. In the room, a monitoring control device 3 constituting a security system is provided and connected to the door lock device 2. The door lock device 2 and the monitoring control device 3 are connected by a connection line in this example, but may be connected wirelessly.
[0041]
The supervisory control device 3 can also be a device that receives the electronic key information from the door lock device 2 and authenticates the electronic key information described above, that is, an authentication device. However, in this example, authentication of the electronic key information is performed by the door lock device 2 itself.
[0042]
In this example, a fire sensor 4 for detecting the occurrence of a fire, a gas sensor 5 for detecting a gas leak, window sensors 6a and 6b for detecting the closing of the window, and a television 7 are provided in the room, and are monitored. It is connected to the control device 3. The monitoring control device 3 and the connection between them are also connected by a connection line, but may be connected wirelessly.
[0043]
Although not shown in FIG. 3, when a fire occurrence is detected by the fire sensor 4, the position where the vicinity of the occurrence site can be photographed or when the intrusion of the bandit is detected by the window sensors 6a and 6b, the bandit is detected. A surveillance camera can be provided at a position where the camera can be photographed. In that case, the monitoring cameras are connected to the monitoring control device 3 so that the captured images of the monitoring cameras are supplied to the monitoring control device 3.
[0044]
The monitoring and control device 3 is also connected to a management server device 10 operated by a security system management company through a telephone line 8 and a communication network 9. The management server device 10 can also be a device that authenticates the electronic key information by receiving the electronic key information from the door lock device 2 via the monitoring control device 3.
[0045]
The communication network 9 also includes a mobile phone network. As will be described later, when the abnormal state occurs, the monitoring control device 3 notifies the pre-registered mobile phone terminals 11a and 11b of the occurrence of the abnormal state. It is possible. Further, the communication network 9 includes the Internet, and the personal computer 12 can access the management server device 10 through the Internet. The management server device 10 can also be accessed from the mobile phone terminals 11a and 11b.
[0046]
In this embodiment, the control device in the scope of the claims includes a door lock control device and a monitoring control device, which will be described later, of the door lock device 2.
[0047]
Next, a specific configuration example and operation of the door lock device 2 and a specific configuration example and operation of the monitoring control device 3 will be described in detail. In the example described below, as described above, authentication of electronic key information is performed by the door lock device itself.
[0048]
[Configuration example of electronic key device]
As described above, in this embodiment, as an electronic key device, a mobile phone terminal, a PDA terminal, or the like can be used in addition to an IC card. However, the electronic key device is common in that it includes a biometric information acquisition unit, a control IC chip, and communication means. A configuration example when the electronic key device is an IC card is shown below.
[0049]
<First Example of Electronic Key Device>
The electronic key device of the first example is an example of an IC card that uses a fingerprint as biometric information. FIG. 4A shows the surface of the IC card 40F of this example, on which the name of the owner and the ID number are displayed, and the fingerprint reading window 41W of the fingerprint reading unit 41 is formed. ing.
[0050]
FIG. 4B shows an internal configuration example of the IC card 40F. The IC card 40F communicates with the fingerprint reading unit 41 and an electronic key read / write unit of the door lock device 2 described later. The electromagnetic induction antenna 42 for performing, control IC43, and the information transmission / reception circuit part 44 are incorporated.
[0051]
The fingerprint reading unit 41 reads the fingerprint of the finger placed on the fingerprint reading window 41W, and sends the read fingerprint information to the control IC 43. The control IC 43 compares the fingerprint information of the owner of the IC card 40F registered and stored in advance with the read fingerprint information, and determines whether or not they match.
[0052]
When it is determined that they match, the electronic key information stored in advance in the memory in the control IC 43 is read out and sent to the outside through the information transmitting / receiving circuit unit 44 and the electromagnetic induction antenna 42. When the stored fingerprint information is compared with the read fingerprint information and it is determined that they do not match, the sending of the electronic key information to the outside is prohibited.
[0053]
FIG. 5 shows an internal block configuration of the IC card 40F in the case of the first example. A ROM (Read Only Memory) 403 in which programs and data are recorded via a system bus 402, a work area RAM (Random Access Memory) 404, and electronic key information are stored in a CPU (Central Processing Unit) 401. An identification information memory 405 in which identification information is stored, a communication history memory 406, a transmission / reception interface 407, a fingerprint registration memory 408, a fingerprint reading unit interface 409, and a fingerprint collation unit 410 are connected.
[0054]
The identification information memory 405 stores identification information including the above-described IC manufacturing number. In addition to the name and address of the owner of the IC card 40, other necessary personal information of the owner can be stored. This personal information is configured such that a father, mother, child, etc. can be distinguished.
[0055]
In the communication history memory 406, the time and history of communication with the electronic key read / write unit (to be described later) of the door lock device 2 performed by each owner (whether the communication was performed with the inner or outer electronic key read / write unit) Information), going out of each owner, returning home history, and the like. The history information is also stored in an area corresponding to each of the family members in the memory of the door lock device 2 and the memory of the monitoring control device 3, as will be described later.
[0056]
An information transmission / reception circuit unit 44 connected to the electromagnetic induction antenna 41 is connected to the transmission / reception interface 407.
[0057]
In the fingerprint registration memory 408, information on the fingerprint of the owner of the IC card 40F is registered and stored in advance. The fingerprint reading unit interface 409 is for taking in the information of the fingerprint read by the fingerprint reading unit 41. The fingerprint collation unit 410 compares the fingerprint information acquired through the fingerprint reading unit interface 409 with the information of the owner's fingerprint read from the fingerprint registration memory 408, determines whether or not they match, The determination result is sent to the system bus 402. The fingerprint collation unit 410 can be configured by software by the CPU 401 instead of by hardware.
[0058]
As described above, the CPU 401 transmits / receives electronic key information including identification information read from the identification information memory 405 when fingerprint matching, that is, when fingerprint verification is OK, based on the determination result in the fingerprint verification unit 410. Sending out through the interface 407, the information transmission / reception circuit 408, and the electromagnetic induction antenna 41, and sending the electronic key information is prohibited when the fingerprint collation unit 410 does not match the fingerprint, that is, the fingerprint collation is NG.
[0059]
In addition, the CPU 401 performs processing of taking in information received by the electromagnetic induction antenna 42 through the information transmission / reception circuit unit 408 and the transmission / reception interface 407 and writing the information in the communication history memory 406.
[0060]
FIG. 6 is a flowchart for explaining the processing operation of the CPU 401 at this time.
[0061]
The CPU 401 waits for reception of fingerprint information from the fingerprint reading unit 41 through the fingerprint reading unit interface 409 (step S1). When the CPU 401 determines that the fingerprint information has been received, the fingerprint of the owner registered in the fingerprint registration memory 408 is obtained. The information is read out and the fingerprint collation unit 410 performs fingerprint collation (step S2).
[0062]
Then, the CPU 401 determines whether or not the fingerprint collation determination result from the fingerprint collation unit 410 is a fingerprint match (step S3). When the fingerprint mismatch and the collation are NG, the processing is terminated as it is, and the electronic Key information is not sent.
[0063]
When the fingerprint is matched and the collation is OK, the CPU 401 reads the identification information from the identification information memory 405 and sends it as electronic key information through the information transmission / reception circuit unit 44 and the electromagnetic induction antenna 42 (step S4).
[0064]
Then, the CPU 401 determines whether or not communication has been performed with the other party's read / write unit (step S5), and when predetermined information is received from the other party through the electromagnetic induction antenna 42, the information transmission / reception circuit unit 44, and the transmission / reception interface 407, Assuming communication with the other party, the communication history is written in the communication history memory 406 (step S6), and then this processing routine is terminated.
[0065]
If it is determined in step S5 that information has not been received from the other party's read / write unit and communication has not been performed, the CPU 401 determines whether or not a predetermined time has elapsed since the electronic key information was transmitted. If it is determined (step S7) that it is determined that the predetermined time has not elapsed, the process returns to step S4, and the electronic key information is sent again to wait for information from the other party. When it is determined in step S7 that the predetermined time has elapsed, this processing routine is terminated as it is.
[0066]
As described above, according to the IC card 40F as the electronic key device of this example, the fingerprint of the owner registered in advance and the fingerprint of the user are collated, and only when the collation is OK. Since the key information is transmitted, only the user registered in advance can use the electronic key device, and even if the electronic key device is lost, other users can be prevented from using it.
[0067]
<Second Example of Electronic Key Device>
The electronic key device of the second example is an example of an IC card that uses an iris as biometric information. FIG. 7A shows the surface of the IC card 40I of this example, on which the owner's name and ID number are displayed, and as a means for reading the user's iris, In the example, a CCD (Charge Coupled Device) camera 45 is provided.
[0068]
FIG. 7B shows an internal configuration example of the IC card 40I. In the IC card 40I, similarly to the IC card 40F of the first example, the electromagnetic induction antenna 42, the control IC 43, and the like. An information transmission / reception circuit unit 44 is incorporated, and an imaging signal processing circuit unit 46 for processing an imaging signal from the CCD camera 45 and supplying it to the control IC 43 is incorporated.
[0069]
The user causes the CCD camera 45 to photograph his / her eyes (iris). The CCD camera 45 takes in the iris information of the photographed user through the imaging signal processing circuit section 46 and sends the fetched iris information to the control IC 43. The control IC 43 compares the iris information of the owner of the IC card 40I registered and stored in advance with the captured iris information to determine whether or not they match.
[0070]
When it is determined that they match, the electronic key information stored in advance in the memory in the control IC 43 is read out and sent to the outside through the information transmitting / receiving circuit unit 44 and the electromagnetic induction antenna 42. When the stored iris information and the captured iris information are compared with each other and it is determined that they do not match, the transmission of the electronic key information to the outside is prohibited.
[0071]
FIG. 8 shows an internal block configuration of the IC card 40I in the case of the second example. In this second example, instead of the fingerprint registration memory 408, fingerprint reading unit interface 409, and fingerprint collation unit 410 of the first example of FIG. 5, an iris information registration memory 411, an imaging signal interface 412, , An iris collating unit 413 is provided. The imaging signal interface 412 is connected to the CCD camera 45. Other configurations are the same as those in FIG. 5 of the first example.
[0072]
In the iris information registration memory 411, information on the iris of the owner of the IC card 40I is registered and stored in advance. The imaging signal interface 412 is for capturing iris information from the imaging signal processing circuit unit 46. The iris matching unit 413 compares the iris information acquired through the imaging signal interface 412 with the iris information of the owner read from the iris information registration memory 411, determines whether or not they match, and the determination result Is sent to the system bus 402. The iris collating unit 413 can be configured by software by the CPU 401 instead of by hardware.
[0073]
Based on the determination result in the iris collating unit 413, the CPU 401 transmits electronic key information including identification information read from the identification information memory 405 to the transmission / reception interface 407 and information transmission / reception when iris matching, that is, iris matching is OK. The electronic key information is transmitted through the circuit 408 and the electromagnetic induction antenna 41, and the electronic key information is prohibited from being transmitted when the result of determination by the iris collating unit 413 is that the iris does not match, that is, the iris collation is NG.
[0074]
FIG. 9 is a flowchart for explaining the processing operation of the CPU 401 at this time.
[0075]
The CPU 401 waits for the reception of iris information from the imaging signal processing circuit unit 46 through the imaging signal interface 412 (step S11), and when determining that the iris information has been received, the owner registered in the iris information registration memory 411 The iris information is read out and the iris matching unit 413 performs the iris matching (step S12).
[0076]
Then, the CPU 401 determines whether or not the iris collation determination result from the iris collating unit 413 is iris matching (step S13). When the iris mismatch and the matching is NG, the processing is terminated as it is, and the electronic Key information is not sent.
[0077]
When the iris is matched and the collation is OK, the CPU 401 reads the identification information from the identification information memory 405 and sends it as electronic key information through the information transmitting / receiving circuit unit 44 and the electromagnetic induction antenna 42 (step S14).
[0078]
Then, the CPU 401 determines whether or not communication with the other party's read / write unit has been performed (step S15), and when predetermined information is received from the other party through the electromagnetic induction antenna 42, the information transmission / reception circuit unit 44, and the transmission / reception interface 407, Assuming communication with the other party, the communication history is written in the communication history memory 406 (step S16), and then this processing routine is terminated.
[0079]
If it is determined in step S15 that information from the other party's read / write unit has not been received and communication has not been performed, the CPU 401 determines whether or not a predetermined time has elapsed since the electronic key information was transmitted. If it is determined (step S17) and it is determined that the predetermined time has not elapsed, the process returns to step S14, and the electronic key information is sent again to wait for information from the other party. When it is determined in step S7 that the predetermined time has elapsed, this processing routine is terminated as it is.
[0080]
As described above, according to the IC card 40I as the electronic key device of the second example, the owner's iris registered in advance and the user's iris are collated, and the collation is OK. The electronic key information is transmitted only to the user, so that only the user registered in advance can use the electronic key device, and even if the electronic key device is lost, other users cannot be used. Can do.
[0081]
[Other examples of biological information]
In the above examples, the biometric information has been described with respect to fingerprints and irises, but the biometric information is not limited to this. For example, a vein pattern on the back of the hand can be used as the biological information. In this case, instead of the iris information, the vein pattern of the back of the owner's hand is registered and stored, and the CCD camera 45 captures and captures the vein pattern of the back of the hand. The configuration of the IC card 40I can be used as it is.
[0082]
It should be noted that the present invention is not limited to the above example, and any biological information can be used as long as it is biometric information capable of personal identification and can be acquired by a predetermined means.
[0083]
[Configuration of door lock device]
FIG. 10A and FIG. 10B are diagrams for explaining a configuration example of the door lock device 2. FIG. 10 (A) is a view of the vicinity of the attachment portion of the door lock device 2 of the front door 1 from the outside of the house. FIG. 10B is a view of the vicinity of the attachment portion of the door lock device 2 of the entrance door 1 as viewed from the end face side of the entrance door 1.
[0084]
In the door lock device 2 of this example, an outside electronic key reader / writer unit 21ex for communicating with an IC card 40F or 40I as an example of an electronic key device is provided outside the door 1 (door outside), An outer LED (Light Emitting Diode) 22ex as an example of a display element for visually informing the authentication result of the electronic key information and the locking or unlocking of the entrance door 1, and the authentication result of the electronic key information and the entrance door 1 Are provided with an outer speaker 23ex and a door knob 24ex.
[0085]
In addition, the inside electronic key reader / writer unit 21in for communicating with the IC card 40F or 40I as an example of the electronic key device, the authentication result of the electronic key information, and the entrance are also inside the indoor door 1 (indoor side). An inner LED 22in as an example of a display element for visually informing the locking or unlocking of the door 1, an inner speaker 23in for notifying the result of authentication of electronic key information and the locking or unlocking of the front door 1 by voice, An inner door knob 24in is provided.
[0086]
The entrance door 1 is further provided with an entrance door locking piece 25, a lock piece 26, and a door opening / closing sensor 27. Further, a door lock control device 100 for controlling the operation of the door lock device 2 is provided inside the entrance door 1, and an electronic key reader / writer unit 21ex and 21in, LEDs 22ex and 22in, speakers 23ex and 23in. The door opening / closing sensor 27 and a door lock mechanism driving unit (not shown) are connected to the door lock control device 100.
[0087]
The entrance door locking piece 25 is a member that slides and moves in a direction perpendicular to the end surface 1a of the entrance door in response to an operation of the door knob 24ex or the door knob 24in. This is because when the entrance door 1 is not locked when it is not in the auto-lock mode, which will be described later, the entrance door 1 is fitted into the recess provided on the end face side of the wall facing the end face 1a of the entrance door 1 , For locking.
[0088]
The lock piece 26 is a member constituting a part of the door lock mechanism. When the door lock mechanism is driven by a door lock mechanism driving unit (not shown in FIG. 10), the lock piece 26 is perpendicular to the end surface 1a of the entrance door. When the entrance door 1 is locked, the door 1 is fixed so as to protrude from the end face 1a of the entrance door 1, and when the entrance door 1 is unlocked, the end face 1a of the entrance door 1 is locked. It is fixed so that it does not protrude from.
[0089]
Although not shown in the drawings, the end face of the wall facing the end face 1a of the entrance door 1 is formed with a recess to be fitted when the lock piece 26 protrudes. The state fitted in the recess is the locked state of the entrance door. When the lock piece 26 is retracted to the entrance door 1 side and is not fitted in the recess, the locked state is released and the unlocked state is entered.
[0090]
As the entrance door opening / closing sensor 27, for example, an optical sensor is used. When the entrance door 1 is opened, it detects external light to detect it. When the entrance door 1 is closed, the entrance door 1 is closed. By detecting that the external light is blocked by the end surface 1a colliding with the end surface of the wall, this is detected, and the opening / closing of the front door 1 is detected.
[0091]
[Description of Door Lock Control Device 100]
Next, FIG. 11 shows an electrical configuration example of the door lock device 2 with the door lock control device 100 as the center. In the following description, it is assumed that the IC card 40F of the first example that performs fingerprint verification authentication is used as the electronic key device.
[0092]
That is, the door lock control device 100 has a microcomputer configuration, and a ROM (Read Only Memory) 103 in which programs and data are recorded via a system bus 102 with respect to a CPU (Central Processing Unit) 101. , Work area RAM (Random Access Memory) 104, family information memory 120 storing identification information (in this example, IC serial number) as electronic key information for each family member, and supervisory control device 3 is connected to a communication interface 121 for communicating with the timepiece 3.
[0093]
In the family information memory 120, as will be described later, the main key information and the backup key information registered in the management server device 10 are registered and stored as electronic key information for each family member. Information for identifying each family member, for example, name, age, gender, continuity, and other personal information may also be stored in the family information memory 120. The registration of the electronic key information in the family information memory 120 will be described later.
[0094]
Further, the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex are connected to the system bus 102 via the interfaces 105 and 106, and the inner LED 22in is connected via the inner LED drive unit 107. Then, the outer LED 22ex is connected via the outer LED driving unit 108, the inner speaker 23in is connected via the voice output interface 109, and the outer speaker 23ex is connected via the voice interface 110.
[0095]
Furthermore, a door opening / closing sensor 27 is connected to the system bus 102 via an interface 111, and a door lock mechanism 28 for slidingly driving the lock piece 26 is connected via a door lock mechanism driving unit 112.
[0096]
The electronic key read / write unit 21ex or 21in constitutes a communication unit that communicates with the IC card 40F (or 40I). In this example, the electronic key read / write unit 21ex or 21in includes an electromagnetic induction antenna and an information transmission / reception unit.
[0097]
The door lock control device 100 of this example has two control modes, an auto lock mode and a sequential lock mode, as door lock control modes.
[0098]
In the automatic lock mode, the door lock control device 100 automatically opens the entrance door after a predetermined time after unlocking the entrance door 1 based on communication with the IC card 40F through the electronic key read / write units 21ex and 21in. Is a mode in which is locked. In the auto-lock mode, both the inner and outer electronic key read / write units 21ex and 21in are always used.
[0099]
In the sequential lock mode, the state of locking and unlocking the entrance door is opposite to the state at that time based on communication with the IC card 40F through at least the electronic key read / write unit 21ex outside the entrance door 1. It is a mode to make a state. Even in this sequential lock mode, both the inner and outer electronic key read / write units 21ex and 21in can be used. However, when the inner side is locked by a separate manual locking means, The entrance door can be locked and unlocked only by communication with the IC card 40F through the electronic key read / write unit 21ex. This sequential lock mode is a mode in accordance with a conventional lock / unlock method using a general key.
[0100]
In this example, for example, when the door lock device 2 is installed, the operator can set the door lock control mode of the door lock device 2 as the auto lock mode or the sequential lock mode. This is performed through the monitoring control device 3.
[0101]
Information indicating which door lock control mode the door lock device 2 is set in is stored in a non-volatile memory (not shown) in the door lock control device 100, and the door lock control device 100 stores the non-volatile information. By referring to the storage information of the memory, it is recognized whether the door lock control mode of the own device is the auto lock mode or the sequential lock mode. The setting operation of the door lock control mode through the monitoring control device 3 will be described later.
[0102]
It should be noted that the selection setting of whether the door lock control mode of the door lock device 2 is the auto lock mode or the sequential lock mode is not made through the monitoring control device 3, but directly to the door lock device 2. It can also be. For example, the door lock device 2 may be set in advance as to which door lock control mode is set when the door lock device 2 is shipped. Further, the door lock device 2 is provided with input operation means that can be operated by an operator of the door lock device 2, such as a dip switch, and the door lock control mode is set through the input operation means. Also good.
[0103]
[Description of Appearance of Monitoring and Control Device 3]
FIG. 12 is an external view for explaining the configuration of a monitoring control device 3 for a security system provided in a room. This monitoring control device 3 can be controlled by a remote commander 50 using, for example, infrared rays or radio waves. It is configured.
[0104]
A video camera 31 is incorporated in the housing 30 of the monitoring control device 3. In this example, the video camera 31 is attached to the housing 30 by a mechanism that can take either a horizontal position at a solid line position or a vertical position at a dotted line position. The video camera 31 is configured to start shooting in response to an instruction from the monitoring control device 3 when the security mode is turned on.
[0105]
In addition, since the video camera 31 has a structure in which the video camera can be adjusted in the swing direction, it can be changed by the adjustment. Therefore, the user can adjust the shooting direction by the video camera 31 before the security mode is turned on.
[0106]
The housing 30 is provided with a photographing lamp 32 for brightly illuminating a portion to be photographed by the video camera 31. In addition, the housing 30 is provided with a human sensor 33 that detects a person by detecting, for example, far infrared rays. As will be described later, when the human detection sensor 33 detects a person when the security mode is on, the monitoring and control device 3 detects that the intruder is invading, turns on the photographing lamp 32, and performs a predetermined notification. Send the shot image first.
[0107]
The housing 30 is also provided with a microphone 34 and a speaker 35. The microphone 34 is for picking up the voice of the bandit or the room-like sound at the time of bandage intrusion. The speaker 35 is used to emit a sound threatening the invading bandits.
[0108]
The housing 30 is also provided with an electronic key read / write unit 36. In this example, the electronic key read / write unit 36 is used for recording and reproducing messages. That is, in this example, the supervisory control device 3 is configured so as to be able to function as a message device. After the electronic key read / write unit 36 reads the IC card 40F as the electronic key device, it will be described later. If you press the message record button on the remote commander 50, you can leave a message for the set partner (someone in your family), and if you press the message playback button on the remote commander 50, the message addressed to you will be played. Be able to.
[0109]
As an application for notifying whether or not this message is recorded, the housing 30 is provided with a plurality of LEDs 37. The housing 30 is further provided with a remote control signal receiver 38 from the remote commander 50.
[0110]
Although not shown in FIG. 12, a video output terminal connected to the video input terminal of the television receiver 7 is provided on the rear panel of the monitoring control device 3. The monitoring control device 3 is provided with a remote control transmission unit 39 for controlling on / off of the power of the television receiver 7.
[0111]
Furthermore, the monitoring control device 3 includes a fire sensor 4, a gas sensor 5, window sensors 6a and 6b, and a sensor hub for connecting a monitoring camera. Further, as described with reference to FIG. 3, the monitoring control device 3 is configured to be able to access the management server device 10 operated by the security system management company through a telephone line.
[0112]
[Configuration Example of Monitoring and Control Device 3]
FIG. 13 shows a configuration example of the internal configuration of the monitoring control device 3 and the connection state between the monitoring control device 3 and peripheral devices.
[0113]
The monitoring control device 3 has a microcomputer configuration, and the CPU 203 has a ROM 203 in which programs and data are recorded, a work area RAM 204, and a door lock control device 100 via the system bus 202. Similar to the family information memory 120, communication with the family information memory 205 storing the identification information as the electronic key information of all the family members who possess the IC card 40 </ b> F or 40 </ b> I as the electronic key device, and the door lock control device 100. A door lock device communication interface 206, a sensor hub 207, an image / sound memory 208 for storing a captured image of the video camera 31 and sound picked up by the microphone 34, the management server device 10 and the like through a telephone line Communication interface 20 for performing communication Door is connected.
[0114]
The system bus 202 includes a video camera 31 via a camera interface 210, an illumination mechanism 320 for a photographing lamp 32 via an interface 211, and a human sensor 33 via an interface 212 via an interface 214. The electronic key read / write unit 36, the remote control receiving unit 38 via the interface 215, the remote control transmission unit 39 via the interface 216, the microphone 34 via the audio input interface 218, the LED 37 via the interface 219, Speakers 35 are connected to each other via an audio output interface 220.
[0115]
Furthermore, the system bus 202 is connected to the television receiver 7 via a television interface 217 comprising a video signal output terminal. Further, a clock circuit 221 and a notification contact setting memory 222 are connected to the system bus 202.
[0116]
The family information memory 205 is composed of, for example, an EEPROM (Electrically Erasable Programmable ROM).
[0117]
Similar to the family information memory 120 of the door lock control device 100, the family information memory 205 stores identification information and personal information for each family member. In this specification, information including identification information and personal information is referred to as personal profile information.
[0118]
As will be described later, in this example, when the door lock device 2 and the monitoring control device 3 are installed, the installation manager makes an initial registration request to the management server device 10 for the personal profile information of all family members. Is sent from the management server device 10 and is automatically registered in the monitoring control device 3. Then, the monitoring control device 3 transfers at least personal identification information of the personal profile information to the door lock control device 100 as electronic key information. The door lock control device 100 registers the electronic key information in the family information memory 120.
[0119]
FIG. 14 shows an example of personal profile information for one person. As shown in FIG. 14, the personal profile information is information stored by associating personal identification information with personal information. In this embodiment, as described above, the identification information stored in each memory of the electronic key device is used as the personal identification information. By identifying the personal identification information with the personal information, it becomes clear who the identification information is. As described above, this identification information has the role of electronic key information. As shown in FIG. 14, the main key information and the backup key information can be registered as the electronic key information. A plurality of backup key information may be registered.
[0120]
In the example of FIG. 14, as personal information, password information, name, address, date of birth, age, relationship, registration date, bank account number, telephone number, e-mail address, IP address, hobby / preference information, home Entry / exit history information, electronic key registration / loss history information, and the like from the front door 8 are stored in the family information memory 205.
[0121]
The entry / exit history information of this example stores the time of going out and the time of going home, and includes a presence / absence flag indicating whether the user is out or at home. This entry / exit history information is used by the monitoring and control device 3 to manage family entry / exit through the entrance door 7. Further, as will be described later, the electronic key registration / lost history information includes the date when the backup registration request or the deletion request for the electronic key information from the management server device 10 arrives and the backup registration or deletion processing is performed. Along with the time, backup key information and deleted electronic key information are recorded with a distinction between backup registration and deletion.
[0122]
Further, in this example, the family information memory 205 also stores information for security mode. In other words, in this example, the monitoring control device 3 is configured to be able to change the security level according to the status of the family member at home. FIG. 15 is a table showing the relationship between the security level and the home status of family members. FIG. 16 is a table showing correspondence between security levels and security contents.
[0123]
As shown in FIG. 16, in this example, the security levels are in order from the highest security level to level A, level B, level C, and level D. In level A, the monitoring of windows and entrance doors, Fire and gas leak monitoring and video camera 31 are all monitored. At level B, video camera 31 is not monitored and windows and entrance doors are monitored and fire and gas leaks are monitored. In this case, only fire and gas leakage are monitored, and level D is not monitored.
[0124]
Then, as shown in FIG. 15, each security level is assigned to each family member at home. That is, in this example, in a situation where the father is at home, the level D is set so as not to be monitored. In the situation where the father is absent but the mother is at home, the level C is set to monitor only fire and gas leakage. In the situation where only children are at home, the level B is set to monitor windows and entrance doors and monitor fires and gas leaks. In a situation where all are absent, the level A is set to perform all monitoring.
[0125]
In the monitoring control device 3, when the security mode is turned on or when the security level is changed, the security level is determined according to the at-home situation with reference to the tables of FIGS.
[0126]
The relationship between the security level in FIG. 15 and the home status of family members can be set in advance, or the user can input and set the monitoring control device 3 using the remote commander 50, for example. Configured to change settings.
[0127]
Needless to say, the table information of FIGS. 15 and 16 may be stored not in the family information memory 205 but in another memory.
[0128]
The door lock device communication interface 206 is connected to the door lock control device 100. To the sensor hub 207, the fire sensor 4, the gas sensor 5, the window sensors 6a and 6b, and one or a plurality of monitoring cameras 13 are connected.
[0129]
The image / audio memory 208 is recorded as a message and a monitoring information area for buffering image information captured by the video camera 31 and audio information collected by the microphone 34 when the security mode is on. A message information area for storing image information and audio information. In the monitoring information area, an image storage area for the monitoring camera 13 is also provided.
[0130]
In this example, the monitoring information area stores image information and audio information for a predetermined time, for example, 30 seconds in a so-called ring buffer format. Of course, the monitoring information area and the message information area may have different memory configurations.
[0131]
The communication interface 209 is connected to the router 61 in this example. The router 61 is connected to a telephone line 65 through an ADSL modem 62 and a splitter 63. A telephone terminal 64 is connected to the splitter 63.
[0132]
The clock circuit 221 sends current time information to the system bus 202. The current time information includes so-called calendar information such as year, month, day, and day of the week.
[0133]
As will be described later, the notification contact setting memory 222 stores setting information such as a scheduled return home, a planned return home, a planned return home time, a planned return home time, a notification contact, etc. set by the user using the remote commander 50. Remember. Based on this setting information, the CPU 201 notifies the set notification contact person of the return home status, return home time, out-going status, out-of-home time, etc. The setting operation and notification notification operation will be described later.
[0134]
[Description of Remote Commander 50]
As shown in FIG. 12, the remote commander 50 for the monitoring control device 3 selects the security button 51, the off button 52, the message recording button 53, the message reproduction button 54, the menu button 55, and the up / down / left / right selection. The cursor button 56 is composed of four keys to be executed and a determination key at the center thereof.
[0135]
As menu items, in this example, registration of a personal ID as electronic key information for the management server device 10, setting of the door lock control mode of the door lock device 2, and others are prepared, and each menu item corresponds to the menu item. An application program for executing the processing to be performed is stored in the ROM 203 of the monitoring control device 3.
[0136]
[Configuration of Management Server Device 10]
Next, a configuration example of the management server device 10 is shown in FIG. The management server device 10 has a computer configuration, and with respect to the CPU 301, a ROM 303 in which programs and data are recorded, a work area RAM 304, a door lock device management database 305, and the like via a system bus 302. The electronic key registration / lost history memory 306 is connected to a communication interface 307 for performing communication through a communication network such as the Internet. Further, a homepage memory 308 and an image / audio memory 309 are connected to the system bus 302.
[0137]
The door lock device management database 305 includes the serial numbers of the door lock device 2 and the monitoring control device 3, the address where the door lock device 2 and the monitoring control device 3 are installed, the telephone number, the IP address, and the user of the door lock device. Information necessary for managing the door lock device 2 such as name, registered electronic key information, personal profile information, and the like are stored. The telephone number and the IP address are address information on the communication network 9 of the door lock device 2 and the monitoring control device 3.
[0138]
The electronic key registration / loss history memory 306 stores registration and loss history of electronic key information for each door lock device 2. The homepage memory 308 stores display information of each page of the homepage, and in accordance with an instruction from the CPU 301, display information of a necessary page is read from the memory 308 and transmitted to the communication network through the communication interface 307. Is done.
[0139]
The image / sound memory 309 stores image / sound information sent from the security monitoring system, as will be described later. The management server device 10 checks the image / sound from the security monitoring system, notifies the security company, or provides the image / sound information through the homepage according to the user's request.
[0140]
Next, various operations in the communication system configured as described above will be described below.
[0141]
[Message recording and message reproduction in the supervisory control device 3; FIG. 18]
As described above, the monitoring control device 3 of this example can record a message by designating a specific householder using the electronic key device, in this example, the IC card 40F and the remote commander 50. . When a message is recorded in the supervisory control device 3, the LED 37 is lit or blinked to notify that.
[0142]
Then, when a message is recorded in the monitoring control device 3, the housekeeper who has returned home reads the IC card 40F as his / her electronic key device by the electronic key read / write unit 36, and the remote commander 50 When the message reproduction is instructed by the monitoring control device 3, when the recorded message is a message addressed to the person, the monitoring control device 3 reproduces the recorded message through the television receiver 7 or the speaker 35. Is configured to do.
[0143]
FIG. 18 is a flowchart for explaining the processing of the supervisory control device 3 for message recording and reproduction. The processing in each step S in FIG. 18 is executed by the CPU 201 according to a program stored in the ROM 203.
[0144]
That is, first, in order to record or reproduce a message, the user holds his / her IC card 40F over the electronic key read / write unit 36 to perform communication. The CPU 201 determines whether or not the electronic key read / write unit 36 has communicated with the IC card 40F (step S21). When the CPU 201 determines that communication has been performed, the CPU 201 communicates with anyone's IC card 40F based on the received identification information. It is recognized whether or not (step S22).
[0145]
Next, it waits for the remote control signal from the remote commander 50 to arrive (step S23). When it is confirmed that the remote control signal has been received, it is determined whether or not the remote control signal is due to the operation of the message recording button 53 (step S24). When it is determined that the message recording button 53 is operated, the CPU 201 performs a message recording operation (step S33).
[0146]
In this message recording operation, the supervisory control device 3 takes in the image information of the message photographed by the video camera 31 through the camera interface 210 and stores it in the message recording area of the image / sound memory 208 and also the microphone 34. The message voice information (message message) picked up in the above is taken in through the interface 218 and stored in the message recording area of the image / sound memory 208. At this time, the image information and the sound information are associated with the identification information read from the electronic key device 40 and stored in the image / sound memory 208 together with the identification information.
[0147]
Next, the CPU 201 refers to the personal profile information of the family stored in the family information memory 208 and displays a list of message partners other than the operator who is trying to record the message on the screen of the television receiver 7 ( Step S34). At this time, when the television receiver 7 is not powered on, a remote control signal for turning on the power is supplied to the television receiver 7 through the remote control transmission unit 38 and the television receiver 7 is powered on. Note that the message partner list screen may be displayed so as to be superimposed on the television program image by superimposing, for example, or may be a single screen without being superimposed on the television program image.
[0148]
The operator uses the cursor key 56 of the remote commander 50 to select and input a message partner from this list of message partners, and presses the center determination key in the cursor key 56. The CPU 201 of the supervisory control device 3 receives this message partner selection input (step S35), and corresponds the message partner information to the image information and message voice message in the message recording area of the image / sound memory 208. It stores and registers (step S36). And in order to alert | report that the message was recorded, one LED37 is lighted (step S37). A plurality of LEDs 37 are provided as shown in FIG. 12, and the LEDs 37 are lit as many as the number of recorded messages.
[0149]
If it is determined in step S24 that the remote control signal is not due to the operation of the message recording button 53, it is determined whether or not it is due to the operation of the message playback button 54 (step S25). When it is determined that it is not due to the operation of the message playback button 54, the CPU 201 performs a process corresponding to the operated button (step S26).
[0150]
If it is determined in step S25 that the message reproduction button 54 is operated, the CPU 21 searches the stored contents of the message recording area of the image / sound memory 208 using the identification information recognized in step S22 as a searcher. Then, it is determined whether or not there is a message addressed to the operator who holds the IC card 40F over the electronic key read / write unit 36 (step S27).
[0151]
If it is determined in step S27 that there is no message addressed to the operator, the CPU 201 displays, for example, character information “No message” prepared in advance in the ROM 203 on the screen of the television receiver 7 and a speaker. The sound is emitted as sound through 35 and notified to the operator (step S28).
[0152]
When it is determined in step S27 that there is a message addressed to the operator, the message image and message voice addressed to the operator are read from the image / sound memory 208 and displayed on the television receiver 7 and from the speaker 35. The sound is emitted and reproduced (step S29).
[0153]
When the message reproduction is finished, the CPU 201 displays an inquiry as to whether or not to delete the message on the screen of the television receiver 7, so that the operator can select either “YES” or “NO” included in the display screen. Is selected using the cursor key 56 of the remote commander 50. The CPU 201 determines whether or not to delete the message from the selection input by the operator (step S30). When it is determined that the message is to be deleted, the corresponding image / sound information in the image / sound memory 208 is deleted (step S31). Then, one of the lit LEDs 37 is turned off (step S32). Then, this message recording / playback processing routine is terminated.
[0154]
If it is determined in step S30 that the message is not deleted, the message recording / playback processing routine is terminated.
[0155]
[Door lock control mode selection setting; FIG. 19, FIG. 20]
As described above, in this embodiment, since the door lock control mode can be set through the monitoring control device 3, the setting operation will be described with reference to the flowchart of FIG.
[0156]
First, the CPU 201 of the monitoring control device 3 monitors the reception signal of the remote control receiver 38 to determine whether or not a specific button operation for a setting menu including setting of the door lock control mode has been performed (step S41). . In this example, the specific button operation is an operation that a normal user does not perform, for example, a simultaneous operation of the security button 51 and the menu button 55. Such a specific button operation is defined in order for the installer of the door lock device 2 to perform a setting operation. This is to prevent the setting of the door lock control mode from being changed easily.
[0157]
If it is determined in step S41 that the specific button operation is not performed, other processes such as a process corresponding to a single button operation are performed (step S42). If it is determined in step S41 that the specific button operation has been performed, a list of setting menus is displayed on the screen of the television receiver 7 in the same manner as in the case of the message recording / reproduction described above ( Step S43).
[0158]
For the list display of the setting menu, the operator uses the cursor key of the remote commander 50 to select a setting menu item to be performed. The CPU 201 monitors the reception signal of the remote control receiver 38 to determine whether or not a menu item selection operation has been performed (step S44). When it is determined that the menu item selection operation has been performed, for example, a selection shown in reverse video is displayed. The middle item is changed according to the selection operation (step S45). Then, it is determined whether or not a setting item determination operation has been performed (step S46). If it is determined in step S44 that the menu item selection operation is not performed, the process immediately proceeds to step S46 to determine whether or not the setting item determination operation is performed.
[0159]
If it is determined in step S46 that the setting item determination operation is not performed, the process returns to step S44. If it is determined in step S46 that the setting item determination operation has been performed, it is determined whether or not the selected setting item is a door lock control mode setting (step S47). If not, it is selected. A processing routine for other setting items is executed (step S48).
[0160]
When it is determined in step S47 that the selected setting item is the setting of the door lock control mode, the CPU 201 displays a selection screen for selecting the auto lock mode and the sequential lock mode on the screen of the television receiver 7 (step S47). S49). The operator uses the cursor key 56 to make any selection input on this selection screen.
[0161]
Therefore, the CPU 201 monitors the remote control receiver 38 to determine whether or not the auto lock mode has been selected (step S50). When it is determined that the auto lock mode has been selected, the CPU 201 sets the door lock device 2 to the auto lock mode. A setting operation for setting is performed (step S51).
[0162]
That is, the CPU 201 stores information indicating the auto lock mode in the storage area of the door lock control mode of the door lock device 2 of the non-volatile memory unit built in the monitoring control device 3 and sets the auto lock mode. An instruction to that effect is sent to the door lock device 2 through the door lock device communication interface 206.
[0163]
If it is determined in step S50 that the automatic lock mode is not set, the CPU 201 determines that the sequential lock mode is selected, and performs a setting operation for setting the door lock device 2 to the sequential lock mode (step S52).
[0164]
That is, the CPU 201 stores information indicating the sequential lock mode in the storage area of the door lock control mode of the door lock device 2 of the non-volatile memory unit built in the monitoring control device 3 and sets the sequential lock mode. An instruction to that effect is sent to the door lock device 2 through the door lock device communication interface 206.
[0165]
With the above, the operation at the time of setting the lock control mode in the monitoring control device 3 is completed.
[0166]
Next, the operation of the door lock control device 100 that has received the instruction information of the door lock control mode sent through the door lock device communication interface 206 will be described with reference to the flowchart of FIG.
[0167]
First, the CPU 101 of the door lock control device 100 determines whether or not the door lock control mode setting instruction information has been received from the monitoring control device 3 (step S61), and if not, performs other processing (step S62).
[0168]
If it is determined in step S61 that the door lock control mode setting instruction information has been received from the monitoring control device 3, the CPU 101 determines whether the door lock control mode instructed to be selected is an auto lock mode or a sequential lock mode. (Step S63).
[0169]
When it is determined in step S63 that the door lock control mode instructed to be selected is the auto lock mode, the CPU 101 performs a process of setting the door lock control mode of the door lock device 2 to the auto lock mode (step S64).
[0170]
That is, in step S64, the CPU 101 of the door lock control device 100 determines whether the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex of the door lock device 2 are based on the auto-lock mode setting instruction. Both are made active, and the application of the door lock control of the program ROM 13 is for the automatic lock mode. And CPU101 memorize | stores the information which shows it is an auto-lock mode in the storage area | region of the door lock control mode of the non-volatile memory part with which the door lock control apparatus 100 is provided.
[0171]
If it is determined in step S63 that the door lock control mode selected and instructed is the sequential lock mode, the CPU 101 performs a process of setting the door lock control mode of the door lock device 2 to the sequential lock mode (step S65). ).
[0172]
That is, in step S65, the CPU 101 of the door lock control device 100, based on the sequential lock mode setting instruction, in this example, the inner electronic key read / write unit 21in of the door lock device 2 and the outer electronic key read / write. Both the unit 21ex and the application 21 are activated, and the door lock control application of the program ROM 13 is for the sequential lock mode. Then, the CPU 101 stores information indicating the sequential lock mode in the storage area of the door lock control mode of the nonvolatile memory unit included in the door lock control device 100.
[0173]
In this example, both the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex are used also in the sequential lock mode. However, in this sequential lock mode, the outer electronic key read / write unit 21ex is used. It is also possible to activate only the read / write unit ex and not use the inner electronic key read / write unit 21in. In that case, locking from the inside of the house becomes a problem. For example, the entrance door from the inside may be locked manually without using an electronic key device.
[0174]
Next, the operation of the door lock device 2 in each of the auto lock mode and the sequential lock mode will be described. The operation of each step S in the flowchart described below is a processing operation mainly executed by the CPU 101 of the door lock control device 100.
[0175]
[Auto-lock mode; FIGS. 21 to 26]
The operation in the auto lock mode will be described with reference to the flowcharts of FIGS. In the automatic lock mode, the front door 1 is locked in a steady state. Then, the electronic key device 40 is held over the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex, and communication is performed between them, and authentication of identification information, that is, electronic key information is performed. When the door is taken, the door is unlocked only for a predetermined time, and after a predetermined time, the door 1 is controlled by the door lock control device 100 so as to automatically return to the locked state.
[0176]
The CPU 101 monitors the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex via the interfaces 105 and 106, and the electronic key device 40 and the inner electronic key read are held over the electronic key device 40. / Waiting for communication with the write unit 21in or the outside electronic key read / write unit 21ex (step S71).
[0177]
In step S71, when it is determined that the IC card 40F is held over and communication with the read / write unit 21in or 21ex is performed, the CPU 101 receives the identification information from the IC card 40F and temporarily stores it in the RAM 104 or the like. (Step S72). At this time, the time information of the clock circuit 122 provided in the door lock control device 100 is also stored in the RAM 104 together with the identification information as the time of communication, and the time information is given to the IC card 40F for control purposes. It is written in the memory in the IC 42.
[0178]
Also, the ID of the communication partner or the like is written in the memory of the control IC 42 as information indicating whether communication is performed with the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex.
[0179]
Next, the CPU 101 determines whether the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex communicates with the IC card 40F (step S73). The determination result and the communication time information are also written as communication history information in the family information memory 120 in the recording area of the householder corresponding to the identification information. The identification information, communication time, and the determination result of whether the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex communicates with the IC card 40F are also sent to the monitoring control device 3. It is transferred for storage in the family information memory 205.
[0180]
[In the case of communication by the inner electronic key read / write unit 21in; FIGS. 21 to 23]
If it is determined in step S73 that the communication with the IC card 40F is performed by the inner electronic key read / write unit 21in, the CPU 101 performs the following process assuming that the home person is out. . In this example, when a person at home unlocks the entrance door 1 and opens the entrance door 1, the security mode is once turned off even if the security mode has been turned on. Yes.
[0181]
First, the CPU 101 compares the identification information stored in the family information memory 120 with the identification information received from the IC card 40F, and stores the identification information as electronic key information stored in the family information memory 120. Whether the IC card 40F is an electronic key device registered in the door lock device 2 is determined based on whether or not there is a match with the identification information received from the IC card 40F. Is authenticated (step S74).
[0182]
Then, the authentication result is determined (step S75), and the identification information stored in the family information memory 120 does not match the identification information received from the IC card 40F, and the authentication cannot be obtained. When it is determined that it is (authentication NG), the CPU 101 drives the inner LED drive unit 107 to blink the inner LED 22in in red, and emits a warning sound from the inner speaker 23in, thereby confirming that the authentication is NG. Is notified to the user of the IC card 40F (step S76). Then, the door lock mechanism 28 remains in the locked state, and the process returns to step S71.
[0183]
If it is determined in step S75 that the identification information stored in the family information memory 120 matches the identification information received from the IC card 40F and the authentication is OK, the CPU 101 The inner LED drive unit 107 is driven, the inner LED 22in is lit in green for 1 second, and the user of the IC card 40F is notified that the authentication is OK (step S77). At this time, the CPU 101 may also emit a message “authenticated” from the inner speaker 23in.
[0184]
At this time, since the authentication is OK, the CPU 101 drives and controls the door lock mechanism drive unit 112, and the door lock mechanism 28 opens the entrance door 1 (step S78). , A message “door unlocked” is emitted (step S79). At this time, the inner LED 22in may blink in green, for example, to notify the user of the IC card 40F of the unlocked state of the door lock.
[0185]
At this time, the CPU 101 recognizes that the user (at-home person) of the IC card 40F is going out based on recognizing that the front door 1 is unlocked from the inside by the IC card 40F. Then, an inquiry about the open / closed state of the window is sent to the monitoring control device 3 (step S81 in FIG. 22).
[0186]
On the other hand, the monitoring control device 3 acquires the sensor outputs of the window sensors 6a and 6b through the sensor hub 207 and confirms the opening / closing of the window. In other words, check the door lock. Then, the confirmation result about the open / closed state of the window is returned to the door lock control device 100 through the door lock device interface 206.
[0187]
The door lock control device 100 receives the confirmation result about the open / closed state of the window through the communication interface 121 (step S82). Then, the CPU 101 analyzes the received confirmation result and determines whether or not the window is opened (step S83).
[0188]
If it is determined that the window is open, the CPU 101 warns that the window is open by sound emitted from the inner speaker 23in (step S84). If it is determined that the window is closed, the CPU 101 notifies that the door is closed by sound emitted from the inner speaker 23in (step S85).
[0189]
Next, the CPU 101 captures the sensor output of the door opening / closing sensor 27 through the interface 111 and monitors whether or not the entrance door 1 has been opened (step S86). Then, the CPU 101 determines whether or not a predetermined time, for example, 10 seconds has passed without the entrance door 1 being opened (step S87), and if it is determined that 10 seconds have passed, the entrance door 1 is automatically locked. Return (step S88). Then, the CPU 101 blinks the inner LED 22in in green to notify that the front door 1 has returned to the locked state (step S89).
[0190]
If it is determined in step S86 that the front door 1 has been opened within 10 seconds after the unlocking in step S78, the CPU 101 recognizes that the home person indicated by the identification information captured in step S72 has gone out. Then, the personal information including the identification information and time information is transferred to the monitoring control device 3 as outsider information (step S90). Note that the time information is not included in the information transferred to the monitoring control device 3 at this time, and the time when the monitoring control device 3 receives the information can be recognized from the time of the clock circuit 221.
[0191]
Thereafter, the CPU 101 refers to the sensor output of the door opening / closing sensor 27 to confirm that the entrance door 1 is closed (step S91), and a predetermined time, for example, 3 seconds elapses after the entrance door 1 is closed. When this is confirmed (step S92), the door lock mechanism drive unit 112 is driven and controlled so that the door 1 is returned to the locked state by the door lock mechanism 28 (step S101 in FIG. 23). Then, the CPU 101 blinks the outer LED 22ex in green and notifies the user of the IC card 40F that the front door 1 has returned to the locked state (step S102). This green blinking of the outer LED 22ex is continued for a predetermined time, for example, 10 seconds.
[0192]
Thereafter, the CPU 101 determines whether or not the predetermined time, for example, 10 seconds has elapsed (step S103). If it is determined that the predetermined time has not elapsed, the IC card 40F that has been determined to have communicated in step S71 is determined. Then, it is determined again whether or not communication with the outer electronic key read / write unit 21ex is made (step S104). When it is determined that communication is not performed, the process returns to step S103.
[0193]
In step S103, when it is determined that the predetermined time has elapsed without communication between the IC card 40F and the outer electronic key read / write unit 21ex, the CPU 101 determines that the inner electronic key read / write unit 21in Assuming that the entrance door lock control operation started when the IC card 40F is held over is completed, the process returns to step S71 in FIG.
[0194]
In step S104, the IC card 40F and the outer electronic key read / write unit 21ex that are determined to have communicated in step S71 before the predetermined time elapses when the green LED 22ex stops blinking after the entrance door is locked. If it is determined that the communication has been performed, the door locks confirmed in steps S101 to S63 are reconfirmed (step S105).
[0195]
When it is determined in step S105 that the door lock is OK, the CPU 101 transmits a request to turn on the security mode to the monitoring control device 3 through the communication interface 121 (step S106).
[0196]
In response to this request, the monitoring control device 3 checks the home status at that time and determines which level the security level is shown in FIG. When the security level is level D as a result of the determination, the monitoring control device 3 returns the fact to the door lock control device 100 because the security mode cannot be turned on. When the security level is other than level D, Since the security mode can be turned on, a message to that effect is returned to the door lock control device 100.
[0197]
The CPU 101 of the door lock control device 100 analyzes the response to the security mode on request from the monitoring control device 3, and determines whether the security mode can be turned on (step S107). When it is determined that the response indicating that the security mode can be turned on is received from the monitoring control device 3, the CPU 101 emits a message “turning on the security mode” from the outer speaker 23ex (step S108).
[0198]
When it is determined in step S107 that a response indicating that the security mode cannot be turned on has been received from the supervisory control device 3, the CPU 101 indicates from the outer speaker 23ex that “there is a person at home and the security mode cannot be turned on. Is emitted (step S109). Thereafter, the process returns to step S71.
[0199]
When it is determined in step S105 that the window is open and the door is not closed, the CPU 101 emits a warning message “The security mode cannot be turned on because the window is open”. (Step S110). Then, the process returns to step S71.
[0200]
[In the case of communication by the outer electronic key read / write unit 21ex; FIGS. 24 to 26]
When it is determined in step S71 that the communication with the IC card 40F is performed by the outer electronic key read / write unit 21ex, the CPU 101 is a request to enter the room when the home person returns or other person is outside. The following processing is performed.
[0201]
First, the CPU 101 compares the identification information stored in the family information memory 120 with the identification information received from the IC card 40F, and in the identification information stored in the family information memory 120, the IC card 40F. Whether the IC card 40F is an IC card 40F registered in the door lock device 2 is determined depending on whether there is a match with the identification information received from the card, and authentication of the IC card 40F is performed. (Step S121).
[0202]
Then, the authentication result is discriminated (step S122), and the identification information stored in the family information memory 120 does not match the identification information received from the IC card 40F, and the authentication cannot be obtained. When it is determined that it is (authentication NG), the CPU 101 drives the outer LED driving unit 108 to blink the outer LED 22ex in red, and emits a warning sound from the outer speaker 23ex, thereby confirming that the authentication is NG. Is notified to the user of the IC card 40F (step S123). Then, the door lock mechanism 28 remains in the locked state, and the process returns to step S71.
[0203]
If it is determined in step S122 that the identification information stored in the family information memory 120 matches the identification information received from the IC card 40F and the authentication is OK, the CPU 101 The outer LED drive unit 108 is driven to light the outer LED 22ex in green for 1 second to notify the user of the IC card 40F that the authentication is OK (step S124). At this time, the CPU 101 may also emit a message “authentication has been successful” from the outer speaker 23ex.
[0204]
At this time, since the authentication is OK, the CPU 101 drives and controls the door lock mechanism drive unit 112 to unlock the front door 1 by the door lock mechanism 28 (step S125), and from the outside speaker 23ex. Then, a message “door unlocked” is emitted (step S126). At this time, the outer LED 22ex may blink in green, for example, to notify the user of the IC card 40F of the unlocked state of the door lock.
[0205]
Next, the CPU 101 captures the sensor output of the door opening / closing sensor 27 through the interface 111 and monitors whether or not the entrance door 1 has been opened (step S127). Then, the CPU 101 determines whether or not a predetermined time, for example, 10 seconds has passed without the entrance door 1 being opened (step S128), and if it is determined that 10 seconds have elapsed, the entrance door 1 is automatically locked. It is made to return (step S129). Then, the CPU 101 blinks the outer LED 22ex in green to notify that the front door 1 has returned to the locked state (step S130).
[0206]
Thereafter, the CPU 101 determines whether or not a predetermined time, for example, 10 seconds has elapsed (step S131). If it is determined that the predetermined time has not elapsed, the electronic key device determined to have communicated in step S71 is outside. It is determined whether or not communication with the electronic key read / write unit 21ex is performed (step S132), and when it is determined that communication is not performed, the process returns to step S131.
[0207]
In step S131, when it is determined that the predetermined time has elapsed without communication between the electronic key device and the outer electronic key read / write unit 21ex, the CPU 101 performs electronic control on the outer electronic key read / write unit 21ex. Assuming that the entrance door lock control operation started when the key device is held over is completed, the process returns to step S71 in FIG.
[0208]
In step S132, it is determined that communication has been performed between the electronic key device determined to have performed communication in step S71 and the outside electronic key read / write unit 21ex before the predetermined time has elapsed after the entrance door is locked. Then, the door lock is confirmed (step S133).
[0209]
The confirmation of the door lock in step S133 is performed in the same manner as the process described in steps S121 to S123. That is, the door lock control device 100 makes an inquiry about the opening / closing state of the window to the monitoring control device 3 and acquires the inquiry result from the monitoring control device 3. And it is discriminate | determined from the inquiry result whether the door lock is OK.
[0210]
If it is determined in step S133 that the door lock is OK, the CPU 101 transmits a request to turn on the security mode to the monitoring control device 3 through the communication interface 121 (step S134).
[0211]
In response to this request, the monitoring control device 3 checks the home status at that time and determines which level the security level is shown in FIG. When the security level is level D as a result of the determination, the monitoring control device 3 returns the fact to the door lock control device 100 because the security mode cannot be turned on. When the security level is other than level D, Since the security mode can be turned on, a message to that effect is returned to the door lock control device 100.
[0212]
The CPU 101 of the door lock control device 100 analyzes the response to the security mode on request from the monitoring control device 3, and determines whether the security mode can be turned on (step S135). When it is determined that the response indicating that the security mode can be turned on has been received from the monitoring control device 3, the CPU 101 emits a message “turning on the security mode” from the outer speaker 23ex (step S136).
[0213]
Further, when it is determined in step S135 that the response indicating that the security mode cannot be turned on has been received from the supervisory control device 3, the CPU 101 indicates from the outer speaker 23ex that “there is a home person and the security mode cannot be turned on. Is emitted (step S137). Thereafter, the process returns to step S71.
[0214]
If it is determined in step S133 that the window is open and the door is not closed, the CPU 101 emits a warning message “The security mode cannot be turned on because the window is open”. (Step S138). Then, the process returns to step S71.
[0215]
In the processing from step S131 to step S138, after the front door 1 is unlocked from the inside, the electronic key device is held over the outside electronic key read / write unit 21ex within a predetermined time to turn on the security mode. This is a process for preventing the person who has forgotten to return to the room again and starting over the electronic key device over the inner electronic key read / write unit 21in.
[0216]
That is, after unlocking the front door 1 from the inside, within a predetermined time, the electronic key device is held over the outside electronic key read / write unit 21ex and the user forgets to turn on the security mode or fails. In this case, the electronic key device is held over the outer electronic key read / write unit 21ex, the entrance door 1 is once unlocked, and after waiting 10 seconds, the outer electronic key device is re-locked within 10 seconds. The security mode can be turned on by holding the electronic key device over the key read / write unit 21ex. In this way, in order to set the security mode to ON, it is not necessary to enter the room after unlocking, and to start over from holding the electronic key device 40 over the inner electronic key read / write unit 21in, which is convenient. .
[0217]
Next, when it is determined in step S127 that the front door 1 has been opened within 10 seconds after the unlocking in step S125, the CPU 101 recognizes that the outsider indicated by the identification information captured in step S72 has returned home. Then, the personal information including the identification information and the time information when communication with the electronic key device is performed is transferred to the monitoring control device 3 as the returnee information (step S141 in FIG. 26). Note that the time information is not included in the information transferred to the monitoring control device 3 at this time, and the time when the monitoring control device 3 receives the information can be recognized from the time of the clock circuit 221.
[0218]
Thereafter, the CPU 101 refers to the sensor output of the door opening / closing sensor 27 to confirm that the entrance door 1 is closed (step S142), and a predetermined time, for example, 3 seconds elapses after the entrance door 1 is closed. If this is confirmed (step S143), the door lock mechanism drive part 112 is drive-controlled and the door 1 is returned to the locked state by the door lock mechanism 28 (step S144). Then, the CPU 101 blinks the inner LED 22in in green and notifies that the front door 1 has returned to the locked state (step S145).
[0219]
Thereafter, the CPU 101 sends an instruction to change the security level to the monitoring control device 3 based on the change in the home status because there is a returnee (step S146).
[0220]
Receiving this security level change instruction, the monitoring control device 3 recognizes the change in the home status due to the returnee information in step S141, and refers to the correspondence table between the home status and the security level shown in FIG. It is determined whether or not the security level needs to be changed, and when necessary, the security level is changed. Then, the monitoring control device 3 notifies the door lock control device 100 whether or not the security level has been changed.
[0221]
The CPU 101 of the door lock control device 100 receives the notification regarding the change of the security level from the monitoring control device 3 (step S147), and determines whether or not the security level has been changed (step S148).
[0222]
If it is determined in step S148 that the security mode has been changed, the CPU 101 emits a message “the security level has been changed” from the inner speaker 23in (step S149). Then, the process returns to step S71.
[0223]
In the above description, when there is a returnee, the door lock control device 100 sends a security level change instruction to the monitoring control device 3 in step S146. However, in the monitoring control device 3, step S141 is performed. Since the transfer of the returnee information is received, it is automatically determined whether the security level needs to be changed without receiving a security level change instruction from the door lock control device 100. The security level may be automatically changed. In that case, when the security level is changed, the fact is transferred to the door lock control device 100.
[0224]
[Description of sequential lock mode; FIGS. 27 to 29]
Next, the operation in the sequential lock mode will be described with reference to the flowcharts of FIGS. In this sequential lock mode, the IC card 40C is held over the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex, and communication is performed between them. When the authentication is obtained, the door lock mechanism 28 is controlled by the door lock control device 100 so as to be in a state opposite to the unlocked or locked state of the front door 1 at that time.
[0225]
The CPU 101 monitors the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex through the interfaces 105 and 106, and the IC card 40C is held over the IC card 40C and the inner electronic key read / write unit 21ex. Waiting for communication with the unit 21in or the outside electronic key read / write unit 21ex (step S151).
[0226]
In step S151, when it is determined that the IC card 40F is held over and communication is performed with the IC card 40F, the CPU 101 receives the identification information from the IC card 40F and temporarily stores it in, for example, the RAM 104 ( Step S152). At this time, as described above, time information and the like are written to the IC card 40F, and time information and the like are written to the family information memory 120 and the family information memory 205 of the monitoring control device 3.
[0227]
Whether the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex communicates with the IC card 40F is determined (step S153).
[0228]
[In the case of communication in the inner electronic key read / write unit 21in; FIG. 27]
When it is determined in step S153 that the communication with the IC card 40F is performed by the inner electronic key read / write unit 21in, the CPU 101 locks the entrance door 1 for security when a person staying out of the house or going out As a case, the following processing is performed.
[0229]
First, the CPU 101 compares the identification information stored in the family information memory 120 with the identification information received from the IC card 40F, and in the identification information stored in the family information memory 120, the IC card 40F. Whether or not the IC card 40F is an electronic key device registered in the door lock device 2 is determined based on whether or not there is a match with the identification information received from the card, and authentication of the IC card 40F is performed. (Step S154).
[0230]
Then, the authentication result is discriminated (step S155), and the identification information stored in the family information memory 120 does not match the identification information received from the IC card 40F, and the authentication cannot be obtained. When it is determined that it is (authentication NG), the CPU 101 drives the inner LED drive unit 107 to blink the inner LED 22in in red, and emits a warning sound from the inner speaker 23in, thereby confirming that the authentication is NG. Is notified to the user of the IC card 40F (step S156). Then, the door lock mechanism 28 remains in the previous state and returns to step S151.
[0231]
If it is determined in step S155 that the identification information stored in the family information memory 120 matches the identification information received from the IC card 40F and the authentication is OK, the CPU 101 The inner LED driving unit 107 is driven to light the inner LED 22in in green for 1 second to notify the user of the IC card 40F that the authentication is OK (step S157). At this time, the CPU 101 may also emit a message “authenticated” from the inner speaker 23in.
[0232]
And CPU101 discriminate | determines whether the locked state of the front door 1 by the present door lock mechanism 28 is a locked state (step S158). In this step S158, when it is determined that the door door 1 is locked by the door lock mechanism 28, the door lock mechanism drive unit 112 is driven and controlled so that the door lock mechanism 28 is locked. (Step S159).
[0233]
Then, the CPU 101 causes the inner LED 22in to blink in green, for example, and emits a message “The entrance door has been locked” from the inner speaker 23in to notify the user of the IC card 40F that the door is locked. (Step S160).
[0234]
Then, the CPU 101 recognizes that the person indicated by the identification information captured in step S152 is locked for security, and transfers the personal information including the identification information to the monitoring control device 3 as the resident information. (Step S161).
[0235]
If it is determined in step S158 that the current locked state of the door lock mechanism 28 is the locked state, the CPU 101 controls the drive of the door lock mechanism driving unit 112 to set the door lock mechanism 28 to the unlocked state. (Step S162) The inner LED 22in blinks, for example, in green, and a message “door unlocked” is emitted from the inner speaker 23in (step S163).
[0236]
At this time, the CPU 101 recognizes that the person indicated by the identification information captured in step S152 has unlocked and has gone out, and uses the personal information including the identification information as the outsider information. 3 (step S164).
[0237]
[In the case of communication by the outer electronic key read / write unit 21ex; FIGS. 28 to 29]
When it is determined in step S153 that communication with the IC card 40F is performed by the outer electronic key read / write unit 21ex, the CPU 101 locks when the housekeeper comes home and unlocks or the housekeeper goes out. As a case, the following processing is performed.
[0238]
First, the CPU 101 compares the identification information stored in the family information memory 120 with the identification information received from the IC card 40F, and in the identification information stored in the family information memory 120, the IC card 40F. Whether or not the IC card 40F is an electronic key device registered in the door lock device 2 is determined based on whether or not there is a match with the identification information received from the card, and authentication of the IC card 40F is performed. (Step S171).
[0239]
Then, the authentication result is discriminated (step S172), and the identification information stored in the family information memory 120 does not match the identification information received from the IC card 40F, and the authentication cannot be obtained. When it is determined that it is (authentication NG), the CPU 101 drives the outer LED driving unit 108 to blink the outer LED 22ex in red, and emits a warning sound from the outer speaker 23ex, thereby confirming that the authentication is NG. Is notified to the user of the IC card 40F (step S173). Then, the door lock mechanism 28 remains in the locked state, and the process returns to step S151.
[0240]
When it is determined in step S172 that the identification information stored in the family information memory 120 matches the identification information received from the IC card 40F and the authentication is OK, the CPU 101 The outer LED drive unit 108 is driven, the outer LED 22ex is lit in green for 1 second, and the user of the IC card 40F is notified that the authentication is OK (step S174). At this time, the CPU 101 may also cause the outside speaker 23ex to emit a message “authenticated”.
[0241]
Then, the CPU 101 determines whether or not the current lock state of the door lock mechanism 28 is a locked state (step S175). In step S175, when it is determined that the current locked state of the front door 1 by the door lock mechanism 28 is the locked state, the CPU 101 drives and controls the door lock mechanism driving unit 112, and the door lock mechanism 28 controls the front door. The door 1 is unlocked (step S176), the inner LED 22in blinks, for example, in green, and the message “door unlocked” is emitted from the inner speaker 23in (step S177).
[0242]
Then, the CPU 101 recognizes that the person indicated by the identification information captured in step S152 has unlocked for returning home, and provides the identification information and the return time information (the time when communication with the electronic key device was performed). The included personal information is transferred to the monitoring control device 3 as returnee information (step S178). Also in this case, the time when the monitoring control device 3 receives these pieces of information may be recognized from the time of the clock circuit 221 in the same manner as described above, and the time may be used as the time to go home.
[0243]
In step S175, when it is determined that the current locked state of the front door 1 is the unlocked state, the door lock mechanism driving unit 112 is driven and controlled so as to be in the locked state which is the opposite state, The entrance door 1 is locked by the door lock mechanism 28 (step S179).
[0244]
Then, the CPU 101 causes the inner LED 22in to blink in green, for example, and from the inner speaker 23in to emit a message “The entrance door has been locked” to notify the user of the IC card 40F that the door has been locked. (Step S180).
[0245]
Then, the CPU 101 recognizes that the person indicated by the identification information captured in step S152 is locked for going out, and transfers the personal information including the identification information to the monitoring control device 3 as the outsider information. (Step S181).
[0246]
After locking, the CPU 101 determines whether or not a predetermined time, for example, 10 seconds has elapsed (step S182 in FIG. 29). If it is determined that the predetermined time has not elapsed, it is determined that communication has been performed in step S171. It is determined whether the IC card 40F communicates with the outer electronic key read / write unit 21ex again (step S183). When it is determined that communication is not performed, the process returns to step S182.
[0247]
If it is determined in step S183 that communication has been performed between the electronic key device determined to have performed communication in step S71 and the outer electronic key read / write unit 21ex before the predetermined time has elapsed after the entrance door is locked. The door lock is confirmed (step S184).
[0248]
The confirmation of the door lock in step S184 is performed in the same manner as the process described in steps S101 to S103. That is, the door lock control device 100 makes an inquiry about the opening / closing state of the window to the monitoring control device 3 and acquires the inquiry result from the monitoring control device 3. And it is discriminate | determined from the inquiry result whether the door lock is OK.
[0249]
If it is determined in step S184 that the door lock is OK, the CPU 101 transmits a request to turn on the security mode to the monitoring control device 3 through the communication interface 121 (step S185).
[0250]
In response to this request, the monitoring control device 3 checks the home status at that time and determines which level the security level is shown in FIG. When the security level is level D as a result of the determination, the monitoring control device 3 returns the fact to the door lock control device 100 because the security mode cannot be turned on. When the security level is other than level D, Since the security mode can be turned on, a message to that effect is returned to the door lock control device 100.
[0251]
The CPU 101 of the door lock control device 100 analyzes the response to the security mode on request from the monitoring control device 3, and determines whether or not the security mode can be turned on (step S186). When it is determined that the response indicating that the security mode can be turned on has been received from the monitoring control device 3, the CPU 101 emits a message “turning on the security mode” from the outer speaker 23ex (step S187).
[0252]
Further, when it is determined in step S186 that a response indicating that the security mode cannot be turned on has been received from the supervisory control device 3, the CPU 101 indicates from the outer speaker 23ex that “there is a home person and the security mode cannot be turned on. Is emitted (step S188). Thereafter, the process returns to step S151.
[0253]
If it is determined in step S184 that the window is open and the door is not closed, the CPU 101 emits a warning message “The security mode cannot be turned on because the window is open”. (Step S189). Then, the process returns to step S171.
[0254]
[Security Operation in Monitoring and Control Device 3; FIG. 30]
As described above, the supervisory control device 3 turns on the security mode in response to an instruction from the door lock control device 100, but also turns on the security mode by pressing the security button 51 of the remote commander 50. Can do. Then, the security mode on state of the monitoring control device 3 can be turned off by operating the off button 52 of the remote commander 50.
[0255]
FIG. 30 is a flowchart for explaining an operation of controlling the on / off of the security mode of the monitoring control device 3 by operating the remote commander 50.
[0256]
First, the CPU 201 monitors a remote operation signal from the remote commander 50, and determines whether or not an operation input has been made by the remote commander 50 (step S191). If it is determined that an operation input has been made, the CPU 201 determines whether or not it is the security button 51 that has been operated (step S192).
[0257]
As a result of the determination in step S192, when it is determined that the operation is the security button 51, the CPU 201 sends a power-on remote control signal from the remote control transmission unit 39 to the remote control reception unit of the television receiver 7, and the television receiver 7 is Turn on (step S193).
[0258]
Then, the CPU 201 sends the image information generated based on the data read from the ROM 203 to the television receiver 7 through the television interface 217, and displays a security mode on confirmation screen on the screen of the television receiver 7 (step S194). . Thereafter, the CPU 201 sends a remote control signal for turning off the power of the television receiver 7 from the remote control transmission unit 39 to turn off the television receiver 7 (step S195).
[0259]
Then, the CPU 201 turns on the security mode (step S197) after a predetermined time, for example, 5 minutes (step S196), and executes a security monitoring operation (step S198). The predetermined time in step S196 is a time that takes into account the time until the user who operates the security button 51 sets the security mode on and then exits from the front door.
[0260]
If it is determined in step S192 that the button operated by the remote commander 50 is not the security button 51, the CPU 201 determines whether or not the operated button is the off button 52 (step S199). If it is determined in step S199 that the button is not the off button 52, the CPU 201 executes processing due to the other buttons being pressed (step S200).
[0261]
As a result of the determination in step S199, when determining that the button is the off button 52, the CPU 201 sends a power-on remote control signal from the remote control transmission unit 39 to the remote control reception unit of the television receiver 7 to turn on the television receiver 7. (Step S201).
[0262]
Then, the CPU 201 sends the image information generated based on the data read from the ROM 203 to the television receiver 7 through the television interface 217, and displays a security mode off confirmation screen on the screen of the television receiver 7 (step S202). . Thereafter, the CPU 201 sends a remote control signal for turning off the power of the television receiver 7 from the remote control transmitter 39 to turn off the television receiver 7 (step S203).
[0263]
Then, the CPU 201 performs processing for turning off the security mode (step S204). Thus, the processing routine of FIG. 30 ends.
[0264]
[Monitoring operation when security mode is on]
FIG. 31 and FIG. 32 show processing operations when the security mode is turned on in the monitoring control device 3. This is activated when the security button 51 is operated on the remote commander 50 described above, and the security level at this time is level A. When there is a security mode on instruction from the door lock control device 100, as described above, the security level is determined in consideration of the status of the person at home, and the security mode is turned on at the determined security level. Is.
[0265]
In FIG. 31, first, the CPU 201 starts capturing a captured image of the video camera 31 (step S211). At this time, the voice picked up by the microphone 34 is also taken in together. As described above, the security mode monitoring information area provided in the image / sound memory 208 is in a ring buffer format. In this example, the latest 30 seconds of image / sound information is always stored in the image / sound memory. 208 is stored. The same applies to the captured image from the monitoring camera 13.
[0266]
Next, the CPU 201 controls to start monitoring the sensor outputs of the window sensors 16a and 16b from the sensor hub 207 and the sensor output of the door opening / closing sensor 27 of the front door 1 (step S212). Further, the CPU 201 controls to start monitoring the sensor outputs of the fire sensor 4 and the gas sensor 5 (step S213). The surveillance camera 13 is turned on / off in response to the fire sensor 4 and the gas sensor 5 being turned on / off.
[0267]
Next, the CPU 201 monitors the sensor output of the human sensor 33 and checks whether there is an intruder (step S214). When it is determined that there is no intruder, it is determined whether an abnormality is detected from the sensor outputs of the window sensors 16a and 16b and the sensor output of the door opening / closing sensor 27 (step S231 in FIG. 32).
[0268]
When it is determined in step S231 that no abnormality is detected, the CPU 201 determines whether an abnormality is detected from the sensor outputs of the fire sensor 4 and the gas sensor 5 (step S232). If it is determined in step S232 that no abnormality is detected, the process returns to step S214.
[0269]
When it is determined in step S214 that an intruder has been detected by the human sensor 33, the CPU 201 controls the illumination mechanism 320 to turn on the illumination 32 (step S215). Then, the image / sound information for 30 seconds from 10 seconds before the detection time of the intruder to 20 seconds after the detection time point is read from the image / sound memory 208 and is sent to the management server device 10 as the first image. Transfer (step S216). The management server device 10 can recognize an intruder based on the transferred image / sound information and take appropriate measures.
[0270]
Next, the CPU 201 sends a power-on remote control signal from the remote control transmitter 39 to the television receiver 7 to turn on the television receiver 7 (step S217). Then, the CPU 201 sends information of threatening images and threatening voices prepared in advance to the television receiver 7 and outputs those threatening images and threatening sounds (step S218). This intimidating image / sound makes it possible to intimidate and disband the invading bandits.
[0271]
Next, the CPU 201 notifies abnormality detection to a contact person registered in advance in the monitoring and control apparatus 3, for example, a security company and a police station, as well as a registered household cell phone (step S219).
[0272]
The CPU 201 then repeatedly transfers the image / sound information for 30 seconds stored in the ring buffer of the image / sound memory 208 to the management server device 10 at intervals of several seconds (step S220). Then, the CPU 201 determines whether or not the human sensor 33 no longer detects an intruder (step S221), and performs a processing operation of transferring image / audio information for 30 seconds to the management server device 10 until no intruder is detected. continue.
[0273]
When the CPU 201 determines that the human sensor 33 no longer detects the intruder, the CPU 201 stops transferring the image / sound information for 30 seconds to the management server device 10 (step S222). Then, the process returns to step S231 to continue security monitoring.
[0274]
If it is determined in step S231 that an abnormality has been detected, the CPU 201 detects the detection time from 10 seconds before the detection time from the monitoring camera 13 installed in the vicinity of the window sensors 6a and 6b and the door opening / closing sensor 27. The image for 30 seconds up to 20 seconds later is transferred to the management server device 10 as the first time (step S234).
[0275]
Then, the CPU 201 sends a power-on remote control signal from the remote control transmitter 39 to the television receiver 7 to turn on the television receiver 7 (step S235). Then, the CPU 201 sends information of threatening images and threatening voices prepared in advance to the television receiver 7 and outputs those threatening images and threatening sounds (step S236). This intimidating image / sound makes it possible to intimidate and disband the invading bandits.
[0276]
Next, the CPU 201 notifies abnormality detection to a contact person registered in advance in the monitoring and control device 3, for example, a security company and a police station, as well as a registered household mobile phone (step S237).
[0277]
Then, the CPU 201 then repeatedly transfers the image / audio information for 30 seconds stored in the ring buffer of the image / audio memory 208 to the management server device 10 at intervals of several seconds (step S238). Then, the CPU 201 waits for an off instruction by the off button 52 of the remote commander 50 (step S239), and when there is an off instruction, turns off the security mode.
[0278]
When it is determined in step S232 that an abnormality has been detected by the fire sensor 4 or the gas sensor 5, the CPU 201 is set and registered in the monitoring control device 3, for example, a security company, a fire department, or a registered family member's mobile phone. An abnormality detection is notified to the telephone (step S233). Then, the process proceeds to step S239.
[0279]
The management server device 10 that has received the image / sound information from the monitoring control device 3 places the image / sound information on the Web page. Therefore, the owner of the mobile phone that has received the notification from the monitoring control device 3 can access the Web page of the management server device 10 to know what kind of abnormality has occurred, and take appropriate countermeasures. It becomes possible.
[0280]
[Cooperation by instructions from the door lock control device 100 in the monitoring control device 3; FIG. 33]
The CPU 201 of the monitoring control device 3 performs a cooperative operation as shown in FIG. 33 according to the information and instructions received from the door lock control device 100. In this example, the change in the security level is not performed by the CPU 201 in response to a change instruction from the door lock control device 100, but a change in the home status based on the result of receiving personal information from the door lock control device 100. This is a case where it is checked and checked if necessary.
[0281]
That is, the CPU 201 determines whether or not a security mode on instruction has been received from the door lock control device 100 (step S241). If it is determined not to receive, the CPU 201 performs other processing (step S242).
[0282]
When determining in step S241 that the security mode on instruction has been received, the CPU 201 refers to the stored information in the family information memory 205 to check the home status (step S243). Then, with reference to the table shown in FIG. 15, the security level corresponding to the home situation is recognized, and it is determined whether the security mode can be turned on (step S244).
[0283]
If it is determined in step S244 that the security mode cannot be turned on, the CPU 201 notifies the door lock control device 100 to that effect (step S245).
[0284]
On the other hand, if it is determined in step S244 that the security mode can be turned on, the door lock control device 100 is notified that the security mode can be turned on (step S246), and a predetermined time elapses. (Step S247).
[0285]
After confirming that the predetermined time has elapsed, the CPU 201 turns on the security mode at a security level corresponding to the home status (step S248). Then, the security monitoring operation is started (step S249).
[0286]
During this security monitoring operation, it is determined whether or not personal information including identification information is received from the door lock control device 100 (step S250). If not received, the process returns to step S249 to continue the security monitoring operation. When it is determined that personal information has been received from the door lock control device 100, the resulting change in the home status is checked (step S251), and it is determined whether the security level needs to be changed (step S252).
[0287]
When determining that it is not necessary to change the security level, the CPU 201 returns to step S249 and continues the security monitoring operation. If it is determined in step S252 that the security level needs to be changed, it is determined whether the security mode should be turned off as a result of the change (step S253). If not, the home status is set. Accordingly, the security level is changed (step S254). Then, the door lock control device 100 is notified that the security level has been changed (step S255).
[0288]
If it is determined in step S253 that the security mode is to be turned off, the security mode is turned off (step S256), and the fact is notified to the door lock control device 100 (step S257). Then, the process returns to step S241.
[0289]
As described above, according to this embodiment, since a non-contact electronic key device is used for locking and unlocking, there is no key hole, and there is a so-called anti-picking crime prevention effect.
[0290]
Also, based on the biometric information of the owner of the electronic key device, the electronic key device checks (authenticates) whether the user of the electronic key device is the owner, and only when the authentication is OK. Since the electronic key information is transmitted, even if the electronic key device is lost, it is impossible for anyone other than the owner to control the door using the electronic key device. The nature is very high.
[0291]
Further, since the door lock device 2 can be selectively used in the auto lock mode and the sequential lock mode, the user can select which mode to use according to his / her convenience. Is very convenient.
[0292]
Further, the inner electronic key read / write unit 21in is provided, and the inner electronic key read / write unit 21in can also control the lock state of the door by the electronic key device. Can be prevented from exiting the front door.
[0293]
Further, by providing the inner electronic key read / write unit 21in and the outer electronic key read / write unit 21ex, it is easy to manage the entry / exit of the family by communicating with these electronic key devices.
[0294]
Therefore, by combining the door lock device 2 and the monitoring control device 3, efficient security management can be performed. Since the security mode can be set when the door is locked, conventionally, it is possible to eliminate the urgency that the user has to set in the house and go out of the house after a predetermined time.
[0295]
Further, when the window is forgotten to be closed, it is confirmed when the door is opened and closed, so that it is possible to prevent the window from being forgotten to close.
[0296]
In addition, since the security mode level can be changed according to the age, sex, etc. of the householder, an effective security level can be set even when the resident is a weak person. In addition, there is an advantage that the security level can be changed by grasping the change in the home situation in cooperation with the unlocking and locking of the door lock.
[0297]
[Register electronic key information]
Since it is not preferable in terms of security that registration of identification information as electronic key information can be easily performed, in this example, registration of identification information as electronic key information is performed by a method that emphasizes security as follows. For example, it is performed by a dealer, an installer, or a user of the door lock device 2.
[0298]
First, registration of the key information will be described. In this embodiment, as described above, the electronic key device that stores the identification information that is the initial real key information is an IC card, and the door lock device 2 is received from the dealer or installer of the door lock device 2. It is given to the user when installing in each door.
[0299]
In the case of this embodiment, before installing the door lock device 2 in each door, personal information about each member of the family member of the door where the door lock device 2 is installed is collected. Then, an IC card for storing identification information to be the main key information is allocated to each member of the family member, and the identification information as the main key information stored in each IC card is collected. Personal profile information composed of personal information is configured.
[0300]
User information such as a product number including a serial number of the door lock device 2 to be installed, an installed address, a telephone number, and names of family members who use the door lock device, and the individual of each family member Profile information is stored in advance in the door lock device management database 305 of the management server device 10. That is, the main key information of each family member is included in the personal profile information of each family member and registered in the management server device 10 in advance.
[0301]
At this time, in the door lock device management database, the personal profile information of the family members is stored corresponding to the address information on the communication network of the monitoring control device 3. As the address information, as described above, a telephone number or an IP address is used in this example.
[0302]
The key information registered in the management server device 10 and the personal profile information of each family member are managed by the management company when the installer or distributor of the door lock device 2 completes the installation of the door lock device 2. When an initial registration request is made to the server device 10, it is written and registered in the family information memory 205 of the monitoring control device 3 by being transferred from the management server device 10 to the monitoring control device 3. Of the information registered in the monitoring control device 3, at least the key information is registered in the family information memory 120 by being transferred to the door lock control device 100.
[0303]
FIG. 34 shows the operation of the management server device 10 when an initial registration request is received. The operation of each step in FIG. 34 is mainly performed by the CPU 301.
[0304]
First, the CPU 301 determines whether or not an initial registration request has been accepted (step S261). This initial registration request is accompanied by device identification information such as a serial number of the door lock device 2. For example, the initial registration request is sent to the management server device 10 through a communication network from a personal computer or the like, or by telephone or the like. In some cases, an operator who has received an initial registration request performs input using an input means (not shown).
[0305]
Upon receiving this initial registration request, the CPU 301 searches the door lock device database using the device identification information as a search element, and addresses information on the communication network 9 of the door lock device 2 and the monitoring control device 3 registered in advance. And make a call including the initial registration request. That is, the initial registration request is issued to the monitoring control device 3 to which the door lock device 2 requested for initial registration is connected (step S262).
[0306]
At this time, since the monitoring control device 3 makes an automatic response, the CPU 301 confirms the response from the monitoring control device 3 and forms a communication path with the monitoring control device 3 (step S263).
[0307]
Next, the CPU 301 stores the book about all the family members in the house where the door lock device is installed, which is stored in the door lock device database 205 of the management server device 10 as described above in relation to the door lock device 2. The personal profile information including the key information is transmitted to the monitoring control device 3 (step S264).
[0308]
Next, the CPU 301 waits for the end of the information to be transmitted to the monitoring control device 3 and waiting for the registration completion notification from the monitoring control device 3 (step S265). When determining that the registration completion notification has been received, The communication path with the monitoring control device 3 is disconnected (step S266), and the initial registration processing routine is terminated.
[0309]
The operation of the monitoring control apparatus 3 that receives this initial registration request information will be described with reference to the flowchart of FIG.
[0310]
The CPU 201 of the monitoring control device 3 determines whether or not an incoming call from the management server device 10 has been received (step S271). When it is determined that the incoming call has not been received from the management server device 10, other processing is performed ( Step S272).
[0311]
When determining that an incoming call from the management server device 10 has been received, the CPU 201 automatically responds to the incoming call and forms a communication path with the management server device 10 (step S273). Then, it is determined whether or not the received incoming call is an initial registration request (step S274). If it is determined that the request is an initial registration request, the CPU 201 waits for registration information from the management server device 10, receives the registration information (step S275), and writes the received registration information in the family information memory 205 (step S276).
[0312]
When the writing of registration information for the entire family is completed, a registration completion notification is returned to the management server device 10 (step S277), and the communication path with the management server device 10 is disconnected (step S278).
[0313]
Next, the CPU 201 transfers the identification information, which is the key information for at least each family member, of the personal profile information written and registered in the family information memory 205 to the door lock control device 100 (step S279). Upon receiving this information, the door lock control device 100 registers the received key information in the family information memory 120. Needless to say, in addition to the identification information as the key information, personal information regarding family members may be transferred to the door lock control device 100. Note that the registration operation in the door lock control device 100 is the same as the key registration operation in the above-described monitoring control device, and is therefore omitted here.
[0314]
When the CPU 201 confirms the end of the transfer of the main key information and, if necessary, the information to the door lock control device 100 (step S280), the CPU 201 ends the processing routine.
[0315]
If it is determined in step S274 that the registration is not initial registration, the CPU 201 determines whether or not it is a backup key registration request (step S281). The process is executed (step S282). A detailed description of the backup registration process is omitted in this specification.
[0316]
If it is determined in step S281 that the request is not a backup registration request, the CPU 201 determines whether it is a lost key deletion request (step S283). If it is determined that the request is not a lost key deletion request, the CPU 201 executes other processing (step S284). If it is determined that the request is a lost key deletion request, the CPU 201 executes the deletion request processing (step S285). ). A detailed description of the erasure process is omitted in this specification. Above, the process of FIG. 35 is complete | finished.
[0317]
[Notification settings]
Next, in this embodiment, the user can set a scheduled return home, a planned going out home, a scheduled home return time, a planned going out time, a notification contact person, and the like for the monitoring control device 3 in advance. The device 3 stores the set information in the notification contact setting memory 222. Then, as will be described later, the monitoring control device 3 monitors the set scheduled home time and the planned going out time, and sets the planned returning home, the set planned going out person, and the set notification contact person, The information regarding the entrance / exit of the planned returnee and the planned going-out person, that is, the information related to the return home and going out is notified and notified.
[0318]
First, the setting process of a person who plans to return home, a person who plans to go out, a scheduled time to go home, a scheduled time to go out, a notification contact person, etc. will be described with reference to the flowcharts of FIGS.
[0319]
First, the CPU 201 of the monitoring control device 3 monitors the reception signal of the remote control receiving unit 38 and determines whether or not a button is operated by the remote commander 50 (step S291). If it is determined in step S291 that the button is not operated, other processing is performed (step S292).
[0320]
If it is determined in step S291 that the button is operated by the remote commander 50, the CPU 201 determines whether or not the button operated by the remote commander 50 is the menu button 55 (step S293). When determining that the button is not the menu button 55, the CPU 201 executes processing corresponding to the operated button (step S294).
[0321]
If it is determined in step S293 that the operated button is the menu button 55, the CPU 201 turns on the power of the television receiver 7 when the power is not turned on (step S295). ), A list of menus is displayed on the screen of the television receiver 7 in the same manner as in the case of the message recording / reproduction described above (step S296).
[0322]
For the menu list display, the operator uses the cursor key of the remote commander 50 to select a setting menu item to be performed. The CPU 201 monitors the reception signal of the remote control receiver 38 to determine whether or not a menu item selection operation has been performed (step S297). When determining that the menu item selection operation has been performed, the CPU 201 selects, for example, an inverted display. The middle item is changed according to the selection operation (step S298). Then, it is determined whether or not a setting item determining operation has been performed (step S299).
[0323]
If it is determined in step S297 that the menu item selection operation is not performed, the CPU 201 immediately proceeds to step S299 to determine whether or not a setting item determination operation has been performed. If it is determined in step S299 that the setting item determination operation is not performed, the process returns to step S297.
[0324]
If it is determined in step S299 that the setting item determination operation has been performed, the CPU 201 determines whether or not the selected setting item is a notification setting related to a return home schedule (step S301 in FIG. 37). If not, it is determined whether or not the selected setting item is a notification setting related to going out (step S303). If it is determined that the notification regarding the going-out schedule is not set, a processing routine for other setting items is executed (step S305).
[0325]
When it is determined in step S301 that the notification is related to the schedule for returning home, the CPU 201 displays a setting screen for setting the scheduled return time, the scheduled return home, and the contact person for returning home on the screen of the television receiver 7 (step S302). ). In the case of this example, the return home notification contact who is requested to set for the user on the setting screen is other than the planned return home person. However, as will be described later, when the notification related to the homecoming schedule is set, the monitoring control device 3 sends a notification to the homecoming person to return home to the homecoming person who does not go home even when the homecoming time is reached. Therefore, the actual return home notice contact person includes the planned return home person in advance.
[0326]
In step S306 subsequent to step S302, the CPU 201 determines whether or not the setting input for all setting items has been completed for the notification regarding the scheduled return home (step S306), and when determining that all the setting inputs have been completed, The set item information is written in the notification contact setting memory 222 (step S307), and then the power of the television receiver 7 is turned off (step S308), and this setting processing routine is ended.
[0327]
Further, when it is determined in step S303 that the notification is related to the going-out schedule, the CPU 201 displays setting screens such as the scheduled going-out time, the planned going-out person, the out-going notification contact person on the screen of the television receiver 7 ( Step S304). In the case of this example, the outing notification contact who is requested to set by the user on the setting screen is other than the planned going out person. However, as will be described later, when the notification related to the going-out schedule is set, the monitoring control device 3 sends a notification to the planned going-out person to the going-out person who does not go out even at the scheduled time to go out. Therefore, the actual going-out notification contact person includes the person who is scheduled to go out in advance.
[0328]
In step S306 subsequent to step S304, the CPU 201 determines whether or not the setting input for all setting items related to going out has been completed (step S306). When determining that all the setting inputs have been completed, The set item information is written in the notification contact setting memory 222 (step S307), and then the power of the television receiver 7 is turned off (step S308), and this setting processing routine is ended.
[0329]
[Notification communication processing]
Next, the notification communication operation in the monitoring control device 3 when the notification setting regarding the return home schedule or the going out schedule is made as described above will be described with reference to FIGS. 38 to 40.
[0330]
First, the monitoring control device 3 is in a standby state for notification notification regarding returning home or going out (step S310). In this standby state, the security mode may be on, or the security mode may be off.
[0331]
In this standby state, the CPU 201 determines whether or not information from the door lock control device 100 has been received (step S311). When determining that the information from the door lock control device 100 has been received, the CPU 201 determines whether the received information is returnee information or outsider information (step S312).
[0332]
When it is determined in step S312 that the received information is the outing person information, the CPU 201 identifies the outing person identification information stored in the notification contact setting memory 222 and the outing person information received from the door lock control device 100. Is compared with the identification information of the outing person included in the information, and based on the comparison result, it is determined whether or not the outing person is a planned going out person (step S313). If not, the process goes to step S310. Return and enter standby mode.
[0333]
In step S313, when it is determined that the outing person is the set outing person, the CPU 201 reads out the information of the outing notification contact person stored in the notification contact setting memory 222. In this example, the personal information of the outing notification contact stored in the family information memory 205 is searched, the e-mail address is read out, and set for the mobile notification terminal of the outing notification contact, for example. The person who is scheduled to go out is notified by e-mail (step S314). This notification communication includes information on the time of going out.
[0334]
Then, after making the notification contact, the CPU 201 deletes the setting information about the notification regarding the going-out schedule stored in the notification contact setting memory 222 (step S315), and ends this processing routine.
[0335]
As described above, for example, the parent who is going out can know whether or not the child set as the planned going out person has gone out at the scheduled time.
[0336]
If it is determined in step S312 that the information received from the door lock control device 100 is return home information, the CPU 201 identifies the return home identification information stored in the notification contact setting memory 222 and the door lock control device 100. Is compared with the identification information of the returnee included in the returnee information received from, and based on the comparison result, it is determined whether the returnee is the set returnee (step S316). If not, the process returns to step S310 and enters a standby state.
[0337]
If it is determined in step S316 that the returnee is the set returnee, the CPU 201 reads out the return notification contact information stored in the notification contact setting memory 222. In this example, the personal information of the outing notice contact person stored in the family information memory 205 is searched, the mail address is read out, and the return notice contact person of the outing notice contact person is returned to the mobile phone terminal, for example. The notification contact person is notified and notified by e-mail that the scheduled returnee has returned (step S317). This notification communication includes information about the time when the user returns home.
[0338]
Then, after making the notification contact, the CPU 201 deletes the setting information about the notification related to the return schedule stored in the notification contact setting memory 222 (step S315), and ends this processing routine.
[0339]
As described above, for example, it is possible to know whether or not a child set as a planned return home by a parent who has gone out has returned home at a scheduled time.
[0340]
Next, when it is determined in step S311 that the information from the door lock control device 100 has not been received, the CPU 201 determines the scheduled return time stored in the notification communication setting memory 222 and the current time indicated by the clock circuit 221. To determine whether or not the scheduled return time has passed (step S318).
[0341]
If it is determined in step S318 that the scheduled return time has not elapsed, the CPU 201 compares the scheduled time of going out stored in the notification contact setting memory 222 with the current time indicated by the clock circuit 221 to determine the scheduled time of going out. It is determined whether or not it has elapsed (step S319). If it is determined in step S319 that the current time has not reached the scheduled time to go out, the process returns to step S310 and enters a standby state.
[0342]
If it is determined in step S318 that the current time has passed the scheduled return time, the CPU 201 makes a notification to prompt the returnee to return home (step S321 in FIG. 39). In other words, the e-mail address of the person who will return home stored in the family information memory 205 is read out, and for example, the mobile phone terminal of the person who plans to return home is notified by e-mail that he should return home promptly, and is urged to return home. Like that.
[0343]
Next, the CPU 201 reads the information of the return home notification contact stored in the notification contact setting memory 222, searches for the personal information of the return home notification contact stored in the family information memory 205, and the mail address Is read and notified by e-mail to the cellular phone terminal of the return notification contact person that the set scheduled return home person has not yet returned home (step S322).
[0344]
Thereafter, the CPU 201 waits for returnee information from the door lock control device 100 (step S323), and determines whether or not a predetermined time, for example, 10 minutes has elapsed without receiving returnee information (step S324). When it is determined that the predetermined time has not elapsed, the process returns to step S323 and waits for returnee information. If it is determined in step S324 that the predetermined time has elapsed, the process returns to step S321, and an e-mail that prompts the person who plans to return to return home is sent again.
[0345]
When it is determined in step S323 that the returnee information has been received from the door lock control device 100, the CPU 201 sets the returnee identified by the identification signal included in the returnee information from the door lock control device 100. It is determined whether or not the person is scheduled to return home (step S325). When it is determined in step S325 that the returnee is not the set returnee, the CPU 201 proceeds to step S324, waits for a predetermined time, and repeats the above-described operations after step S324.
[0346]
When the CPU 201 determines that the returnee determined in step S325 is a preset returnee, the CPU 201 searches the personal information of the return notification contact person stored in the family information memory 205, and the mail address Is read and notified to the home-notification contact, for example, the mobile phone terminal of the home-notification contact by e-mail to the home return-notification contact that the scheduled return home has been returned (step S317). This notification communication includes information about the time when the user returns home.
[0347]
Then, after making the notification contact, the CPU 201 deletes the setting information related to the planned returnee stored in the notification contact setting memory 222 (step S315), and ends this processing routine.
[0348]
Further, when it is determined in step S319 that the current time has passed the scheduled going-out time, the CPU 201 makes a notification to prompt the going-out person to go out (step S331 in FIG. 40). That is, the e-mail address of the person who is going out is stored in the family information memory 205, and the e-mail is sent to the mobile phone terminal of the person who is planning to go out to promptly go out, thereby encouraging the person to go out. Like that. Thereby, even if the person who is going out is busy in other things, he / she can go out at a predetermined scheduled time to go out.
[0349]
Next, the CPU 201 reads out the information of the outing notification contact stored in the notification contact setting memory 222, refers to the personal information of the outing notification contact stored in the family information memory 205, and sends the mail address. Is notified and notified by e-mail to the mobile phone terminal of the outing notification contact that the set outing person has not yet gone out (step S332).
[0350]
Upon receiving this notification, the outing notice contact person can call out to his / her home, for example, by calling his / her home. Even if the person who is scheduled to go out is not notified in step S331 due to the fact that his / her mobile phone is not turned on, the person who is going out is prompted by a telephone contact or the like by the outside-notification contact person. It becomes possible to go out at the scheduled time.
[0351]
Thereafter, the CPU 201 waits for outsider information from the door lock control device 100 (step S333), and determines whether or not a predetermined time, for example, 10 minutes has elapsed without receiving the outsider information (step S334). ) When it is determined that the predetermined time has not elapsed, the process returns to step S333 and waits for the arrival of outsider information. If it is determined in step S334 that the predetermined time has elapsed, the process returns to step S331, and an e-mail that prompts the person who intends to go out is sent again.
[0352]
If it is determined in step S333 that the outing person information has been received from the door lock control device 100, the CPU 201 determines whether or not the outing person identified by the identification signal included in the outing person information is a set outing person. Is determined (step S335). When it is determined in step S335 that the outing person is not the set outing person, the CPU 201 proceeds to step S334, waits for a predetermined time, and repeats the above-described operations after step S334.
[0353]
When it is determined that the outing person determined in step S335 is a preset outing person, the CPU 201 searches the personal information of the outing notification contact person stored in the family information memory 205, and the mail address , And notifies the outing notification contact person, for example, the mobile phone terminal, of the outing notification contact person by e-mail that the planned outing person has gone out (step S314). This notification communication includes information on the time of going out.
[0354]
Then, after making the notification contact, the CPU 201 deletes the setting information related to the planned going-out person stored in the notification contact setting memory 222 (step S315), and ends this processing routine.
[0355]
As described above, according to this embodiment, for example, a parent sets a child as a scheduled return home, sets a scheduled return home time, and further sets the parent as a notification to return home. The parent can check whether or not the child is returning at the scheduled return time, and can prompt the child to return home promptly.
[0356]
In addition, if a person who plans to go out sets the scheduled time to go out, he / she will be prompted to go out at the scheduled time to go out even if he / she forgets the planned time to go out. It becomes possible to go out at the time.
[0357]
[Other Embodiments]
In the above-described embodiment, when a predetermined reservation set time is reached, the scheduled return home person or the going out person, and the preset return notice contact person or the outing notice contact person, the return home situation of the planned return person or the planned person to go out. Although the notification of the outing situation is made, communication is performed between the door lock control device 100 and the electronic key device, so that information on the person who goes out or goes home is notified to the preset notification contact. But of course.
[0358]
In the above embodiment, the communication device includes the door lock device 2 and the monitoring control device 3 of the security system. However, the communication device is considered as a door lock control system only for locking and unlocking the door. In this case, the monitoring control device 3 is not necessary, and the communication device can be configured by only the door lock device 2. In that case, the door lock device 2 has a function of making a mail or a telephone call to a mobile phone terminal through a telephone line.
[0359]
In addition, the notification communication method is e-mail, but by using voice synthesis or the like, a call is made to a mobile phone terminal or a fixed telephone terminal with a predetermined telephone number, and voice information is sent to return home or go out It is also possible to notify the return home situation or the outing situation.
[0360]
In the above-described embodiment, the electronic key information is used as the identification number of the IC chip, and the electronic key information is also used as the personal identification information by associating it with the personal information. Personal identification information is determined in advance and registered in an electronic key device, a door lock control device, a monitoring control device, etc., and the personal identification information is transmitted together with the electronic key information during communication between the electronic key device and the read / write unit. May be exchanged. In that case, in addition to the electronic key information, identification information is set for each individual and stored in the memory of the electronic key device, and also in the personal profile information in the memory of the door lock control device and the monitoring control device. Included and stored.
[0361]
When personal identification information is separated from electronic key information in this way, one electronic key information common to all the family members living in the house is used as one electronic key information for one door lock device. In this way, each person can have an electronic key device for storing the common key information.
[0362]
Further, in the above-described embodiment, information for contacting the notification contact, for example, an e-mail address, a telephone number, or an IP address when notifying a personal computer is preliminarily sent to the monitoring control device or the door lock control device. Although the stored information is read out and used, the information may be acquired from the electronic key device during communication with the electronic key device.
[0363]
Since the above-described embodiment has the configuration of the communication system including the security monitoring system, the management server device 10 exists, but the configuration of the communication system without the security monitoring system is also possible.
[0364]
The electronic key information is not transferred from the management server device to the electronic key information storage unit of the door lock device and registered, but is registered and stored in advance in the door lock device before being installed in the dwelling unit. Of course, you can keep it. This is particularly the case when the door lock control system is used alone without using the security monitoring system as in the above-described embodiment.
[0365]
In addition, although it has been described that the identification information that is centrally managed in advance is stored in the memory of the IC chip, it goes without saying that the identification information that is centrally managed may be written later. .
[0366]
In the embodiment described above, the security mode is turned on when the electronic key device is held within a predetermined time after the door is locked with respect to the outer electronic key read / write unit 21ex. Since the door lock control device 100 or the monitoring control device 3 manages entry / exit from the front door 1, the security mode may be automatically turned on at the security level A when there is no resident. it can.
[0367]
In that case, when the door lock control device 100 detects the absence of a resident, the monitoring control device 3 may request that the security mode be turned on. When detected, the security mode may be turned on.
[0368]
In this example, when a person at home unlocks the entrance door 1 and opens the entrance door 1, the security mode is once turned off even if the security mode has been turned on. However, if there is an outing person when the security mode is on, the monitoring control apparatus 3 recognizes the outing person by the identification information acquired through communication with the electronic key device, and the returnee The security level can be automatically changed in response to changes in the home status in exactly the same manner as when there is a problem.
[0369]
In the above description of the embodiment, the identification information as the key information is authenticated by the door lock device. However, the door lock device 2 is connected to the monitoring control device 3 or via the monitoring control device 3. The key information is sent to the management server device 10, the authentication operation is performed by the monitoring control device 3 or the management server device 10, and the authentication result is returned to the door lock device 2 (in the case of the management server device 10, the monitoring control device 3). It is also possible to return it via In that case, there is no need to send key information transfer or deletion instructions from the monitoring control device 3 to the door lock control device 100.
[0370]
Further, the identification information of the unlocker and the locker may be sent to the management server device 10 instead of the monitoring control device 3 and the management server device 10 may perform security management.
[0371]
In the above description, whether the person is a person who has gone out or has returned home is determined by the door lock control device 100. However, the monitoring control device 3 also includes the setting information of the door lock control mode in the door lock control device 100. Since the door lock control device 100 is provided, the IC card 40F is held over the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex, and communication is performed between the two. When the authentication is obtained, the identification information, the information indicating whether the inner electronic key read / write unit 21in or the outer electronic key read / write unit 21ex is communicated, and the unlocking / locking information are monitored. It can also be sent to the control device 3 so that the supervisory control device 3 can determine whether it is going out or going home.
[0372]
As described above, the electronic key device is not limited to the IC card. In the case of the above example, an IC chip similar to the IC card, a communication unit, a biometric information acquisition unit, and the like are provided. A mobile phone terminal, a PDA (personal digital assistant) or the like can be used.
[0373]
Further, the electronic key device is not limited to the one that performs communication of electronic key information in a non-contact manner as in the above-described embodiment, and may of course communicate electronic key information in a contact manner. Good.
[0374]
【The invention's effect】
As described above, according to the communication device according to the present invention, by managing the person who locks and unlocks the door, it is possible to urge the person who plans to go home or to go out, and to return home or go out. It is possible to notify a notification contact person who is out and about the outing situation.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining an outline of identification information used in an embodiment of a door lock control system of the present invention;
FIG. 2 is a diagram showing an example of identification information used in the embodiment of the present invention.
FIG. 3 is a diagram for explaining an outline of a communication system to which an embodiment of a door lock control system according to the present invention is applied;
FIG. 4 is a diagram showing an embodiment of an electronic key device according to the present invention.
FIG. 5 is a block diagram showing a configuration example of an embodiment of an electronic key device according to the present invention.
FIG. 6 is a flowchart for explaining the operation of an embodiment of the electronic key device according to the present invention;
FIG. 7 is a diagram showing another embodiment of an electronic key device according to the present invention.
FIG. 8 is a block diagram showing a configuration example of another embodiment of the electronic key device according to the present invention.
FIG. 9 is a flowchart for explaining the operation of another embodiment of the electronic key device according to the present invention;
FIG. 10 is a diagram for explaining a main part of an example of a door lock device constituting the door lock control system of the embodiment.
11 is a block diagram illustrating a configuration example of a door lock control device of the door lock device of FIG. 10;
FIG. 12 is a diagram illustrating an example of a monitoring control device used in a security system.
13 is a block diagram illustrating a configuration example of the monitoring control device in FIG. 12;
FIG. 14 is a diagram illustrating an example of personal profile information.
FIG. 15 is a diagram for explaining the contents of a security mode.
FIG. 16 is a diagram for explaining the contents of a security mode.
FIG. 17 is a block diagram illustrating a configuration example of a management server device.
18 is a flowchart for explaining a message recording and reproduction function of the monitoring control apparatus of FIG. 12;
FIG. 19 is a flowchart for explaining a door lock control mode setting operation;
FIG. 20 is a flowchart for explaining a door lock control mode setting operation;
FIG. 21 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is an example of a door lock control mode.
FIG. 22 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is one example of a door lock control mode.
FIG. 23 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is one example of a door lock control mode.
FIG. 24 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is one example of a door lock control mode.
FIG. 25 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is one example of a door lock control mode.
FIG. 26 is a part of a flowchart for explaining a door lock control operation in an auto lock mode which is one example of a door lock control mode.
FIG. 27 is a part of a flowchart for explaining a door lock control operation in a sequential lock mode which is one example of a door lock control mode.
FIG. 28 is a part of a flowchart for explaining a door lock control operation in a sequential lock mode which is an example of a door lock control mode.
FIG. 29 is a part of a flowchart for explaining a door lock control operation in a sequential lock mode which is one example of a door lock control mode.
FIG. 30 is a flowchart for explaining a reception processing operation of a signal from a remote commander of the monitoring control device.
FIG. 31 is a part of a flowchart for explaining an operation when the security mode is on in the monitoring control apparatus;
FIG. 32 is a part of a flowchart for explaining an operation when the security mode is on in the monitoring control apparatus;
FIG. 33 is a diagram for explaining a cooperative operation with the door lock device in the monitoring control device.
FIG. 34 is a diagram showing a flowchart for explaining registration of real key information in the embodiment of the present invention.
FIG. 35 is a diagram showing a system configuration for explaining registration of real key information in the embodiment of the present invention.
FIG. 36 is a diagram showing a part of a flowchart for explaining setting processing of a schedule for going home or a schedule for going out in the embodiment of the present invention.
FIG. 37 is a diagram showing a part of a flowchart for explaining setting processing for a schedule for going home or a schedule for going out in the embodiment of the present invention.
FIG. 38 is a diagram showing a part of a flowchart for explaining a notification contact process regarding a person who plans to return home or a person who plans to go out in the embodiment of the present invention.
FIG. 39 is a view showing a part of a flowchart for explaining a notification contact process related to a person who plans to go home or a person who plans to go out in the embodiment of the present invention.
FIG. 40 is a view showing a part of a flowchart for explaining a notification contact process related to a planned return home person or a going out person in the embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Entrance door, 2 ... Door lock apparatus, 3 ... Monitoring control apparatus, 4 ... Fire sensor, 5 ... Gas sensor, 6a, 6b ... Window sensor, 7 ... Television receiver, 8 ... Telephone line, 10 ... Management server apparatus, DESCRIPTION OF SYMBOLS 100 ... Door lock control apparatus, 21in ... Inner electronic key read / write part, 21ex ... Outer electronic key read / write part, 40F, 40I ... IC card as an example of an electronic key apparatus

Claims (4)

First communication means for communicating with at least an electronic key device that stores electronic key information;
A second communication means for transmitting information through a communication network;
A storage unit for storing electronic key information;
The electronic key information received from the electronic key device through the first communication means is compared with the electronic key information stored in the storage unit, and the locking or unlocking of the door is controlled based on the comparison result. Door lock control means;
User recognition means for recognizing a user of the electronic key device based on information received from the electronic key device through the first communication means;
Based on the door locking or unlocking control by the door lock control means, the entry / exit judgment means for judging the entry / exit of the user recognized by the user recognition means,
A setting input receiving means for receiving a setting input of a notification contact address for contacting the user other than the user and the scheduled entry and exit time of the user;
The entry / exit scheduled time and the notification contact information received by the setting input reception means are stored in association with the user, and the user contact information for contacting the user is stored. Setting storage means to
When the entry / exit determination means determines the entry / exit of the user, the user who entered / exited the notification of the scheduled entry / exit time and contact to other than the user by the setting input reception means A user determination means for determining whether the user has received a contact setting input,
When the user determining means determines that the user has received the setting input, the notification contact address stored corresponding to the user whose entry / exit is determined in the setting storage means Notification means for notifying the user's entry / exit together with the entry / exit time via the second communication means;
If the user recognition unit does not recognize the user corresponding to the scheduled entry / exit time even after the scheduled entry / exit time stored in the setting storage unit has elapsed, the user entry / exit Information on the fact that the user has not exited is transmitted to the notification contact stored in correspondence with the user in the setting storage means via the second communication means, and the scheduled input time has elapsed. Transmission control means for controlling the user contact for contact with the user to perform notification to prompt entry / exit to the user;
A communication device comprising: The communication device according to claim 1,
The transmission control means transmits information related to the fact that the user has not been entered or exited to the notification contact information, and performs a notification for prompting the entrance to the user contact information, and then determines in advance. When the entry / exit determination means cannot determine whether the user has entered / exited even after the predetermined time has elapsed, information relating to the fact that the user has not entered / exited is sent to the notification contact address again. A communication device for sending a notification for prompting entry / exit to the user contact information . The communication device according to claim 1 ,
The electronic key information is configured with identification information capable of identifying a user of the electronic key device,
The communication device, wherein the user recognition means recognizes a user of the electronic key device that has entered and exited the door based on the electronic key information received from the electronic key device. The communication device according to claim 1,
The electronic key information is identification information that is centrally managed and allocated so that the same thing does not exist,
A personal information storage unit that stores personal information that enables identification of an owner of the electronic key device in correspondence with the electronic key information, and the electronic key information received from the electronic key device and the storage unit Comparing with the stored electronic key information, and based on the comparison result, comprising means for managing entry / exit from the door of the owner of the electronic key device,
The communication device, wherein the user recognition means recognizes a user of the electronic key device that has entered and exited the door based on the electronic key information received from the electronic key device.

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