JP4432963B2 - Control system - Google Patents

Description

  The present invention relates to a control system.

  Conventionally, a LAN provided in an apartment house is connected to an external center server via the Internet network, and the operation of the devices installed in the common area and the dwelling part of the apartment house is monitored from the center server. In addition, a system has been proposed in which the center server provides a predetermined service to residents of an apartment house according to the operation of each device (see, for example, Patent Document 1).

In the system of the above document, when a user accesses a center server using a terminal connected to the Internet network and inputs a control request for operating a predetermined device from the terminal to the center server, the center server performs this control. The request is transmitted to the gateway provided in the apartment house via the Internet network, and the control request is transmitted from the gateway to the corresponding device to cause the corresponding device to perform a predetermined operation.
JP 2003-309662 A (paragraphs [0054] to [0067])

  In the above-described system, the devices installed in the common part and the dwelling unit of the apartment house perform preset operations, and another device with a preset correspondence relationship operates according to the operation of each device. Therefore, when changing the operation of each device or changing a device that operates in a coordinated manner, it is necessary to change each device to a new device or reset the correspondence between each device. There is a problem that the setting of the cooperative operation cannot be easily changed.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a control system capable of easily setting the cooperative operation of each device.

In order to achieve the above object, the invention of claim 1 provides a control signal transmitted from the outside as an information signal by supplying power and transmitting an information signal via an electric wire previously wired on the back side of the construction surface. And a plurality of basic function modules that perform a predetermined operation based on the control signal, and signals that are arranged inside the wiring board on which the wires are wired and exchange information signals with each basic function module through the wires A transmission unit, a storage unit storing a control program for operating each basic function module in cooperation, and a basic function module corresponding to the signal transmission unit based on the information signal received from each basic function module by executing the control program A control means for creating a control signal for cooperative operation and having the control signal transmitted from the signal transmission means to the corresponding basic function module is provided. A controller has, been freely consecutively removably to the basic function module, the powered via the basic function module, control and exchange information signals via the basic functional module, sent as an external from the information signal An extended function module that receives a signal and performs a predetermined operation based on the control signal. The basic function module and the extended function module each have a function corresponding to the type, and the control program includes the basic function module and the basic function module. It consists of a program that operates the extended function module linked to the function module in a linked manner, and the control means executes the control program and operates the basic function module and the extended function module linked to operate the desired function. It is characterized by realizing .

According to a second aspect of the present invention, there is provided the gate device according to the first aspect of the present invention, wherein the gate device is provided with a connecting portion that is connected to an electric wire and that supplies power and transmits an information signal to the gate device body disposed on the construction surface. In addition to providing the basic function module with a connector suitable for the connection portion, and connecting the connector of the basic function module to the connection portion of the gate device, the power supply from the gate device to the basic function module, and the gate device and the basic function module Information signaling between the two is established at the same time.

The invention of claim 3 is the invention according to claim 1 or 2, wherein the electric wire comprises a power line for power supply, and an information signal is exchanged between the controller and each functional module by power line carrier communication. It is characterized by.

According to a fourth aspect of the present invention, in the first or second aspect of the present invention, the electric wire includes a power line for supplying power and an information line for transmitting an information signal.

  According to the first aspect of the invention, the control means of the control controller executes the control program stored in the storage means, and creates a control signal based on the information signal from each basic function module received by the signal transmission means Since the basic function modules that are connected to each other are operated in cooperation by transmitting this control signal to the corresponding basic function module, the control program stored in the storage means can be changed. The basic function module to be operated can be easily changed. Therefore, there is no need to perform operation settings or linkage settings for each basic function module, and it is possible to perform linkage operation setting work only by the control controller. is there.

Moreover , since the control controller executes the control program stored in the storage means, the basic module and the extended function module connected to the basic module are linked to each other, thereby realizing a predetermined function. There is an effect that a predetermined function can be realized by combining a basic function module and an extended function module having individual functions. Further, the control functions can be concentrated and arranged on the wiring board.

According to the invention of claim 2 , by connecting the connector of the basic function module to the connection part of the gate device, the power supply from the gate device to the basic function module and the information signal between the gate device and the basic function module Since transmission is established at the same time, the connection work is simpler and easier to use than when the power system connection and the information system connection are performed separately, and the connection work can be done only once. In addition to being able to perform connection work, there is also an effect that connection can be ensured without forgetting to perform the connection work. Furthermore, the basic function module can be connected and used anywhere where the gate device is installed, and the basic function module can be changed by replacing the basic function module connected to the gate device. There is an effect that it can be easily handled.

According to the invention of claim 3 , since the information signal is transmitted and received by the power line carrier communication using the power line, it is not necessary to wire a dedicated line for transmitting the information signal, and only the power line is wired in advance. Wiring can be simplified because it is sufficient.

According to the invention of claim 4 , it is possible to perform power supply and information signal transmission using the power line and the information line.

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
FIG. 1 shows a system configuration of a wiring system using the functional device of the present embodiment. In this wiring system, one or a plurality of switch boxes 90 are embedded and arranged at appropriate positions in a building, and the switch box 90 at the beginning is drawn into the wiring board 6 from the outside and is connected to the main breaker MB and the branch. A power line L1 drawn indoors through the breaker BB and an information line L2 connected to the external Internet network NT through a gateway GW (with built-in router and hub) are introduced. Further, between the switch boxes 90, power lines L1 and information lines L2 previously wired in the wall surface are sent and wired.

  Here, the switch box 90 corresponds to, for example, a series of mounting frames 70 (see FIG. 2) on which three large-angled single-module embedded wiring devices standardized by JIS can be mounted. As shown in FIG. 1, the power line L1 and the information line L2 sent from the wiring board 6 or other switch box 90 are introduced from the top as shown in FIG. Power line L1 and information line L2 are derived from the lower part. As shown in FIGS. 1 and 16, the switch box 90 includes a switch box 90 that is provided on the ceiling 100, a wall 101, and a floor 102.

  In each switch box 90, the gate device 1 shown in FIGS. 1, 2, and 9 is embedded using a mounting frame 70. The attachment frame 70 has a rectangular frame shape and has elongated attachment windows 71 for attaching the appliances. The left and right frame pieces 72 are provided with three sets of appliance attachment holes 73 in the longitudinal direction of the attachment windows 71. Yes. Also, the upper and lower frame pieces 74 of the mounting frame 70 are conventionally known scissor fittings (not shown) for mounting to mounting screw long holes 75 for mounting to the switch box 90, gypsum boards constituting the walls, and the like. A screw hole 77 for attaching a plate frame 80, which will be described later, to the front side, and a screw insertion hole 78 for directly fixing the gypsum board with a tapping screw. At least. Further, L-shaped hooking pieces 79 and 79 protrude integrally from the left and right side portions of the upper and lower frame pieces 74, and the hooking piece 79 protruding from one side in the left-and-right direction extends from the upper part of the frame piece 74 and the tip is directed downward. The hooking piece 79 protruding from the opposite side extends from the lower part of the frame piece 74 and the tip protrudes upward. When the attachment frame 70 is attached to the switch box 90, an attachment screw (not shown) inserted into the elongated hole 75 provided in the upper and lower frame pieces 74 of the attachment frame 70 is used as a screw hole (not shown) of the switch box 90. ) Are attached to the switch box 90 together with the gate device 1.

  The body (gate device main body) 10 of the gate device 1 is formed in a size (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 container body 10 so as to be locked and disengaged in instrument mounting holes 73 provided in the frame piece 72 of the mounting frame 70. The container 10 of the gate device 1 is attached to the attachment frame 70 with the front surface exposed from the attachment window 71 of the attachment frame 70.

  In the gate device 1, as shown in FIG. 5, 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 vessel body 10. Here, of the terminal portions 11a and 11b to which the power line L1 is connected, for example, the power line L1 connected to the lower terminal portion 11b serves as a feed wiring to the other switch box 90. Similarly, of the terminal portions 12a and 12b to which the information line L2 is connected, for example, the information line L2 connected to the lower terminal portion 12b is also a feed wiring to the other switch box 90.

  On the other hand, the front surface of the container 10 includes a conductive portion (not shown) electrically connected to the terminal portions 11a and 11b, and the power line L1 connected to the terminal portions 11a and 11b is connected to an external power path. A power path connection port 13a for connection and a conductive portion (not shown) electrically connected to the terminal portions 12a and 12b are provided, and an information line L2 connected to the terminal portions 12a and 12b is connected to external information. An information path connection port 13b for connecting to the road is provided. Here, the power path connection port 13a and the information path connection port 13b are respectively standardized (standardized) as a system in the interval between them, the arrangement of the conductive parts, and the shape of the opening. , 13b is connected to the power line L1 and the information line L2, and a connection unit for supplying power and transmitting information signals is configured. The standardized connection ports 13a and 13b are formed as one module separately from the body 10 of the gate device 1, and this module can be attached to and detached from the body 10 to connect the basic function module 2. Sometimes a module may be attached to the vessel 10 for use.

  Next, the basic function module 2 connected to the gate 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 are formed, and these connectors 21a, 21b are connected to the connection ports 13a, 13b of the gate device 1 so that the module main body 20 is stacked on the front side of the body 10 of the gate device 1. The power supply from the gate device 1 to the basic function module 2 and the information signal transmission between the gate device 1 and the basic function module 2 are established at the same time. Thus, by connecting the connectors 21a and 21b of the basic function module 2 to the connection ports 13a and 13b of the gate device 1, the power supply from the gate device 1 to the basic function module 2, and the gate device 1 and the basic function Since the information signal transmission between the modules 2 is established at the same time, the connection work is simpler and easier to use than when the power system connection and the information system connection are performed separately, and the connection work is performed once. Therefore, the connection work can be performed in a short time, and the connection work can be surely made without forgetting the connection work. Further, the basic function module 2 can be connected and used at any place where the gate device 1 is installed, and the basic function module 2 can be used by replacing the basic function module 2 connected to the gate device 1. It is possible to easily cope with the function change.

  Next, the circuit configuration of the basic function module 2a will be described with reference to FIG. The basic function module 2a has the following configuration in order to use the extended function module 3 described later in series. That is, the basic function module 2a steps down the commercial power supply AC supplied via the connector 21a to a predetermined voltage, converts the frequency to a high frequency, and a coil 23b in which the constant pressure AC power converted to the high frequency is wound around the core 23a. Via the AC / AC converter 22a applied to the DC power supply, the DC power supply 22b for obtaining the operating power (+ V) of the internal circuit composed of a stable DC voltage after rectifying and smoothing the low-voltage AC power supply, the connector 21b and the gate device 1 A transmission / reception unit 24 that transmits / receives an information signal through the connected information line L2, and an E / O conversion unit that performs E / O conversion on the information signal received through the information line L2 and sends it as an optical signal through the light emitting element LED 25a and an information signal composed of an optical signal sent from the extended function module 3 (to be described later) are received by the light receiving element PD, O / E converted and transmitted / received 24, an O / E converter 25b to be output to 24, a functional unit 28 corresponding to the type of functional module, and an information signal sent from the functional unit 28 through the I / O interface 27 and transmitted as an information signal to a transmission destination And an arithmetic processing unit 26 having a function of performing the processing to be performed and a function of capturing an information signal received by the transmission / reception unit 24 and transmitting the information signal to the functional unit 28 through the I / O interface 27.

  Here, the coil 23b and the core 23a described above constitute an electromagnetic coupling unit on the primary side of the transformer for supplying power from the basic function module 2a to the extended function module 3 in a non-contact manner. The core 23a is magnetically coupled to the core of the electromagnetic coupling portion similarly provided on the 3 side, and power is supplied by inducing a constant pressure AC power source in the coil of the electromagnetic coupling portion provided in the extended function module 3 by a transformer action. ing. In the AC / AC converter 22a, the commercial power supplied through the power line L1 is converted into an alternating current power having a frequency higher than the commercial power frequency, thereby reducing the size of the transformer configuration by the electromagnetic coupling unit. In FIG. 9, only one set of the electromagnetic coupling portion composed of the core 23a and the coil 23b is shown, but the extended function module 3 is provided on either the left or right side of the basic function module 2a or on both the left and right sides of the basic function module 2a. Since they are arranged side by side, two sets of electromagnetic coupling portions that are electrically parallel to each other are actually provided, and one set of electromagnetic coupling portions is arranged at an internal position close to the side wall on both the left and right sides of the module body 20. 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 extended function module 3.

  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 extended function module 3 in a non-contact manner using an optical signal. It faces the light receiving element provided in the part (not shown). The light receiving element PD of the O / E conversion unit 25b is for receiving an information signal transmitted as an optical signal from the extended function module 3 provided in series. The E / O on the side of the extended function module 3 provided side by side. It is opposed to a light emitting element provided in a converter (not shown). Although 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. 9, each of the conversion units 25a and 25b includes a light emitting element LED. Two sets of light receiving elements PD are connected to each other, and one set of light emitting element LED and one set of light receiving element 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.

  Here, in the present embodiment, as shown in FIG. 11, the function unit 28 of the basic function module 2a includes operation switches SW1 and SW2 provided to turn on / off loads such as lighting fixtures, and each operation switch SW1. , SW2 is monitored, and when the operation switches SW1 and SW2 are pressed, an operation signal from the operation switches SW1 and SW2 is output to the arithmetic processing unit 26 via the I / O interface 27. Yes.

  In the present embodiment, the basic function module 2a is composed of an operation unit type function module having a switch for turning on / off a lighting fixture or the like, but the function unit 28 of the basic function module includes other than the operation unit. A function may be provided, and a function unit 28 having a fire detector function or a human body sensor function or a power outlet function may be used. For example, as shown in FIGS. 1 and 16, the basic functional module connected to the gate device 1 provided on the ceiling 100 includes a fire detector type functional module 2b that detects the occurrence of a fire by detecting heat or smoke. And a human body detector type functional module 2c for detecting a human body using a PIR sensor, a hooking ceiling rosette type functional module 2d having a hook blade connecting portion 91 corresponding to a hook plug of a lighting fixture, and a surveillance camera. There are a camera-type functional module (not shown) provided, a functional module (not shown) having a speaker such as BGM, and the like. In addition, as a basic function module connected to the gate device 1 provided on the wall 101, a door phone sub-unit function module (not shown) having a call button and a camera for photographing a visitor, a door phone sub-unit There are a house door type functional module 2e provided with a monitor M for displaying image data photographed by a camera and a call button B5, an operating unit type functional module (not shown) such as a controller of an air conditioner. Furthermore, as a basic function module connected to the gate device 1 provided on the floor 102, there are a function module 2f provided with an outlet portion 92 for a power plug, a function module 2g provided with a speaker SP, and the like. Furthermore, the basic function module 2 may not have the function unit 28 but may have only a function of transmitting power and information signals to the extended function module 3 connected in series.

  The basic function module 2a... Has the above-described configuration, and connectors 21a, 21b adapted to the connection ports 13a, 13b of the gate device 1 embedded in the switch box 90 using the mounting frame 70. As a result, the basic function modules 2a... Can be secured for power and information paths at the same time, and can be arranged in the switch box 90. Since the connection ports 13a and 13b of the gate device 1 and the forms of the connectors 21a and 21b are standardized (standardized), the basic function modules 2a can be connected to any gate device 1. Therefore, each basic function module 2a can be constructed in a layout-free manner, and various wiring systems can be developed by the functions of the basic function modules 2a. Therefore, the user can freely construct the basic function modules 2a... According to his / her preferred usage form. Even if the user wants to change the layout inside the building or add a new basic function module in the future, the basic function module 2a. Since the function modules 2a can be easily attached and detached, the basic function modules 2a can be easily replaced.

  Next, the extended function modules 3a connected to the basic function module 2a and operating upon receiving power supply from the basic function module 2a will be described. As the extended function modules 3a ..., modules having various functions are prepared. Basically, as shown in FIGS. 7 and 8, the height dimensions of the module main bodies 30, 30 ′ are set to the embedded wiring. Standardize the three module dimensions of the instrument, standardize the width dimension to an integral multiple of the module dimension, and make the shape of both side surfaces of the module body 30, 30 'the same as the side surface of the basic function module 2a, Further, the back surface is formed as a flat surface as shown in FIGS. 5 and 6, and can be arranged along the construction surface. Frame pieces 31, 31 ′ similar to the frame pieces 74 of the mounting frame 70 are integrally formed at the upper and lower positions of the module main bodies 30, 30 ′, and are passed through the insertion holes 32 of the frame pieces 31, 31 ′. The module main bodies 30 and 30 'can be directly screwed to a gypsum board or the like constituting the wall with tapping screws. Each frame piece 31, 31 ′ is provided with a screw hole 33 for a plate screw for attaching a later-described plate frame 80 to the front side. Further, L-shaped hooking pieces 34, 34 protrude integrally from the left and right sides of each frame piece 31, 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, 31'. The hooking piece 34 protruding from the opposite side and protruding from the opposite side extends from the lower part of the frame pieces 31 and 31 ′, and the tip protrudes upward. Thus, when the function modules 2a, 3a,... Are connected in series, the hook piece 34 of the extended function module 3 is connected to the hook piece 79 of the mounting frame 70 to which the basic function module 2a is attached, or other extended extension connected in series. By engaging with the hooks 34 of the functional modules 3a, the module bodies 20, 30, 30 ′ of the functional modules 2a, 3a,. In addition, a rectangular frame plate frame 80 is screwed to the front side of each functional module 2a, 3a to 3c using a plate screw, and a decorative plate 82 is attached to the front side of the plate frame 80, A functional surface on the front surface of each functional module 2a, 3a-3c is exposed from the window hole 83 of the decorative plate 82.

  As shown in FIG. 10, the module main bodies 30 and 30 ′ are provided with two sets of electromagnetic coupling parts including a core 23a and a coil 23b, and the internal positions of the module main bodies 30 and 30 ′ that are close to the side walls on the left and right sides. And the coils 23b are electrically connected to each other, and the electromagnetic coupling portion on one side is electromagnetically coupled to the adjacent electromagnetic coupling portion of the basic function module 2a or the extended functional module 3 (secondary side). ), The other electromagnetic coupling portion is on the power supply side (primary side). The side position of the module main bodies 30 and 30 ′ where the tips of the cores 23 a 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, 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 light receiving element PD receives an information signal composed of an optical signal sent from the basic function module 2a or the extended function module 3 connected in the module main bodies 30 and 30 '. O / E converter 25b for converting the signal into a typical signal, and an E / O for sending the information signal made up of an electrical signal to the adjacent basic function module 2a or the extended function module 3 as an information signal made up of an optical signal by the light emitting element LED An information signal transmission / reception means comprising an information signal transmission / reception unit 25 for receiving an information signal comprising an electrical signal from the conversion unit 25a and the O / E conversion unit 25b and sending an information signal comprising the electrical signal to the E / O conversion unit 25a 2 sets, and one set of the light emitting element LED and the light receiving element PD is arranged in the vicinity of the left side wall of the module body 30, 30 ′, Square set of light-emitting elements LED and the light receiving element PD is disposed in the interior of the right side wall near the module body 30, 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 emitting element LED and the light receiving element PD arranged in the vicinity of the right side wall of the basic function module 2a or the extended function module 3 connected to the left side have the light receiving element PD and the light emitting element LED arranged on the left side of the module. The light-emitting element LED and the light-receiving element PD that are arranged close to the left side wall of the basic function module 2a or the extended function module 3 that face each other and are connected to the right side, and the light-receiving element PD and the light-emitting element LED that are arranged on the right side of the module. Are facing each other. The side walls of the module main bodies 30 and 30 'facing the light emitting element LED and the light receiving element PD are transparent portions Y so that an optical signal can be transmitted, as in the basic function module 2a.

  The information signal transmission / reception units 25 and 25 on both sides are connected by bidirectional signal lines 29 in the module main bodies 30 and 30 ', and information is transmitted to the basic function module 2a or the extended function module 3 adjacent to both sides. The signal can be relayed. Here, the positions at which the magnetic coupling portions X and the transparent portions Y are formed on the side surfaces of the module main bodies 30 and 30 ′ match the positions of the magnetic coupling portions X and the transparent portions Y on the side surfaces of the basic function module 2a shown in FIG. When the extended function modules 3 are connected to each other, or when the basic function module 2a and the extended function module 3 are connected, the magnetic coupling portions X and X on the side surfaces that come into contact with each other, and The transparent portions Y and Y are opposed to each other. That is, the connection ports of the respective power feeding means and the connection ports of the information signal transmission means are connected to each other.

  Further, in the module main bodies 30 and 30 ′, the information signal on the signal line 29 is received and the information signal is transmitted on the signal line 29, and the data from the information signal received by the transmission / reception unit 24 is data. And an arithmetic processing unit 26 that performs data generation processing when data is sent from the extended function module 3 to another extended function module 3, and an arithmetic processing unit 26 via the I / O interface 27. And a functional unit 28 that operates by exchanging data with each other. The configuration of the functional unit 28 differs depending on the type of the extended functional module 3.

  Here, in the present embodiment, an extended function module 3a having a video display function, an extended function module 3b having an audio input / output function, and an extended function module 3c having an operation function are connected to the basic function module 2a. The operation of these extended function modules 3a to 3c is controlled by a control controller CT which will be described later, and the function modules 3a to 3c operate as an extension telephone apparatus as a whole.

  As shown in FIG. 12, the functional unit 28 of the video panel type extended function module 3a having a video display function is transmitted from the control device CT through the information path (information line L2, gate device 1 and basic function module 2a). The operation is controlled by the information signal (control signal), and the CPU 28c that decompresses and decodes the image data sent through the information path and displays it on the liquid crystal display LCD, and the operation for switching the screen. And a switch SWa. The module main body 30 of the extended function module 3a is formed to have a size in which two modules of three module dimensions are arranged in the width direction, and a liquid crystal display unit LCD is disposed at the approximate center of the front surface, and a liquid crystal display. An operation button B1 of the operation switch SWa is arranged below the LCD.

  Further, as shown in FIG. 13, the operation of the function unit 28 of the voice panel type extension function module 3b having a voice input / output function is controlled by an information signal (control signal) transmitted through the information path from the control device CT. At the same time, the audio signal converted into an electric signal by the microphone MC is modulated and output to the information path via the I / O interface 27, and the audio signal sent through the information path is demodulated from the speaker SP. A CPU unit 28d for outputting is provided. The extended function module 3b accommodates a speaker SP and a microphone MC inside the module main body 30, and a plurality of voice input / output holes 30a are formed through the front surface of the module main body 30.

  Further, as shown in FIG. 14, the function unit 28 of the operation panel type extended function module 3c having an operation function is controlled in operation by an information signal (control signal) transmitted through the information path from the control device CT. A CPU unit 28e is provided that monitors operation inputs from the button switch SWb, the ring volume switch SWc, and the indoor call switch SWd, and outputs the operation input to the information path via the I / O interface 27. In the extended function module 3c, the operation buttons B2 to B4 of the call switch SWb, the ringing volume switch SWc, and the indoor call switch SWd are arranged on the front surface of the module body 30.

  In addition, a control controller CT for operating the plurality of functional modules 2a..., 3a. FIG. 15 is a block diagram of the control controller CT. The control controller CT includes a signal transmission unit 41 that exchanges information signals with the functional modules 2a..., 3a. .., 3a... A memory (storage means) 42 such as a ROM storing a control program for operating the installed functional modules 2a... 3a in cooperation with each other, and the control program stored in the memory 42 are executed. Based on the information signal received from each functional module 2a ..., 3a ..., a control signal for causing the corresponding functional module 2a ..., 3a ... ..., 3a ... Rectifying and smoothing the control unit 40 and commercial power supplied via the power line L1 And a power supply unit 43 for generating a DC voltage for operation of the internal circuit.

  In using the wiring system as described above, the gate device 1 is attached to the switch box 90 previously embedded in an appropriate place (ceiling 100, wall 101 or floor 102) of the building via the attachment frame 70, and then the construction is performed. The power line L1 and the information line L2 that are wired in advance on the back side of the material and introduced into the switch box 90 are connected to the terminal portions 11a, 11b, 12a, and 12b of the gate device 1, respectively. Next, by connecting the corresponding connectors 21a and 21b of the basic function module 2a to the power path connection port 13a and the information path connection port 13b respectively provided on the front surface portion of the gate device 1, the gate device 1 The basic function module 2a is attached so as to cover the front part. In the extended function module 3a ..., one of the exposed side surfaces of the basic function module 2a is brought into contact with one side surface, and the hook pieces 34 and 79 are engaged with each other in this state, and the tapping screws passed through the insertion holes 32 and 78 By screwing directly to a construction material such as gypsum board. Then, after the plate frame 80 is screwed to the front side of each functional module 2a, 3a... Using a plate screw, the decorative plate 82 is attached to the front side of the plate frame 80, and the window hole 83 of the decorative plate 82 is attached. The functional surfaces of the front surface portions of the functional modules 2a, 3a. In this attached state, the front surface portion of each functional module 2a, 3a... Is substantially the same height as the front surface portion of the decorative plate 82. Further, when another extension function module 3 is connected to the extension function module 3 connected earlier, the tapping screw passed through the insertion hole 32 in the state where the opposite side surfaces are in contact and the hook pieces 34 are engaged with each other is used. The extended function module 3 may be fixed to the construction material, and the plate frame 80 and the decorative plate 82 may be replaced according to the number of the function modules 2 and 3. In the example of use shown in FIG. 4, the extended function modules 3a are connected to only one side of the basic function module 2a. However, the extended function modules 3a may be connected to both sides of the basic function module 2a. However, the number of extended function modules 3a that can be connected to the basic function module 2a is limited by the power supply capability of the AC / AC converter 22a.

  After the installation and installation of the system is completed as described above, the power path and the information path can be connected to the functional modules 2a and 3a to 3c via the gate device 1, and wiring is performed. The control controller CT arranged in the panel 6 sends out a control signal to each functional module 2a..., 3a... Through the information line L2, so that each functional module 2a. It is possible to control the connection from the beginning. In this embodiment, an extension call facility that enables extension calls by causing the memory 42 of the control controller CT to operate the door number type functional module 2e, the door phone slave type function module, and the extended function modules 3a to 3c in cooperation with each other. In response to a control program for disaster prevention, a control program for a disaster prevention facility that receives an alarm signal from a function module 2b having a fire detection function, and a function signal 2c having a human body detection function Control programs for crime prevention facilities that perform alarm operations are incorporated, and by executing these control programs, each functional module 2a ..., 3a ... operates in cooperation as an extension call facility, disaster prevention facility, or crime prevention facility. is there. A unique address is set for each functional module 2a ..., 3a ..., and an information signal with an address added is transmitted / received between the controller CT and each functional module 2a ..., 3a ... When an information signal is input to the controller CT from..., 3a..., The controller CT specifies the function module 2a... 3a of the transmission source based on the address added to the information signal. Further, in the memory 42 of the control controller CT, a control table showing the correspondence relationship of the functional modules 2a... 3a to be operated in cooperation is registered in advance, and in the control unit 40, the signal transmission unit 41 is one of the functional modules. When the information signals from 2a..., 3a... Are received, the addresses of the function modules 2a... 3a. A control signal that causes the functional modules 2a,..., 3a,... To cooperate with each other is created, and this control signal is output from the signal transmission unit 41. The functional modules 2a,. By performing the above, a plurality of functional modules 2a... 3a.

  Here, the control operation by the controller CT will be described below. First, the control operation when the control controller CT operates a predetermined functional module as an extension telephone facility will be described. As a functional module to be linked and operated as an extension call facility, a door phone sub-unit type functional module (not shown), an entrance number type functional module 2e, a video panel type functional module 3a connected to each other, and a voice panel type There are a function module 3b and an operation panel type function module 3c, and these interlocking relationships are set in the control table stored in the memory 42 of the control controller CT.

  When a visitor presses a call button of a door phone sub-unit type functional module (not shown), the call signal and camera image data are compressed from the door phone sub-unit type functional module to the control controller CT through the information line L2. The obtained video signal is transmitted as an information signal. At this time, the control unit 40 of the control controller CT is a functional module that operates in conjunction with the control table based on the information signal from the intercom unit function module received by the signal transmission unit 41, that is, an entrance number type function module. 2e, the address of the call panel type functional module 3b and the video panel type functional module 3a are extracted, and a control signal for causing the function modules 2e and 3b to ring a ringing tone is output, and to the functional modules 2e and 3a Then, the control signal for displaying the camera image of the door phone slave unit and the video signal are transmitted. At this time, the function modules 2e and 3b sound the ringing tone based on the control signal from the control controller CT, and the function modules 2e and 3a obtain the video signal based on the control signal from the control controller CT. The image data is displayed on the monitor M and the liquid crystal display unit LCD.

  After that, when the user who hears the ringing sound and sees the camera image displayed on the monitor M or the liquid crystal display LCD pushes the call buttons B5 and B2 of the door number type function module 2e or the operation panel type function module 3c, An operation signal is transmitted as an information signal from the module 2e or 3c to the control controller. In the control controller CT, when the signal transmission unit 41 receives the operation input of the call buttons B5 and B2 from the function module 2e or 3c as an information signal, the control unit 40 and the function module 2e or 3c that transmitted the operation input and the door phone slave unit The function module 2e or 3c, which has received the control signal, transmits the audio signal and the video signal to each other via the information line L2. By transmitting and receiving, a communication path is formed between the two and an extension call can be performed. Further, when a predetermined callable time elapses from the time when the operation input of the call buttons B5 and B2 is received from the function module 2e or 3c, the controller CT extends the extension to the doorphone slave unit type function module and the function module 2e or 3c. A control signal for ending the call is sent out, and the function modules 2e and 3c that have received the control signal stop the display on the monitor M and the liquid crystal display LCD and end the call.

  Next, the control operation when the control controller CT operates a predetermined functional module as a disaster prevention facility will be described. As the functional modules to be linked and operated as disaster prevention equipment, there are a fire detector type functional module 2b, a functional module 2g having a speaker function, a video panel type functional module 3a, an audio panel type functional module 3b, and the like. These interlocking relationships are set in the control table stored in the memory 42 of the control controller CT.

  When the fire detector type functional module 2b detects a fire, the functional module 2b outputs an alarm signal as an information signal to the controller CT through the information line L2. At this time, the control unit 40 of the control controller CT is a function module that operates in conjunction with the control table based on the information signal (report signal) from the function module 2b received by the signal transmission unit 41, that is, a speaker-type function module. 2g, the addresses of the video panel type functional module 3a and the voice panel type functional module 3b are extracted, a control signal for causing the functional modules 2g and 3b to sound an alarm sound is output, and an alarm message is displayed on the functional module 3a The control signal to be output is output. At this time, the function modules 2g and 3b drive a speaker based on a control signal from the control controller CT to sound an alarm sound, and the function module 3a displays an alarm message on the liquid crystal display unit LCD. It is possible to operate as a disaster prevention facility by operating the function modules in cooperation.

  Further, the control operation when the control controller CT operates a predetermined functional module as a crime prevention facility will be described. In the system of FIG. 1, as function modules that cooperate with each other as a crime prevention facility, a function module 2c having a human body detection function, a function module 2g having a speaker function, a video panel type function module 3a, an audio panel type function module 3b, an operation There is a panel-type functional module 3c and the like, and these interlocking relationships are set in the control table stored in the memory 42 of the control controller CT.

  The function module 3c is provided with an operation button (not shown) for setting or canceling the warning mode. When the user operates the operation button to set the warning mode, the control module CT is connected from the function module 3c through the information line L2. A setting signal for switching to the warning mode is transmitted as an information signal. In the controller CT, when the signal transmission unit 41 receives the information signal from the functional module 3c, the control unit 40 starts operation in the alert mode based on the information signal from the functional module 3c. Thereafter, when the user performs an operation of canceling the warning mode using the operation button of the function module 3c, the control unit 40 of the control controller CT cancels the warning mode through the same signal transmission as described above.

  When the motion sensor type functional module 2c detects the presence of a person while the control unit 40 of the control controller CT is operating in the alert mode, the functional module 2c sends a human body detection signal to the control controller CT via the information line L2. Output as a signal. At this time, the control unit 40 of the control controller CT is a functional module that operates in conjunction with the control table based on the information signal (human body detection signal) from the functional module 2c received by the signal transmission unit 41, that is, a speaker-type functional module. 2g, the addresses of the video panel type functional module 3a and the voice panel type functional module 3b are extracted, a control signal for causing the functional modules 2g and 3b to sound an alarm sound is output, and an alarm message is displayed on the functional module 3a The control signal to be output is output. At this time, the function modules 2g and 3b drive a speaker based on a control signal from the control controller CT to sound an alarm sound, and the function module 3a displays an alarm message on the liquid crystal display unit LCD. It can be operated as a crime prevention facility by operating the function modules in cooperation. A camera-type function module (not shown) equipped with a surveillance camera is provided, and this camera-type function module is operated in cooperation as a function module of a security facility. You may display on the liquid crystal display part LCD of the functional module 3a. That is, when the human sensor type functional module 2c detects a human body while operating in the alert mode, the control unit 40 of the controller CT sends a control signal for starting the camera to the camera type functional module, The camera provided in the camera function module is activated, a control signal is sent to the video panel type functional module 3a and the camera type functional module, and the video signal of the camera is transmitted from the camera type functional module to the video panel type functional module 3a. The video of the camera may be displayed on the liquid crystal display LCD of the video panel type functional module 3a, and it is possible to monitor the surroundings by watching the video displayed on the liquid crystal display LCD.

  As described above, in the present embodiment, the control unit 40 of the control controller CT housed in the wiring board 6 executes the control program stored in the memory 42 and each function module 2a received by the signal transmission unit 41,. A control signal is created based on the information signal from 3a, and the control signal is transmitted to the corresponding functional modules 2a, 3a, so that a plurality of functional modules 2a, 3a,. Or, since it is operated in cooperation as home equipment such as crime prevention equipment, the function modules 2a,..., 3a, etc. that are operated in cooperation can be easily changed by changing the control program stored in the memory 42. . Therefore, it is not necessary to set the operation for each individual functional module 2a ..., 3a ... or to set the function module to be linked, and the setting operation of the linked operation can be performed only by the controller CT. Can be easily performed. Further, since the control controller CT is arranged inside the wiring board 6, the control functions can be centrally arranged on the wiring board 6, and the installation and maintenance work of the control functions can be performed at one place. There is also an advantage that efficiency is improved.

  By the way, the information line L2 connected to the gate device 1 in this control system performs signal transmission of information signals corresponding to a plurality of types of modules 2, 3, and 4, for example, network devices such as telephones and LANs, It is used for signal transmission of information signals used for TVs, intercoms, various sensors, and control signals for controlling devices such as lighting fixtures. Therefore, since a plurality of types of information signals can be transmitted to the respective functional modules 2a ..., 3a ... via the gate device 1, functional modules having various functions can be used for the respective functional modules 2a ..., 3a ... By using functional modules having various functions, a control system having various functions can be realized.

  In this embodiment, as a method for transmitting an information signal, either baseband transmission or broadband transmission may be adopted, and any protocol may be used. -One-to-one or one-to-N correspondence in which audio and video are mutually transmitted based on H232 packets, and in the control system, one or more loads can be operated by operation data from the operation side It is sufficient that a routing protocol corresponding to unicast or broadcast that can be used is adopted, and the route control protocol is not particularly limited. Further, the protocol used in the gate device 1 may be different from the protocol used in the gate device 1 and the protocol used in the functional modules 2 and 3 connected to the gate device 1, for example.

(Embodiment 2)
In the first embodiment, since the information path and the power path are separated from each other, the power line L1 and the information line L2 are connected to the gate device 1 respectively. However, in this embodiment, transmission of the information signal is performed by the power line carrier. By using the power path as the information path, the wiring is limited to the power line L1. In addition, since it is the same as that of Embodiment 1 except the point which transmits an information signal by power line conveyance, the same code | symbol is attached | subjected to a common component and the description is abbreviate | omitted.

  In the present embodiment, the preceding wiring in each switch box 90 is only the power line L1, and correspondingly, the terminal portions 12a and 12b and the information path connection port 13b of the gate device 1 are eliminated, and the power line terminal portions 11a and 11b and Only the power path connection port 13a is provided. Thus, the basic function module 2 is provided with a PLC modem unit 24a connected to the power line L1 via the connector 21a and the gate device 1 as shown in FIG. In the unit 24, the information signal received via the PLC modem unit 24a is transmitted as an optical signal by the E / O conversion unit 25a, and the information signal composed of the optical signal received by the O / E conversion unit 25b is transmitted to the PLC modem. It is made to transmit by the power line conveyance from the part 24a. The transmission / reception unit 24 outputs an information signal received via the PLC modem unit 24a to the arithmetic processing unit 26, causes the arithmetic processing unit 26 to perform data processing, and receives the information signal input from the arithmetic processing unit 26. Is transmitted from the PLC modem unit 24a to the power line L1 via the gate device 1 by power line conveyance. Similarly, the control controller CT is provided with a PLC modem unit, and an information signal is transmitted and received between the control controller CT and each functional module by power line carrier communication. Therefore, a dedicated line for transmitting the information signal ( Since the information line L2) becomes unnecessary and only the power line L1 needs to be pre-wired, wiring work can be simplified.

  Note that the power line carrier modulation scheme employed in the PLC modem unit 24a may be any of various schemes such as a broadband spread spectrum scheme, a multicarrier scheme, and an OFDM scheme, and is not specifically described here. In the example shown in FIG. 17, the information signal transmitted by the power line carrier communication by the PLC modem unit 24a of the basic function module 2 is separated, and the basic function module 2 and the extended function module 3 connected to the basic function module 2 are connected. The E / O conversion unit 25a and the O / E conversion unit 25b are used to exchange information signals, but each extended function module 3 is directly connected to the power line, and each extended function module 3 is connected to the PLC. A modem unit may be provided, and each function module 2 and 3 may exchange information signals by power line carrier communication.

(Embodiment 3)
A third embodiment of the present invention will be described with reference to FIGS. In the first and second embodiments described above, after mounting the basic function module 2 and fixing the mounting frame 70 fixed to the switch box 90 and the module main bodies 30 and 30 ′ of the extended function modules 3 a to 3 c, the mounting frame 70 is arranged. Since the function modules 2 and 3 are disposed by screwing the plate frame 80 to the module main bodies 30 and 30 ′, the number of the extended function modules 3 connected to the basic function module 2 is changed. It was necessary to replace the plate frame 80 with a size corresponding to the number of modules.

  Therefore, in the present embodiment, as shown in FIG. 19, a fitting recess 50 that is recessed in a rectangular shape is formed on one side surface (for example, the right side surface) of the module main body 20, 30, 30 ′ of each functional module 2a, 3a-3c. In addition, a set of electromagnetic coupling portions are arranged inside the module main bodies 20, 30, 30 ′ and close to the bottom wall of the fitting recess 50, and in addition to the module main bodies 20, 30, 30 ′. On the side surface (for example, the left side surface), a fitting convex portion 51 is provided to be engaged with the fitting concave portion 50 of another module, and one set of electromagnetic coupling portions is arranged at an internal position of the fitting convex portion 51. Here, the bottom wall of the fitting recess 50 in which the tips of the cores 23a of the respective electromagnetic coupling portions are arranged close to each other and the tip surfaces of the fitting projections 51 are magnetic coupling portions X for other modules. The fitting recess 50 and the fitting projection 51 are formed at substantially the same height, and the shapes of the fitting recess 50 and the fitting projection 51 are standardized (standardized) as a system.

  Thus, when connecting the function modules 2a, 3a, etc., after attaching the basic function module 2a to the gate device 1 embedded in the construction surface, the module bodies 20, 30, 30 ′ are attached. The module main bodies 20, 30, and 30 ′ can be connected to each other by fitting the fitting concave portions 50 provided in the module main bodies 30 and 30 ′ into the concave and convex portions respectively. And the fitting convex part 52a of the side cover 52 is unevenly fitted in the fitting recessed part 50 provided in the side surface of the module main body 20 located in the one end side of a connection direction, and the other end side of a connection direction By fitting the fitting protrusions 51 provided on the non-connecting side surface of the module main body 30 ′ located in the concave and convex portions into the fitting concave parts 53 a of the side cover 53, the module main bodies 20, 30 ′ located at both ends are fitted. Since the side covers 52 and 53 are attached to the side surfaces on the non-connection side, the appearance of the appearance can be improved by hiding the fitting recess 50 and the fitting projection 51.

  Thus, in this embodiment, the fitting convex part 51 provided in the other module main body is fitted to the fitting concave part 50 provided in the module main body 20, 30, 30 'of each functional module 2a, 3a-3c. Since the module main bodies 20, 30, 30 ′ are connected to each other, the functional modules 2a, 3a-3c can be easily attached and detached, and the functional modules 2a, 3a-3c are connected in series. Therefore, it is possible to easily cope with an increase or decrease in the number of function modules to be used.

(Embodiment 4)
FIG. 20 shows a schematic system diagram of this embodiment. As shown, in this embodiment, a commercial AC power system such as a limiter 61, a main breaker 62, and a branch breaker 63 is provided in the main body 6 a of the distribution board 6. , An electric power conversion unit 64, various communication devices (7a, 7b...) Described later, and a battery unit 65 for backup power.

  The power line of, for example, a single-phase three-wire commercial AC power source drawn into the main body 6 a of the distribution board 6 is connected to the main breaker 62 via the limiter 61, and L1 and L2 on the load side of the main breaker 62 , N is connected to one end of a conductive bar 66a. The N-pole conductive bar 66a and the L1 or L2 conductive bar 66a are connected to the plug-in power supply side of each branch breaker 63. A terminal portion (not shown) is connected, and the indoor power line is branched by each branch breaker 63. It should be noted that the plug-in type power supply connection portion of the branch breaker 63 may use a conventional peripheral configuration, and illustration and description of this configuration will be omitted. Further, since each conductive bar 66a is arranged so as to overlap when viewed from the front direction of the main body 6a, it is visible in FIG.

  A conductive bar 66a is connected to the power input end of the power conversion unit 64 so that commercial AC power is supplied. The commercial AC power is rectified and smoothed by the power conversion unit 64, and a direct current having a predetermined voltage value is obtained. It converts into voltage and supplies direct-current power to communication apparatus 7a, 7b ....

  In the figure, the power converter 64 has one end of a conductive bar 66b for a DC power supply path connected to a DC power output terminal (not shown) corresponding to each of positive and negative poles provided on the right side. Here, the positive and negative DC power supply path conductive bars 66b are arranged so as to overlap each other when viewed from the front direction, and thus are visible in FIG.

  Various communication devices (7a, 7b,...) Are disposed on the upper and lower sides of the conductive bar 66b. The various communication devices 7 (7a, 7b...) Are connected to the conductive bar 66b so that they can be connected to and disconnected from each other by inserting the conductive bar 66b into the plug-in connection portion for power input provided at the end of the conductive bar 66b. It has become. Since the plug-in connection portion of each communication device 7 has the same configuration as the power supply connection portion of the plug-in branch breaker 63, illustration and description of this configuration are omitted.

  Here, the communication device 7a is a WAN communication unit having a network communication function unit such as a modem, a router, and a hub for connecting to the local network LAN, which are connected to the Internet NT via a communication network. The communication device 7b is a communication unit compatible with general-purpose communication or a network such as a LAN.

  On the other hand, the communication device 7c is a communication control unit that connects the LED lighting terminal 67 that constitutes the basic function module provided outside the distribution board 6 via the feeder line 54, and is connected to the DC power through the conductive bar 66b. Is used as an operating power supply, and a function of feeding the fetched DC power to the LED lighting terminal 67 via the feeder line 54 is provided.

  The internal circuit of this communication device (hereinafter referred to as communication control unit) 7c is a DC that obtains an operating voltage of the internal circuit by converting the DC voltage input through the conductive bar 66b into a predetermined voltage as shown in FIG. The DC voltage supplied to the LED lighting terminal 67 by controlling on / off (duty ratio) the DC voltage supplied to the / DC converter 55a and the LED lighting terminal 67 as shown in FIG. By executing a switch circuit 55b for controlling and dimming and a control program stored in a storage means (not shown), an operation signal from the operation unit 55d for dimming and lighting operation is transmitted via the interface 55c. The switch circuit 55b is controlled so that the dimming amount specified by the capture and operation signal is obtained and superimposed on the DC voltage on the conductive bar 66b. And a control unit 55e having a function of controlling the switch circuit 55b in the same manner as described above so as to obtain a predetermined dimming amount based on the cooperation relationship information included in the transport signal sent in this way, and a direct current on the conductive bar 66b. The carrier signal transmitted superimposed on the voltage is received, the cooperation information included in the carrier signal is output to the control unit 55e, and the state information of the LED lighting terminal 67 is transmitted on the conductive bar 66b by the carrier signal as necessary. It is comprised from the conveyance communication part 55f which transmits to.

  The communication device 7d is a communication control unit that connects a disaster prevention sensor 68, which is a basic function module provided outside the distribution board 6 via a signal line 56, and performs detection information processing of the disaster prevention sensor 68. DC power is taken in through the bar 66b as an operating power source, and the captured DC power is fed to the disaster prevention sensor 68 through the signal line 56, and detection information from the disaster prevention sensor 68 is received to perform detection information processing. It has a function.

  The internal circuit of this communication device (hereinafter referred to as communication control unit) 7d is a DC / DC converter that converts the DC voltage input via the conductive bar 66b into a predetermined voltage to obtain the operating voltage of the internal circuit as shown in FIG. 57a, a carrier communication unit 57b that transmits the carrier signal superimposed on the DC voltage and receives the carrier signal superimposed on the DC voltage of the signal line 56 and the conductive bar 66b, and a storage unit (not shown) By executing the stored control program, the control unit 57c performs processing of information transmitted by the carrier signal and generation processing of information transmitted by the carrier signal.

  Here, the fire prevention sensor 68 side has a function of transmitting detection information to a corresponding communication control unit 7d by a carrier signal when a fire (control factor) to be detected is detected, and the communication control unit 7d When the control unit 57c receives the detection information via the transport communication unit 57b, the control unit 57c generates cooperation relationship information in the communication control unit 7c or the communication units 7a and 7b associated in advance and transports the information from the transport communication unit 57b. Detection information processing to be transmitted by a signal is performed.

  Furthermore, the communication device 7e is a communication control unit that connects a security sensor 69, which is a basic function module provided outside the distribution board 6 via a signal line 58, and performs detection information processing of the security sensor 69. Detection information transmitted by a carrier signal from the security sensor 69 in the same way as the disaster prevention sensor 68 while supplying the DC power through the signal line 58 to the security sensor 69 via the signal line 58. It has the function to receive and process. The internal circuit of the communication device (hereinafter referred to as a communication control unit) 7e is basically the same as that of the communication control unit 7d, and the detection information is processed in the same manner, so that the illustration of the internal circuit is omitted. Here, the communication control units 7c, 7d, and 7e constitute a control controller that operates a plurality of basic function modules in an interconnected manner.

  Next, the operation of this system will be described. In FIG. 20, in the normal time when commercial AC power is converted into DC power by the power conversion unit 64 and supplied to the communication control unit 7c through the conductive bar 66b, the communication control unit 7c operates using the operation unit 55d. The operation for controlling the lighting of the LED lighting terminal 67 can be performed in accordance with the instruction.

  That is, when there is an instruction for full lighting by operating the operation unit 55d while the light is turned off or dimming, the communication control unit 7c continuously turns on the switch circuit 55b to set the maximum lighting power amount to the LED lighting terminal 67. To turn on all the LEDs. On the contrary, if there is an instruction to turn off during lighting, the switch circuit 55b is turned off, power supply to the LED lighting terminal 67 is stopped, and the LED is turned off.

  On the other hand, when an up or down dimming instruction is given from the operation unit 55d during lighting, the on-duty of the switch circuit 55b is gradually reduced or increased according to the dimming instruction operation period and supplied to the LED lighting terminal 67. The lighting power amount is changed, and the lighting of the LED is dimmed and controlled.

  Next, for example, when the disaster prevention sensor 68 detects the occurrence of a fire and the detection information is sent to the communication control unit 7c through the signal line 56 by the carrier signal, the communication control unit 7c receives it by the carrier communication unit 57b. The detection information is passed to the control unit 57c. When the control unit 57c receives the detection information, the control unit 57c transmits the cooperation information as a transport signal from the transport communication unit 57b to the communication control unit 7c connected to the LED lighting terminal 67 that is the target of the cooperation operation in advance.

  Here, the communication control units 7c, 7d, and 7e (and the communication units 7a and 7b) are assumed to have a unique identification address in the carrier communication, and the destination address and the transmission are transmitted when the cooperation information is transmitted by the carrier signal. The original address information is also attached to the header and transmitted.

  When the control unit 55e of the communication control unit 7c receives the cooperation relationship information addressed to itself via the transport communication unit 55f, the control unit 55c controls the on / off operation of the switch circuit 55b in advance corresponding to the operation mode corresponding to the cooperation operation. To do. That is, the duty ratio is controlled in order to control the light emission of the LED lighting terminal 67, or the power supply is controlled to be turned on / off at a predetermined period in order to blink at a predetermined period. From the lighting state of 67, the user knows that a fire has occurred.

  In addition, even when the security sensor 69 connected to the communication control unit 7e via the signal line 58 detects an illegal intrusion (control factor), if a series of cooperative operation processing is performed as in the case of the disaster prevention sensor 68, Can be notified of illegal intruders. In this case, if the lighting state of the LED lighting terminal 67 is controlled to be different between when the fire is detected and when the illegal intrusion is detected, the lighting state of the LED lighting terminal 67 can be distinguished from whether the fire has occurred or whether the illegal intrusion has occurred. And the corresponding treatment can be performed quickly.

  By the way, the communication control unit 7c described above controls the lighting power amount of the LED lighting terminal 67 by controlling on / off of the DC voltage for supplying DC power to the LED lighting terminal 67 by the switch circuit 55b. However, instead of performing on / off control of the switch circuit 55b, the dimming control information is sent from the carrier communication unit 55f to the LED lighting terminal 67 by a carrier signal that is superimposed on the DC voltage on the feeder line 54. You may do it.

  In this case, as shown in FIG. 23, the LED lighting terminal 67 controls the lighting power amount of the light emitting unit 67a by turning on / off the DC voltage similarly to the light emitting unit 67a composed of the LED group and the switch circuit 55b described above. A switch circuit 67b that controls the operation of the switch circuit 67b in accordance with the control content by extracting the dimming control information from the carrier signal that is transmitted while being superimposed on the DC voltage. And. The operating power supply of the control unit 67c is obtained from a DC voltage to be fed.

  Thus, according to the circuit configuration of FIG. 23, when a plurality of LED lighting terminals 67 are controlled by one communication control unit 7c, a unique address is given to each LED lighting terminal 67, and dimming is performed together with the unique address information. If control information is sent by a carrier signal, each LED lighting terminal 67 can be controlled. Therefore, it becomes possible to designate the LED lighting terminal 67 to be turned on during the cooperative operation based on the detection information of the disaster prevention sensor 68 or the crime prevention sensor 69, and a plurality of LEDs are controlled under one communication control unit 7c. Even if there is the lighting terminal 67, it is possible to control the lighting of the predetermined LED lighting terminal 67, and it is possible to improve the discrimination when notifying the user of the occurrence of a fire or illegal intrusion.

  The power conversion unit 64 sends a power failure detection signal to the communication control unit 7c that is an LED controller, and the communication control unit 7c performs dimming control of the LED lighting terminal 67 at a predetermined level, thereby reducing power consumption. The consumption of the battery unit 65 may be suppressed.

  The above-described communication information (communication control units 7c, 7d, and 7e) is exchanged using a carrier signal superimposed on the DC voltage on the conductive bar 66b, but the DC voltage is intermittently transmitted at a high frequency. It is also possible to transmit using a pulse signal obtained in this way. In addition, communication devices (communication control units 7c, 7d, and 7e) are connected via dedicated communication lines, and exchange and connection information is exchanged by communication units (not shown) provided via the communication lines. You may do it.

  Furthermore, in the control system of the present embodiment, the link-related information is sent from the communication control unit 7d or 7e on the sensor side to the address of the communication control unit 7c on the facility device side that is the target of the cooperative operation. If the detection information of the sensor is transmitted as link relationship information without specifying a destination in particular, and the link control information is transmitted on the conductive bar 66b in the communication control unit (7c in the present embodiment) on the equipment side, If the detection information, which is the cooperative relation information is received and the detection information content registered in advance corresponding to the cooperative action in the communication control unit (7c in the embodiment) is received. You may make it control a terminal (In the embodiment, LED lighting terminal 67) by the content matched with this.

(Embodiment 5)
In the fourth embodiment, the correspondence relationship of the cooperative operation and the cooperative correspondence information such as the combination of the cooperative operation target and the cooperative operation content necessary for the cooperative operation are set and registered in advance in the corresponding communication control units 7c, 7d, and 7e. However, it is not possible to deal with any change in the correspondence such as system expansion or reduction. Therefore, in the present embodiment, as shown in FIG. 24, a cooperation control unit 7f that operates as a control controller for the cooperation operation is provided as a communication device.

  That is, this cooperative control unit 7f is also connected to the conductive bar 66b by plug-in connection and operates by receiving DC power, and is input from the conductive bar 66b as shown in FIG. 25 (a). A DC / DC converter 59a for obtaining an operating voltage from a DC voltage, a control unit 59b for receiving and superimposing a carrier signal transmitted on the conductive bar 66b, and a flash memory for registering cooperation correspondence information Etc., and a detachable memory unit 59c.

  The cooperation correspondence information to be registered in the memory unit 59c is based on information such as combination information of the equipment-device-side communication control unit 7c that is a cooperation operation target with respect to the sensor-side communication control units 7d and 7e, and control information during the cooperation operation. Thus, when newly registering the cooperation correspondence information in the memory unit 59c or correcting the registered cooperation correspondence information, the memory unit 59c is removed from the cooperation control unit 7f, and application software such as an editor is installed. It is mounted on a personal computer or the like, and the cooperation correspondence information created by the personal computer is registered, or the registered cooperation correspondence information is corrected.

  Thus, the cooperative operation control in the present embodiment is performed as follows. First, as shown in FIG. 25 (b), if a fire is detected by the disaster prevention sensor 68, the communication control unit 7d corresponding to the disaster prevention sensor 68 sends the cooperation relation information including the detection information to the address of the cooperation control unit 7f. Send by carrier signal (I). The cooperation control unit 7f searches for the corresponding communication control unit (communication control unit 7c, which is an LED controller in the embodiment) based on the received cooperation relation information and the cooperation correspondence information registered in the memory unit 59c. Control information corresponding to the above-described detection information is transmitted to the communication control unit 7c as linkage information by a carrier signal (II).

  The communication control unit 7c performs processing for controlling the operation of the LED lighting terminal 67 based on the information of the cooperative operation content sent to itself.

  In this way, the cooperative operation control according to the present embodiment registers the above-described cooperative correspondence information in the cooperative control unit 7f, thereby changing the combination relation of the cooperative operation target and changing the control content to the communication control units 7c and 7d. , 7e can be performed without change, and therefore it is possible to freely cope with changes in system expansion and reduction, and to construct a cooperative operation control system using a communication control unit other than the communication control unit described above. Is easy to do.

  In addition, registration of data such as control programs and linkage correspondence information is sent to the memory unit 59c from, for example, a server (not shown) provided on the Internet NT side to the communication unit 7a. The communication unit 7a temporarily buffers this data. The data is transferred to the cooperative control unit 7f using a carrier signal, and the transferred data is stored in the memory unit 59c for registration processing by the cooperative control unit 7f. good.

  In this case, a change or new setting of cooperation correspondence information, further maintenance, etc. can be remotely operated by a contractor (manufacturer) or the like, so there is no burden on the user. It is assumed that an operation program such as a download procedure and a registration process is preinstalled in the control unit (not shown) of the communication unit 7a and the control unit 59b of the cooperation control unit 7f. Further, the memory unit 59c to be used may be a memory unit built in and fixed to the cooperation control unit 7f, or may be a detachable memory unit as described above.

1 is a system configuration diagram of a control system of Embodiment 1. FIG. It is a disassembled perspective view of the state which removed the basic function module used for the same from a gate apparatus. It is the external appearance perspective view which looked at the basic function module used for the same from the back side. It is a front view which shows the construction state of the functional module used for the same as the above. It is a rear view which shows the construction state of the functional module used for the same as the above. It is a side view which shows the construction state of the functional module used for the same as the above. It is a front view of the extended function module used for the same as the above. The another extended function module used for the same as the above is shown, (a) is a front view, (b) is a side view. It is a block diagram of a basic function module and a gate device used in the above. It is a block diagram of the extended function module used for the same as the above. It is a principal part block diagram of the functional module used for the same as the above. It is a principal part block diagram of another functional module used for the same as the above. It is a principal part block diagram of another functional module used for the same as the above. It is a principal part block diagram of another functional module used for the same as the above. It is a block diagram of the control controller used for the same as the above. It is explanatory drawing which shows the control system construction example same as the above. It is a block diagram of a basic function module used for the control system of Embodiment 2. It is a front view explaining the attachment state of each functional module used for the control system of Embodiment 3. It is a disassembled perspective view explaining the attachment state of each functional module used for the same as the above. FIG. 6 is a schematic system configuration diagram of a fourth embodiment. (A) is a circuit block diagram of the communication control unit used for Embodiment 4, (b) is explanatory drawing of on / off control of the communication control unit 7a. FIG. 10 is a circuit configuration diagram of another communication control unit used in the fourth embodiment. It is a circuit block diagram of an example of the LED lighting terminal used for Embodiment 4. FIG. 10 is a schematic system configuration diagram of a fifth embodiment. (A) is a circuit block diagram of the cooperation control unit of Embodiment 5, (b) is operation | movement explanatory drawing of Embodiment 5. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Gate apparatus 2a ... Basic function module 3a ... Extended function module L1 Power line L2 Information line

Claims (4)

A plurality of power supplies and information signals are transmitted via wires wired in advance on the back side of the construction surface, a control signal transmitted as an information signal is received from the outside, and a predetermined operation is performed based on the control signal Basic function module of
A signal transmission unit that is arranged inside a wiring board on which the electric wires are wired and that exchanges information signals with each basic function module through the electric wires, and a memory that stores a control program for operating the basic function modules in a coordinated manner And a control signal for executing the control program and causing the signal transmission means to operate the corresponding basic function module in cooperation with each other based on the information signal received from each basic function module, and transmitting the control signal to the signal transmission A controller having a control means for transmitting from the means to the corresponding basic function module;
The basic function module is detachably connected to the basic function module, receives power supply through the basic function module, transmits and receives information signals through the basic function module, and receives control signals transmitted from the outside as information signals. An extended function module that receives and performs a predetermined operation based on the control signal,
The basic function module and the extended function module each have a function according to the type,
The control program comprises a program for operating a basic function module and an extended function module connected to the basic function module in an interconnected manner,
A control system that realizes a desired function by causing the control means to execute the control program and operate a basic function module and an extended function module in a linked manner . A gate device provided with a connecting portion connected to the electric wire to supply power and transmit information signals is provided on the gate device body disposed on the construction surface, and the basic function module conforms to the connecting portion. When the connector of the basic function module is connected to the connection portion of the gate device, power supply from the gate device to the basic function module and information signal transmission between the gate device and the basic function module are established at the same time. the control system of claim 1, wherein the that. The wire is made from the power line for the power supply, controller and control system according to claim 1 or 2, characterized in that for exchanging information signal by the power line carrier communication with each functional module. The wire is, the control system according to claim 1 or 2, characterized in that consists of a power line for the power supply, and information lines for transmitting information signals.

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