CN113438770A

CN113438770A - Interactive induction system of city light

Info

Publication number: CN113438770A
Application number: CN202110580931.3A
Authority: CN
Inventors: 朱恺; 朱镜霖; 宋达旺; 肖栋
Original assignee: Shenzhen Mingzhihui Construction Engineering Co ltd
Current assignee: Shenzhen Mingzhihui Construction Engineering Co ltd
Priority date: 2021-05-26
Filing date: 2021-05-26
Publication date: 2021-09-24

Abstract

The application relates to the field of electric light source control, in particular to an urban light interactive induction system, which comprises a plurality of light sources and a master control end, wherein the master control end is used for controlling the light change of the light sources; the main control end comprises a first controller, the first controller comprises a main light adjusting module and a main angle adjusting module, the main light adjusting module is used for adjusting the color and the brightness of the landscape lamp light, and the main angle adjusting module is used for adjusting the orientation of the light. This application has the effect that makes things convenient for visitor and landscape lamp to carry out interdynamic.

Description

Interactive induction system of city light

Technical Field

The application relates to the field of electric light source control, in particular to an urban lamplight interactive induction system.

Background

The landscape lamp is an indispensable part in modern landscape, not only has higher ornamental value, but also emphasizes the coordination and unification of the landscape of the lamp with the historical culture and the surrounding environment of a scenic spot. The landscape lamp uses different shapes, different light colors and brightness to make a landscape.

At present, most landscape lamps are operated according to a predetermined program, and the change of the light is controlled by a pre-designed program. By improving the light design and the rewriting of the program, different light shows and the like can be performed.

In view of the above-mentioned related technologies, the inventor believes that, in the use process of the facade landscape lamp, the facade landscape lamp plays the set landscape content, and the tourists view only in a visiting way, so that the tourists are difficult to interact with the landscape lamp, and the interactivity between the landscape lamp and the tourists is poor.

Disclosure of Invention

In order to facilitate interaction between tourists and landscape lamps, the application provides an urban lamplight interaction induction system.

The application provides a pair of city light interactive induction system adopts following technical scheme:

an urban light interactive induction system comprises a plurality of light sources and a master control end, wherein the master control end is used for controlling light changes of the light sources;

the total control end includes first controller, first controller includes total light adjusting module and total angle adjusting module, total light adjusting module is used for adjusting the colour and the luminance of landscape lamp light, total angle adjusting module is used for adjusting the orientation of light.

Through adopting above-mentioned technical scheme, the light source comprises facade view banks, and total light adjusting module and total angle adjusting module adjust the light of light source, make things convenient for the visitor to adjust light according to own hobby and shooting demand, increase the interdynamic of visitor and view lamp.

Optionally, the first controller further includes a mode selection module, which selects to perform all the light source control or to perform control on a single light source.

Through adopting above-mentioned technical scheme, the visitor can be served at total control and adjust solitary light source, also can adjust whole light sources, makes things convenient for the visitor to carry out the independent combination to the light source, promotes the maneuverability of light source.

Optionally, the system further comprises a plurality of sub-control ends, each sub-control end is connected with one light source, and each sub-control end is connected with the main control end;

the sub-control end includes the second controller, the second controller includes sub-light adjusting module and sub-angle adjusting module, sub-light adjusting module is used for adjusting the colour and the luminance of singly organizing landscape lamp light, sub-angle adjusting module is used for adjusting the orientation of single light source light.

Through adopting above-mentioned technical scheme, when the visitor is more, and when the operation desire to the landscape lamp is comparatively strong, arrange the visitor and carry out the control of landscape lamp on sub-control end, shorten visitor's waiting pressure, make things convenient for more visitors and landscape lamp to carry out interdynamic.

Optionally, the main control end further includes a first touch screen controller, and the sub-control end further includes a second touch screen controller.

By adopting the technical scheme, the control of the master control end and the sub-control end is more directly carried out in a touch mode, and the light source is conveniently adjusted.

Optionally, the system further comprises a mobile data transmission end for the tourists to upload image information to the sub-control end and the main control end;

the master control end also comprises a first information receiver, the first information receiver is used for receiving the image information sent by the mobile data transmission end and sending the image information to the first controller, the first controller also comprises an information acquisition module, and the information acquisition module receives the image information sent by the first information receiver and analyzes and processes the image information;

the sub-control end also comprises a second information receiver, the second information receiver is used for receiving the image information sent by the mobile data transmission end and sending the image information to a second controller, and the second controller also comprises an information transmission module, and the information transmission module receives the image information sent by the second information receiver and analyzes and processes the image information.

By adopting the technical scheme, the sub-control end and the main control end automatically adjust the landscape lamp into the content on the image after image analysis by reading the image uploaded by the tourist, so that the adjustment of the light of the landscape lamp is more intelligent, and more tourists can conveniently carry out different interactions.

Optionally, the system further comprises a switch, which is used for information exchange and transmission of the master control end and the sub control end.

Through adopting above-mentioned technical scheme, total control end and sub-control end exchange the sharing to the image that the visitor uploaded, make things convenient for the visitor to carry out the adjustment of pluralism to light as required, promote the interactivity of visitor and landscape lamp.

Optionally, the information transmission module includes an information reading unit and an image output unit, the information reading unit reads the image information sent by the second information receiver, analyzes and generates a preview, sends the information of the preview to the image output unit, and the image output unit sends the light change data to the light source.

By adopting the technical scheme, the lamplight such as landscape is automatically adjusted after being identified according to different images uploaded by tourists. And different images adopt different transmission modes, so that the image transmission is more accurate.

Optionally, the information transmission module further includes an image adjusting unit, which is used for the guest to edit the preview image, read and analyze the edit information of the guest on the preview image, and edit the preview image according to the analysis result.

By adopting the technical scheme, the preview image is edited, so that the adjustment of the color brightness and the light angle of light can be conveniently carried out according to the actual scene condition of the interaction of the tourists, and the light can be conveniently adapted to the surrounding environment.

Optionally, the information acquisition module includes an analysis unit and an image transmission unit, the analysis unit reads the image information sent by the first information receiver, analyzes and generates a preview, sends the information of the preview to the image transmission unit, and the image transmission unit sends the light change data to the light source.

By adopting the technical scheme, the images uploaded by the tourists are analyzed, and are distributed to different processing units, so that the recognition precision of the images and characters is improved, and the adjustment precision of the light of the landscape lamp is improved.

Optionally, the information acquisition module further includes an image processing unit, which is used for the tourist to edit the preview image, read and analyze the edit information of the tourist on the preview image, and edit the preview image according to the analysis result.

By adopting the technical scheme, the preview image is edited and adjusted according to the actual situation of the scene, so that the tourists can conveniently adjust the actual light, and the light is convenient to adapt to the surrounding environment.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the tourist can control a single light source at the sub-control end, and can adjust all the light sources at the main control end, so that the interaction between the tourist and the landscape lamp is facilitated;

2. the visitor can upload to sub-control end or total control end with the image of oneself needs, makes things convenient for the visitor to carry out self-defined setting to light, promotes the interactivity of visitor and light.

Drawings

FIG. 1 is a system block diagram of an embodiment of the present application.

Fig. 2 is a system block diagram of the connection relationship between the master control end and the light source.

Fig. 3 is a system block diagram of the overall control end.

Fig. 4 is a system block diagram of the first controller.

FIG. 5 is a system block diagram of an information collection module.

Fig. 6 is a system block diagram of the sub-control terminal.

Fig. 7 is a system block diagram of the second controller.

Fig. 8 is a system block diagram of an information transfer module.

Fig. 9 is a flow chart of an embodiment of the present application.

Description of reference numerals: 1. a master control end; 11. a first touch screen controller; 12. a mode selection module; 13. a total angle adjustment module; 14. a total light adjusting module; 15. an information acquisition module; 151. an analysis unit; 152. an image processing unit; 153. an image transmission unit; 16. a first information receiver; 17. a first controller; 2. a light source; 3. a sub-control end; 31. a second touch screen controller; 32. a sub-angle adjusting module; 33. a sub light adjusting module; 34. an information transmission module; 341. an information reading unit; 342. an image adjusting unit; 343. an image output unit; 35. a second information receiver; 36. a second controller; 4. a mobile data transmission terminal; 5. a switch.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses city light interactive induction system. Referring to fig. 1 and 2, an interactive induction system for city lighting comprises a plurality of light sources 2, a main control terminal 1, a plurality of sub-control terminals 3, a switch 5 and a plurality of mobile data transmission terminals 4.

Each light source 2 is composed of a plurality of facade landscape lamps with angle adjusting devices, and is used for supplementing light to the surrounding environment.

The master control end 1 corresponds to a mobile data transmission end 4, and the mobile data transmission end 4 is used for transmitting image information to the master control end 1; each sub-control terminal 3 corresponds to a mobile data transmission terminal 4, and the mobile data transmission terminal 4 is used for transmitting image information to the corresponding sub-control terminal 3. The mobile data transfer terminal 4 here comprises various implementations, such as bluetooth input, USB input, wireless network input, etc.

The switch 5 is connected with the main control end 1 and each sub-control end 3, and is used for exchanging information between the main control end 1 and the sub-control ends 3 and between different sub-control ends 3.

The total control end 1 is used for adjusting the color, brightness and angle of the light of all the light sources 2 or the light of a single light source 2.

The sub-control terminals 3 are arranged in one-to-one correspondence with the light sources 2 and are used for adjusting the color, brightness and angle of the corresponding single light source 2.

Referring to fig. 3, the overall control terminal 1 includes a first touch screen controller 11, a first information receiver 16, and a first controller 17. The first touch screen controller 11 is configured to sense an operation of a guest on a preset touch screen to form an operation signal, and transmit the operation signal to the first controller 17, the first controller 17 is configured to feed back corresponding display page data to the first touch screen controller 11 according to the operation of the guest, and the first touch screen controller 11 controls the touch screen to display a corresponding page. The first information receiver 16 is used for receiving the image information sent by the corresponding mobile data transmission terminal 4.

Referring to fig. 4, the first controller 17 includes an information collection module 15, a mode selection module 12, a total light adjustment module 14, and a total angle adjustment module 13. In an initial state, no content or only prompt content is displayed on a preset touch screen, and after an operation signal formed by the operation of the first touch screen controller 11 on the touch screen by the guest is sensed and transmitted to the first controller 17, the mode selection module 12 feeds back the display page data selected by the mode to the first controller 17, so that the display page selected by the mode is displayed on the touch screen, and the guest can select to set a single light source 2 or all light sources 2 according to the display page selected by the mode. Here, after sensing the selection operation of the light source 2 performed by the guest on the touch screen, the first touch screen controller 11 sends the information of the light source 2 selected by the guest to the mode selection module 12 of the first controller 17 for storage.

Subsequently, the total light adjusting module 14 feeds back the display page data with the adjusted color and brightness to the first touch screen controller 11, and the total angle adjusting module 13 feeds back the display page data with the adjusted light angle to the first touch screen controller 11, so that the display page with the adjusted color and brightness and the display page with the adjusted light angle are displayed on the touch screen, and the guest can adjust the color and brightness information of the light source 2 selected by the guest in the mode selecting module 12 on the touch screen according to the two interfaces and adjust the light angle of the light source 2 selected before. After the adjustment is completed, the visitor clicks a preset confirmation button on the touch screen, and the first controller 17 sends the set color and brightness information and the set light angle information to the corresponding light source 2, so that the corresponding light source 2 adjusts the light color, brightness and angle of the light source according to the received information.

Referring to fig. 4 and 5, after the guest completes the selection of the control mode, the guest can upload the image information desired by the guest to the overall control terminal 1 through the mobile data transmission terminal 4. The first information receiver 16 of the main control end 1 is configured to receive image information sent by a guest, and forward the image information to each sub-control end 3 through the switch 5. The information acquisition module 15 includes an analysis unit 151, an image processing unit 152, and an image transmission unit 153. After receiving the image information sent by the guest, the analyzing unit 151 analyzes the pixel points of the received image information, counts up the number of the light beads included in the light source 2 selected by the guest, reduces the number of the pixels of the image according to the number of the light beads, matches the number of the pixel points of the image with the number of the light beads, and each pixel point corresponds to one light bead. For example, the picture pixels uploaded by the tourists are n × n, the number of the light beads in the light source is x × x, n is greater than x, the analyzing unit 151 lowers the picture pixels to x × x, each light bead corresponds to one pixel point, and the light of the light bead corresponds to the color and the gray of the pixel point. After that, the analysis unit 151 transmits the image information of which the processing is completed to the first touch screen controller 11 so that the image of which the processing is completed is displayed on the touch screen and can be edited.

Referring to fig. 5, the image processing unit 152 is for the guest to edit the on-screen preview image of the first touch screen controller 11. Specifically, the image processing unit 152 receives an editing operation signal of the guest on the screen of the first touch screen controller 11, and modifies the preview image on the screen accordingly according to the editing operation signal. After the tourist finishes the modification of the preview image and clicks and confirms, the analysis unit 151 reads the image data of the modified preview image and sends the image data to the image transmission unit 153, the image transmission unit 153 reads the image data sent by the analysis unit 151 and sends the color and gray scale information in the image data to the total light adjusting module 14, the total light adjusting module 14 sends the electronic information of the light into the light source 2, and the light source 2 automatically adjusts the color and brightness of the light according to the electronic information.

Referring to fig. 6, the sub control terminal 3 includes a second touch screen controller 31, a second information receiver 35, and a second controller 36. The second touch screen controller 31 is configured to sense an operation signal of the guest on a preset touch screen, and transmit the operation signal to the second controller 36. The second touch screen controller 31 is configured to feed back corresponding display page data to the second touch screen controller 31 according to the operation of the guest. The second information receiver is used for receiving the image information sent by the corresponding mobile data transmission terminal 4.

Referring to fig. 7, the second controller 36 includes a sub light adjusting module 33, a sub angle adjusting module 32, and an information transmitting module 34. The sub-lighting adjusting module 33 feeds back the display page data of color and brightness adjustment to the second touch screen controller 31, and the sub-angle adjusting module 32 feeds back the display page data of lighting angle adjustment to the second touch screen controller 31, so that the display page of color and brightness adjustment and the display page of lighting angle adjustment are displayed on the touch screen, and the guest can adjust the color and brightness information of the corresponding light source 2 on the touch screen according to the two interfaces and adjust the lighting angle of the light source 2.

Referring to fig. 8, the tourist uploads the image information desired by the tourist to the sub-control terminal 3 through the mobile data transmission terminal 4, and the second information receiver 35 is configured to receive the image information sent by the tourist and forward the image information to the main control terminal 1 and the other sub-control terminals 3 through the switch 5. The information transfer module 34 includes an information reading unit 341, an image adjusting unit 342, and an image output unit 343. After receiving the image information sent by the guest, the information reading unit 341 analyzes the pixel points of the received image information and generates a preview image on the screen of the second touch screen controller 31. The image adjusting unit 342 is for the guest to edit the preview image on the screen. The image output unit 343 reads the image data sent from the information reading unit 341 and sends the color and gradation information in the image data to the sub light adjusting module 33, and the sub light adjusting module 33 sends the electronic information of the color and gradation of the light into the light source 2.

The operation mode of the sub-control end 3 is basically the same as that of the main control end 1, and the differences are as follows: the sub-control terminal 3 only controls the individual light sources 2, and the specific operation mode and operation process can refer to the main control terminal 1, which is not described herein again.

Referring to fig. 9, an implementation principle of the city light interactive induction system in the embodiment of the present application is as follows: the tourist selects to control the main control terminal 1 or the sub-control terminal 3. When the tourist selects to control the master control end 1, the tourist selects whether to upload images. When the image is not uploaded by the guest, the first processor calls the mode selection module 12 for the guest to select, and generates a corresponding operation interface on the screen of the first touch screen controller 11 according to the selection of the guest. The total light adjusting module 14 and the total angle adjusting module 13 read the guest operating command and send the light adjusting information to the light source 2 according to the guest operating command.

The guest selects to upload the image by himself, uploads the image information from the mobile data transmission terminal 4, and the analysis unit 151 reads the image information and generates a preview on the screen of the first touch screen controller 11. When the tourist edits the preview, the image processing unit 152 collects the adjustment information of the preview image, sends the image information to the image transmission unit 153, sends the color and brightness information of the light to the total light adjustment assembly by the image transmission unit 153, and sends the color and brightness information of the light to the light source 2 by the total light adjustment assembly, so as to automatically adjust the color and brightness of the light source 2.

The operation mode of the guest selecting the sub-control end 3 is basically the same as that of the main control end 1, and the difference is that the sub-control end 3 controls the corresponding single light source 2.

The tourist changes sub control end 3 into total control end 1 as required, changes total control end 1 into sub control end 3, or when changing between the sub control end 3, can launch the information exchange request at the sub control end 3 or total control end 1 of controlling at present, accomplishes the information exchange back at switch 5, goes to corresponding total control end 1 or sub control end 3 and carries out the interdynamic of light source 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an interactive induction system of city light which characterized in that: the system comprises a plurality of light sources (2) and a master control end (1), wherein the master control end (1) is used for controlling the light change of the light sources (2);

total control end (1) includes first controller (17), first controller (17) are including total light adjusting module (14) and total angle adjusting module (13), total light adjusting module (14) are used for adjusting the colour and the luminance of landscape lamp light, total angle adjusting module (13) are used for adjusting the orientation of light.

2. The city light interactive induction system according to claim 1, characterized in that: the first controller (17) further comprises a mode selection module (12) for selecting either all of the light sources (2) to control or a single light source (2) to control.

3. The city light interactive induction system according to claim 1, characterized in that: the LED lamp further comprises a plurality of sub-control ends (3), each sub-control end (3) is connected with one light source (2), and each sub-control end (3) is connected with the main control end (1);

sub control end (3) include second controller (36), second controller (36) include sub light adjusting module (33) and sub angle modulation module (32), sub light adjusting module (33) are used for adjusting the colour and the luminance of single group landscape lamp light, sub angle modulation module (32) are used for adjusting the orientation of single light source (2) light.

4. A city light interactive induction system according to claim 3, characterized in that: the master control end (1) further comprises a first touch screen controller (11), and the sub-control end (3) further comprises a second touch screen controller (31).

5. A city light interactive induction system according to claim 3, characterized in that: the system also comprises a mobile data transmission terminal (4) for allowing tourists to upload image information to the sub-control terminal (3) and the main control terminal (1);

the master control end (1) further comprises a first information receiver (16), the first information receiver (16) is used for receiving image information sent by the mobile data transmission end (4) and sending the image information to a first controller (17), the first controller (17) further comprises an information acquisition module (15), and the information acquisition module (15) receives the image information sent by the first information receiver (16) and analyzes and processes the image information;

the sub-control terminal (3) further comprises a second information receiver (35), the second information receiver (35) is used for receiving the image information sent by the mobile data transmission terminal (4) and sending the image information to a second controller (36), the second controller (36) further comprises an information transmission module (34), and the information transmission module (34) receives the image information sent by the second information receiver (35) and analyzes and processes the image information.

6. The city light interactive induction system according to claim 5, characterized in that: the system also comprises a switch (5) which is used for information exchange and transmission of the master control end (1) and the sub-control end (3).

7. The city light interactive induction system according to claim 5, characterized in that: the information transmission module (34) comprises an information reading unit (341) and an image output unit (344), the information reading unit (341) reads the image information sent by the second information receiver (35), analyzes and generates a preview, sends the information of the preview to the image output unit (343), and the image output unit (343) sends the light change data to the light source (2).

8. The city light interactive induction system according to claim 7, characterized in that: the information transmission module (34) further comprises an image adjusting unit (342) for the tourists to edit the preview images, read and analyze the edit information of the tourists on the preview images and edit the preview images according to the analysis results.

9. The city light interactive induction system according to claim 5, characterized in that: the information acquisition module (15) comprises an analysis unit (151) and an image transmission unit (154), the analysis unit (151) reads image information sent by the first information receiver (16), analyzes and generates a preview, sends the information of the preview to the image transmission unit (153), and the image transmission unit (153) sends lamplight change data to the light source (2).

10. A city light interactive induction system according to claim 9, characterized in that: the information acquisition module (15) further comprises an image processing unit (152) for the tourists to edit the preview images, read and analyze the edit information of the tourists on the preview images, and edit the preview images according to the analysis results.