TWM488823U - Remote controllable illumination system - Google Patents

Description

Remote lighting system

A remote-controlled lighting system for lighting, especially in a handheld mobile communication device, remotely controlling a plurality of light source devices, and using the actuating light blinking frequency as a recognition, thereby controlling a specified light source device Remote lighting system.

According to the advancement of electronic technology and the continuous improvement of wireless transmission technology, the realization of smart life is realized. Through convenient wireless transmission technology, a mobile communication device (such as mobile phone, tablet computer, PDA, etc.) can be used in the environment. Electronic devices (such as TVs, computers, lamps, etc.) for remote control, wireless smart homes provide a richer, cheaper and faster life experience. Moreover, due to the popularity of smart phones, many inventors have The mobile phone wirelessly controls the electronic product by wireless transmission; for example, the Republic of China Patent Publication No. 201311052, "Light Source Control System and Light Source Control Method", which mainly discloses a system for controlling light source and controlling light source. The light source control system can include at least one light emitting element to provide illumination, and a handheld unit coupled to the light emitting element to control at least one light source State, a light intensity, and an illumination effect of the light-emitting element, the handheld unit can include an image capture component, and a processor coupled to the image capture component, the processor can be configured to control the image capture device to capture a spatially-accepted The light-emitting element affects one of the images, analyzes a brightness level of the space, receives a light-emitting parameter, and provides an instruction to the light-emitting element to control at least one light source state, such as the light-emitting element, according to at least the image, the brightness level, and the illumination effect. , et al., et al. (Buddhist wisdom control lighting device); (3) Chinese Patent No. CN201310259105.4 "Implementation Method for Handheld Control of Residential Toilet Equipment"; (4) Chinese Patent No. CN102958241 "Light Source Control System and Method, Handheld Device and Medium"; 5) Chinese Patent No. CN201310259105.4 "Implementation Method for Handheld Control of Residential Toilet Equipment"; (6) US Specialization No. US20130043797 "Lighting Control Systems and Methods"; (7) US Patent No. US20130214698 "Method and a User Interaction System for Controlling a Lighting System, a Portable Electronic Device and a Computer Program Product."

However, according to the techniques disclosed in the above-mentioned various previous cases, before the user wants to wirelessly control the lighting, the lamps will be connected with the mobile phone in advance, and the related information or operation interface can be further displayed on the mobile phone screen. It is still necessary to know in advance which luminaires corresponding to each virtual control button on the mobile phone. If multiple luminaires are installed in the same field, the user may have to try repeatedly after the operation. It is extremely inconvenient to operate to the user-designated luminaire. Therefore, how to allow the user to wirelessly control the specified luminaire even if he does not know the corresponding relationship between the luminaire and the virtual control button on the mobile phone, which is to be improved. problem.

In view of the above problems, the creator based on years of experience in related industries and product design, research and analysis of existing wireless control methods and lamp identification methods, can design better wireless remote control lamps; Therefore, the main purpose of the present invention is to provide a remote-controlled illumination system that recognizes the frequency of light emitted by the illumination device and can further operate the illumination device from the distal end.

In order to achieve the above objectives, the remote control lighting system of the present invention is mainly composed of a mobile communication device and more than one lighting device. The present invention mainly activates a mobile communication through a light source control program installed in the mobile communication device. A detecting unit of the device detects the number of lighting devices installed in the environment, so that the mobile communication device forms a information link with each lighting device, and further adjusts the original light blinking frequency of each lighting device, and adjusts the frequency The whole is equivalent to the preset light flashing frequency of the mobile communication device, thereby forming a flashing frequency of the actuating light. After the operator captures an image of the lighting device through the mobile communication device, the mobile communication device can detect the blinking frequency of the operating light of the lighting device. In addition, the lighting device is recognized, and the operator can directly operate the lighting device by using the light source control program of the mobile communication device. Therefore, the present invention uses the mobile communication device to wirelessly control the lighting device, which is excellent in convenience. Furthermore, the creation system recognizes the illumination device by the light flicker frequency of the illumination device, and the user can intuitively and quickly pre-control even if the user does not know the corresponding relationship between the illumination device and the virtual control button on the mobile communication device. The operation of the lighting device is simple and convenient, and also has excellent convenience.

In order for your review board to have a clear understanding of the purpose, technical features and effectiveness of this work, please refer to the following instructions for illustration.

10‧‧‧Remote lighting system

101‧‧‧Mobile communication device

102‧‧‧Lighting device

1011‧‧‧Control central processing unit

1021‧‧‧Lighting end processing unit

1012‧‧‧ camera module

1022‧‧‧Control Module

1013‧‧‧ display screen

1023‧‧‧Lighting signal transceiver unit

1014‧‧‧Control signal transceiver unit

1024‧‧‧Main light source module

1015‧‧‧Control side storage unit

1025‧‧‧Auxiliary light source module

1016‧‧‧Detection unit

1026‧‧‧Lighting end storage unit

1017‧‧‧Light sensing unit

1027‧‧‧Lighting end address

1018‧‧‧Light source control program

103‧‧‧Wireless transmission

1031‧‧‧First signal transmission unit

1032‧‧‧Signal conversion unit

1033‧‧‧Second signal transmission unit

11‧‧‧Mobile communication device detection lighting device program

12‧‧‧Light frequency setting procedure

13‧‧‧Lighting device frequency adjustment procedure

14‧‧‧Lighting device identification program

15‧‧‧Mobile communication device operating procedures

A1‧‧‧ operating area

F1‧‧‧Preset light flashing frequency

F2‧‧‧Preset light flashing frequency

M1‧‧‧frequency adjustment command

M2‧‧‧ operation order

I‧‧‧Light source image

Figure 1 is a schematic diagram of the composition of this creation.

Figure 2 is a diagram of the relative information link steps of the creation.

Figure 3 is a schematic diagram of the implementation of this creation (1).

Figure 4 is a schematic diagram of the implementation of this creation (2).

Figure 5 is a flow chart of the steps of the creation

Figure 6 is a schematic diagram of the implementation of this creation (3).

Figure 7 is a schematic diagram of the implementation of this creation (4).

Figure 8 is a schematic diagram of the implementation of this creation (5).

Figure 9 is a schematic diagram of the implementation of this creation (6).

Figure 10 is another embodiment of the present invention.

Figure 11 is a schematic view showing the implementation of another embodiment of the present creation

Please refer to "Figure 1", which shows a schematic diagram of the composition of the creation. The remote control illumination system 10 shown in the figure is mainly composed of a mobile communication device 101 and a lighting device 102. The mobile communication device 101 is mainly composed of a control terminal central processing unit 1011, a camera module 1012, a display screen 1013, a control terminal signal transceiving unit 1014, a control terminal storage unit 1015 and a detecting unit 1016. The central processing unit 1011 of the control terminal may be an MCU, a central processing unit (CPU), an ARM (Advanced RISC Machine, ARM), etc.; the camera module 1012 is electrically connected to the control end. The central processing unit 1011 can be an imaging lens; the display screen 1013 and the central processing unit 1011 of the control end are electrically connected, and can be a capacitive touch screen or a resistive touch screen; the control terminal transceiver unit 1014 And electrically connected to the central processing unit 1011 of the control terminal for receiving and transmitting a wireless signal, which can be Bluetooth, Wireless Fidelity (Wifi), wireless transmission The wireless transmission module such as zigbee and infrared is not limited thereto, and the control end storage unit 1015 and the central processing unit 1011 of the control end are electrically connected, and the internal preset array light flickering frequency (f1, f2... ), and a light source control program 1018 is accessed The control unit 1016 is electrically connected to the central processing unit 1011 of the control end for detecting a wireless transmission module corresponding to the control signal transceiver unit 1014 in the environment; a light sensing unit 1017 An electrical connection is made to the central processing unit 1011 of the control terminal for detecting the blinking frequency of a light in the environment. The lighting device 102 is mainly composed of an illumination processing unit 1021, a control module 1022, and an illumination. The terminal signal transceiver unit 1023, a main light source module 1024, an auxiliary light source module 1025 and an illumination terminal storage unit 1026; the illumination end processing unit 1021 and the control module 1022 are electrically connected, and the control module 1022 can be switched. The main light source module 1024 and the auxiliary light source module 1025 are turned on and off, so that the main light source module 1024 can be switched to the auxiliary light source module 1025 when the main light source module 1024 is not activated. Further, the control module 1022 can further control the main light source module 1024 and The blinking frequency of the light of the auxiliary light source module 1025; the illumination end signal transceiver unit 1023 is configured to receive and transmit a wireless signal, and has a lighting end address 1027, wherein the photo The end address 1027 can be a Media Access Control Address (MAC); the main light source module 1024 and the auxiliary light source module 1025 are respectively electrically connected to the control module 1022, wherein the The main light source module 1024 can be used as illumination, and the auxiliary light source module 1025 appears as a weak light source or invisible light in the use state, which can be an infrared light source, an ultraviolet light source or a light emitting diode light source, etc., but The illumination end storage unit 1026 is electrically connected to the illumination end processing unit 1021 for storing the preset light blinking frequency (f1, f2, ...).

Please refer to "Figure 2". The figure shows the relative information connection steps of the creation. Please refer to "3rd" to "4th". The figure shows the implementation of this creation. As shown in the figure, after the user executes the light source control program 1018 of the mobile communication device 101, the mobile communication device 101 and the illumination device 102 can be linked to each other. The relative information connection steps are as follows: (1) Action The communication device detects the illumination device program 11: Please match the "Fig. 3". As shown in the figure, after the light source control program 1018 is executed, the detection unit 1016 of the mobile communication device 101 will set the illumination device 102 within a certain range in the environment. Performing detection, and obtaining the illumination end address 1027 stored in the illumination device 102, the mobile communication device 101 further storing the illumination end address 1027 in the control end storage unit 1015, and simultaneously enabling the mobile communication device to recognize the illumination device. To complete the relative information link; (2) the light frequency setting program 12: the mobile communication device 101 transmits a set of preset light flashing frequencies f1 to the lighting device 102 according to the bright end address 1027; When the mobile communication device 101 is connected to the information of the plurality of sets of illumination devices 102, the mobile communication device 101 will respectively flash the preset light flashing frequencies according to the illumination end address 1027 transmitted by each illumination device 102 (f1, f2.. .) Transfer back to the corresponding lighting device 102; (3) Lighting device frequency adjustment program 13: Please refer to "4th picture", and the lighting device 102 receives the preset light flashing frequency f1, preset light blinking frequency The f1 is stored in the illumination end storage unit 1026. In addition, the illumination end processing unit 1021 of the illumination device 102 generates a frequency adjustment command M1 by the illumination end storage unit 1026 to generate a frequency adjustment command M1 to drive the control module. 1022, adjusting a primary light blinking frequency of the illumination device 102 to be equivalent to a preset light flashing frequency The rate f1, which in turn forms a blinking frequency of the actuating light.

Please refer to "Figure 5". The figure shows the flow chart of the operation steps of this creation. Please refer to "Figure 6" ~ "Figure 9". The figure shows the implementation of the creation (3)~ (6) As shown in the figure, after the lighting device 102 completes the frequency adjustment procedure, the operator can operate the lighting device 102 through the mobile communication device 101. The operation steps are as follows: (1) Illumination device identification program 14: Please refer to "Figure 6" and "Figure 7", as shown in the figure, the camera module 1012 of the mobile communication device 101 corresponds to the main light source module 1024 (or the auxiliary light source module 1025) of the pre-operated illumination device 102, so that The camera module 1012 captures a light source image I of the illumination device 102 and further displays it on a display screen of the display screen 1013 of the illumination device (as shown in FIG. 7), wherein the light perception of the mobile communication device 102 The measuring unit 1017 senses the blinking frequency of the actuating light generated by the main light source module 1024 (or the auxiliary light source module 1025), and after obtaining the blinking frequency of the actuating light, the light source control program 1018 activates the light blinking frequency. Central processing unit 1 by the control terminal 011 obtains the illumination end address 1027 information in the control end storage unit 1015 to compare the illumination end address 1027 corresponding to the actuation light blinking frequency, thereby completing the recognition of the illumination device 102 by the light source program 1018; (2) the action Communication device operation program 15: Please refer to "Fig. 8". After the illumination device 102 is recognized, the light source control program 1018 generates an operation area A1 on the display screen of the display screen 1013, and the operation area A1. The system is disposed on the display screen 1013 for the operator to view, and the operation area A1 is a virtual interface. Can be hidden in the display screen 1013, not as this Please refer to "Fig. 9". As shown in the figure, after the operator further clicks the display screen on the display screen 1013, the light source control program 1018 generates an operation command M2 from the central processing unit 1011 of the control terminal, and further controls the operation. The terminal transceiver unit 1014 sends an operation command M2 to the illumination device 102. After receiving the illumination signal transceiver unit 1023, the illumination processing unit 1021 transmits the main light source module 1024 (or the auxiliary light source module 1025) through the control module 1022. Actuating, wherein the operation command M2 can be turning on the light source, turning off the light source, adjusting the brightness of the light source, and the like.

Please refer to FIG. 10, which is another embodiment of the present invention. As described above, the mobile communication device 101 and the lighting device 102 mainly transmit data through the wireless module of the same transmission specification. The mobile communication device 101 (such as a mobile phone) usually adopts Wifi or Bluetooth. However, the existing Bluetooth and Wifi modules are relatively expensive, which will cause the cost of the lighting device 102 to be too high. Moreover, the existing Wifi transmission distance is limited. When the installation environment of the lighting device is large, the user needs to install a plurality of wireless routers to maintain the signal quality between the mobile communication device 101 and the lighting device 102. However, the price of the wireless router is high. The user will incur more cost; the luminaire system 10 as shown has a wireless transmission device 103 which can be formed into a switch pattern and mounted on a wall surface and a power line in the house. After the electrical connection is completed, the wireless transmission device 103 can also form a plug-in state, and directly connect the wireless transmission device 103 to a socket to complete the electrical connection, which is not limited thereto. The wireless transmission device 103 is configured to convert the wifi signal of the mobile communication device 101 into a 2.4G signal. Since the 2.4G transmission module is relatively inexpensive, there may be To reduce the manufacturing cost of the lighting device 102; please refer to "FIG. 11", which is a schematic diagram of another embodiment of the present invention, as shown in the wireless transmission device 103, having a first The signal transmission unit 1031, a signal conversion unit 1032, and a second signal transmission unit 1033 are configured. The signal conversion unit 1032 is electrically connected between the first signal transmission unit 1031 and the second signal transmission unit 1033, and is first. The signal transmission unit 1031 completes the information connection with the control terminal transceiver unit 1014. The information connection is mainly performed through the wireless fidelity (Wifi) technology, and the second signal transmission unit 1033 is connected to the illumination terminal signal. The transceiver unit 1023 completes the information connection, and the information connection can be completed through a wireless transmission module such as 2.4G, Bluetooth, Wireless Fidelity (Wifi), zigbee, infrared, etc., wherein 2.4G is used. In the preferred embodiment, when the first signal transmission unit 1031 of the wireless transmission device 103 receives the signal sent by the mobile communication device 101, the signal is transmitted. The changing unit 1032 converts the wifi signal into a 2.4G signal, and transmits the wifi signal to the illuminating device 102 via the second signal transmitting unit 1033. Since the wireless transmitting device 103 is cheaper to manufacture than the wireless router, the wireless transmitting device 103 It can be plugged into a general socket and is less subject to site restrictions.

As can be seen from the above, the remote control lighting system referred to in the present invention mainly controls one or more lighting devices by a mobile communication device, and can realize mobile communication when a light source control program of the mobile communication device is executed. The device detects the lighting device and obtains a photo of each lighting device The Media Access Control Address (MAC) enables the mobile communication device to recognize the lighting device and further complete the relative information link, and the mobile communication device further transmits a preset light flicker frequency to a control module of the lighting device. So that the original light source flashing frequency of one of the main light source module or the auxiliary light source module of the illumination device is adjusted to be equal to the preset light flashing frequency, thereby forming a flashing frequency of the actuating light, and the operator uses one of the mobile communication devices. The camera module captures an image of the illumination device and displays it on a display screen of the mobile communication device, and further detects the actuation light flashing frequency of the illumination device with a light sensing unit to identify the illumination device, and the operator further The light source control program can be used to send an operation command to the control module of the lighting device to drive the main light source module or the auxiliary light source module to generate an action; accordingly, the present invention can be implemented to provide a lighting device. The emitted light flashing frequency is used as a remote control for identification and further operation of the lighting device by the selection terminal The purpose of the lighting system.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; any person skilled in the art can make equal changes and modifications without departing from the spirit and scope of the present invention. , should be covered by the scope of this creation patent.

In summary, the effectiveness of this creation is in the form of new types of patents such as “industry availability,” “novelty,” and “progressiveness”; the applicant filed a new patent with the bureau in accordance with the provisions of the Patent Law. Application.

101‧‧‧Mobile communication device

102‧‧‧Lighting device

1013‧‧‧ display screen

A1‧‧‧ operating area

Claims (10)

A remote control illumination system comprising: a mobile communication device having a control terminal central processing unit, a detection unit, a camera module, a light sensing unit, a control terminal transceiver unit, and a control terminal The storage unit is respectively connected with the central processing unit of the control terminal, and a light source control program is accessed by the control terminal storage unit, and the light source control program drives the central processing unit of the control terminal, the detection unit, the camera module, and the The light sensing unit and the control terminal signal transmitting and receiving unit actuate; the lighting device has a lighting end central processing unit, a control module, an illumination end signal transceiver unit, and an illumination end storage unit respectively and the illumination end center The processing unit is provided with information, a main light source module and an auxiliary light source module are driven by the control module, and the lighting end storage unit stores a lighting end address; the mobile communication device is detected by the detecting unit The illumination end address of the illumination device enables the mobile communication device to complete mutual information connection with the illumination device, and further, the line The communication device further transmits a preset light flashing frequency to the lighting device by the control terminal signal transmitting and receiving unit, and after receiving the lighting device, the central processing unit of the lighting end drives the control module, and the main light source module and the The primary light blinking frequency of one of the auxiliary light source modules is adjusted to be equal to the preset light blinking frequency, thereby forming an actuating light blinking frequency; and the camera module of the mobile communication device corresponds to the primary light source module or the When the auxiliary light source module is used, the light sensing unit can sense the operating light The blinking frequency is used to identify the lighting device, and the operator can directly operate the lighting device with the light source control program of the mobile communication device. The remote control illumination system of claim 1, wherein the auxiliary light source module of the illumination device is in an active state when the main light source module is not activated. The method of implementing the remote control illumination system of claim 2, wherein the light sensing unit senses the blinking frequency of the actuating light of the auxiliary light source module. The remote control illumination system of claim 1, wherein the auxiliary light source module is infrared. The remote control lighting system remote control lighting system of claim 1, wherein the mobile communication device has a display screen. The remote control lighting system as claimed in claim 1, wherein the control terminal transceiver unit and the illumination terminal transceiver unit are connected by Bluetooth, Wireless Fidelity (Wifi), or wireless transmission. One of the modules zigbee, or infrared, completes the information link. The remote control illumination system of claim 1, wherein the illumination end address is an Access Control Address (MAC). The remote control illumination system of claim 1, wherein the remote control illumination system has a wireless transmission device, and the wireless transmission device completes information connection with the mobile communication device and the illumination device, the wireless transmission device Having a first signal transmission unit, a signal conversion unit and a second signal transmission unit, the signal conversion unit is electrically connected to the first signal transmission The signal conversion unit is configured to convert a wifi signal into a 2.4G signal between the transmission unit and the second signal transmission unit. The remote control lighting system of claim 8, wherein the first signal transmission unit and the control signal transceiver unit complete the information connection, and the relationship between the two is mainly wireless fidelity (Wifi). ) Complete the information link. The remote control lighting system of claim 8, wherein the second signal transmission unit and the illumination signal transceiver transmission unit complete the information connection, with 2.4G, or Bluetooth, or One of the wireless fidelity (Wifi), wireless transmission module zigbee, or infrared to complete the information link.