JP2005317448A - Illumination controlling device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an illumination controlling device that can cope with two kinds of remote control systems of a cycle type and a direct type, in which it is not necessary to confirm lighting state of the lighting device by pressing a key toward an illumination device as a controlled target when setting the remote controller code. <P>SOLUTION: In a setting mode of a remote controller code, the controller 7 transmits a plurality of controller codes stored in the controller code memory part 3 via a remote controller signal emitting part 3 after sequentially changing them, and afterwards, inputs the remote controller codes into the remote controller setting memory part 5 when changes of room brightness are detected by a brightness detecting means 6. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a lighting control device, and more particularly to a lighting control device that operates various types of lighting equipment of different manufacturers and models.

  In general, lighting devices with a remote control function sold by home appliance manufacturers use a dedicated remote control transmitter. Therefore, in order to be able to handle a plurality of devices with a single remote controller, Patent Document 1 discloses an apparatus in which various remote controller codes are stored in the remote controller itself so that an arbitrary remote controller code can be selected. Yes.

Also, as a remote control method, every time the same remote control code is transmitted, the lighting state is forwarded in the order of “all lights” → “reduce” → “bean lights” → “off” → “all lights”. There are two types: a cycle type and a direct type that can directly switch the lighting state by an individual remote control code.
JP 2002-231464 A

  However, when setting a remote control code, the remote controller described in Patent Document 1 needs to be set while confirming the actual lighting state of the lighting device by pointing the remote controller at the lighting device to be operated and pressing a key. In addition, the remote control system that can be used is limited to either the cycle type or the direct type, and there is a problem that it cannot be applied to all lighting devices.

  The present invention has been made to solve the above problems, and when setting a remote control code, point the remote control at the lighting device to be operated and press a key to check the lighting state of the lighting device. It is an object of the present invention to provide an illumination control device that is not necessary and can be used for two remote control systems, that is, a cycle system and a direct system.

  A lighting control device according to an aspect of the present invention is a network input / output unit that transmits and receives data to and from a controller via a network, and a remote control code for transmitting a remote control code to a remote control light receiving unit of the lighting device. When the remote control light emitting means, the remote control code setting storage means for storing the remote control code used for controlling the lighting equipment, and the network input / output means receive a signal for performing lighting control from the controller, the lighting equipment Lighting control means for controlling, remote control signal data including remote control codes for a plurality of types of lighting equipment, remote control signal data storage means pre-stored, and detecting changes in illuminance in the room where the lighting equipment is installed Illuminance detecting means for controlling the lighting device and a remote control code used for controlling the lighting equipment Further comprising a remote control code setting control means for performing control to be set in the storage means.

  The illumination control unit transmits the remote control code stored in the remote control code setting storage unit from the remote control light emitting unit based on the received signal.

  The remote control code setting control means includes remote control code transmission means for sequentially switching and transmitting remote control codes of a plurality of types of lighting equipment stored in the remote control signal data storage means from the remote control light emitting means, and the remote control code transmission means After the code is transmitted, when a change in illuminance in the room is detected by the illuminance detection means, the remote control code is set in the remote control code setting storage means.

  Preferably, when the network input / output means receives a signal for starting control for setting the remote control code from the controller, the remote control code transmitting means is a remote controller for a plurality of types of lighting equipment stored in the remote control signal data storage means. The codes are sequentially transmitted from the remote control light emitting means.

  Preferably, the remote control signal data stored in the remote control signal data storage means includes manufacturer information of a plurality of types of lighting equipment, and the remote control code transmission means transmits the manufacturer information of the lighting equipment from the controller via the network input / output means. Is received, the remote control code of the manufacturer of the received lighting equipment is selected from the remote control signal data stored in the remote control signal data storage means and sequentially transmitted.

  Preferably, the remote control signal data stored in the remote control signal data storage means includes model number information of a plurality of types of lighting equipment, and the remote control code transmission means transmits the model number information of the lighting equipment from the controller via the network input / output means. Is received, the remote control code of the model number of the received lighting device is selected from the remote control signal data stored in the remote control signal data storage means and sequentially transmitted.

  Preferably, the remote control signal data stored in the remote control signal data storage means includes a plurality of types of remote controller model number information, and the remote control code transmission means receives the remote controller model number information from the controller via the network input / output means. In this case, the remote control code of the received remote controller model number is selected from the remote control signal data stored in the remote control signal data storage means and sequentially transmitted.

  Preferably, remote control code setting detection means for detecting whether or not a remote control code is set in the remote control code setting storage means when a power source of the illumination control device is input, and the remote control code setting detection means causes the remote control code to be detected. When it is detected that the remote control code is not set in the code setting storage means, the remote control code transmission means sequentially transmits the remote control codes of a plurality of types of lighting equipment stored in the remote control signal data storage means from the remote control light emission means. To do.

  According to the present invention, the remote control codes of a plurality of types of lighting devices stored in advance are sequentially switched and transmitted from the remote control light emitting unit, and when the change of the illuminance in the room is detected by the illuminance detection unit, the remote control code is Since it is set as a remote control code used for actual lighting control, it is not necessary to set it while actually checking the lighting state of the lighting device. Therefore, the remote control code can be easily set.

  In addition, both the cycle type and direct type remote control methods can be supported.

  Embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals and description thereof will not be repeated.

  FIG. 1 is a diagram illustrating a configuration example of a lighting control device 1 according to an embodiment of the present invention.

  Referring to FIG. 1, lighting control device 1 includes network input / output unit 2, remote control light emitting unit 3, remote control code storage unit 4, remote control code setting storage unit 5, illuminance detection unit 6, and control unit 7. With.

  The network input / output unit 2 transmits and receives data to and from the controller 8 via the network. The network input / output unit 2 is a connector that couples a communication medium when the communication form with the network is wired, and includes a wireless unit that transmits and receives radio waves when wireless, and has a function of connecting to an external network.

  The remote control light emitting unit 3 is composed of an infrared light emitting diode that emits infrared light. A remote control code is transmitted from the remote control light emitting unit 3 to the remote control light receiving unit of the lighting device to be controlled.

  The remote control code storage unit 4 is composed of a ROM (Read Only Memory). The remote control code storage unit 4 stores remote control signal data of a plurality of manufacturers in advance.

  FIG. 2 is a diagram illustrating an example of remote control signal data held in the remote control code storage unit 4.

  As shown in FIG. 2, the remote control signal data stored in the remote control code storage unit 4 includes a remote control code, its data format, modulation frequency, and remote control system information, and is held in the form of a data table. ing.

  The remote control code setting storage unit 5 includes a nonvolatile memory such as a RAM (Random Access Memory) or an EEPROM (Electrically Erasable and Programmable Read Only Memory). Remote control signal data used for actual lighting control is written in the remote control code setting storage unit 5 when the user executes a remote control code setting mode described in detail below.

  The illumination control refers to control for turning on / off the lighting device and adjusting the light amount.

  FIG. 4 is an example of remote control signal data held in the remote control code setting storage unit 5 when the remote control method is the cycle type. FIG. 5 shows a remote control code setting storage unit when the remote control method is the direct type. 5 is a diagram showing an example of remote control signal data held in FIG.

  The illuminance detection unit 6 includes an illuminance sensor, and detects a change in illuminance in the room due to illumination control of the lighting device. When the remote control method is the cycle type, each time a remote control code is sent from the remote control light-emitting unit 3, it lights up as "All lights" → "Reduce light" → "Bean lights" → "Off" → "All lights" The state changes. In this case, the illuminance basically changes in a decreasing direction, and the illuminance increases only when “off” → “all lights”. Therefore, when it is detected that the illuminance has increased after the remote control code is transmitted from the remote control light emitting unit 3, it can be determined that the illumination of the lighting device has been turned on.

  The control unit 7 is constituted by a microcomputer and performs a series of controls of the illumination control device 1.

  Here, first, in the present embodiment, the lighting control performed by the control unit 7 in the lighting control device 1 on the target lighting device will be briefly described.

  When the network input / output unit 2 receives a signal (hereinafter referred to as “illumination control signal”) for performing illumination control of the illumination from the controller 8, the control unit 7 controls the remote control code set in the remote control code setting storage unit 5. Is read. Then, the read remote control code is transmitted from the remote control light emitting unit 3. By doing so, the control part 7 performs illumination control of an illuminating device.

  Next, in this embodiment, a remote control code setting mode in which the control unit 7 in the lighting control device 1 performs control to set a remote control code used for actual lighting control will be described.

  In order to execute the remote control code setting mode, first, the target lighting device is turned off with a wall switch, an attached remote control, or the like.

  FIG. 6 is a flowchart showing a procedure in which the control unit 7 searches for a remote control code for turning on the lighting device from among the remote control codes held in the remote control code storage unit 4 in the remote control code setting mode.

  The control unit 7 selects one of the remote control codes stored in the remote control code storage unit 4 and transmits the remote control code from the remote control light emitting unit 3 (step S01). After the remote control code is transmitted, the illuminance detection unit 6 detects the illuminance (step S02). Until the illuminance detection unit 6 detects an increase in illuminance, it switches to the next remote control code and transmits the remote control code from the remote control light emitting unit 3 (NO in step S03, step S04). If the illuminance detection unit 6 detects an increase in illuminance (YES in step S03), the control unit 7 sets the remote control code in the remote control code setting storage unit 5 (step S05).

  After searching for the remote control code for lighting the target lighting device in this way, it is next determined whether the remote control code set in the remote control code setting storage unit 5 is a cycle type or a direct type (step S06).

  FIG. 7 is a flowchart showing a procedure in which the control unit 7 determines the set remote control code method in the remote control code setting mode.

  First, the control unit 7 refers to the remote control code storage unit 4 and confirms the remote control method information of the set remote control code (step S11). Even if the set remote control code method is held as a direct type in the remote control code storage unit 4, depending on the lighting equipment, the direct type ON signal code may be used as a cycle type progressive code in other equipment. There may be.

  Therefore, the control unit 7 reads the remote control code of the OFF signal corresponding to the remote control code set in the remote control code setting storage unit 5 from the remote control code storage unit 4 and transmits it from the remote control light emitting unit 3 (step S12). . Thereafter, the set remote control code (ON signal) is transmitted again (step S13). After transmitting the set remote control code, the control unit 7 detects the illuminance by the illuminance detection unit 6 (step S14). If the illuminance detection unit 6 detects an increase in illuminance (YES in step S14), it is determined that the illumination state has changed from turning off to turning on by the above operation. Therefore, the control unit 7 sets the remote control code set in the remote control code setting storage unit 5 as a direct ON signal, sets the remote control code indicating the OFF signal as a direct OFF signal, and sets the remote control code. The mode is terminated (step S15).

  On the other hand, when no increase in illuminance is detected by illuminance detection unit 6 (NO in step S14), or when the reference result of remote control code storage unit 4 is held as a cycle (NO in step S11), control is performed. The unit 7 sets the remote control code as a cycle type in the remote control code setting storage unit 5 (step S16).

  In the case of the cycle type, the number of cycles varies depending on the lighting equipment. For example, every time the same remote control code is transmitted, the lighting state is switched to four states such as “all light” → “reduce” → “bean light” → “light off” → “all light”. And a two-cycle type that switches between two states such as “all lights” → “lights off” → “all lights”.

  Therefore, when the set remote control method is a cycle type, next, the control unit 7 measures the number of cycles of the target lighting device (step S17).

  Thus, in the remote control code setting mode, the control unit 7 determines whether the remote control code method set in the remote control code setting storage unit 5 is the direct method or the cycle method, and the determined remote control method is used as the remote control code. The setting storage unit 5 has a function of setting.

  FIG. 8 is a flowchart illustrating a procedure in which the control unit 7 measures the number of cycles when the remote control code is a cycle type in the remote control code setting mode.

  First, since the current lighting state is unknown, it is once switched to the full lighting state. Therefore, the control unit 7 transmits the set remote control code (step S21), and then detects the illuminance by the illuminance detection unit 6 (step S22). Such remote control code transmission and illuminance detection are repeated until the illuminance increases (NO in step S22). Then, when an increase in illuminance is detected by illuminance detection unit 6 (YES in step S22), control unit 7 determines that the lamp is currently in a full lighting state.

  Next, until the illuminance detection unit 6 detects an increase in illuminance again, the control unit 7 repeats transmission of the set remote control code (step S23) and detection of illuminance (step S25). At this time, every time the remote control code is transmitted, the number of transmissions of the remote control code is counted (step S24).

  When an increase in illuminance is detected by illuminance detection unit 6 (YES in step S25), control unit 7 determines the number of remote control code transmissions counted in step S24 as the number of cycles. Then, the number of cycles is set in the remote control code setting storage unit 5 (step S26), and the remote control code setting mode is terminated.

  As described above, in the remote control code setting mode, the control unit 7 switches from lighting the lighting device to the next lighting when the remote control code method set in the remote control code setting storage unit 5 is a cycle type. It further has a function of measuring the number of cycles and setting the measured number of cycles in the remote control code setting storage unit 5.

  When the remote control code setting mode as described above is terminated, the remote control code setting storage unit 5 stores remote control signal data as shown in FIGS.

  Thus, if the remote control signal data is stored in the remote control code setting storage unit 5, the control unit 7 can control the target lighting device based on the illumination control signal from the controller 8.

  As timing for executing the remote control code setting mode as described above, a remote control code setting mode transition command may be provided in addition to the illumination control command as the command content from the controller 8 to the lighting control device 1. Then, the remote control code setting mode can be executed by receiving the remote control code setting mode transition command from the controller 8.

  Thereby, even when the lighting device to be controlled changes, the setting of the remote control code can be changed at any time.

  Further, when the remote control code setting mode is executed, various information may be included in the remote control code setting mode transition command from the controller 8.

  FIG. 3 is a diagram showing another example of remote control signal data held in the remote control code storage unit 4.

  (1) The manufacturer information of the lighting device is included in the remote control code setting mode transition command.

  In this case, as remote control signal data held in the remote control code storage unit 4, the manufacturer information of the lighting equipment is also held together with the remote control code, its data format, modulation frequency, and remote control system information.

  Then, when the manufacturer information of the lighting device is received from the controller 8 in the remote control code setting mode, the control unit 7 first turns on the lighting device from among the remote control codes held in the remote control code storage unit 4. When searching, only the remote control code that matches the received manufacturer information of the lighting device may be selected and transmitted. Therefore, the time for searching for the remote control code can be shortened.

  (2) The model number information of the lighting device is included in the remote control code setting mode transition command.

  In this case, the remote controller code data stored in the remote controller code storage unit 4 is also stored with the remote controller code, its data format, modulation frequency, and remote controller method information as well as the model number information of the lighting equipment.

  Then, when receiving the model number information of the lighting device from the controller 8 in the remote control code setting mode, the control unit 7 first turns on the lighting device from among the remote control codes held in the remote control code storage unit 4. When searching, only the remote control code that matches the received model number information of the lighting device may be selected and transmitted. Therefore, the time for searching for the remote control code can be shortened.

  (3) The remote controller code setting mode transition command includes the remote controller model number information.

  In this case, as remote control signal data held in the remote control code storage unit 4, the remote controller code, its data format, modulation frequency, and remote control type information are also held together with the remote controller model number information.

  Then, when receiving the remote controller model number information from the controller 8 in the remote control code setting mode, the control unit 7 first selects a remote control code for lighting the lighting device from among the remote control codes held in the remote control code storage unit 4. When searching, it is only necessary to select and transmit only the remote control code that matches the received model number information of the remote control. Therefore, the time for searching for the remote control code can be shortened.

  As a timing for executing the remote control code setting mode, the remote control code setting mode may be automatically executed when the remote control code is not set in the remote control code setting storage unit 5.

  In this case, the control unit 7 further has a function of detecting whether or not a remote control code is set in the remote control code setting storage unit 5.

  Initially, nothing is set in the remote control code setting storage unit 5, so that the remote control code can be automatically set only by turning on the illumination control device 1. Become.

  In the present embodiment, the illumination control device 1 is controlled based on a signal from the controller 8, but is not limited to a controller as long as it is transmitted and received via a network.

  In the remote control code setting mode, the remote control code setting, the remote control code method determination, and the cycle number measurement when the remote control method is the cycle method are sequentially performed. Not limited to. For example, only the remote control code may be set, or after setting the remote control code, the cycle number may be measured without determining the remote control method.

  In this embodiment, the remote control code setting mode is started after the lighting device is turned off. However, the illuminance is reduced by the illuminance detection unit 6 when the lighting device is turned on first. It is also possible to set a remote control code by detecting.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a figure which shows the structural example of the illumination control apparatus in embodiment of this invention. It is a figure which shows an example of the remote control signal data hold | maintained at the remote control code memory | storage part. It is a figure which shows the other example of the remote control signal data currently hold | maintained at the remote control code memory | storage part. It is a figure which shows the example of the remote control signal data hold | maintained at the remote control code setting memory | storage part in case a remote control system is a cycle type. It is a figure which shows the example of the remote control signal data hold | maintained at the remote control code setting memory | storage part in case a remote control system is a direct type. It is a flowchart which shows the procedure which searches the remote control code which lights an illuminating device from the remote control code hold | maintained in the remote control code memory | storage part in remote control code setting mode. It is a flowchart which shows the procedure which judges the system of a remote control code in remote control code setting mode. It is a flowchart which shows the procedure which judges the cycle number when a remote control code is a cycle type in remote control code setting mode.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Lighting control apparatus, 2 Network input / output part, 3 Remote control light emission part, 4 Remote control code memory | storage part, 5 Remote control code setting memory | storage part, 6 Illuminance detection part, 7 Control part, 8 Controller

Claims (6)

Network input / output means for transmitting and receiving data to and from the controller via the network;
Remote control light emitting means for transmitting a remote control code to the remote control light receiving unit of the lighting device;
Remote control code setting storage means for storing a remote control code used for controlling the lighting device;
When the network input / output means receives a signal for performing illumination control from the controller, it comprises illumination control means for controlling the illumination device,
The illumination control means transmits a remote control code stored in the remote control code setting storage means from the remote control light emitting means based on the received signal,
Remote control signal data including a remote control code of a plurality of types of lighting equipment, remote control signal data storage means stored in advance,
Illuminance detection means for detecting a change in illuminance in the room where the lighting device is installed;
Remote control code setting control means for performing control to set a remote control code used for controlling the lighting device in the remote control code setting storage means,
The remote control code setting control means includes
Remote control code transmitting means for sequentially switching and transmitting the remote control codes of the plurality of types of lighting equipment stored in the remote control signal data storage means from the remote control light emitting means;
An illumination control device that sets a remote control code in the remote control code setting storage means when a change in indoor illuminance is detected by the illuminance detection means after the remote control code is transmitted by the remote control code transmission means.   When the network input / output unit receives a signal for starting control for setting a remote control code from the controller, the remote control code transmitting unit is configured to store the plurality of types of lighting devices stored in the remote control signal data storage unit. The lighting control device according to claim 1, wherein the remote control codes are sequentially transmitted from the remote control light emitting means. The remote control signal data stored in the remote control signal data storage means includes manufacturer information of a plurality of types of lighting equipment,
When the remote control code transmitting means receives the manufacturer information of the lighting equipment from the controller via the network input / output means, the received lighting equipment among the remote control signal data stored in the remote control signal data storage means The lighting control device according to claim 1, wherein remote control codes of manufacturers are selected and transmitted sequentially. The remote control signal data stored in the remote control signal data storage means includes model number information of a plurality of types of lighting equipment,
When the remote control code transmitting means receives the model number information of the lighting equipment from the controller via the network input / output means, the received lighting equipment among the remote control signal data stored in the remote control signal data storage means The illumination control device according to claim 1, wherein the remote control codes of the model numbers are selected and transmitted sequentially. The remote control signal data stored in the remote control signal data storage means includes model number information of a plurality of types of remote controls,
When the remote control code transmitting means receives the remote controller model number information from the controller via the network input / output means, out of the remote control signal data stored in the remote control signal data storage means, the received remote controller model number The lighting control device according to claim 1, wherein the remote control codes are selected and transmitted sequentially. Remote control code setting detection means for detecting whether or not a remote control code is set in the remote control code setting storage means when the power of the lighting control device is input,
When it is detected by the remote control code setting detection means that no remote control code is set in the remote control code setting storage means, the remote control code transmission means is the plurality of types stored in the remote control signal data storage means. The lighting control device according to claim 1, wherein a remote control code of the lighting device is sequentially transmitted from the remote control light emitting means.

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