• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A lighting device (2) comprises a lighting module (21), a storage module (22) storing sets of light data respectively corresponding to successive time points of a cycle period, and a unit of light. treatment (25). In a routine mode, the processing unit (25) controls the lighting module (21) to emit light and to successively change the color of the light at successive time points of the cycle period. In a setting mode, the processing unit (25) reads from the storage device (22) a set of light data corresponding to the time point indicated by a time signal from an input device (1). , adjusts the light data set in accordance with a color signal from the input device (1), and controls the light module (21) to emit light based on the data set of light adjusted.
    公开号:FR3064719A3
    申请号:FR1762084
    申请日:2017-12-13
    公开日:2018-10-05
    发明作者:Wei Chang
    申请人:Wei Chang;
    IPC主号:
    专利说明:

    LIGHTING SYSTEM
    The disclosure relates to a lighting system, and more particularly to a lighting system capable of successively changing the color of the light emitted by it during a cycle period.
    The biological rhythms of organisms may be related to exposure to light. A conventional lighting system for an aquarium can work not to emit light during the day and to emit light only after dark, in order to better enhance the aquarium. However, the lighting time of the aquarium is controlled by a user's operation, which can vary daily and disrupt the biological rhythms of living creatures in the aquarium, affecting their growth.
    Therefore, an object of the disclosure is to provide a lighting system that can overcome the disadvantage of the prior art.
    According to the disclosure, the lighting system comprises an input device and a lighting device.
    The input device can be operated to transmit a color signal and a time signal. The time signal indicates a particular time point of successive time points of a cycle period. The time points are arranged in a predetermined order and are spaced from each other by a predetermined interval.
    The lighting device is coupled to the input device to receive the time signal and the color signal. The lighting device comprises a lighting module, a storage module and a processing unit. The lighting module is configured to emit light. The storage module is configured to store a plurality of sets of light data corresponding to the time points, respectively. Each of the sets of light data indicates a color. The processing unit is electrically connected to the lighting module and the storage module and is configured to operate in one of a routine mode and a setting mode. The processing unit is configured, when operating in routine mode, to control the illumination module to emit light and change the color of the light emitted by the illumination module at each of the points time to take a color indicated by one of the sets of light data that corresponds to the time point, so that the color of the light is successively modified to take different colors at the time points in the predetermined order. The processing unit is configured, when the processing unit is operating in setting mode, to read from the storage device one of the sets of light data corresponding to one of the time points which is indicated by the time signal received from the input device, for setting one of the sets of light data read from the storage device in accordance with the color signal received from the input device, and for controlling the module of lighting to emit light on the basis of one of the sets of light data that has been set. Other features and advantages of disclosure will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, of which:
    Figure 1 shows a block diagram illustrating an embodiment of the lighting system according to the disclosure;
    Figure 2 shows a schematic view of the embodiment of the lighting system;
    Figure 3 is a schematic view of an exemplary input device of the lighting system according to the embodiment of the disclosure.
    With reference to Figures 1 and 2, an embodiment of a lighting system 100 according to the disclosure comprises an input device 1 and a lighting device 2. In the embodiment, the lighting device 2 can be used in an artificial ecosystem, for example, an aquarium 9, but is not limited thereto.
    The input device 1 is coupled to the lighting device 2 and must be actuated by a user. In the embodiment, the input device 1 is a remote control, and includes an on / off button 10 (see Figure 3), a control panel 11, a transmitter 12 and a control module 13 which is electrically connected to the control panel 11 and the transmitter 12. The on / off button 10 can be actuated to allow the control module 13 to transmit a supply signal through the transmitter 12 to the lighting device 2 of the so that the lighting device 2 switches between a running state and a stop state upon receiving the power signal. In the embodiment, the transmitter 12 is an infrared transmitter, but is not limited thereto. In one embodiment, the input device 1 may be a portable electronic device, for example a smartphone or tablet, coupled to the screeper 2. The control module 13 is configured to control the device. transmitter 12 for transmitting signals in response to an operation performed on the control panel 11. In the embodiment, the control module 13 may be a microprocessor, but is not limited thereto.
    Referring to Figure 3, the control panel 11 includes a set of setup keys 111, a set of time keys 112, and a set of setup keys 113. The set of setup keys 111 includes a mode key of setting (111a), a confirmation key (111b) and a function key (111c).
    In particular, the adjustment mode key (111a) can be actuated by a user operation (eg click or press) to allow the control module 13 to transmit a control signal through the transmitter The confirmation key (111b) can be actuated by a user's operation (for example, click or press) to enable the control module 13 to transmit a confirmation signal by the user. The function key (111c) can be actuated by a user's operation in a first way to enable the control module 13 to transmit a cancel signal by via the transmitter 12 to the lighting device 2, and can be actuated by a user's operation in a second way which is different from the first way to allow the modul 13 in the embodiment, the user's operation of the first way is to hold the function key (111c) pressed for 3 seconds, and the user's operation in the second way is to hold down the function key (111c) for 1 second. It should be noted that the user's operations in the first and second ways are not limited to the foregoing descriptions. The time-key set 112 includes a plurality of time-point keys (112a, 112a ') and a review mode key (112b). Each of the time point keys (112a, 112a ') corresponds to a respective time point of time points, and can be actuated by a user's operation to allow the control module 13 to transmit a time signal indicating the respective time point. time points via the transmitter 12 to the lighting device 2. In the embodiment, the time points are OOhOO, 3:00, 6:00, 9:00, 12:00, 15:00, 18:00 and 21:00, and the point keys time (112a, 112a ') are marked with the time points respectively. The review mode key (112b) may be actuated by a user operation to enable the control module 13 to transmit a review signal through the transmitter 12 to the lighting device 2. The set of adjustment keys 113 may be actuated by a user operation to enable the control module 13 to transmit a color signal indicating a particular color through the transmitter 12 to the lighting device 2. In In the embodiment, the set of adjustment keys 113 comprises a plurality of keys, for example, four keys that can be actuated to allow the control module 13 to transmit respectively the color signals which indicate the red, the green, blue and white, respectively (for example, the key (113a) corresponding to the blue light and the key (113c) corresponding to the red light represented by in Figure 3), four keys each operable by a user's operation to allow the control module 13 to transmit the color signal which indicates an increase in the intensity of a respective one of the red lights. , green, blue and white (for example, the key (113b) indicating an increase in the intensity of red light), and four keys that can each be actuated by a user's operation to allow the control module 13 to transmitting the color signal which indicates a decrease in the voltage of a respective light among the red, green, blue and white lights. The set of adjustment keys 113 further comprises four keys which are marked with M1, M2, M3 and M4, respectively, and which can be actuated by an operation of the user to enable the control module 13 to transmit respectively the keys. color signals that indicate four previously customized colors, respectively.
    With reference to FIGS. 1 and 2, the lighting device 2 comprises a lighting module 21, a storage module 22, a receiver 23, a notification module 24, and a processing unit 25 electrically connected to the light module. lighting 21, storage module 22, receiver 23 and notification module 24.
    In particular, the lighting module 21 is configured to emit light. In the embodiment, the lighting module 21 has four light-emitting diodes (LEDs) that can emit white light, blue light, red light, and green light, respectively. The lighting module 21 can be controlled by the processing unit 25 to emit a mixture of different proportions of white, blue, red and green lights.
    The storage module 22 is configured to store sets of light data corresponding to the time points, respectively. Each of the sets of light data indicates a color. The time points are successive time points in a cycle period, arranged in a predetermined order and spaced from each other by a predetermined interval. In the embodiment, the storage element may be a flash memory, but is not limited thereto. Also, in the embodiment, the cycle period has a duration of twenty-four hours and the predetermined interval has a duration of three hours. Thus, the time points are midnight, three in the morning, six in the morning, nine in the morning, noon, three in the afternoon, six in the evening, and nine in the evening. It should be noted that the disclosure is not limited to the embodiment.
    The receiver 23 is an infrared receiver in the embodiment, but is not limited thereto. Further, in the embodiment, the input device 1 transmits signals, for example the control signal, the color signal, the time signal, etc., by means of the transmitter 12 so that the device In one embodiment, the transmitter 12 and the receiver 23 can transmit and receive the signals using other wireless communication protocols, such as Wi-Fi. Fi ™ and Bluetooth®. The processing unit 25 is configured to operate in one of a routine mode, an adjustment mode, a review mode and a manual mode. In the embodiment, the processing unit 25 may be a microprocessor, but is not limited thereto. The following description explains how the processing unit switches between these modes. The processing unit 25 is configured so that, when operating in routine mode, the processing unit 25 switches to operation in the adjustment mode, the review mode and the manual mode when the signal is received. control, the revision signal and the color signal respectively. The processing unit 25 is configured so that, when operating in adjustment mode or revision mode, the processing unit 25 switches to routine mode operation upon receipt of the control signal or the signal of revision. The processing unit 25 is configured so that, when operating in manual mode, the processing unit 25 switches to operation in the adjustment mode and the review mode when receiving the control signal and the control signal. revision, respectively.
    In particular, during operation in routine mode, the processing unit 25 controls the lighting module 21 to emit light and modify the color of the light emitted by the lighting module 21 at each of the time points for take a color indicated by one of the sets of light data which corresponds to the time point, so that the color of the light is successively modified to take different colors at the time points in the predetermined order in the cycle period. However, it should be noted that in the embodiment, when operating in routine mode, the processing unit 25 controls the lighting module 21 to emit light throughout the twenty-four cycle period. hours, and to change the color of the light emitted by the illumination module 21 from a color corresponding to a current time point of the time points to a color corresponding to a time point according to time points every three hours. For example, assuming that one of the light data sets that corresponds to nine o'clock in the morning (9:00) indicates blue, and another set of light data sets that corresponds to 12:00 (12:00) indicates red, when the processing unit 25 is operating in routine mode, the processing unit 25 controls the lighting module 21 to emit blue light at 9:00, then gradually decreasing the intensity of the blue light and gradually increasing the intensity of the light. the intensity of the red light, so that the color of the light emitted by the lighting module 21 turns red at 12:00.
    In operation in the setting mode, the processing unit 25 reads from the storage device 22 one of the sets of light data corresponding to one of the time points which is indicated by the time signal received from the input device 1, adjusts one of the light data sets read from the storage device 22 in accordance with the received color signal from the input device 1, and stores one of the light data sets which has been set in the storage module 22. More precisely, when operating in setting mode, the processing unit 25, when receiving the time signal from the input device 1, reads one of the sets of light data corresponding to one of the time points indicated by the time signal (hereinafter referred to as the selected time point) from the storage device 22. Then, upon reception of the signal d From the input device 1, the processing unit 25 adjusts one of the light data sets read from the storage device 22 (hereinafter referred to as the light data set read) to indicate the particular color indicated by the color signal, and at the same time controls the illumination module 21 to emit light with the particular color on the basis of one of the sets of light data that has been set (referred to as -after set of light data set). Finally, the processing unit 25 stores the set of light data set in the storage module 22 in response to receipt of the confirmation signal. In one embodiment, the processing unit 25 may be configured to store the set of light data set in the storage module 22 without receiving the confirmation signal. Further, during operation in the setting mode, the processing unit 25 controls, in response to the reception of the demonstration signal, the lighting module 21 for continuously emitting light and for changing the color of the light. successively to take different colors indicated by the sets of light data in an order corresponding to the predetermined order for a duration of demonstration which is shorter than the predetermined interval, where the demonstration time is thirty seconds in the mode of production. In addition, prior to adjusting the read light data set, the processing unit 25 temporarily stores the read light data set in a temporary storage element (not shown) as an original version of that -this. Therefore, during operation in the setting mode, the processing unit 25 stores the original version of the light data set thus read in the storage module 22 in response to the reception of the cancellation signal.
    During operation in revision mode, the processing unit 25 reads, upon reception of the time signal, one of the sets of light data which corresponds to the selected time point, and controls the lighting module 21 to transmit of light with the color indicated by the light data set thus read. For example, when the processing unit 25 operates in revision mode and the user actuates the time point key (112a ') (see Figure 3) which corresponds to 9:00, the input device 1 transmits the time signal indicating 9:00 to the lighting device 2, then the processing unit 25 controls the lighting module 21 to emit light with the color indicated by one of the sets of light data which corresponds to 9:00 for the user .
    When operating in manual mode, the processing unit 25 controls, upon reception of the color signal, the lighting module 21 to emit light with the particular color indicated by the color signal (hereinafter referred to as the color signal). selected color). For example, with reference to FIGS. 1 and 3, when the processing unit 25 operates in manual mode and the user actuates the key (113a) in the set of adjustment keys 113 which corresponds to the blue, the unit The processing unit 25 controls the lighting module 21 to continuously emit blue light until the processing unit 25 stops operating in manual mode.
    In the embodiment, the notification module 24 includes a pair of lighting elements 241 (see Figure 2), such as a white light LED and a blue light LED, but is not limited to previous example. The illumination elements 241 of the notification module 24 are configured to emit light with respective colors, and to output a notification which indicates the mode in which the processing unit 25 or operation is currently operating. processing unit 25 is currently performing in one of the aforementioned modes. Specifically, in the embodiment, the notification module 24 may output the blinking notification of the white light LED, blinking of the blue light LED or combinations thereof. For example, during operation in setting mode, the processing unit 25 controls the notification module 24 to output a first notification to indicate the setting mode, where the first notification is expressed by simultaneous flashing of the LED to white light and blue LED light. When operating in review mode, the processing unit 25 controls the notification module 24 to output a second notification to indicate the review mode, where the second notification is expressed by flashing the blue light LED while the white light LED is off. When operating in manual mode, the processing unit 25 controls the notification module 24 to output a third notification to indicate the manual mode, where the third notification is expressed by flashing the white light LED while the LED blue light is off. During operation in the setting mode, the processing unit 25 controls the notification module 24 to output a fourth notification to indicate the reception of the temporal signal from the input device 1 in response to said reception, where the fourth Notification is expressed by alternating flashing of the white-light LED and the blue-light LED.
    In practice, when the user actuates the on / off button 10 to put the lighting device 2 in the ON state, the processing unit 25 operates by default in routine mode. Therefore, when the processing unit 25 is operating in routine mode and the user actuates the setting mode key (111a), the processing unit 25 switches to operation in setting mode and controls the notification module 24 to output the first notification to indicate the setting mode. Then, if the user actuates the time point key (112a ') corresponding to 9:00, the processing unit 25 reads one of the sets of light data (i.e., the data set of light thus read) corresponding to 9:00 from the storage module 22 and command the notification module 24 to output the fourth notification to indicate the selection of one of the sets of light data which corresponds to 9:00. Then, if the user actuates the key (113b) to try to increase the intensity of a portion of red light in the light emitted by the lighting module 21, the processing unit 25 adjusts the set of light data thus read by increasing a value representing the intensity of the red light portion in the light data set thus read, and controls the lighting module 21 to emit light whose intensity of the part of Red light is increased based on the adjusted light data set. At this time, if the user wishes to inspect the designated colors at the respective time points, the user may actuate the function key (111c) in the second manner, so that the processing unit 25 controls the illumination module 21 to emit light with colors varying in the predetermined order based on the sets of light data for the duration of the demonstration, for example, thirty seconds. When the user confirms that all the colors corresponding to the respective time points have been correctly defined, the user should press the confirmation key (111b) so that the processing unit 25 stores the set (s) of light data set in the storage module 22. Otherwise, when the user wants to cancel all the changes made to the set (s) of light data, the user only has to press the key function (111c) in the first manner, for the processing unit 25 to store the original version of the set (s) of light data thus read back into the storage module 22.
    Then, the user can operate the adjustment mode key (111a), so that the processing unit 25 switches to routine mode operation.
    When the user wants to check one of the colors indicated by one of the sets of light data corresponding to a specific time point, the user must operate the review mode key (112b), so that the processing 25 proceeds to operation in review mode, and controls the notification module 24 to output the second notification indicating the review mode. The user can then operate, for example, the time point key (112a ') corresponding to 9:00, so that the processing unit 25 controls the lighting module 21 to emit light on the basis of one sets of light data corresponding to 9:00. When the user again activates the review mode key (112b), the processing unit 25 switches to routine mode operation, controls the lighting module 21 to emit light based on one of the sets of light data corresponding to a current time, and successively changes the color of the light emitted by the illumination module 21 in the predetermined order in the cycle period (twenty-four hours) on the basis of other sets of light data sets respectively corresponding to the following time points. It should be noted that the user is generally inclined to operate the time point key (112a or 112a ') corresponding to one of the time points which is closest to the current time. In the previous example, the user operates the time point key (112a ') around 9:00.
    In addition, when the user wants the lighting module 21 to emit light with a particular color, such as red, the user can operate the input device 1 to operate the processing unit 25 in the operating mode. routine and press the key (113c) of the set of adjustment keys 113, so that the processing unit 25 switches to operation in manual mode, controls the lighting module 21 to emit a red light and control the notification module 24 for outputting the third notification indicating the manual mode to the user.
    In summary, the illumination device 2 of the embodiment according to the disclosure can continuously emit light and change the color of the light successively on the basis of the light data sets in the predetermined order during the cycle period. . Therefore, the lighting device 2 can simulate a natural light whose color changes over time so that the disturbance of the biological rhythms of the organisms which are exposed to the light emitted by the lighting device 2 can be avoided, and the organisms can develop normally. In addition, by using the processing unit 25 to control the lighting module 21, the automation of the lighting system 100 according to the disclosure is performed and the lighting system 100 can be used with ease. In addition, the light data sets can be flexibly adjusted by operating the input device 1, so the lighting system 100 can be adopted for different uses and situations. In addition, because the notification module 24 outputs the notification which indicates in which mode the processing unit 25 operates, the user can be informed of the state of the lighting device 2.
    In the above description, for purposes of explanation, many specific details have been set forth in order to provide a thorough understanding of the embodiments. However, it will be apparent to those skilled in the art that one or more other embodiment (s) may be practiced without some of these specific details. It should also be noted that any reference throughout this specification to "one of the embodiments", "an embodiment", an embodiment with an indication of an ordinal number, and so forth means that a functionality, structure or particular feature may be included in the practice of disclosure. It should also be noted that in the description, various features are sometimes grouped into a single embodiment, a single figure, or a single associated description for the purpose of streamlining disclosure and assisting with the understanding of various inventive aspects. .
    Although the disclosure has been described in connection with what is considered exemplary embodiments, it is understood that this disclosure is not limited to the disclosed embodiments but is intended to cover various arrangements included in the spirit and the scope of the broadest interpretation so as to engulf all such modifications and equivalent arrangements.
    权利要求:
    Claims (14)
    [1" id="c-fr-0001]
    A lighting system (100) which is characterized by: an input device (1) operable to transmit a color signal which is associated with a color, and a time signal which indicates a particular time point of dots successive time periods of a cycle period, the time points being arranged in a predetermined order and spaced from each other by a predetermined interval; and a lighting device (2) coupled to said input device (1) for receiving the time signal and the color signal, and having a lighting module (21) which is configured to emit light, a a storage module (22) which is configured to store a plurality of sets of light data corresponding to the time points, respectively, each of the sets of light data indicating a color, and a processing unit (25) which is electrically connected said lighting module (21) and said storage module (22), and is configured to operate in one of a routine mode and an adjustment mode, characterized in that said processing unit (25) ) is configured, when operating in routine mode, to control said lighting module (21) to emit light and change the color of the light emitted by said lighting module (21) to each points temporally to take a color indicated by one of the sets of light data which corresponds to said time point, so that the color of the light is successively modified to take different colors at the time points in the predetermined order, characterized in that said processing unit (25) is configured, when operating in setting mode, to read from said storage device (22) one of the sets of light data corresponding to one of the specified time points. by the time signal received from said input device (1), for setting said one of the sets of light data read from said storage device (22) in accordance with the color signal received from said device input (1), and for controlling said lighting module (21) to emit light on the basis of said one of the sets of light data which has been adjusted .
    [2" id="c-fr-0002]
    2. The lighting system of claim 1, characterized in that said input device (1) comprises a control panel (11) which comprises a set of parameter keys (111), the set of parameter keys (111) having an adjustment mode key (111a) operable by a user operation to enable said input device (1) to transmit a control signal to said processing unit (25) of said device illumination (2), characterized in that said processing unit (25) is configured, when operating in routine mode, to switch to operation in setting mode upon receiving the control signal, and characterized in that said processing unit (25) is configured, when operating in setting mode, to switch to routine mode operation upon receipt of the control signal.
    [3" id="c-fr-0003]
    The lighting system of claim 2, characterized in that said control panel (11) further comprises: a set of time keys (112) having a plurality of time point keys (112a), each of said plurality of time keys (112), a time point (112a) corresponding to a respective time point of the time points and operable by an operation of the user to enable said input device (1) to transmit the time signal indicating the respective time point of the time points; and a set of adjustment keys (113) operable by a user operation to enable said input device (1) to transmit the color signal indicating a particular color, characterized in that said processing unit ( 25) is configured, when operating in the setting mode, for receiving the time signal from said input device (1), reading from said storage device (22) one of the sets of light data corresponding to one of the time points indicated by the time signal from said storage device (22), upon reception of the color signal from said input device (1), setting said one sets of light data read from said storage device (22) for indicating the particular color indicated by the color signal, and controlling said light module (21) to emit light with ec the particular color on the basis of said one of the sets of light data that has been set.
    [4" id="c-fr-0004]
    The lighting system of claim 2 or 3, characterized in that said set of setup keys (111) further comprises a confirmation key (111b) which can be operated by a user's operation to enable said auditing input device (1) for transmitting a confirmation signal, characterized in that said processing unit (25) is configured, when operating in setting mode, to store said one of the sets of light data which was set in said storage module (22) in response to receipt of the confirmation signal.
    [5" id="c-fr-0005]
    The lighting system of any one of claims 2 to 4, characterized in that said set of setting keys (111) further comprises a function key (111c) which can be actuated by an operation of the in a first way to enable said input device (1) to transmit a cancellation signal, characterized in that said processing unit (25) is configured, when operating in setting mode, to store a original version of said one of the light data sets without being set in said storage module (22) in response to receipt of the cancellation signal.
    [6" id="c-fr-0006]
    The illumination system of claim 5, characterized in that said function key (111c) may further be actuated by a user's operation in a second manner to enable said input device (1) to transmitting a demonstration signal, the second way being different from the first way, characterized in that said processing unit (25) is configured, when operating in adjustment mode, to control, in response to the reception of the signal of demonstration, said illumination module (21) for emitting light and changing the color of the light emitted by said illumination module (21) successively to take different colors indicated by the sets of light data in an order corresponding to the predetermined order during a demonstration period that is shorter than the predetermined interval.
    [7" id="c-fr-0007]
    The lighting system of any one of claims 1 to 6, characterized in that said lighting device (2) further comprises a notification module (24) electrically connected to said processing unit (25), characterized in that said processing unit (25) is further configured, when operating in setting mode, to control said notification module (24) to output a notification to indicate the setting mode.
    [8" id="c-fr-0008]
    The lighting system of claim 7, characterized in that said processing unit (25) is further configured to operate in a review mode, characterized in that said processing unit (25) is configured, when it operates in revision mode, for reading, when receiving the time signal, one of the sets of light data corresponding to one of the time points indicated by the time signal, for controlling said lighting module ( 21) for emitting light with the color indicated by said one of the light data sets, and for controlling said notification module (24) to output a notification to indicate the review mode.
    [9" id="c-fr-0009]
    The lighting system of claim 7 or 8, characterized in that said processing unit (25) is further configured to operate in a manual mode, characterized in that said processing unit (25) is configured, when it operates in manual mode, for controlling, upon reception of the color signal, said lighting module (21) for emitting light with a color indicated by the color signal, and for controlling said light source module; notification (24) to output a notification to indicate the manual mode.
    [10" id="c-fr-0010]
    The illumination system of claim 9, characterized in that said input device (1) is further operable by an operation of the user for transmitting a control signal to said processing unit (25), characterized in that said processing unit (25) is configured, when operating in routine mode, to switch to setting mode operation upon receipt of the control signal, characterized in that said processing unit (25) ) is configured, when operating in setting mode, to switch to routine mode operation upon receipt of the control signal, characterized in that said processing unit (25) is configured, when operating in routine, to switch to operation in manual mode upon receiving the color signal, characterized in that said processing unit (25) is configured, when operating in the manual mode l, to switch to operation in setting mode when receiving the control signal.
    [11" id="c-fr-0011]
    11. Lighting system according to any one of claims 7 to 10, characterized in that said processing unit (25) is configured, when operating in adjustment mode, to further control, when receiving the time signal, said notification module (24) for outputting a notification to indicate receipt of the time signal from the input device (1).
    [12" id="c-fr-0012]
    The lighting system of any one of claims 7 to 11, characterized in that said notification module (24) has a plurality of lighting elements (241) configured to emit light with different colors. respectively.
    [13" id="c-fr-0013]
    13. Lighting system according to any one of claims 1 to 12, characterized in that said processing unit (25) is configured, when operating in routine mode, to control said lighting module (21). for changing the color of the light emitted by said lighting module (21) from a color corresponding to a current time point of the time points to a color corresponding to a time point according to time points.
    [14" id="c-fr-0014]
    14. Lighting system according to any one of claims 1 to 13, characterized in that the cycle period has a duration of twenty-four hours.
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    同族专利:
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    JP3213109U|2017-10-19|
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    US9955545B1|2018-04-24|
    引用文献:
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    法律状态:
    2018-10-18| PLFP| Fee payment|Year of fee payment: 2 |
    2019-10-03| PLFP| Fee payment|Year of fee payment: 3 |
    2020-11-20| PLFP| Fee payment|Year of fee payment: 4 |
    2021-09-24| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    TW106204556U|TWM544786U|2017-03-31|2017-03-31|Lighting control system|
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