TWM493260U - Lighting control system - Google Patents

Description

Lighting control system

The present invention relates to a lighting control system, and more particularly to a lighting control system having a control unit that produces a light change in a twenty-four hour sequence.

It is known that living organisms need to cooperate with the natural environment of the sunrise and the natural environment to grow healthily. In general, the artificial environment (eg, aquarium) does not normally turn on the lights during the day. When the user is off work, that is, at night, the lights are turned on for convenience. In this way, since the illumination time is controlled according to human preference, it is easy to cause disorder of the physiological clock of the organism, and the growth state is abnormal.

Accordingly, it is an object of the present invention to provide a lighting control system that improves the deficiencies of the prior art.

Therefore, in some implementations, the lighting control system includes an input device, a driving module, a timing unit, a storage unit, and a color changing lamp.

The timing unit is controlled to turn on the timing function; the storage unit records Recording a plurality of time points having a certain order and having a time interval and color data corresponding to each time point, and each time point corresponds to a different time within twenty-four hours; the driving module is electrically connected to the The timing unit, the storage unit and the input device, when detecting that the input device is triggered, start the timing function of the timing unit to start timing, and subsequently output the corresponding color to the different time points after the timing reaches the time interval. Data, and after 24 hours, restart the timing to re-sequence output color data corresponding to different time points; the color changing lamp is electrically connected to the driving module, and corresponding output is generated according to the color data driven by the driving module. The color of the color data changes.

In some implementations, the input device includes a start button And a control point group for a moment, the time point control key group has a plurality of time point control keys corresponding to the respective time points for the driving module to detect that the function key of the start key is matched with any one of the time points is pressed, The driving module simultaneously controls the light change of the color changing lamp according to the time point of the pressed function key and starts the timing function of the timing unit to start the timing function and start from the time point of the pressed function key. The color data is output corresponding to different time points.

In some implementations, the input device further includes a demo After the button is pressed, the driver module is controlled to be pressed, so that the driving module sequentially controls the light change of the color changing lamp without time interval corresponding to different time points.

In some implementations, the input device further includes a simulation Key group, which represents a cloudy day, lightning, sunny or night Most of the keys of the natural phenomenon are detected by the driving module to cause the driving module to control the light change of the color changing lamp according to the natural phenomenon represented by the pressed button.

In some implementations, the input device further includes a color mixture The key group, the color mixing key group having a plurality of keys respectively representing different primary colors providing the driving module to detect that the driving module controls the light change of the color changing lamp.

In some implementations, the input device further includes one Representing a plurality of buttons for increasing or decreasing the intensity of different primary colors for the driving module to detect, so that the driving module controls the color change of the color changing lamp according to the pressed key output corresponding to increasing or decreasing the intensity of the different primary colors. .

In some implementations, the input device further includes a custom The key group has a plurality of buttons respectively representing different user-customized different color data for the driving module to detect to enable the driving module to control the light change of the color changing lamp.

The effect of the novel is: matching the timing list through the input device The related control function of the element and the driving module allows the color changing lamp to automatically restart the timing after every twenty-four hours and sequentially output the coloring data corresponding to different time points to simulate the natural light changes, and without manual control by automatic control Light can also save time and effort.

1‧‧‧Input device

11‧‧‧Control unit

12‧‧‧ memory unit

13‧‧‧Wireless transmitter

2‧‧‧Lights

20‧‧‧Drive Module

21‧‧‧Color changing lamp

22‧‧‧Wireless transmission unit

23‧‧‧ storage unit

24‧‧‧Microprocessor

25‧‧‧Drive circuit

26‧‧‧Time unit

3‧‧‧Operator panel

31‧‧‧Start button

311‧‧‧demo button

32‧‧‧simulation key group

33‧‧‧Colored key group

34‧‧‧Custom Key Group

4‧‧‧ hour control key group

41‧‧‧First function key

42‧‧‧Second function key

43‧‧‧ Third function key

44‧‧‧ fourth function key

45‧‧‧ fifth function key

46‧‧‧ sixth function key

47‧‧‧ seventh function key

48‧‧‧ eighth function key

Other features and effects of the present invention will be apparent from the detailed description of the embodiments referring to the drawings, wherein: 1 is a system block diagram illustrating an embodiment of the prior art lighting control system; and FIG. 2 is a flow diagram illustrating an embodiment of an operation panel of the novel lighting control system.

Referring to Figure 1, in an embodiment of the novel lighting control system, the lighting control system is applied to an aquarium (not shown). However, it is known to those skilled in the art that an environment such as a culture tank or an ecological tank that is required to control the growth state of a living organism or to simulate a daylight change state of the day can be applied without being limited by the aquarium.

The lighting control system comprises an input device 1 and a luminaire 2, and the luminaire 2 is controlled by the input device 1 to change its color change.

In this embodiment, the input device 1 is a remote control device, and has a control unit 11, a memory unit 12, a wireless transmitter 13, and an operation panel 3.

The memory unit 12 records relevant instructions for controlling the color change of the lamp 2 corresponding to the different buttons. The control unit 11 is electrically connected to the memory unit 12, the wireless transmitter 13 and the operation panel 3. When any button of the operation panel 3 is triggered, the control unit corresponding to the triggered button is obtained from the memory unit 12, and the wireless control is controlled. The transmitter 13 sends a control command corresponding to the triggered button to the luminaire 2 for remote control.

The luminaire 2 receives the color grading data output by the wireless transmitter 13 , and the luminaire 2 includes a driving module 20 , a plurality of color changing lamps 21 , a wireless transmission unit 22 and a storage unit 23 , wherein the driving module 20 includes a micro processing The device 24 has a plurality of sets of driving circuits 25 corresponding to the number of the color changing lamps 21, and a timing unit 26.

Each color changing lamp 21 has a plurality of colors (eg, red, green, Blue, white) A light-emitting diode (LED) component that can be controlled to change color. The microprocessor 24 stores a control signal for outputting a voltage or current corresponding to the control command of each of the color changing lamps 21 to the driving circuit 25 according to the storage unit 23. The driving circuit 25 amplifies the control signal outputted by the microprocessor 24 by using an amplification crystal such as a BJT or a FET. The different input power generated by the control signal drives the color change lamp 21 to produce different color changes.

In this embodiment, the storage unit 23 records in a certain order and There are multiple time points of a time interval (for example, 3 hours) and color data corresponding to each time point, and each time point corresponds to different time within twenty-four hours. The timing unit 26 is controlled by the microprocessor 24 to turn on the timing function, and the timing function is stopped only when the power is turned off.

Referring to Figure 2, and with Figure 1, the operation panel 3 has a start The key 31, a demo button 311, a momentary control key group 4, an analog key group 32, a color mixing key group 33, and a custom key group 34.

When the start button 31 of the operation panel 3 is pressed, the luminaire 2 The microprocessor 24 receives the control command from the input device 1 by the wireless transmission unit 22, that is, starts the timing function of the timing unit 26 to start timing, and sequentially outputs the corresponding time points after the timing reaches the time interval. The color data is read, and after twenty-four hours, the timing is restarted to re-sequence output different coloring data corresponding to different time points, so that the color changing lamp 21 produces different color changes.

The time point control key group 4 has a plurality of corresponding time points respectively The time control button includes a first function key 41 representing 12 o'clock in the morning, a second function key 42 representing 3 o'clock in the morning, a third function key 43 representing 6 o'clock in the morning, and a fourth function key representing 9 o'clock in the morning. The function key 44, a fifth function key 45 representing 12 noon, a sixth function key 46 representing 3 o'clock in the afternoon, a seventh function key 47 representing 6 o'clock in the afternoon, and an eighth function key representing 9 o'clock in the evening. 48, and the time control keys 41 to 48 are arranged in a ring shape on the operation panel 3 in time series.

When the luminaire 2 detects the start button 31 and any of the time points After the function key is pressed, the light change of the luminaire 2 is controlled according to the time point of the pressed function key, and the timing function of the timing unit 26 is started to start the chronograph function, and the output is corresponding after the time reaches the time interval. Another coloring data for the next time point.

For example, after the start button 31 and the fourth function button 44 are pressed, The output corresponds to the color data of 9:00 am and starts the timing function of the timing unit 26 to start the timing function, and after the time reaches the time interval, that is, at 12 noon, the output corresponds to another tone representing 12 noon. Color data, then in order to 3 pm → 6 pm → 9 pm → 12 am → 3 am → 6 am, repeated according to the time series.

The demo button 311 is such that the luminaire 2 is sequentially separated without time interval. The color data corresponding to different time points is output. This allows the user to quickly see the light changes at different points in time.

The analog key group 32 has multiple representations of different natural phenomena, respectively. Number of buttons, natural phenomena such as: cloudy, lightning, sunny and night, is The luminaire 2 outputs the corresponding color data of cloudy, lightning, sunny, and night according to the natural phenomenon represented by the pressed button. Take lightning as an example, first, red light, 100% green light, 100% blue light, 100% white light, 100% flash, second pause, then red light, 100% green light, 100% blue light, 100% white light, 100% flash, once, return to red light. 40% green light 40% blue light 40% white light 0% wait for 8 seconds and then repeat the above procedure. However, this procedure is only one of the examples illustrating the embodiments, and other changes in the intensity of the light, which are similar to the simulation of the natural phenomenon, are also within the scope of application of the present invention.

The color mixing key group 33 has a plurality of keys respectively representing different primary colors. The primary colors include white, red, blue, and green, so that the luminaire 2 controls the light changes of the luminaire 2 according to the white, red, blue, and green colors represented by the pressed buttons.

In addition, the color combination key group 33 also has an increase or decrease respectively. Most of the keys of different primary color intensities are the color data of the lamp 2 corresponding to increasing or decreasing the intensity of different primary colors according to the pressed key output.

In some implementations, the custom key set 34 has separate generations The table stores a plurality of buttons of different color data customized by the user, so that the lamp 2 adjusts the light changes according to different color data customized by the user.

In summary, the timing unit 26 is coupled to the input device 1 and The relevant control function of the driving module 20 allows the color changing lamp 21 to automatically restart the timing after twenty-four hours and sequentially output the color grading data corresponding to different time points, simulating the natural light change, and without manual control by automatic control. Light can also save time and effort, so it can achieve the purpose of this new type.

However, the above is only an embodiment of the present invention, when The scope of the novel implementation is not limited thereto, that is, the simple equivalent changes and modifications made by the present invention in the scope of the patent application and the contents of the patent specification are still within the scope of the present patent.

1‧‧‧Input device

11‧‧‧Control unit

12‧‧‧ memory unit

13‧‧‧Wireless transmitter

2‧‧‧Lights

20‧‧‧Drive Module

21‧‧‧Color changing lamp

22‧‧‧Wireless transmission unit

23‧‧‧ storage unit

24‧‧‧Microprocessor

25‧‧‧Drive circuit

26‧‧‧Time unit

3‧‧‧Operator panel

Claims (9)

A lighting control system comprising: a timing unit, a controlled on-time function; a storage unit, recording a plurality of time points having a certain order and having a time interval respectively, and corresponding to each of the time points, and each of the The time points respectively correspond to different times within twenty-four hours; an input device is provided for the user to operate; a driving module is electrically connected to the timing unit, the storage unit and the input device to detect that the input device is triggered The timing function of the timing unit is started to start timing, and the coloring data corresponding to different time points is sequentially output after the time reaches the time interval, and the timing is restarted after twenty-four hours to re-sequence corresponding to different time points. And outputting the color data; and a color changing lamp, electrically connecting the driving module, and generating a light change corresponding to the output color data according to the color data output by the driving module. The lighting control system of claim 1, wherein the input device comprises a start button and a time control key group, wherein the time point control key group has a plurality of time point control keys respectively corresponding to the time points for the drive mode The group detects that the start button is pressed with the function button at any one of the time points, and then causes the drive module to simultaneously control the light change of the color change lamp according to the time point of the pressed function key and start the timing unit. The chronograph function starts the chronograph function and outputs the gradation data sequentially corresponding to different time points from the time point of the pressed function key. The lighting control system of claim 2, wherein the isochronous control keys are arranged in a ring in a time sequence on an operation panel. The lighting control system of claim 2, wherein the input device further comprises a demo button, wherein the demo button is configured to detect that the driver module is pressed, and the driver module sequentially corresponds to different time points without time interval Instantly control the light changes of the color changing lamp. The lighting control system of claim 2, wherein the input device further comprises an analog key group having a plurality of keys representing natural phenomena of cloudy, lightning, sunny or night, respectively, for the driving module to detect It is known that the driving module controls the light change of the color changing lamp according to the natural phenomenon represented by the pressed button. The lighting control system of claim 2, wherein the input device further comprises a color mixing key group, wherein the color mixing key group has a plurality of buttons respectively representing different primary colors for the driving module to detect to enable the driving module to control the The light of the color changing lamp changes. The lighting control system of claim 6, wherein the input device further comprises a plurality of buttons respectively representing increasing or decreasing intensity of different primary colors for the driving module to detect to cause the driving module to be pressed according to the pressed button. The color change corresponding to the intensity of the different primary colors is increased or decreased to control the change of the light of the color change lamp. The lighting control system of claim 2, wherein the input device further comprises a custom key set having a plurality of keys respectively representing different user-customized different color data for the driving module The detection is such that the drive module controls the change of the light of the color change lamp. A lighting control system according to any one of claims 1 to 8, which is applied to an aquarium, a culture tank or an ecological tank.