JP2007174435A - Wiring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wiring system capable of simply building up a system that can control various devices to be controlled through combinations among a mobile terminal, a gate unit, and a control means. <P>SOLUTION: The wiring system includes a connector unit 1 connected with an information transmission information line and a power line and a basic function module 2 configuring the gate unit downloads schedule information generated by the mobile terminal 100. A control module 4 transmitting control information to a device to be controlled to control the device to be controlled acquires schedule information downloaded to the basic function module 2 from the basic function module 2 and transmits control information for controlling the device to be controlled to function modules 3, 3' corresponding to the device to be controlled on the basis of the schedule information via an information network including the information line L2. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wiring system.

  Conventionally, in a system that performs load operation (monitoring) control through a terminal device, a transmission signal composed of a multipolar baseband signal is sent from the central monitoring device to the terminal device by time division multiplexing, and each terminal device transmits this transmission signal. There has been a system for exchanging information by using and obtaining a power supply for a terminal circuit unit (Patent Document 1).

In this system, a switch box standardized for an embedded wiring device and an operation terminal provided with an operation switch or the like using a mounting frame corresponding to the switch box are embedded in a wall surface. It is designed to be used in the same way as a wall switch. When installing two sets of operation terminals, use a double mounting frame with two mounting windows, attach a series of one side of the mounting frame to a series of switch boxes, and attach the other side to the wall. It has been arranged so that the two operation terminals are provided side by side by arranging the operation terminals on the respective mounting windows. In addition, a signal from one operating terminal (switch box side) to the other operating terminal can be obtained by bringing the conductive pieces provided between the mounting windows into contact with the lead pieces of the operating terminal provided on the mounting windows on both sides. It is configured to feed and wire the wires.
Japanese Patent No. 3136006 (paragraph numbers 0004, 0005, 0015, FIG. 1, FIG. 37)

  By the way, in the system described above, the terminal unit has only a function of taking in information from the monitoring target or controlling the load based on the control information, and the function is limited by functions provided in advance by the terminal unit. System deployment was not something that could be done according to needs.

  In addition, normal power outlets, switches, etc. are only wired with power lines, so users will have specific functions in the future (systems such as intercom systems, crime prevention, and fire) and information devices (wireless communications). When an attempt is made to insert a device, etc., an information line must be separately wired for each system or information device, resulting in a very complicated wiring and a problem of taking time.

  Therefore, the information line is pre-wired together with the normal power line, and the system that can meet the future needs of the user, for example, the switch port and the outlet port as the gate device that usually exists in the building is used. As a result, a flexible wiring system that allows users to build a system with specific functions of their choice and add information devices when future needs arise while securing the necessary functions up to now. It is sought after.

  The present invention has been made in view of the above points, and the object of the present invention is to easily construct a system capable of controlling a variety of controlled devices by a combination of a mobile terminal, a gate device, and a control means. It is to provide a wiring system that can do this.

  In order to achieve the above object, according to the first aspect of the present invention, a gate device to which an information line and a power line for information transmission are connected, and a control for transmitting the control signal to the controlled device and controlling the controlled device. And a portable terminal having means for setting setting information for controlling the controlled device, and the control means and the gate device include the control means and the gate device. Communication means for performing communication between the mobile terminal and the gate device, respectively, and communication means for performing communication between the mobile terminal and the gate device. The gate device includes the mobile terminal. The setting information is downloaded from the portable terminal, and the control means acquires the setting information downloaded to the gate device from the gate device and based on the setting information, And controlling the controlled device.

  According to the first aspect of the present invention, it is possible to easily construct a system capable of controlling a variety of controlled devices by a combination of a mobile terminal, a gate device, and a control means.

  According to a second aspect of the present invention, in the first aspect of the invention, the gate device is provided with power supply means for supplying power obtained from a power line to the portable terminal, and the portable terminal is connected to the gate device. A means for receiving power is provided.

  According to the second aspect of the present invention, it is easy to secure the power supply simply by connecting the portable terminal to the gate device.

  According to a third aspect of the present invention, in the first aspect of the invention, the gate device is provided with power supply means for supplying power obtained from a power line to the mobile terminal in a contactless manner, and the mobile terminal is contacted from the gate device in a contactless manner. A means for receiving power is provided.

  According to the invention of claim 3, since power can be supplied between the mobile terminal and the gate device in a non-contact manner, there is little risk of contact failure as in the case of electrode connection.

  INDUSTRIAL APPLICABILITY The present invention has an effect that it is possible to realize a wiring system that can easily construct a system that can control various types of controlled devices by a combination of a mobile terminal, a gate device, and a control means.

Embodiments of the present invention will be described below.
(Embodiment 1)
FIG. 1 shows a system configuration of the entire wiring system according to the present invention. In this wiring system, a plurality of switch boxes B are embedded at appropriate positions in a building, and the switch box B at the beginning is drawn into the wiring board 8 from outside and is connected to a main breaker MB and a branch breaker BB. And an information line L2 connected to the external Internet network NT via a gateway GW (with built-in router and hub). Further, between the switch boxes B, power lines L1 and information lines L2 previously wired in the wall surface are sent and wired.

  Here, the switch box B corresponds to, for example, a series of mounting frames 70 (see FIG. 2) to which three large square one-module embedded wiring devices standardized by JIS can be mounted. The standardized power line L1 and information line L2 sent from the distribution board 8 or other switch box B are introduced from above, and the power line L1 and information for sending and wiring to the other switch box B are also introduced. Line L2 is derived from the bottom. In addition, as shown in FIG.1 and FIG.3, the switch box B has what is provided in the indoor ceiling CL, what is provided in the wall W, and what is provided in the floor FL.

  In each switch box B, the connector device 1 shown in FIGS. 1 and 2 is embedded using a mounting frame 70. The attachment frame 70 has a rectangular frame shape, and has elongated attachment windows 71 for attaching instruments. The left and right frame pieces 72 are provided with three sets of instrument attachment holes 73 in the longitudinal direction of the attachment windows 71. Yes.

  Further, the horizontal frame pieces 74 above and below the mounting frame 70 are provided with a long hole 75 for a mounting screw for mounting to the switch box B, a conventionally known scissor bracket (not shown) for mounting on a gypsum board constituting the wall, and the like. ), A screw hole 77 for a plate screw for attaching a plate frame 80 to be described later on the front side, and a screw insertion hole 78 for fixing the screw directly to a gypsum board with a tapping screw. Is provided at least.

  Further, L-shaped hooking pieces 79 and 79 protrude integrally from the left and right side portions of the upper and lower horizontal frame pieces 74, and the hooking piece 79 protruding from one side in the left-right direction extends from the upper part of the horizontal frame piece 74 to the tip. Projecting downward, the hooking piece 79 projecting from the opposite side extends from the lower part of the horizontal frame piece 74 and has a tip projecting upward. When attaching the mounting frame 70 to the switch box B, mounting screws (not shown) that are inserted through the long holes 75 provided in the upper and lower horizontal frame pieces 74 of the mounting frame 70 are screw holes (not shown) of the switch box B. To the switch box B together with the connector device 1.

  The container body 10 of the connector device 1 is formed in a dimension (three module dimensions) corresponding to the size of three embedded wiring devices having standardized unit dimensions arranged in the short width direction. Two sets of locking claws 10a are formed on both the left and right side surfaces of the locking frame 10 so as to be locked and disengaged in a tool mounting hole 73 provided in a frame piece 72 of the mounting frame 70. The container body 10 of the connector device 1 is attached to the attachment frame 70 with the front surface of the container body 10 exposed from the attachment window 71 of the attachment frame 70.

  In the connector device 1, as shown in FIG. 4, the power line L1 and the information line L2 are connected to the terminal portions 11a, 11b, 12a, and 12b of the quick connection terminal structure provided on the back surface of the container body 10. Here, of the terminal portions 11a and 11b to which the power line L1 is connected, the power line L1 connected to the lower terminal portion 11b serves as a feed wiring to another switch box B (see FIG. 1). Of the terminal portions 12a and 12b to which the information line L2 is connected, the information line L2 connected to the lower terminal portion 12b is also a feed wiring to the other switch box B.

  On the other hand, the front surface of the container 10 is provided with a conductive portion electrically connected to the terminal portions 11a and 11b, and power for connecting the power line L1 connected to the terminal portions 11a and 11b to an external power path. An information path connection port 13b for connecting the information line L2 to an external information path, including a path connection port 13a and a conductive portion electrically connected to the information line L2 connected to the terminal portions 12a and 12b. Is provided. Here, the power path connection port 13a and the information path connection port 13b are respectively standardized (standardized) with the arrangement of the conductive portions and the shape of the openings as a system.

  Next, the basic function module 2 connected to the connector device 1 will be described with reference to FIGS. The basic function module 2 includes a flat rectangular parallelepiped module main body 20. On the back side of the module main body 20, a connector 21a standardized in a form corresponding to each of the power path connection port 13a and the information path connection port 13b. 21b is formed, and the connectors 21a and 21b are connected to the connection ports 13a and 13b of the connector device 1 so that the module main body 20 is stacked on the front side of the body 10 of the connector device 1. Worn.

  A circuit having a configuration as shown in FIG. 5 is built in the module body 20. The basic function module 2 has the following configuration in order to use a function module 3 and a control module 4 which will be described later in series.

  That is, the basic function module 2 steps down the commercial power supply AC connected via the connector 21a to a predetermined voltage, converts the frequency to a high frequency, and a coil 23b wound around the core 23a with the constant-pressure AC power converted to the high frequency. An AC / AC converter 22a applied to the DC power supply, a DC power supply 22b for obtaining an operating power (+ V) of an internal circuit composed of a stable DC voltage after rectifying and smoothing a low-voltage AC power supply, and an information line connected via a connector 21b A transmission / reception unit 24 that transmits / receives an information signal through L2, an E / O conversion unit 25a that performs E / O conversion on an information signal received through the information line L2, and transmits the information signal as an optical signal through the light emitting element LED; An O / E converter 2 that receives an information signal composed of an optical signal sent from 3 by the light receiving element PD, performs O / E conversion, and outputs it to the transmitter / receiver 24. b and the mobile terminal 100 to be described later to download schedule information and personal identification information for controlling the controlled device created by the mobile terminal 100, and download the downloaded schedule information to the storage unit 400. An information management unit comprising a microcomputer that stores and communicates with the control module 4 and uploads schedule information and personal identification information stored in the storage unit 400 to the control module 4 by an information signal 401.

  Here, the coil 23b and the core 23a described above are an electromagnetic coupling unit serving as a primary side of a transformer for supplying power from the basic function module 2 to the function module 3, the control module 4, and the portable terminal 100 in a non-contact manner. The core 23a is magnetically coupled to the functional module 3, the control module 4, and the core of the electromagnetic coupling unit similarly provided in the portable terminal 100, and the coil of the electromagnetic coupling unit provided in the control module 4 by the transformer action A low-voltage AC power supply is induced to supply power.

  In the AC / AC converter 22a, the commercial power source supplied through the power line L1 is converted into a low-voltage AC power source having a frequency higher than that of the commercial power source frequency, thereby reducing the size of the transformer by the electromagnetic coupling unit.

  In FIG. 5, only one set of the electromagnetic coupling portion composed of the core 23a and the coil 23b is shown. However, the functional module 3, the control module 4, or the portable terminal 100 is either on the left or right side of the basic functional module 2, or the basic Since the functional modules 2 are arranged side by side on both the left and right sides, two sets of electromagnetic coupling portions that are electrically parallel to each other are actually provided. Each group is arranged. Here, the side surface position of the module main body 20 where the tips of the cores 23 a of the electromagnetic coupling portions are arranged close to each other is the magnetic coupling portion X with respect to the functional module 3, the control module 4, or the portable terminal 100.

  On the other hand, the light emitting element LED of the E / O conversion unit 25a is used to transmit an information signal to the functional module 3, the control module 4, or the portable terminal 100 in a non-contact manner using an optical signal. It is opposed to a light receiving element provided in a side O / E converter (not shown). The light receiving element PD of the O / E conversion unit 25b is for receiving the information signal transmitted from the function module 3 and the control module 4 and the portable terminal 100 as an optical signal. It is opposed to the light emitting element provided in the module 3, the control module 4, or the E / O conversion unit (not shown) on the portable terminal 100 side.

  Note that only one light emitting element LED of the E / O conversion unit 25a and one light receiving element PD of the O / E conversion unit 25b are shown in FIG. 5, but each of the conversion units 25a and 25b includes a light emitting element LED and a light emitting element LED. Two sets of light receiving elements PD are connected to each other, and one set of light emitting elements LED and one set of light receiving elements PD is arranged at an internal position close to the side wall on the left and right sides of the module body 20. Here, the side wall portion of the module body 20 where the light emitting portion of the light emitting element LED and the light receiving portion of the light receiving element PD face each other is a transparent portion Y so that an optical signal can be transmitted. Further, on both sides of the module body 20, the light receiving element PD and the light emitting element LED are arranged so that the positions thereof are reversed on the upper side and the lower side. For example, the light receiving element PD is on the right side, the light emitting element LED is on the lower side, The element PD is on the bottom and the light emitting element LED is on the top. And the arrangement | positioning position of the front-end | tip part of the core 23a of an electromagnetic coupling part and the up-and-down space | interval of the arrangement position of light receiving element PD and light emitting element LED are made into a fixed form.

  The basic function module 2 has the above-described configuration, and includes connectors 21a and 21b adapted to the connection ports 13a and 13b of the connector device 1 that are embedded in the switch box B using the mounting frame 70. By coupling, it is possible to secure the power of the basic function module 2 and the information path at the same time, and to arrange in the switch box B.

  Here, the gate device is configured by the connector device 1 and the basic function module 2, and the power path connection port and the information path connection port are configured by the magnetic coupling portion X and the transparent portion Y of the basic function module 2. Since the connection ports 13a and 13b and the connectors 21a and 21b of the connector device 1 are standardized (standardized), the basic function module 2 can be connected to any connector device 1, and therefore the layout. The basic function module 2 can be installed freely, and by connecting the function module 3 and the control module 4 to the basic function module 2, various wiring systems can be developed.

  Therefore, the user can freely construct the basic function module 2 according to the desired usage form, and even if the user wants to change the layout inside the building or add a new basic function module 2 in the future, Since the function module 2 can be easily accommodated by simply attaching and detaching the function module 2 to the connector device 1, the replaceability of the basic function module 2 is improved.

  Next, the functional module 3 and the control module 4 which are connected to the basic function module 2 and operate by receiving power supply from the basic function module 2, and the portable terminal 100 which is one of the main components of the wiring system of the present invention. Will be described.

  First, each functional module 3 has its own functional unit 28. For example, in the case of the functional module 3a having the display device M in the functional unit 28, as shown in FIGS. The horizontal dimension is formed to be an integral multiple (2 times) of the module dimension, and the shape of both side surfaces of the module body 30 is formed. Is formed in the same shape as the side surface of the basic function module 2, and the back surface is formed into a flat surface so that it can be disposed along the construction surface.

  For example, in the case of the functional module 3b provided with a sound source device including the speaker SP or the like as the functional unit 28, as shown in FIGS. 8A and 8B, the operational switch unit 28d including the operational switches SW1,. In the case of the functional module 3c provided in 28, as shown in FIGS. 9 (a) and 9 (b), the height of the module body 30 is formed to be three times the module size of the embedded wiring device, and the width The size is set to an integral multiple (1 times) of the module size, the shape of both side surfaces of the module body 30 is the same as the side surface of the basic function module 2, and the back surface is formed to be a flat surface. It can be arranged along the construction surface.

  Similarly, in the other functional modules 3, the height of the module body 30 is formed to be three times as large as that of the implantable wiring device, and the width dimension is an integer of one module dimension according to the functional unit provided. The module body 30 is formed to have the same size as the side surface of the basic function module 2 and the back surface is formed into a flat surface so that it can be arranged along the construction surface. is there.

  Also in the case of the control module 4, as shown in FIGS. 10A and 10B, the height of the module main body 40 is formed to be, for example, three times the module size of the embedded wiring device, and one horizontal width dimension is provided. It is formed to have an integral multiple of the module size (for example, 1 time), and the shape of both side surfaces of the module body 40 is the same as the side surface of the basic function module 2, and the back surface is formed to be a flat surface. It can be arranged along.

  A horizontal frame piece 31 similar to the horizontal frame piece 74 of the mounting frame 70 is integrally formed at the upper and lower positions of the module main bodies 30, 40, and the tapping screws passed through the insertion holes 32 of the upper and lower horizontal frame pieces 31. Thus, the module main body 30 can be directly screwed to a gypsum board or the like constituting the wall. Each horizontal frame piece 31 is provided with a screw hole 33 for attaching a decorative cover 80 for covering the horizontal frame piece on the front side. Further, L-shaped hooking pieces 34, 34 protrude integrally from the left and right side portions of each horizontal frame piece 31, and the hooking piece 34 protruding from one side in the left-right direction extends from the upper part of the frame piece 31, and the tip faces downward. The hooking piece 34 protruding from the opposite side extends from the lower part of the frame piece 31 and the tip protrudes upward.

  Thus, when the function module 3 or the control module 4 is connected to the basic function module 2, the hook piece 79 of the function module 3 or the control module 4 is attached to the hook piece 79 of the mounting frame 70 to which the basic function module 2 is attached. The module main bodies 30 and 40 of the function module 3 or the control module 4 are connected to the basic function module 2 without rattling.

  When another function module 3 or control module 4 is connected to the function module 3 or when the function module 3 is connected to the control module 4, one of the hook pieces 34 is engaged with the other hook piece 34. In this way, it can be connected continuously without rattling.

  FIG. 4 shows a state in which the functional module 3 a is connected to the basic functional module 2 connected to the connector device 1. In the end cover 81, the decorative cover 80 is covered so as to cover the horizontal frame pieces 74 and 31 arranged in the horizontal direction after being continuously provided, and the upper and lower ends of the upper and lower decorative covers 80 are connected to the upper and lower ends by uneven coupling. The end part of the continuous module group is covered. In addition, it is set as the structure connected to the horizontal direction using the thing corresponding to the dimension corresponding to the width dimension of each module 2, 3, 4 in the length dimension of the decorative cover 80, and the module 2, 3, The number can be adjusted to four.

  Inside the module main body 30 of the functional module 3 (and the module main body 40 of the control module 4), as shown in FIG. 11, two sets of electromagnetic coupling parts including a core 23a and a coil 23b are provided. The basic function module 2 or the other functional module 3 or the control which is disposed at the internal position close to the side wall on both the left and right sides of the main body 40) and electrically connects the respective coils 23b and the electromagnetic coupling portion on one side is adjacent. When it becomes the side (secondary side) that receives electromagnetically coupled with the electromagnetic coupling part of the module 4, the other electromagnetic coupling part becomes the power feeding side (primary side). The side position of the module main body 30 (or the module main body 40) where the tips of the cores 23a constituting these electromagnetic coupling portions are arranged close to each other is the magnetic coupling portion X. A DC power source 23 is connected to the line connecting the coils 23b and 23b of both electromagnetic coupling portions to obtain an operating power supply + V for the internal circuit.

  Further, in order to send and receive information signals, the module body 30 (or module body 40) has an information signal composed of an optical signal sent from the basic function module 2 or another function module 3 or the control module 4 connected in series. An O / E conversion unit 25b that receives light by the light receiving element PD and converts it into an electrical signal, and an information signal composed of an electrical signal is composed of an optical signal to the adjacent basic function module 2 or another function module 3 or control module 4. As an information signal, an E / O converter 25a for sending out by the light emitting element LED and an information signal composed of an electrical signal from the O / E converter 25b are received, and an information signal composed of the electrical signal is sent to the E / O converter 25a. Two sets of information signal transmission / reception units 25 to be sent out are provided, and one light emitting element LED and light receiving element PD are connected to the module main body 30 (or module). Inside of the left side wall near the Yuru body 40), also it is disposed the other light-emitting elements LED and the light receiving element PD to the inside of the right side near the side wall of the module body 30. Here, the position of the light emitting element LED disposed on the left side is disposed below the light receiving element PD, and the position of the light emitting element LED disposed on the right side is disposed above the light receiving element PD.

  Thus, the light receiving element LED and the light receiving element PD arranged in the vicinity of the right side wall of the basic function module 2 or the other functional module 3 or the control module 4 provided on the left side are arranged on the left side of the module. The light-receiving element PD and the light-receiving element PD, which are arranged in the vicinity of the left side wall of the basic function module 2 or the control module 4 connected to the right side, are opposed to the PD and the light-emitting element LED, respectively. The element PD and the light emitting element LED are opposed to each other. Note that the side wall of the module main body 30 facing the light emitting element LED and the light receiving element PD is a transparent portion Y like the basic function module 2 so that an optical signal can be transmitted.

  The information signal transmission / reception units 25 on both sides are connected to each other by the bidirectional signal line 29 in the module main body 30 (or module main body 40), so that the basic function module 2 or the control module 4 adjacent to both sides are connected. Information signals can be relayed.

  Further, in the module main body 30 (or module main body 40), the information signal on the signal line 29 is received and the information signal received on the signal line 29 is transmitted and received. Processing is performed through the I / O interface 27 and an arithmetic processing unit 26 that performs information generation processing when sending information from the function module 3 to the basic function module 2 or the control module 4. A functional unit 28 that operates by exchanging information with the processing unit 26 is provided.

  The functional unit 28 of the functional module 3 communicates with specific hardware (hereinafter referred to as a controlled device) and the control module 4 to operate the controlled device as a predetermined function of a specific system as will be described later. A microcomputer section (hereinafter referred to as a CPU section) 28a that controls the controlled device based on control information (control signal) sent as an information signal by being performed is provided.

  For example, as shown in FIG. 12, in the case of a functional module 3a having a display device M composed of a liquid crystal display corresponding to a digital video signal as a controlled device in the function unit 28, in addition to the display device (including the interface) M , Receiving an imaging information signal from the function module 3 ′ (provided in the intercom TVphone door phone slave unit 5 in FIG. 1) capable of communicating with the control module 4 and transmitting information via the information line L2. Communication with these devices for communication and communication with the functional module 3 via the I / O interface 27 and the arithmetic processing unit 26 in order to receive the imaging information signal of the imaging camera provided in the other functional module 3. The display device M based on the communication function to be performed and the control information received from the control module 4 by communication. The execution of the CPU unit 28a realizes a control function that moves and a video processing function that demodulates an imaging information signal of a predetermined format sent as an information signal and converts it into a digital video signal suitable for the display device M. A basic program is provided in the storage unit 28b.

  Similarly, as shown in FIG. 13, the function module 3b includes acoustic devices such as a speaker SP that is also used as a controlled device, an amplifier AP1 for amplifying reproduced sound, and an amplifier AP2 for amplifying input sound. In some cases, in addition to the audio device, communication with the control module 4 and communication with another functional module 3 or the functional module 3 ′ connected to the information line L2 of the system are performed by the I / O interface 27, the calculation. Based on the communication function to be performed via the processing unit 26 and the control information received from the control module 4 through communication, switching using the speaker SP as a microphone is performed by the switching circuit 28c, or compression sent as an information signal A function for demodulating audio information to perform D / A conversion, and A / D conversion of an audio signal when the speaker SP is used as a microphone In, and a function of transmitting through the communication function described above is converted into a predetermined compressed audio information, a basic program for implementing by CPU unit 28a executes the storage unit 28b. VR is a variable resistor for adjusting the reproduction volume.

  As shown in FIG. 14, in the case of a functional module 3c having an operation switch unit 28d including an operation switch SW1... And an interface (not shown) as a controlled device in the function unit 28, the CPU unit 28a includes To perform communication with the control module 4 and communication with the other function module 3 or the function module 3 ′ that transmits information via the information line L 2 via the I / O interface 27 and the arithmetic processing unit 26. Communication function, a function for setting the role of each pushbutton switch SW1 of the operation switch unit 28d based on control information received from the control module 4 by communication, and operation information of the pushbutton switch SW1. A basic function realized by the CPU unit 28a executing a processing function to be sent to the functional module 3 using the communication function described above. And a gram in the storage unit 28b.

  In addition to the functional module 3 described above, a functional module 3 that incorporates a controlled device such as a sensor or an imaging camera in the same module main body 30 includes a controlled device and an interface necessary as the functional unit 28, and is executed by the CPU unit 28a. Thus, a basic program that realizes a communication function for communicating with the control module 4 and the other functional modules 3 and 3 ′ and a control function for operating the controlled device based on the control information from the control module 4. Is provided in the storage unit 28b.

  Here, in the wiring system of the present embodiment, in addition to the function module 3 connected to the basic function module 2 as described above, the power line L1 and the power line L1 are directly connected to obtain power from the power line L1, and the information line A function module 3 ′ for receiving control information from the control module 4 through L2 and operating a corresponding controlled device based on the control information is prepared. For example, the doorphone slave unit 5 and the environment and situation suitable for the life scene are prepared. In order to produce, the thing corresponding to the lighting apparatus 200 with a light control, the thing corresponding to the electric lock 201, and the thing which opens and closes the electric curtain 202 are provided.

  As shown in FIG. 15A, these functional modules 3 ′ are an information signal transmission / reception unit 300 as a communication function for transmitting / receiving an information signal through the information line L 2, and information generation for transmitting operation information from the information signal transmission / reception unit 300. In addition, the control signal 301 received by the information signal transmission / reception unit 300, the determination process of the content, the calculation processing unit 301 that performs the process of generating the control signal for controlling the functional unit 303 based on the content of the control information, A functional unit 303 corresponding to the device, an I / O interface 302 interposed between the arithmetic processing unit 301 and the functional unit 303, and a DC power supply unit that obtains an operating DC power source + V from an AC power source supplied from the power line L1 305.

  As the function unit 303, for example, a dimming control unit corresponding to the case where the controlled device is the lighting device 200 with the dimming function, a JEMA standard signal generation unit in the case of the electric lock 201, and the electric curtain 202 are further provided. In this case, motor control units for forward and reverse drive of a drive motor (not shown) are provided. In addition, in the case of the functional module 3 ′ corresponding to the door phone slave unit 5, in addition to a calling means and a TV camera for imaging a visitor, a signal processing means for sending and receiving audio data and sending and receiving video data is provided. .

  Each functional module 3 and functional module 3 ′ is set with identification information (IP address or MAC address, which will be described later) and each of which are set, and the control module 4 controls the controlled devices of the functional modules 3 and 3 ′. Use when.

  The control module 4 has basically the same configuration as the function module 3 in the signal transmission system and the power supply system, but the configuration of the functional unit 28 has a unique configuration as shown in FIG. That is, software (program) for control operation for generating control information for controlling the controlled device corresponding to each functional module 3, 3 ′ with respect to the corresponding functional module 3, 3 ′, and the functional module 3 to be controlled, Control-related information including the registered content of 3 ′ (for example, life scene control information in the case of life scene control as described later) is stored in advance, and schedule control is performed when schedule control is performed. When the control device is a security-related device such as the electric lock 201 and personal identification information is used to operate the controlled device, a storage unit 28b for storing the personal identification information as described later, and a storage unit 28b Based on the various information and schedule control information stored in, operation information sent from the function module 3, and personal identification information A CPU unit 28a that performs generation processing of the control information to be transmitted to the functional module 3, 3 'based on the testimony, and a clock unit TM to provide timing information for scheduling control in the CPU unit 28a.

  Here, in the case where the target of schedule control is the functional module 3 or 3 ′ that operates the controlled device (including the functional unit 28) corresponding to the life scene, the control contents for each mode corresponding to the life scene and its control The schedule information in which the execution time (time zone) is associated is stored in the storage unit 28b. This schedule information is created using the portable terminal 100 mentioned later.

  Now, the portable terminal 100, which is one of the main components of the present invention, is configured by a PDA (Personal Digital Assistance) including a cellular phone, and a circuit configuration of a unique function corresponding to the wiring system of the present embodiment is shown in FIG. Shown in a). As shown in FIG. 16A, in order to receive power supply from the basic function module 2 constituting the gate device in a non-contact manner and to perform communication for exchanging information, the function module 3 and the control module 4 DC power supply unit 22 for obtaining an operating power supply (+ V) of an internal circuit composed of a stable DC voltage after taking in a low voltage AC from a coil 23b wound around a core 23a, rectifying and smoothing the low voltage AC, and a basic function module A transmission / reception unit 24 for transmitting / receiving information to / from 2, an E / O conversion unit 25a for transmitting an information signal from the transmission / reception unit 24 to the basic function module 2 through the light emitting element LED, and a basic function module 2 An information signal consisting of an optical signal sent from is received by the light receiving element PD, O / E converted and output to the transmitting / receiving unit 24 and transmitted to the O / E converting unit 25b An arithmetic processing unit 101 having an editor function for creating and correcting information generation processing and reception information acquisition processing, schedule information, and life scene control information together with the original functions of the mobile terminal, a key operation input unit 102, Used to unlock the display unit 103 including a liquid crystal display, the storage unit 104, the communication function unit 105 inherent to the mobile terminal, the battery power source 106 such as a rechargeable battery, and the security-related equipment, for example, the electric lock 201. A fingerprint reader unit 107 for capturing fingerprint information as personal identification information is provided. Corresponding to the fingerprint reader unit 107, the arithmetic processing unit 101 has a function of sending out fingerprint information read by the fingerprint reader unit 107 via the transmission / reception unit 24 and the E / O conversion unit 25a and a function of storing in the storage unit 104. In preparation.

  As shown in FIG. 16 (b), the magnetic coupling portion X and the transparent portion Y are provided on the side surface of the body 100a in the same manner as the basic function module 2, the function module 3, and the control module 4, and information download described later is performed. When the power supply is received, the communication path and the power can be secured by bringing the side surface of the main body 100a into contact with the side surface of the basic function module 2 constituting the gate device.

  Next, an editor function for creating information included in the mobile terminal 100 will be described.

  First, by operating the key operation input unit 102 from the menu screen of the display unit 103, it is possible to launch an editor function for creating schedule information and life scene control information. When this editor function is launched, A screen for selecting either life scene control information creation or schedule information creation is displayed on the display unit 103, and the user selects life scene control information creation or schedule information creation from this screen. By this selection, an input screen corresponding to each creation is displayed on the display unit 103, and the user can create information by operating the key operation input unit 102 in accordance with the content guided on the display screen. .

  Then, when the wiring system is initially operated, the controlled devices provided in the house (dwelling unit) where the wiring system is installed and the function modules 3, 3 ′ are set in the control module 4 in each mode of life scene control. It is necessary to make initial settings to be assigned for each. In that case, creation of life scene control information is selected. Here, as each mode, an outing mode, a sleeping mode, a relaxation mode, etc. are prepared in advance, and an input screen for specifying and registering the function modules 3, 3 ′ corresponding to the controlled devices used in each mode is displayed. If the user inputs information according to the procedure shown on the display screen, information for assigning controlled devices and the like corresponding to each mode can be created. When creation confirmation is instructed by operation of the key operation input unit 102, calculation processing is performed. The created information is temporarily stored in the storage unit 104 under the control of the unit 101.

  The contents of the life scene control corresponding to the above mode will be briefly described. First, the outing mode is a life scene control in which the electric lock 201 is locked, the electric curtain 202 is closed, and the lighting device 200 is turned on so as not to be absent during the night time zone. In the sleep mode, the dimming control is performed so as to reduce the illuminance of the lighting device 200 in the bedroom, and the audio signal for music reproduction is transmitted from the functional module 3 corresponding to the acoustic device in the bedroom so as to play music having a high hypnotic effect. 3 is a life scene control obtained and transmitted from, for example, a radio station on the Internet or a sound source site. Furthermore, in the relax mode, for example, the lighting device 200 in the living room is dimmed to give a sense of relaxation, or the audio signal for music playback is sent to the function module 3 so as to play relaxing music from the function module 3 corresponding to the acoustic device, for example. It is a life scene control that is obtained from radio stations and sound source sites on the Internet. That is, the creation of information for setting the controlled device (functional module 3) to be used corresponding to the life scene control in each mode for each mode is the life scene control information creation.

  On the other hand, in the creation of the schedule information, a combination of the schedule of daily activities of the user and the mode of the life scene that the user wants to execute according to the schedule corresponds to the schedule information (the time information including the start time and the end time for executing the control). Mode information). If the key operation input unit 102 is operated along the content guided on the display screen by the display unit 13 in this creation, schedule information for executing each mode content of the life scene according to the schedule can be created. The created schedule information is temporarily stored in the storage unit 104 under the control of the arithmetic processing unit 10 when creation confirmation is instructed by operating the key operation input unit 102. .

  Next, the life scene control information and schedule information temporarily stored in the storage unit 104 of the portable terminal 100 are information transferred to the control module 4 after being downloaded to the basic function module 2, and this procedure will be briefly described. To do.

  First, information is first downloaded to the basic function module 2 constituting the gate device by being connected to any connector device 1 in the system. In this case, when the magnetic coupling part X and the transparent part Y of the mobile terminal 100 are joined to the magnetic coupling part X and the transparent part Y of the basic function module 2, and a download instruction is given from the key operation input part 102 in the mobile terminal 100, In response to the download instruction, the arithmetic processing unit 101 sends command information for instructing the basic function module 2 to download life scene control information to the basic function module 2 side via the transmission / reception unit 24 and the E / O conversion unit 25a. Send. The information management unit 401 of the basic function module 2 that has received this command information sends download preparation completion information to the portable terminal 100 via the transmission / reception unit 24 and the E / O conversion unit 25a. Receiving this download preparation completion information, the arithmetic processing unit 101 of the portable terminal 100 performs a process of transferring the life scene control information stored in the storage unit 104 through a cooperative operation with the information management unit 401 of the basic function module 2. Then, the information management unit 401 of the basic function module 2 performs download processing for storing the transferred life scene control information in the storage unit 104.

  After the download process is completed, the basic function module 2 performs a search process for searching for a control module 4 that performs control corresponding to the life scene existing on the wiring system. Here, the control module 4 is connected to another basic function module 2 directly or via the function module 3, so that the control module 4 is connected to the information network including the information line L 2 and the signal path in the modules 2 and 3. The above-described search is performed through this information network. For this search, for example, by using UPnP (Universal Plug and Play) technology to acquire the function content and IP address (or MAC address), the information management unit 401 of the basic function module 2 searches for the corresponding control module 4. Accordingly, the information management unit 104 performs a process of transferring the life scene control information stored in the storage unit 104 to the control module 4 thus found. The CPU unit 28a in the function unit 28 of the control module 4 acquires the life scene control information through a cooperative operation with the information management unit 401 of the basic function module 2, and this life scene control information is obtained from the function unit. The data is stored in the storage unit 28b in the memory 28, and is retained unless the user makes a particular change thereafter.

  On the other hand, the portable terminal 4 performs a process of deleting the life scene control information from the storage unit 104 after transferring the life scene control information to the basic function module 2 in the initial setting. Thereafter, the mobile terminal 4 may be used as a normal mobile terminal 4. Further, it can be used as a schedule information setting means on a daily basis.

  Here, by providing the basic function module 4 or the portable terminal 4 with a means for maintaining the joined state between the portable terminal 4 and the basic function module 4, the portable terminal 4 can receive power from the basic function module 4 via the magnetic coupling portion X. The supplied battery power supply 106 can be charged and the basic function module 4 can be used as a charger.

  Now, after the initial processing, the control module 4 that stores the above-mentioned life scene control information in the storage unit 104 sends the controlled device with the mode content corresponding to the life scene through the function module 3 ′ based on the schedule information created by the user. In addition, processing for generating and transmitting control information for controlling the hardware of the functional unit 28 of the control module 4 can be performed.

  Here, as described above, the schedule information is created using the portable terminal 100, and the created schedule information is once downloaded to the basic function module 3 side constituting the gate device by the same procedure as in the case of the life scene control information. Then, it is transferred to the control module 4.

  When the control module 4 obtains the schedule information, the schedule information is stored in the storage unit 28b of the functional unit 28, and the time information indicating the start of control written in the stored schedule information matches the time indicated by the timekeeping information of the clock unit TM. When this is done, control information in accordance with the mode content corresponding to the time is generated and transmitted to the corresponding functional module 3, 3 ′ via the information network. Then, the functional module 3 or functional module 3 ′ that has received the control information starts controlling the hardware of the functional unit 28 and the controlled device.

  The control corresponding to this mode is continued until the time information indicating the end of the control coincides with the time indicated by the time information of the clock unit TM. The life scene control is performed according to the user's schedule by executing the mode content corresponding to the time information written in the schedule information in this way. It is assumed that the function modules 3, 3 'to which the control module 4 sends control information are previously searched and grasped by the control module 4 using the above-described UPnP technology.

  In a mode in which music is played using a sound source, the control module 4 takes in music data from a music site or a sound source server via the Internet network NT, and the function module 3 corresponding to the sound device or the sound device described later is used. It is sent to the basic function module 2a that is also used as a function module and controlled to be played back.

  By the way, the portable terminal 100 has a function as a key for registering personal identification information for controlling security-related devices and operating the security-related devices in addition to creating information for control corresponding to the above-described life scene. This function will be described next.

  Next, how to use the fingerprint reader unit 107 of the portable terminal 100 will be briefly described.

  First, at the initial operation of the wiring system, for example, when the security-related device is the electric lock 201, it is necessary to register fingerprint information as personal identification information in the control module 4 that controls the functional module 3 ′ corresponding to the electric lock 201. . In this case, when the user selects a fingerprint reading mode for initial registration from the menu screen of the display unit 103 of the portable terminal 100 and the operation of the key operation input unit 102, the fingerprint reader unit 107 is activated under the control of the arithmetic processing unit 101. The fingerprint information is ready to be read. When the user presses the finger against the fingerprint reader unit 107 in the reading preparation state, the fingerprint of the finger is read by the fingerprint reader unit 107, the fingerprint information is stored in the storage unit 104, and the fingerprint information reading ends. Since a series of these flows is displayed on the display unit 103, the user can perform a fingerprint reading operation without hesitation. Note that this initial registration operation may require input of a password registered in advance from the mobile terminal 100 side in order to improve security.

  In this way, after establishing the communication path by joining the transparent part Y of the portable terminal 100 to the transparent part Y of the corresponding basic function module 2 to the portable terminal 100 in which the fingerprint information to be initially registered in advance is stored in the storage unit 104. When a download instruction for initial registration is given from the key operation input unit 102 in the mobile terminal 100, the arithmetic processing unit 101 of the mobile terminal 100 controls the life scene control to the basic function module 2 side in response to the download instruction. Command information for instructing to download information is transmitted to the basic function module 2 side via the transmission / reception unit 24 and the E / O conversion unit 25a. The information management unit 401 of the basic function module 2 that has received this command information sends information on completion of download preparation to the portable terminal 100 via the transmission / reception unit 24 and the E / O conversion unit 25a. Receiving this download preparation completion information, the arithmetic processing unit 101 of the mobile terminal 100 performs a process of transferring the fingerprint information stored in the storage unit 104 by a cooperative operation with the information management unit 401 of the basic function module 2, The information management unit 401 of the basic function module 2 performs a download process for storing the transferred fingerprint information in the storage unit 104.

  After the download process is completed, the portable terminal 100 performs a process for deleting the fingerprint information stored in the storage unit 104. On the other hand, the basic function module 2 performs a search process for finding the control module 4 that performs control of the electric lock 201 existing on the wiring system via the corresponding function module 3 ′. Here, the control module 4 is connected to another basic function module 2 directly or via the function module 3, so that the control module 4 is connected to the information network including the information line L 2 and the signal path in the modules 2 and 3. The above-described search is performed through this information network. For this search, for example, by using UPnP (Universal Plug and Play) technology to acquire the function content and IP address (or MAC address), the information management unit 401 of the basic function module 2 searches for the corresponding control module 4. Accordingly, the information management unit 104 performs processing for transferring the fingerprint information stored in the storage unit 104 to the control module 4 thus found. The corresponding control module 4 acquires fingerprint information by communicating with the basic function module 2, and stores and holds the fingerprint information in the storage unit 28b in the function unit 28. Become.

  Thereafter, the mobile terminal 4 may be used as a normal mobile terminal 4. Further, it can be used as a key for unlocking the electric lock 201 on a daily basis.

  When used as this key, since it is necessary to authenticate the fingerprint information of the person who owns the portable terminal 4 in real time, the process of storing in the storage unit 104 in advance as in the initial registration is not performed.

That is, the user who wants to unlock the electric lock 201 sets the mobile terminal 100 in the key mode state by operating the key operation input unit 102, and then sets the transparent part Y of the basic function module 2 corresponding to the transparent part Y of the mobile terminal 4. To establish a communication path. In the key mode state, the fingerprint reader unit 107 is in a fingerprint reading preparation state, and when the user presses a finger with registered fingerprint information on the fingerprint reader unit 107 with the communication channel established, the fingerprint reader unit 107 receives the fingerprint. The read arithmetic processing unit 101 performs processing for downloading the fingerprint information read by the cooperative operation with the information management unit 401 of the basic function module 2 to the basic function module 2. The basic function module 2 transfers the downloaded fingerprint information to the corresponding control module 4 via the information network. In the control module 4, the CPU unit 28a of the functional unit 28 determines whether the transferred fingerprint information matches the fingerprint information registered in the storage unit 28b, and if there is a match, the electronic lock Control information for giving an unlock command to the function module 3 ′ corresponding to 201 is generated and transmitted to the function module 3 ′ via the information network.
The functional unit 28 of the functional module 3 ′ that has received the control information performs a process of unlocking the electric lock 201 based on the unlock command. Further, if there is no matching fingerprint information, the electric lock 201 is not unlocked, so that even if the portable terminal 100 having the fingerprint reader unit 107 is used, unauthorized use can be prevented.

  By the way, although the door phone slave unit 5 is connected to the wiring system in FIG. 1, since the door phone slave unit 5 is not related to the schedule control, the schedule control is not performed. A doorphone master unit controlled by 3c and the corresponding control module 4 is installed in the wiring system so that a telephone call or visitor can be monitored.

  In FIG. 1, 2a is a basic function module that includes a functional unit 28 for an acoustic device such as a speaker SP, and also serves as a function module. 2b is a basic unit that is integrally provided with a hooking ceiling rosette 102 connected to the power line L1. It is a functional module. Reference numeral 2c denotes a basic function module integrally including a power outlet 103 connected to the power line L1. Reference numeral 2d denotes a basic function module that is provided with an operation switch unit on the front surface and includes a function unit 28 for the operation switch unit, and also serves as a function module.

  Furthermore, although the above-mentioned portable terminal 100 and the basic function module 2 constituting the gate device are joined in a non-contact manner, they may be joined using a wired cable. When power supply is unnecessary, infrared communication or low-power wireless communication may be used when transmitting schedule information or the like from the portable terminal 100 to the basic function module 2. Further, when the mobile terminal 100 is configured by a mobile communication terminal, information may be transmitted from the mobile communication network to the basic function module 2 through the Internet network NT.

  Furthermore, the function module 3 and the control module 4 described above are screwed to a wall surface or the like in a state where they are connected to the side of the basic function module 2 or the side of another function module 3. It is good also as a structure which supports the load of this connected module group with the basic function module 2 which comprises a gate apparatus using the connection means which connects mutually mechanically.

  In the above-described embodiment, the basic function module 4 includes the storage unit 400 that stores schedule information and personal identification information downloaded from the mobile terminal 100, and the information management unit 401 that transfers the schedule information to the control module 4. These configurations and the DC power supply unit may be provided in the connector device 1. In this case, the connector device 1 alone constitutes a gate device, and the basic function module 2 relays the information signal between the function module 3 and the control module that are connected in series by the optical signal and the information line L1, and the alternating current from the power line L1. The power source is converted into a low-voltage AC power source, and a module for supplying power to the functional module 3 and the control module 4 in a non-contact manner is obtained.

  Further, in the above-described mobile terminal 100, a schedule for controlling the controlled device is created, but the contents of the user's schedule registered by the user using the schedule management function of the mobile terminal 100 are the basics of schedule control. It is also possible to analyze the contents of the schedule in the control module 4 incorporating the schedule information, and to perform schedule control of the functional modules 3 and 3 ′ based on the analysis. Of course, the analysis function may be provided on the side for downloading the schedule information from the portable terminal 100 (the basic function module 2 in the above case), and the schedule information obtained as a result of the analysis may be transferred to the control module 4.

  In addition, the control module 4 may be provided in the wiring board 8. In this case, the schedule information is downloaded from the mobile terminal 100, for example, a communication path is established with the basic function module 2 via the above-described information network, Schedule information and personal identification information are transferred from the basic function module 2 and received.

1 is a schematic system configuration diagram of an entire wiring system according to a first embodiment. It is a disassembled perspective view of the state which removed the basic function module used for the wiring system of Embodiment 1 from the connection apparatus. It is a construction example figure of the wiring system of Embodiment 1. FIG. 3 is a partially omitted rear view illustrating the basic function module and the mounting state of the function module according to the first embodiment. It is a block diagram of a basic function module and a connector device of Embodiment 1. FIG. 3 is a perspective view of the basic module according to the first embodiment as viewed from the back side. An example of the functional module used for Embodiment 1 is shown, (a) is a front view, (b) is a side view. The other example of the functional module used for Embodiment 1 is shown, (a) is a front view, (b) is a side view. The other example of the functional module used for Embodiment 1 is shown, (a) is a front view, (b) is a side view. The control module used for Embodiment 1 is shown, (a) is a front view, (b) is a side view. FIG. 2 is a basic block diagram of functional modules and control modules used in the first embodiment. 3 is a block diagram of a functional unit as an example of a functional module used in the first embodiment. FIG. It is a block diagram of the functional part of another example of the functional module used for Embodiment 1. FIG. It is a block diagram of the function part of the other example of the functional module used for Embodiment 1. FIG. (A) is a block diagram of another functional module used in Embodiment 1, and (b) is a block diagram of the principal part of the control module 4 used in Embodiment 1. FIG. (A) is a block diagram of a portable terminal used in the first embodiment, and (b) is a reduced perspective view of the portable terminal used in the first embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Connector apparatus 2 Basic function module 3a-3b Function module 3 'function module 4 Control module 5 Door phone subunit B Switch box 100 Portable terminal 200 Illumination device 201 Electric lock 202 Electric curtain L1 Power line L2 Information line

Claims (3)

A gate device to which an information line and a power line for information transmission are connected; a control unit that transmits a control signal to the controlled device to control the controlled device; and a control function of the control unit controls the controlled device And a portable terminal having a means for setting setting information for performing, and the control means and the gate device are each provided with a communication means for performing communication between the control means and the gate device, The gate device is provided with communication means for performing communication between the portable terminal and the gate device, the gate device downloads the setting information of the portable terminal from the portable terminal, and the control means includes A wiring system that acquires the setting information downloaded to the gate device from the gate device and controls the controlled device based on the setting information The said gate apparatus is provided with the electric power feeding means which electrically feeds the electric power obtained from a power line to the said portable terminal, The said portable terminal is equipped with the means to receive electric power by connecting to the said gate apparatus. Wiring system. 2. The gate device includes a power supply unit that supplies power obtained from a power line to the mobile terminal in a contactless manner, and the mobile terminal includes a unit that receives power from the gate device in a contactless manner. The described wiring system.

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