TWI805923B - Control method and system for pre-writing passive light panel display conditions in cooperative mobile devices - Google Patents

Abstract

The present invention provides a control method and system for pre-writing the display conditions of passive light boards in cooperation with mobile devices, so as to pre-write the display status of passive light boards that have not obtained power drive, through the control application program loaded on the mobile device, use The user can input a brightness parameter and a color temperature parameter in its display interface. The brightness parameter and color temperature parameter are obtained by the control application program receiving the first operation gesture and the second operation gesture respectively, and the backlight of the mobile device is obtained through the control application program. The backlight adjustment unit changes the display brightness and display color temperature synchronously according to the first and second operation gestures, and stays at the display brightness of the corresponding brightness parameter after the brightness parameter is selected, and stays at the display of the corresponding color temperature parameter after the color temperature parameter is selected color temperature. Then move the mobile device close to the passive light board to form a near-field communication connection with the communication unit of the passive light board, and pre-write the brightness parameters and color temperature parameters into the microcontroller. Based on this, the preset operation of the display conditions can be carried out for the light boards that do not have electric drive, which effectively enables manufacturers to quickly and easily set the light boards after leaving the factory, and can meet the brightness parameters and specifications after the light boards are powered by electricity. The color temperature parameter conditions are displayed.

Description

Control method and system for pre-writing passive light panel display conditions in cooperative mobile devices

The present invention is related to the field of lighting products, especially a device that can quickly and conveniently perform display condition pre-writing actions on passive lamp boards that do not have electric drive, so as to facilitate the lamp board to automatically use the pre-set when it is subsequently powered by electricity. A control method and system for pre-writing the display conditions of the passive light panel with a coordinated action device that is convenient for manufacturers or lighting installers to adjust by setting the condition display.

LED is a very common light source choice nowadays, and it can be seen in all kinds of luminous products. LED light board is a related product derived from it. It is a circuit board assembled with multiple LED components made by the light board manufacturer. After the LED light board is manufactured, it can be combined with other necessary electrical components. It is assembled to form a lamp with a permanent element or component structure.

The luminous color temperature of early LED light panels cannot be changed. Therefore, for lighting manufacturers, when the market demand changes, the existing LED light panels will be unsalable, causing stockpiling problems. At the same time, lighting manufacturers must re-order products that meet the demand. LED light panels, one after another, invisibly cause many economic risks and losses. From the perspective of consumers, the LED lamps purchased are limited by the LED lamp panels that cannot change the color temperature, so they can only provide limited lighting modes, so they cannot meet the needs of factories or special lighting situations, causing inconvenience in use.

Then, in order to solve these problems, there are lighting products that can adjust the color temperature. However, the adjustment of this kind of lighting can only be carried out in the state of being powered on. For lighting manufacturers or interior decorators, it is impossible to meet end users. It is necessary to adjust the LED lamps to the appropriate state first. In other words, you must wait until all the lamps are positioned and powered on before you can adjust the settings and confirm the display status of the lamps. In this way, once it does not meet the needs, it has to be reinstalled one by one and repeat the previous steps; or it can only be arranged with a predetermined design drawing to arrange all the positions of the lamps and let the end user adjust them one by one. In other words, it causes a lot of inconvenience. On the other hand, the development of these lighting products has derived various complex and difficult-to-operate adjustment methods, such as the need to install additional complex control system equipment with high costs and specific usage methods, or purchase additional remote controls dedicated to each lighting fixture And when using it, it can only control the lamps that have been powered on one by one. For the user, it is good to be able to adjust the color temperature of the lamp, but if it cannot provide a more humanized operation plan, it will still bring trouble to the user during application. Come a lot of inconvenience.

In view of the many deficiencies and imperfections in the display state control of existing LED lamps, the inventor conceived and proposed a control method and system for pre-writing the display conditions of passive light boards with coordinated action devices, hoping to provide more excellent and convenient light control scheme.

One purpose of the present invention is to provide a control method and system for pre-writing the display conditions of the passive light panel with a coordinated action device, so as to perform the operation of pre-writing the display conditions for the passive light panel without electric drive, which is beneficial to the manufacturer Or the lighting installer can quickly and conveniently set the desired display state of the subsequent passive light board in advance during installation. When the passive light board is powered by electricity, it can immediately emit light according to the pre-written setting conditions, providing manufacturers with , luminaire installers and even end users a brand new light panel display control mode.

In order to achieve the above purpose, the present invention proposes a control method for pre-writing the display conditions of a passive light panel in a coordinated action device, comprising the following steps: providing at least one passive light panel, wherein the passive light panel is provided with a microcontroller and a communication unit 1. A first LED circuit and a second LED circuit, the microcontroller and the communication unit are electrically connected to each other; a control application program loaded on a mobile device is activated; a display interface of the control application program inputs a Brightness parameter, where the brightness parameter is the control The control application program receives a first operation gesture selection and obtains it, and the backlight source of the mobile device changes the display brightness synchronously according to the first operation gesture through a backlight adjustment unit of the control application program, and the brightness parameter is set After selection, stay at the display brightness corresponding to the brightness parameter; and input a color temperature parameter by the control application program, wherein the color temperature parameter is obtained after the control application program receives a second operation gesture selection, and the backlight of the mobile device The display color temperature is changed synchronously according to the second operation gesture through the backlight adjustment unit of the control application program, and stays at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected; and the mobile device is brought close to the passive Light board, make the mobile device and the communication unit form a near-field communication connection, so as to pre-write the brightness parameter and the color temperature parameter into the microcontroller; thereby display the status of the passive light board without power drive Pre-writing action, and after the passive light board is equipped with a driver electrically connected to the microcontroller, the first LED circuit and the second LED circuit, the microcontroller reads and calculates the brightness parameter and the color temperature parameter to form an execution command, and then transmit the execution command to the driver, so that the driver drives the first LED circuit and the second LED circuit according to the execution command, so that the display of the passive light board conforms to The brightness parameter and the color temperature parameter conditions. Accordingly, for the setter, through the mobile device, the operation method can be almost intuitive, and the information can be pre-written for the passive light board that is not powered on, thereby improving the convenience of lighting control, especially for indoor use. It also brings excellent setting and adjustment convenience to lighting installation workers, water and electricity workers, or interior decorators.

The present invention also proposes a control system for pre-writing the display conditions of the passive light panel in the coordinated action device, including: at least one passive light panel, equipped with a microcontroller, a communication unit, a first LED circuit and a second LED circuit, The microcontroller and the communication unit are electrically connected to each other; and a control application program loaded in a mobile device, the control application program includes a display interface and a backlight adjustment unit, the display interface and the backlight adjustment unit The units are telecommunications connected to each other, the display interface for The user inputs a brightness parameter and a color temperature parameter to the control application program, wherein the brightness parameter is obtained by the control application program receiving a first operation gesture selection, and the backlight adjustment unit makes the backlight adjustment unit according to the first operation gesture. The backlight of the mobile device changes its display brightness synchronously, and stays at the display brightness corresponding to the brightness parameter after the brightness parameter is selected; the color temperature parameter is obtained when the control application program receives a second operation gesture selection, and the backlight The source adjustment unit makes the backlight of the mobile device change its display color temperature synchronously according to the second operation gesture, and stays at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected; when the mobile device is close to the passive light board , the mobile device forms a near-field communication connection with the communication unit, so as to pre-write the brightness parameter and the color temperature parameter into the microcontroller; thereby pre-write the display status of the passive light board without power drive After the passive light board is equipped with a driver electrically connected to the microcontroller, the first LED circuit and the second LED circuit, the microcontroller reads and calculates the brightness parameter and The color temperature parameter forms an execution command, and then transmits the execution command to the driver, so that the driver drives the first LED circuit and the second LED circuit according to the execution command, and then makes the display of the passive light board conform to the brightness parameters and the color temperature parameter conditions.

Based on the aforementioned two embodiments, preferably, the first operation gesture is sliding up and down, and the second operation gesture is sliding left and right; or the first operation gesture is sliding left and right, and the second operation gesture is sliding up and down According to this, it is beneficial for the user to perform condition pre-writing setting through an intuitive and simple operation method.

In addition, in another embodiment, a plurality of brightness options and a plurality of color temperature options are set in the control application program for the user to select any one of the brightness options and any one of the color temperature options with the first operation gesture and the second operation gesture The color temperature option enables the control application program to obtain the brightness parameter and the color temperature parameter. Here, it is revealed that there are multiple brightness and color temperature options in the control application program in advance, so that users can quickly select the desired color temperature and brightness conditions. And a preferred embodiment is to make these The brightness options are 25%, 50%, 75% and 100%, and the color temperature options are 2700K, 3000K, 3500K, 4000K, 4500K and 5000K.

Further, after the brightness parameter and the color temperature parameter are pre-written into the microcontroller, the mobile device will send out a vibration prompt or a sound prompt, so that the user can immediately know whether the setting has been completed.

In order to provide users with simplified and easy-to-understand setting status information, the display interface can simultaneously display any of the brightness options and any of the color temperature options, and when the user uses the first operation gesture and the second operation gesture on the display interface, 2. When the operation gesture slides, the brightness option and the color temperature option are switched accordingly.

Further, when there are multiple passive lamp panels, the communication units of each passive lamp panel are connected to each other by telecommunication, so that after any one of the passive lamp panels is pre-written with the brightness parameter and the color temperature parameter, the brightness The parameter and the color temperature parameter are synchronously transmitted to the microcontrollers of the other passive lamp panels through the communication unit. Accordingly, after setting any of the passive light panels, these passive light panels can be automatically linked to achieve the effect of setting a single light panel to synchronize the light display conditions of all the light panels, and to obtain the effect of light infection. Set the effect.

In addition, preferably, the first LED circuit is provided with a plurality of first LEDs, the second LED circuit is provided with a plurality of second LEDs, the first LEDs and the second LEDs have different light colors, and The first LEDs and the second LEDs are respectively arranged in series, and the control method and system disclosed in the present invention can also perform pre-writing operations on passive lamp boards embedded with LEDs.

To sum up, the control method and system for pre-writing the display conditions of the passive light panel disclosed by the present invention can use the mobile device to quickly and simply write the desired display conditions in advance according to the demand and have not yet obtained power. Driven passive light panels, so for LED lighting manufacturers, indoor It can bring great convenience to interior lighting installers and even end users. Compared with the previous mechanism that only the powered-on lamp panels and lamps can receive control information to adjust the light output state, the present invention proposes a completely different control scheme, and accordingly effectively improves the convenience of light output control and speed are relatively simple in operation, which is beneficial for each user to quickly set according to the desired display state.

10:Passive light board

101: Microcontroller

102: Communication unit

103: The first LED circuit

1031: The first LED

104: Second LED circuit

1041:Second LED

11:Control application

111: display interface

112: Backlight adjustment unit

113: storage unit

114: Prompt unit

2:Mobile device

A: The first operation gesture

B: The second operation gesture

C: Brightness Options

D: Color temperature option

S01~S05: Steps

Fig. 1A is a flowchart (1) of method steps in a preferred embodiment of the present invention.

Fig. 1B is a flow chart (2) of method steps in a preferred embodiment of the present invention.

Fig. 2 is a schematic block diagram of a preferred embodiment of the present invention.

Fig. 3 is a schematic diagram of the operation of the control application program in the preferred embodiment of the present invention.

FIG. 4A is a schematic diagram (1) of the preferred embodiment of the present invention for selecting the brightness parameter by sliding with the first operation gesture on the display interface.

FIG. 4B is a schematic diagram (2) of the preferred embodiment of the present invention to select the brightness parameter by sliding with the first operation gesture on the display interface.

FIG. 5A is an operation schematic diagram (1) of selecting a color temperature parameter by sliding with a second operation gesture on a display interface according to a preferred embodiment of the present invention.

FIG. 5B is an operation diagram (2) of a preferred embodiment of the present invention in which a second operation gesture is used to slide on the display interface to select a color temperature parameter.

Fig. 6 is a schematic diagram of the operation of pre-writing the brightness parameters and color temperature parameters into the passive lamp panel in the preferred embodiment of the present invention.

Figure 7 is a schematic diagram of the operation and application of a preferred embodiment of the present invention when multiple passive lamp panels are provided (1).

Figure 8 is a schematic diagram of the operation and application of the preferred embodiment of the present invention when multiple passive lamp panels are provided (2).

Fig. 9 is a schematic block diagram of another embodiment of the preferred embodiment of the present invention.

As mentioned above, based on the lack of control of the light output state of the existing lighting products, in order to provide various users with more convenient control solutions, and can be applied to various usage scenarios, the inventor proposes a pre-written passive type of collaborative action device The method and system for controlling the display conditions of the light board, so that users of different orientations can quickly and easily perform pre-written display conditions on passive light boards that do not have power conduction. The display conditions can be written into the passive light board with power conduction, and when it is officially driven, the passive light board can have the corresponding light-emitting state according to the pre-written conditions. In this way, it is quite different from the previous technology that the lamp board must be set under the electric driving state, and through the control method and system of the present invention, the lamp board can be used for subsequent settings before it is made into a lamp or powered on. The display conditions can be set, and at the same time, the function of previewing the display status can be achieved through mobile devices such as mobile phones or tablet computers, which greatly improves the performance and convenience of the light board setting. The technical features of the present invention are described below. In order to enable those skilled in the art to clearly understand the content of the present invention, the following descriptions are combined with the drawings. Please refer to them. Please refer to Figures 1A, 1B, 2 and 3, which are flow charts (1) and (2) of the method steps of the preferred embodiment of the present invention, schematic block diagrams and schematic diagrams of the operation of the control application program. Here, the control method for pre-writing the display conditions of the passive light panel disclosed by the coordinated action device disclosed in the present invention will be described first.

The control method includes the following steps. First, at least one passive lamp panel 10 is provided, wherein the passive lamp panel 10 is provided with a microcontroller 101, a communication unit 102, a first LED circuit 103 and a second LED circuit 104, The microcontroller 101 and the communication unit 102 are electrically connected to each other (step S01 ). Wherein, the passive lamp board 10 refers to a circuit board without electric drive, on which the micro The controller 101 and the communication unit 102 are used as a medium for information transmission and storage, and the first LED circuit 103 and the second LED circuit 104 are used to set LEDs with different light colors, which will be described in detail later in this part. Note, of course, depending on application requirements, the passive light panel 10 can also be further provided with a third type of LED circuit and LEDs. Next, start a control application program 11 loaded on a mobile device 2 (step S02). After the control application program 11 is opened, a brightness parameter can be input from a display interface 111 of the control application program 11, wherein the brightness parameter is obtained when the control application program 11 receives a first operation gesture A selection, and the action The backlight of the device 2 changes the display brightness synchronously according to the first operation gesture A through the backlight adjustment unit 112 of the control application program 11, and stays at the display brightness corresponding to the brightness parameter after the brightness parameter is selected; And a color temperature parameter is input by the control application program 11, wherein the color temperature parameter is obtained after the control application program 11 receives a second operation gesture B selection, and the backlight of the mobile device 2 is obtained through the control application program 11 The backlight adjustment unit 112 changes the display color temperature synchronously according to the second operation gesture B, and stays at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected (step S03 ).

In addition to allowing various types of users to quickly pre-set the passive light panel 10 in the present invention, how to allow users to perform settings through a more intuitive input method is another design focus of the present invention. Preferably, the first operation gesture A is sliding up and down, and the second operation gesture B is sliding left and right, or the first operation gesture A is sliding left and right, and the second operation gesture B is sliding up and down Move, so that the user can select the brightness parameter and the color temperature parameter through a simple and intuitive sliding method. Here, the first operation gesture A is used to slide up and down, and the second operation gesture B is used to slide left and right. Move as an example.

Please continue to refer to Figures 4A~5B together, which are schematic diagrams (1) and (2) of the preferred embodiment of the present invention to select the brightness parameter by sliding the first operation gesture on the display interface. Schematic diagrams (1) and (2) of the operation of selecting the color temperature parameter by sliding with the second operation gesture on the display interface. Among them, in order to facilitate the illustration that the backlight of the mobile device 2 changes synchronously with the first operation gesture A and the second operation gesture B of the user, it is represented by the density difference of cross-hatching in Figures 4A and 4B. For the change of brightness, in Figures 5A and 5B, different hatching types are used to represent the change of color temperature, and the hand is only for illustration. More specifically, when the user wants to set, the display interface 111 uses the first operation gesture A to select and input the brightness parameter, and at the same time, according to the user's adjustment of the first operation gesture A, the mobile device 2 The brightness of the backlight will be changed synchronously through the backlight adjustment unit 112 to achieve the effect of previewing the setting results, so that the user can predict the brightness of the light emitted by the passive light panel 10 when it is driven after inputting a certain brightness parameter. state. For example, as shown in FIG. 4A, when the user slides upward with the first operation gesture A on the display interface 111, the display brightness of the backlight of the mobile device 2 will increase accordingly; otherwise, as shown in FIG. 4B As shown, when the user uses the first operation gesture A to slide down on the display interface 111, the display brightness of the backlight of the mobile device 2 will decrease accordingly.

Similarly, regarding the setting of the color temperature, the user inputs the color temperature parameter with the second operation gesture B through the display interface 111, and according to the second operation gesture B of the user, the backlight of the mobile device 2 will pass through The backlight adjustment unit 112 changes the displayed color temperature synchronously, which also allows the user to preview the input color temperature state, which is beneficial for the user to accurately adjust to the desired color temperature presentation. For example, as shown in FIG. 5A, when the user slides the second operation gesture B to the right on the display interface 111, the display color temperature of the backlight of the mobile device 2 will increase accordingly. Conversely, as shown in FIG. 5B As shown, when the user slides the second operation gesture B to the left on the display interface 111 , the display color temperature of the backlight of the mobile device 2 will decrease accordingly. When the brightness parameter and the color temperature parameter are selected, the backlight of the mobile device 2 will stay in the brightness and color temperature display state corresponding to the brightness parameter and the color temperature parameter, and the user can immediately The final setting confirmation can be made according to this, effectively assisting the user to quickly and accurately select the required lighting conditions.

After the user enters the brightness parameter and the color temperature parameter in the control application program 11, the mobile device 2 is brought close to the passive lamp panel 10, so that the mobile device 2 forms a near field communication connection with the communication unit 102, so that the brightness The parameter and the color temperature parameter are pre-written into the microcontroller 101 (step S04). Here, please refer to Figure 6 together, which is a schematic diagram of the operation of pre-writing the brightness parameters and color temperature parameters into the passive light panel in a preferred embodiment of the present invention. As shown in the figure, after the user has input the brightness parameters and the After the color temperature parameter is set, the display condition can be pre-written into the microcontroller 101 in the aforementioned steps only by putting the mobile device 2 close to the passive light panel 10 . In this way, the display state pre-writing operation is performed on the passive lamp board 10 that has not been driven by power, and the microcontroller 101, the first LED circuit 103 and the second LED circuit are installed on the passive lamp board 10 After 104 is electrically connected to a driver (not shown in the figure), the microcontroller 101 reads and calculates the brightness parameter and the color temperature parameter to form an execution command, and then transmits the execution command to the driver, so that The driver drives the first LED circuit 103 and the second LED circuit 104 according to the execution command, so that the display of the passive light panel 10 meets the conditions of the brightness parameter and the color temperature parameter (step S05 ). Through the aforementioned method steps, the brightness parameter and the color temperature parameter can be transmitted to the passive lamp panel 10 as the passive party through the form of near-field communication with the communication unit 102 by using the control application 11 as the active party. In this way, the passive lamp panel 10 can still receive the information of the brightness parameter and the color temperature parameter without being driven by electricity, so as to achieve the effect of pre-writing the display conditions for the passive lamp panel 10 not powered by electricity. After the driver is installed on the passive lamp panel 10 to obtain power supply, the microcontroller 101 can read and calculate the brightness parameter and the color temperature parameter to form the execution command, so that the driver drives the device according to the execution command. The first LED circuit 103 and the second LED circuit 104 make the passive lamp panel 10 emit light according to the pre-written display conditions. A preferred application state is the The microcontroller 101 stores the first luminous information corresponding to the first LED circuit 103 and the second luminous information corresponding to the second LED circuit 104. When the passive lamp panel 10 is powered, the microcontroller 101 is Combining the first luminous information, the second luminous information, the brightness parameter and the color temperature parameter to calculate, to know that when the passive lamp panel 10 is to be displayed under the conditions corresponding to the brightness parameter and the color temperature parameter, the first LED The conduction state of the circuit 103 and the second LED circuit 104 is based on the execution instruction, so that the driver can control the conduction state of the first LED circuit 103 and the second LED circuit 104 according to the execution instruction.

When it is possible to perform preset operations on the passive lamp panel 10 without electric drive, it can greatly improve the convenience of setting the lighting state for users of different orientations. For example, after the manufacturer purchases the passive light board 10, it can perform the aforementioned steps on the passive light board 10 according to the lighting display conditions required by the object to be shipped to complete the preset operation, and then assemble the driver to the passive light board 10 and assemble other necessary components to form a lighting product, it can be supplied to customers, and after the customer is powered on, the passive light panel 10 will be displayed with the pre-written brightness parameters and color temperature parameters . Or, another application scenario is that the passive light panel 10 has been assembled to form a lighting product. When there is an indoor environment where lighting fixtures are to be decorated and the lighting product with the passive light panel 10 is purchased from the manufacturer, the electrical installation The designer can install the lamps one by one at the predetermined position first, and pre-write the brightness parameter and the color temperature parameter to the passive lamp panel 10 in the lamp through the control application program 11 when the lamp is not connected to the mains. Inside the microcontroller 101 of the passive lamp panel 10 . Then install the driver on the lamp and connect it to the mains to make the passive lamp board 10 energized, and the passive lamp board 10 will present a light-emitting state that meets the pre-written display conditions. In addition to improving the convenience of setting, it also has relatively better safety for operators. However, it should be noted that the purpose and technology of the present invention is to pre-set the display conditions for the passive lamp panel 10 "without electric drive". Writing operation, whether it is the passive lamp panel 10 that has not yet been assembled to form a lamp, or the passive lamp panel 10 that has been initially assembled to form a lamp that does not have a power supply state, is the object that the present invention can implement.

In addition, please refer to Figures 3 to 5B again, the control application program 11 can freely adjust and select the required display conditions directly according to the first operation gesture A and the second operation gesture B of the user, or A plurality of brightness options C and a plurality of color temperature options D are set in the control application program 11 for the user to use the first operation gesture A and the second operation gesture B to select any of the brightness options C and any of the color temperature options. The color temperature option D enables the control application program 11 to obtain the brightness parameter and the color temperature parameter. Accordingly, the user can quickly select the brightness option C and the color temperature option D through the first operation gesture A and the second operation gesture B through the built-in option settings. Among them, preferably, the brightness options C are 25%, 50%, 75% and 100% respectively, and the color temperature options D are 2700K, 3000K, 3500K, 4000K, 4500K and 5000K respectively, and are more suitable for each The installation environment and the selection conditions that meet the lighting needs of general users.

Further, a preferred implementation state is that the display interface 111 is to simultaneously display any of the brightness options C and any of the color temperature options D, and when the user performs the first operation gesture A and the When the second operation gesture B slides, the brightness option C and the color temperature option D are switched accordingly, as shown in Figures 3 to 5B, that is, the display interface 111 displays a brightness option C and a color temperature option at the same time Option D. In this way, when the user manipulates the display interface 111 with the first gesture A, the brightness option C is switched accordingly; when the user manipulates the display interface 111 with the second gesture B, the color temperature option D is also switched accordingly. switch. Keeping the display interface 111 in the state of displaying only one brightness option C and one color temperature option D can make the display interface 111 more concise, so as to provide users with intuitive viewing and operation experience. And, in this implementation state, the backlight of the mobile device 2 can currently display the The brightness and color temperature states of the brightness option C and the color temperature option D of the display interface 111 are displayed, and when the brightness option C and the color temperature option D switch with the user gesture, the backlight display status of the mobile device 2 It will also change accordingly to achieve the effect of allowing users to preview the setting status.

In addition, preferably, after the user uses the mobile device 2 to set the desired brightness parameter and the color temperature parameter, the mobile device 2 approaches the passive light panel 10 to form a near field communication with the communication unit 102, and After the brightness parameter and the color temperature parameter are written into the microcontroller 101, the mobile device 2 will send a vibration prompt or a sound prompt, so that the user knows that the setting operation of the passive lamp panel 10 has been completed. In the embodiment, it is taken that the mobile device 2 will send out the vibration reminder as an example, as shown in FIG. 6 . It is particularly mentioned that in this embodiment, the vibrating prompt or the sound prompt is used to inform the user, based on the fact that the backlight of the mobile device 2 has followed the brightness parameter and the color temperature parameter set by the user. And display the corresponding brightness and color temperature, so the present invention adopts tactile or auditory means to achieve a quick and intuitive prompting effect, so that the user can know whether the passive lamp panel 10 has indeed been written into the brightness parameter and The color temperature parameter.

In practice, there may be an operation requirement to pre-write the display conditions for multiple passive lamp panels 10 at the same time. Of course, through the control application 11, the expected display conditions can be quickly and accurately written into each of the passive lamp panels. Inside the microcontroller 101 of the light board 10 . Furthermore, the present invention also provides a better technical solution to improve the setting efficiency in this case. Please also refer to Figures 7 and 8, which are when multiple passive lamp panels are provided in the preferred embodiment of the present invention. Schematic diagram of the operation and application (1), (2). When the passive lamp board 10 is provided in plural, the communication unit 102 of each passive lamp board 10 is connected to each other by telecommunication, so that after any one of the passive lamp boards 10 is pre-written with the brightness parameter and the color temperature parameter, the The brightness parameter and the color temperature parameter are synchronously transmitted to the microcontroller 101 of the remaining passive lamp board 10 through the communication unit 102 . Accordingly, when there are multiple passive lamp panels 10 that need to be set, only the Any one of the passive lamp panels 10 writes the brightness parameter and the color temperature parameter. After each passive lamp panel 10 is driven by power, the passive lamp panel 10 whose display conditions are pre-written can automatically pass through the communication unit 102 The brightness parameter and the color temperature parameter are transmitted to other passive lamp panels 10 synchronously, so as to achieve an infectious lighting and luminous effect, which effectively saves the time required by the user for setting, and at the same time allows each passive lamp to The panels 10 have the same light emitting state. For example, a preferred implementation state is that after the passive lamp board 10 is provided with a driver and obtains power supply, the microcontroller 101 will first confirm whether the passive lamp board 10 is activated in the non-energized state. After the brightness parameter and the color temperature parameter are set, the time when the brightness parameter and the color temperature parameter are set can also be known. After confirming the settings, the passive lamp panel 10 with the pre-written display conditions can automatically transmit the brightness parameter and the color temperature parameter to other passive lamp panels 10 synchronously through the communication unit 102, and receive the display conditions The other passive lamp panel 10 can perform luminous display with the latest setting conditions according to the brightness parameter, the color temperature parameter and the corresponding time stamp. In this way, even if the settings are made multiple times for any one of the passive lamp panels 10, or for more than two passive lamp panels 10, the rest of the passive lamp panels can be activated after the power is turned on. 10 can be confirmed under which same display condition to emit light. Among them, in Figures 7 and 8, the passive lamp panel 10 is initially assembled to form a flat lamp type that can be installed on the ceiling. As shown in Figure 7, when any one of the passive lamp panels 10 passes through the After the control application program 11 of the mobile device 2 is pre-written with display conditions, when each passive light board 10 is reassembled with a driver and powered on, the communication unit 102 of each passive light board 10 is connected to each other by telecommunication, and the The brightness parameter and the color temperature parameter are synchronously transmitted to the microcontroller 101 of the remaining passive lamp board 10 through the communication unit 102, as shown in Figure 8, at this time, each lamp equipped with the passive lamp board 10 is Can be illuminated in the same light emitting state. Of course, this is only a preferred example, and the key point of the present invention is to set the passive lamp panel 10, rather than limit to control and set only the assembled lamps.

As mentioned above, the present invention is a technology for pre-writing display conditions for the passive lamp panel 10, and the passive lamp panel 10 refers to an object that is not powered by electricity, so if the passive lamp panel 10 that has not yet been powered by electricity , all belong to the setting objects that can be implemented in the present invention. For example, in practical applications, the passive light board 10 can be a light board that has not been embedded with LEDs, and components such as LEDs and drivers are installed after the display conditions are pre-written. Or please refer to FIG. 9 together, which is a schematic block diagram of another implementation of the preferred embodiment of the present invention. The passive lamp panel 10 can also be provided with a plurality of first LEDs 1031 on the first LED circuit 103 on it, and a plurality of second LEDs 1041 in the second LED circuit 104, the first LEDs 1031 and the second LEDs 1041 They have different light colors, and the first LEDs 1031 and the second LEDs 1041 are respectively arranged in series in a structural state without electric drive.

Please refer back to Figures 2 to 6, and refer to the content of the corresponding paragraphs above. The present invention also discloses a control system for pre-writing the display conditions of the passive light board in a coordinated action device. The control system includes at least one passive light board 10 and a Control app11. The passive lamp panel 10 is provided with the microcontroller 101 , the communication unit 102 , the first LED circuit 103 and the second LED circuit 104 , and the microcontroller 101 and the communication unit 102 are electrically connected to each other. The characteristics of the passive lamp panel 10 are as described in the previous corresponding paragraphs, and it is an object without electric drive. Please refer to the above content for the rest of the relevant detailed description, and will not repeat it here.

The control application program 11 is loaded in the mobile device 2, the control application program 11 includes a display interface 111 and a backlight adjustment unit 112, the display interface 111 and the backlight adjustment unit 112 are connected by telecommunication, the display interface 111 is for the user to input a brightness parameter and a color temperature parameter to the control application program 11, wherein the brightness parameter is obtained when the control application program 11 receives a first operation gesture A selection, and the backlight adjustment unit 112 is based on the The first operation gesture A causes the backlight of the mobile device 2 to change its display brightness synchronously, and stay at the corresponding brightness parameter after the brightness parameter is selected. The display brightness of the number; the color temperature parameter is obtained when the control application program 11 receives a second operation gesture B selection, and the backlight adjustment unit 112 makes the backlight of the mobile device 2 change synchronously according to the second operation gesture B It displays the color temperature, and stays at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected; when the mobile device 2 is close to the passive light panel 10, the mobile device 2 forms a near field communication connection with the communication unit 102, To pre-write the brightness parameter and the color temperature parameter into the microcontroller 101 . In this way, the display state pre-writing operation is performed on the passive lamp board 10 that has not been driven by power, and the microcontroller 101, the first LED circuit 103 and the second LED circuit are installed on the passive lamp board 10 After 104 is electrically connected to a driver (not shown in the figure), the microcontroller 101 reads and calculates the brightness parameter and the color temperature parameter to form an execution command, and then transmits the execution command to the driver, so that The driver drives the first LED circuit 103 and the second LED circuit 104 according to the execution command, so that the display of the passive lamp panel 10 meets the conditions of the brightness parameter and the color temperature parameter. Regarding the setting action of the aforementioned control application program 11 and the action of pre-writing the display conditions to the passive light panel 10, refer to Figures 4A-5B, so that these technical features can be more clearly understood.

The control system can pre-write the control settings of the display conditions for the passive light panel 10 that is "not driven by electricity", so that it can greatly improve the convenience of setting lighting requirements for users in all directions Especially for interior decoration operators, the control system provides a new setting mode, so that the passive light panel 10 can be pre-set according to the subsequent desired lighting presentation before the power is turned on. Personnel do not need to energize the passive light panel 10 first to form an active state with electric drive and then set it, which can greatly improve the efficiency and convenience of operation. The rest of the relevant function descriptions and the application scenarios for implementation are the same as those in the control method paragraph, and will not be repeated here.

Similarly, various technical features that can be further added in the description of the aforementioned control method are also applicable to the control system, for example, in order to provide a more intuitive operation, so that the user can use the passive control method in a simpler, faster and more convenient way. The light board 10 is set, preferably, the first operation gesture A can be made to slide up and down, and the second operation gesture B can be made to slide left and right, or the first operation gesture A can be made to slide left and right, and the second gesture B can be used to slide left and right. The operation gesture B is sliding up and down, so that the user can adjust and select the desired brightness parameter and color temperature parameter by simply sliding in various directions.

In addition, as shown in Figures 3 to 5B, the display interface 111 is to simultaneously display any one of the brightness options C and any one of the color temperature options D, and when the user uses the first operation gesture A and the second operation gesture B When sliding, the brightness option C and the color temperature option D are switched accordingly. Accordingly, the user can be provided with a more simplified operation interface, and at the same time, the user can quickly and clearly know the current brightness option What is C and the color temperature option D? And when the user uses the first operation gesture A and the second operation gesture B to switch the brightness option C and the color temperature option D, the backlight of the mobile device 2 is controlled by the backlight adjustment unit 112 and automatically according to different The brightness option C and the color temperature option D display the corresponding brightness and color temperature status, so that the user can preview the subsequent light emitting status of the passive light panel 10 while selecting.

In order to remind the user of the setting state of the passive lamp panel 10, the control application program 11 may include a prompt unit 114, which is connected to the communication unit 102 by telecommunication, so as to preset the brightness parameter and the color temperature parameter. After the microcontroller 101 is written, the mobile device 2 is driven to send out a vibration prompt, as shown in FIG. 6 . Accordingly, the effect of quickly informing the user can be achieved through the tactile prompt. Since the backlight of the mobile device 2 already has the display function of providing the user with a preview of the brightness and color temperature status in real time, in terms of the prompt of the setting status, In the present invention, the user is further selected to let the user know whether the setting has been completed through a vibration method.

When the passive lamp board 10 is provided in plural, the communication unit 102 of each passive lamp board 10 is connected to each other by telecommunication, so that after any one of the passive lamp boards 10 is pre-written with the brightness parameter and the color temperature parameter, the The brightness parameter and the color temperature parameter are synchronously transmitted to the microcontroller 101 of the other passive lamp panels 10 through the communication unit 102 . In this way, it is only necessary to write the brightness parameter and the color temperature parameter for any one of the passive lamp panels 10. After each passive lamp panel 10 is driven by power, the passive lamp panel 10 with the pre-written display conditions can automatically pass through the The communication unit 102 transmits the brightness parameter and the color temperature parameter to other passive lamp panels 10 synchronously, thereby greatly improving setting efficiency. Here you can refer to Figures 7 and 8 and the corresponding paragraphs above.

Furthermore, please refer to Figure 9 for combination and collocation. The control application program 11 can pre-set lighting-related options that are commonly used or more in line with public needs, so that users can quickly adjust and select desired lighting settings. According to this The control application program 11 includes a storage unit 113, which stores a plurality of brightness options C and a plurality of color temperature options D for the user to select any one of the brightness options with the first operation gesture A and the second operation gesture B C and any one of the color temperature options D enable the control application program 11 to obtain the brightness parameter and the color temperature parameter. Preferably, the brightness options C are respectively 25%, 50%, 75% and 100%, and the color temperature options D are respectively 2700K, 3000K, 3500K, 4000K, 4500K and 5000K, which can meet general lighting requirements.

And as mentioned above, as long as it is the passive lamp panel 10 without electric drive, it is the object of the present invention. Therefore, after the display conditions are pre-written into the microcontroller 101 of the passive lamp panel 10, Then set the driver and LED components synchronously on the passive lamp board 10, or make the passive lamp board 10 on which a plurality of first LEDs 1031 are arranged on the first LED circuit 103, and the second LED circuit 104 is provided with A plurality of second LEDs 1041, the first LEDs 1031 and the second LEDs 1041 have different light colors, and the first LEDs 1031 and the second LEDs 1041 are respectively arranged in series, and through The control application program 11 pre-sets the display conditions of the passive lamp panel 10, and then reconfigures the driver. For further detailed descriptions of the above technical features that can be added to the control system, please refer to the corresponding content in the preceding paragraphs.

To sum up, the control method and system for pre-writing the display conditions of the passive light panel in the cooperative mobile device of the present invention can use the mobile device to pre-write the display conditions for the passive light panel that "does not have electric drive", so as to be used in the After installing the driver and powering on the passive light board, it can emit light according to the written display conditions. At the same time, during the selection process, the backlight of the mobile device will change its brightness and color temperature synchronously according to the user's selection. Status, to achieve the effect of using the mobile device to preview the lighting status, so that the user can easily, quickly and accurately select the required lighting display conditions. Compared with the traditional technology that can only control the luminous display of the lamps that have been powered on, this invention proposes a new method that can pre-write information when the lamp board is not powered on, which is different from the previous control mode. For all aspects For users, they all have the advantages of excellent setting convenience and simplified operation. At the same time, combined with the backlight of mobile devices to preview the lighting status, it improves the accuracy of setting and allows users to have better application experience. Whether it is an end user, an interior lighting installer, a lighting manufacturer, etc., the control method and system of the present invention can be used to quickly and easily use mobile devices to perform pre-setting of luminous displays. Further, in response to various application requirements, and considering how to provide users with more intuitive and simple setting control, the control method and system can also add the technical features described in the previous paragraphs, such as facing multiple passive In the application scenario of the light board, it is only necessary to set any one of the passive light boards, and after power on, each of the passive light boards can communicate with each other and run simultaneously with the same display conditions; or set the first operation gesture and the The second operation gesture is to slide up and down or left and right respectively, so that it is more convenient for the user to set the brightness parameter and the color temperature parameter; or the control application program has multiple brightness options and color temperature options built in, so that the user can quickly Select the desired display state, etc.

However, the above-mentioned ones are only preferred embodiments of the present invention, and are not used to limit the scope of the present invention; therefore, equivalent changes and modifications made without departing from the scope of the present invention should be covered by the present invention within the scope of the patent.

S01~S03: Steps

Claims (18)

A control method for pre-writing the display conditions of a passive light board in a coordinated action device, comprising the following steps: providing at least one passive light board, wherein the passive light board is provided with a microcontroller, a communication unit, a first LED circuit and a The second LED circuit, the microcontroller and the communication unit are electrically connected to each other; start a control application program loaded on a mobile device; input a brightness parameter from a display interface of the control application program, wherein the brightness parameter is The control application receives a first operation gesture selection, and the backlight of the mobile device changes the display brightness synchronously according to the first operation gesture through a backlight adjustment unit of the control application, and in the brightness parameter After being selected, it stays at the display brightness corresponding to the brightness parameter; and a color temperature parameter is input by the control application program, wherein the color temperature parameter is obtained after the control application program receives a second operation gesture selection, and the backlight of the mobile device The source is to change the display color temperature synchronously according to the second operation gesture through the backlight adjustment unit of the control application program, and stay at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected; and bring the mobile device closer to the Passive light board, which enables the mobile device to form a near-field communication connection with the communication unit, so as to pre-write the brightness parameter and the color temperature parameter into the microcontroller; thereby displaying the passive light board without power drive State pre-writing action, and after the passive light board is installed with a driver electrically connected to the microcontroller, the first LED circuit and the second LED circuit to obtain power supply, the microcontroller reads Get and calculate the brightness parameter and the color temperature parameter to form an execution command, and then transmit the execution command to the driver, so that the driver The first LED circuit and the second LED circuit are driven according to the execution command, so that the display of the passive lamp panel meets the conditions of the brightness parameter and the color temperature parameter. The control method according to claim 1, wherein the first operation gesture is sliding up and down, and the second operation gesture is sliding left and right; or the first operation gesture is sliding left and right, and the second operation gesture is sliding up and down slip. The control method as described in claim 2, wherein a plurality of brightness options and a plurality of color temperature options are set in the control application program for the user to select any one of the brightness with the first operation gesture and the second operation gesture option and any one of the color temperature options, so that the control application program can obtain the brightness parameter and the color temperature parameter. The control method according to claim 3, wherein, after the brightness parameter and the color temperature parameter are pre-written into the microcontroller, the mobile device emits a vibration prompt or a sound prompt. The control method as described in claim 4, wherein the display interface displays any one of the brightness options and any one of the color temperature options simultaneously, and when the user uses the first operation gesture and the second operation gesture on the display interface When sliding, the brightness option and the color temperature option are switched accordingly. The control method as described in claim 5, wherein, when there are multiple passive lamp panels, the communication units of each passive lamp panel are connected to each other by telecommunication, so that any one of the passive lamp panels is pre-written with the brightness parameter and the color temperature parameter, the brightness parameter and the color temperature parameter are synchronously transmitted to the microcontrollers of the other passive lamp panels through the communication unit. The control method as described in claim 6, wherein, the first LED circuit is provided with a plurality of first LEDs, the second LED circuit is provided with a plurality of second LEDs, and the first LEDs and the second LEDs have different light colors, and the first LEDs and the second LEDs are respectively arranged in series. The control method as described in Claim 7, wherein the brightness options are 25%, 50%, 75% and 100% respectively. The control method as described in Claim 8, wherein the color temperature options are 2700K, 3000K, 3500K, 4000K, 4500K and 5000K respectively. A control system for pre-writing the display conditions of a passive light panel with a coordinated action device, comprising: at least one passive light panel, equipped with a microcontroller, a communication unit, a first LED circuit and a second LED circuit, the microcontroller The communication unit is electrically connected with each other; and a control application program is loaded in a mobile device, the control application program includes a display interface and a backlight adjustment unit, and the display interface and the backlight adjustment unit are mutually telecommunication connected, the display interface is for the user to input a brightness parameter and a color temperature parameter to the control application program, wherein the brightness parameter is obtained when the control application program receives a first operation gesture selection, and the backlight adjustment unit is based on the The first operation gesture causes the backlight of the mobile device to change its display brightness synchronously, and stay at the display brightness corresponding to the brightness parameter after the brightness parameter is selected; the color temperature parameter is selected by the control application program after receiving a second operation gesture obtained, and the backlight adjustment unit makes the backlight of the mobile device change its display color temperature synchronously according to the second operation gesture, and stays at the display color temperature corresponding to the color temperature parameter after the color temperature parameter is selected; when the action The device is close to the passive light board, and the mobile device forms a near-field communication connection with the communication unit to pre-write the brightness parameter and the color temperature parameter into the microcontroller; thereby, the passive light without power drive The board performs the display state pre-writing operation, and after the passive lamp board is equipped with a driver electrically connected to the microcontroller, the first LED circuit and the second LED circuit to obtain power supply, the microcontroller The device reads and calculates the bright temperature parameter and the color temperature parameter to form an execution command, and then transmit the execution command to the driver, so that the driver drives the first LED circuit and the second LED circuit according to the execution command, and then makes the display of the passive light panel It meets the conditions of the brightness parameter and the color temperature parameter. The control system according to claim 10, wherein the first operation gesture is sliding up and down, and the second operation gesture is sliding left and right; or the first operation gesture is sliding left and right, and the second operation gesture is sliding up and down slip. The control system as described in claim 11, wherein the control application program includes a storage unit, which stores a plurality of brightness options and a plurality of color temperature options for the user to use the first operation gesture and the second operation gesture Select any of the brightness options and any of the color temperature options to enable the control application to obtain the brightness parameter and the color temperature parameter. The control system as described in claim 12, wherein the control application program includes a prompt unit, which is connected to the communication unit by telecommunication, so as to drive the mobile device after the brightness parameter and the color temperature parameter are pre-written into the microcontroller A vibration prompt or a sound prompt is issued. The control system according to claim 13, wherein the display interface displays any one of the brightness options and any one of the color temperature options synchronously, and when the user slides with the first operation gesture and the second operation gesture, The brightness option and the color temperature option are switched accordingly. The control system as described in claim 14, wherein, when there are multiple passive lamp panels, the communication units of each passive lamp panel are connected to each other by telecommunication, so that any one of the passive lamp panels is pre-written with the brightness parameter and the color temperature parameter, the brightness parameter and the color temperature parameter are synchronously transmitted to the microcontrollers of the other passive lamp panels through the communication unit. The control system as described in claim 15, wherein the first LED circuit is provided with a plurality of first LEDs, the second LED circuit is provided with a plurality of second LEDs, the first LEDs and the The second LEDs have different light colors, and the first LEDs and the second LEDs are respectively arranged in series. The control system according to claim 16, wherein the brightness options are 25%, 50%, 75% and 100% respectively. The control system according to claim 17, wherein the color temperature options are 2700K, 3000K, 3500K, 4000K, 4500K and 5000K respectively.

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